KR102663985B1 - Retractable outside door handle assembly for vehicle - Google Patents

Abstract

A retractable outside door handle assembly for a vehicle is disclosed. an outside door handle that protrudes outward in the width direction of the vehicle beyond the door outer panel constituting the door of the vehicle or can be stored in an opening formed in the door outer panel; a front link rotatably connected at one end to a front portion of the outside door handle along the longitudinal direction of the vehicle; a connecting link, one end of which is rotatably connected to the other end of the front link and movable along the longitudinal direction of the vehicle; a rear link, one end of which is rotatably connected to the other end of the connecting link and the other end of which is rotatably connected to the outside door handle; and an inertial body that prevents or allows movement of the connecting link; The layout of the top and bottom short four-bar links can make the stroke of the outside door handle longer, and the outside handle can be deployed and stored in a straight line, improving the freedom of design.

Description

Retractable outside door handle assembly for vehicle}

The present invention relates to a retractable outside door handle assembly for a vehicle, and more specifically, to reliably prevent the door from opening during a side collision of a vehicle, and to open the door by manipulating the outside door handle after a side collision. It relates to a retractable outside door handle assembly for a vehicle that can be used.

Generally, a vehicle has a compartment of a predetermined size in which a driver or his accompanying passengers can ride, and a compartment door is provided to open and close the compartment.

The cabin opening/closing door is equipped with an inside door handle on the inner side of the door facing the inside of the cabin so that passengers can easily open and close the cabin, and an outside door handle is mounted on the outer side facing the outside of the cabin.

Each of the door handles is connected in conjunction with a door latch that secures the door to the vehicle body, so that the door latch is released when each door handle is manipulated, allowing the door to be opened.

The outside door handle is usually mounted on the outer panel of the door to enable pivot movement, and is installed on the door outer panel to protrude outward along the width direction of the vehicle so that the occupant can easily grip it.

If the outside door handle is installed to protrude outward along the width direction of the vehicle as described above, the convenience of operation for the occupants is improved, but the exterior appearance of the vehicle may be deteriorated due to the protruding outside door handle, and also the vehicle's driving convenience may be improved. Not only can it cause driving noise, but it can also deteriorate driving performance due to driving resistance.

Recently, in order to solve this problem, in some cases, the outside door handle is driven by an actuator (motor) to protrude outward from the door outer panel along the width direction of the vehicle or is accommodated inside the receiving hole formed in the door outer panel. A retractable outside door handle that does not protrude outward beyond the door outer panel is being developed.

The conventional retractable outside door handle assembly protrudes the outside door handle from the door outer panel through a link mechanism through an actuator or stores it inside the receiving hole of the door outer panel, and locks the door to the vehicle body. Alternatively, it is connected to a door lock mechanism that includes a key cylinder that can be operated to release, and a door latch mechanism that directly locks or releases the door to the vehicle body.

However, in the structure of the conventional retractable outside door handle assembly as described above, in the event of a vehicle collision, the flush door handle should not protrude unintentionally and prevent the vehicle door from opening, and should not be returned to its original position after the collision. As it is necessary to return to normal operation smoothly, the development of a device or structure for this has become necessary.

An embodiment of the present invention has been developed in consideration of the above circumstances, and can effectively prevent the flush outside door handle from unintentionally protruding and opening the door in the event of a vehicle collision, and after the collision, the flush outside door handle can be effectively prevented from being opened by the operator. The aim is to provide a retractable outside door handle assembly for a vehicle that can smoothly open the door by simple operation of the outside door handle.

A retractable outside door handle assembly for a vehicle according to an embodiment of the present invention includes an outside door handle that protrudes outward in the width direction of the vehicle beyond the door outer panel constituting the door of the vehicle or can be stored in an opening formed in the door outer panel; a front link rotatably connected at one end to a front portion of the outside door handle along the longitudinal direction of the vehicle; a connecting link, one end of which is rotatably connected to the other end of the front link and movable along the longitudinal direction of the vehicle; a rear link, one end of which is rotatably connected to the other end of the connecting link and the other end of which is rotatably connected to the outside door handle; And it may include an inertial body that prevents or allows movement of the connecting link.

It may further include a support link, one end of which is rotatably connected to a predetermined portion of the rear link, and the other end of which is rotatably connected to the door outer panel.

further comprising a housing in which the links are accommodated; One or more guide holes may be formed inside the housing to guide movement of the connecting link.

One end and the other ends of the connecting link are respectively fastened to the front link and the rear link with pins; The pin may be inserted into the one or more guide holes and guided.

The one or more guide holes may include a front guide hole and a rear guide hole arranged front and rear along the longitudinal direction of the vehicle.

An emergency hole into which the pin can be inserted and moved is formed to communicate with the rear guide hole into which the pin, into which the other end of the connecting link and one end of the rear link are connected, is inserted and guided; The width of the emergency hole may be wider than the width of the guide hole.

It may further include an actuator that pushes the connecting link rearward along the longitudinal direction of the vehicle.

The actuator includes a drive gear that rotates by receiving external power; a driven gear engaged with the drive gear and rotating; And it may include a sector gear that engages with the driven gear and rotates to push the connecting link.

The connecting link and the rear link are fastened with pins; The sector gear may be provided with a protrusion that pushes the pin.

The outside door handle includes an outside door handle body with a grip hole formed so that the occupant can easily grasp it by inserting his/her hand. And it may include an outside handle base coupled to the outside door handle body and to which the front link and the rear link are fastened.

The outside door handle body includes only an upper side along the height direction of the vehicle and an outer side along the width direction of the vehicle, and does not include a lower side along the height direction of the vehicle and an inner side along the vehicle width direction. It can be configured in the following form.

It may further include a door latch lever that is rotated by the connecting link to release the door latch.

The door latch lever may be arranged to overlap the path of the rear guide hole so that it is rotated by the pin of the connecting link.

