KR101518513B1 - Shock absorber for cooling module - Google Patents

Abstract

The present invention relates to a shock absorbing device for preventing breakage of a cooling module constituting a part of a front end module at the front of a vehicle, wherein the side surfaces thereof abut on both ends of the cooling module 200, Two shock absorbers (10) comprising; A pin engaging portion 12 protruding forward of the impact absorbing plate 10 to receive the projecting pin 310 of the bumper beam 300; And a slot-like long hole (12A) formed in the pin coupling portion (12).

In the configuration of the present invention as described above, the shock absorber installed between the bumper beam and the cooling module primarily absorbs the shock so that the impact of the bumper beam can not be directly transmitted to the cooling module, It is possible to greatly reduce the damage of the cooling module due to the bumper beam.

Cooling module, front end module (FEM), carrier, bumper beam

Description

[0001] SHOCK ABSORBER FOR COOLING MODULE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a shock absorber for preventing damage to a cooling module mounted in front of a vehicle, and more particularly, to a shock absorber having a relatively low strength between a bumper beam and a cooling module, The shock absorber can be prevented from being damaged by the bumper beam by pushing the cooling module backward while pushing the shock absorber backward when an impact is generated in the shock absorber when the shock is generated, To a shock absorber.

The front end module (FEM) is composed of a carrier, a cooling module, and a bumper beam. The front end module (FEM) It is possible to optimize the design of the carrier to reduce the weight, and in addition, it is easy to complement each other in strength. Thus, it is widely applied to vehicles manufactured in recent years.

1, the conventional front end module is provided with a carrier 1 on which a head lamp is installed on both right and left sides, a cooling module 2 is installed on the rear side of the carrier 1, And a bumper beam 3 is provided in front of the bumper beam 3.

At this time, a reinforcing bar (1A) is additionally installed on the open side of the carrier (1) where the cooling module (2) is installed. Through this, the cooling module (2) on the rear side is easily damaged .

However, since the reinforcing band 1A reduces the area of the cooling module 2 that performs heat exchange during traveling of the vehicle, there is a problem that heat exchange performance is poor.

Particularly, the above-described reinforcing bar 1A can be applied only when the cooling module 2 is positioned behind the carrier 1. However, in recent years, in order to maximize the heat exchange efficiency of the cooling module, a cooling module is installed between the carrier and the bumper beam So that it was difficult to apply it.

Meanwhile, as the cooling module is installed forward, the cooling module is broken more frequently when the vehicle collides with the vehicle. As the bumper beam collides with the bumper beam, the gap between the cooling module and the cooling module is relatively reduced This is because the impact is directly transmitted to the cooling module installed immediately behind.

Therefore, although the front-end module has the advantage that the heat exchange efficiency is increased when the cooling module is installed forward, there is a high risk of breakage, thereby increasing the cost of repairing the vehicle in the event of a vehicle accident, Lt; / RTI >

In winter, there are many cases where calcium chloride is applied to the road for snow removal in the winter. The calcium chloride sprayed on the road is scattered by the running of the vehicle and flows into the cooling module in front of the vehicle. The incoming calcium chloride flows into the header and tank of the condenser Thereby causing a crack. Therefore, there is a problem that the cooling module may be damaged without being affected by a collision of the vehicle.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a cooling module for preventing damage to a cooling module by absorbing an impact applied to a bumper beam or preventing a cooling module from being damaged by impact of a bumper beam, The purpose is to provide a device.

It is another object of the present invention to provide a shock absorber which can also serve as an air guide for guiding the flow of air toward a cooling module.

It is a further object of the present invention to provide a shock absorber capable of protecting the headers and tanks of condensers from calcium chloride in order to prevent the tank of the condenser from being damaged by the calcium chloride scattered on the road.

The above and other objects can be accomplished by the provision of a cooling module comprising: two shock absorbers each including a vertical plate protruding forward from both sides of a cooling module; A pin coupling portion protruding forward of the shock absorber and inserted into the bump beam projecting pin; And a slot-like long hole formed in the pin-coupled portion.

Another object of the present invention is achieved by providing a shock absorbing plate further comprising a curved guide plate for covering a header and a tank of a condenser of a cooling module or further comprising a mounting protrusion or mounting groove fixedly coupled to a condenser of a cooling module do.

