KR101482714B1 - Oil cooler - Google Patents

Abstract

The present invention relates to an oil cooler with a novel structure, which can easily check the flow status of cooling water. The oil cooler according to the present invention is installed in a circulation pipe (30), and has a flow check instrument (50) indicating the flow of cooling water circulating through the circulation pipe (30). The flow check instrument (50) comprises a main body (51) having a space (51a) therein and an opening (51b) on one side; an impeller (52) combined within the main body to be rotatable; a cover (53) made of a translucent material and combined to the opening (51b) to seal the opening (51b), so that an operator can easily check the flow status of cooling water flowing through the circulation pipe (30) by checking the rotation status of the impeller (52).

Description

Oil cooler

The present invention relates to a new structure of an oil cooler for easily confirming a flow state of cooling water.

In general, an injection apparatus for injection-molding a synthetic resin product may cause a defective product to be injected if the temperature of the mold is excessively increased.

1, a cooling passage 2 is formed in the mold 1 of the injection apparatus, and an oil cooler 2 for circulating oil in the cooling passage 2 to cool the metal mold 1, So that the mold 1 is kept at a constant temperature.

More specifically, the oil cooler is connected to the cooling passage 2 through the first and second connection pipes 11 and 12, passes through the cooling passage 2, exchanges heat between the heated oil and the cooling water, And a radiator 40 connected to the heat exchanger 20 via a circulation pipe 30 and cooling the heated cooling water by heat exchange with oil in the heat exchanger 20 .

The heat exchanger 20 is formed in a cylindrical shape of a metal material and has a heat exchange tank 21 in which the first and second connection pipes 11 and 12 are connected to each other, And a heat exchange tube (22) having both ends extended to the outside of the heat exchange tank (21).

The first and second connection pipes 11 and 12 are connected to the inlet and the outlet of the cooling passage 2 of the mold 1 and the oil circulation pump 13 is connected to the connection pipes 11 and 12, The oil discharged through the outlet of the cooling passage 2 is circulated through the first connection pipe 11 to the heat exchange tank 21 of the heat exchanger 20 and the heat exchange tank 21 So that the oil passed therethrough is circulated through the second connection pipe (12) to the inlet of the cooling passage (2).

The circulation pipe (30) is connected to both ends of a heat exchange pipe (22) having both ends extended to the outside of the heat exchange tank (21).

The radiator 40 includes a radiator main body 41 connected to a middle portion of the circulation pipe 30 and a radiator fan 42 disposed at one side of the radiator main body 41 to blow air to the radiator main body 41 ).

The cooling water circulation pump 31 is disposed in the middle of the circulation pipe 30 so that the cooling water in the heat exchange pipe 22 is circulated to the heat exchange pipe 22 after passing through the radiator 40 do.

Therefore, when the oil circulation pump 13 and the cooling water circulation pump 31 are driven respectively, the oil that has passed through the cooling passage 2 of the mold 1 flows through the first connection pipe 11 to the heat exchanger 20 and then cooled with heat exchange with the cooling water passing through the heat exchange pipe 22. The oil thus cooled is circulated through the second connection pipe 12 to the cooling passage 2, (1) is cooled.

The cooling water in the heat exchange pipe 22 heated and heat-exchanged with the oil is supplied to the radiator 40 through the circulation pipe 30 to be cooled and then circulated to the heat exchange pipe 22, By repeatedly exchanging heat with the oil, the oil and the mold 1 can be cooled to an appropriate temperature.

In order for the oil cooler to function properly, cooling water must be continuously supplied to the heat exchanger 20 through the circulation pipe 30.

However, when the oil cooler is used for a long period of time, the coolant circulation pump 31 may fail, or cooling water may be circulated through the circulation pipe 30 or the heat exchange pipe 22, It is often not possible to circulate smoothly.

If an abnormality occurs in the flow of the cooling water flowing through the circulation pipe 30 as described above, it is important for the operator to quickly check the flow of the cooling water flowing through the circulation pipe 30. Until now, There is a problem that an appropriate method for quickly confirming the occurrence is not provided.

 These problems are caused not only in the oil cooler connected to the mold 1 but also in all kinds of oil coolers for circulating the oil to the heat generating object to cool the object to an appropriate temperature.

Therefore, there is a need for a new method to solve such a problem.

Public utility model 20-1998-051229 Patent Document 10-2009-0126437

SUMMARY OF THE INVENTION It is an object of the present invention to provide an oil cooler of a new structure which can easily confirm the flow state of cooling water.