The door latch lever includes a rotating pin rotatably supported on the housing; A lever body formed integrally with the rotating pin and having a connection hole formed to connect the door latch with a cable or rod; and an arm extending from the lever body and disposed to overlap the path of the rear guide hole.

A protruding boss is formed on the housing; A stopper protrusion is formed on the boss to regulate rotational movement of the rotation pin beyond a predetermined angle; A protrusion may be formed on the rotary pin to contact the stopper protrusion and prevent the rotary movement of the rotary pin.

A return regulating protrusion is formed on the boss, so that during the arm's return process, the arm may come into contact with the return regulating protrusion and return to its original position.

A guide hole through which the pin connecting the other end of the connecting link and one end of the rear link is inserted may be formed in the inertial body.

The guide hole of the inertial body is formed in a straight line along the moving direction of the pin, and a portion of the guide hole is formed to be bent from the moving direction of the pin, so that the pin is inserted into the guide hole and moves along the guide hole. In the process, the pin may contact the side wall of the guide hole to rotate the inertial body at a predetermined angle.

The inertial body is installed in the housing to enable axial movement and rotation; A spring may be installed in the housing to apply a push force to the inertial body in the moving direction of the connecting link and to provide a rotational restoring force to the inertial body in one direction.

One or more protrusions protruding in the axial direction at predetermined intervals in the circumferential direction are formed on one side of the inertial body, and one or more protrusions protruding in the axial direction at predetermined intervals in the circumferential direction are formed on the boss formed in the housing, ; A fixing groove into which the protrusion of the boss is releasably inserted may be formed between adjacent protrusions of the inertial body, and a fixing groove into which the protrusion of the inertial body can be releasably inserted may be provided between adjacent protrusions of the boss. there is.

According to the retractable outside door handle assembly for a vehicle according to an embodiment of the present invention, it is possible to effectively prevent the flush outside door handle from undesirably protruding and opening the door due to the rotation of the inertial body when a vehicle collision occurs, After a collision, the inertial body returns to its original position simply by the operator pulling the outside door handle outward in the width direction of the vehicle, allowing the door to be opened smoothly.

In addition, the short top and bottom layout can make the stroke of the outside door handle longer, which can improve connectivity with the door latch, and the outside door handle can be deployed and stored in a straight direction, improving design freedom. In addition, the operational reliability of the outside handle can be improved and rigidity can be increased, and connectivity with other parts such as door latches can be improved, allowing for general purpose use and reducing weight and cost.

