WO2011099662A1 - Variable traveling system using double driving tracks and a free wheel arm - Google Patents
Variable traveling system using double driving tracks and a free wheel arm Download PDFInfo
- Publication number
- WO2011099662A1 WO2011099662A1 PCT/KR2010/000908 KR2010000908W WO2011099662A1 WO 2011099662 A1 WO2011099662 A1 WO 2011099662A1 KR 2010000908 W KR2010000908 W KR 2010000908W WO 2011099662 A1 WO2011099662 A1 WO 2011099662A1
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- WIPO (PCT)
- Prior art keywords
- drive
- track
- motor
- fuselage frame
- gear
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62D—MOTOR VEHICLES; TRAILERS
- B62D55/00—Endless track vehicles
- B62D55/06—Endless track vehicles with tracks without ground wheels
- B62D55/075—Tracked vehicles for ascending or descending stairs, steep slopes or vertical surfaces
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62D—MOTOR VEHICLES; TRAILERS
- B62D55/00—Endless track vehicles
- B62D55/06—Endless track vehicles with tracks without ground wheels
- B62D55/065—Multi-track vehicles, i.e. more than two tracks
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62D—MOTOR VEHICLES; TRAILERS
- B62D55/00—Endless track vehicles
- B62D55/08—Endless track units; Parts thereof
- B62D55/18—Tracks
- B62D55/20—Tracks of articulated type, e.g. chains
- B62D55/205—Connections between track links
- B62D55/21—Links connected by transverse pivot pins
Definitions
- the present invention relates to a variable driving system using a dual drive track and a freewheel arm, and to install an endless track each of which is controlled at an angle by a predetermined distance from both front and rear ends of the fuselage frame of the driving system, and between arms spaced apart.
- the present invention relates to a variable driving system having a freewheel having a shape, which improves obstacle overcoming and running properties of a traveling system.
- a traveling device configured to move the ground by using rotational power such as a motor or an engine is divided into a method using a track and a method using a wheel.
- using the caterpillar sometimes called Caterpillar
- the surface contact with the ground has a large area so that the road can be freely driven on uneven roads or muddy ground.
- unmanned robots capable of remote control such as unmanned surveillance of buildings, civil surveillance of dangerous areas where nuclear reactors or dangerous goods exist, civilian use such as exploration and data collection, military exploration, mine detection and removal, etc. (Or self-propelled robots) are used a lot of crawler.
- the traveling device of the unmanned robot used for such a purpose is required to climb the stairs.
- the driving device of the unmanned robot is composed of wheels, the stability when climbing stairs is largely insufficient, and when configured as an infinite track, there is a difficulty in configuring the first stairs to climb up.
- Crawler conveying device for stairway climbing in Korea No. 177,545, stairway lifting device in No. 374,755, staircase, ramp, rough road traveling device, 2004-8373 stairway climbing The four-wheel linkage traveling system of the six-wheeled traveling robot, the link type track device of 2004-8374, and the like are disclosed.
- the Patent Publication Nos. 2003-22172 and 2004-8373 are configured to connect the six or eight wheels by a plurality of links to sequentially climb the stairs while changing the height and relative position of the front and rear wheels.
- the traveling device since the traveling device is constituted by the wheels, the radius of rotation increases, and there is a problem in that a link structure connecting six or eight wheels is complicated and lacks stability in climbing stairs. If the rotation radius of the traveling device is increased in the above, there is a problem that the direction change or U-turn can not be more than 90 ° in a narrow space.
- the patent No. 177,545 is configured to deform and support the shape of the belt according to the situation when climbing the stairs using the belt support device and jack consisting of two divided front and rear active members.
- the belt support device contacts the inner surface of the belt, power loss occurs while driving, and it is impossible to apply it when it is used in a place where the height is low because it requires space for installing a jack on the upper part of the belt. There is a problem.
- Patent No. 374,755 is configured to travel with wheels and to climb stairs using endless tracks.
- the front and rear wheels are erected so that the endless track does not come into contact with the ground during driving and the front and rear wheels are folded when climbing stairs.
- the eccentricity of the caterpillar is larger than that of the conventional caterpillar, it is difficult to climb the first stairs as in the case of the conventional caterpillar.
- the Patent Publication No. 2004-8374 discloses a stair climbing process by dividing a track part forward and backward and installing it in two parts and connecting a link part to change a relative position of the front and rear track part using the link part.
- the structure of the link portion for changing the relative position of the front and rear track portions is complicated, and it requires space for installing the link portion above the track portion, it is impossible to apply it when used in a place with a low height. have.
- Patent Registration No. 0596483 filed by the applicant of the present invention, the above problems can be solved to some extent, but the driving force of the driving motor is transmitted to the roller shaft by a belt, and the rotation of the roller shaft is prevented. As a result, the rollers protruding outward from the deformation block are rotated to drive the caterpillar, so that the width (distance from the roller shaft to the roller) of the traveling system is designed to be wide. That is, Patent Registration No.
- 0596483 has a gap between the fuselage (frame) and the caterpillar when the crawler is installed in the roller, it may cause the jamming of obstacles, and the caterpillar is installed on the protruding roller Therefore, there is a problem in that the overall width of the traveling system becomes wider than necessary.
- Patent No. 0596483 has a plurality of rollers are connected by a single track, and is moved by the drive of the track connected in this way, between the rollers installed in the front of the body (frame) and the rollers installed in the rear end When obstacles are located in the road, even if there is a track, obstacles may come into contact with the body (frame) to interfere with driving.
- the present invention is to solve the above problems, the object is to install the drive tracks of the endless track respectively in the front and rear end of the body, so that the installed drive tracks are deformed at an angle symmetrical with each other, obstacle climbing and runability It is to provide an improved variable driving system.
- Another object of the present invention is to receive the driving force of the driving motor by the gear coupling to minimize the width of the drive track, and to minimize the separation distance between the fuselage and the caterpillar of the traveling system to smooth the running To provide a system.
- Still another object of the present invention is to install a freewheel having a female shape between the drive tracks installed at the front and rear ends of the travel system body, thereby preventing obstacles from being inserted between the drive tracks and making contact with the body. It is to provide a variable driving system that enables the smooth running of.
- Still another object of the present invention is to allow the freewheel having an arm shape to be rotated indefinitely between the driving track portions, thereby enabling driving by increasing the contact force between the driving track and the floor surface regardless of the position and state of the driving system. It is to provide a variable driving system.
- Still another object of the present invention is to provide a variable driving system that can simplify the configuration of the driving system body for driving, to easily secure a space in the body and to further install additional necessary materials.
- Still another object of the present invention is to provide a variable traveling system having excellent climbing performance of the first stair by forming an inclined front track in contact with a stairway by changing the relative position of the roller supporting the track.
- Another object of the present invention is that it is possible to configure the system to a minimum height because it does not require a space for installing a separate mechanism or link to the top of the track in order to improve the climbing ability of the stairs, Since it is possible to symmetrically deform the upper and lower shapes, it is to provide a variable driving system that can exhibit the same running performance even when the rollover.
- the present invention provides a fuselage frame having grooves on both sides, two pairs of front and rear drive tracks arranged in parallel to both front and rear ends of the fuselage frame, and a pair of front and rear drive tracks installed in the fuselage frame.
- the present invention is to be installed in the front and rear end of the fuselage frame of the traveling system, respectively, it is possible to ensure the driving stability when passing the obstacle compared to the traveling system having one endless track.
- the present invention is to be rotated in the shape of the trackless drive tracks located in the front and rear of the fuselage of the traveling system symmetrical with each other, to improve the step climbing ability through the up and down of the fuselage frame according to the angle deformation of the drive track Can be.
- a pair of front and rear driving tracks are operated by the driving force of the same motor, and two pairs of front and rear driving tracks are rotated by one motor, thereby simplifying the configuration in the driving system body.
- the present invention is provided with a freewheel portion is adjusted between the front and rear drive tracks, the rotation angle is adjusted, when overcoming the stairs or rough ground, due to the space between the front and rear drive tracks unspecific obstacles in contact with the body Can be prevented.
- the present invention is to be rotated 360 ° freewheel portion, it is possible to contact the driving track portion and the bottom surface of one side irrespective of the state of the fuselage or the driving track portion, it is possible to improve the running ability of the traveling system In addition, the driving track of one side is lifted to enable high-speed driving of the traveling system.
- the present invention can be driven independently of the rotation of the drive track and the rotation of the freewheel can be overcome the obstacles through various forms of deformation even in the case of various complex terrain and rough terrain, stairs or unspecified obstacles.
- the present invention can minimize the width of the driving track to reduce the overall width of the driving system, and minimize the distance between the driving track and the driving system body to prevent the insertion of foreign matter and obstacles.
- the present invention is simple in the fuselage configuration, not only to facilitate maintenance, but also to easily secure space in the fuselage, it is possible to further install additional necessary materials.
- the present invention has a structure that is vertically symmetrical, it is possible to continue running even if the rollover phenomenon of the traveling system occurs during driving.
- the present invention enables driving through deformation of the body if power is supplied to the remaining driving part and deformation of the freewheel is possible.
- the present invention is composed of a caterpillar prefabricated, it is possible to replace the part at the time of partial damage, it can be applied by modifying according to the size of the drive track.
- the present invention is possible to deform the front / rear drive track portion as long as possible in the horizontal longitudinal direction after climbing the first stairs, it is possible to continue climbing the stairs, it is possible to obtain excellent climbing performance.
- the present invention is to form each drive track portion in an endless track, it is possible to maintain the same tension due to a short interval, does not require a separate tension control device, and to change the length of the endless track Does not cause.
- the present invention does not require a space for installing a separate mechanism or link to the top of the caterpillar to improve the climbing ability of the first staircase, it is possible to configure the system to a minimum height. Therefore, by installing a control device, a camera, a sensor, etc. in accordance with the height of the caterpillar, it is possible to exhibit the same performance even at the time of overturning, and to achieve the object sufficiently even in a bad terrain or a bad driving condition.
- the present invention when installed so as to have a freewheel having an arm type synchronous with the front drive track portion, the front drive track portion having an endless track and the rear drive track portion and the freewheel portion of the arm structure is rotated by one motor
- the internal configuration of the mobile robot can be simple and can facilitate maintenance.
- the present invention when installed so as to have a freewheel having a female shape that is synchronized with the front end drive track portion, the freewheel portion is synchronized with the front end drive track portion is operated integrally, the freewheel portion between the front end drive track portion and the rear end drive track portion It is always in the position to prevent the intrusion of obstacles between the drive track.
- the present invention is installed so as to have a freewheel having an arm shape that is synchronized with the shear drive track portion, the rotation radius of the shear drive track portion and the rotation radius of the freewheel portion is the same, the freewheel portion is always in contact with the bottom surface, This minimizes the contact between the obstacle and the fuselage.
- the present invention when installed so as to have a freewheel having an arm form synchronous with the shear drive track portion, the freewheel portion is to be rotated by the deformable motor portion, to simplify the configuration in the travel system body frame and to install another equipment It is easy to secure space for.
- the present invention when installed so as to have a freewheel having an arm form synchronous with the shear drive track portion, the freewheel portion is always in contact with the bottom surface, to improve the running stability of the mobile robot during driving, and the shear drive track portion It is possible to prevent contact between the body frame and the obstacle caused by the space between the rear drive track.
- FIG. 1 is an exemplary view showing a configuration according to the present invention
- Figure 2 is an exemplary view showing the internal configuration of the shear drive track portion according to the present invention
- Figure 3 is an exemplary view showing the configuration of the drive track portion according to the present invention
- Figure 4 is an exemplary view showing the drive of the drive track portion and the freewheel according to the invention
- Figure 5 is another exemplary view showing the operation of the freewheel portion according to the present invention
- FIG. 7 is an exemplary view showing a staircase climbing in accordance with the present invention
- FIG. 9 is an exemplary view showing the driving of the front and rear drive track and the freewheel according to the modified configuration of the present invention
- FIG. 10 is an exemplary view showing a staircase climbing according to a modified configuration of the present invention
- 50a first connecting wheel 50b: second connecting wheel
- FIG. 1 is an exemplary view showing a configuration according to the present invention
- Figure 2 is an exemplary view showing an internal configuration of the drive track according to the invention
- Figure 3 is an exemplary view showing a configuration of the drive track according to the present invention
- Figure 4 is an exemplary view showing the drive of the freewheel portion other than the drive track portion according to the present invention
- Figure 5 is another exemplary view showing the operation of the wheely wheel portion according to the present invention
- Figure 6 is a configuration of the endless track according to the present invention
- the present invention provides a fuselage frame 10 having grooves 11 on both sides, and two pairs of front and rear drives respectively disposed in parallel with both front and rear ends of the fuselage frame 10.
- the drive motor part 40 which is installed in the fuselage frame 10, and drives the pair of front / rear drive track parts 20 and 30 simultaneously, and in the fuselage frame 10.
- Two pairs of front and rear drive tracks (20, 30) to be rotated at the same time Deformation motor unit 50 for rotating the rack units 20 and 30 so as to be symmetrical with each other, and a freewheel unit installed in the fuselage frame 10 so as to be positioned between the front drive track unit 20 and the rear drive track unit 30 ( 60 and a rotating motor unit 70 provided in the body frame 10 to rotate the freewheel unit 60.
- the fuselage frame 10 is a part constituting the body of the traveling system, and has a space 12 in which the driving motor and the driving motor are installed therein, and the groove part 11 in which the freewheel part 60 is installed in the middle portions of both sides. Is concave inwardly.
- the front drive track portion 20 is installed at both front ends of the fuselage frame 10
- the rear end drive tracks 30 are respectively installed at both rear ends of the fuselage frame
- the front end drive track portion 20 has a main shaft 21 having a power transmission gear 22 at the other end so that one side is bearing-supported to the fuselage frame 10 and positioned outside the fuselage frame 10, and the fuselage frame.
- the power transmission gear 22, the connecting gear 25, the drive gear 26 is geared to each other such that the central axis is located on the same line, the connecting gear 25 and the drive gear 26 are deformed frame
- the bearing is supported by 24 to be rotatable.
- the main shaft 21 has a hollow structure
- the power transmission wheel 23 is made of a sprocket or roller or pulley.
- the caterpillar 28 has a prefabricated structure in which a plurality of parts, not integral parts, are connected to each other to form an entire track. That is, the crawler track 28 according to the present invention includes a track base 281, a tread 283 connected to a track base upper surface by a tread connecting joint 282, and one track base and another adjacent thereto. And a track connecting joint 285 for connecting the track base 281 and the track connecting board 284 between the track bases 284 provided between the track bases.
- the driving wheel 27 has a structure in which the crawler 28 can be installed, and the structure of the drive wheel corresponds to a known technique used when installing the crawler, and thus detailed description thereof will be omitted.
- the front end drive track unit 20 and the rear end drive track unit 30 respectively positioned at one side of the fuselage frame 10 are connected to each other by a power transmission belt or a chain 80. That is, the power transmission wheel 23 of the front drive track portion and the power transmission wheel 33 of the rear drive track portion are connected by a power transmission belt or a chain 80.