According to an aspect of the present invention, there is provided a heat exchanger for exchanging heat between a heated oil and cooling water while being connected to an object through which heat is generated through first and second connection pipes (11, 12) And a radiator (40) connected to the heat exchanger (20) through a circulation pipe (30) and cooling the heated cooling water by heat exchange with oil in the heat exchanger (20) The flow check mechanism (50) further includes a flow check mechanism (50) provided in the circulation pipe (30) and indicating the flow of the cooling water circulated through the circulation pipe (30) A main body 51 formed with an opening 51b at one side thereof and an impeller 52 rotatably coupled to the inside of the main body 51; And a cover 53 for sealing the opening 51b, A communicating hole 51c communicating with the space portion 51a and connected to the circulation pipe 30 is formed on the front and rear surfaces of the impeller 51. One side of the impeller 52 is surrounded by the opening 51b The oil cooler is coupled to the outside of the main body 51 through a cover 53 and a recess 53b into which the periphery of the impeller 52 is inserted is formed inside the cover 53. [

According to another aspect of the present invention, the oil cooler further comprises a cleaning liquid supply means (60) connected to the circulation pipe (30) for supplying a cleaning liquid for removing scale to the circulation pipe (30) / RTI >

According to another aspect of the present invention, the impeller 52 includes a rotation shaft 52a disposed to extend in a direction intersecting the flow direction of the cooling water flowing through the communication hole 51c, And an insertion groove 51d into which both ends of the rotation shaft 52a are inserted is formed at both sides of the space portion 51a of the main body 51 in the opening 51b The insertion groove 51d is extended to extend along the insertion groove 51d and the inner end of the insertion hole 51d is provided with an elastic fixing piece 51e which is bent so as to be inclined in mutually adjacent directions. 52 are supported so that both ends of the rotary shaft 52a of the oil pan 52 do not fall outward by the elastic fixing piece 51e.

According to another aspect of the present invention, the impeller 52 is formed of a colored synthetic resin material, which is in contrast to the main body 51, or is painted on the surface of the main body 51 in contrast to the main body 51 An oil cooler is provided.

According to another aspect of the present invention, there is provided an oil cooler, wherein the impeller (52) is made of a light-reflecting material or a surface is coated with a luminous paint.

According to another aspect of the present invention, the impeller 52 includes a rotation shaft 52a disposed to extend in a direction intersecting the flow direction of the cooling water flowing through the communication hole 51c, A magnet member 54 provided in the main body 51 and a power generating coil 55 provided at the outer end of the blade 52b and a plurality of blades 52b extending in the radial direction from the main body 51. [ And a light emitting means 56 provided on a peripheral surface of the rotary shaft 52a and connected to the electric power generating coil 55. When the impeller 52 is rotated, (52a), thereby generating electricity, thereby causing the light emitting means (56) to flicker.

A drain pipe 32 connected to the circulation pipe 30 and being opened and closed by a valve 32a and a drain pipe 32 connected to the circulation pipe 30 so as to be positioned behind the connection site of the drain pipe 32. [ A water supply pipe 33 connected to the circulation pipe 30 and connected to the circulation pipe 30 and opened and closed by a valve 33a to supply cooling water to the circulation pipe 30, And an auxiliary valve (34) provided at an intermediate portion of the circulation pipe (30) for opening and closing the circulation pipe (30).

The oil cooler according to the present invention is provided with a flow check mechanism 50 provided in the circulation pipe 30 for indicating the flow of cooling water circulated through the circulation pipe 30, An impeller 52 rotatably coupled to the inside of the main body 51 and an opening 51b formed in the opening 51b. The main body 51 has a space 51a and an opening 51b at one side thereof. The operator can confirm the rotation state of the impeller 52 and easily check the flow of the cooling water flowing through the circulation pipe 30 by checking the operation state of the impeller 52, There are advantages.

1 is a schematic view showing a conventional oil cooler,
FIG. 2 is a schematic view showing an oil cooler according to the present invention,
3 is a perspective view showing a flow check mechanism of the oil cooler according to the present invention,
4 is a side cross-sectional view showing a flow check mechanism of the oil cooler according to the present invention,
5 is a side sectional exploded view showing a flow check mechanism of an oil cooler according to the present invention,
6 is a front sectional view showing a flow check mechanism of the oil cooler according to the present invention,
FIG. 7 is a front sectional view illustrating an oil cooler flow check mechanism according to the present invention, FIG.
8 and 9 are views for explaining the operation of the oil cooler according to the present invention,
10 is a reference view showing a second embodiment of the oil cooler according to the present invention.

