KR101699695B1 - Oil Level Apparatus of Oil Tank for Compressor - Google Patents

Abstract

An oil level device of an oil tank for a compressor comprises: a float (10) which is installed in an oil tank (1) for storing oil supplied to a compressor and oil recovered from the compressor; a rotation plate (20), one side of which is attached to the float (10), which is rotated by the rising or falling of the oil level; an insertion portion (30) which is hinge-coupled to the other side of the rotation plate (30), is provided with a hollow portion (31) formed up and down therein, and is provided with an insertion pipe (32) at the upper portion thereof; an oil valve body (40) which includes an oil inlet portion (41) into which oil flows, an oil outlet portion (42) allowing the oil flowing from the oil inlet portion (41) to be discharged to the hollow portion (31) of the insertion portion (30), and a coupling portion (43) at the upper portion of the oil outlet portion (42); a closure portion (50) which is coupled to the rotation plate (20), closes the lower portion of the insertion portion (30) by rotation of the rotation plate (20) based on the rising oil level, and opens the lower portion of the insertion portion (30) by rotation of the rotation plate (20) caused by the float (10) based on a falling oil level; and an insertion portion position adjustment portion (60) which adjusts the height of the insertion portion (30) to adjust the position of the rotation plate (20) hinge-coupled to the insertion portion (30), thereby the position of the float (10) attached to the rotation plate (20).

Description

[0001] The present invention relates to an oil level apparatus for a compressor,

The present invention relates to an oil level device for an oil tank for a compressor, and more particularly, to an oil level device for an oil tank for a compressor, which can supply and shut off oil by a conical sealing part rotated by a port provided in the oil tank, To an oil level device for an oil tank for a compressor which allows the level of the oil to be accommodated to be adjusted.

Generally, a refrigerator and a refrigerator cooling system are provided with a compressor and a condenser at the bottom of a storage compartment, and the refrigerant liquefied in the condenser is supplied to an evaporator provided inside the storage compartment so that the refrigerant in the evaporator is converted into a gas, So as to cool the inside of the reservoir.

This cooling system utilizes a compressor and utilizes a working fluid to operate the compressor, i.e., oil. When the oil path becomes longer, the amount of recovered oil is reduced and the supply of oil to the compressor is not smooth. Therefore, oil is added to the oil tank to replenish the oil.

In order to inject a deficient oil into the oil tank, an oil level device for measuring the oil level in the oil tank is required.

The conventional oil level device has a level sensor for measuring the level of the oil in the oil tank and replenishes the oil according to the measured level. Although these level sensors are electronic type, there are many cases that oil level measurement error occurs due to frequent use. Therefore, a mechanical device for automatically leveling the oil by measuring the level of the oil is preferred.

As an example of a mechanical device for automatically replenishing oil, Korean Patent Registration No. 10-0216788 (entitled " Engine oil automatic replenishing device ") has been disclosed as an apparatus for automatically replenishing oil to an engine.

The apparatus includes an oil pan for storing engine oil for supplying to each of the moving parts of the engine; A reservoir tank having a higher potential energy than the oil pan and storing extra engine oil; An oil replenishing line for supplying engine oil in the reservoir tank to the oil pan; A valve that moves up and down according to a level of engine oil in the oil pan; And a valve operative to open the oil replenishing line by the valve when the amount of engine oil in the oil pan falls below a lower limit value; .

The apparatus is designed to maintain the water level of the oil pan at a certain water level according to the position of the water hole in accordance with the rotation of the port. However, since it is difficult to control the position of the upper and lower parts of the oil pan, there is a disadvantage in that the oil pan must maintain a predetermined water level at all times.

Therefore, in order to efficiently circulate the oil stored in the oil tank, a method for adjusting the level of the oil tank is required.

SUMMARY OF THE INVENTION An object of the present invention is to make it possible to supply and shut off oil by means of a conical sealing part rotated by a port provided in an oil tank and to adjust the position of the port so that the level of oil contained in the oil tank can be adjusted And an oil level device for an oil tank for a compressor.