1 is a perspective view of a retractable exterior door handle assembly for a vehicle mounted on a door outer panel according to an embodiment of the present invention.
Figure 2 is a rear perspective view of Figure 1.
Figure 3 is an exploded perspective view of a retractable outside door handle assembly for a vehicle according to an embodiment of the present invention.
Figure 4 is a perspective view of the link mechanism and the outside copper handle combined according to an embodiment of the present invention.
Figure 5 is an exploded perspective view of a link mechanism according to an embodiment of the present invention.
Figure 6 is a diagram illustrating the operation of an outside door handle according to an embodiment of the present invention.
Figure 7 is a cut-away perspective view of a housing according to an embodiment of the present invention.
Figure 8 is another cutaway perspective view of a housing according to an embodiment of the present invention.
9 is a diagram illustrating the operation of an outside door handle in an emergency situation according to an embodiment of the present invention.
Figure 10 is a perspective view of an actuator in an embodiment of the present invention.
Figure 11 is another perspective view of an actuator according to an embodiment of the present invention.
Figure 12 is a perspective view of the door latch lever installed according to an embodiment of the present invention.
Figure 13 is another perspective view of a door latch lever according to an embodiment of the present invention.
Figure 14 is a bottom view of a housing according to an embodiment of the present invention.
Figure 15 is a perspective view of an inertial body mounted according to an embodiment of the present invention.
Figure 16 is a perspective view of an inertial body mounted according to an embodiment of the present invention.
Figure 17 is a schematic diagram of the mutual operation relationship between a link mechanism and an inertial body according to an embodiment of the present invention.
Figure 18 is a perspective view of the operation of an inertial body due to a vehicle collision according to an embodiment of the present invention.
Figure 19 is a diagram illustrating the operation of the outside door handle after a vehicle collision with an inertial body according to an embodiment of the present invention.
Hereinafter, embodiments of the present invention will be described in detail based on the attached illustration drawings.
1 to 3, the retractable outside door handle assembly for a vehicle according to an embodiment of the present invention extends the width of the vehicle more than the door outer panel 10 through the opening 12 formed in the door outer panel 10. It may include an outside door handle 20 that protrudes outward or is accommodated in the opening so as to form substantially the same plane as the outer surface of the door outer panel 10.
The outside door handle 20 is accommodated inside the housing 30, which is disposed on the inside of the door outer panel 10 in the width direction of the vehicle and fixedly mounted on the inner surface of the door outer panel 10, so as to accommodate the width of the vehicle. It can be installed to be movable in any direction.
The retractable outside door handle assembly for a vehicle according to an embodiment of the present invention has one side fastened to the outside door handle 20 and the other side supported by the housing 30 so that the outside door handle 20 is moved in the horizontal direction. It may include a link mechanism 40 that moves the outside door handle 20 and an actuator 50 that applies operating force to the link mechanism 40 to move the outside door handle 20 in the horizontal direction through the link mechanism 40. .
The outside door handle 20 includes an outside door handle body 22 having a grip hole 21 so that a passenger can easily grasp it by inserting his or her hand; And it may include an outside handle base 23 that is coupled to the outside door handle body 22 and to which the link mechanism 40 is fastened.
An outside door handle cover 24 may be coupled to the outer surface of the outside door handle body 22. In the process of mounting the outside door handle 20 to the door outer panel 10, the outside door handle cover 24 is first coupled to the outer surface of the outside door handle body 22, and the outside door handle ( 20) and serves to guide the outside door handle 20 to be assembled with a certain gap with respect to the opening 12 of the door outer panel 10, and the outside door handle 20 When installation is completed, the outside door handle cover 24 is removed from the outside door handle 20.
The outside door handle body 22 includes only an upper side 27 along the vehicle height direction and an outer side 28 along the vehicle width direction, and a lower side along the vehicle height direction and the vehicle width direction. The inner surface along the 22 is configured in an open form, so that when painting the outside door handle body 22, for example, when spray painting, painting work is facilitated, and the paint film is formed on the outside door handle body (22). 22), the exterior appearance of the outside door handle 20 can be improved.
A sealing cover 60 is interposed between the housing 30 and the door outer panel 10 to prevent foreign substances from entering through the opening 12 of the door outer panel 10.
Referring to FIG. 4, the inner surface of the outside door handle base 23 along the width direction of the vehicle includes a front boss 25 located at the front along the longitudinal direction of the vehicle and a rear boss 26 located at the rear. is formed integrally, and penetrating fastening holes are formed in each of the front boss 25 and the rear boss 26, and one side of the link mechanism 40 can be fastened to each fastening hole with a pin 41. .
4 and 5, the link mechanism 40 includes a front link 42, one end of which is rotatably fastened to the front boss 25 with a pin 41, and the other end of the front link 42. A connecting link 44, one end of which is rotatably fastened with a pin 43, the other end of the connecting link 44, one end of which is rotatably fastened with a pin 43, and the other end of which is rotatably fastened to the rear boss 26. The rear link 45 is rotatably fastened to (43), one end is rotatably fastened with a pin 43 at a predetermined portion along the length of the rear link 45, and the other end is attached to the housing 30. It may include a support link 46 rotatably fastened with a pin 43.
Accordingly, the outside door handle 20, the front link 42, the connecting link 44, and the rear link 45 may form a four-bar link.
Referring to FIG. 6, when the connecting link 44 of the link mechanism 40 moves rearward in the longitudinal direction of the vehicle due to the operation of the actuator 50, the front link 42 and the rear link 45 As it unfolds outward in the width direction of the vehicle, the outside door handle 20 protrudes outward in the width direction of the vehicle, so that the outside door handle 20 protrudes further outward in the width direction of the vehicle than the door outer panel 10. By doing so, the passenger inserts his/her hand into the grip hole 21 of the outside door handle 20 and pulls the outside door handle 20, thereby releasing the door latch and opening the door.