- the traveling motor unit 40 drives a pair of front and rear driving tracks 20 and 30 located at one side of the fuselage frame 10 simultaneously, and the traveling motor 41 is fixed in the fuselage frame 10. And a motor transmission 42 integrally installed on the shaft of the traveling motor, and a power transmission reduction gear 43 integrally installed on the main shaft 21 of the front drive track portion such that one side of the motor gear is engaged with the motor gear and is located inside the fuselage frame. ) Is included. That is, the traveling motor unit 40 is provided with two pairs in the fuselage frame (10).
- the driving force of the driving motor 41 is the power transmission reduction gear 43, the main shaft 21, the power transmission gear 22, and the connecting gear 25. It is transmitted to the drive gear 26 to rotate the endless track 28 of the front drive track portion 20, and is transmitted to the main shaft 31 of the rear drive track portion through the power transmission wheel 23 to the endless drive track portion Rotate the trajectory 38.
- the deformable motor unit 50 rotates the front drive track unit 20 and the rear drive track unit 30 in a direction opposite to each other to deform the angles of the front and rear drive track units 20 and 30 into a substantially trapezoidal shape. It is used for climbing stairs, passing obstacles, and driving at high speeds.
- the deformable motor unit 50 is fixed to the deformable frame 24 by both ends thereof penetrating the main shaft 21 of the shear drive track unit located at both sides of the fuselage frame 10, and being bearing-supported to the main shaft 21.
- the front strain shaft 51 and the rear strain shaft which are fixed to the strain frame 34 through the main shaft 31 of the rear end drive track portion located on both sides of the fuselage frame 10 and are supported by the main shaft ( 52, a front driving wheel 53 integrally installed on the front deformation shaft 51, a rear drive gear 54 integrally installed on the rear deformation shaft 52, and a fuselage frame of the traveling system 100.
- Deformation motor 55 provided in (10), the motor gear 56, which is integrally installed on the shaft of the deformation motor 55, and one side is engaged with the rear drive gear 54, and the shaft of the deformation motor 55 It is configured to include a rear end driving wheel (57) integrally installed in the front drive wheel 53 and connected by a belt or chain (58).
- the front drive wheel 53 and the rear drive wheel 57 is appropriate to the pulley, roller, sprocket, etc. according to the connection method.
- the driving force of the deformation motor 55 is the motor gear 56, the rear drive gear 54, and the rear drive wheel 57.
- the connection drive wheel 57, belt or chain 58, shear drive wheel 53, shear deformation It is transmitted to the deformation frame 24 of the shear drive track 20 through the shaft (51).
- the driving force of the deformation motor 55 the deformation frame 24 of the front drive track portion and the deformation frame 34 of the rear drive track portion are rotated in a symmetrical direction. That is, the front and rear drive tracks 20 and 30 are rotated at a predetermined angle to have a trapezoidal shape as shown in FIG. 4.
- the freewheel unit 60 is for preventing the contact of the fuselage frame of the obstacle and the high-speed running of the traveling system, the rotary shaft 61 is installed to penetrate both sides of the fuselage frame, and the drive gear 62 integrally installed on the rotary shaft; And arms 63 provided at both ends of the rotating shaft so as to be located in the groove part of the fuselage frame, and a freewheel 64 provided to be rotatable to the arm.
- the rotary motor unit 70 includes a rotary motor 71 installed in the fuselage frame 10 and a motor gear 72 integrally installed on the shaft of the rotary motor and engaged with the drive gear 62 of the freewheel unit. It is supposed to be.
- the driving force of the rotary motor 71 is transmitted to the rotary shaft 61 through the motor gear 72 and the drive gear 62, and the arm 63 is rotated by the rotation of the rotary shaft 61 to freewheel.
- the position of 64 is changed, and the freewheel 64 is rotated 360 ° in the groove 11 of the fuselage frame by the driving force of the rotation motor 71.
- a camera for sensing and reconnaissance a sensor unit, an antenna for transmitting and receiving control signals and data, and a driving motor by processing a control signal received through the antenna and It is possible to further install a control device for controlling the deformation motor and the like.
- fuselage frame 10 of the present invention although not shown in the drawings, it is also possible to install a robot arm, tongs, fork-lane, crane, etc. for performing the work, in addition to a variety of equipment and devices can be installed.
- Figure 4 shows an exemplary view showing the drive of the drive track and the freewheel according to the present invention
- the present invention can be transformed into a trapezoidal shape by varying the angle of the front and rear drive tracks by the deformation motor unit.
- the freewheel part is operated to prevent contact with the fuselage frame by inserting an obstacle into the space between the front drive track part and the rear drive track part due to the deformation of the front and rear drive track parts. To prevent contact with the fuselage frame of obstacles.
- Figure 5 shows another exemplary view showing the operation of the wheely wheel portion according to the present invention
- Figure 5 is to drive the freewheel portion by the rotary motor portion when one drive track portion is in the air due to obstacles
- the contact force of the one side driving track portion can be enhanced, thereby enabling travel.
- the present invention can selectively lift the front or rear drive track by the bottom contact support of the freewheel portion, it is possible to enable high-speed driving.
- Figure 7 shows an exemplary view showing a step climbing in accordance with the present invention
- the present invention is a step using the operation shown in Figures 4 and 5, that is, the front and rear drive track of the deformation and driving, the operation of the freewheel
- a traveling system that runs in a trapezoidal shape having a front / rear driving track portion as shown in FIG. 7 encounters a stepped obstacle such as a staircase, the endless track of the front driving track portion contacts the stairs and is sheared by the deformation motor portion.
- the track motor is operated by the traveling motor part to climb the step. Since the method of passing such an obstacle is made through the operation of the present invention described above, a detailed description thereof will be omitted.
- Figure 8 is an exemplary view showing a modified configuration according to the present invention
- Figure 9 is an exemplary view showing the drive of the front and rear drive track and the freewheel according to the modified configuration according to the present invention, the present invention grooves on both sides
- a fuselage frame 10 having 11, two pairs of front and rear drive track portions 20 and 30 disposed in parallel to both front and rear ends of the fuselage frame 10, respectively, and the fuselage frame 10, respectively.
- a fuselage frame installed between the traveling motor part 40 and the front drive track part 20 and the rear end drive track part 30 which are installed inside the driving motor part 40 and drive the pair of front and rear drive track parts 20 and 30 simultaneously.
- a freewheel portion 60 which is installed at (10) and operates integrally with the front end drive track portion 20, and which is installed in the fuselage frame 10 and has two pairs of front / rear drive track portions 20 and 30 and a freewheel portion ( The side for rotating at the same time 60, the front drive track portion 20 and the rear drive track portion 30 to be symmetrical with each other It is constituted by a motor unit (60).
- the fuselage frame 10 is a part constituting the body of the traveling system, and has a space 12 in which the traveling motor and the deformation motor are installed therein, and the groove part 11 in which the freewheel part 60 is installed in the middle portions of both sides. Is concave inwardly.
- the front drive track portion 20 is installed at both front ends of the fuselage frame 10
- the rear end drive tracks 30 are respectively installed at both rear ends of the fuselage frame
- the front end drive track portion 20 has a main shaft 21 having a power transmission gear 22 at the other end so that one side is bearing-supported to the fuselage frame 10 and positioned outside the fuselage frame 10, and the fuselage frame.
- the power transmission gear 22, the connecting gear 25, the drive gear 26 is geared to each other such that the central axis is located on the same line, the connecting gear 25 and the drive gear 26 are deformed frame
- the bearing is supported by 24 to be rotatable.
- the main shaft 21 has a hollow structure
- the power transmission wheel 23 is made of a sprocket or roller or pulley.
- the caterpillar 28 has a prefabricated structure in which a plurality of parts, which are not integral, are connected to each other to form an entire track. That is, the crawler track 28 according to the present invention includes a track base 281, a tread 283 connected to a track base upper surface by a tread connecting joint 282, and one track base and another adjacent thereto. And a track connecting joint 285 for connecting the track base 281 and the track connecting board 284 between the track bases 284 provided between the track bases.
- the driving wheel 27 has a structure in which the crawler 28 can be installed, and the structure of the drive wheel corresponds to a known technique used when installing the crawler, and thus detailed description thereof will be omitted.
- the front end drive track unit 20 and the rear end drive track unit 30 respectively positioned at one side of the fuselage frame 10 are connected to each other by a power transmission belt or a chain 80. That is, the power transmission wheel 23 of the front drive track portion and the power transmission wheel 33 of the rear drive track portion are connected by a power transmission belt or a chain 80.
- the traveling motor unit 40 drives a pair of front and rear driving tracks 20 and 30 located at one side of the fuselage frame 10 simultaneously, and the traveling motor 41 is fixed in the fuselage frame 10. And a motor transmission 42 integrally installed on the shaft of the traveling motor, and a power transmission reduction gear 43 integrally installed on the main shaft 21 of the front drive track portion such that one side of the motor gear is engaged with the motor gear and is located inside the fuselage frame. ) Is included. That is, the traveling motor unit 40 is provided with two pairs in the fuselage frame (10).
- the driving force of the driving motor 41 is the power transmission reduction gear 43, the main shaft 21, the power transmission gear 22, and the connecting gear 25. It is transmitted to the drive gear 26 to rotate the endless track 28 of the front drive track portion 20, and is transmitted to the main shaft 31 of the rear drive track portion through the power transmission wheel 23 to the endless drive track portion Rotate the trajectory 38.
- the freewheel unit 60 is for preventing contact of the fuselage frame with obstacles, and one side is always in contact with the bottom surface, and is installed to penetrate both sides of the fuselage frame, and the rotating shaft 61 is connected to the deformation motor unit 50. And arms 63 provided at both ends of the rotating shaft so as to be located in the groove part of the fuselage frame, and a freewheel 64 provided to be rotatable to the arm.
- the deformable motor unit 50 rotates the front drive track unit 20 and the rear drive track unit 30 in a direction opposite to each other to deform the angles of the front and rear drive track units 20 and 30 into a substantially trapezoidal shape.
- the freewheel unit 60 is synchronized with the front end drive track 20, that is, the rotational angle of the front end drive track unit and the free wheel unit 60 are operated to be the same.
- the deformable motor unit 50 is fixed to the deformable frame 24 by both ends thereof penetrating the main shaft 21 of the shear drive track unit located at both sides of the fuselage frame 10, and being bearing-supported to the main shaft 21.
- the front strain shaft 51 and the rear strain shaft which are fixed to the strain frame 34 through the main shaft 31 of the rear end drive track portion located on both sides of the fuselage frame 10 and are supported by the main shaft ( 52), a shear drive wheel 53 integrally installed on the shear deformation shaft 51, and a shear drive by a chain or belt 58 which is integrally installed on the rotation axis of the freewheel so as to be in line with the shear drive wheel.
- the first connecting wheel 50a connected to the wheel, the rear drive gear 54 integrally installed on the rear deformation shaft 52, and the deformation motor 55 installed in the fuselage frame 10 of the traveling system 100.
- a motor gear 56 integrally installed on the shaft of the deformable motor 55 so that one side is engaged with the rear drive gear 54;
- the rear end driving wheel 53 is integrally installed on the shaft of the mold motor 55 and the rear end driving wheel 53 is integrally installed on the rotating shaft of the freewheel so as to be located on the same line as the rear driving wheel 53 and driven by the chain or the belt 59.
- a second connecting wheel 50b connected to the wheel.
- the front drive wheel 53 and the rear drive wheel 57 is appropriate to the pulley, roller, sprocket, etc. according to the connection method.
- the driving force of the deformation motor 55 is the motor gear 56, the rear drive gear 54, and the rear drive wheel 57.
- the second connecting wheel (50b) At the same time as being transmitted to the unit 60, through the first connecting wheel 50a, belt or chain 58, the shear drive wheel 53, the shear deformation shaft 51 and the deformation frame of the shear drive track 20 Is passed to 24.
- the first and second connection wheels 50a and 50b of the deformation motor unit 50 are fixed to the rotation shaft 61 of the freewheel unit 60, and the rotation shaft 61 is a driving force of the deformation motor 55. Is transmitted by the second connecting wheel (50b) to the arm (63), and at the same time to rotate the first connecting wheel (50a) to transfer the driving force of the deformation motor 55 to the transmission drive wheel (53). .
- the arm 63 is rotated by the rotation of the rotary shaft 61 as described above, and the position of the freewheel 64 is changed, and the freewheel 64 is the groove 11 of the fuselage frame by the driving force of the deformation motor 55. Is rotated at
- the deformation frame 24 of the front drive track part and the deformation frame 34 of the rear drive track part are rotated in a symmetrical direction, and the freewheel part 60 is the shear drive track part. It is rotated in synchronization in the same direction as 20. That is, the front and rear drive tracks 20 and 30 are rotated at a predetermined angle to have a trapezoidal shape as shown in FIG. 4, and the freewheel 60 and the front drive track 20 are linked. Like a structure, it works in parallelogram.
- a camera for sensing and reconnaissance a sensor unit, an antenna for transmitting and receiving control signals and data, and a driving motor by processing a control signal received through the antenna and It is possible to further install a control device for controlling the deformation motor and the like.
- fuselage frame 10 of the present invention although not shown in the drawings, it is also possible to install a robot arm, tongs, fork-lane, crane, etc. for performing the work, in addition to a variety of equipment and devices can be installed.
- the present invention can be transformed into a trapezoidal shape by varying the angle of the front and rear drive track portion and the freewheel portion by the deformation motor portion, the front drive track portion and the rear end drive due to the deformation of the front and rear drive track portion and the freewheel portion
- An obstacle is inserted into the space between the track portions to prevent contact with the fuselage frame.
- FIG. 10 is an exemplary view showing a staircase climbing according to a modified configuration of the present invention, and the present invention is synchronized with the front and rear drive tracks, that is, the operations shown in FIG. 9, that is, the front and rear drive tracks.
- the freewheel By using the operation of the freewheel that is operated it is possible to facilitate the stepped obstacle climbing, the passage of obstacles in the groove form. That is, when a mobile robot traveling in a trapezoidal shape having a front / rear drive track part as shown in FIG.
- the track motor is operated by the traveling motor to climb the step. Since the method of passing such an obstacle is made through the operation of the present invention described above, a detailed description thereof will be omitted.
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- Mechanical Engineering (AREA)
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Abstract
The present invention relates to a variable traveling system using double driving tracks and a free wheel arm. In the variable traveling system, endless-type driving track parts are installed at the front and rear ends of a body such that the driving track parts can be variably and symmetrically operated, so as to improve the climbing and traveling characteristics of the variable traveling system. The variable traveling system comprises: a body frame including groove parts at either side thereof; two pairs of front and rear driving track parts disposed at either side of the front and rear ends of the body frame parallel to each other; a traveling motor part installed in the body frame to simultaneously drive a pair of the front and rear driving track parts; a variable motor part installed in the body frame to simultaneously and symmetrically rotate all the front and rear driving track parts; a free wheel part disposed on the body frame between the front driving track parts and the rear driving track parts; and a rotation motor part installed in the body frame to rotate the free wheel part.