An oil level device for an oil tank for a compressor according to the present invention comprises: an inlet (10) provided inside an oil tank (1) in which oil supplied to a compressor and oil recovered from a compressor are stored; A rotary plate (20) attached to one side of the attachment (10) and rotated by an increase or decrease in oil level; An insertion part (30) having a hollow part (31) which is hinged to the other side of the rotary plate (20) and which is hollowed up inside and an insertion tube (32) An oil inflow portion 41 through which the oil replenished into the oil tank 1 is inserted into the outer peripheral side and an insertion tube 32 of the insertion portion 30 is inserted into the lower portion of the oil inflow portion 41, An oil discharge portion 42 that communicates with the hollow portion 31 of the insertion portion 30 and discharges the oil introduced from the oil introduction portion 41 to the hollow portion 31 of the insertion portion 30, A T-shaped channel is formed so that the oil inlet 41 communicates with the oil outlet 42 and the engaging portion 43, An oil valve body 40 in which an oil discharge portion 42 is fixed in the oil tank 1; And the lower end of the insertion portion 30 is closed by the rotation of the rotary plate 20 due to the rotation of the plug 10 due to the increase of the level of the oil, And the cylindrical portion 52 is formed in the lower portion of the insert portion 30. The lower portion of the insertion portion 30 is opened by rotating the rotary plate 20 by the rotation of the above- (50); And is hinge-coupled to the insertion portion 30 by adjusting the height of the insertion portion 30 by being coupled to the coupling portion 43 of the oil valve body 40, An insertion portion position adjusting portion 60 for adjusting the position of the insertion hole 10 attached to the rotary plate 20 by adjusting the position of the copper plate 20; And a control unit.

The insertion portion position adjusting portion 60 is provided at the upper and lower portions of the intermediate portion so that the oil introduced from the oil inflow portion 41 is received in the oil valve body 40, An oil inflow hole 63 is formed so that the oil accommodated between the first step 61 and the second step 62 flows into the inside of the second step 62, And a male screw portion 65 coupled to an upper portion of the insertion tube 32 of the insertion portion 30 at an outer peripheral edge of a lower portion of the male screw portion 65. The male screw portion 65 communicates with the oil inflow hole 63 A hollow oil discharge hole 64 for discharging the oil introduced from the oil inflow hole 63 to the lower side is formed at a lower portion of the oil valve body 40, And the upper end is exposed to the outside of the upper end of the engaging portion 43 of the oil valve body 40, And an insertion engaging portion 67 formed with a tool engaging groove 66 for inserting a tool for rotating the regulating portion 60 is provided in the upper portion of the hollow portion 31 of the insertion portion 30, And a female screw part (33) to which the female screw part (65) is coupled.

The insertion tube 32 is inserted into the oil discharge part 42 at the lower part of the insertion part 30 when the insertion tube 32 is lifted by the insertion part position adjustment part 60 And a hinge coupling portion (34a) that is larger than the diameter of the oil discharge portion (42) and hinged to the other side of the rotary plate (20) so as to limit the upward movement of the insertion tube (32) And the other side of the pivoting plate 20 is hinged by a hinge pin wrapped around both sides of the block portion 34 so as to surround the cylindrical portion 52 of the closing portion 50, Quot; C "shape so as to be hinged by the pin.

The insertion tube 32 is coupled to the oil discharge portion 42 of the oil valve body 40 at one side of the outer periphery of the insertion tube 32 of the insertion portion 30, The oil discharge portion 42 of the oil valve main body 40 is provided with an engaging protrusion 36 formed at an upper end of the groove 35, And is engaged with the groove 35 so as to guide the insertion tube 32 when the insertion tube 32 is lowered and raised. When the insertion tube 32 is lowered, the locking jaw 36 And an engaging pin 44 for preventing the oil from being separated from the oil discharging part 42. As shown in FIG.

The insertion portion position adjusting portion 60 is coupled to the upper end of the coupling portion 43 of the oil valve body 40 so that the insertion portion position adjustment portion 60 is engaged with the coupling portion 43 The insertion portion position adjustment portion separation preventing portion 70 is provided to prevent the insertion portion from being separated from the insertion portion.

The present invention is capable of arbitrarily adjusting the position of the sub-ball by lifting and lowering the sub-ball, thereby regulating the level of the oil stored in the oil tank, thereby enabling efficient circulation of the oil supplied to the compressor. The amount of oil recovered in accordance with the flow path of the oil is small and the amount of oil to be stored in the oil tank is controlled according to the amount of recovered oil, so that the oil supplied to the compressor can be efficiently circulated.