7 and 8, when the connecting link 44 is moved by the actuator 50, two front guide holes 31 and a rear guide hole 31 are provided to guide the linear movement of the connecting link 44. The guide hole 32 may be formed to penetrate one side of the housing 30 while being spaced back and forth along the longitudinal direction of the vehicle.
That is, the two guide holes 31 and 32 are formed in a straight line along the longitudinal direction of the vehicle, and the two guide holes 31 and 32 have two pins 43 fastened to both ends of the connecting link 44. ) are respectively inserted, and the two pins 43 move along the guide holes 31 and 32, so that the connecting link 44 can be guided and moved forward and backward along the longitudinal direction of the vehicle by the actuator 50. There will be.
Meanwhile, at one end of the rear guide hole 32, an emergency hole 33 may be formed that is wider outward in the width direction of the vehicle than the width of the rear guide hole 32.
The emergency hole 33 may be formed to communicate with the rear guide hole 32.
Accordingly, when the actuator 50 does not operate for reasons such as failure or interruption of battery power supply, the occupant needs to manually operate the outside door handle 20. In a state in which the door outer panel 10 is stored inside the opening 12, as shown by the arrow in FIG. 9, when the occupant presses the front portion of the outside door handle 20 along the longitudinal direction of the vehicle, , the pin 43 fastened to the other end of the connecting link 44 is received inside the emergency hole 33, and the rear portion of the outside door handle 20 is positioned outside the door outer panel 10 in the width direction of the vehicle. A seesaw movement is performed to further protrude, so when the occupant holds the protruding rear portion of the outside door handle 20 with his hand and pulls it outward in the width direction of the vehicle, the outside door handle 20 moves toward the door outer panel 10. ), making it possible to open the locked door.
That is, in an emergency situation in which the actuator 50 is inoperable, the passenger can open the door by protruding (popping up) the outside door handle 20 by simply pressing the outside door handle 20 without a separate tool. Therefore, the marketability of the vehicle can be improved.
Meanwhile, although not shown in detail, the support link 46 is connected to a spring (not shown), so that the spring moves the support link 46 clockwise (the outside door handle 20 moves the door outer panel 10 After the outside door handle 20 pops up and the support link 46 rotates counterclockwise by applying an elastic force that pulls it in the direction accommodated inside the opening of the outside door handle 20 ) is released, the support link 46 is rotated clockwise back to its original position due to the elastic force of the spring, and the rear link 45 and the connecting link 44 are rotated clockwise by the support link 46. ) and the front link 42 are linked, so that the popped up outside door handle 20 can be accommodated again inside the opening 12 of the door outer panel 10.
Referring to FIGS. 10, 11, and 3, the actuator 50 may include a plurality of gears accommodated in the actuator housing 51.
A plurality of gears include a drive gear 52 that rotates by receiving rotational force from a drive motor (not shown), a driven gear 53 that engages and rotates with the drive gear, and a driven gear 53 that engages and rotates by receiving rotational force. It may include a sector gear 54 that pushes the pin 43 fastened to one end of the connecting link 44 forward or backward along the longitudinal direction of the vehicle.
One side of the sector gear 54 may be provided with a protrusion 55 that contacts the pin 43 of the connecting link 44 and pushes the pin 43.
Accordingly, when the drive motor operates by receiving a control signal from the controller, the drive gear 52, driven gear 53, and sector gear 54 rotate sequentially to connect the connecting link 44 to the vehicle. By pushing rearward along the longitudinal direction, the outside door handle 20 pops up from the door outer panel 20, and the occupant can open the door by manipulating the popped up outside door handle 20.
Meanwhile, the popped up outside door handle 20 can be stored in the opening 12 of the door outer panel by the reverse operation of the drive motor and the operation opposite to the above-described operation of the actuator 50 and the link mechanism 40. You can.
Meanwhile, the door latch lever 70 for opening the door latch while rotating according to the operation of the link mechanism 40 is rotatably mounted on the bottom of the housing 30, as shown in FIGS. 3 and 12. do.
The door latch lever 70 includes a rotating pin 71 that is inserted into a boss formed in the housing 30 and rotatably supported, and is formed integrally with the rotating pin 71 and connected to the door latch by a cable or rod. It may include a lever body 72 in which a connection hole 74 is formed, and an arm 73 extending from the lever body 72 and arranged to overlap the path of the rear guide hole 32.
Accordingly, the pin 43 of the connecting link 44 pushes the arm 73 of the door latch lever 70 while moving along the rear guide hole 32, and the door latch arm 73 The door latch can be released by rotating around the pin 71 and pushing or pulling the cable or rod connected to the door latch.
Referring to FIGS. 12 and 13, a boss 34 is formed to protrude from the housing 30, an assembly hole is formed in the boss 34 into which the rotation pin 71 is inserted and supported, and the boss A stopper protrusion (35) is formed on the lower surface of (34) to regulate the rotational movement of the rotary pin (71) at a predetermined angle or more, and the rotary pin (71) also contacts the stopper protrusion (35) to prevent rotation of the rotary pin (71). ) may be formed with a protrusion 75 that prevents the rotational movement of the protrusion.
Accordingly, when the door latch lever 70 rotates by manipulating the outside door handle 20, the door latch lever 70 moves at a predetermined angle due to mutual contact between the stopper protrusion 35 and the protrusion 75. Rotational movement is only possible up to an angle.
In addition, a return regulating protrusion 36 is formed on the upper surface of the boss 34, so that in the process of returning the arm 73, the arm 73 contacts the return regulating protrusion 36 and returns to its original position. It can be returned accurately.
Meanwhile, referring to FIG. 14, a front guide hole 31 and a rear guide hole 32 may be formed through the other side 37 of the housing.
