KR100501441B1 - Mounting apparatus for side member of radiator - Google Patents

Abstract

The present invention relates to a side member coupling structure of the radiator with improved means for coupling the side member for protecting the side of the radiator core to one side of the upper tank and the lower tank,

In the side member coupling structure of the radiator coupled to both ends of the upper and lower tanks are fitted to the coupling portion of the side member is opened so that both ends of the upper and lower tanks,

A pin having a head formed at one side and an annular clip groove formed at the other side thereof;

Through-holes are provided in the middle of the outer plate and the inner plate in which the middle of the metal plate is overlapped to have elasticity. Using the clip is formed to fit;

It is characterized in that the upper and lower ends of the side member and both ends of the upper tank and the lower tank are coupled.

Description

Mounting apparatus for side member of radiator}

The present invention relates to a side member coupling structure of the radiator, and more particularly to the side member coupling structure of the radiator, which improves the means for coupling the side member for protecting the side of the radiator core to one side of the upper tank and the lower tank. It is about.

In general, the temperature of the combustion gas in the combustion chamber reaches 2000 ° C. or more, and a significant amount of this temperature is conducted to cylinders, cylinder heads, pistons, valves, and the like. Excessively high temperatures in these parts reduce the strength of the part material, resulting in failure or shortening of life, and worsening of combustion, resulting in knocking or premature ignition, resulting in lower engine power.

Moreover, in the incomplete cooling state, it may cause failures such as abnormal wear and seizure due to deterioration of lubrication function such as breaking of the oil film on the cylinder wall, deterioration of oil, and the like. On the contrary, if too much of the heat generated from the combustion is lost due to cooling, the heat efficiency of the engine is lowered and fuel consumption is increased. Therefore, the temperature of the engine should be maintained properly. The radiator is a device that cools the temperature of the heated coolant through the engine to an appropriate level.

6 shows a structure of a general radiator, which is composed of an upper tank 11, a radiator core 13, and a lower tank 12. The radiator core 13 is composed of a tube for guiding the heated cooling water from the upper tank 11 to the lower tank 12 through the engine and cooling fins for heat exchange in the course of passing air.

On the other hand, since the radiator core 13 is made of a metal material (brass, aluminum) having excellent thermal conductivity, the radiator core 13 is weak in strength to withstand impact and thus causes deformation even in slight impact. Therefore, both side surfaces of the radiator core 13 are reinforced with a reinforce so as to be protected from the surrounding impact, and side members connecting both ends of the upper tank 11 and the lower tank 12 to the outside thereof. 15) is attached.

In particular, between the upper and lower tanks 11 and 12 and the side member 15, a rubber member 16 for preventing thermal degradation of the members constituting the radiator and for reinforcing the gap between the side member and the tank is provided in FIG. 7. It is interposed together. Then, the bolt 17 is fitted into the fastening holes provided in the side member 15 and the upper and lower tanks 11 and 12, and the nut 18 is fastened to the screw portion protruding to the opposite side.

However, in the structure in which the side member and the upper / lower tank are joined with the bolt and the nut as described above, the lower tank boss and the side member may be concerned when the bolt is tightened, resulting in an increase in the frictional force due to the crushing of the rubber member. There is a problem that causes a problem in the smooth expansion and contraction of the radiator core.

Accordingly, the present invention has been made to solve the above problems, and provides a side member coupling structure of the radiator with improved means for coupling the side member for protecting the side of the radiator core to one side of the upper tank and the lower tank. The purpose is to.

The present invention as a means for achieving the above object,

In the side member coupling structure of the radiator coupled to both ends of the upper and lower tanks are fitted to the coupling portion of the side member is opened so that both ends of the upper and lower tanks,

A pin having a head formed at one side and an annular clip groove formed at the other side thereof;

Through-holes are provided in the middle of the outer plate and the inner plate in which the middle of the metal plate is overlapped to have elasticity. Using the clip is formed to fit;

 It is characterized in that the upper and lower ends of the side member and both ends of the upper tank and the lower tank are coupled.

Hereinafter, a preferred embodiment according to the configuration and operation of the coupling structure of the radiator side member according to the present invention will be described in detail with the accompanying drawings.

1 is a front view showing a coupling state of the radiator side member according to the present invention, Figure 2 is a cross-sectional view taken along the line AA of Figure 1, Figure 3 is an exploded perspective view of the pin and the clip according to the present invention, Figure 4 is the present invention 5 is a front view of the clip formed by the present invention, and FIG.

Reference numeral 20 shown in the drawings indicates a radiator formed by the present invention, and reference numeral 30 indicates a side member formed by the present invention.

The radiator 20 is configured in a state in which the radiator core 23 is connected between the upper tank 21 and the lower tank 22 as in the conventional general radiator. Both sides of the radiator core 23 are attached with a reinforcement 24 for reinforcing the strength of the radiator core 23, and side members 30 are attached to the outside thereof.

The upper and lower ends of the side member 30 are formed with coupling portions 31 and 32 formed in both sides so as to surround both ends of the upper tank 21 and the lower tank 22. The coupling parts 31 and 32 are provided with fastening holes 33 and 34 to allow the pin 40 to pass therethrough.

And as in the case of the prior art, the upper tank (so that the separate rubber member between the coupling portion 31, 32 and the upper and lower tanks 21, 22 of the side member 30 can be coupled without being interposed) The width of the 21 and the lower tank 22 is formed to the same size as the width of the coupling portion (31, 32). Fastening holes 21a and 22a are provided at end portions of the upper tank 21 and the lower tank 22 at positions coinciding with the fastening holes 33 and 34 of the side member 30.