1 is a perspective view showing an oil level apparatus of an oil tank for a compressor according to the present invention.
2 is an exploded perspective view of an oil level device for an oil tank for a compressor according to the present invention.
3 and 4 are views showing an operating state of an oil level apparatus of an oil tank for a compressor according to the present invention.
5 to 7 are sectional views of an oil level apparatus for an oil tank for a compressor according to the present invention.

Hereinafter, an oil level apparatus for an oil tank for a compressor according to the present invention will be described with reference to the accompanying drawings.

2 is an exploded perspective view of an oil level device for an oil tank for a compressor according to the present invention, and FIGS. 3 and 4 are perspective views showing the oil level device of the oil tank for a compressor according to the present invention, 5 to 7 are sectional views of an oil level apparatus for an oil tank for a compressor according to the present invention.

A typical cooling system comprises an evaporator, a compressor, a condenser, and an expansion valve.

The evaporator serves to absorb heat inside the storage by evaporation of the refrigerant.

The compressor compresses the refrigerant evaporated in the evaporator to perform a high-temperature and high-pressure operation.

The condenser serves to condense the refrigerant in the high-temperature and high-pressure state compressed by the compressor, and to convert the refrigerant into a low-temperature and low-pressure state.

The expansion valve serves to reduce the pressure of the refrigerant in the low-temperature and low-pressure state converted by the condenser by the throttling action and send it to the evaporator.

At this time, the compressor compresses the refrigerant evaporated in the evaporator to make the high temperature and high pressure state, and oil is used. The oil is supplied to the compressor from the oil tank storing the oil, and the oil recovered from the compressor is separated from the oil by the oil separator and is recovered to the oil tank again.

In the oil tank 1, an oil level device 100 for maintaining the level of the oil at a certain level is installed as shown in FIGS. 3 and 4.

An oil level device (100) of an oil tank for a compressor according to the present invention comprises an inlet (10); A rotary plate (20); An insertion portion 30; An oil valve body 40; An enclosure 50; An insertion part position adjusting part (60); .

The port 10 is provided inside the oil tank 1 where the oil supplied to the compressor and the oil recovered from the compressor are stored. The auxiliary port 10 is lifted or lowered by an increase or decrease in oil level.

One end of the rotary plate 20 is attached to the port 10 and is rotated as shown in FIGS. 5 and 6 by lifting and lowering the port 10 due to an increase or decrease in oil level. Fig. 5 shows a state in which the auxiliary port 10 is raised and rotated, and Fig. 6 shows a state in which the auxiliary port 10 has been rotated downward.

The insertion portion 30 is hinged to the other side of the rotary plate 20 and a hollow portion 31 is formed in the upper and lower portions of the insertion portion 30 (See Figs. 2 and 5 to 7).

The other end of the pivot plate 20 is hinged to the insertion portion 30 and the pivot hole 10 is attached to one side of the pivot plate 20 so that the rotation of the pivot plate 20 20 is rotated as shown in FIGS. 5 and 6 on the central axis of the hinge joint portion.

5 to 7, the oil valve body 40 includes an oil inlet 41, an oil outlet 42 and a coupling 43, and the oil inlet 41 and the oil outlet Quot; T "-shaped oil passage is formed so that the oil chamber 42 and the engaging portion 43 are communicated with each other, and the oil discharge portion 42 is fixed in the oil tank 1 (see FIGS. 3 and 4).

The oil introduced into the oil tank 1 flows into the outer peripheral side surface of the oil inlet 41.

The oil discharge portion 42 is inserted into the lower portion of the insertion tube 32 of the insertion portion 30 and communicates with the hollow portion 31 of the insertion portion 30, To the hollow portion 31 of the inserting portion 30. The hollow portion 31 of the inserting portion 30 has a hollow portion 31a.

The engaging portion 43 is provided at an upper portion of the oil discharge portion 42.

The insertion portion position adjusting portion 60, which will be described later, is coupled to the coupling portion 43 as shown in FIGS.

The hermetically sealed portion 50 is hinged to the rotary plate 20 as shown in FIGS. 2 and 5 to 7, and the rotary plate 20 is rotated 5, when the upper portion is rotated as shown in FIG. 5, the hermetically sealed portion 50 hinged to the rotary plate 20 is lifted to close the lower portion of the insertion portion 30, When the rotary plate 20 is rotated downward as shown in FIG. 6, the hermetically closed portion 50 hinged to the rotary plate 20 is lowered to open the lower portion of the insertion portion 30 It plays a role. 2 and 5 to 7, the concealed portion 50 is formed with a conical portion 51 at an upper portion thereof and a cylindrical portion 52 at a lower portion thereof.

