KR20110006743A - A shock-absorbing apparatus for the vehicles bumper - Google Patents

Abstract

PURPOSE: A shock absorber of a vehicle bumper is provided to minimize damage to the engine room inside the body frame through two-stage buffer actions. CONSTITUTION: A shock absorber of a vehicle bumper comprises a front frame(20) and a pair of shock absorbing units(23). The front frame is installed inside a bumper. The shock absorbing units are installed between the front frame and a body frame(22) and comprise a piston(24A) which is composed of a flange(26a) and a body(26b) extended from the flange, a cylinder(24B) which is fixed to the body frame so that the body of the piston can be inserted or projected, and a spring(25) which is installed on the exterior of the piston and the cylinder in order to absorb an impact force applied to the front frame.

Description

A shock-absorbing apparatus for the vehicles bumper

The present invention can minimize the impact force applied to the vehicle collision to minimize the main components in the body frame and ensure the safety of the occupant, when the impact force of a certain force is installed in the cylinder separately from the existing sensor The present invention relates to a shock absorber of an automobile bumper that can operate an air bag by a sensor to reliably prevent malfunction of an existing air bag system.

In general, bumpers are installed at the front and rear of the vehicle as a means for mitigating impact from the outside when the vehicle crashes. The bumpers are used in the vehicle body and the engine room in preparation for contact or collision with the vehicle. In addition to protecting the main components of the car, it also plays a role in mitigating the impact to the driver and passenger to the maximum.

Conventional vehicle bumpers have excellent mitigation effects against external shocks at low speeds of about 20 km / h, but large accidents cannot be avoided at higher speeds because they cannot protect the body from impacts.

1 shows a bumper structure applied to a general vehicle, in which brackets 11 are formed on both sides of the front body 10, and an impact beam 12 is fixed to the stay 13 by the stay 13. The bumper fascia 15 is mounted on the rear surface of the impact beam 12 via the absorber 14.

However, such a bumper has the effect of absorbing a relatively small impact force, but implies that the impact of more impact force threatens the safety of the occupant as the engine is pushed into the room as the bumper is broken. have.

In addition, in the case of Figure 2 in view of the problems of the bumper as described above in the state in which a plurality of cushioning air tube 18 is inserted between the bumper 16 and the vehicle body 17 in a line fastened with a fastener (19) As a result, even if the shock absorbing force by the buffer air tube was slightly improved, the stronger impact force could not be alleviated.

On the other hand, Korean Patent Publication No. 0141996 discloses a technology related to a "vehicle shock absorber" that can prevent the damage caused by the deformation of the vehicle body while protecting the driver from impact by performing a buffering action during a vehicle crash. .

In other words, this technology is provided with a hydraulic chamber to be oil-filled in the cylinder and a pneumatic chamber filled with energy transfer piston and compressed air, and the piston is fitted into the hydraulic chamber side of the cylinder and the piston is loaded by a collision plate. It is connected to, and the end of the cylinder is fitted with a stopper formed with a projection jaw on the outer circumferential surface is coupled, the locking function for the projection jaw in the interior of the auxiliary pipe coupled at a predetermined interval on the outer circumferential surface of the cylinder It is comprised by providing the steel plate spring for it.

However, even in this case, although the shock absorbing effect can be expected in the first and second stages, the overall structure of the cylinder itself is complicated, and a separate oil or gas must be enclosed, which leads to manufacturing difficulties and greatly increases the unit cost. It is a factor to increase.

In addition, Korean Patent No. 0182883 discloses a technique for absorbing a collision energy absorber applied to a bumper of a vehicle by using hydraulic pressure to prevent damage to the bumper itself and to improve a collision energy absorption capability. Is disclosed.

In this technology, as a device for absorbing collision energy, a cylinder and fluid line, a valve body, a fluid tank, etc. must be provided, so that a design for airtightness is required, as well as effectively absorbing and mitigating a strong impact force from the outside. There is a limit to this, and as a separate process in the automobile production process, there is a problem that the price competitiveness is greatly reduced by causing an increase in the overall manufacturing cost and production cost.

The present invention is to solve the problems as described above, the object of the present invention is installed at a predetermined angle between the vehicle bumper and the body frame made of a streamlined body frame to absorb or mitigate the impact force applied to the bumper The present invention provides a shock absorber for a vehicle bumper that minimizes damage to internal parts and ensures safety of the occupants.

In addition, the present invention is to ensure that the malfunction of the airbag by controlling the operation of the airbag through the auxiliary sensor that is mounted in the cylinder and mechanically operated when a predetermined impact force acts on the bumper, apart from the existing sensor for operating the airbag. The present invention provides a shock absorber of an automobile bumper that can be prevented.