The pins 43 fastened to both ends of the connecting link 44 are inserted through the guide holes 31 and 32 on one side and then into the guide holes 31 and 32 on the other side 37. It may be formed to protrude further than the side.
As shown in FIG. 15, an inertial body 80 may be rotatably installed on the other side 37. A weight body 81 that increases the weight of the inertial body 80 may be coupled to a predetermined portion of the inertial body 80, but instead of coupling a separate weight body 81 to the inertial body 80, the inertial body 80 It can be configured to have an appropriate weight using only (80).
The pin shaft 82 can be coupled to rotate integrally with the inertial body 80 by penetrating the inertial body 80, and one end of the pin shaft 82 is connected to the cylindrical boss 38 formed on the other side surface 37. It can be inserted and rotatably supported.
Additionally, the other end of the pin shaft 82 may be inserted through the support flange 39 formed on the other side 37 and rotatably supported.
In addition, the pin shaft 82 is inserted through the compression spring 83, and one end of the compression spring is connected to the inertial body 80, while the other end is connected to the support flange 39. It is connected in a hanging form, so that the inertial body 80 receives an elastic force by the compression spring 83 in the axial direction of the pin shaft 82, and after the inertial body 80 receives an external force and rotates clockwise, it rotates again. It receives the restoring force of the compression spring (83) in a clockwise direction.
As shown in FIG. 16, a guide groove 84 extending from one edge of one side to the other edge of the inertial body 80 may be formed on one side of the inertial body 80.
The guide groove 84 is formed to have a width larger than the diameter of the pin 43 fastened to the other end of the connecting link 44, so that the pin 43 is inserted into the guide groove 84 and moves along the guide groove 84. You can move smoothly.
Therefore, as shown in FIG. 17, when the outside door handle 20 is deployed outward in the width direction of the vehicle, the pin 43 of the connecting link 44, which moves linearly back and forth along the longitudinal direction of the vehicle, acts as an inertial body. It can move smoothly along the guide groove 84 of (80).
Meanwhile, the guide groove 84 forms a straight path, and a portion of it is bent at a predetermined angle from the straight path to form an anti-seizing groove 85, so that the pin 43 of the link mechanism 40 is connected to the guide groove 84. ) and rotates the inertial body slightly by touching the groove wall of the anti-seizure groove (85) when it moves along the guide groove (84), so whenever the outside door handle (20) pops up, the inertial body (80) By repeating the rotation and return operations, the inertial body 80 is prevented from becoming stuck.
Referring again to FIG. 15, one or more protrusions 86 are formed on one side of the inertial body 80 and protrude in the axial direction at predetermined intervals in the circumferential direction, and correspondingly, the boss 38 also has protrusions 86 in the axial direction. One or more protrusions 38a protruding in the axial direction at predetermined intervals may be formed.
A fixing groove 87 is formed between the adjacent protrusions 86 of the inertial body 80, and a fixing groove 38b is also provided between the protrusions 38a of the boss 38.
In a normal situation where the vehicle has not suffered a side collision, the inertial body 80 is pushed toward the boss 38 by receiving the elastic force of the compression spring 83, and the protrusions 86 of the inertial body 80 are pushed toward the boss 38. ) comes into close contact with the protrusion (38a).
However, when a side collision occurs, as shown in FIG. 18, the inertial body 80 rotates outward in the width direction of the vehicle due to its eccentric center of gravity, and during this rotational movement, the inertial body 80 Since it is also receiving the axial push force of the compression spring 83, the protrusion 38a of the boss 38 and the protrusion 86 of the inertial body 80, which were in close contact with each other, rotate with the inertial body 80. While being misaligned, the inertial body 80 moves toward the boss by the push force of the compression spring 83, and the protrusion 86 of the inertial body 80 is inserted and coupled to the fixing groove 38b of the boss 38. As the protrusion 38b of the boss 38 is inserted and coupled to the fixing groove 87 of the inertial body 80, the rotational movement of the inertial body 80 cannot proceed any further, and the inertial body 80 is rotated outward in the width direction of the vehicle. status will be maintained.
In this way, when the inertial body 80 is maintained in a state rotated outward in the width direction of the vehicle, the inertial body 80 is twisted in the process of straight movement of the pin 43 of the connecting link 44 to open the door. As it is not inserted into the (rotated) guide groove 84 and collides with the inertial body 80, the outside door handle 20 cannot protrude outward in the width direction of the vehicle, thereby ensuring the vehicle door opening. is prevented.
That is, in a vehicle collision situation, even if the outside door handle 20 receives an impact force, it cannot protrude from the door outer panel 10 due to the interference with the link mechanism 40 of the inertial body 80, thereby preventing the operation of the door latch. Since this becomes impossible, the door cannot be opened, thereby protecting the passengers more safely.
Meanwhile, after the collision situation ends, when the driver pulls the outside door handle 20 outward in the width direction, as shown in FIG. 19, the pin 43 of the link mechanism 40 moves the inertial body 80. ), the operating force of the driver's outside handle 20 is transmitted to the inertial body 80 through the pin 43, and the inertial body 80 is pushed along the axial direction.
At this time, the torsional restoring force of the compression spring 83 acts on the inertial body 80, so that the inertial body 80 rotates inward again in the width direction and returns to the original position shown in FIG. 15, thereby forming the link mechanism ( Since the inertial body 80 does not interfere with the movement process of 40), the door can be opened by manipulating the outside door handle 20.
In other words, the door that was prevented from opening during the collision can be opened again after the collision by simply manipulating the outside door handle by the driver or passenger.
As described above, the present invention has been described through limited examples and drawings, but the present invention is not limited thereto, and the technical idea of the present invention and the description below will be understood by those skilled in the art to which the present invention pertains. Various modifications and variations are possible within the scope of equivalence of the patent claims.

