KR200142889Y1 - Coolant blocking apparatus for radiator - Google Patents

Abstract

The present invention relates to a radiator for cooling the cooling water absorbing the heat from the heating body.

The discharge pipe sealing device of the radiator according to the present invention, the coupling structure between the components is simple, can be easily combined and separated, and can be made surely, as well as can surely prevent the cooling water inside the radiator body leakage, Excessive external force acts on the sealing member or the drain plug at the time can be suppressed.

Description

Radiator coolant outlet pipe seal

1 is a schematic front view of a general radiator,

2 is a sectional view taken along line II-II showing a conventional cooling water discharge pipe sealing device for sealing the cooling water discharge pipe of the radiator shown in FIG.

Figure 3 is a schematic separation perspective view of the cooling water discharge pipe sealing device of the radiator according to the present invention,

4 is a schematic exploded view of the coolant discharge pipe shown in FIG.

5 is a schematic cross-sectional view with the drain plug fixedly inserted into the cooling water discharge pipe from the state shown in FIG.

6 and 7 is a schematic perspective view of the cooling water discharge pipe of other embodiments according to the present invention,

8 is a schematic development view of a cooling water discharge pipe of another embodiment according to the present invention.

* Explanation of symbols for main parts of the drawings

2: radiator body 20: discharge pipe

21: distal end of the discharge pipe 22: seating portion

23: locking projection receiving portion 231: introduction portion

232: connection portion 233: fixing portion

234: locking jaw 30: sealing member

40: drain plug 41: jamming projection

The present invention relates to a device for sealing a cooling water discharge pipe provided for discharging the cooling water inside the radiator body, and in particular, a simple coupling structure of the components of the radiator has been improved so that the coupling operation is easy, firm and stable Cooling water discharge pipe sealing device.

The radiator is for cooling a cooling water absorbing heat from a heat-containing heating body such as an automobile engine, and as shown schematically in FIG. 1, the cooling water flowing therein effectively exchanges heat with air outside thereof. The main body 2 is provided. The main body 2 includes a coolant inlet pipe 3 for guiding the cooling water absorbing heat from the heat carrier to be introduced into the main body 2, and the main body 2 through the coolant inlet pipe 3. A cooling water outlet pipe 4 is provided for guiding the cooling water introduced into and cooled to the heating element side.

In addition, a cooling water discharge pipe 5 is provided below the main body 2 of the radiator 1. The cooling water discharge pipe 5 is for discharging the cooling water inside the radiator body 2 to the outside in the case of exchanging the cooling water. In other words, the cooling water discharge pipe 5 normally exchanges heat with the outside air while the cooling water flows in and out of the radiator body 2. During the process, the water is sealed by the cooling water discharge pipe sealing device to prevent the cooling water inside the radiator main body 2 from leaking through the cooling water discharge pipe 5.

The cooling water discharge pipe sealing device includes a sealing member 7 inserted into the cooling water discharge pipe 5 and a cooling water discharge pipe 5, as shown in FIG. 2 schematically showing a line II-II of FIG. 1. The drain plug 6 which seals the cooling water discharge pipe 5 by closely fitting the sealing member 7 to the seating portion 5b of the cooling water discharge pipe 5 while being coupled to the inside of the cooling water discharge pipe 5 from the front end thereof. Equipped with.

However, in the conventional cooling water discharge pipe sealing device, as shown in the drawing, the nut part 5a is formed inside the cooling water discharge pipe 5, and the screw part 6a is formed on the outer circumference of the drain plug 6, so that the drain plug 6 is formed. Since the screw is screwed into the cooling water discharge pipe 5, it is difficult to properly maintain the adhesive force for bringing the sealing member 7 into close contact with the seating portion 5b of the cooling water discharge pipe 5.