Since the hermetically sealed portion 50 is hinged to the rotary plate 20, the rotary unit 20 is raised and lowered by the rotation of the rotary plate 20. The lower portion of the insertion portion 30 is opened and closed by lifting and lowering the sealing portion 50 by the rotation of the rotary plate 20 so as to discharge or cut off the oil.

The insertion portion position adjusting portion 60 is coupled to the coupling portion 43 of the oil valve body 40 and is coupled to the upper portion of the insertion tube 32 to adjust the height of the insertion portion 30, And adjusts the position of the hole 10 attached to the rotary plate 20 by adjusting the position of the rotary plate 20 hinged to the insertion portion 30. [

The height of the insertion portion 30 may be adjusted to adjust the position of the swinging plate 20 hinged to the insertion portion 30 to adjust the position of the swinging portion 10 attached to the swinging plate 20, The level of the oil stored in the tank 1 becomes adjustable.

That is, when the position of the insertion portion 30 is increased, the level of the oil stored in the oil tank 1 becomes higher. When the position of the insertion portion 30 is lowered, the level of the oil stored in the oil tank 1 is lower do.

Since the position of the auxiliary port 10 can be adjusted, the level of the oil stored in the oil tank 1 can be adjusted. Thus, the level of the oil can be adjusted according to the flow path of the oil, Lt; / RTI >

That is, when the flow path of the oil is long, the amount of the oil recovered to the oil tank 1 is small and the flow path of the oil is short, the amount of the oil recovered to the oil tank 1 becomes large. It is necessary to adjust the level of the oil stored in the oil tank. In the present invention, the level of the oil can be adjusted by adjusting the position of the bucket 10 to be high or low, thereby enabling efficient oil circulation.

In order for the oil introduced from the oil inflow portion 41 to be discharged to the oil discharge portion 42 when the insertion portion position adjustment portion 60 is inserted into the engagement portion 43, The control unit 60 includes a first step 61 and a second step 62 on the upper and lower portions of the intermediate portion so that the oil introduced from the oil inflow portion 41 is received in the oil valve body 40 (See Figs. 2 and 5 to 7). In addition, the insertion portion position adjusting portion 60 forms the oil inflow hole 63 so that the oil accommodated between the first step 61 and the second step 62 flows into the inside 7).

The insertion portion position adjusting portion 60 is provided with a male screw portion 65 coupled to the upper portion of the insertion tube 32 of the insertion portion 30 at the outer periphery of the lower portion of the second step 62 . A hollow oil drain hole 64 communicating with the oil inlet hole 63 and discharging the oil introduced from the oil inlet hole 63 is formed in the inside of the male screw portion 65 do.

The oil introduced from the oil inflow portion 41 is accommodated between the first step 61 and the second step 62 and between the first step 61 and the second step 62 The oil accommodated in the insertion portion position adjusting portion 60 is introduced into the insertion portion position adjusting portion 60 through the oil inflow hole 63. The inflow oil is supplied to the lower portion through the oil discharge hole 64 provided inside the male screw portion 65, Respectively. The oil discharged downward through the oil discharge hole 64 is discharged through the insertion portion 30 coupled to the oil discharge portion 42 and stored in the oil tank 1.

The insertion portion 30 is screwed to the male screw portion 65 of the insertion portion position adjustment portion 60. When the insertion portion position adjustment portion 60 is rotated, The portion 30 is raised and lowered. At this time, the structure for rotating the insertion portion position adjusting portion 60 for raising and lowering the insertion portion 30 is as follows.

The insertion portion position adjusting portion 60 is located at the upper portion of the first step 61 and is accommodated in the engaging portion 43 of the oil valve body 40, And an insertion engaging portion 67 is formed which is exposed to the upper end of the upper portion 43 and has a tool engaging groove 66 for inserting a tool for rotating the insertion portion position adjusting portion 60.

The male screw portion 65 is formed on the hollow portion 31 of the insertion portion 30 so that the male screw portion 65 of the insertion portion position adjusting portion 60 and the insertion portion 30 are screwed together. So that the female screw portion 33 is formed.

When the tool is inserted into the tool engagement groove 66 and the insertion portion position adjustment portion 60 is rotated, the insertion portion 30 coupled to the insertion portion position adjustment portion 60 is raised and lowered, 30 are raised and lowered, the rotary plate 20 hinged to the insertion portion 30 ascends and descends, and the circular hole 20 attached to the rotary plate 20 ascends and descends.