1 to 3, the retractable outside door handle assembly for a vehicle according to an embodiment of the present invention extends the width of the vehicle beyond the door outer panel 10 through the opening 12 formed in the door outer panel 10. It may include an outside door handle 20 that protrudes outward or is accommodated in the opening so as to form substantially the same plane as the outer surface of the door outer panel 10.
The outside door handle 20 is accommodated inside the housing 30, which is disposed on the inside of the door outer panel 10 in the width direction of the vehicle and fixedly mounted on the inner surface of the door outer panel 10, so as to accommodate the width of the vehicle. It can be installed to be movable in any direction.
The retractable outside door handle assembly for a vehicle according to an embodiment of the present invention has one side fastened to the outside door handle 20 and the other side supported by the housing 30 so that the outside door handle 20 is moved in the horizontal direction. It may include a link mechanism 40 that moves the outside door handle 20 and an actuator 50 that applies operating force to the link mechanism 40 to move the outside door handle 20 in the horizontal direction through the link mechanism 40. .
The outside door handle 20 includes an outside door handle body 22 having a grip hole 21 so that a passenger can easily grasp it by inserting his or her hand; And it may include an outside handle base 23 that is coupled to the outside door handle body 22 and to which the link mechanism 40 is fastened.
An outside door handle cover 24 may be coupled to the outer surface of the outside door handle body 22. In the process of mounting the outside door handle 20 to the door outer panel 10, the outside door handle cover 24 is first coupled to the outer surface of the outside door handle body 22, and the outside door handle ( 20) and serves to guide the outside door handle 20 to be assembled with a certain gap with respect to the opening 12 of the door outer panel 10, and the outside door handle 20 When installation is completed, the outside door handle cover 24 is removed from the outside door handle 20.
The outside door handle body 22 includes only an upper side 27 along the vehicle height direction and an outer side 28 along the vehicle width direction, and a lower side along the vehicle height direction and the vehicle width direction. The inner surface along the 22 is configured in an open form, so that when painting the outside door handle body 22, for example, when spray painting, painting work is facilitated, and the paint film is formed on the outside door handle body (22). 22), the exterior appearance of the outside door handle 20 can be improved.
A sealing cover 60 is interposed between the housing 30 and the door outer panel 10 to prevent foreign substances from entering through the opening 12 of the door outer panel 10.
Referring to FIG. 4, the inner surface of the outside door handle base 23 along the width direction of the vehicle includes a front boss 25 located at the front along the longitudinal direction of the vehicle and a rear boss 26 located at the rear. is formed integrally, and penetrating fastening holes are formed in each of the front boss 25 and the rear boss 26, and one side of the link mechanism 40 can be fastened to each fastening hole with a pin 41. .
Referring to FIGS. 4 and 5, the link mechanism 40 includes a front link 42, one end of which is rotatably fastened to the front boss 25 with a pin 41, and the other end of the front link 42. A connecting link 44, one end of which is rotatably fastened with a pin 43, the other end of the connecting link 44, one end of which is rotatably fastened with a pin 43, and the other end of which is rotatably fastened to the rear boss 26. The rear link 45 is rotatably fastened to (43), one end is rotatably fastened with a pin 43 at a predetermined portion along the length of the rear link 45, and the other end is attached to the housing 30. It may include a support link 46 rotatably fastened with a pin 43.
Accordingly, the outside door handle 20, the front link 42, the connecting link 44, and the rear link 45 may form a four-bar link.
Referring to FIG. 6, when the connecting link 44 of the link mechanism 40 moves rearward in the longitudinal direction of the vehicle due to the operation of the actuator 50, the front link 42 and the rear link 45 As it unfolds outward in the width direction of the vehicle, the outside door handle 20 protrudes outward in the width direction of the vehicle, so that the outside door handle 20 protrudes further outward in the width direction of the vehicle than the door outer panel 10. By doing so, the passenger inserts his/her hand into the grip hole 21 of the outside door handle 20 and pulls the outside door handle 20, thereby releasing the door latch and opening the door.
Referring to Figures 7 and 8, when the connecting link 44 is moved by the actuator 50, two front guide holes 31 and a rear guide hole 31 are provided to guide the linear movement of the connecting link 44. The guide hole 32 may be formed to penetrate one side of the housing 30 while being spaced back and forth along the longitudinal direction of the vehicle.
That is, the two guide holes 31 and 32 are formed in a straight line along the longitudinal direction of the vehicle, and the two guide holes 31 and 32 have two pins 43 fastened to both ends of the connecting link 44. ) are respectively inserted, and the two pins 43 move along the guide holes 31 and 32, so that the connecting link 44 can be guided and moved forward and backward along the longitudinal direction of the vehicle by the actuator 50. There will be.
Meanwhile, at one end of the rear guide hole 32, an emergency hole 33 may be formed that is wider outward in the width direction of the vehicle than the width of the rear guide hole 32.
The emergency hole 33 may be formed to communicate with the rear guide hole 32.
Accordingly, when the actuator 50 does not operate for reasons such as failure or interruption of battery power supply, the occupant needs to manually operate the outside door handle 20. In a state in which the door outer panel 10 is stored inside the opening 12, as shown by the arrow in FIG. 9, when the occupant presses the front portion of the outside door handle 20 along the longitudinal direction of the vehicle, , the pin 43 fastened to the other end of the connecting link 44 is received inside the emergency hole 33, and the rear portion of the outside door handle 20 is positioned outside the door outer panel 10 in the width direction of the vehicle. A seesaw movement is performed to further protrude, so when the occupant holds the protruding rear portion of the outside door handle 20 with his hand and pulls it outward in the width direction of the vehicle, the outside door handle 20 moves toward the door outer panel 10. ), making it possible to open the locked door.
That is, in an emergency situation in which the actuator 50 is inoperable, the passenger can open the door by protruding (popping up) the outside door handle 20 by simply pressing the outside door handle 20 without a separate tool. Therefore, the marketability of the vehicle can be improved.
Meanwhile, although not shown in detail, the support link 46 is connected to a spring (not shown), so that the spring moves the support link 46 clockwise (the outside door handle 20 moves the door outer panel 10 After the outside door handle 20 pops up and the support link 46 rotates counterclockwise by applying an elastic force that pulls it in the direction accommodated inside the opening of the outside door handle 20 ) is released, the support link 46 is rotated clockwise back to its original position due to the elastic force of the spring, and the rear link 45 and the connecting link 44 are rotated clockwise by the support link 46. ) and the front link 42 are linked, so that the popped up outside door handle 20 can be accommodated again inside the opening 12 of the door outer panel 10.
Referring to FIGS. 10, 11, and 3, the actuator 50 may include a plurality of gears accommodated in the actuator housing 51.
A plurality of gears include a drive gear 52 that rotates by receiving rotational force from a drive motor (not shown), a driven gear 53 that engages and rotates with the drive gear, and a driven gear 53 that engages and rotates by receiving rotational force. It may include a sector gear 54 that pushes the pin 43 fastened to one end of the connecting link 44 forward or backward along the longitudinal direction of the vehicle.
One side of the sector gear 54 may be provided with a protrusion 55 that contacts the pin 43 of the connecting link 44 and pushes the pin 43.
Accordingly, when the drive motor operates by receiving a control signal from the controller, the drive gear 52, driven gear 53, and sector gear 54 rotate sequentially to connect the connecting link 44 to the vehicle. By pushing rearward along the longitudinal direction, the outside door handle 20 pops up from the door outer panel 20, and the occupant can open the door by manipulating the popped up outside door handle 20.
Meanwhile, the popped up outside door handle 20 can be stored in the opening 12 of the door outer panel by the reverse operation of the drive motor and the operation opposite to the above-described operation of the actuator 50 and the link mechanism 40. You can.
