KR20160120946A - Cooling water tank for cooling device - Google Patents

Abstract

The present invention relates to a cooling water tank for a cooling device. The cooling water tank for a cooling device comprises: a water storage tank (100) connected to one side of a radiator by a connection hose and storing cooling water supplied to the radiator; and a cap assembly (200) opening and closing the water storage tank (100). The cap assembly (200) is integrated with a gauge (270) measuring a water level of the cooling water. According to the present invention, the cooling water is automatically supplied or discharged in accordance with internal pressure of the radiator, and a remaining amount of the cooling water is easily checked to provide user convenience.

Description

Technical Field The present invention relates to a cooling water tank for a cooling apparatus,

The present invention relates to a cooling water tank for a cooling device, and more particularly to a cooling water tank for a cooling device capable of checking the remaining amount of cooling water.

When the heat generated when the engine is running in the vehicle is conducted to the cylinder head, the piston, the valve, etc., the temperature of the component to which the heat is conducted excessively increases, and the component strength may decrease due to thermal expansion or deterioration. As a result, the life of the engine may be shortened, and the combustion state may be deteriorated to cause knocking, early ignition, etc., and the output of the engine may be lowered.

In addition, when the engine is cooled insufficiently, the lubricating function of the oil film on the inner circumferential surface of the cylinder may be lost, and the engine oil may be deformed and abnormal wear of the cylinder may occur. As a result, the piston may be welded to the inner wall surface of the cylinder.

In order to solve such a problem, a water-cooled cooling apparatus is usually applied.

The water-cooled type cooling device circulates the cooling water through a water pump to circulate the cylinder block and the cylinder head to cool engine parts, and a radiator, a cooling fan, a water temperature controller, and the like may be provided to dissipate and reuse the cooling water.

In the radiator, the volume of the cooling water changes due to the temperature change due to the flow of the cooling water, so that the internal pressure excessively increases or there is not enough cooling water to cool the engine.

Therefore, a separate reservoir tank is connected for smooth supply of cooling water, and an example of a reservoir tank is disclosed in Korean Patent Publication No. 2015-0017401.

However, such a conventional reservoir tank is inconvenient because there is no way to measure the water level in the reservoir tank and there is no way to know if there is no sufficient cooling water in the reservoir tank.

Korean Patent Publication No. 2015-0017401 (published on February 27, 2015)

An object of the present invention is to provide a cooling water tank for a cooling device which can confirm the remaining amount of cooling water.

In order to achieve the above object, a cooling water tank for a cooling device according to the present invention includes a water storage tank (100) connected to one side of a radiator by a connection hose and storing cooling water supplied to the radiator, And a cap assembly 200 for opening and closing the cap assembly 200. The cap assembly 200 is integrally formed with a gauge 270 for measuring the level of the cooling water.

The cap assembly 200 includes a cap 210 coupled to a cooling water inlet 110 of the water storage tank 100 and a cylindrical cap connecting portion connected to a lower portion of the cap 210 and communicating with the cap 210. [ 230 and a valve assembly coupled to a lower end of the cap connection part 230. [

The cap connection part 230 has a lower end part closed and a closed end part 232 protruding inward to form a hollow support protrusion 232.

The cap connecting part 230 includes a valve inserting part 230b which is formed by being recessed from the outer circumferential surface of the lower end part and into which the valve assembly is inserted, a hook protruding from the outer circumferential surface of the hook inserting part 230b, (230a).

The valve assembly includes a cylindrical valve case 250 coupled to the valve inserting part 230b and the hook 230a and a valve case 250 inserted into the valve case 250 to open and close the hollow of the supporting step 232 And a gasket 296 interposed between the opening and closing part 294 and the end of the cap connecting part 230 and the opening and closing part 294 and watertightly sealed between the opening and closing part 294 and the supporting step 232.

The valve assembly is characterized in that a hook 250b inserted into the valve inserting portion 230b is protruded from the inner circumferential surface.

The valve assembly includes a spherical insertion protrusion 292 inserted into the supporting protrusion 232 and a protrusion supporting portion 293 protruding from a surface of the opening and closing portion 294 in a cylindrical shape and supporting the insertion protrusion 292 .

The insertion protrusion 292 includes an incision notch along the lengthwise direction of the protrusion supporting portion 293.

The insertion protrusion 292 is characterized in that the width of the incision groove is narrowed by an external force when the insertion protrusion 292 is inserted into the support step 232.