Fig. 7 shows a state in which the insertion portion 30 is lowered in the state of Fig. When the insertion portion 30 is lowered, the rotary plate 20 and the auxiliary port 10 are lowered.

A block portion 34 is provided below the insertion portion 30 so that the other side of the rotation plate 20 is hinged to the insertion portion 30, The other side should be in the form of "c".

When the insertion tube 32 is inserted into the oil discharge portion 42 when the insertion tube 32 is lifted by the insertion portion position adjusting portion 60, A block portion 34 having a block shape having a hinge coupling portion 34a larger than the diameter of the oil discharge portion 42 and hinged to the other side of the rotary plate 20 so as to limit the rise of the insertion tube 32 .

The oil discharged down to the lower portion of the block portion 34 through the oil discharge hole 64 provided in the male screw portion 65 when the sealing portion 50 descends and the oil passage is opened, The block portion 34 is provided with an oil discharge port 34b through which the oil is discharged to the outside of the block portion 34 so as to be discharged through the block portion 34. [

The pivot plate 20 and the block portion 34 are hinged to each other at the hinge coupling portion 34a and the pivot plate 20 and the hinge portion 50 are also hinged to each other. The other side of the pivoting plate 20 is hinged by the hinge pin 21 to the block 34 by wrapping both sides of the block 34 and the cylindrical portion of the hinge 50 52 so as to be hinged by the hinge pin 22 (refer to FIG. 1 and FIG. 2).

When the other side of the pivot plate 20 becomes a "C" shape, the hinge connection with the block portion 34 and the hinge connection with the sealing portion 50 become possible.

The insertion tube 32 of the insertion portion 30 is inserted into the oil valve body 40 so that the insertion tube 32 can be inserted into the oil valve body 40 A groove 35 and an engagement step 36 are formed in the insertion tube 32 and a locking pin 44 is provided at a lower end of the oil discharge part 42 of the oil valve body 40 5 to Fig. 7).

The insertion tube 32 is coupled to the oil discharge portion 42 of the oil valve main body 40 at one side of the outer periphery of the insertion tube 32 of the insertion portion 30 so that the oil discharge portion 42 (See FIGS. 2 and 5 to 7). The grooves 35 are formed at the upper ends of the grooves 35 to prevent the grooves 35 from being separated from the grooves 35.

And is fixed to the lower end of the oil discharge portion 42 of the oil valve main body 40 and is coupled to the groove 35 so as to guide the insertion tube 32 when the insertion tube 32 descends and rises And an engaging pin 44 for engaging with the engaging jaw 36 to prevent the engaging jaw 36 from being separated from the oil discharging part 42 when the insertion tube 32 is lowered.

The insertion tube 32 is guided so that the latching pin 44 is lifted and lowered in the groove 35 when the insertion tube 32 ascends and descends. When the insertion portion 30 is lowered to the lowermost position The engaging pin 44 is caught by the engaging jaw 36 to prevent the insertion portion 30 from being separated from the oil valve body 40.

The insertion portion position adjustment portion 60 is coupled to the engagement portion 43 of the oil valve body 40. The insertion portion position adjustment portion 60 is engaged with the engagement portion 43 of the oil valve body 40 The insertion portion position adjusting portion separation preventing portion 70 is provided.

The insertion portion position adjusting portion separation preventing portion 70 is engaged with the upper end portion of the engaging portion 43 of the oil valve body 40 and maintains the state where the insertion portion position adjusting portion 60 is engaged, And serves to prevent the regulating portion 60 from being separated from the engaging portion 43.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1: Oil tank 10: Bucket 20: Rotor plate
30: insertion portion 31: hollow portion 32: insertion tube
33: female thread portion 34: block portion 34a: hinge coupling portion
35: groove 36: latching jaw 40: oil valve body
41: Oil inflow part 42: Oil discharge part 43:
44: engaging pin 50: sealing part 51: conical part
52: cylindrical portion 60: insertion portion position adjustment portion 61: first step
62: 2nd step 63: Oil inflow hole 64: Oil discharge hole
65: male thread portion 66: tool engagement groove 67:
70: insertion portion position adjusting portion separation preventing portion

Claims (5)