Description
본 발명은 이중 구동 트랙과 프리휠 아암을 이용한 가변형 주행 시스템에 관한 것으로, 주행시스템의 동체프레임 양측 전후단에 일정거리를 이격시켜 각도가 조절되는 무한궤도를 각각 설치하고, 이격된 무한궤도 사이에 암형태를 가지는 프리휠을 구비하여, 주행시스템의 장애물 승월성 및 주행성을 향상시킨 가변형 주행 시스템에 관한 것이다. The present invention relates to a variable driving system using a dual drive track and a freewheel arm, and to install an endless track each of which is controlled at an angle by a predetermined distance from both front and rear ends of the fuselage frame of the driving system, and between arms spaced apart. The present invention relates to a variable driving system having a freewheel having a shape, which improves obstacle overcoming and running properties of a traveling system.
일반적으로 모터나 엔진 등의 회전동력을 이용하여 지면을 이동하도록 이루어지는 주행장치는 크게 무한궤도(track)를 이용하는 방식과 바퀴(wheel)를 이용하는 방식으로 나눈다. 상기에서 무한궤도(일부에서는 캐터필러(Caterpiller)라고 함)를 이용하는 방식은 바퀴를 이용하는 방식에 비하여 주행속도는 느리지만, 지면에 접촉하는 면적이 넓어 요철이 심한 도로나 진흙바닥에서도 자유롭게 주행하는 것이 가능하며, 좌우의 회전속도를 조정하는 것에 의하여 자유롭게 주행방향을 변경하는 것이 가능한 이점이 있다. 따라서 탱크나 트랙터, 중장비 등의 주행상황이 좋지않은 상태에서 사용하는 차량에 주로 사용된다.In general, a traveling device configured to move the ground by using rotational power such as a motor or an engine is divided into a method using a track and a method using a wheel. In the above method, using the caterpillar (sometimes called Caterpillar) is slower than the method using the wheel, but the surface contact with the ground has a large area so that the road can be freely driven on uneven roads or muddy ground. In addition, there is an advantage that it is possible to freely change the running direction by adjusting the left and right rotation speed. Therefore, it is mainly used for vehicles used in bad driving conditions such as tanks, tractors and heavy equipment.
최근에는 화재현장의 상황파악, 건물 내부의 무인감시, 원자로나 위험물이 존재하는 위험지역의 탐사 및 자료수집 등의 민간용, 적지 탐사나 지뢰탐지 및 제거 등의 군사용으로 사용되는 원격제어가 가능한 무인로봇(또는 자주식 로봇)에 무한궤도가 많이 이용되고 있다.In recent years, unmanned robots capable of remote control, such as unmanned surveillance of buildings, civil surveillance of dangerous areas where nuclear reactors or dangerous goods exist, civilian use such as exploration and data collection, military exploration, mine detection and removal, etc. (Or self-propelled robots) are used a lot of crawler.
상기와 같은 용도로 사용되는 무인로봇의 주행장치에 있어서는 계단의 등반능력이 필수적으로 요구된다. 그런데, 무인로봇의 주행장치를 바퀴로 구성하는 경우에는 계단등반시 안정성이 크게 부족하며, 무한궤도로 구성하는 경우에는 최초의 계단을 올라갈 수 있도록 구성하는 부분에서 어려움이 있다.In the traveling device of the unmanned robot used for such a purpose is required to climb the stairs. However, when the driving device of the unmanned robot is composed of wheels, the stability when climbing stairs is largely insufficient, and when configured as an infinite track, there is a difficulty in configuring the first stairs to climb up.
종래의 계단등반이 가능한 주행장치로 대한민국 특허 제177,545호 계단승강용 크로울러 운반장치, 제374,755호 계단승강장치, 공개특허 제2003-22172호 계단, 경사로, 험로 주행장치, 제2004-8373호 계단등반 가능한 6차륜 주행로봇의 4절 링크기구 주행시스템, 제2004-8374호 링크형 트랙 장치 등이 공개되어 있다.As a traveling device capable of climbing a conventional staircase, Crawler conveying device for stairway climbing in Korea No. 177,545, stairway lifting device in No. 374,755, staircase, ramp, rough road traveling device, 2004-8373 stairway climbing The four-wheel linkage traveling system of the six-wheeled traveling robot, the link type track device of 2004-8374, and the like are disclosed.
상기 공개특허 제2003-22172호 및 제2004-8373호는 6개 또는 8개의 바퀴를 여러개의 링크로 연결하여 전후의 바퀴의 높이 및 상대적 위치가 변경되면서 순차적으로 계단을 등반할 수 있도록 구성된다. 그러나 이 경우에는 바퀴에 의하여 주행장치가 구성되므로 회전반경이 커지며, 6개 또는 8개의 바퀴를 연결하는 링크의 구조가 복잡하고 계단등반시 안정성이 부족하다는 문제가 있다. 상기에서 주행장치의 회전반경이 커지게 되면, 좁은 공간에서 90° 이상의 방향변경이나 U턴을 할 수 없다는 문제가 있다.The Patent Publication Nos. 2003-22172 and 2004-8373 are configured to connect the six or eight wheels by a plurality of links to sequentially climb the stairs while changing the height and relative position of the front and rear wheels. However, in this case, since the traveling device is constituted by the wheels, the radius of rotation increases, and there is a problem in that a link structure connecting six or eight wheels is complicated and lacks stability in climbing stairs. If the rotation radius of the traveling device is increased in the above, there is a problem that the direction change or U-turn can not be more than 90 ° in a narrow space.
또 상기 특허 제177,545호는 2분할된 전방활동부재와 후방활동부재로 이루어지는 벨트 지지장치와 잭을 이용하여 계단을 등반할 때에 상황에 따라 벨트의 형상을 변형시켜 지지하도록 구성된다. 그러나 이 경우에는 벨트 지지장치가 벨트의 내면과 접촉하므로 주행중에는 동력의 손실이 발생하며, 벨트의 위쪽에 잭을 설치하기 위한 공간을 필요로 하므로 높이가 낮은 장소에서 사용되는 경우에는 적용하는 것이 불가능하다는 문제가 있다.In addition, the patent No. 177,545 is configured to deform and support the shape of the belt according to the situation when climbing the stairs using the belt support device and jack consisting of two divided front and rear active members. However, in this case, since the belt support device contacts the inner surface of the belt, power loss occurs while driving, and it is impossible to apply it when it is used in a place where the height is low because it requires space for installing a jack on the upper part of the belt. There is a problem.
상기 특허 제374,755호는 주행은 바퀴로 행하고 계단등반은 무한궤도를 이용하여 행하도록 구성된다. 그러나 이 경우에는 주행시에 무한궤도가 지면과 접하지 않도록 전륜과 후륜이 세워지고 계단등반시에 전륜과 후륜이 접혀지는 구조로 구성되므로 구조가 복잡하고 내구성에 문제가 있으며, 계단의 높이가 전륜과 무한궤도의 편심거리보다 큰 경우에는 최초 계단을 오르는 데 있어 종래 무한궤도만으로 구성된 경우와 마찬가지로 어려움이 있다.Patent No. 374,755 is configured to travel with wheels and to climb stairs using endless tracks. In this case, however, the front and rear wheels are erected so that the endless track does not come into contact with the ground during driving and the front and rear wheels are folded when climbing stairs. When the eccentricity of the caterpillar is larger than that of the conventional caterpillar, it is difficult to climb the first stairs as in the case of the conventional caterpillar.
상기 공개특허 제2004-8374호는 트랙부를 전후로 나누어 2부분으로 설치하고 링크부를 연결하여 전후 트랙부의 상대적인 위치를 링크부를 이용하여 변경시키는 것에 의하여 계단등반이 이루어지도록 구성된다. 그러나 이 경우에는 전후 트랙부의 상대적인 위치를 변경시키기 위한 링크부의 구성이 복잡하고, 트랙부의 위쪽에 링크부를 설치하기 위한 공간을 필요로 하므로 높이가 낮은 장소에서 사용되는 경우에는 적용하는 것이 불가능하다는 문제가 있다.The Patent Publication No. 2004-8374 discloses a stair climbing process by dividing a track part forward and backward and installing it in two parts and connecting a link part to change a relative position of the front and rear track part using the link part. However, in this case, since the structure of the link portion for changing the relative position of the front and rear track portions is complicated, and it requires space for installing the link portion above the track portion, it is impossible to apply it when used in a place with a low height. have.
또한, 본원발명의 출원인이 출원하여 등록받은 특허등록 제 0596483 호의 경우, 상기와 같은 문제점을 어느 정도 해소가 가능하나, 이는 주행모터의 구동력을 벨트에 의해 롤러축이 전달받고, 상기 롤러축의 회전에 의해 변형블록 외측으로 돌출 설치된 로울러가 회전되어 무한궤도를 구동시키도록 되어 있어, 주행시스템의 폭(롤러축에서 롤러까지의 거리)이 넓게 설계되도록 되어 있다. 즉, 특허등록 제 0596483 호는 로울러에 무한궤도가 설치될 시, 동체(프레임)와 무한궤도 사이에 간격이 발생되어 장애물의 걸림현상이 발생될 수 있으며, 또한, 돌출된 로울러에 무한궤도가 설치되므로, 주행시스템의 전체 폭이 필요이상으로 넓어지게 되는 문제점이 있다. In addition, in the case of Patent Registration No. 0596483, filed by the applicant of the present invention, the above problems can be solved to some extent, but the driving force of the driving motor is transmitted to the roller shaft by a belt, and the rotation of the roller shaft is prevented. As a result, the rollers protruding outward from the deformation block are rotated to drive the caterpillar, so that the width (distance from the roller shaft to the roller) of the traveling system is designed to be wide. That is, Patent Registration No. 0596483 has a gap between the fuselage (frame) and the caterpillar when the crawler is installed in the roller, it may cause the jamming of obstacles, and the caterpillar is installed on the protruding roller Therefore, there is a problem in that the overall width of the traveling system becomes wider than necessary.
또한, 특허등록 제 0596483 호는 다수의 로울러가 하나의 무한궤도에 의해 연결되고, 이와 같이 연결된 무한궤도의 구동에 의해 이동되도록 되어 있어, 동체(프레임)의 전단에 설치된 로울러와 후단에 설치된 로울러 사이에 장애물이 위치하게 될 경우, 트랙이 있다하더라도 동체(프레임)에 장애물이 접촉되어 주행에 방해를 주게 되는 경우가 발생될 수 있다. In addition, Patent No. 0596483 has a plurality of rollers are connected by a single track, and is moved by the drive of the track connected in this way, between the rollers installed in the front of the body (frame) and the rollers installed in the rear end When obstacles are located in the road, even if there is a track, obstacles may come into contact with the body (frame) to interfere with driving.
또한, 계단승월능력을 향상시키기 위하여, 주 무한궤도에 보조 무한궤도를 추가 장착하여 받음각(Attack Angle)을 크기한 특허등록 제 0686982 호도 있으나, 이는 하나의 주 무한궤도내에 또다른 보조 무한궤도를 설치해야 하므로, 동체 외측의 구성이 복잡하고, 보조 무한궤도의 구동 및 보조 무한궤도의 자체 회전을 위한 별도의 구동장치가 각각 동체내에 설치되어야 동체 내측의 구성 역시 매우 복잡하여 유지보수 및 설계가 곤란한 문제점이 있었다. 또한, 받음각을 크게 하기 위하여 보조 무한궤도 자체를 회전시키도록 되어 있으나, 동체 및 주 무한궤도와의 간섭으로 인하여 보조 무한궤도의 회전범위에 제한을 구비하게 되는 등 여러 가지 문제점이 있었다. In addition, there is also a patent registration No. 0686982 that has a larger attack angle by adding an auxiliary endless track to the main endless track in order to improve the ability to climb stairs, it is installed another auxiliary endless track in one main endless track Since the configuration of the outer side of the fuselage is complicated, and a separate drive device for driving the auxiliary caterpillar and the self-rotating of the auxiliary caterpillar is installed in the fuselage, the configuration of the inside of the fuselage is also very complicated, which makes maintenance and design difficult. There was this. In addition, the auxiliary caterpillar itself is rotated in order to increase the angle of attack, but there are various problems such as the limitation of the rotation range of the auxiliary caterpillar due to interference with the fuselage and the main caterpillar.
본 발명은 상기와 같은 문제점을 해소하기 위한 것으로, 그 목적은 동체 전/후단에 무한궤도의 구동트랙부를 각각 설치하고, 설치된 구동트랙부가 서로 대칭되는 각도로 변형동작되도록 하여, 장애물 승월 및 주행성을 향상시킨 가변형 주행 시스템을 제공하는 것이다. The present invention is to solve the above problems, the object is to install the drive tracks of the endless track respectively in the front and rear end of the body, so that the installed drive tracks are deformed at an angle symmetrical with each other, obstacle climbing and runability It is to provide an improved variable driving system.
본 발명의 또다른 목적은 주행모터의 구동력을 기어결합에 의해 전달받도록 하여 구동트랙부의 폭을 최소화하고, 주행시스템의 동체와 무한궤도 사이의 이격거리를 최소화하여 주행을 원활하게 할 수 있는 가변형 주행 시스템을 제공하는 것이다. Another object of the present invention is to receive the driving force of the driving motor by the gear coupling to minimize the width of the drive track, and to minimize the separation distance between the fuselage and the caterpillar of the traveling system to smooth the running To provide a system.
본 발명의 또다른 목적은 주행시스템 동체의 전단 및 후단에 설치된 구동트랙부 사이에 암형태를 가지는 프리휠을 설치하여, 장애물이 구동트랙부 사이로 삽입되어 동체에 접촉되는 것을 방지하고, 이를 통해 주행시스템의 원활한 주행을 가능하게 하는 가변형 주행 시스템을 제공하는 것이다. Still another object of the present invention is to install a freewheel having a female shape between the drive tracks installed at the front and rear ends of the travel system body, thereby preventing obstacles from being inserted between the drive tracks and making contact with the body. It is to provide a variable driving system that enables the smooth running of.
본 발명의 또다른 목적은 암형태를 가지는 프리휠이 구동트랙부 사이에서 무한회전이 가능하도록 하여, 주행시스템의 위치 및 상태에 무관하게 구동트랙과 바닥면의 접촉력을 높여 주행을 가능하게 할 수 있는 가변형 주행 시스템을 제공하는 것이다. Still another object of the present invention is to allow the freewheel having an arm shape to be rotated indefinitely between the driving track portions, thereby enabling driving by increasing the contact force between the driving track and the floor surface regardless of the position and state of the driving system. It is to provide a variable driving system.
본 발명의 또다른 목적은 주행을 위한 주행시스템 동체내의 구성을 단순화하여, 동체내 공간을 용이하게 확보하고 이를 통해 별도의 필요기자재를 더 설치할 수 있는 가변형 주행 시스템을 제공하는 것이다. Still another object of the present invention is to provide a variable driving system that can simplify the configuration of the driving system body for driving, to easily secure a space in the body and to further install additional necessary materials.
본 발명의 또다른 목적은 무한궤도를 지지하는 롤러의 상대적 위치를 변경시키는 것에 의하여 계단과 접하는 앞쪽의 무한궤도를 경사면으로 형성하여 최초 계단의 등반성능이 우수한 가변형 주행시스템을 제공하는 것이다. Still another object of the present invention is to provide a variable traveling system having excellent climbing performance of the first stair by forming an inclined front track in contact with a stairway by changing the relative position of the roller supporting the track.
