KR101934979B1 - Fire-fighting building unattended lifesaving device - Google Patents

Abstract

[0001] The present invention relates to an unmanned lifesaving device for fire fighting, and more particularly, to an elevator lifting device for lifting an escaping person to the ground by raising and lowering a plurality of outer wall rails in parallel on an outer wall of a building, When the exit of the escape hatch is escaped to the controller, the elevator member located on the roof descends to find the escape hatch which is closest to the exiting escape hatch, escapes to the ground, descends to the ground and escapes You are safe to flee. The fire-fighting unmanned life-saving device of the present invention constructed as above can automatically and quickly rescue an escapee before the fire truck arrives, and furthermore, even if a fire occurs in the upper part of the skyscraper without the elevator ladder of the fire truck, It is a fire-fighting device that can safely rescue its valuable people.
In addition, when a remote controller for inputting an escape route to the controller is supplied to each household, it is an advantageous fire-extinguishing device that can be rescued by itself by inputting the escape location where the escapee escapes when a fire occurs.

Description

{Fire-fighting building unattended lifesaving device}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fire-extinguishing lifesaving device for rescuing an escapee escaping from an escape hole regardless of a height when a fire occurs in a very large building such as a high-rise apartment where a multi- A plurality of outer wall rails are vertically arranged in parallel on the outer wall of the building so as to be close to all escape holes such as a balcony, a window, a corridor or a veranda connected to the outside, When the fire is generated, the input means inputs the escape location information of the escape location to the controller, and the elevating member located on the roof descends to find the escape route closest to the escape route to escape, Carry to the ground to safely escape the escapee As relates to a series of structural fire unattended lifesaving device that quickly and automatically process can consist of simple structure, but who escaped to safety.

When a fire occurs in a very large building such as a large apartment or a large building in which many people reside, the escapee escapes by using a rescue device such as a stiffener provided in the building, or escapes with an external help such as an expensive ladder of a fire truck .

If a fire occurs in a building where a rigger is installed, it can escape only by moving to the place where the rigger is installed. However, there is a serious problem that it can not escape if the rigger is not accessible due to fire. Fortunately, even if the user reaches the stiffness, there is a problem that he can not use the method when he does not know how to use it.

When a fire occurs in a skyscraper and can not escape by itself, it is inevitable that the escape route should be evacuated to an escape area such as an apartment balcony and wait for external assistance. In reality, firefighters' high-price ladders are the only facilities that can be close to the escape route until the firefighter presses the fire to enter the field directly and rescue the escapee. However, since the elevated ladder of a fire truck is limited in height, when a fire occurs in the upper part of a skyscraper, the length of the fire is so short that it can not reach the place where the escapee is evacuated.

Conventional fire protection lifesaving lifesaving apparatus is disclosed in Japanese Patent Application Laid-Open No. 10-2007-0004492, which is a fire suppression and lifesaving elevator apparatus for a high-rise building. The rescue equipment is constructed by lifting the upper, lower, left, and right sides of the outer wall of a building, which is structured by taking a wire (100) of a certain thickness, In constituting the elevator apparatus 10,

An elevator (30) made of a heat-resistant wall body (20) in which a non-combustible material (21) having a considerable heat resistance even in a fire or a flame generated in a fire is embedded; Self-generated power generating means (40) capable of exerting its own driving force at a predetermined position inside and outside of the elevator (30); The power generated by the power generator from the power generated by the power generating unit 40 of the elevator 30 to the lower part of the building, A traveling means 50 such as a steering device; The stationary wire 100 is given a considerable load on the wire 100 so that the wire 100 can be lifted up by riding on the two wires 100 that are long from the roof of the building. A tackle type wire pulley (60) which is strongly urged and does not slip; An elevator self-fire protection device 70 for the purpose of temporarily extinguishing a partial flame necessary for lifesaving of a fire or a fire place approaching the elevator 30 during lifesaving activities due to a fire or suppressing the fire itself; It is installed.

However, in the above-described conventional technique, since the elevator 30 on which the escapee is aboard is connected to the wire 100 which is elongated in two strands and ascends and descends, the wire 100 shakes with the shaking of the wire 100 during the ascending and descending, In the case of a strong wind such as a typhoon, the wire 100 is severely shaken and can not be used. Also, when the elevator 30 having heavy weight is severely shaken by the wind, there is a serious concern that the rooftop structure supporting the rooftop is separated from the roof due to a strong tensile force from the bottom, and finally the elevator 30 falls.

In addition, since the elevator 30 is hanged on the wire 100, the wire 100 must be kept hanging even when the fire is not generated. Therefore, the wire 100 is always subjected to a tensile load and fatigue increases, There was a high risk problem. In addition to the above-described problems, the wire 100 is exposed to rain and windshield so that the corrosion progresses quickly, and the people living on the ground are always watching the elevator 30 hanging on the wire being corroded, 30) will have a fear when they will not know when to fall.

Because of this problem, all conventional fire-fighting devices that rescue people by lifting an elevator that is always hanging even in a normal state while relying solely on wires are increasingly insecure due to extreme fatigue of wires and unstable due to shaking, It is a reality. In other words, it is not practically applied because the lifesaving device with high risk is not applied to the building because the stability is not guaranteed.