Meanwhile, the door latch lever 70 for opening the door latch while rotating according to the operation of the link mechanism 40 is rotatably mounted on the bottom of the housing 30, as shown in FIGS. 3 and 12. do.
The door latch lever 70 includes a rotating pin 71 that is inserted into a boss formed in the housing 30 and rotatably supported, and is formed integrally with the rotating pin 71 and connected to the door latch by a cable or rod. It may include a lever body 72 in which a connection hole 74 is formed, and an arm 73 extending from the lever body 72 and arranged to overlap the path of the rear guide hole 32.
Accordingly, the pin 43 of the connecting link 44 pushes the arm 73 of the door latch lever 70 while moving along the rear guide hole 32, and the door latch arm 73 The door latch can be released by rotating around the pin 71 and pushing or pulling the cable or rod connected to the door latch.
Referring to FIGS. 12 and 13, a boss 34 is formed to protrude from the housing 30, an assembly hole is formed in the boss 34 into which the rotation pin 71 is inserted and supported, and the boss A stopper protrusion (35) is formed on the lower surface of (34) to regulate the rotational movement of the rotary pin (71) at a predetermined angle or more, and the rotary pin (71) also contacts the stopper protrusion (35) to prevent rotation of the rotary pin (71). ) may be formed with a protrusion 75 that prevents the rotational movement of the protrusion.
Accordingly, when the door latch lever 70 rotates by manipulating the outside door handle 20, the door latch lever 70 moves at a predetermined angle due to mutual contact between the stopper protrusion 35 and the protrusion 75. Rotational movement is only possible up to an angle.
In addition, a return regulating protrusion 36 is formed on the upper surface of the boss 34, so that in the process of returning the arm 73, the arm 73 contacts the return regulating protrusion 36 and returns to its original position. It can be returned accurately.
Meanwhile, referring to FIG. 14, a front guide hole 31 and a rear guide hole 32 may be formed through the other side 37 of the housing.
The pins 43 fastened to both ends of the connecting link 44 are inserted through the guide holes 31 and 32 on one side and then into the guide holes 31 and 32 on the other side 37. It may be formed to protrude further than the side.
As shown in FIG. 15, an inertial body 80 may be rotatably installed on the other side 37. A weight body 81 that increases the weight of the inertial body 80 may be coupled to a predetermined portion of the inertial body 80, but instead of coupling a separate weight body 81 to the inertial body 80, the inertial body 80 It can be configured to have an appropriate weight using only (80).
The pin shaft 82 can be coupled to rotate integrally with the inertial body 80 by penetrating the inertial body 80, and one end of the pin shaft 82 is connected to the cylindrical boss 38 formed on the other side surface 37. It can be inserted and rotatably supported.
Additionally, the other end of the pin shaft 82 may be inserted through the support flange 39 formed on the other side surface 37 and rotatably supported.
In addition, the pin shaft 82 is inserted through the compression spring 83, and one end of the compression spring is connected to the inertial body 80, while the other end is connected to the support flange 39. It is connected in a hanging form, so that the inertial body 80 receives an elastic force by the compression spring 83 in the axial direction of the pin shaft 82, and after the inertial body 80 receives an external force and rotates clockwise, it rotates again. It receives the restoring force of the compression spring (83) in a clockwise direction.
As shown in FIG. 16, a guide groove 84 extending from one edge of one side to the other edge may be formed on one side of the inertial body 80.
The guide groove 84 is formed to have a width larger than the diameter of the pin 43 fastened to the other end of the connecting link 44, so that the pin 43 is inserted into the guide groove 84 and moves along the guide groove 84. You can move smoothly.
Therefore, as shown in FIG. 17, when the outside door handle 20 is deployed outward in the width direction of the vehicle, the pin 43 of the connecting link 44, which moves linearly back and forth along the longitudinal direction of the vehicle, acts as an inertial body. It can move smoothly along the guide groove 84 of (80).
Meanwhile, the guide groove 84 forms a straight path, and a portion of it is bent at a predetermined angle from the straight path to form an anti-seizing groove 85, so that the pin 43 of the link mechanism 40 is connected to the guide groove 84. ) and rotates the inertial body slightly by touching the groove wall of the anti-seizure groove (85) when it moves along the guide groove (84), so whenever the outside door handle (20) pops up, the inertial body (80) By repeating the rotation and return operations, the inertial body 80 is prevented from becoming stuck.
Referring again to FIG. 15, one or more protrusions 86 are formed on one side of the inertial body 80 and protrude in the axial direction at predetermined intervals in the circumferential direction, and correspondingly, the boss 38 also has protrusions 86 in the axial direction. One or more protrusions 38a protruding in the axial direction at predetermined intervals may be formed.
A fixing groove 87 is formed between adjacent protrusions 86 of the inertial body 80, and a fixing groove 38b is also provided between the protrusions 38a of the boss 38.
In a normal situation where the vehicle has not suffered a side collision, the inertial body 80 is pushed toward the boss 38 by receiving the elastic force of the compression spring 83, and the protrusions 86 of the inertial body 80 are pushed toward the boss 38. ) comes into close contact with the protrusion (38a).
However, when a side collision occurs, as shown in FIG. 18, the inertial body 80 rotates outward in the width direction of the vehicle due to its eccentric center of gravity, and during this rotational movement, the inertial body 80 Since it is also receiving the axial push force of the compression spring 83, the protrusion 38a of the boss 38 and the protrusion 86 of the inertial body 80, which were in close contact with each other, rotate with the inertial body 80. While being misaligned, the inertial body 80 moves toward the boss by the push force of the compression spring 83, and the protrusion 86 of the inertial body 80 is inserted and coupled to the fixing groove 38b of the boss 38. As the protrusion 38b of the boss 38 is inserted and coupled to the fixing groove 87 of the inertial body 80, the rotational movement of the inertial body 80 cannot proceed any further, and the inertial body 80 is rotated outward in the width direction of the vehicle. status will be maintained.
In this way, when the inertial body 80 is maintained in a state rotated outward in the width direction of the vehicle, the inertial body 80 is twisted in the process of straight movement of the pin 43 of the connecting link 44 to open the door. As it is not inserted into the (rotated) guide groove 84 and collides with the inertial body 80, the outside door handle 20 cannot protrude outward in the width direction of the vehicle, thereby ensuring the vehicle door opening. is prevented.
That is, in a vehicle collision situation, even if the outside door handle 20 receives an impact force, it cannot protrude from the door outer panel 10 due to the interference with the link mechanism 40 of the inertial body 80, thereby preventing the operation of the door latch. Since this becomes impossible, the door cannot be opened, thereby protecting the passengers more safely.
Meanwhile, after the collision situation ends, when the driver pulls the outside door handle 20 outward in the width direction, as shown in FIG. 19, the pin 43 of the link mechanism 40 moves the inertial body 80. ), the operating force of the driver's outside handle 20 is transmitted to the inertial body 80 through the pin 43, and the inertial body 80 is pushed along the axial direction.
At this time, the torsional restoring force of the compression spring 83 acts on the inertial body 80, so that the inertial body 80 rotates inward again in the width direction and returns to the original position shown in FIG. 15, thereby forming the link mechanism ( Since the inertial body 80 does not interfere with the movement process of 40), the door can be opened by manipulating the outside door handle 20.
In other words, the door that was prevented from opening during the collision can be opened again after the collision by simply manipulating the outside door handle by the driver or passenger.
As described above, the present invention has been described through limited examples and drawings, but the present invention is not limited thereto, and the technical idea of the present invention and the description below will be understood by those skilled in the art to which the present invention pertains. Various modifications and variations are possible within the scope of equivalence of the patent claims.