That is, the force to close the sealing member 7 to the seating portion 5a of the cooling water discharge pipe 5 varies according to the magnitude of the external force for fastening the drain plug 6, which causes some problems. For example, when the drain plug 6 is weakly fastened to the cooling water discharge pipe 5, the adhesion of the sealing member 7 is weakened, so that the sealing member 7 does not seal the cooling water discharge pipe 5 securely. The cooling water inside the main body leaks during the heat exchange. In addition, when excessive clamping force is applied to the drain plug 6, the drain plug 6 or the sealing member 7 pressed by the drain plug 6 may be damaged. On the other hand, when the drain plug 6 is broken near the screw portion 6a, there is a problem that it cannot be easily removed from the cooling water discharge pipe 5.

The present invention was devised to solve such a problem, and the coupling structure between the cooling water discharge pipe and the drain plug is simplified, and the coupling operation can be easily and accurately performed, and the components such as the drain plug or the sealing member are damaged. It is an object of the present invention to provide a cooling water discharge pipe sealing device of a radiator which is prevented and improved to reliably prevent leakage of the cooling water inside the radiator through the cooling water discharge pipe during heat exchange.

In order to achieve the above object, the radiator cooling water discharge pipe sealing device according to the present invention is for sealing a cooling water discharge pipe provided for discharging the cooling water inside the radiator to the outside, and a sealing member mounted inside the cooling water discharge pipe; In the end of the cooling water discharge pipe is provided with a drain plug to enter the inside to close the sealing member to one side of the cooling water discharge pipe to prevent the leakage of cooling water inside the radiator, the drain plug is provided with a locking projection protruding to the outer peripheral surface And an engaging protrusion accommodating portion accommodating the engaging protrusion of the drain plug at an end of the cooling water discharge pipe, wherein the engaging protrusion accommodating portion is formed along the longitudinal direction of the cooling water discharge pipe from the tip of the cooling water discharge pipe, It is characterized in, based on the center axis of the cooling water outlet pipe from the end portion provided with a connecting portion connecting the fixing portion and the end portion and the fixing portion of the introduction portion provided in a predetermined angle that the rotational position.

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

Figure 3 is a schematic separation perspective view of the cooling water discharge pipe sealing device of the radiator according to the present invention, Figure 4 is a schematic development view of the cooling water discharge pipe shown in FIG. FIG. 5 is a schematic cross-sectional view of the drain plug shown in FIG. 3 being inserted into and fixed to the cooling water discharge pipe.

Referring to the drawings, the radiator coolant discharge device according to the present invention is a sealing member 30 mounted inside the coolant discharge pipe 20 provided in the radiator body (2) and the coolant discharge pipe from the end of the coolant discharge pipe (20) It is provided with a drain plug 40 to enter the inside of the 20 to close the sealing member 30 to the seating portion 22 inside the cooling water discharge pipe 20 to prevent the leakage of the cooling water in the radiator body (2) have.

On the other hand, the drain plug 40 is provided with a locking projection 41 protruding to the outer peripheral surface, the locking projection for receiving the locking projection 41 of the drain plug 40 at the end of the cooling water discharge pipe (20). The accommodation part 23 is provided. The locking projection accommodating portion 23 includes an introduction portion 231 having a predetermined length formed along the longitudinal direction of the cooling water discharge pipe 20 from the distal end 21 of the cooling water discharge pipe 20, and from an end of the introduction portion 231. And a fixing part 233 provided at a position rotated by a predetermined angle with respect to the central axis of the coolant discharge pipe 20, and a connecting part 232 connecting the end of the introduction part 231 and the fixing part 233. .

Here, both ends of the connection portion 232 connecting the end portion of the introduction portion 231 and the fixing portion 233 have a coolant discharge pipe (an end portion connected to the fixing portion 233 side) than an end portion connected to the end portion of the introduction portion 231. It is preferable to position further away from the tip 21 of 20). That is, as shown in FIG. 4, the distance B from the end connected to the fixed part 233 to the tip 21 of the discharge pipe 20 is discharged from the end connected to the end of the inlet 231. It is preferable to make it larger than the distance A to the tip 21 of. Reference numeral 42 is a handle provided to easily rotate the drain plug 40 in the cooling water discharge pipe 20.