In addition, a fire escaping apparatus for a building in Patent Registration No. 10-0841211 is proposed as a conventional lifesaving lifesaving lifesaving apparatus. This technique includes a main conveyance unit installed along a horizontal direction of an outer wall surface of a building and having a center guide rail formed along the horizontal direction; A horizontal conveyance part rotatably coupled to one end of the main conveyance part or coupled to both ends of the main conveyance part so as to be rotatable and having side guide rails parallel to the center guide rails; A boarding portion coupled to the center guide rail and the side guide rails in parallel so as to be movable along the side guide rails and having a refugee boarding space formed therein; A vertical conveying part connected to the boarding part, for vertically moving the boarding part along the vertical direction of the building; And a pivoting part for pivoting the horizontal conveying part when the boarding part is positioned on the center guide rail.

However, in the conventional technique, the evacuation cage 111 located at the center is connected to the wire, and the horizontal conveying units 130, 130 ', and 230, which are located at the left and right sides of the evacuation cage 111, Is a large structure corresponding to a height of three stories. Since the large structure must be spread horizontally on the wall, the overall structure is very complicated and there is another risk of accident in the structure of the escape structure.

Korean Patent Publication No. 10-2007-0004492 Korean Patent Registration No. 10-0841211

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems of the conventional lifesaving lifesaving apparatus, and it is an object of the present invention to provide a fire extinguishing lifesaving apparatus, And an elevating member for raising the escaping member to the ground is provided so as to reciprocate on the rooftop so as to move up and down along the outer wall rails so that the exit means position information, , The elevating member located on the roof locates the outer wall rail closest to the escape route where the escapee evacuates and descends to carry the escapee to the ground and safely evacuate the escapee so that a series of rescue processes are quickly and automatically performed, The structure of the skyscraper Even if a fire occurs in the unit may fire unattended lifesaving device that can easily rescue regardless of the height of the offering.

Another object of the present invention is to provide an elevator for an elevator that escapes to the ground on an escapee by keeping the elevation member on the roof in a normal state without occurrence of a fire to fundamentally eliminate the risk of falling, Which is capable of protecting the wires from snow and rain while removing the tensile force applied to the wires according to the storage box, thereby extending the service life of the wire.

It is a further object of the present invention to provide an elevator for an elevator that can be sloped on a roof to simplify the structure by designing the elevator member to descend itself by its own weight when the motor of the winch uncovers the wire without a separate device Fire-fighting building unmanned life-saving device.

According to an aspect of the present invention, there is provided an unattended lifesaving structure for a firefighting building, comprising: a roof rail (2) installed on a roof (A) of a building;

A base (3) mounted for reciprocation along the roof rail (2) and carrying components mounted thereon;

A base moving means (4) for reciprocating the base (3);

An outer wall rail (5) in which a plurality of vertically installed outer walls are arranged in parallel with each other so as to correspond to the exit of each floor of the building;

A moving rail 6 mounted on the base 3 and moving with the base 3 to coincide with the respective outer wall rails 5;

An elevating member (7) which is mounted on the movable rail and normally moves to the outer wall rail when the movable rail coincides with the outer wall rail, and escapes to the ground through the escape hatch escaping to the exit of the building;

A weight detecting sensor 9 installed at the bottom of the elevating member 7 to detect the weight of the occupant;

A winch mounted on the base (3) and connected to the lifting member by a wire wound and wound by driving of the motor to lift the lifting member;

A first sensing sensor comprising a movement sensor provided on the side of the movable rail and a fixed sensor provided on the side of each outer wall rail so as to sense the position where the movable rail coincides with the respective outer wall rail;

A second sensing sensor for sensing whether the elevating member (7) is mounted on the upper part of the movable rail;

A third sensing sensor formed of a moving sensor installed on the elevating member and a fixed sensor installed on the escape opening so that the elevating member ascending and descending along the outer wall rail can detect the position where the elevating member coincides with the escape opening of the building;

A fourth sensing sensor for sensing a proximity distance to the ground so that the elevating member does not collide when approaching the ground;

Information including position information of the escape opening H and weight information comparable to the body weight of the escaping person is input in advance and information input from the outside, the detection signal of the first detection sensor 11, the detection of the second detection sensor 12 The driving of the winch 10 and the base moving means 4 is controlled in accordance with a signal detected by the third sensing sensor 13, a sensing signal of the fourth sensing sensor 14, (C); And

And input means for inputting, to the controller (C), information on the position of the exit (H) from which the escapee escapes when a building fire occurs,

When the escapee who has escaped to the escape opening H sends a rescue signal when a fire occurs in the building and the elevation member 7 is mounted on the moving rail 6 and stored, H) position information is input to the controller C and the controller C confirms the position of the previously entered exit H coincident with the position information to detect the position of the weight detection sensor 9, The moving sensor 11a provided on the moving rail side and the fixing sensor 11b provided on the side of the outer wall rail 5 closest to the escape opening H where the escape person escapes, the second sensing sensor 12, the third sensing sensor 13 The fourth sensor 14, the base moving means 4 and the winch 10 installed at the escape opening H where the escape hatcher escapes from the moving sensor 13a provided in the elevating member 7, To an ON state;