10: Door outer panel
20: Outside door handle
30: housing
40: link mechanism
42: front link
44: Connecting link
45: rear link
50: actuator
52: drive gear
53: Driven Gear
54: sector gear
60: sealing cover
70: Door latch lever
80: Inertial body
81: heavy body
82: pin axis
83: compression spring
84: Guide groove
85: Anti-seize groove
86: protrusion
87: Fixed groove

Claims (20)

an outside door handle that protrudes outward in the width direction of the vehicle beyond the door outer panel constituting the door of the vehicle or can be stored in an opening formed in the door outer panel;
a front link rotatably connected at one end to a front portion of the outside door handle along the longitudinal direction of the vehicle;
a connecting link, one end of which is rotatably connected to the other end of the front link and movable along the longitudinal direction of the vehicle;
a rear link, one end of which is rotatably connected to the other end of the connecting link and the other end of which is rotatably connected to the outside door handle; and
an inertial body that blocks or allows movement of the connecting link;
Including,
Further comprising a housing in which the links are accommodated,
One or more guide holes are formed inside the housing to guide the movement of the connecting link,
One end and the other ends of the connecting link are respectively connected to the front link and the rear link with pins,
The pin is inserted into the one or more guide holes and guided and moved,
A retractable outside door handle assembly for a vehicle, wherein the one or more guide holes include a front guide hole and a rear guide hole arranged forward and backward along the longitudinal direction of the vehicle. According to paragraph 1,
A retractable outside door handle assembly for a vehicle, further comprising a support link, one end of which is rotatably connected to a predetermined portion of the rear link, and the other end of which is rotatably connected to the door outer panel. delete delete delete According to paragraph 1,
An emergency hole into which the pin can be inserted and moved is formed to communicate with the rear guide hole into which the pin, into which the other end of the connecting link and one end of the rear link are connected, is inserted and guided;
A retractable outside door handle assembly for a vehicle, characterized in that the width of the emergency hole is formed to be wider than the width of the guide hole. According to paragraph 1,
A retractable outside door handle assembly for a vehicle, further comprising an actuator that pushes the connecting link rearward along the longitudinal direction of the vehicle. In clause 7,
The actuator is
A drive gear that rotates by receiving external power;
a driven gear engaged with the drive gear and rotating; and
a sector gear meshing with the driven gear and rotating to push the connecting link;
A retractable outside door handle assembly for a vehicle comprising a. According to clause 8,
The connecting link and the rear link are fastened with pins;
A retractable outside door handle assembly for a vehicle, characterized in that the sector gear is provided with a protrusion that pushes the pin. According to paragraph 1,
The outside door handle is
An outside door handle body with a grip hole so that the occupant can easily grasp it by inserting his or her hand; and
an outside handle base coupled to the outside door handle body and to which the front link and the rear link are fastened;
A retractable outside door handle assembly for a vehicle comprising a. According to clause 10,
The outside door handle body includes only an upper side along the height direction of the vehicle and an outer side along the width direction of the vehicle, and does not include a lower side along the height direction of the vehicle and an inner side along the vehicle width direction. A retractable outside door handle assembly for a vehicle, characterized in that it is configured in a form. According to paragraph 1,
A retractable outside door handle assembly for a vehicle, characterized in that it further includes a door latch lever that is rotated by the connecting link to release the door latch. According to clause 12,
A retractable outside door handle assembly for a vehicle, wherein the door latch lever is arranged to overlap the path of the rear guide hole so that it is rotated by a pin of the connecting link. According to clause 13,
The door latch lever is
a rotating pin rotatably supported in the housing;
A lever body formed integrally with the rotating pin and having a connection hole formed to connect the door latch with a cable or rod; and
an arm extending from the lever body and arranged to overlap the path of the rear guide hole;
A retractable outside door handle assembly for a vehicle comprising a. According to clause 14,
A protruding boss is formed on the housing;
A stopper protrusion is formed on the boss to regulate rotational movement of the rotation pin beyond a predetermined angle;
A retractable outside door handle assembly for a vehicle, characterized in that the rotary pin is formed with a protrusion that contacts the stopper protrusion to prevent the rotational movement of the rotary pin. According to clause 15,
A retractable outside door handle assembly for a vehicle, wherein a return regulating protrusion is formed on the boss, and when the arm is returned, the arm contacts the return regulating protrusion and returns to its original position. According to paragraph 1,
A retractable outside door handle assembly for a vehicle, characterized in that a guide hole through which the pin connecting the other end of the connecting link and one end of the rear link is inserted is formed in the inertial body. According to clause 17,
The guide hole of the inertial body is formed in a straight line along the moving direction of the pin,
A portion of the guide hole is formed to be bent from the moving direction of the pin, so that when the pin is inserted into the guide hole and moves along the guide hole, the pin touches the side wall of the guide hole and moves the inertial body at a predetermined angle. A retractable outside door handle assembly for a vehicle, characterized in that it rotates. According to paragraph 1,
The inertial body is installed in the housing to enable axial movement and rotation;
A retractable outside door handle assembly for a vehicle, characterized in that a spring is installed in the housing to apply a pushing force to the inertial body in the moving direction of the connecting link and to provide a rotational restoring force in one direction to the inertial body. According to paragraph 1,
One or more protrusions protruding in the axial direction at predetermined intervals in the circumferential direction are formed on one side of the inertial body, and one or more protrusions protruding in the axial direction at predetermined intervals in the circumferential direction are formed on the boss formed in the housing, ;
A fixing groove into which the protrusion of the boss is releasably inserted is formed between adjacent protrusions of the inertial body, and a fixing groove into which the protrusion of the inertial body is releasably inserted is also provided between adjacent protrusions of the boss. Features a retractable outside door handle assembly for a vehicle.

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