Radiator cooling water discharge pipe sealing device according to the present invention of this configuration is characterized in that the coupling structure of the cooling water discharge pipe 20 and the drain plug 40, in terms of the basic function is almost the same as the basic function of the conventional cooling water discharge pipe sealing device described above. Since it is the same, only the coupling structure and the effects thereof will be described.

First, as shown in FIG. 3, when the drain plug 40 is coupled to the coolant discharge pipe 20 while the drain plug 40 is separated from the coolant discharge pipe 20, the drain plug 40 may be used. The drain plug 40 is inserted into the coolant discharge pipe 20 so that the catching protrusion 41 formed on the outer circumferential surface of the coolant discharge pipe 20 enters the main body 2 side along the inlet 231 of the catchment protrusion receiving part 23 of the coolant discharge pipe 20. do. In this way, when the drain plug 40 reaches the end of the inlet 231 while the locking protrusion 41 of the drain plug 40 is inserted into the cooling water discharge pipe 20, the locking protrusion 41 connects the connection portion 232. Rotating the drain plug 40 to move along. At this time, the end connected to the fixing portion 233 side of the connecting portion 232 is located farther from the tip 21 of the coolant discharge pipe 20 than the end connected to the end of the introduction portion 231, the drain plug 40 is At the same time as it is rotated, it enters the radiator body 2 side. In this way, the drain plug 40 comes into contact with the sealing member 30 in the cooling water discharge pipe 20 while being rotated, and presses the sealing member 30 at the time when the rotation is completed to seat the cooling water discharge pipe 20. It comes in close contact with the portion 22. On the other hand, when the drain plug 40 is inserted into the cooling water discharge pipe 20 and rotated by a predetermined angle, the locking protrusion 41 of the drain plug 40, which has been moved along the connecting portion 232, as shown in FIG. And arrive at the fixing portion 233 provided at the end of the connecting portion 232 to be seated on the fixing portion 233. At this time, the sealing member 30 press-contacted to the seating portion 22 of the cooling water discharge pipe 20 seals the cooling water discharge pipe 20, and the drain plug 40 is restored by the restoring force of the sealing member 30. ) Is applied to the direction away from the radiator body 2 along the longitudinal direction of the cooling water discharge pipe (20). Therefore, since the friction force is generated between the locking projection 41 and the fixing portion 233, the drain plug 40 is prevented from rotating back. Accordingly, the drain plug 40 is fixedly coupled to the cooling water discharge pipe 20 in a state in which the sealing member 30 inside the cooling water discharge pipe 20 is in close contact with the seating part 22. In this state, when the coolant circulates in the radiator body 2 and performs heat exchange, the sealing member 30 prevents the coolant from leaking to the outside through the coolant discharge pipe 20 inside the body 2.

As can be seen from the above, in the radiator cooling water discharge pipe sealing device according to the present invention, the fixing portion 41 is seated (41) of the drain plug 40 from the front end 21 of the cooling water discharge pipe 20 ( Since the distance B to 233 is constant, the force for pressing and sealing the sealing member 30 to the seating portion 22 in the cooling water discharge pipe 20 becomes constant. Therefore, if the distance from the tip 21 of the cooling water discharge pipe 20 to the fixing portion 233 on which the locking projection 41 of the drain plug 40 is seated is set to an appropriate value, the drain plug 40 It is possible to prevent breakage of the drain plug 40 or the sealing member 30 due to the excessive force is applied at the time of coupling. In addition, it is possible to prevent the leakage of the cooling water due to the small adhesion of the sealing member 30 in close contact with the seating portion 220 in the cooling water discharge pipe 20.