The opening state of the valve assembly may be such that the opening and closing part 294 and the gasket 296 are spaced apart from the end of the cap connecting part 230 in a state where the insertion protrusion 292 is retained by the supporting step 232 .

The valve assembly is in a closed state in which the opening and closing part 294 and the gasket 296 close the end of the cap connecting part 230. [

The closed state of the valve assembly is a state in which cooling water flows back from the radiator 10 and cooling water in the water storage tank 100 lifts the opening and closing part 294.

The valve case 250 covers part or all of the opening / closing part 294, the gasket 296, and the projection supporting part 293.

The valve case 250 may further include a cutout portion 250a having a portion of an outer circumferential surface thereof cut.

The cooling water tank for a cooling device according to an embodiment of the present invention is advantageous in that the cooling water is automatically supplied or drained according to the pressure inside the radiator and the remaining amount of the cooling water can be easily checked.

1 is a view showing an installation state of a cooling water tank for a cooling device according to an embodiment of the present invention,
FIG. 2 is a view showing a cap and valve structure according to the cooling water tank of FIG. 1;
3 shows a main part of the valve according to the cooling water tank of Fig. 1, Fig.
FIG. 4 is a view showing an open state of a valve according to the cooling water tank of FIG. 1;
FIG. 5 is a view showing a closed state of a valve according to the cooling water tank of FIG. 1;
6 is a view showing a cooling water tank for a cooling device according to another embodiment of the present invention.

Hereinafter, a cooling water tank for a cooling device according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a view showing a state in which a cooling water tank for a cooling device according to an embodiment of the present invention is installed, FIG. 2 is a view showing a cap and a valve structure according to the cooling water tank in FIG. 1, Fig. 3 is a view showing a main part of a valve according to a cooling water tank of Fig.

1 to 3, a cooling water tank for a cooling apparatus according to an embodiment of the present invention is installed integrally or separately in the radiator 10, which is one of the structures of the water-cooled cooling apparatus. The cooling water tank is connected to one side of the header of the radiator 10 by the connection hose 30 to supply the cooling water to the radiator 10 or the cooling water to be drained from the radiator 10.

The cooling water tank is mainly composed of a water storage tank 100 for storing cooling water and a cap assembly 200 for opening and closing the water storage tank 100. The cap assembly 200 includes a cap 210 inserted into the cooling water inlet 110, a cap connection 230 connected to the cap 210, a valve assembly coupled to the cap connection 230, And a gauge 270 for measuring the temperature of the gas. A connecting hose (30) is coupled to one side of the water storage tank (100).

The cap 210 is coupled to a cooling water inlet 110 provided at the upper end of the water storage tank 100 and a cap connecting portion 230 is provided at a lower portion of the cap 210. When the cap 210 is opened, a hollow is formed and communicated with the cap connecting part 230.

The cap connecting portion 230 is coupled at one end to the cap 210 and at the other end to the valve assembly. A valve inserting portion 230b is formed at the other end of the cap connecting portion 230 so as to engage with the valve assembly when the valve assembly is coupled. A hook 230a is formed on the upper side of the cap connecting part 230 spaced apart from the valve inserting part 230b by a predetermined distance from the outer circumferential surface.

In addition, the end of the cap connecting part 230 is closed in the form of a disk, and is provided with a cylindrical supporting protrusion 232 which protrudes inward and has a hollow shape. An insertion protrusion 292 of a valve assembly to be described later is inserted into the support jaw 232.

The valve assembly includes a valve case 250 coupled to the cap connection portion 230 and a valve 290 installed inside the valve case 250 to open and close the support protrusion 232. The valve 290 is composed of an opening / closing part 294, a protrusion supporting part 293 and an insertion protrusion 292. Further, a gasket 296, which is water tight, is additionally provided between the opening and closing part 294 and the supporting step 232.

The valve case 250 has a cylindrical shape and is coupled to the outside of the end portion of the cap connection portion 230 in such a manner as to surround the end portion of the cap connection portion 230. On the inner circumferential surface of the valve case 250, a hook 250b which is engaged with the valve inserting portion 230b is protruded toward the valve inserting portion 230b. The upper end of the valve case 250 is supported by the hook 230a of the cap coupling part 230 and is coupled with the cap coupling part 230 while being inserted into the valve insertion part 230b. Since the opening and closing part 294 and the gauge 270 are inserted into the valve case 250, it is possible to provide a working space in which the valve can operate stably regardless of the flow of the cooling water.