(10) provided inside the oil tank (1) in which the oil supplied to the compressor and the oil recovered from the compressor are stored;
A rotary plate (20) attached to one side of the attachment (10) and rotated by an increase or decrease in oil level;
An insertion part (30) having a hollow part (31) which is hinged to the other side of the rotary plate (20) and which is hollowed up inside and an insertion tube (32)
An oil inflow portion 41 through which the oil replenished into the oil tank 1 flows into the outer peripheral side surface,
And the insertion tube 32 of the insertion part 30 is inserted into the lower part of the insertion tube 32 and is connected to the hollow part 31 of the insertion tube 32. The oil introduced from the oil introduction part 41 is inserted into the insertion part 32, An oil discharge portion 42 for discharging the oil to the hollow portion 31 of the portion 30,
A coupling portion 43 is provided at an upper portion of the oil discharge portion 42,
A "T" -shaped flow passage is formed so that the oil inflow portion 41 is communicated with the oil discharge portion 42 and the engaging portion 43. The oil discharge portion 42 is fixed to the inside of the oil tank 1 An oil valve main body 40;
And the lower end of the insertion portion 30 is closed by the rotation of the rotary plate 20 due to the rotation of the plug 10 due to the increase of the level of the oil, And the cylindrical portion 52 is formed in the lower portion of the insert portion 30. The lower portion of the insertion portion 30 is opened by rotating the rotary plate 20 by the rotation of the above- (50);
And is hinge-coupled to the insertion portion 30 by adjusting the height of the insertion portion 30 by being coupled to the coupling portion 43 of the oil valve body 40, An insertion portion position adjusting portion 60 for adjusting the position of the insertion hole 10 attached to the rotary plate 20 by adjusting the position of the copper plate 20;
And an oil level sensor for detecting the oil level of the oil tank. The method according to claim 1,
The insertion portion position adjusting portion (60)
A first step 61 and a second step 62 are provided on the upper and lower portions of the intermediate portion so that the oil introduced from the oil inflow portion 41 is received in the oil valve body 40,
An oil inflow hole 63 is formed so that the oil accommodated between the first step 61 and the second step 62 flows into the inside,
And a male screw portion 65 coupled to the upper portion of the insertion tube 32 of the insertion portion 30 at the outer periphery of the lower portion of the second step 62,
A hollow oil drain hole 64 communicating with the oil inlet hole 63 and discharging the oil introduced from the oil inlet hole 63 is formed inside the male screw portion 65,
The upper end of the first step 61 is received in the engaging part 43 of the oil valve body 40 and the upper end of the upper part is exposed to the outside of the upper end of the engaging part 43 of the oil valve body 40, An insertion engaging portion 67 having a tool engaging groove 66 for inserting a tool for rotating the insertion portion position adjusting portion 60 is provided,
Wherein an oil thread portion (33) to which the male screw portion (65) is engaged is formed on an upper portion of the hollow portion (31) of the insertion portion (30). 3. The method of claim 2,
When the insertion tube 32 is inserted into the oil discharge portion 42 when the insertion tube 32 is lifted by the insertion portion position adjusting portion 60, A block portion 34 having a block shape having a hinge coupling portion 34a larger than the diameter of the oil discharge portion 42 and hinged to the other side of the rotary plate 20 so as to limit the rise of the insertion tube 32 ),
The other side of the pivoting plate 20 is hinged to the hinge pin by wrapping both sides of the block 34 and hinged by the hinge pin around the cylindrical portion 52 of the hinge 50, Quot; C "-shape of the oil tank for the compressor. The method of claim 3,
The insertion tube 32 is coupled to the oil discharge portion 42 of the oil valve main body 40 at one side of the outer periphery of the insertion tube 32 of the insertion portion 30 so that the oil discharge portion 42 And a latching jaw 36 is formed at an upper end of the groove 35,
And is fixed to the lower end of the oil discharge portion 42 of the oil valve main body 40 and is coupled to the groove 35 so as to guide the insertion tube 32 when the insertion tube 32 descends and rises, And an engagement pin (44) for preventing the engagement pipe (50) from being separated from the oil discharge part (42) by being caught by the engagement step (36) when the insertion pipe (32) descends. Device. 5. The method of claim 4,
The insertion portion position adjusting portion 60 is coupled to the upper end of the coupling portion 43 of the oil valve body 40 so that the insertion portion position adjustment portion 60 is engaged, And an insertion portion position adjusting portion detachment preventing portion (70) for preventing the separation of the oil level of the oil tank.

Images