본 발명의 또다른 목적은 계단의 등반능력을 향상시키기 위하여 무한궤도의 위쪽으로 별도 기구나 링크 등을 설치하기 위한 공간을 필요로 하지 않으므로 최소한의 높이로 시스템을 구성하는 것이 가능하고, 무한궤도의 상하 형상을 대칭적으로 변형시키는 것이 가능하므로 전복시에도 동일한 주행성능을 발휘할 수 있는 가변 형 주행시스템을 제공하는 것이다. Another object of the present invention is that it is possible to configure the system to a minimum height because it does not require a space for installing a separate mechanism or link to the top of the track in order to improve the climbing ability of the stairs, Since it is possible to symmetrically deform the upper and lower shapes, it is to provide a variable driving system that can exhibit the same running performance even when the rollover.
본 발명의 또다른 목적은 암형태를 가지는 프리휠이 전단 구동트랙부와 동기작동되도록 하여, 이동로봇의 안정성을 향상시킨 이중 트랙 주행 로봇을 제공하는 것이다.It is still another object of the present invention to provide a dual track driving robot having a freewheel having an arm shape in synchronization with a shear drive track, thereby improving the stability of the mobile robot.
본 발명은 양측에 홈부를 구비하는 동체프레임과, 동체프레임의 양쪽 전단 및 후단에 평행하게 배치되어 각각 설치되는 두쌍의 전/후단 구동트랙부와, 동체프레임내에 설치되어 한쌍의 전/후단 구동트랙부를 동시에 구동시키는 주행모터부와, 동체프레임내에 설치되어 두쌍의 전/후단 구동트랙부를 동시에 회전시키되 전/후단 구동트랙부가 서로 대칭되도록 회전시키는 변형모터부와, 전단 구동트랙부와 후단 구동트랙부 사이에 위치하도록 동체프레임의 설치되는 프리휠부와, 동체프레임내에 설치되어 프리휠부를 회전시키는 회전모터부를 포함하여 구성되어 있다. The present invention provides a fuselage frame having grooves on both sides, two pairs of front and rear drive tracks arranged in parallel to both front and rear ends of the fuselage frame, and a pair of front and rear drive tracks installed in the fuselage frame. A traveling motor unit for driving the unit simultaneously, a deformed motor unit installed in the fuselage frame to simultaneously rotate two pairs of front and rear driving tracks so that the front and rear driving tracks are symmetrical to each other, a front driving track unit and a rear driving track unit It comprises a freewheel portion provided in the fuselage frame so as to be located between, and a rotating motor portion provided in the fuselage frame to rotate the freewheel portion.
이와 같이 본 발명은 주행시스템의 동체프레임 전/후단에 무한궤도형 구동트랙부가 각각 설치되도록 되어 있어, 하나의 무한궤도를 구비한 주행시스템에 비해 장애물 통과시 주행안정성을 확보할 수 있다. Thus, the present invention is to be installed in the front and rear end of the fuselage frame of the traveling system, respectively, it is possible to ensure the driving stability when passing the obstacle compared to the traveling system having one endless track.
또한, 본 발명은 주행시스템의 동체 전/후단에 위치하는 무한궤도형 구동트랙부가 서로 대칭되는 형상으로 회전되도록 되어 있어, 구동트랙부의 각도 변형에 따른 동체프레임의 업다운을 통해 계단승월능력을 향상시킬 수 있다. In addition, the present invention is to be rotated in the shape of the trackless drive tracks located in the front and rear of the fuselage of the traveling system symmetrical with each other, to improve the step climbing ability through the up and down of the fuselage frame according to the angle deformation of the drive track Can be.
또한, 본 발명은 한쌍의 전/후단 구동트랙부가 동일모터의 구동력에 의해 작동되고, 두쌍의 전/후단 구동트랙부가 하나의 모터에 의해 회전되도록 되어 있어, 주행시스템 동체내의 구성을 단순화할 수 있다. In addition, according to the present invention, a pair of front and rear driving tracks are operated by the driving force of the same motor, and two pairs of front and rear driving tracks are rotated by one motor, thereby simplifying the configuration in the driving system body. .
또한, 본 발명은 전/후단 구동트랙부 사이에 회전각도가 조절되는 프리휠부가 설치되어 있어, 계단이나 험지를 극복 할 때, 전/후단 구동트랙부 사이의 공간으로 인해 동체에 불특정 장애물이 접촉되는 것을 방지할 수 있다. In addition, the present invention is provided with a freewheel portion is adjusted between the front and rear drive tracks, the rotation angle is adjusted, when overcoming the stairs or rough ground, due to the space between the front and rear drive tracks unspecific obstacles in contact with the body Can be prevented.
또한, 본 발명은 프리휠부가 360° 회전되도록 되어 있어, 동체의 상태 또는 구동트랙부의 상태에 관계없이 일측 구동트랙부와 바닥면과의 접촉을 가능하게 하므로, 주행시스템의 주행능력을 향상시킬 수 있으며, 일측 구동트랙부를 들어올려 주행시스템의 고속주행을 가능하게 한다.In addition, the present invention is to be rotated 360 ° freewheel portion, it is possible to contact the driving track portion and the bottom surface of one side irrespective of the state of the fuselage or the driving track portion, it is possible to improve the running ability of the traveling system In addition, the driving track of one side is lifted to enable high-speed driving of the traveling system.
또한, 본 발명은 구동 트랙부의 회전과 프리휠부의 회전이 독립적으로 구동이 가능하므로 다양하고 복잡한 지형 및 험지, 계단 혹은 불특정한 장애물의 경우에도 다양한 형태의 변형을 통해서 장애물의 극복을 가능하게 한다.In addition, the present invention can be driven independently of the rotation of the drive track and the rotation of the freewheel can be overcome the obstacles through various forms of deformation even in the case of various complex terrain and rough terrain, stairs or unspecified obstacles.
또한, 본 발명은 구동트랙부의 폭을 최소화하여 주행시스템 전체 폭을 줄이고, 구동트랙부와 주행시스템 동체와의 간격을 최소화하여 이물질 및 장애물의 삽입을 방지할 수 있다. In addition, the present invention can minimize the width of the driving track to reduce the overall width of the driving system, and minimize the distance between the driving track and the driving system body to prevent the insertion of foreign matter and obstacles.
또한, 본 발명은 동체내 구성이 단순하므로, 유지보수를 용이하게 할 수 있을 뿐 만 아니라, 동체내의 공간확보가 용이하여 별도의 필요기자재를 더 설치할 수 있다. In addition, the present invention is simple in the fuselage configuration, not only to facilitate maintenance, but also to easily secure space in the fuselage, it is possible to further install additional necessary materials.
또한, 본 발명은 상하 대칭되는 구조를 구비하고 있어, 주행중 주행시스템의 전복현상이 발생되더라도 계속적인 주행이 가능하다. In addition, the present invention has a structure that is vertically symmetrical, it is possible to continue running even if the rollover phenomenon of the traveling system occurs during driving.
또한, 본 발명은 구동트랙의 일부가 주행 중 파손된다 하더라도 나머지 주행 부에 동력이 공급되고 프리휠의 변형이 가능하면 동체의 변형을 통한 주행이 가능하다.In addition, even if a part of the driving track is damaged while driving, the present invention enables driving through deformation of the body if power is supplied to the remaining driving part and deformation of the freewheel is possible.
또한, 본 발명은 무한궤도가 조립식으로 이루어져 있어, 부분파손시 부분교체가 가능하고, 구동트랙부의 크기에 따라 변형하여 적용할 수 있다. In addition, the present invention is composed of a caterpillar prefabricated, it is possible to replace the part at the time of partial damage, it can be applied by modifying according to the size of the drive track.
또한, 본 발명은 최초 계단을 등반한 다음부터는 전/후단 구동트랙부를 수평 길이방향으로 최대한 길게 변형시키는 것이 가능하므로, 지속적인 계단의 등반이 가능하며, 우수한 등반성능을 얻을 수 있다.In addition, since the present invention is possible to deform the front / rear drive track portion as long as possible in the horizontal longitudinal direction after climbing the first stairs, it is possible to continue climbing the stairs, it is possible to obtain excellent climbing performance.
또한, 본 발명은 각각의 구동트랙부를 무한궤도형으로 형성하도록 되어 있어, 짧은 간격으로 인해 장력을 동일하게 유지하는 것이 가능하고, 별도의 장력조절장치를 필요로 하지 않으며, 무한궤도의 길이변화를 초래하지 않는다.In addition, the present invention is to form each drive track portion in an endless track, it is possible to maintain the same tension due to a short interval, does not require a separate tension control device, and to change the length of the endless track Does not cause.
또한, 본 발명은 최초 계단의 등반능력을 향상시키기 위하여 무한궤도의 위쪽으로 별도기구나 링크 등을 설치하기 위한 공간을 필요로 하지 않으므로, 최소한의 높이로 시스템을 구성하는 것이 가능하다. 따라서, 무한궤도의 높이에 맞추어 제어장치나 카메라, 센서 등을 설치하는 것에 의하여 전복시에도 동일한 성능을 발휘하는 것이 가능하며, 험지나 주행조건이 나쁜 상황에서도 충분하게 목적 달성이 가능하다.In addition, the present invention does not require a space for installing a separate mechanism or link to the top of the caterpillar to improve the climbing ability of the first staircase, it is possible to configure the system to a minimum height. Therefore, by installing a control device, a camera, a sensor, etc. in accordance with the height of the caterpillar, it is possible to exhibit the same performance even at the time of overturning, and to achieve the object sufficiently even in a bad terrain or a bad driving condition.
또한, 본 발명은 전단 구동트랙부와 동기작동되는 암형태를 가지는 프리휠을 구비하도록 설치할 경우, 무한궤도를 구비한 전단 구동트랙부와 후단 구동트랙부 및 아암구조의 프리휠부가 하나의 모터에 의해 회전될 수 있어, 이동로봇의 내부 구성이 간단하고, 유지보수를 용이하게 할 수 있다. In addition, the present invention, when installed so as to have a freewheel having an arm type synchronous with the front drive track portion, the front drive track portion having an endless track and the rear drive track portion and the freewheel portion of the arm structure is rotated by one motor The internal configuration of the mobile robot can be simple and can facilitate maintenance.
또한, 본 발명은 전단 구동트랙부와 동기작동되는 암형태를 가지는 프리휠을 구비하도록 설치할 경우, 프리휠부가 전단 구동트랙부와 동기화되어 일체로 작동되므로, 프리휠부가 전단 구동트랙부와 후단 구동트랙부 사이에 항시 위치하게 되어 구동트랙부 사이로의 장애물 침입을 방지한다. In addition, the present invention, when installed so as to have a freewheel having a female shape that is synchronized with the front end drive track portion, the freewheel portion is synchronized with the front end drive track portion is operated integrally, the freewheel portion between the front end drive track portion and the rear end drive track portion It is always in the position to prevent the intrusion of obstacles between the drive track.
또한, 본 발명은 전단 구동트랙부와 동기작동되는 암형태를 가지는 프리휠을 구비하도록 설치할 경우, 전단 구동트랙부의 회전반경과 프리휠부의 회전반경이 동일하도록 되어 있어, 프리휠부가 항시 바닥면에 접촉되고, 이로 인해 장애물과 동체의 접촉을 최소화할 수 있다. In addition, the present invention is installed so as to have a freewheel having an arm shape that is synchronized with the shear drive track portion, the rotation radius of the shear drive track portion and the rotation radius of the freewheel portion is the same, the freewheel portion is always in contact with the bottom surface, This minimizes the contact between the obstacle and the fuselage.
또한, 본 발명은 전단 구동트랙부와 동기작동되는 암형태를 가지는 프리휠을 구비하도록 설치할 경우, 프리휠부가 변형모터부에 의해 회전되도록 되어 있어, 주행시스템 동체프레임내의 구성을 단순화하고 또다른 설비의 설치를 위한 공간확보를 용이하게 할 수 있다. In addition, the present invention, when installed so as to have a freewheel having an arm form synchronous with the shear drive track portion, the freewheel portion is to be rotated by the deformable motor portion, to simplify the configuration in the travel system body frame and to install another equipment It is easy to secure space for.
또한, 본 발명은 전단 구동트랙부와 동기작동되는 암형태를 가지는 프리휠을 구비하도록 설치할 경우, 프리휠부가 항시 바닥면에 접촉되도록 되어 있어, 주행중 이동로봇의 주행안정성을 향상시키고, 전단 구동트랙부와 후단 구동트랙부의 사이공간으로 인한 장애물과 동체프레임과의 접촉을 방지할 수 있다. In addition, the present invention, when installed so as to have a freewheel having an arm form synchronous with the shear drive track portion, the freewheel portion is always in contact with the bottom surface, to improve the running stability of the mobile robot during driving, and the shear drive track portion It is possible to prevent contact between the body frame and the obstacle caused by the space between the rear drive track.