When the second sensing sensor 12 senses that the elevating member 7 is mounted on the movable rail 6 under the control of the controller C, the base moving means 4 moves the base 3 And moves to the outer wall rail 5 closest to the evacuation opening H where the evacuator escapes. When the moving sensor 11a senses the fixed sensor 11b in the ON state, Aligning the outer wall rails 5;

The motor 10a of the winch 10 is driven to release the wire 10b wound on the drum so that the elevating member 7 mounted on the moving rail 6 moves to the outer wall rail 5, When the movement sensor 13a detects the fixed sensor 13b in the ON state, it is stopped to align the elevating member with the escape opening;

Thereafter, when the escape person is aboard the suspended elevation member 7, the weight sensing sensor 9 senses the weight of the passenger, and when the sensed weight is greater than the input weight and recognizes the boarding of the escapee, The elevator 7 is stopped when the fourth sensor 14 installed on the elevating member 7 senses the ground by driving the motor 10a of the elevating member 7 so that the elevator 7 is retreated, I will.

The input means for inputting an external command to the controller C is a remote controller capable of wirelessly inputting information into the controller C. The remote controller is connected to the elevator member 7 or a building guard or management room or the elevator member 7, And an escapee or a building worker boarded on the elevating member 7 inputs a command to the controller C to control the elevating position of the elevating member 7. [

The input means for inputting an external command to the controller C is a fire detection sensor installed inside the building to detect the occurrence of fire. The fire detection sensor sends a signal to the controller when it detects fire occurrence.

The exit H includes a balcony (A-2) of a building, a window, a corridor or a veranda connected to the outside.

According to the present invention configured as described above, when a fire occurs, the location information of the escape hatch escaped by the remote controller, which is an information input means provided in the management room or the security room of the building, is input to the controller, It quickly moves to the escape hatch, takes the escapee and transports it to the ground to safely evacuate the escapee.

Accordingly, the present invention can safely evacuate an escapee at an early stage of a fire, because the elevator moves without any delay wherever the escape hole is located, regardless of the height including the upper part of the super large building when a fire occurs It has the advantage of minimizing human injury.

In addition, since the present invention can rescue people briefly before a fire truck arrives, that is, when a rescue request is made, the firefighters who arrive later do not need to forcefully enter fire to rescue their lives, And it is advantageous that the firefighter and the equipment are put into the fire suppression to effectively suppress the fire.

In addition, according to the present invention, if an outer wall rail embedded in a parallel form on the outer wall of a building is designed, the outer wall of the building can be decorated beautifully and the elevating member ascending and descending along the outer wall rail is stored on the roof, There is an advantage that it can decorate the outer wall of the monotonous building nicely.

1 is a side view showing a state where the elevating member according to the present invention is mounted on a movable rail installed on a roof of a building
Fig. 2 is a side view showing that the elevating member according to the present invention is lifted and lowered along the outer wall rail
FIG. 3 is a front view showing a state in which the elevator according to the present invention is stopped at an apartment balcony as an escape hole to construct an escapee
4 is a plan view showing a state in which the movable rail and the outer wall rail according to the present invention coincide with each other and the elevating member is moved to the outer wall rail;
5 is a plan view showing a state in which a moving rail and a winch are installed on a base according to the present invention.
6 is a front view showing a state in which a wire is connected between a motor and a driven roller,
7 is a perspective view showing an assembling process of lifting the outer wall rails according to the present invention in a line by hooking them up.
8 is an enlarged plan sectional view showing a state in which the roller of the elevating member according to the present invention is accommodated in the outer wall rail;
9 is a front view of an elevator according to the present invention,
10 is an enlarged plan view showing a state where the elevating member according to the present invention is positioned on an apartment balcony
FIG. 11 is a view showing an embodiment in which the elevator of the present invention constructs an escaping body that escapes to an escape opening when an apartment fire occurs
12 is a view showing another embodiment in which the elevator of the present invention constructs an escape hatch that escapes to an escape hatch when an apartment fire occurs

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of a fire fighting lifeless lifter according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawing, the fire fighting building lifeless lifter 1 according to the present invention is constructed such that the outer wall rails 5 are embedded in parallel on the outer wall of the building at a position close to the escape opening H, 5 to raise the elevating member 7 to escape to the ground by boarding the escape hatch escaping to the escape hatch H.

More specifically, the fire fighting building unattended life saving device (1) of the present invention comprises a roof rail (2) installed on a roof (A) of a building; A base 3 for reciprocating along the roof rail 2 and carrying components mounted thereon; A base moving means (4) for reciprocating the base (3); An outer wall rail (5) in which a plurality of vertically installed outer walls are arranged in parallel with each other so as to correspond to the exit of each floor of the building; A moving rail 6 moving together with the base 3 and coinciding with the respective outer wall rails 5; An elevating member (7) which moves to the outer wall rail when the movable rail is aligned with the outer wall rail when the fire occurs, and escapes to the ground by boarding an escapee escaping to the exit of the building; A weight detecting sensor 9 installed at the bottom of the elevating member 7 to detect the weight of the occupant; A winch for connecting and lifting the lifting member by a wire wound and unwound by driving of the motor; A first sensing sensor sensing a position where the moving rail coincides with each outer wall rail; A second sensing sensor for sensing whether the elevating member (7) is mounted on the upper part of the movable rail; A third sensing sensor for sensing a position where the elevating member ascending and descending along each of the outer wall rails coincides with each exit of the building; A fourth sensing sensor for sensing a proximity distance to the ground so that the elevating member does not collide when approaching the ground; Information including position information of the escape opening H and weight information comparable to the body weight of the escaping person is input in advance and information input from the outside, the detection signal of the first detection sensor 11, the detection of the second detection sensor 12 The driving of the winch 10 and the base moving means 4 is controlled in accordance with a signal detected by the third sensing sensor 13, a sensing signal of the fourth sensing sensor 14, (C); And an input means (not shown) for inputting the position information of the escape opening H where the escapee escape from the building C to the controller C when a building fire occurs.