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

2 to 9 illustrate an oil cooler according to the present invention, which is connected to a mold 1 of an injection apparatus to cool the mold 1 to a predetermined temperature.

At this time, a cooling passage (2) is formed in the mold (1).

The oil cooler is connected to the cooling passage (2) of the mold (1) through the first and second connecting pipes (11, 12) and performs heat exchange between the heated oil and the cooling water while passing through the cooling passage A radiator 40 connected to the heat exchanger 20 via the circulation pipe 30 to cool the heated cooling water by heat exchange with the oil in the heat exchanger 20, Is the same as that of the conventional oil cooler.

The heat exchanger 20 is formed in a cylindrical shape of a metal material and has a heat exchange tank 21 in which the first and second connection pipes 11 and 12 are connected to each other, And a heat exchange pipe (22) provided at both ends of the heat exchange tank (21) and extending to the outside of the heat exchange tank (21) and connected to the circulation pipe (30).

According to the present invention, the circulation pipe 30 is provided with a flow check mechanism 50 for indicating the flow of the cooling water circulated through the circulation pipe 30, a circulation pipe 30 for removing the scale, And a cleaning liquid supply unit 60 for supplying the cleaning liquid to the cleaning unit.

3 to 7, the flow check mechanism 50 includes a main body 51 having a space portion 51a formed therein and an opening portion 51b formed at one side thereof, An impeller 52 rotatably coupled to the inside of the opening 51 and a lid 53 made of a translucent material and coupled to the opening 51b to seal the opening 51b.

The main body 51 is formed in a rectangular box shape made of a metal material or a synthetic resin having high strength. The opening 51b is formed on the upper surface, Is formed in the through-hole 51c.

The impeller 52 includes a rotation shaft 52a extending in a direction intersecting the flow direction of the cooling water flowing through the communication hole 51c and a plurality of radially extending portions 52b extending in the radial direction from the circumferential surface of the rotation shaft 52a. And a blade 52b. The rotary shaft 52a is rotatably coupled to both sides of the interior of the space 51a of the main body 51.

For this, an insertion groove 51d into which both ends of the rotary shaft 52a are inserted is opened to both sides of the space portion 51a of the main body 51 so as to open toward the opening 51b, and the insertion groove 51d And an elastic fixing piece 51e for supporting the rotation shaft 52a coupled to the insertion groove 51d so as not to come out.

6 and 7, the elastic fixing piece 51e is composed of an elastic metal plate or a synthetic resin plate configured to extend along the insertion groove 51d. The upper end of the elastic fixing piece 51e is inserted into the insertion groove 51d, And the lower end is bent at an adjacent end, that is, toward the impeller 52, so that the lower end can be elastically bent to the outside.

Therefore, when the end of the rotation shaft 52a is inserted into the insertion groove 51d at the upper end of the insertion groove 51d, the lower end of the elastic fixing piece 51e is elastically bent outwardly and the rotation shaft 52a The lower end of the elastic fixing piece 51e is resiliently resiliently urged in the adjacent direction to cover the upper circumferential portion of the rotary shaft 52a so that the rotary shaft 52a is fixed so as not to fall upward.

At this time, the depth of the insertion groove 51d is set to be lower than 1/2 of the diameter of the impeller 52. When the impeller 52 is coupled to the insertion groove 51d, (51b) to the upper portion of the main body (51).

Preferably, the length of the impeller 52 exposed from the periphery of the impeller 52 to the upper portion of the main body 51 is about 1/3 of the diameter of the impeller 52.

The impeller 52 may be made of a colored synthetic resin material as compared with the main body 51, or may be coated with a color paint comparable to the main body 51 on the surface thereof.

Preferably, the impeller 52 may be manufactured by injection molding a red synthetic resin having excellent visibility.

The lid 53 is made of a transparent synthetic resin material such as PC or the like and has a arc shaped lid 53a formed on a lower side thereof with a recess 53b into which the periphery of the impeller 52 is inserted, And is fixed to cover the opening 51b of the main body 51 by a screw 53d passing through the fixing portion 53c .

Therefore, when the communication hole 51c of the main body 51 is connected to the middle portion of the circulation pipe 30, the cooling water circulated through the circulation pipe 30 flows into the space 51a of the main body 51 The impeller 52 is rotated by the cooling water as shown in FIG. 4, so that the operator visually confirms the rotation state of the impeller 52 through the cover 53 The flow rate of the cooling water flowing through the circulation pipe 30 can be roughly confirmed.