The present invention for achieving the above object is a device for relieving the impact force applied to the bumper in the event of a vehicle collision to protect the main parts in the body frame and ensure the safety of the occupant, the front mounted inside the bumper A frame and a pair of shock alleviating units provided between the front frame and the body frame so as to face each other with respect to the center of the vehicle, the impact alleviating unit having a flange mounted on an inner wall of the front frame, It consists of a piston consisting of a body formed in succession, a cylinder fixed to the body frame so that the body of the piston is accessible, and an elastic body mounted on the outer peripheral surface of the piston and the cylinder to absorb the impact force applied to the front frame. It features.

In addition, the front end of the body of the piston is equipped with an elastic member having elasticity is characterized in that configured to be released in the through hole formed in each of the front and rear of the cylinder.

In addition, the expansion and contraction member is characterized in that it is seated via a spring in the groove formed in the front end of the body of the piston and connected by a hinge at the same time.

In addition, a protruding rod is formed at the front end of the piston, and an auxiliary sensor is provided on the inner wall of the cylinder to control the operation of the airbag during a vehicle collision.

In addition, the shock absorbing unit mounted to the front frame is characterized in that configured to be disposed in the range of 25 to 35 ° with respect to the center of the vehicle, respectively.

According to the shock absorber of the automobile bumper according to the present invention having the features as described above, the force applied to the bumper during the vehicle collision by the front frame and the pair of shock absorbing units provided between the vehicle bumper and the body frame. As it is effectively absorbed, it can minimize damage to the engine room arranged in the body frame by the first and second mitigation actions, while at the same time reducing the impact on the boarding space, thus ensuring occupant safety. You can do it.

In addition, according to the present invention, a separate auxiliary sensor mechanically controlled in the shock mitigation unit is installed separately from the existing sensor for operating the airbag. Nevertheless, it is possible to solve the problem of the airbag not working.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, Figures 3 to 6a, 6b is a view for explaining the impact relief device of the bumper vehicle according to the present invention, the present invention is mainly the front-wheel drive type vehicle (FF, FR, 4WD) in which the engine room is disposed in front A front frame 20 and a pair of shock absorbing units 23 are installed between the bumper B and the body frame 22 in which the engine room 21 is located so as to absorb impact forces during a vehicle crash. It is made up.

3 and 4, the front frame 20 is disposed in the bumper B which is bound to the vehicle body by various fastening elements in a conventional manner, and the shock absorbing unit 23 is the vehicle center (X). Is mounted on the inner wall of the front frame 20 so as to oppose each other on the basis of the reference), and the angle? At this time is most preferably provided within the range of 25 to 35 degrees.

That is, the impact mitigation unit 23 including the front frame 20, which is designed in a streamlined form, is disposed at an optimal position where the force is primarily absorbed and mitigated when an impact force is applied in an arbitrary range or direction during a vehicle collision. Should be.

For this reason, in the case of the existing vehicle, the sensor does not operate in the impact of the range beyond the position of the airbag sensor when a shock or more than a predetermined force is applied, but the front frame 20 and the shock absorbing unit 23 designed to be streamlined as described above are installed. In this case, the auxiliary sensor 31 installed in the shock alleviating unit 23 can be operated even in a wider range of impact.

Therefore, the operation signal which operates only in the shock within a certain range, which is one of the problems with the existing airbag sensor, can be operated through the auxiliary sensor 31 even in a wider range of impact.

As shown in FIG. 5, the shock absorbing unit 23 includes a piston 24A and a cylinder 24B mounted on the inner wall of the front frame 20 and the body frame 22, respectively. It consists of an elastic body 25 for absorbing the impact force applied to the).

A flange 26a is formed at one side of the piston 24A, and a groove 27a and a protruding bar 27b are formed at the front end of the body 26b which is connected to the flange 26a, and at the same time the groove ( An elastic member 28 is mounted which is resiliently operated within 27a).

The expansion and contraction member 28 is located inside the groove 27a formed in the piston 24A and is connected by the hinge 28a, and is mounted between the expansion member 28 and the bottom surface of the groove 27a. The spring 29 is configured to provide elasticity.

In addition, the cylinder 24B has through holes 30a and 30b formed in front and rear to allow the expansion and contraction of the expansion and contraction member 28, and the cylinder 24B corresponding to the protruding rod 27b of the piston 24A. The inner wall of the) is provided with an auxiliary sensor 31 for controlling the operation of the airbag in the event of a vehicle crash.

Typically, the amount of impact transmitted to the occupant at a low speed with a vehicle speed of 20 km / h or less absorbs the impact force applied to the front frame 20 because the amount of impact generated by the operation of the airbag is greater than the amount of impact generated by the vehicle body. It is preferable that the elastic body 25 is designed to have sufficient rigidity accordingly.

The shock absorbing unit 23 mounted on the inner wall of the front frame 20 and the body frame 22, respectively, can be bound by using a plastic bolt or by a conventional method such as welding.