도 1 은 본 발명에 따른 구성을 보인 예시도1 is an exemplary view showing a configuration according to the present invention
도 2 는 본 발명에 따른 전단 구동트랙부의 내부구성을 보인 예시도Figure 2 is an exemplary view showing the internal configuration of the shear drive track portion according to the present invention
도 3 은 본 발명에 따른 구동트랙부의 구성을 보인 예시도Figure 3 is an exemplary view showing the configuration of the drive track portion according to the present invention
도 4 는 본 발명에 따른 구동트랙부와 프리휠부의 구동을 보인 예시도Figure 4 is an exemplary view showing the drive of the drive track portion and the freewheel according to the invention
도 5 는 본 발명에 따른 프리휠부의 작동을 보인 또다른 예시도Figure 5 is another exemplary view showing the operation of the freewheel portion according to the present invention
도 6 은 본 발명에 따른 무한궤도의 구성을 보인 예시도6 is an exemplary view showing the configuration of the caterpillar according to the present invention
도 7 은 본 발명에 따른 계단승월을 보인 예시도7 is an exemplary view showing a staircase climbing in accordance with the present invention
도 8 은 본 발명에 따른 변형된 구성을 보인 예시도8 is an exemplary view showing a modified configuration according to the present invention
도 9 는 본 발명의 변형된 구성에 따른 전단 및 후단 구동트랙부와 프리휠부의 구동을 보인 예시도9 is an exemplary view showing the driving of the front and rear drive track and the freewheel according to the modified configuration of the present invention
도 10 은 본 발명의 변형된 구성에 따른 계단승월을 보인 예시도10 is an exemplary view showing a staircase climbing according to a modified configuration of the present invention
* 도면의 주요부분에 대한 부호의 설명* Explanation of symbols for main parts of the drawings
(10) : 동체프레임 (11) : 홈부(10): fuselage frame (11): groove
(12) : 공간 (20) : 전단 구동트랙부(12): space (20): shear drive track
(21) : 주축 (22) : 동력전달기어(21): main shaft (22): power transmission gear
(23) : 동력전달휠 (24) : 변형프레임(23): power transmission wheel (24): deformation frame
(25) : 연결기어 (26) : 구동기어(25): connecting gear (26): driving gear
(27) : 구동바퀴 (28) : 무한궤도(27): driving wheel (28): caterpillar
(30) : 후단 구동트랙부 (31) : 주축(30): rear drive track portion 31: main shaft
(33) : 동력전달휠 (34) : 변형프레임(33): power transmission wheel (34): deformation frame
(38) : 무한궤도 (40) : 주행모터부(38): Caterpillar (40): Traveling motor part
(41) : 주행모터 (42) : 모터기어(41): drive motor (42): motor gear
(43) : 동력전달감속기어 (50) : 변형모터부(43): Power transmission reduction gear (50): Deformation motor part
(50a) : 제 1 연결휠 (50b) : 제 2 연결휠50a: first connecting wheel 50b: second connecting wheel
(51) : 전단변형축 (52) : 후단변형축(51): shear strain shaft (52): shear strain shaft
(53) : 전단구동휠 (54) : 후단구동기어(53): Front drive wheel (54): Rear drive gear
(55) : 변형모터 (56) : 모터기어(55): strain motor (56): motor gear
(57) : 후단구동휠 (58) : 벨트 또는 체인(57): rear drive wheel (58): belt or chain
(60) : 프리휠부 (61) : 회전축60: freewheel portion 61: rotating shaft
(62) : 구동기어 (63) : 아암(62): drive gear (63): arm
(64) : 프리휠 (65) : 프리휠 회전반경(64): freewheel (65): freewheel radius
(70) : 회전모터부 (71) : 회전모터70: rotary motor unit 71: rotary motor
*(72) : 모터기어 (100) : 주행시스템* (72): Motor Gear (100): Driving System
(200) : 바닥면 (281) : 트랙베이스200: bottom surface 281: track base
(282) : 트레드 연결조인트 (283) : 트레드(282): Tread connection joint (283): Tread
(284) : 트랙연결대 (285) : 트랙연결조인트(284): Track connector (285): Track connector
도 1 은 본 발명에 따른 구성을 보인 예시도를, 도 2 는 본 발명에 따른 구동트랙부의 내부구성을 보인 예시도를, 도 3 은 본 발명에 따른 구동트랙부의 구성을 보인 예시도를, 도 4 는 본 발명에 따른 구동트랙부외 프리휠부의 구동을 보인 예시도를, 도 5 는 본 발명에 따른 휠리휠부의 작동을 보인 또다른 예시도를, 도 6 은 본 발명에 따른 무한궤도의 구성을 보인 예시도를 도시한 것으로, 본 발명은 양측에 홈부(11)를 구비하는 동체프레임(10)과, 동체프레임(10)의 양쪽 전단 및 후단에 평행하게 배치되어 각각 설치되는 두쌍의 전/후단 구동트랙부(20,30)와, 동체프레임(10)내에 설치되어 한쌍의 전/후단 구동트랙부(20,30)를 동시에 구동시키는 주행모터부(40)와, 동체프레임내(10)에 설치되어 두쌍의 전/후단 구동트랙부(20,30)를 동시에 회전시키되 전/후단 구동트랙부(20,30)가 서로 대칭되도록 회전시키는 변형모터부(50)와, 전단 구동트랙부(20)와 후단 구동트랙부(30) 사이에 위치하도록 동체프레임(10)에 설치되는 프리휠부(60)와, 동체프레임(10)내에 설치되어 프리휠부(60)를 회전시키는 회전모터부(70)를 포함하여 구성되어 있다. 1 is an exemplary view showing a configuration according to the present invention, Figure 2 is an exemplary view showing an internal configuration of the drive track according to the invention, Figure 3 is an exemplary view showing a configuration of the drive track according to the present invention, Figure 4 is an exemplary view showing the drive of the freewheel portion other than the drive track portion according to the present invention, Figure 5 is another exemplary view showing the operation of the wheely wheel portion according to the present invention, Figure 6 is a configuration of the endless track according to the present invention By way of example, the present invention provides a fuselage frame 10 having grooves 11 on both sides, and two pairs of front and rear drives respectively disposed in parallel with both front and rear ends of the fuselage frame 10. It is provided in the track part 20, 30, the drive motor part 40 which is installed in the fuselage frame 10, and drives the pair of front / rear drive track parts 20 and 30 simultaneously, and in the fuselage frame 10. Two pairs of front and rear drive tracks (20, 30) to be rotated at the same time Deformation motor unit 50 for rotating the rack units 20 and 30 so as to be symmetrical with each other, and a freewheel unit installed in the fuselage frame 10 so as to be positioned between the front drive track unit 20 and the rear drive track unit 30 ( 60 and a rotating motor unit 70 provided in the body frame 10 to rotate the freewheel unit 60.
상기 동체프레임(10)은 주행시스템의 몸체를 이루는 부분으로, 내부에 주행모터 및 구동모터가 설치되는 공간(12)을 구비하며, 양측 중간부분에 프리휠부(60)가 설치되는 홈부(11)가 내측방향으로 오목하게 형성되어 있다. The fuselage frame 10 is a part constituting the body of the traveling system, and has a space 12 in which the driving motor and the driving motor are installed therein, and the groove part 11 in which the freewheel part 60 is installed in the middle portions of both sides. Is concave inwardly.
상기 전단 구동트랙부(20)는 동체프레임(10)의 양측 전단에 각각 설치되고, 후단 구동트랙부(30)는 동체프레임의 양측 후단에 각각 설치되는 것으로, 전단 구동트랙부(20)와 후단 구동트랙부(30)는 동일한 구성으로 이루어져 있으므로, 전단 구동트랙부를 도시한 도 2 에 의해 후단 구동트랙부의 별도 설명없이 전/후단 구동트랙부를 설명한다. The front drive track portion 20 is installed at both front ends of the fuselage frame 10, the rear end drive tracks 30 are respectively installed at both rear ends of the fuselage frame, the front drive track portion 20 and the rear end Since the driving track unit 30 is configured in the same configuration, the front / rear driving track unit will be described with reference to FIG. 2 showing the front driving track unit without further explanation.
상기 전단 구동트랙부(20)는 동체프레임(10)에 일측이 베어링 지지되고, 동체프레임(10) 외측에 위치하도록 타측단에 동력전달기어(22)를 구비하는 주축(21)과, 동체프레임(10)내에 위치하도록 주축(21)에 일체로 형성되는 동력전달휠(23)과, 동체프레임(10) 외측으로 돌출된 주축(21)의 끝단을 베어링 지지하는 변형프레임(24)과, 주축의 동력전달기어(22) 양측에 위치하도록 또한 변형프레임(24)에 회전가능하도록 설치되어 주축의 동력전달기어(22)에 일측이 치합되는 연결기어(25)와, 연결기어(25)에 일측이 치합되도록 변형프레임(24)에 회전가능하게 설치되는 구동기어(26)와, 구동기어(26)와 동일축을 구비하고 변형프레임(24) 양측에 위치하도록 설치되는 구동바퀴(27)와, 구동바퀴(27)에 설치되는 무한궤도(28)를 포함하도록 되어 있다. The front end drive track portion 20 has a main shaft 21 having a power transmission gear 22 at the other end so that one side is bearing-supported to the fuselage frame 10 and positioned outside the fuselage frame 10, and the fuselage frame. A power transmission wheel 23 integrally formed on the main shaft 21 so as to be located in the 10, a deformation frame 24 bearing bearing ends of the main shaft 21 protruding out of the fuselage frame 10, and a main shaft A coupling gear 25 positioned at both sides of the power transmission gear 22 and rotatably mounted to the deformation frame 24 so that one side is engaged with the power transmission gear 22 of the main shaft, and one side of the coupling gear 25. A drive gear 26 rotatably mounted to the deformation frame 24 so as to be engaged with the drive gear, a drive wheel 27 having the same axis as the drive gear 26 and located on both sides of the deformation frame 24, and driving The track 27 is provided to the wheel 27 is included.
이때, 상기 동력전달기어(22), 연결기어(25), 구동기어(26)는 동일선상에 중심축이 위치하도록 서로 기어결합되어 있으며, 연결기어(25) 및 구동기어(26)는 변형프레임(24)에 회전가능하도록 베어링 지지되어 있다. At this time, the power transmission gear 22, the connecting gear 25, the drive gear 26 is geared to each other such that the central axis is located on the same line, the connecting gear 25 and the drive gear 26 are deformed frame The bearing is supported by 24 to be rotatable.
또한, 상기 주축(21)은 중공구조를 구비하며, 상기 동력전달휠(23)은 스프라켓 또는 로울러 또는 풀리로 이루어져 있다. In addition, the main shaft 21 has a hollow structure, the power transmission wheel 23 is made of a sprocket or roller or pulley.
상기 무한궤도(28)는 도 6 에 도시된 바와 같이, 일체형이 아닌 다수의 부품이 서로 연결되어 전체 트랙을 형성하는 조립식으로 이루어져 있다. 즉, 본 발명에 따른 무한궤도(28)는 트랙베이스(281)와, 트랙베이스 상부면에 트레드 연결조인트(282)에 의해 연결설치되는 트레드(283)와, 일측 트랙베이스와 이에 인접하는 또다른 트랙베이스 사이에 설치되는 트랙연결대(284)와, 트랙베이스(281)와 트랙연결대(284)를 연결하는 트랙연결조인트(285)로 이루어져 있다. As shown in FIG. 6, the caterpillar 28 has a prefabricated structure in which a plurality of parts, not integral parts, are connected to each other to form an entire track. That is, the crawler track 28 according to the present invention includes a track base 281, a tread 283 connected to a track base upper surface by a tread connecting joint 282, and one track base and another adjacent thereto. And a track connecting joint 285 for connecting the track base 281 and the track connecting board 284 between the track bases 284 provided between the track bases.
또한, 상기 구동바퀴(27)는 상기의 무한궤도(28)가 설치될 수 있는 구조로 이루어져 있으며, 이러한 구동바퀴의 구조는 무한궤도의 설치시 사용되는 공지기술에 해당되므로 상세한 설명은 생략한다. In addition, the driving wheel 27 has a structure in which the crawler 28 can be installed, and the structure of the drive wheel corresponds to a known technique used when installing the crawler, and thus detailed description thereof will be omitted.
또한, 상기 동체프레임(10)의 일측 전/후단에 각각 위치하는 전단 구동트랙부(20)와 후단 구동트랙부(30)는 동력전달벨트 또는 체인(80)에 의해 서로 연결되어 있다. 즉, 전단 구동트랙부의 동력전달휠(23)과 후단 구동트랙부의 동력전달휠(33)은 동력전달벨트 또는 체인(80)에 의해 연결되어 있다. In addition, the front end drive track unit 20 and the rear end drive track unit 30 respectively positioned at one side of the fuselage frame 10 are connected to each other by a power transmission belt or a chain 80. That is, the power transmission wheel 23 of the front drive track portion and the power transmission wheel 33 of the rear drive track portion are connected by a power transmission belt or a chain 80.
상기 주행모터부(40)는 동체프레임(10)의 일측에 위치하는 한쌍의 전/후단 구동트랙부(20,30)를 동시에 구동시키는 것으로, 동체프레임(10)내에 고정되는 주행모터(41)와, 주행모터의 축에 일체로 설치되는 모터기어(42)와, 모터기어와 일측이 치합되고 동체프레임 내측에 위치하도록 전단 구동트랙부의 주축(21)에 일체로 설치되는 동력전달감속기어(43)를 포함하도록 되어 있다. 즉, 상기 주행모터부(40)는 동체프레임(10)내에 두쌍이 설치되어 있다. The traveling motor unit 40 drives a pair of front and rear driving tracks 20 and 30 located at one side of the fuselage frame 10 simultaneously, and the traveling motor 41 is fixed in the fuselage frame 10. And a motor transmission 42 integrally installed on the shaft of the traveling motor, and a power transmission reduction gear 43 integrally installed on the main shaft 21 of the front drive track portion such that one side of the motor gear is engaged with the motor gear and is located inside the fuselage frame. ) Is included. That is, the traveling motor unit 40 is provided with two pairs in the fuselage frame (10).
상기와 같이 구성된 본 발명은 주행모터부(40)의 작동시, 주행모터(41)의 구동력이 동력전달 감속기어(43), 주축(21), 동력전달기어(22), 연결기어(25), 구동기어(26)에 전달되어 전단 구동트랙부(20)의 무한궤도(28)를 회전시키고, 동력전달휠(23)을 통해 후단 구동트랙부의 주축(31)에 전달되어 후단 구동트랙부의 무한궤도(38)를 회전시킨다. According to the present invention configured as described above, when the driving motor unit 40 is operated, the driving force of the driving motor 41 is the power transmission reduction gear 43, the main shaft 21, the power transmission gear 22, and the connecting gear 25. It is transmitted to the drive gear 26 to rotate the endless track 28 of the front drive track portion 20, and is transmitted to the main shaft 31 of the rear drive track portion through the power transmission wheel 23 to the endless drive track portion Rotate the trajectory 38.
상기 변형모터부(50)는 전단 구동트랙부(20)와 후단 구동트랙부(30)를 서로 대항하는 방향으로 회전시켜 전/후단 구동트랙부(20,30)의 각도를 대략 사다리꼴 형상으로 변형시키는 것으로, 계단 승월, 장애물 통과, 고속주행시 사용된다. The deformable motor unit 50 rotates the front drive track unit 20 and the rear drive track unit 30 in a direction opposite to each other to deform the angles of the front and rear drive track units 20 and 30 into a substantially trapezoidal shape. It is used for climbing stairs, passing obstacles, and driving at high speeds.
이와 같은 변형모터부(50)는 양측단이 동체프레임(10)의 양측에 위치하는 전단 구동트랙부의 주축(21)을 관통하여 변형프레임(24)에 고정되고, 주축(21)에 베어링 지지되는 전단 변형축(51)과, 양측단이 동체프레임(10)의 양측에 위치하는 후단 구동트랙부의 주축(31)을 관통하여 변형프레임(34)에 고정되고, 주축에 베어링 지지되는 후단 변형축(52)과, 전단 변형축(51)에 일체로 설치되는 전단구동휠(53)과, 후단 변형축(52)에 일체로 설치되는 후단구동기어(54)와, 주행시스템(100)의 동체프레임(10)내에 설치되는 변형모터(55)와, 변형모터(55)의 축에 일체로 설치되어 후단구동기어(54)에 일측이 치합되는 모터기어(56)와, 변형모터(55)의 축에 일체로 설치되고 전단구동휠(53)과 벨트 또는 체인(58)에 의해 연결되는 후단구동휠(57)을 포함하도록 되어 있다. The deformable motor unit 50 is fixed to the deformable frame 24 by both ends thereof penetrating the main shaft 21 of the shear drive track unit located at both sides of the fuselage frame 10, and being bearing-supported to the main shaft 21. The front strain shaft 51 and the rear strain shaft which are fixed to the strain frame 34 through the main shaft 31 of the rear end drive track portion located on both sides of the fuselage frame 10 and are supported by the main shaft ( 52, a front driving wheel 53 integrally installed on the front deformation shaft 51, a rear drive gear 54 integrally installed on the rear deformation shaft 52, and a fuselage frame of the traveling system 100. Deformation motor 55 provided in (10), the motor gear 56, which is integrally installed on the shaft of the deformation motor 55, and one side is engaged with the rear drive gear 54, and the shaft of the deformation motor 55 It is configured to include a rear end driving wheel (57) integrally installed in the front drive wheel 53 and connected by a belt or chain (58).