In the process of attaching the side member 30 to both sides of the radiator core 23, the coupling portions 31 and 32 of the side member 30 are positioned at the coupling position of the upper tank 21 and the lower tank 22. After matching the fastening holes on both sides, the pin 40 to be manufactured separately is inserted into the fastening hole, and the clips 52 are fitted to one end of the pin 40 to fasten both members.

One end of the pin 40 is formed with a head 41 having a larger size than the fastening holes 33 and 34, and the other end has an annular clip groove 42 for fitting the clip 50. do.

The clip 50 is bent in the middle of the metal plate so that the inner plate 51 and the outer plate 52 are in a stacked state, and the pin 40 is disposed at the center of the inner plate 51 and the outer plate 52. Through-holes 53 and 54 for this passage are drilled. That is, the inner circumference of the through holes 53 and 54 formed in the inner and outer plates 51 and 52 is inserted into the clip groove 42 to prevent the pin 50 from being separated.

In particular, the through hole 52 drilled in the inner plate 51 is formed with the end portion 51a open to allow the clip groove 42 of the pin 40 to pass therethrough, the width of which is in the pin 40. It is formed larger than the diameter of the formed clip groove 42 and smaller than the outer diameter of the pin 40. In addition, the through hole 54 that is drilled in the outer plate 52 is formed in the radius of the pin 40 can pass through the central portion of the plate, the width of the through hole 54 is the bent portion 55 The width becomes narrower toward, and is formed to be closed near the bent portion 55.

And the end portion 52a of the outer plate 52 is preferably bent at a predetermined angle in the outward direction in order to improve the elastic force.

The process of coupling the side member 30 of the radiator to both ends of the upper tank 21 and the lower tank 22 using the pin 40 and the clip 50 configured as described above is as follows.

First, the side members 30 are formed such that the fastening holes 33 and 34 formed at the upper and lower ends of the side member 30 coincide with the fastening holes 21a and 22a formed in the upper tank 21 and the lower tank 22. Position it.

Then, one end of the pin 40 passes through the fastening holes 21a, 33, 22a, 34, and the inside of the clip 50 by the clip groove 42 of the pin 40 protruding from the opposite side. The inner plate 51 is fitted into the through hole 53 formed in the plate 51.

When the inner plate 51 is fitted to the clip groove 42 to some extent, the end of the pin 40 passes through the through hole 54 of the outer plate 52 and then the through hole 54 of the outer plate 52. ) The inner circumferential surface is positioned in the clip groove 42, and the inner circumferential surfaces of the inner plate 51 and the outer plate 52 are simultaneously applied to the clip groove 42 by applying a load to the inner plate 51 and the outer plate 52. To be fitted.

At this time, since the elasticity is added to the clip 50, the pin 40 is not detached while being fitted to the clip 40.

Therefore, the present invention improves the assembly performance than the coupling by the bolt as in the prior art, and eliminates the need for the use of the rubber member, thereby solving the problem of the prior art by the rubber member.

The present invention as described above not only improves the workability of attaching the side member of the radiator, but also improves the durability of each member constituting the radiator, and has a great advantage of not having to worry about deformation of the rubber member due to thermal fatigue. will be.

1 is a front view showing a coupling state of the radiator side member according to the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is an exploded perspective view of the pin and clip according to the present invention.

4 is a front view of a clip formed by the present invention.

5 is a rear view of the clip according to the present invention;

6 to 7 are views for explaining the conventional technology.

※ Explanation of code for main part of drawing

20: radiator 21: upper tank

22: lower tank 23: radiator core

30: side member 31,32: coupling portion

40: pin 42: clip groove

50: clip 51: inner plate

52: outer plate 53, 54: through hole

55: bend

Claims (5)

In the side member coupling structure of the radiator coupled to both ends of the upper and lower tanks are fitted to the coupling portion of the side member is opened so that both ends of the upper and lower tanks, A pin 41 formed at one side of the head 41 and an annular clip groove 42 formed at the other side thereof; The through holes 52 and 54 are provided in the middle of the outer plate 51 and the inner plate 52 in which the middle of the metal plate is overlapped so as to have elasticity. The through holes 52 and 54 are the pins 40 described above. After passing through the middle of the), the clip 50 is formed so that the inner surface of the through hole 52, 54 is fitted into the clip groove 42 of the pin 40; Side member coupling structure of the radiator, characterized in that the upper and lower ends of the side member 30 and both ends of the upper tank 21 and the lower tank 22 are coupled. The method of claim 1, The through hole 53 drilled in the inner plate 51 is formed with the end portion 51a open to allow the clip groove 42 of the pin 40 to pass therethrough, the width of which is in the pin 40. Side member coupling structure of the radiator, characterized in that formed larger than the diameter of the formed clip groove 42 and smaller than the outer diameter of the fin (40). The method of claim 1, The through hole 54 drilled in the outer plate 52 is formed in the center portion of the plate with a radius through which the pin 40 can pass, but the width becomes narrower toward the bent portion 55. Side member coupling structure of the radiator. The method of claim 1, End member 52a of the outer plate 52 is bent in a predetermined angle in the outward direction side member coupling structure of the radiator. The method of claim 1, Combined structure of the radiator side member, characterized in that the width of both ends of the upper tank (21) and the lower tank (22) is the same as the width of the coupling portion (31, 32) of the side member (30).