According to the present invention configured as described above, when a light contact accident or a collision accident occurs during driving of the vehicle, the impact force is applied to the front frame 20 through the bumper B, and the vehicle speed is 20 km / h or less. The force from the bumper B is transmitted to the piston 24A constituting the front frame 20 and the impact mitigating unit 23, which causes the elastic body 25 to temporarily contract and then act as a self-repulsive force. 24A is returned to its original position.

Accordingly, the external impact force is not transmitted to the body frame 22 to prevent the main components in the engine room 21 from being damaged or affecting the safety of the occupant.

On the other hand, when an impact is applied to the external bumper B when the vehicle speed is 20 km / h or more, the force is transmitted to the piston 24A constituting the front frame 20 and the impact relief unit 23 and at the same time the piston ( 24A resists the elastic body 25 and enters the cylinder 24B. A protruding rod 27b formed at the tip of the piston 24A contacts the auxiliary sensor 31 inside the cylinder 24B. This will trigger the airbag as it sends out a signal.

Of course, if the impact force applied to the bumper (B) is very severe, the force is first transmitted by the piston (24A) and then secondly to the body frame (22) including the cylinder (24B), By the stepwise relaxation effect it is possible to reduce the impact to the engine room 21 or the boarding space very effectively.

On the other hand, as shown in Figs. 6A and 6B, in the groove 27a formed at the tip end of the piston 24A, the elastic member 28, which is elastic by the spring 29, is mounted. ) Is held in the front through hole 30a of the first cylinder 24B, and then enters the cylinder 24B while rotating about the hinge 28a, and is inserted into the rear through hole 30b of the cylinder 24B. Will enter.

Accordingly, the secondary shock which may be applied to the occupant as the piston 24A contracted through the front frame 20 during the external impact of the bumper B due to the vehicle collision expands rapidly by the repulsive force of the elastic body 25. Can be prevented.

As described above, the present invention can alleviate the impact force at the time of the vehicle collision by the front frame 20 and the pair of impact relief units 23 installed between the bumper B and the body frame 22 in the first and second stages. Since the damage to the various parts in the engine room 21 disposed in the body frame 22 can be minimized to reduce the repair cost of the vehicle, as well as to ensure the safety of the occupants.

In addition, the auxiliary sensor 31 is installed separately from the existing sensor in the shock absorbing unit 23, so that the airbag does not operate despite receiving the phenomenon and the force that the airbag operates in a certain direction as before. It is possible to solve the unreasonable point such as not to.

The technical problem of the present invention is achieved by the technical configuration as described above, although the present invention has been described by a limited embodiment and drawings, the present invention is not limited thereto but by those skilled in the art to which the present invention pertains. Various modifications and variations are possible, without departing from the spirit and scope of the appended claims.

1 and 2 is a view showing a shock absorber of a general vehicle bumper,

3 and 4 is a schematic configuration diagram for explaining the shock absorber of the vehicle bumper according to the present invention,

5 is a view showing the configuration of the impact mitigation unit of the apparatus shown in FIG.

6a and 6b are views for explaining the operating state of the piston and the cylinder.

* Description of the symbols for the main parts of the drawings *

20: front frame 21: engine room

22: body frame 23: shock absorbing unit

24A: piston 24B: cylinder

25: elastomer 26a: flange

26b: body 27a: groove

27b: protruding rod 28: elastic member

28a: hinge 29: spring

30a, 30b: through hole 31: auxiliary sensor

Claims (5)

As a device for reducing the impact force applied to the bumper in the event of a vehicle crash to protect the main parts in the body frame and ensure the safety of the occupants, A pair of shock absorbing units 23 disposed between the front frame 20 and the body frame 22 so as to face each other with respect to the front frame 20 mounted inside the bumper B on the basis of the vehicle center X. Equipped with The shock absorbing unit 23 has a flange 26a which is mounted on the inner wall of the front frame 20, and a piston 24A made up of a body 26b which is formed to extend from the flange, and the body of the piston And a cylinder 24B fixed to the body frame 22 so as to be accessible, and an elastic body 25 mounted on an outer circumferential surface of the piston and the cylinder to absorb impact force applied to the front frame 20. Shock-absorbing device of the car bumper. The method of claim 1, An elastic bumper 28 having elasticity is mounted at the front end of the piston 24A so that the bumper can be settled in the through holes 30a and 30b respectively formed at the front and rear of the cylinder 24B. Shock absorber. The method of claim 2, The elastic member 28 is seated via a spring 29 in the groove 27a formed at the front end of the piston 24A and connected by a hinge 28a. . The method according to any one of claims 1 to 3, The protruding rod 27b is formed at the front end of the piston 24A, and the corresponding inner wall of the cylinder 24B is provided with an auxiliary sensor 31 for controlling the operation of the airbag during a vehicle collision. A shock absorber for an automobile bumper. The method of claim 1, The shock absorbing unit (23) mounted to the front frame (20) is a shock absorbing device for a vehicle bumper, characterized in that configured to be arranged in the range of 25 to 35 ° with respect to the vehicle center (X), respectively.

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