상기 전단구동휠(53) 및 후단구동휠(57)은 풀리, 로울러, 스프라켓 등등 연결방식에 따라 적절한 것을 사용한다.The front drive wheel 53 and the rear drive wheel 57 is appropriate to the pulley, roller, sprocket, etc. according to the connection method.
상기와 같이 구성된 본 발명의 변형모터부(50)는 변형모터(55)의 작동시, 변형모터(55)의 구동력이 모터기어(56), 후단구동기어(54), 후단구동휠(57), 후단 변형축(52)을 통해 후단 구동트랙부(30)의 변형프레임(34)에 전달됨과 동시에, 연결구동휠(57), 벨트 또는 체인(58), 전단구동휠(53), 전단 변형축(51)을 통해 전단 구동트랙부(20)의 변형프레임(24)에 전달된다. 이와 같은 변형모터(55)의 구동력에 의해 전단 구동트랙부의 변형프레임(24)과 후단 구동트랙부의 변형프레임(34)은 서로 대칭되는 방향으로 회전되게 된다. 즉, 전/후단 구동트랙부(20,30)는 소정각도로 회전되어 도 4 에 도시된 바와 같이, 전체적으로 사다리꼴 형상을 구비하게 된다. In the modified motor unit 50 of the present invention configured as described above, when the deformation motor 55 is operated, the driving force of the deformation motor 55 is the motor gear 56, the rear drive gear 54, and the rear drive wheel 57. And, while being transmitted to the deformation frame 34 of the rear end drive track portion 30 through the rear end deformation shaft 52, the connection drive wheel 57, belt or chain 58, shear drive wheel 53, shear deformation It is transmitted to the deformation frame 24 of the shear drive track 20 through the shaft (51). By the driving force of the deformation motor 55, the deformation frame 24 of the front drive track portion and the deformation frame 34 of the rear drive track portion are rotated in a symmetrical direction. That is, the front and rear drive tracks 20 and 30 are rotated at a predetermined angle to have a trapezoidal shape as shown in FIG. 4.
상기 프리휠부(60)는 장애물의 동체프레임 접촉방지 및 주행시스템의 고속주행을 위한 것으로, 동체프레임 양측을 관통하도록 설치되는 회전축(61)과, 상기 회전축에 일체로 설치되는 구동기어(62)와, 동체프레임의 홈부내에 위치하도록 회전축의 양끝단에 각각 설치되는 아암(63)과, 상기 아암에 회전가능하도록 설치되는 프리휠(64)을 포함하도록 되어 있다. The freewheel unit 60 is for preventing the contact of the fuselage frame of the obstacle and the high-speed running of the traveling system, the rotary shaft 61 is installed to penetrate both sides of the fuselage frame, and the drive gear 62 integrally installed on the rotary shaft; And arms 63 provided at both ends of the rotating shaft so as to be located in the groove part of the fuselage frame, and a freewheel 64 provided to be rotatable to the arm.
상기 회전모터부(70)는 동체프레임(10)내에 설치되는 회전모터(71)와, 상기 회전모터의 축에 일체로 설치되어 프리휠부의 구동기어(62)에 치합되는 모터기어(72)를 포함하도록 되어 있다. The rotary motor unit 70 includes a rotary motor 71 installed in the fuselage frame 10 and a motor gear 72 integrally installed on the shaft of the rotary motor and engaged with the drive gear 62 of the freewheel unit. It is supposed to be.
즉, 본 발명은 회전모터(71)의 구동력이 모터기어(72), 구동기어(62)를 통해 회전축(61)에 전달되고, 회전축(61)의 회전에 의해 아암(63)이 회전되어 프리휠(64)의 위치를 변경시키게 되며, 상기 프리휠(64)은 회전모터(71)의 구동력에 의해 동체프레임의 홈부(11)에서 360° 회전된다. That is, in the present invention, the driving force of the rotary motor 71 is transmitted to the rotary shaft 61 through the motor gear 72 and the drive gear 62, and the arm 63 is rotated by the rotation of the rotary shaft 61 to freewheel. The position of 64 is changed, and the freewheel 64 is rotated 360 ° in the groove 11 of the fuselage frame by the driving force of the rotation motor 71.
또한, 본 발명의 동체프레임(10)에는 도시되지는 않았으나, 탐사 및 정찰을 위한 카메라, 센서부, 제어신호와 데이터를 송수신하기 위한 안테나, 상기 안테나를 통하여 수신되는 제어신호를 처리하여 주행모터와 변형모터 등을 제어하는 제어장치 등을 더 설치할 수 있다. In addition, although not shown in the fuselage frame 10 of the present invention, a camera for sensing and reconnaissance, a sensor unit, an antenna for transmitting and receiving control signals and data, and a driving motor by processing a control signal received through the antenna and It is possible to further install a control device for controlling the deformation motor and the like.
또한, 본 발명의 동체프레임(10)에는 도면에 나타내지 않았지만, 작업을 행하기 위한 로봇팔, 집게, 포크레인, 크레인 등을 설치하는 것도 가능하며, 이외에도 다양한 장비와 장치를 설치하는 것도 가능하다. In addition, the fuselage frame 10 of the present invention, although not shown in the drawings, it is also possible to install a robot arm, tongs, fork-lane, crane, etc. for performing the work, in addition to a variety of equipment and devices can be installed.
도 4 는 본 발명에 따른 구동트랙부와 프리휠부의 구동을 보인 예시도를 도시한 것으로, 본 발명은 변형모터부에 의해 전/후단 구동트랙부의 각도를 다양하게 변화시켜 사다리꼴 형상으로 변형할 수 있으며, 전/후단 구동트랙부의 변형으로 인한 전단 구동트랙부와 후단 구동트랙부 사이의 공간으로 장애물이 삽입되어 동체프레임에 접촉되지 않도록 프리휠부를 작동시켜 전/후단 구동트랙부와 바닥면과의 접지력을 향상시키고, 장애물의 동체프레임 접촉을 방지하게 된다. Figure 4 shows an exemplary view showing the drive of the drive track and the freewheel according to the present invention, the present invention can be transformed into a trapezoidal shape by varying the angle of the front and rear drive tracks by the deformation motor unit. The freewheel part is operated to prevent contact with the fuselage frame by inserting an obstacle into the space between the front drive track part and the rear drive track part due to the deformation of the front and rear drive track parts. To prevent contact with the fuselage frame of obstacles.
또한, 도 5 는 본 발명에 따른 휠리휠부의 작동을 보인 또다른 예시도를 도시한 것으로, 도 5 는 장애물로 인하여 일측 구동트랙부가 허공에 위하게 될 경우, 회전모터부에 의해 프리휠부를 작동시켜 프리휠이 바닥면 또는 장애물에 접촉되게 하여, 일측 구동트랙부의 접촉력을 강화시킴으로써, 주행이 가능하게 된다. In addition, Figure 5 shows another exemplary view showing the operation of the wheely wheel portion according to the present invention, Figure 5 is to drive the freewheel portion by the rotary motor portion when one drive track portion is in the air due to obstacles By allowing the freewheel to come into contact with the floor or an obstacle, the contact force of the one side driving track portion can be enhanced, thereby enabling travel.
또한, 본 발명은 프리휠부의 바닥면 접촉지지에 의해 전단 또는 후단 구동트랙부를 선택적으로 들어올리어, 고속주행을 가능하게 할 수 있다. In addition, the present invention can selectively lift the front or rear drive track by the bottom contact support of the freewheel portion, it is possible to enable high-speed driving.
도 7 은 본 발명에 따른 계단승월을 보인 예시도를 도시한 것으로, 본 발명은 도 4 및 도 5 에 도시된 동작들 즉, 전/후단 구동트랙부의 변형 및 구동, 프리휠부의 작동을 이용하여 계단형태의 장애물 승월, 요홈 형태의 장애물 통과를 용이하게 할 수 있다. 일예로써, 도 7 과 같이 전/후단 구동트랙부를 사다리꼴 형상으로 하여 주행하는 주행시스템이 계단과 같은 단차진 장애물을 만나게 되면, 전단 구동트랙부의 무한궤도가 계단에 접촉되고, 변형모터부에 의해 전단/후단 구동트랙부가 작동되어 전단/후단 구동트랙부를 일직선상 또는 역사다리꼴 형상으로 변경시킨 후, 주행모터부에 의해 무한궤도를 작동시켜 단차를 승월하게 된다. 이와 같은 장애물의 통과방법은 상기에 기재된 본 발명의 작동을 통해 이루어지는 것이므로, 이에 대한 상세한 설명은 생략한다. Figure 7 shows an exemplary view showing a step climbing in accordance with the present invention, the present invention is a step using the operation shown in Figures 4 and 5, that is, the front and rear drive track of the deformation and driving, the operation of the freewheel It is possible to facilitate the passing of obstacles in the form of obstacles and the passage of obstacles in the form of grooves. For example, when a traveling system that runs in a trapezoidal shape having a front / rear driving track portion as shown in FIG. 7 encounters a stepped obstacle such as a staircase, the endless track of the front driving track portion contacts the stairs and is sheared by the deformation motor portion. After the rear drive track part is operated to change the front / rear drive track part into a straight or inverted trapezoidal shape, the track motor is operated by the traveling motor part to climb the step. Since the method of passing such an obstacle is made through the operation of the present invention described above, a detailed description thereof will be omitted.
이하 본 발명의 변형된 일실시예를 첨부된 도면에 의해 상세히 설명하면 다음과 같다. Hereinafter, a modified embodiment of the present invention will be described in detail with reference to the accompanying drawings.
도 8 은 본 발명에 따른 변형된 구성을 보인 예시도를, 도 9 는 본 발명에 따른 변형된 구성에 따른 전단 및 후단 구동트랙부와 프리휠부의 구동을 보인 예시도를, 본 발명은 양측에 홈부(11)를 구비하는 동체프레임(10)과, 동체프레임(10)의 양쪽 전단 및 후단에 평행하게 배치되어 각각 설치되는 두쌍의 전/후단 구동트랙부(20,30)와, 동체프레임(10)내에 설치되어 한쌍의 전/후단 구동트랙부(20,30)를 동시에 구동시키는 주행모터부(40)와, 전단 구동트랙부(20)와 후단 구동트랙부(30) 사이에 위치하도록 동체프레임(10)에 설치되고 전단 구동트랙부(20)와 일체로 작동되는 프리휠부(60)와, 동체프레임(10)내에 설치되어 두쌍의 전/후단 구동트랙부(20,30) 및 프리휠부(60)를 동시에 회전시키되, 전단 구동트랙부(20)와 후단 구동트랙부(30)를 서로 대칭되도록 회전시키는 변형모터부(60)를 포함하여 구성되어 있다. Figure 8 is an exemplary view showing a modified configuration according to the present invention, Figure 9 is an exemplary view showing the drive of the front and rear drive track and the freewheel according to the modified configuration according to the present invention, the present invention grooves on both sides A fuselage frame 10 having 11, two pairs of front and rear drive track portions 20 and 30 disposed in parallel to both front and rear ends of the fuselage frame 10, respectively, and the fuselage frame 10, respectively. A fuselage frame installed between the traveling motor part 40 and the front drive track part 20 and the rear end drive track part 30 which are installed inside the driving motor part 40 and drive the pair of front and rear drive track parts 20 and 30 simultaneously. A freewheel portion 60 which is installed at (10) and operates integrally with the front end drive track portion 20, and which is installed in the fuselage frame 10 and has two pairs of front / rear drive track portions 20 and 30 and a freewheel portion ( The side for rotating at the same time 60, the front drive track portion 20 and the rear drive track portion 30 to be symmetrical with each other It is constituted by a motor unit (60).
상기 동체프레임(10)은 주행시스템의 몸체를 이루는 부분으로, 내부에 주행모터 및 변형모터가 설치되는 공간(12)을 구비하며, 양측 중간부분에 프리휠부(60)가 설치되는 홈부(11)가 내측방향으로 오목하게 형성되어 있다. The fuselage frame 10 is a part constituting the body of the traveling system, and has a space 12 in which the traveling motor and the deformation motor are installed therein, and the groove part 11 in which the freewheel part 60 is installed in the middle portions of both sides. Is concave inwardly.
상기 전단 구동트랙부(20)는 동체프레임(10)의 양측 전단에 각각 설치되고, 후단 구동트랙부(30)는 동체프레임의 양측 후단에 각각 설치되는 것으로, 전단 구동트랙부(20)와 후단 구동트랙부(30)는 동일한 구성으로 이루어져 있으므로, 전단 구동트랙부를 도시한 도 2 에 의해 후단 구동트랙부의 별도 설명없이 전/후단 구동트랙부를 설명한다. The front drive track portion 20 is installed at both front ends of the fuselage frame 10, the rear end drive tracks 30 are respectively installed at both rear ends of the fuselage frame, the front drive track portion 20 and the rear end Since the driving track unit 30 is configured in the same configuration, the front / rear driving track unit will be described with reference to FIG. 2 showing the front driving track unit without further explanation.
상기 전단 구동트랙부(20)는 동체프레임(10)에 일측이 베어링 지지되고, 동체프레임(10) 외측에 위치하도록 타측단에 동력전달기어(22)를 구비하는 주축(21)과, 동체프레임(10)내에 위치하도록 주축(21)에 일체로 형성되는 동력전달휠(23)과, 동체프레임(10) 외측으로 돌출된 주축(21)의 끝단을 베어링 지지하는 변형프레임(24)과, 주축의 동력전달기어(22) 양측에 위치하도록 또한 변형프레임(24)에 회전가능하도록 설치되어 주축의 동력전달기어(22)에 일측이 치합되는 연결기어(25)와, 연결기어(25)에 일측이 치합되도록 변형프레임(24)에 회전가능하게 설치되는 구동기어(26)와, 구동기어(26)와 동일축을 구비하고 변형프레임(24) 양측에 위치하도록 설치되는 구동바퀴(27)와, 구동바퀴(27)에 설치되는 무한궤도(28)를 포함하도록 되어 있다. The front end drive track portion 20 has a main shaft 21 having a power transmission gear 22 at the other end so that one side is bearing-supported to the fuselage frame 10 and positioned outside the fuselage frame 10, and the fuselage frame. A power transmission wheel 23 integrally formed on the main shaft 21 so as to be located in the 10, a deformation frame 24 bearing bearing ends of the main shaft 21 protruding out of the fuselage frame 10, and a main shaft A coupling gear 25 positioned at both sides of the power transmission gear 22 and rotatably mounted to the deformation frame 24 so that one side is engaged with the power transmission gear 22 of the main shaft, and one side of the coupling gear 25. A drive gear 26 rotatably mounted to the deformation frame 24 so as to be engaged with the drive gear, a drive wheel 27 having the same axis as the drive gear 26 and located on both sides of the deformation frame 24, and driving The track 27 is provided to the wheel 27 is included.