In the carrier, the cooling module, and the bumper beam constituting the front end module by the use of the present invention, the shock applied to the bumper beam located in front of the vehicle absorbs the shock applied to the cooling module located behind the bumper beam, By preventing the cooling module from being pushed rearwardly against the bumper beam, the cooling module is prevented from being damaged by the bumper beam.

In particular, the present invention can be applied to a case where the cooling module is installed to move forward between the bumper beam and the carrier.

Further, the present invention has an effect of increasing the overall heat exchange efficiency of the cooling module by guiding the flow of air to the cooling module at the time of traveling of the vehicle.

In addition, the present invention prevents damage to the cooling module by blocking access to the header of the condenser constituting the cooling module such as calcium chloride, and substances generating cracks in the tank.

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

The present invention relates to a cooling module for preventing damage to a cooling module installed in a bumper beam installed in front of a vehicle to absorb an impact transmitted to a cooling module on the rear side or to prevent a cooling module from being damaged by an impact caused by a bumper beam, And to provide a shock absorber.

2, the front end module includes a carrier 100, a cooling module 200, and a bumper beam 300. The front end module includes a bumper beam 300 and a bumper beam 300 between both ends of the cooling module 200 and the bumper beam 300, And two shock absorber plates 10 installed vertically.

3, the front-end module includes a carrier 100 installed with a front head lamp of the vehicle and serving as a pedestal for supporting the cooling module 200 and the bumper beam 300, and a radiator A cooling module 200 constituted by a fan shroud 220 and a condenser 230 and a bumper 400 installed horizontally on the front surface of the carrier 100 and fixed to the outside of the bumper 400 And a bumper beam (300). At this time, the cooling module 200 is installed and fixed in front of the carrier 100 in the present invention.

When the cooling module 200 is installed in front of the carrier 100, the heat exchange efficiency of the cooling module 200 is increased. However, the cooling module 200 is easily damaged by the front impact.

Accordingly, in the present invention, the shock absorber 10 capable of absorbing and mitigating the front shock is installed between the front bumper beam 300 and the cooling module 200.

The shock absorber includes two shock absorbers 10, each of which includes a vertical plate 11 whose side faces each end of the cooling module 200 and protrudes forward as shown in FIG. 4; A pin engagement portion 12 protruding forward of the shock absorber 10 and inserted into protruding pins 310 formed on the left and right sides of the bumper beam 300; And a slot-like long hole (12A) formed in the pin coupling portion (12).

When the bumper beam 300 is impacted by the vehicle, the bumper beam 300 is bent backward. At this time, the protrusion pin 310 formed on the bumper beam 300 is inserted into the slot- The impact of the bumper beam 300 is not transmitted to the cooling module 200 within the length of the long hole 12A because the bumper beam can be freely moved rearward along the long hole 12A.

The shock absorber 10 also serves as an air guide for guiding the air introduced from the front of the vehicle to the cooling module 200 when the vehicle travels. In order to achieve such a function, the side surface of the cooling module 200 has a flat plate shape vertically extending from both ends of the cooling module 200 and protruding forward.

5, a curved portion 11A may be formed at the front end of the vertical plate 11 so as to bend outwardly from both left and right ends of the cooling module 200, The air flowing in front of the cooling module 200 can be guided to flow more by the cooling module 200 to increase the heat exchange efficiency. In winter, the calcium chloride applied for the snow removal operation of the road is blocked by the curved portion 11A, Is prevented from flowing into the tank side.

The shock absorbing plate 10 is provided with a structure that can be more tightly coupled to improve the coupling performance of the cooling module 200 with the tank of the condenser 230 and to prevent a flow due to vibration of the vehicle, Hereinafter, such a coupling structure will be described with reference to two embodiments.

≪ Embodiment 1 >

In the first embodiment, as shown in FIG. 4, one end of the cylindrical tank 231 of the condenser 230 is formed with an arc-shaped curved guide portion 13 along the outer shape of the tank, And a mounting protrusion 14A is formed which extends to the other end of the guide portion 13 and protrudes.

The mounting protrusion 14A is closely attached to the outer periphery of the tank 231 of the condenser 230 together with the guide portion 13. The protruding length of the mounting protrusion 14A is set so as to prevent interference with the main body of the capacitor And is inserted and fixed therebetween.