The rooftop rail 2 is installed on the bottom of the roof A so as to reciprocate the base 3 mounted thereon and is installed along the rim of the roof A in parallel with the outer wall of the building. This roof rail 2 is preferably arranged in two or more rows so as not to shake the base 3 and extends to a position corresponding to the exit H of the building. It is shown in the drawing that two rows are arranged. When the roof rail 2 is extended in correspondence with the escape opening H located throughout the building, the elevation member 7 can approach all the escape openings H of the building regardless of the location, The escapee can be quickly fleeed.

The base 3 is formed in a plate shape and is installed to be reciprocatable along the roof rail 2 so as to carry the parts mounted on the roof 3 so that the movable rail 6 is aligned with the outer rail 5 So that the elevating member 7 mounted on the movable rail 6 is supplied to the outer wall rail 5.

4, the base moving means 4 is provided at one side of the roof rail 2 to move the base 3 in the forward and backward directions by driving the controller C, A first drive motor (41) rotating in a reverse direction;

A second drive motor (42) installed on the other side of the roof rail (2) and rotating forward and backward in the same direction at the same time as the first drive motor (41); And

The base 3 is wound on a drum connected to the shafts of the first and second driving motors 41 and 42 to rotate the first and second driving motors 41 and 42, And a wire (43) reciprocating the base (3) according to the reverse rotation.

The first and second driving motors 41 and 42 reciprocate the base 3 while winding or unwinding the wire 43 wound around the drum in the forward and reverse directions in the same direction.

Another embodiment of the base moving means 4 includes a first driving motor 41 installed at one side of the roof rail 2 as shown in FIG. 6 and rotating forward and backward by driving the controller C;

A driven roller (44) rotatably installed on the other side of the roof rail (2) and rotated by the power of the first drive motor (41); And

A drum connected to the shaft of the first driving motor 41 and the driven roller 44 are wound tightly and the base 3 is connected on the path thereof so that the forward and reverse rotations of the first driving motor 41 And a wire (45) reciprocating the base (3).

Since the driven roller 44 is not equipped with a rotating power and rotates by the power of the first driving motor 41, the wire 45 is wound in a tension state so that the first driving motor 41 rotates Rotate together. If the wire 45 is loosened and the driven roller 44 does not rotate, the base 3 connected to the wire 45 can not be reciprocated.

The outer wall rail 5 is a very important factor in carrying out the present invention. 3 and 14, a plurality of the outer wall rails 5 are vertically buried in parallel on the outer wall of the building, so that the outer wall rails 5 are disposed close to all the outlets H of the building. Therefore, the outer wall rail 5 is installed wherever the escape opening H of the building exists, and the elevating member 7 moves up and down along the outer wall rail 5, The elevating member 7 approaches the elevation irrespective of the height, and can escape the escapee to the ground.

Here, the exit H includes a balcony (A-2) of a building, a window, a corridor or a veranda connected to the outside.

7 and 8, the outer wall rail 5 has a receiving space 51 penetrated therein so that the roller 72 of the elevating member 7 can pass therethrough, An opening 52 is formed so as to communicate with the accommodation space 51 so that the arm 71 can move. The outer wall rail 5 is hooked on an upper part of the rear face so as to be vertically hooked on the hook HK when assembled and replaced and a hook HK inserted into the hook hole 53 A tunnel 54 is formed behind the hook 53 so as to be accommodated. In addition, the outer wall rails 5 are provided with fitting protrusions 55 on both sides of the lower portion located at the time of assembly so that the receiving spaces 51 of the fitting portions are aligned when a plurality of the outer rails 5 are connected in a row, And an assembling hole 56 is formed on both sides of the other end located at the upper portion so as to accommodate the fitting protrusion 55.

Accordingly, when the lower fitting projections 55 are inserted into the upper assembly holes 56, the upper and lower side accommodating spaces 51 are smoothly connected to each other, so that rumbling vibrations do not occur when the rollers 72 pass Thus enabling quiet movement. In addition, the outer wall rail 5 is formed with a locking protrusion 57 which is caught by the concrete forming the outer wall of the building and is prevented from coming off.

The outer wall rail 5 thus constructed is vertically embedded in the outer wall of the building so as to be close to the exit H formed in each layer of the building and is stacked in a row to form a single rail on which the arm 71 of the elevating member 7 moves A plurality of upper portions arranged in parallel on the outer wall of the building so that the single rail is close to each of the escape openings H, each upper portion extending to the roof A and each extending upper end curved toward the roof 2 .

The reason why the upper end of the outer wall rail 5 is bent in a curved shape toward the roof rail 2 is that the elevating member 7 moving along the outer wall rail 5 is moved And is for guiding the elevating member 7, which is moved to the rail 6 or mounted on the moving rail 6, to move to the outer wall rail 5.