The cleaning liquid supply unit 60 includes a storage tank 61 connected to the circulation pipe 30 through a supply pipe 62 and having a cleaning liquid stored therein and a supply pump 63 provided in the supply pipe 62 When the supply pump 63 is driven, the washing liquid stored in the storage tank 61 is supplied to the circulation pipe 30 and then supplied to the heat exchanger 20 along the circulation pipe 30 The scale accumulated in the circulation pipe 30 and the heat exchange pipe 22 of the heat exchanger 20 can be removed.

At this time, various kinds of cleaning liquids stored in the storage tank 61 are used, and a detailed description thereof will be omitted.

The middle portion of the circulation pipe 30 is connected to the circulation pipe 30 so as to be located behind the connection portion between the drain pipe 32 and the drain pipe 32 opened and closed by the valve 32a, And a water supply pipe 33 for supplying cooling water to the circulation pipe 30 is connected.

An auxiliary valve (34) for opening and closing the circulation pipe (30) is provided at an intermediate portion of the circulation pipe (30).

The auxiliary valve 34 is provided in the middle part of the circulation pipe 30 so as to be positioned between the connection part of the water discharge pipe 32 and the water supply pipe 33.

8, the cleaning liquid is supplied to the inside of the circulation pipe 30 by using the cleaning liquid supply means 60, so that the circulation pipe 30 and the heat exchanger 20 The auxiliary valve 34 is closed and the valves 32a and 33a are opened as shown in FIG. 9 so that the inside of the circulation pipe 30 is opened through the water supply pipe 33, And the cooling water in the circulation pipe 30 and the heat exchanger 20 is discharged to the outside through the drain pipe 32 so that the circulation pipe 30 and the scale inside the heat exchanger 20 Can be removed.

The oil cooler thus constructed is provided with a flow check mechanism 50 provided in the circulation pipe 30 for indicating the flow of the cooling water circulated through the circulation pipe 30, A body 51 formed with a space 51a and an opening 51b formed at one side thereof, an impeller 52 rotatably coupled to the inside of the body 51, and a light- The operator can confirm the rotation state of the impeller 52 and can easily confirm the flow of the cooling water flowing through the circulation pipe 30 .

The impeller 52 includes a rotation shaft 52a extending in a direction intersecting the direction of flow of the cooling water flowing through the communication hole 51c and a shaft 52b extending in the radial direction from the circumferential surface of the rotation shaft 52a An insertion groove 51d into which both ends of the rotary shaft 52a are inserted is extended to open to the opening 51b on both sides of the space 51a of the main body 51, The insertion groove 51d is fixed to extend along the insertion groove 51d and the inner end of the insertion groove 51d is provided with an elastic fixing piece 51e bent so as to be inclined toward the adjacent direction. The impeller 52 can be fixed to the inside of the main body 51 so as to be smoothly rotated by supporting both ends of the impeller 52 not to be pulled out by the elastic fixing piece 51e, It is very easy to assemble to the main body 51 There is an advantage.

Particularly, the impeller 52 is made of a colored synthetic resin material as compared with the main body 51, or the surface of the impeller 52 is coated with a colored paint contrasting with the main body 51, Can easily be visually confirmed.

A cleaning liquid supply means 60 for supplying a cleaning liquid for removing the scale is connected to the circulation pipe 30 so that a scale is accumulated inside the circulation pipe 30 or the heat exchanger 20, The scale can be easily removed by supplying the cleaning solution to the circulation pipe 30 and the heat exchanger 20 by using the cleaning solution supply means 60. [

The circulation pipe 30 is provided with a drain pipe 32 opened and closed by a valve 32a and a valve 33a connected to the circulation pipe 30 so as to be positioned behind the connection portion of the drain pipe 32. [ A water supply pipe 33 opened and closed by the circulation pipe 30 to supply cooling water to the circulation pipe 30 and a water supply pipe 33 provided at a middle portion of the circulation pipe 30 so as to be positioned between the connection pipe of the water discharge pipe 32 and the water supply pipe 33 An auxiliary valve 34 for opening and closing the circulation pipe 30 is provided to open the valves 32a and 33a while the auxiliary valve 34 is in a locked state to cool the cooling water contaminated by the scale removed by the cleaning liquid, Can be easily discharged to the outside.

In the present embodiment, the impeller 52 is formed of a colored synthetic resin material or coated with a colored paint on the surface thereof. However, the impeller 52 may be formed by coating a luminous paint, not a general paint, .

When the luminous paint is applied to the impeller 52 or the impeller 52 is made of a luminous material as described above, the impeller 52 emits light in a dark place, so that the rotation state of the impeller 52 can be confirmed more reliably .

