KR100444869B1 - Radiator structure - Google Patents

Abstract

The present invention relates to a radiator structure for increasing durability,

In the radiator in which a plurality of heat dissipation tubes for cooling the cooling water is arranged in two rows between the upper tank and the lower tank, the side members are coupled as bolts on both sides of the upper tank and the lower tank,

Reinforcing grooves are formed in the center of the side member with respect to the entire length, and a rubber material for absorbing vibration is interposed between the coupling member of the side member to be bolted and the lower tank, and at the other end of the bolt. Insert a reinforcing ring for reinforcing the bonding force with the nut, and the heat sink tube is coupled to the upper and lower sides of the rectangular body, the support piece for fitting to the upper side of the heat dissipation tube, respectively, the downward protrusion protruding in the 'c' shape Characterized in that the durability of the heat dissipation tube

In addition to improving the durability of the entire radiator and to prevent the heat dissipation tube to be able to prevent the effect of extending the life and cooling performance of the radiator relates to a radiator structure for increasing the durability.

Description

Radiator structure for increased durability

The present invention relates to a radiator structure for increasing durability, and in particular, the durability of the entire radiator can be improved, and the heat dissipation tube can be prevented from being bent, so that the durability of the radiator can be expected to extend the life and improve the cooling performance. It relates to a radiator structure for.

1 to 3 show a conventional radiator structure,

A plurality of heat dissipation tubes 3 are vertically installed between the upper tank 1 and the lower tank 2, and the side plates 4 coupled to both ends of the heat dissipation tube 3 are reinforced at their edges. The flange 5 is formed to protrude, and the side members 6 of a predetermined length are coupled to both sides of the upper tank 1 and the lower tank 2 as bolts 9.

The upper and lower sides of the side member 6 is formed with a protruding coupling piece 8 which is coupled to the upper tank 1 and the lower tank 2, respectively, and protrudes to a certain size in the middle of the side member 6. The groove 7 is recessed.

In addition, the upper portion of each of the heat dissipation tube 3, as shown in Fig. 3, the clip 10 formed in a rhombus shape is inserted into the upper side of the heat dissipation tube 3 in the first row to prevent bending of the heat dissipation tube 3 located at the edge. .

However, in the conventional radiator structure, the axial force in the process of tightening the coupling piece 8 of the side member 6 against the edges of the upper tank 1 and the lower tank 2 by bolts is coupled to the square corners of the radiator. There was a problem that is transmitted to the heat dissipation tube located bends.

In particular, the conventional radiator structure simply combines the side member and the upper and lower tanks as bolts, so that they are exposed to vibration transmitted from the engine, causing the radiator to shake violently. In this process, leakage occurs due to bending or partial breakage of the heat radiating tube. There was a problem.

Also, in order to prevent the heat dissipation tube from being bent, a diamond-shaped clip is inserted in the first row. When the clip is inserted into the heat dissipation tube, the hole of the heat dissipation tube is completely blocked by the clip, and the circulation of the coolant is prevented from the heat dissipation tube. There is a problem that the thermal stress is generated by the temperature difference between the heat dissipation tube to which the clip is inserted and the heat dissipation tube (the cooling water circulation is made), thereby causing cracks.

Accordingly, the present invention for solving the above problems is to form a reinforcement groove long in the longitudinal direction in the center portion of the side member, the rubber material for the vibration absorption when the side member and the lower tank is coupled to the coupling portion In order to prevent bending of the heat dissipation tube by inserting clips having a protruding 'c' shaped support piece at each end of the body into the heat dissipation tube of the first 1-2 rows, the overall radiator durability is improved and the heat dissipation tube is also bent. It is an object of the present invention to provide a radiator structure for increasing the durability to be able to prevent the long life of the radiator and to improve the cooling performance.

The present invention for achieving the above object,

In the radiator in which a plurality of heat dissipation tubes for cooling the cooling water is arranged in two rows between the upper tank and the lower tank, the side members are coupled as bolts on both sides of the upper tank and the lower tank,

Reinforcing grooves are formed in the center of the side member with respect to the entire length, and a rubber material for absorbing vibration is interposed between the coupling member of the side member to be bolted and the lower tank, and at the other end of the bolt. Insert a reinforcing ring for reinforcing the bonding force with the nut, and the heat sink tube is coupled to the upper and lower sides of the rectangular body, the support piece for fitting to the upper side of the heat dissipation tube, respectively, the downward protrusion protruding in the 'c' shape Characterized in that the durability of the heat dissipation tube is improved.

Reinforcing flanges protrude from the lower side to the upper end at the edges of the side plates supporting both sides of the heat dissipation tube. It is done.

1 is a partially exploded perspective view showing a conventional radiator structure.

Figure 2 is a view showing a state where the clip is fitted to the heat radiating tube of the conventional radiator.

3 is a perspective view showing a clip applied to the prior art.

Figure 4 is a perspective view showing a radiator structure of the present invention.

Figure 5 is a cross-sectional view showing a coupling portion of the side member and the lower tank in the present invention.

Figure 6 is a front view showing a rubber applied to the present invention.

7 is a perspective view showing a clip applied to the present invention.

Figure 8 is a perspective view showing a state in which the clip applied to the present invention coupled to the heat dissipation tube.