As shown in FIG. 7, a plurality of the outer rail rails 5 are connected in a line to form a single rail. In FIG. 8, only the opening 52 penetrating the entire surface is exposed and the remaining part is embedded. Since the outer wall rail 5 of the present invention is applied to the outer wall of the building, if it is used for a long period of time, it is exposed to snow and rain and inevitably rusts. Therefore, it is preferable that the outer wall rail 5 is replaceable for safety.

To this end, the outer wall rails 5 of the present invention are coated with a release agent or a protective agent on the outer surface of the outer wall rail 5 so that the concrete laid on the building is not adhered to the surface during the curing process. Since the demolding agent is in the form of a liquid, the outer wall rail 5 of the metal material is immersed so as to be immersed in the demolding agent, followed by drying and application. The protective material is made of a very thin material, such as soft vinyl, and is used to wrap the outer wall rail (5).

Since the demolding agent or protective agent is positioned between the outer wall rail 5 and the concrete to prevent the concrete from adhering to the outer wall rail 5, the unit rails having a predetermined length after the concrete curing are stacked to form a single rail The outer wall rails 5 can be sequentially lifted in a reverse order of the assembling procedure by inserting the hooks HK into the hook holes 53 as shown in Fig. 7 to replace the corroded outer wall rails 5. A part of the hook HK is protruded to the outside because the hook HK is inserted into the hook hole 53 when the outer wall rail 5 is replaced and the protrusion part is inserted into the tunnel 54 prepared in the rear of the hook hole 53 The outer wall rails 5 can be easily replaced. If there is no tunnel 54, the concrete is filled at the location of the tunnel 54, so that the hook HK can not be inserted into the hook 53 when the tunnel 54 is replaced, so that the outer rail 5 can not be lifted. Therefore, the tunnel 54 of the outer wall rail 5 is an important factor that enables the outer wall rail 5 to be replaced.

Meanwhile, when concrete is laid to construct a building, a formwork is installed at a position where the outer wall rails 5 are embedded to secure a space in which the outer wall rails 5 can be inserted, and then the formwork is removed, When the outer wall rails 5 are inserted in the same manner as in Fig. 7, the outer wall rails 5 can be lifted up in the reverse order of insertion, and can be simply replaced.

As shown in FIGS. 11 to 12, the outer wall rail 5 is installed between the balconies A-2 of each generation in the case of an apartment, and the elevating member 7 is lifted and lowered to the balcony A- The escapee can be rescued. Here, the balcony (A-2) of each household becomes an exit (H) through which the escapee can evacuate.

The movable rail 6 is mounted on the base 3 and normally mounted on the lifting member 7 in the absence of a fire so that when the fire occurs the outer rail 5 closest to the escape opening H, ) To move the mounted elevation member (7) to the corresponding outer wall rail (5) so that an escapee can be constructed. The internal structure of the moving rail 6 is the same as that of the outer wall rail 5.

The movable rail 6 accommodates the roller 72 of the elevating member 7 so that the elevating member 7 can be mounted and the roller 72 can move to the outer wall rail 5 And a lower end portion of the lower end portion is mounted on the base 3 so as to correspond to the upper end portion of the outer wall rail 5, When the base 3 moves back and forth along the roof rail 2, the lifting member 7 is aligned with the outer wall rails 5 and moves up and down when the fire is generated. To the adjacent outer wall rail (5).

The moving rail 6 corresponds to the roller 72 of the elevating member 7 and the elevating member 7 mounted on the upper portion thereof is inclined so as to be lowered by its own weight so that the wire 10b of the winch 10, The structure is automatically reduced so that the structure is simplified even if there is no separate lowering means.

The elevating member 7 is mounted on a moving rail 6 installed on the roof A in a normal state in which no fire occurs, and when a fire occurs, (6) to descend along the outer wall rail (5) and move to an exit (H) where the escapee is evacuated to board the escapee, and then transported to the ground for evacuation.

The elevating member 7 is constructed in a bucket shape in which the upper part is opened so that the escapee can ride the vehicle. A roller 72 is provided at the end of the arm 71 protruding to the outside, The upper end portion of the wire is connected to the wire 10b of the winch 10 and is moved up and down along the moving rail 6 and the outer wall rail 5 by the driving of the winch 10, In case of fire, escape escaper escorted to exit (H) and escorted to the ground.

The arm 71 of the elevating member 7 is provided on each of the upper and lower sides so that a total of four are inserted into the outer wall rail 5 and the moving rail 6 so that the elevating member 7, . The arm 71 may be composed of four or more, or more, and the elevation member 7 may be more securely supported.