On the outer circumferential surface of the valve case 250, a cutout portion 250a having a part of an outer circumferential surface is provided, and the periphery of the cutout portion 250a is opened. Since the periphery of the incision part 250a is opened, when the water level rises in a state where the valve assembly is inserted into the water storage tank 100, the cooling water flows into the valve case 250 through the open part of the incision part 250a (This will be described later).

The opening and closing part 294 is in the form of a disk having a predetermined thickness, and the projection supporting part 293 protrudes upward in the center of the disk.

The protrusion supporting portion 293 has a cylindrical shape and is integrally formed with the opening and closing portion 294. [ An insertion protrusion 292 is integrally formed at an end of the protrusion supporting portion 293. It is preferable that the protrusion supporting portion 293 has a length such that the gasket 296 and the opening and closing portion 294 can be separated from the end portion of the cap connecting portion 230 in a state where the insertion protrusion 292 is caught by the support protrusion 232 Do.

The insertion protrusion 292 is spherical and a cutout groove is formed in the center of the insertion protrusion 292 along the longitudinal direction of the protrusion supporting portion 293. The opening 294 can be assembled by inserting the insertion protrusion 292 into the supporting protrusion 232 when the opening and closing part 294 is assembled as the insertion protrusion 292 can be deformed toward the incision groove by the incision groove. Therefore, it is preferable that the diameter of the support jaw 232 is formed to a diameter enough for the insertion protrusion 292 to pass through.

The gasket 296 has a ring shape and is inserted into the protrusion supporting portion 293 of the opening and closing portion 294 and seated on the upper portion of the opening and closing portion 294. That is, the gasket 296 is disposed between the end of the cap connection part 230 and the opening / closing part 294 in a state where the insertion protrusion 292 is inserted into the support step 232. The gasket 296 is watertight between the opening 294 and the end of the cap connection 230 at the closed position of the valve.

The gauge 270 is integrally formed at the lower portion of the valve case 250 and has a plurality of graduations engraved to indicate the water level of the cooling water.

As described above, since the cap-cap connection portion and the valve assembly are coupled to each other to form a cap assembly, which is one unit, assembly can be completed by inserting the cap assembly into the cooling water tank. Therefore, the package structure of the cooling water tank is easy, and the size of the cap assembly can be reduced since it is not necessary to provide a separate cooling water gauge. In addition, since the opening and closing part is protected by the valve case, the flow of the valve due to the flow of the cooling water is reduced, and the valve can be stably opened and closed.

The operation of driving the valve will be described in more detail with reference to FIGS. 4 and 5. FIG.

FIG. 4 is a view showing an open state of the valve according to the cooling water tank of FIG. 1, and FIG. 5 is a view illustrating a closed state of the valve according to the cooling water tank of FIG.

The cooling water is increased in volume by about 3% or more according to the temperature. In the environment where the engine is turned to a high temperature state and the starting is turned off, boiling noise (boiling noise ).

The cooling water is drained to the cooling water tank as described above in order to prevent the internal pressure of the radiator 10 from being excessively increased when the temperature inside the radiator 10 is excessively increased to increase the volume. The cooling water is automatically backwardly drained toward the cooling water tank, which is relatively low in pressure as compared with the radiator 10.

The cooling water tank is filled with a predetermined amount of cooling water. In this state, the valve assembly is in a state where the insertion protrusion 292 is caught by the support protrusion 232. At this time, the opening / closing part 294 and the gasket 296 are spaced apart from the end of the cap connecting part 230, and this state is defined as the open state of the valve 290.

As shown in FIG. 4, when the high temperature cooling water flows backward from the radiator 10 and the water level of the cooling water tank rises, the cooling water overflows to the lower side of the cutout portion 250a. The cooling water flows into the lower side of the incision part 250a and the water pressure moves the opening and closing part 294 toward the end of the cap connection part 230. [ The gasket 296 and the opening and closing part 294 close the end of the cap connecting part 230. This state is referred to as the closing state of the valve 290 , Which is shown in FIG.

Since the volume of the water storage tank 100 is limited because the water surface of the cooling water in the water storage tank 100 rises but the valve is closed, the pressure inside the water storage tank 100 gradually increases due to the rise of the water surface. When the pressure inside the water storage tank 100 increases, the inflow noise generated when the cooling water flows into the water storage tank 100 can be minimized.