※ Explanation of code for main part of drawing

1: upper tank 2: lower tank

3: heat dissipation tube 5: flange

6: side member 20: clip

21: body 22: support piece

30: flange 31: reinforcing groove

32: rubber 33: reinforcing ring

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 4 to 8.

In the description of the present invention, the same components as in the prior art will be denoted by the same reference numerals to avoid redundant description.

First, both sides of the heat dissipation tube 3 are formed on both sides of the side plate 4 which protects the heat dissipation tube 3 from external impact, and protrudes the flange 30 for strength reinforcement, and the flange 30 is a side plate. By extending to the upper and lower ends of the (4) to further strengthen the upper and lower strength of the side plate 4 to effectively protect the heat dissipation tube (3) located close to the side plate (4).

The side member 6 connects the upper tank 1 and the lower tank 2 in the longitudinal direction, and the coupling pieces 8 protruding from the upper side and the lower side of the side member 6 respectively as bolts 9. Coupled to the upper and lower tanks (1, 2), to form a reinforcement groove 31 in the central portion of the side member (6) so that the strength of the side member (6).

At this time, the reinforcement groove 31 is formed as a whole from the lower side to the upper end of the side member 6, as shown in Figure 1 so that the strength of the side member 6 becomes stronger.

On the other hand, when the coupling piece 8 is coupled to the lower tank 2 as a bolt 9, a rubber rubber 32 between the coupling pieces 8 lower tank 2 is applied to the radiator from the engine. Loss of vibration can be effectively absorbed.

As shown in FIG. 6, the rubber 32 has two holes in which the bolts 9 can be inserted at both sides of the center, and the middle portion is partially cut to open at both sides. The lower tank 2 and the coupling piece ( 8) can be inserted in between, and as the rubber 32 is used, the coupling piece 8 and the lower tank 2 remain in close contact with each other, even if vibration is transmitted from the engine. It is possible to expect the effect that the overall vibration applied to the radiator is reduced by being buffered and absorbed by the rubber 32.

In addition, a nut is tightened to the other end of the bolt 9 to allow the lower tank 2 and the coupling piece 8 to be coupled to each other. Before the nut is inserted, a separate reinforcing ring 33 is bolted in advance. 9) When the tightening force is applied by the nut at the end of 9), the reinforcing ring 33 strongly closes the coupling piece 8 to the lower tank 2, so that the coupling piece 8 and the lower tank 2 are tightened. The bonding force is improved.

Then, the clip 20 for bending prevention and rigidity reinforcement of the heat dissipation tube 3 is inserted into the first and second rows of the heat dissipation tube 3.

As shown in FIG. 7, the clip 20 is formed by protruding downwardly from the upper and lower sides of the rectangular body 21 and the supporting piece 22 formed in a 'c' shape.

When the clip 20 is inserted into the heat dissipation tube 3, as shown in FIG. 8, the support pieces 22 which protrude downward from both ends of the body 21 are inserted into the first row and the second row, respectively. The support piece 22 is formed to be smaller than the hole of the heat dissipation tube 3 so that the hole of the heat dissipation tube 3 is not completely blocked even when the support piece 22 is inserted into the heat dissipation tube 3.

As a result, the bending of the heat dissipation tube 3 is prevented by inserting the support piece 22 into the heat dissipation tube 3, and at the same time, as the cooling water is circulated through the heat dissipation tube 3 to which the support piece 22 is inserted, the heat dissipation tube is entirely separated. The temperature difference is not generated so that the stress caused by the temperature difference is removed and the breakage of the heat radiation tube 3 is not generated.

As described above, the present invention forms a reinforcing groove long in the longitudinal direction in the center portion of the side member, interposing a rubber rubber material for absorbing vibration when the side member and the lower tank are coupled to the coupling portion, Clips with 'c'-shaped support pieces protruding at both ends are inserted into heat radiating tubes in the initial 1-2 rows to prevent warpage of the radiating tube, thereby improving the overall radiator durability and preventing the radiating tube from bending. As a result, it is possible to expect the effect of providing a radiator structure for increasing durability, which can expect the effect of extending the life of the radiator and improving the cooling performance.

Claims (3)

A plurality of heat dissipation tubes 3 for cooling the cooling water are arranged in two rows between the upper tank 1 and the lower tank 2, and side members 6 are disposed on both sides of the upper tank 1 and the lower tank 2. In the radiator in which is coupled as a bolt (9), Reinforcing grooves 31 are formed in the central portion of the side member 6 with respect to the entire length, and between the coupling piece 8 and the lower tank 2 of the side member 6 coupled to the bolt 9. A rubber rubber 32 for absorbing vibration is interposed, and a reinforcing ring 33 is inserted into the other end of the bolt 9 to reinforce the coupling force with the nut, and the heat radiating tube 3 has a rectangular shape. Durability of the heat dissipation tube 3 by joining the clip 20, the support piece 22 to be fitted to the upper side of the heat dissipation tube 3 on the upper and lower sides of the body 21, respectively, protruding downwardly in a 'c' shape. Radiator structure for increasing the durability, characterized in that the improved. The method of claim 1, Radiator structure for increasing durability, characterized in that the reinforcing flange (5) protruding from the lower side to the upper end portion to the edge of the side plate (4) for supporting both sides of the heat dissipation tube (3). The method of claim 1, The support piece (22) of the clip (20) radiator structure for increasing the durability, characterized in that not to completely block the hole of the heat dissipation tube (3) to allow the flow of cooling water.