The weight detection sensor 9 is a kind of pressure sensor that detects when the escapee is aboard the elevation member 7 and reaches a predetermined weight or more. When the weight sensing sensor 9 senses the weight of the escapee aboard the elevating member 7, the sensed information is sent to the controller C. The controller C determines that the received weight information is greater than the weight information It recognizes that the escapee is aboard the elevation member 7 and drives the motor 10a of the winch 10 to descend the elevation member 7. [

The winch 10 is provided on the base 3 to drive the elevator member 7 under the control of the controller C. The winch 10 is driven by the motor 10a, And the wire 10b wound around the drum is connected to the elevating member 7 to lift the elevating member 7 up and down. The winch 10 is driven by the motor 10a under the control of the controller C to release the wire 10b and to connect the elevator member 10 mounted on the movable rail 6 7) to the exit (H) where the escapee escapes and to the ground. The motor 10a of the winch 10 senses the elevation member 7 in which the second sensing sensor 12 moves when the elevation member 7 is hoisted on the moving rail 6 by winding the wire 10b The driving is immediately stopped to prevent the lifting member 7 from colliding with the motor 10b.

The first sensing sensor 11 detects the position of the movable rail 6 when the movable rail 6 and the outer wall rail 5 coincide with each other. The first sensing sensor 11 includes a moving sensor 11a provided on the moving rail 6 side and a fixed sensor 11b provided on the outer wall rail 5 side. The movement sensor 11a provided on the side of the movable rail 6 reciprocates in accordance with the movement of the base 3 to detect the fixed sensor 11b provided on the side of the outer rail 5, (5). In the present invention, the movement sensor 11a is provided on the base 3. The fixing sensors 11b provided on the outer wall rail 5 side are provided corresponding to the outer wall rails 5 arranged in parallel as shown in FIG. 11, so that a plurality of fixing sensors 11b are used.

Accordingly, when the position information of the escape opening H from which the escape person escapes from the outside is inputted from the outside by the fire due to the fire, the controller C controls the outer wall rail 5 closest to the escape opening H among the many fixed sensors 11b Only the corresponding fixed sensor book 11b to be displayed is controlled to be in the ON state and then the moving sensor 11a in the ON state installed in the base 3 detects one fixed sensor 11b in the ON state The moving rails 6 on which the elevating members 7 are mounted are aligned with the corresponding outer wall rails 5 so that the elevating members 7 are immediately moved to the corresponding outer wall rails 5 to construct an escape hanger.

The first sensing sensor 11 may be a variety of known sensors, such as a step-switch type, a perturbation resistance type, a capacitive type, a differential trans type, a proximity switch (permanent magnet + magnetic sensor) type, a photoelectric switch (light source + photoelectric element) And so on. For example, when a pair of photoelectric switches sensing a light source is used to irradiate light, the movable rail 6 and the outer wall rail 5 are aligned when the other side senses the light.

The second sensing sensor 12 is located at a position where the elevating member 7 is mounted so that the base moving means 4 can move the base 3 only when the elevating member 7 is mounted on the moving rail 6 And detects whether or not the elevating member 7 is mounted. The second sensing sensor 12 is a kind of proximity sensor that senses the elevation member 7 when it approaches. The second sensing sensor 12 senses the state where the lifting member 7 is always mounted on the moving rail 6 and the base 3 is moved to the outer rail 5 So that the elevating member 7 can be moved to the outer wall rail 5 so that the escapee can be constructed. The movable rail 6 is moved to the elevation member 7 under the control of the controller C when the elevation member 7 moves to the corresponding outer wall rail 5 and does not exist on the movable rail 6 in order to construct the escapement. And then waits at that position until it is mounted again.

In the present invention, the term "corresponding " refers to a related component which guides a path through which the lifting member 7 moves to the escape opening H where the escapee escapes, in the event of a fire.

The third sensing sensor 13 senses the position when the elevating member 7 is lifted along the outer wall rails 5 and the elevating member 7 is aligned with the escape opening H installed in the entire floor of the building And includes a moving sensor 13a provided on the elevation member 7 and a fixed sensor 13b provided on each of the escape holes H as shown in Fig. When a fire occurs, only one pair of third sensor 13 is turned on to sense each other. That is, when a fire occurs, only the moving sensor 13a provided on the elevating member 7 and the fixed sensor 13b provided on the escape opening H where the escape is evacuated are turned ON under the control of the controller C.

More specifically, when a fire occurs and positional information of the escape opening H from which the escapee escapes from the outside is input from the outside, the controller C turns on the movement sensor 13a provided on the elevation member 7, Only the fixed sensor 13b installed in the corresponding exit H out of the many fixed sensors 13b evacuated is controlled to be in an ON state. Therefore, the elevating member 7 and the escape opening H are stopped when the elevating member 7 descends along the outer wall rail 5 and the moving sensor 13a and the corresponding fixing sensor 13b coincide with each other, So that the escapee can ride on the elevating member 7 and escape to the ground. A plurality of fixing sensors 13b installed in the respective escape halls H are provided so as to correspond to all the escape halls H of the building.

The fourth sensing sensor 14 is installed on the bottom surface of the elevating member 7. When the elevating member 7 descends to escape to the ground and escapes to the ground, The driving of the motor 10a of the winch 10 is stopped to prevent the elevating member 7 from colliding with the ground. The fourth sensing sensor 14 is also a kind of proximity sensor that detects the ground.

The controller C controls all necessary components until the elevating member 7 reaches the ground on the moving rail 6 in the process of constructing and escaping the escapee.

To this end, the controller C inputs all necessary information including positional information of the exit H and weight information comparable to the body weight of the escaping person, and inputs information inputted from the outside, detection of the first detection sensor 11 The winch 10 is controlled according to the detection signal of the second sensor 12, the detection signal of the third sensor 13, the detection signal of the fourth sensor 14 and the detection information of the weight sensor 9, And the driving of the base moving means 4 are controlled. The detailed control method for this will be described in detail in the process of the escape structure described later.