On the other hand, the inner circumferential surface of the mounting projection 14A can be fixedly held while the outer circumferential surface of the tank of the condenser is constrained.

≪ Embodiment 2 >

6, when the tank 231 of the condenser 230 is formed in a semicircular shape and the vertical plate is integrally formed with the tank 231, the tank 231 is connected to one side of the vertical plate 11, And a mounting groove 14B in which a vertical plate of the condenser tank 231 is inserted is formed at the other end of the mounting groove 14B.

In addition, in the present invention, the shock absorber 10 of the first and second embodiments further includes a plurality of reinforcing bars 15 connecting the respective side surfaces of the plate-shaped vertical plate 11 and the guide plate 13, So that the shock-absorbing plate 10 can not be easily broken.

8, when the impact is generated by the collision of the vehicle and the front bumper beam 300 is pushed backward or bent, The impact is not transmitted to the cooling module 200 within the limit of the length of the heat sink 12A.

When the impact applied to the bumper beam 300 is large and the bumper beam 300 is strongly pushed back or bent, the impact is not transmitted as much as the length of the long hole 12A of the shock absorber 10, And a further amount of impact prevents the bumper beam 300 from bumping against the cooling module 200 by pushing the cooling module 200 backward as the shock absorber plate 10 is pushed back.

In order to push the cooling module 200 backward, the upper and lower fixing brackets of the cooling module 200 may be pushed rearward, or the cooling module 200 may be rotated about the upper fixing bracket And the rotatable structure of such a fixing bracket can be modified to be easily practiced by those skilled in the art, so that a detailed description thereof will be omitted.

The shock absorber 10 absorbs the pushing force of the shock absorber 10 in its own strength while pushing the cooling module 200 backward to maintain the space between the shock absorber 10 and the front bumper beam 300 Thereby preventing the cooling module 200 from being damaged by the bumper beam 3000.

1 is a perspective view showing an example of a conventional front end module,

2 is a perspective view showing a front end module equipped with a shock absorber for preventing damage to a cooling module according to the present invention,

FIG. 3 is a perspective view of a front end module according to the present invention,

4 is a perspective view of a shock absorber for preventing damage to a cooling module according to the present invention,

5 is a perspective view showing another example of a shock absorber for preventing breakage of a cooling module according to the present invention,

FIG. 6 is a perspective view showing still another example of a shock absorber for preventing breakage of a cooling module according to the present invention,

FIG. 7 is a perspective view illustrating a combined example of a shock absorber for preventing damage to a cooling module according to the present invention,

8 is a use state diagram showing an example of using a shock absorber for preventing breakage of a cooling module according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10: shock absorber 11: vertical plate

11A: Curved portion 12: Pin coupling portion

12A: long hole 13: guide plate

14A: Mounting projection 14B: Mounting groove

15: Rib 100: Carrier

200: cooling module 210: radiator

220: Fan shroud 230: Capacitor

231: tank 300: bumper beam

310: projecting pin 400: bumper

Claims (5)

1. A front end module, which is installed in front of a vehicle and is composed of a carrier, a cooling module, and a bumper beam, Two shock absorbers (10) each including a vertical plate (11) whose sides are in contact with both ends of the cooling module (200) and projecting forward; A pin engaging portion 12 protruding forward of the impact absorbing plate 10 to receive the projecting pin 310 of the bumper beam 300; And a slot-like long hole (12A) formed in the pin-engaging portion (12); The shock absorbing plate 10 is firstly offset by the impact of the bumper beam within the range of the slot-like long hole 12A to protect the cooling module. In the range of the slot-like long hole 12A, Push the cooling module backward to prevent the bumper beam from hitting the cooling module, Wherein a curved guide plate (13) for enclosing a tank (231) of a condenser (230) of the cooling module (200) is provided on the shock absorber plate (10). delete The method according to claim 1, Wherein the shock absorbing plate is further provided with a mounting protrusion 14A or a mounting groove 14B to be fixed to the condenser 230 of the cooling module 200. [ The method according to claim 1 or 3, Wherein the impact absorption plate is further provided with a plurality of reinforcing bars for connecting the side plates of the plate-shaped vertical plate and the guide plate. The method according to claim 1 or 3, Wherein the vertical plate (11) of the shock absorbing plate (10) has a forward end formed to be curved in an outward direction.

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