이때, 상기 동력전달기어(22), 연결기어(25), 구동기어(26)는 동일선상에 중심축이 위치하도록 서로 기어결합되어 있으며, 연결기어(25) 및 구동기어(26)는 변형프레임(24)에 회전가능하도록 베어링 지지되어 있다. At this time, the power transmission gear 22, the connecting gear 25, the drive gear 26 is geared to each other such that the central axis is located on the same line, the connecting gear 25 and the drive gear 26 are deformed frame The bearing is supported by 24 to be rotatable.
또한, 상기 주축(21)은 중공구조를 구비하며, 상기 동력전달휠(23)은 스프라켓 또는 로울러 또는 풀리로 이루어져 있다. In addition, the main shaft 21 has a hollow structure, the power transmission wheel 23 is made of a sprocket or roller or pulley.
상기 무한궤도(28)는 도 5 에 도시된 바와 같이, 일체형이 아닌 다수의 부품이 서로 연결되어 전체 트랙을 형성하는 조립식으로 이루어져 있다. 즉, 본 발명에 따른 무한궤도(28)는 트랙베이스(281)와, 트랙베이스 상부면에 트레드 연결조인트(282)에 의해 연결설치되는 트레드(283)와, 일측 트랙베이스와 이에 인접하는 또다른 트랙베이스 사이에 설치되는 트랙연결대(284)와, 트랙베이스(281)와 트랙연결대(284)를 연결하는 트랙연결조인트(285)로 이루어져 있다. As shown in FIG. 5, the caterpillar 28 has a prefabricated structure in which a plurality of parts, which are not integral, are connected to each other to form an entire track. That is, the crawler track 28 according to the present invention includes a track base 281, a tread 283 connected to a track base upper surface by a tread connecting joint 282, and one track base and another adjacent thereto. And a track connecting joint 285 for connecting the track base 281 and the track connecting board 284 between the track bases 284 provided between the track bases.
또한, 상기 구동바퀴(27)는 상기의 무한궤도(28)가 설치될 수 있는 구조로 이루어져 있으며, 이러한 구동바퀴의 구조는 무한궤도의 설치시 사용되는 공지기술에 해당되므로 상세한 설명은 생략한다. In addition, the driving wheel 27 has a structure in which the crawler 28 can be installed, and the structure of the drive wheel corresponds to a known technique used when installing the crawler, and thus detailed description thereof will be omitted.
또한, 상기 동체프레임(10)의 일측 전/후단에 각각 위치하는 전단 구동트랙부(20)와 후단 구동트랙부(30)는 동력전달벨트 또는 체인(80)에 의해 서로 연결되어 있다. 즉, 전단 구동트랙부의 동력전달휠(23)과 후단 구동트랙부의 동력전달휠(33)은 동력전달벨트 또는 체인(80)에 의해 연결되어 있다. In addition, the front end drive track unit 20 and the rear end drive track unit 30 respectively positioned at one side of the fuselage frame 10 are connected to each other by a power transmission belt or a chain 80. That is, the power transmission wheel 23 of the front drive track portion and the power transmission wheel 33 of the rear drive track portion are connected by a power transmission belt or a chain 80.
상기 주행모터부(40)는 동체프레임(10)의 일측에 위치하는 한쌍의 전/후단 구동트랙부(20,30)를 동시에 구동시키는 것으로, 동체프레임(10)내에 고정되는 주행모터(41)와, 주행모터의 축에 일체로 설치되는 모터기어(42)와, 모터기어와 일측이 치합되고 동체프레임 내측에 위치하도록 전단 구동트랙부의 주축(21)에 일체로 설치되는 동력전달감속기어(43)를 포함하도록 되어 있다. 즉, 상기 주행모터부(40)는 동체프레임(10)내에 두쌍이 설치되어 있다. The traveling motor unit 40 drives a pair of front and rear driving tracks 20 and 30 located at one side of the fuselage frame 10 simultaneously, and the traveling motor 41 is fixed in the fuselage frame 10. And a motor transmission 42 integrally installed on the shaft of the traveling motor, and a power transmission reduction gear 43 integrally installed on the main shaft 21 of the front drive track portion such that one side of the motor gear is engaged with the motor gear and is located inside the fuselage frame. ) Is included. That is, the traveling motor unit 40 is provided with two pairs in the fuselage frame (10).
상기와 같이 구성된 본 발명은 주행모터부(40)의 작동시, 주행모터(41)의 구동력이 동력전달 감속기어(43), 주축(21), 동력전달기어(22), 연결기어(25), 구동기어(26)에 전달되어 전단 구동트랙부(20)의 무한궤도(28)를 회전시키고, 동력전달휠(23)을 통해 후단 구동트랙부의 주축(31)에 전달되어 후단 구동트랙부의 무한궤도(38)를 회전시킨다. According to the present invention configured as described above, when the driving motor unit 40 is operated, the driving force of the driving motor 41 is the power transmission reduction gear 43, the main shaft 21, the power transmission gear 22, and the connecting gear 25. It is transmitted to the drive gear 26 to rotate the endless track 28 of the front drive track portion 20, and is transmitted to the main shaft 31 of the rear drive track portion through the power transmission wheel 23 to the endless drive track portion Rotate the trajectory 38.
상기 프리휠부(60)는 장애물의 동체프레임 접촉방지를 위한 것으로, 항시 바닥면에 일측이 접촉되도록 되어 있으며, 동체프레임 양측을 관통하도록 설치되어 변형모터부(50)와 연결되는 회전축(61)과, 동체프레임의 홈부내에 위치하도록 회전축의 양끝단에 각각 설치되는 아암(63)과, 상기 아암에 회전가능하도록 설치되는 프리휠(64)을 포함하도록 되어 있다. The freewheel unit 60 is for preventing contact of the fuselage frame with obstacles, and one side is always in contact with the bottom surface, and is installed to penetrate both sides of the fuselage frame, and the rotating shaft 61 is connected to the deformation motor unit 50. And arms 63 provided at both ends of the rotating shaft so as to be located in the groove part of the fuselage frame, and a freewheel 64 provided to be rotatable to the arm.
상기 변형모터부(50)는 전단 구동트랙부(20)와 후단 구동트랙부(30)를 서로 대항하는 방향으로 회전시켜 전/후단 구동트랙부(20,30)의 각도를 대략 사다리꼴 형상으로 변형시킴과 동시에 프리휠부(60)를 전단 구동트랙부(20)와 동기화하여 즉, 전단 구동트랙부의 회전각도와 프리휠부(60)의 회전각도가 동일하도록 작동시킨다.The deformable motor unit 50 rotates the front drive track unit 20 and the rear drive track unit 30 in a direction opposite to each other to deform the angles of the front and rear drive track units 20 and 30 into a substantially trapezoidal shape. Simultaneously, the freewheel unit 60 is synchronized with the front end drive track 20, that is, the rotational angle of the front end drive track unit and the free wheel unit 60 are operated to be the same.
이와 같은 변형모터부(50)는 양측단이 동체프레임(10)의 양측에 위치하는 전단 구동트랙부의 주축(21)을 관통하여 변형프레임(24)에 고정되고, 주축(21)에 베어링 지지되는 전단 변형축(51)과, 양측단이 동체프레임(10)의 양측에 위치하는 후단 구동트랙부의 주축(31)을 관통하여 변형프레임(34)에 고정되고, 주축에 베어링 지지되는 후단 변형축(52)과, 전단 변형축(51)에 일체로 설치되는 전단구동휠(53)과, 전단구동휠과 동일선상에 위치하도록 프리휠부의 회전축에 일체로 설치되어 체인 또는 벨트(58)에 의해 전단구동휠과 연결되는 제 1 연결휠(50a)과, 후단 변형축(52)에 일체로 설치되는 후단구동기어(54)와, 주행시스템(100)의 동체프레임(10)내에 설치되는 변형모터(55)와, 변형모터(55)의 축에 일체로 설치되어 후단구동기어(54)에 일측이 치합되는 모터기어(56)와, 변형모터(55)의 축에 일체로 설치되는 후단구동휠(53)과, 후단구동휠(53)과 동일선상에 위치하도록 프리휠부의 회전축에 일체로 설치되어 체인 또는 벨트(59)에 의해 후단구동휠과 연결되는 제 2 연결휠(50b)을 포함하도록 되어 있다. The deformable motor unit 50 is fixed to the deformable frame 24 by both ends thereof penetrating the main shaft 21 of the shear drive track unit located at both sides of the fuselage frame 10, and being bearing-supported to the main shaft 21. The front strain shaft 51 and the rear strain shaft which are fixed to the strain frame 34 through the main shaft 31 of the rear end drive track portion located on both sides of the fuselage frame 10 and are supported by the main shaft ( 52), a shear drive wheel 53 integrally installed on the shear deformation shaft 51, and a shear drive by a chain or belt 58 which is integrally installed on the rotation axis of the freewheel so as to be in line with the shear drive wheel. The first connecting wheel 50a connected to the wheel, the rear drive gear 54 integrally installed on the rear deformation shaft 52, and the deformation motor 55 installed in the fuselage frame 10 of the traveling system 100. ) And a motor gear 56 integrally installed on the shaft of the deformable motor 55 so that one side is engaged with the rear drive gear 54; The rear end driving wheel 53 is integrally installed on the shaft of the mold motor 55 and the rear end driving wheel 53 is integrally installed on the rotating shaft of the freewheel so as to be located on the same line as the rear driving wheel 53 and driven by the chain or the belt 59. And a second connecting wheel 50b connected to the wheel.
상기 전단구동휠(53) 및 후단구동휠(57)은 풀리, 로울러, 스프라켓 등등 연결방식에 따라 적절한 것을 사용한다.The front drive wheel 53 and the rear drive wheel 57 is appropriate to the pulley, roller, sprocket, etc. according to the connection method.
상기와 같이 구성된 본 발명의 변형모터부(50)는 변형모터(55)의 작동시, 변형모터(55)의 구동력이 모터기어(56), 후단구동기어(54), 후단구동휠(57), 후단 변형축(52)을 통해 후단 구동트랙부(30)의 변형프레임(34)에 전달되고, 후단구동휠(57), 벨트 또는 체인(59), 제 2 연결휠(50b)에 의해 프리휠부(60)에 전달됨과 동시에, 제 1 연결휠(50a), 벨트 또는 체인(58)을 통해 전단구동휠(53), 전단 변형축(51) 및, 전단 구동트랙부(20)의 변형프레임(24)에 전달된다. In the modified motor unit 50 of the present invention configured as described above, when the deformation motor 55 is operated, the driving force of the deformation motor 55 is the motor gear 56, the rear drive gear 54, and the rear drive wheel 57. , Is transmitted to the deformation frame 34 of the rear drive track portion 30 through the rear end deformation shaft 52, and the free wheel by the rear drive wheel 57, belt or chain 59, the second connecting wheel (50b) At the same time as being transmitted to the unit 60, through the first connecting wheel 50a, belt or chain 58, the shear drive wheel 53, the shear deformation shaft 51 and the deformation frame of the shear drive track 20 Is passed to 24.
즉, 상기 프리휠부(60)의 회전축(61)에 변형모터부(50)의 제 1,2 연결휠(50a,50b)가 고정설치되어 있으며, 회전축(61)은 변형모터(55)의 구동력을 제 2 연결휠(50b)에 의해 전달받아 아암(63)에 전달함과 동시에, 제 1 연결휠(50a)을 회전시켜 변형모터(55)의 구동력을 전달구동휠(53)에 전달하게 된다.That is, the first and second connection wheels 50a and 50b of the deformation motor unit 50 are fixed to the rotation shaft 61 of the freewheel unit 60, and the rotation shaft 61 is a driving force of the deformation motor 55. Is transmitted by the second connecting wheel (50b) to the arm (63), and at the same time to rotate the first connecting wheel (50a) to transfer the driving force of the deformation motor 55 to the transmission drive wheel (53). .
상기와 같은 회전축(61)의 회전에 의해 아암(63)이 회전되어 프리휠(64)의 위치가 변경되며, 상기 프리휠(64)은 변형모터(55)의 구동력에 의해 동체프레임의 홈부(11)에서 회전된다. The arm 63 is rotated by the rotation of the rotary shaft 61 as described above, and the position of the freewheel 64 is changed, and the freewheel 64 is the groove 11 of the fuselage frame by the driving force of the deformation motor 55. Is rotated at
이와 같은 변형모터(55)의 구동력에 의해 전단 구동트랙부의 변형프레임(24)과 후단 구동트랙부의 변형프레임(34)은 서로 대칭되는 방향으로 회전되게 되며, 프리휠부(60)는 전단 구동트랙부(20)와 동일한 방향으로 동기화되어 회전되게 된다. 즉, 전/후단 구동트랙부(20,30)는 소정각도로 회전되어 도 4 에 도시된 바와 같이, 전체적으로 사다리꼴 형상을 구비하게 되며, 프리휠부(60)와 전단 구동트랙부(20)는 링크구조와 같이 평행사변형을 이루며 작동된다. By the driving force of the deformation motor 55, the deformation frame 24 of the front drive track part and the deformation frame 34 of the rear drive track part are rotated in a symmetrical direction, and the freewheel part 60 is the shear drive track part. It is rotated in synchronization in the same direction as 20. That is, the front and rear drive tracks 20 and 30 are rotated at a predetermined angle to have a trapezoidal shape as shown in FIG. 4, and the freewheel 60 and the front drive track 20 are linked. Like a structure, it works in parallelogram.
또한, 본 발명의 동체프레임(10)에는 도시되지는 않았으나, 탐사 및 정찰을 위한 카메라, 센서부, 제어신호와 데이터를 송수신하기 위한 안테나, 상기 안테나를 통하여 수신되는 제어신호를 처리하여 주행모터와 변형모터 등을 제어하는 제어장치 등을 더 설치할 수 있다. In addition, although not shown in the fuselage frame 10 of the present invention, a camera for sensing and reconnaissance, a sensor unit, an antenna for transmitting and receiving control signals and data, and a driving motor by processing a control signal received through the antenna and It is possible to further install a control device for controlling the deformation motor and the like.
또한, 본 발명의 동체프레임(10)에는 도면에 나타내지 않았지만, 작업을 행하기 위한 로봇팔, 집게, 포크레인, 크레인 등을 설치하는 것도 가능하며, 이외에도 다양한 장비와 장치를 설치하는 것도 가능하다. In addition, the fuselage frame 10 of the present invention, although not shown in the drawings, it is also possible to install a robot arm, tongs, fork-lane, crane, etc. for performing the work, in addition to a variety of equipment and devices can be installed.
본 발명은 변형모터부에 의해 전/후단 구동트랙부 및 프리휠부의 각도를 다양하게 변화시켜 사다리꼴 형상으로 변형할 수 있으며, 전/후단 구동트랙부 및 프리휠부의 변형으로 인한 전단 구동트랙부와 후단 구동트랙부 사이의 공간으로 장애물이 삽입되어 동체프레임에 접촉되는 것을 방지하게 된다. The present invention can be transformed into a trapezoidal shape by varying the angle of the front and rear drive track portion and the freewheel portion by the deformation motor portion, the front drive track portion and the rear end drive due to the deformation of the front and rear drive track portion and the freewheel portion An obstacle is inserted into the space between the track portions to prevent contact with the fuselage frame.