The input means is for inputting the position information of the escape opening (H) where the escapee escapes when the building fire occurs, to the controller (C). The input unit may use a remote controller capable of inputting information in a wireless manner to the controller C. The remote controller may be connected to the elevator member 7 or the building guard or management room or the elevator member 7, So that an escapee or a building worker boarding the elevating member 7 can directly input a command to the controller C so that the elevating position of the elevating member 7 can be manually controlled as necessary.

Also, the remote control is supplied to each generation of the building. In this case, when a fire occurs in a building, most of the tenants are escaped. Therefore, when the tenant inputs his or her own location information, that is, the household lake, the elevator 7 immediately arrives at the balcony of the apartment, You can evacuate. Therefore, when a remote controller is supplied to each household, the present invention provides a fire extinguisher capable of self-rescuing without any help from the escapee. When the neighboring residents enter the corresponding household number of the fire in the remote control, the elevator member arrives at the balcony or window of the resident immediately, so that the tenant can safely escape to the ground by boarding the elevator member.

Hereinafter, the process of rescue of life when a fire occurs in a large building using the fire-fighting building unmanned life-saving device (1) of the present invention constructed as described above will be described in detail. For example, it will be described that the fire fighting building lifeless lifesaving device 1 of the present invention is installed in a high-rise apartment as shown in FIGS.

When a fire is invented in a skyscraper equipped with the present invention, the escapee evacuates to the apartment balcony (A-2) having the escape opening (H) and sends a rescue signal. A worker in the apartment management room or security room confirms the position of the escape opening And inputs the exit position H position information to the remote controller, which is an immediate input means. For example, in the case of FIG. 11, since a fire occurred in 601, 601 is input, and in FIG. 12, a fire occurs in 906, so that 906 is input.

In this case, if the remote control is supplied to each household and the residents own the remote control, the resident of the generation where the fire occurred or the neighboring residents can input the generation lake where the fire occurred using the remote control.

When the positional information is input as described above, the remote controller transmits the positional information to the controller (C). Also, when there is a fire detection sensor associated with the sprinkler in the building, the fire detection sensor senses the fire and delivers the generation lake to the controller (C).

The controller C receiving the exit lake information confirms the position of the corresponding exit port H previously entered in correspondence with the position information so as to detect the position of the weight sensor 9 and the base of the first detection sensor 11, The moving sensor 11a provided on the outer wall rail 3 and the corresponding fixing sensor 11b provided on the side of the outer wall rail 5 nearest to the escape opening H where the escape person is evacuated, the second sensing sensor 12, The moving sensor 13a provided on the elevating member 7 of the elevating member 13 and the corresponding fixing sensor 13b provided on the escape opening H where the escapee is evacuated, the fourth detecting sensor 14, the base moving means 4, (10) to the ON state.

The following structural work is performed continuously under the control of the controller (C). When the second sensing sensor 12 senses that the elevating member 7 is mounted on the movable rail 6, the base moving means 4 moves the base 3 through the escape opening H The movement sensor 11a of the first detection sensor 11 installed on the moving base 3 moving to the closest corresponding outer wall rail 5 is located on the side of the outer wall rail 5 closest to the escape opening H The movable rail 6 and the outer wall rail 5 are brought into alignment with each other.

Subsequently, when the motor 10a of the winch 10 is driven to release the wire 10b wound on the drum, the elevating member 7 mounted on the inclined moving rail 6 descends due to its own weight, The moving sensor 13a is stopped when it detects the only fixed sensor 13b installed in the exit H where the escapee escapes and is in the ON state.

When the weight sensor 9 senses the weight of the occupant and the sensed weight is equal to or greater than the previously input weight, the motor 10a of the winch 10 is driven by the elevator 7 And the elevation member 7 is lowered again. In this process, when the fourth sensing sensor 14 installed on the lower part of the elevation member 7 senses the ground, it is stopped. Therefore, the escapee aboard the elevating member 7 escapes to the ground.

 If the escapee does not recognize that the escapee is boarding due to a failure or the like even if the escapee finishes boarding the elevation member 7 in the above-mentioned structure process, the escapee or the worker can use the remote control to elevate the elevation member 7 Descend to complete the structure.

11 shows that the elevator 7 installed on the roof A moves to the outer wall rail 5 closest to the door 601 when a fire occurs in the high floor apartment 601 and the balcony A- FIG. 12 is a view showing a process of boarding an escapee by the same method when a fire occurs in a high-rise apartment 906. FIG.

In the present invention having the above-described structure, since all structural processes are automatically and rapidly performed in the event of a fire, regardless of the height including the upper part of the very large building, the escape hitch can be escaped to the ground without delay Therefore, it is a beneficial invention that can minimize the loss of valuable human life.

In addition, since the entire construction process is performed automatically, the present invention can rescue people without fire engines and firefighters. Therefore, even if a fire truck arrives late due to an obstacle or the like, This is a recommended fire extinguishing system that can safely and easily rescue people regardless of this.

In addition, since the lifting member 7 is stored in the safe roof A at a normal time, the wire 10b connected to the lifting member 7 is not normally tensioned, so that the lifetime of the wire 10b can be extended It is a lifesaving device that can guarantee safety.