In the above embodiment, the cooling water tank is provided separately from the radiator. However, the cooling water tank may be coupled to one side of the radiator (the same reference numerals will be used for the same components as those in the above- Detailed description thereof will be omitted).

6 is a view showing a cooling water tank for a cooling device according to another embodiment of the present invention.

6, a cooling water tank for a cooling device according to another embodiment of the present invention includes a water storage tank 100 'and a cap assembly 200, and is detachably coupled to one side of the radiator 10 . At this time, the connection hose 30 may be fixed along one side of the water storage tank 100 of the cooling water tank so as not to interfere with peripheral components.

Although the gauges capable of measuring the water level of the cooling water have been described in the above embodiments, the water level sensor may be provided to determine the water level of the cooling water.

Alternatively, a scale may be displayed on the outside of the water storage tank without a separate gauge or sensor, and the water level of the cooling water may be determined on the outside of the water storage tank by applying a material that can show the inside to the scale portion.

One embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical spirit of the present invention in various forms. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10: Radiator 100, 100 ': Water tank
200: cap assembly 210: cap
230: cap connecting part 250: valve case
294: opening and closing part 296: gasket

Claims (14)

A water storage tank (100) connected to one side of the radiator by a connection hose and storing the cooling water supplied to the radiator,
And a cap assembly (200) for opening and closing the water storage tank (100)
Wherein the cap assembly (200) is integrally formed with a gauge (270) for measuring the level of the cooling water. The method according to claim 1,
The cap assembly 200 includes a cap 210 coupled to a cooling water inlet 110 of the water storage tank 100 and a cylindrical cap connecting portion connected to a lower portion of the cap 210 and communicating with the cap 210. [ And a valve assembly coupled to a lower end of the cap connection part. 3. The method of claim 2,
Wherein the cap connection part (230) has a lower end part closed, and the closed end part protrudes inward to have a hollow support step (232). The method of claim 3,
The cap connecting part 230 includes a valve inserting part 230b which is formed by being recessed from the outer circumferential surface of the lower end part and into which the valve assembly is inserted, a hook protruding from the outer circumferential surface of the hook inserting part 230b, (230a). ≪ / RTI > 5. The method of claim 4,
The valve assembly includes a cylindrical valve case 250 coupled to the valve inserting part 230b and the hook 230a and a valve case 250 inserted into the valve case 250 to open and close the hollow of the supporting step 232 And a gasket 296 inserted between the opening and closing part 294 and the end of the cap connecting part 230 and the opening and closing part 294 to seal the space between the opening and closing part 294 and the supporting step 232. [ Cooling water tank. 6. The method of claim 5,
Wherein the valve assembly has a hook (250b) inserted into the valve insertion portion (230b) protruded from an inner peripheral surface thereof. 6. The method of claim 5,
The valve assembly includes a spherical insertion protrusion 292 inserted into the supporting protrusion 232 and a protrusion supporting portion 293 protruding from a surface of the opening and closing portion 294 in a cylindrical shape and supporting the insertion protrusion 292 Further comprising a cooling water tank for a cooling device. 8. The method of claim 7,
Wherein the insertion protrusion (292) includes a cutout groove cut along a longitudinal direction of the projection supporting portion (293). 9. The method of claim 8,
Wherein a width of the incision groove is narrowed by an external force when the insertion protrusion (292) is inserted into the support step (232). 8. The method of claim 7,
The opening state of the valve assembly may be such that the opening and closing part 294 and the gasket 296 are spaced apart from the end of the cap connecting part 230 in a state where the insertion protrusion 292 is retained by the supporting step 232 And a cooling water tank for cooling the cooling water. 8. The method of claim 7,
Wherein the closed state of the valve assembly is a state in which the opening and closing part (294) and the gasket (296) close the end of the cap connecting part (230). 12. The method of claim 11,
Wherein the closed state of the valve assembly is a state in which cooling water flows back from the radiator (10) and cooling water in the water storage tank (100) lifts the opening / closing part (294). 12. The method of claim 11,
Wherein the valve case (250) covers part or all of the opening / closing part (294), the gasket (296), and the projection supporting part (293). 14. The method of claim 13,
Wherein the valve case (250) further includes a cut-out portion (250a) having a part of an outer circumferential surface thereof cut out.

Images