도 10 은 본 발명의 변형된 구성에 따른 계단승월을 보인 예시도를 도시한 것으로, 본 발명은 도 9 에 도시된 동작들 즉, 전/후단 구동트랙부의 변형 및 구동, 전단 구동트랙부와 동기작동되는 프리휠부의 작동을 이용하여 계단형태의 장애물 승월, 요홈 형태의 장애물 통과를 용이하게 할 수 있다. 즉, 도 10 과 같이 전/후단 구동트랙부를 사다리꼴 형상으로 하여 주행하는 이동로봇이 계단과 같은 단차진 장애물을 만나게 되면, 전단 구동트랙부의 무한궤도가 계단에 접촉되고, 변형모터부에 의해 전단/후단 구동트랙부가 작동되어 전단/후단 구동트랙부를 일직선상 또는 역사다리꼴 형상으로 변경시킨 후, 주행모터부에 의해 무한궤도를 작동시켜 단차를 승월하게 된다. 이와 같은 장애물의 통과방법은 상기에 기재된 본 발명의 작동을 통해 이루어지는 것이므로, 이에 대한 상세한 설명은 생략한다. FIG. 10 is an exemplary view showing a staircase climbing according to a modified configuration of the present invention, and the present invention is synchronized with the front and rear drive tracks, that is, the operations shown in FIG. 9, that is, the front and rear drive tracks. By using the operation of the freewheel that is operated it is possible to facilitate the stepped obstacle climbing, the passage of obstacles in the groove form. That is, when a mobile robot traveling in a trapezoidal shape having a front / rear drive track part as shown in FIG. 10 encounters a stepped obstacle such as a step, the endless track of the front drive track part contacts the step, and the shear / After the rear end drive track is operated to change the front / rear drive track to a straight or inverted trapezoidal shape, the track motor is operated by the traveling motor to climb the step. Since the method of passing such an obstacle is made through the operation of the present invention described above, a detailed description thereof will be omitted.
본 발명은 상술한 특정의 바람직한 실시예에 한정되지 아니하며, 청구범위에서 청구하는 본 발명의 요지를 벗어남이 없이 당해 발명이 속하는 기술분야에서 통상의 지식을 가진 자라면 누구든지 다양한 변형실시가 가능한 것은 물론이고, 그와 같은 변경은 청구범위 기재의 범위내에 있게 된다. The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.
Claims (13)
- 양측에 홈부를 구비하는 동체프레임과, 동체프레임의 양쪽 전단 및 후단에 평행하게 배치되어 각각 설치되는 두쌍의 전/후단 구동트랙부와, 동체프레임내에 설치되어 한쌍의 전/후단 구동트랙부를 동시에 구동시키는 주행모터부와, 동체프레임내에 설치되어 두쌍의 전/후단 구동트랙부를 동시에 회전시키되 전/후단 구동트랙부가 서로 대칭되도록 회전시키는 변형모터부와, 전단 구동트랙부와 후단 구동트랙부 사이에 위치하도록 동체프레임에 설치되는 프리휠부와, 동체프레임내에 설치되어 프리휠부를 회전시키는 회전모터부를 포함하는 것을 특징으로 하는 가변형 주행 시스템.A fuselage frame having grooves on both sides, two pairs of front and rear drive tracks arranged in parallel to both front and rear ends of the fuselage frame, and a pair of front and rear drive tracks installed in the fuselage frame at the same time. A driving motor unit and a deformable motor unit installed in the fuselage frame to simultaneously rotate two pairs of front / rear drive tracks so that the front / rear drive tracks are symmetrical with each other, and positioned between the front drive track and the rear drive tracks. And a rotating motor part installed in the fuselage frame to rotate the freewheel part.
- 양측에 홈부를 구비하는 동체프레임과,동체프레임의 양쪽 전단 및 후단에 평행하게 배치되어 각각 설치되는 두쌍의 전/후단 구동트랙부와,동체프레임내에 설치되어 한쌍의 전/후단 구동트랙부를 동시에 구동시키는 주행모터부와,전단 구동트랙부와 후단 구동트랙부 사이에 위치하도록 동체프레임의 설치되어 전단 구동트랙부와 일체로 작동되는 프리휠부와, 동체프레임내에 설치되어 두쌍의 전/후단 구동트랙부 및 프리휠부를 동시에 회전시키되, 전단 구동트랙부와 후단 구동트랙부를 서로 대칭되도록 회전시키는 변형모터부를 포함하는 것을 특징으로 하는 가변형 주행시스템.A fuselage frame having grooves on both sides, two pairs of front and rear drive tracks arranged in parallel to both front and rear ends of the fuselage frame, and a pair of front and rear drive tracks installed in the fuselage frame at the same time. A driving motor unit, a freewheel unit installed in the fuselage frame so as to be located between the front drive track unit and the rear drive track unit, and integrally operated with the front drive track unit, and two pairs of front and rear drive track units installed in the fuselage frame. And a deformable motor unit which rotates the freewheel unit at the same time and rotates the front drive track unit and the rear drive track unit to be symmetrical to each other.
- 청구항 1 또는 청구항 2 에 있어서;The method according to claim 1 or 2;전단 구동트랙부 및 후단 구동트랙부는 동체프레임에 일측이 베어링 지지되고, 동체프레임 외측에 위치하도록 타측단에 동력전달기어를 구비하는 주축과, 동체프레임내에 위치하도록 주축에 일체로 형성되는 동력전달휠과, 동체프레임 외측으로 돌출된 주축의 끝단을 베어링 지지하는 변형프레임과,주축의 동력전달기어 양측에 위치하도록 또한 변형프레임에 회전가능하도록 설치되어 주축의 동력전달기어에 일측이 치합되는 연결기어와, 연결기어에 일측이 치합되도록 변형프레임에 회전가능하게 설치되는 구동기어와,구동기어와 동일축을 구비하고 변형프레임 양측에 위치하도록 설치되는 구동바퀴와,구동바퀴에 설치되는 무한궤도를 포함하는 것을 특징으로 하는 가변형 주행 시스템.The front drive track portion and the rear drive track portion are bearing-supported on one side of the fuselage frame, and have a main shaft having power transmission gears at the other end to be located outside the fuselage frame, and a power transmission wheel integrally formed on the main shaft to be located in the fuselage frame. And a deformed frame bearing the end of the main shaft protruding out of the fuselage frame, and a connection gear installed at both sides of the main transmission gear of the main shaft so as to be rotatable to the deformable frame, and one side of which is engaged with the main transmission gear of the main shaft. It includes a drive gear rotatably installed in the deformation frame so that one side is engaged with the connection gear, a drive wheel having the same axis as the drive gear and positioned on both sides of the deformation frame, and an endless track installed on the drive wheel A variable driving system characterized by the above.
- 청구항 3 에 있어서;The method according to claim 3;상기 동력전달기어, 연결기어, 구동기어는 동일선상에 중심축이 위치하도록 서로 기어결합되어 있으며, 연결기어 및 구동기어는 변형프레임에 회전가능하도록 베어링 지지되어 있는 것을 특징으로 하는 가변형 주행 시스템.And the power transmission gear, the connection gear, and the drive gear are geared to each other such that the central axis is located on the same line, and the connection gear and the drive gear are bearing-supported to be rotatable in the deformation frame.
- 청구항 3 에 있어서;The method according to claim 3;상기 무한궤도는 트랙베이스와, 트랙베이스 상부면에 트레드 연결조인트에 의해 연결설치되는 트레드와, 일측 트랙베이스와 이에 인접하는 또다른 트랙베이스 사이에 설치되는 트랙연결대와, 트랙베이스와 트랙연결대를 연결하는 트랙연결조인트로 이루어진 것을 특징으로 하는 가변형 주행 시스템.The track has a track base, a tread connected to a track base by a tread connecting joint, a track connecting bar installed between one track base and another track base adjacent thereto, and connecting the track base and the track connecting unit. Variable driving system, characterized in that consisting of a track connecting joint.
- 청구항 1 또는 청구항 2 에 있어서;The method according to claim 1 or 2;상기 동체프레임의 일측 전/후단에 각각 위치하는 전단 구동트랙부와 후단 구동트랙부는 동력전달벨트 또는 체인에 의해 서로 연결되어 일체로 구동되는 것을 특징으로 하는 가변형 주행 시스템.The front drive track portion and the rear end drive track portion respectively located at one side of the front and rear of the fuselage frame is connected to each other by a power transmission belt or a chain is a variable driving system, characterized in that the integral drive.
- 청구항 1 또는 청구항 2 에 있어서;The method according to claim 1 or 2;상기 주행모터부는 동체프레임내에 고정되는 주행모터와, 주행모터의 축에 일체로 설치되는 모터기어와, 모터기어와 일측이 치합되고 전단 구동트랙부의 동체프레임 내측에 위치하도록 주축에 일체로 설치되는 동력전달감속기어를 포함하는 것을 특징으로 하는 가변형 주행 시스템.The driving motor unit is a driving motor fixed in the fuselage frame, a motor gear integrally installed on the axis of the driving motor, and a power that is integrally installed on the main shaft so that one side of the driving gear and the motor gear are engaged and positioned inside the fuselage frame of the front drive track portion. Variable driving system comprising a transmission reduction gear.
- 청구항 1 에 있어서;The method according to claim 1;상기 변형모터부는 양측단이 동체프레임의 양측에 위치하는 전단 구동트랙부의 주축을 관통하여 변형프레임에 고정되고, 주축에 베어링 지지되는 전단 변형축과, 양측단이 동체프레임의 양측에 위치하는 후단 구동트랙부의 주축을 관통하여 변형프레임에 고정되고, 주축에 베어링 지지되는 후단 변형축과,전단 변형축에 일체로 설치되는 전단구동휠과, 후단 변형축에 일체로 설치되는 후단구동기어와,주행시스템의 동체프레임내에 설치되는 변형모터와,변형모터의 축에 일체로 설치되어 후단구동기어에 일측이 치합되는 모터기어와,변형모터의 축에 일체로 설치되고 전단구동휠과 벨트 또는 체인에 의해 연결되는 연결구동휠을 포함하는 것을 특징으로 하는 가변형 주행 시스템.The deformed motor part is fixed to the deformed frame through the main shaft of the front end drive track portion, both ends of which are located on both sides of the fuselage frame, the front end of the deformation bearing bearing on the main shaft, and the rear end drive is located on both sides of the fuselage frame A rear end shaft that is fixed to the deformation frame through the main shaft of the track part and is bearing-supported to the main shaft, a front drive wheel integrally installed on the front end shaft, a rear drive gear integrally installed on the rear end shaft, and a driving system The deformed motor installed in the fuselage frame of the motor, the motor gear which is integrally installed on the shaft of the deformed motor and is engaged with the rear end drive gear, and is integrally installed on the shaft of the deformed motor and connected by the shear driving wheel and the belt or the chain. Variable driving system comprising a connection driving wheel.
- 청구항 1 에 있어서;The method according to claim 1;상기 프리휠부는 동체프레임 양측을 관통하도록 설치되는 회전축과, 회전축에 일체로 설치되는 구동기어와, 동체프레임의 홈부내에 위치하도록 회전축의 양끝단에 각각 설치되는 아암과, 아암에 회전가능하도록 설치되는 프리휠을 포함하는 것을 특징으로 하는 가변형 주행 시스템.The freewheel portion is provided so as to be rotatable on the arm, and the rotating shaft is installed to penetrate both sides of the fuselage frame, the drive gear integrally installed on the rotating shaft, arms provided at both ends of the rotation shaft to be located in the groove portion of the fuselage frame; Variable driving system comprising a freewheel.
- 청구항 9 에 있어서;The method of claim 9;상기 프리휠은 회전축을 중심으로 360° 회전되는 것을 특징으로 하는 가변형 주행 시스템.The freewheel is a variable driving system, characterized in that rotated 360 ° about the axis of rotation.
- 청구항 1 에 있어서;The method according to claim 1;상기 회전모터부는 동체프레임내에 설치되는 회전모터와, 회전모터의 축에 일체로 설치되어 프리휠부의 구동기어에 치합되는 모터기어를 포함하는 것을 특징으로 하는 가변형 주행 시스템.The rotating motor unit includes a rotary motor installed in the fuselage frame, and a variable driving system characterized in that it comprises a motor gear is integrally installed on the shaft of the rotary motor and meshed with the drive gear of the freewheel unit.
- 청구항 2 에 있어서;The method according to claim 2;상기 프리휠부는 동체프레임 양측을 관통하도록 설치되어 변형모터부와 연결되는 회전축과, 동체프레임의 홈부내에 위치하도록 회전축의 양끝단에 각각 설치되는 아암과, 상기 아암에 회전가능하도록 설치되는 프리휠을 포함하는 것을 특징으로 하는 가변형 주행 시스템.The freewheel part includes a rotation shaft installed to penetrate both sides of the fuselage frame and connected to the deformable motor part, arms respectively installed at both ends of the rotation shaft so as to be located in the groove part of the fuselage frame, and a freewheel installed to be rotatable to the arm. Variable traveling system, characterized in that.
- 청구항 2 에 있어서;The method according to claim 2;상기 변형모터부는 양측단이 동체프레임의 양측에 위치하는 전단 구동트랙부의 주축을 관통하여 변형프레임에 고정되고, 주축에 베어링 지지되는 전단 변형축과, 양측단이 동체프레임의 양측에 위치하는 후단 구동트랙부의 주축을 관통하여 변형프레임에 고정되고, 주축에 베어링 지지되는 후단 변형축과, 전단 변형축에 일체로 설치되는 전단구동휠과, 전단구동휠과 동일선상에 위치하도록 프리휠부의 회전축에 일체로 설치되어 체인 또는 벨트에 의해 전단구동휠과 연결되는 제 1 연결휠과, 후단 변형축에 일체로 설치되는 후단구동기어와, 이동로봇의 동체프레임내에 설치되는 변형모터와, 변형모터의 축에 일체로 설치되어 후단구동기어에 일측이 치합되는 모터기어와, 변형모터의 축에 일체로 설치되는 후단구동휠과, 후단구동휠과 동일선상에 위치하도록 프리휠부의 회전축에 일체로 설치되어 체인 또는 벨트에 의해 후단구동휠과 연결되는 제 2 연결휠을 포함하는 것을 특징으로 하는 가변형 주행 시스템.The deformed motor part is fixed to the deformed frame through the main shaft of the front end drive track portion, both ends of which are located on both sides of the fuselage frame, the front end of the deformation bearing bearing on the main shaft, and the rear end drive is located on both sides of the fuselage frame It is fixed to the deformed frame through the main shaft of the track part, and is fixed to the rear-end strain shaft bearing on the main shaft, the shear driving wheel integrally installed on the shear deformation shaft, and integrally with the rotation shaft of the freewheel portion so as to be in line with the shear driving wheel. A first connecting wheel installed to be connected to the front driving wheel by a chain or belt, a rear driving gear integrally mounted to the rear deformation shaft, a deformation motor installed in the fuselage frame of the mobile robot, and a shaft of the deformation motor. Motor gear that is installed at the one end to be engaged with the rear drive gear, the rear drive wheel integrally installed on the shaft of the deformation motor, and the rear drive wheel And a second connecting wheel which is integrally installed on the rotating shaft of the freewheel part so as to be positioned and connected to the rear drive wheel by a chain or a belt.
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