In other words, if the technology of the present invention is judged from the viewpoint of a fire-fighting device for rescuing a person's life, when the escape location information, that is, each household lake of the tenant is inputted by remote control, the elevator immediately arrives at the balcony, , The remote control can be evacuated to each household, so the escapee can manipulate the remote control himself and escape by himself.

1: fire-fighting building unattended lifesaving device 2: roof rail
3: Base 4: Base moving means
5: outer wall rail 6: moving rail
7: lifting member 9: weight detecting sensor
10: winch 11: first detection sensor
12: second detection sensor 13: third detection sensor
14: Fourth sensor

Claims (4)

A roof rail (2) installed on the roof (A) of the building;
A base (3) mounted for reciprocation along the roof rail (2) and carrying components mounted thereon;
A base moving means (4) for reciprocating the base (3);
An outer wall rail (5) in which a plurality of vertically installed outer walls are arranged in parallel with each other so as to correspond to the exit of each floor of the building;
A moving rail 6 mounted on the base 3 and moving with the base 3 to coincide with the respective outer wall rails 5;
An elevating member (7) which is mounted on the movable rail and normally moves to the outer wall rail when the movable rail coincides with the outer wall rail, and escapes to the ground through the escape hatch escaping to the exit of the building;
A weight detecting sensor 9 installed at the bottom of the elevating member 7 to detect the weight of the occupant;
A winch mounted on the base (3) and connected to the lifting member by a wire wound and wound by driving of the motor to lift the lifting member;
A first sensing sensor comprising a movement sensor provided on the side of the movable rail and a fixed sensor provided on the side of each outer wall rail so as to sense the position where the movable rail coincides with the respective outer wall rail;
A second sensing sensor for sensing whether the elevating member (7) is mounted on the upper part of the movable rail;
A third sensing sensor formed of a moving sensor installed on the elevating member and a fixed sensor installed on the escape opening so that the elevating member ascending and descending along the outer wall rail can detect the position where the elevating member coincides with the escape opening of the building;
A fourth sensing sensor for sensing a proximity distance to the ground so that the elevating member does not collide when approaching the ground;
Information including position information of the escape opening H and weight information comparable to the body weight of the escaping person is input in advance and information input from the outside, the detection signal of the first detection sensor 11, the detection of the second detection sensor 12 The driving of the winch 10 and the base moving means 4 is controlled in accordance with a signal detected by the third sensing sensor 13, a sensing signal of the fourth sensing sensor 14, (C); And
And input means for inputting, to the controller (C), information on the position of the exit (H) from which the escapee escapes when a building fire occurs,

When the escapee who has escaped to the escape opening H sends a rescue signal when a fire occurs in the building and the elevation member 7 is mounted on the moving rail 6 and stored, H) position information is input to the controller C and the controller C confirms the position of the previously entered exit port H coincident with the position information to detect the position of the weight detection sensor 9 and the first detection sensor 11 The moving sensor 11a provided on the moving rail side and the fixing sensor 11b provided on the side of the outer wall rail 5 closest to the escape opening H where the escape person escapes, the second sensing sensor 12, the third sensing sensor 13 The fourth sensor 14, the base moving means 4 and the winch 10 installed at the escape opening H where the escape hatcher escapes from the moving sensor 13a provided in the elevating member 7, To an ON state;
When the second sensing sensor 12 senses that the elevating member 7 is mounted on the movable rail 6 under the control of the controller C, the base moving means 4 moves the base 3 And moves to the outer wall rail 5 closest to the evacuation opening H where the evacuator escapes. When the moving sensor 11a senses the fixed sensor 11b in the ON state, Aligning the outer wall rails 5;
The motor 10a of the winch 10 is driven to release the wire 10b wound on the drum so that the elevating member 7 mounted on the moving rail 6 moves to the outer wall rail 5, When the movement sensor 13a detects the fixed sensor 13b in the ON state, it is stopped to align the elevating member with the escape opening;
Thereafter, when the escape person is aboard the suspended elevation member 7, the weight sensing sensor 9 senses the weight of the passenger, and when the sensed weight is greater than the input weight and recognizes the boarding of the escapee, The elevator 7 is stopped when the fourth sensor 14 installed on the elevating member 7 senses the ground by driving the motor 10a of the elevating member 7 so that the elevator 7 is retreated, Wherein the fire extinguisher is a fire extinguisher.
The remote control system according to claim 1, wherein the input means for inputting an external command to the controller (C) is a remote controller capable of wirelessly inputting information to the controller (C), and the remote controller is connected to the elevator member (7) The elevator 7 and the building guard room are provided so that an escapee or a building worker who aboard the elevation member 7 inputs a command to the controller C to control the elevation position of the elevation member 7 Firefighting unmanned lifesaving device.
The fire alarm system according to claim 1, wherein the input means for inputting an external command to the controller (C) is a fire detection sensor installed in a building to detect the occurrence of a fire, and the fire detection sensor Wherein the fire extinguisher lifesaving device is a fire extinguisher lifesaving device.
The fire extinguishing structure of claim 1, wherein the escape opening (H) comprises a balcony (A-2) of a building, a window, a corridor or a veranda connected to the outside.

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