That is, the flow check mechanism 50 is provided at a position where the periphery of the mold 1 is not visible, and when the impeller 52 is made of a colored synthetic resin material or when a colored paint is applied to the surface, The surroundings are dark and can not be seen easily.

However, if the luminous paint is applied to the impeller 52 or the impeller 52 is made of a light-emitting material, the rotational state of the impeller 52 can be more clearly seen, so that the operator can more accurately confirm the flow of the fluid do.

Further, in the present embodiment, the oil cooler connected to the mold and used for cooling the metal mold is exemplified. However, the oil cooler according to the present invention is not limited to the metal mold, but may be connected to various objects for generating heat, Can be used.

10 shows another embodiment according to the present invention in which the flow check mechanism 50 includes a magnet member 54 provided in the main body 51 and a plurality of blades 52b of the impeller 52, And a light emitting means 56 provided on the circumferential surface of the rotating shaft 52a of the impeller 52 and connected to the power generating coil 55.

At this time, the magnet member 54 uses a general permanent magnet and is disposed on the inner surface of the main body 51 so as to be close to the power generating coil 55.

The power generating coil 55 is provided at an outer end of a plurality of blades 52b provided in the impeller 52. When the impeller 52 is rotated, a magnetic field of the magnet member 54 is sequentially passed It is structured so as to develop intermittently.

The light emitting means 56 is an LED lamp which is fixed to the circumferential surface of the rotating shaft 52a and is emitted by the electric power outputted from the power generation coil 55. [ Here, a plurality of the light emitting units 56 may be arranged at regular intervals.

When the impeller 52 is rotated by the fluid passing through the pipe, electric power is intermittently generated in the electric power generating coil 55 and the light emitting means 56 is turned on.

Accordingly, even if the flow check mechanism 50 is installed in a dark place, the light emitting means 56 can emit light and the rotational state of the impeller 52 can be effectively checked.

Particularly, the power generating coil 55 is provided at an end of the blade 52b to generate electricity while intermittently passing the magnetic field of the magnet member 54 when the impeller 52 is rotated, The speed at which the impeller 52 is rotated can be more accurately confirmed because the speed at which the light emitting means 56 is turned on is increased in proportion to the speed at which the impeller 52 is rotated have.

11, 12. First and second connecting pipes 20. Heat exchanger
30. Circulation tube 40. Radiator
50. Flow check mechanism 60. Washing liquid supply means

Claims (7)

A heat exchanger 20 connected to an object through which the heat is generated through the first and second connection pipes 11 and 12 to cool the oil by exchanging heat between the heated oil and the cooling water while passing through the object;
A radiator (40) connected to the heat exchanger (20) through a circulation pipe (30) to cool the heated cooling water by heat exchange with oil in the heat exchanger (20);
A flow check mechanism 50 provided in the circulation pipe 30 for indicating the flow of the cooling water circulated through the circulation pipe 30;
A cleaning liquid supply means (60) connected to the circulation pipe (30) for supplying a cleaning liquid for removing scale to the circulation pipe (30);
A drain pipe (32) connected to the circulation pipe (30) and opened and closed by a valve (32a);
A water supply pipe 33 connected to the circulation pipe 30 so as to be positioned behind the connection part of the water discharge pipe 32 and opened and closed by a valve 33a to supply cooling water to the circulation pipe 30;
An auxiliary valve 34 provided at an intermediate portion of the circulation pipe 30 to open and close the circulation pipe 30 so as to be positioned between the discharge pipe 32 and the connection portion of the water supply pipe 33; , ≪ / RTI &
The flow check mechanism 50 has a space portion 51a formed therein and an opening portion 51b formed at one side thereof and communicating with the space portion 51a on the front and rear surfaces thereof, An impeller 52 rotatably coupled to the inside of the main body 51 and a lid 53 made of a translucent material and sealing the opening 51b, ,
The impeller 52 may be made of a colored synthetic resin material as compared with the main body 51 or may be coated with a color paint comparable to that of the main body 51 or may be made of a light- And is disposed so as to extend in a direction intersecting the flow direction of the cooling water flowing through the communication hole 51c and is rotatably coupled to the insertion groove 51d provided on both sides inside the space portion 51a of the main body 51 And a plurality of blades 52b extending in the radial direction from the circumferential surface of the rotating shaft 52a while the insertion groove 51d is extended and fixed along the insertion groove 51d The inner end of the impeller 52 is provided with an elastic fixing piece 51e bent so as to be inclined in mutually adjacent directions so that both ends of the rotating shaft 52a of the impeller 52 are supported by the elastic fixing piece 51e,
And the oil cooler. delete delete delete delete delete delete

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