On the other hand, when exchanging the coolant, the external force of a size that can overcome the friction force generated between the fixing portion 233 of the cooling water discharge pipe 20 and the locking projection 41 by the restoring force of the sealing member (30). To reverse rotation of the drain plug 40. Accordingly, the locking protrusion 41, which has been seated and fixed to the fixing part 233 of the discharge pipe, moves along the connection part 232. When the locking protrusion 41 is positioned at the end of the inlet 231 while the drain plug 40 is being rotated as described above, the drain plug 40 is moved toward the radiator body 2 along the longitudinal direction of the cooling water discharge pipe 20. Separate in the direction away. At this time, the catching protrusion 41 moves along the inlet 231 and leaves the inlet 231, and the drain plug 40 is released from the cooling water discharge pipe 20 as shown in FIG. 3. . In this process, the sealing member 30 is separated from the seating part 22 of the cooling water discharge pipe 20 to open the cooling water discharge pipe 20, and thus the cooling water inside the radiator body 2 is opened in the cooling water discharge pipe 20. ) Can be discharged to the outside.

Therefore, in the cooling water discharge pipe sealing device of the radiator according to the present invention, unlike the conventional sealing device that coupled and separated the drain plug and the cooling water discharge pipe by screwing and loosening, the cooling water discharge pipe 20 and the drain plug 40 The joining and separating work is easy, accurate and can be done in a short time.

In FIG. 3, the locking protrusion receiving part 23 of the coolant discharge pipe 20 is illustrated as a channel formed by cutting a part of the coolant discharge pipe 20, but as shown in FIG. A locking projection accommodating part 23 having an introduction part 231, a connection part 232, and a fixing part 233 on the inner circumferential surface of the end portion may be provided in a groove shape.

In addition, for example, as shown in FIG. 7, the engaging protrusion accommodating part 23 is formed in the groove shape of only the introduction part 231, and the connection part 231 and the fixing part 233 are the body of the cooling water discharge pipe 20. The locking projection receiving portion can be formed in various forms such as a channel portion of which is cut out or vice versa.

As shown in FIG. 8, when the locking jaw 234 is formed between the fixing part 233 of the locking protrusion accommodating part 23 and the connection part 232, the locking jaw 234 is fixed to the fixing part 233. As the locking protrusion 41 of the drain plug 40 is moved toward the connecting portion, it is possible to more effectively prevent the drain plug 40 from rotating backward. In this embodiment, when the drain plug 40 coupled to the cooling water discharge pipe 20 is to be separated, the drain plug 40 is pushed toward the radiator body 2 and advanced by the height of the locking step 234. Rotate afterwards. Accordingly, the catching protrusion 41 seated on the fixing part 233 moves out of the catching jaw 234 to the connecting part 232, and the drain plug 40 passes through the same process as described above to the cooling water discharge pipe 20. ).

As described above, the radiator discharge pipe sealing device according to the present invention, the coupling structure between the components is not only simple, easy to combine and detach, can be made reliably, but also reliably prevent the leakage of coolant inside the radiator body It is possible to suppress the excessive external force acting on the sealing member or the drain plug at the time of engagement.

Claims (3)

(Correct) Sealing the cooling water discharge pipe provided for discharging the cooling water inside the radiator to the outside, the sealing member mounted inside the cooling water discharge pipe, and enters from the end of the cooling water discharge pipe to enter the sealing member to the cooling water A radiator cooling water discharge pipe sealing device having a drain plug that prevents leakage of cooling water inside a radiator by being in close contact with one side of a discharge pipe, wherein the drain plug is provided with a locking protrusion protruding from an outer circumferential surface thereof, and the drain plug is provided at an end of the cooling water discharge pipe. A locking projection receiving portion is provided to receive the locking projection of the plug, and the locking projection receiving portion has an introduction portion formed along the longitudinal direction of the cooling water discharge pipe from the tip of the cooling water discharge pipe, and a central axis of the cooling water discharge pipe from the end of the introduction portion. And a fixing part provided at a position rotated by a predetermined angle, a connecting part connecting the end of the introduction part and the fixing part, and the locking part to suppress movement of the locking protrusion accommodated in the fixing part toward the connection part side. Cooling water discharge pipe sealing device of the radiator, characterized in that provided with a locking step formed between the connecting portion. (delete) (delete)