KR200471117Y1 - air breather test apparatus - Google Patents

Abstract

The present invention relates to an air breather inspection apparatus of a new structure that can effectively inspect whether the air breather provided in the vehicle's mission case or axle housing.
Air breather inspection apparatus according to the present invention is to control the high-pressure air supplied by the air compressor (20) to a constant pressure using the pressure regulator 30 and then supplied to the air breather (1) coupled to the holder 10 Thus, by inspecting whether the air breather 1 is defective, the structure is very simple, and there is an advantage that is very suitable for inspecting the air breather 1.

Description

Air breather test apparatus

The present invention relates to an air breather inspection apparatus of a new structure that can effectively inspect whether the air breather provided in the vehicle's mission case or axle housing.

In general, one side of the vehicle's mission case or axle housing is automatically opened when the air pressure inside the mission case or the axle housing rises above a predetermined pressure, and an air breather that discharges air inside the mission case or axle housing is coupled. .

The air breather is a kind of safety valve, a valve body formed so that through holes penetrate both ends in a longitudinal direction therein, a fixed cap having a vent hole coupled to the front end of the valve body and connected to the through hole on the circumferential surface thereof; It is composed of a valve body provided in the valve body to open and close the through hole, and the spring to press the valve body to block the through hole, the base end of the valve body formed on one side of the mission case or axle housing It is hermetically coupled to the exhaust hole.

Therefore, when the temperature inside the mission case or the axle housing rises and the internal air pressure rises above the set pressure, the valve body is pushed out and the through-hole formed in the valve body is opened, and the air inside the mission case or the axle housing flows outward. By discharging, it protects the mission case and axle housing.

The configuration of such an air breather is not only shown in detail in Patent Registration No. 10-828772, but various types of development have been widely used, detailed description thereof will be omitted.

On the other hand, such an air breather should be opened correctly at a predetermined pressure, there is a problem that it is difficult to check whether the air breather is defective because there is no suitable inspection device that can check whether the air breather is operating correctly.

Of course, in recent years, as shown in a number of prior documents, including Patent No. 10-0491083, various kinds of inspection apparatus for inspecting the operation of the safety valve functioning similar to the air breather has been developed and widely used.

However, the safety valve inspection apparatus for inspecting the operation of the safety valve as described above has a problem that the structure is very complicated and not suitable for inspecting whether the air breather is defective.

Therefore, there is a need for a new inspection apparatus suitable for inspecting the operation of the air breather.

The present invention is to solve the above problems, an object of the present invention is to provide an air breather inspection apparatus of a new structure that can effectively inspect whether the air breather provided in the vehicle case or axle housing.

The present invention for achieving the above object, in the air breather inspection apparatus for inspecting the operation of the air breather 1 provided on one side of the vehicle's mission case or axle housing, the air breather 1 is coupled An air compressor for supplying compressed air to the air breather 1 through the air supply hole 11 connected to the holder 10 through the holder 10 having the pores 11 and the air supply pipes 21 and 22. And a first air supply part 21 connected to an intermediate portion of the air supply pipes 21 and 22 to connect the air supply pipes 21 and 22 to the air compressor 20 and the pressure regulator 30. ) And the second air supply pipe part 22 connecting the pressure regulator 30 and the holder 10 to adjust the pressure of the high pressure compressed air supplied through the first air supply pipe part 21. The pressure regulator 30 supplied to the second air supply pipe part 22, the intermediate portion of the second air supply pipe part 22, or the second air supply pipe part 22 and the air supply. It is connected between the (11) to the control valve 40 for controlling the flow of air supplied to the air supply hole 11 through the second air supply pipe portion 22, and to the second air supply pipe portion 22 The air breather inspection apparatus is provided, comprising a pressure measuring means (50) connected to measure the pressure of air supplied to the air supply hole (11) through the second air supply pipe (22).

According to another feature of the present invention, the proximal end is rotatably coupled to the holder 10 and the proximal end is fixed to the circumferential surface of the air breather 1 fitted in the air supply hole 11 to fix the air breather 1. Further comprising a member 14, the base end of the air breather 1 is inserted into the air supply hole 11, and then the fixing member 14 is rotated to fix the fixing member 14 to the air breather 1 By being coupled, the air breather inspection device is provided, characterized in that the air breather (1) can be fixed so as not to fall out from the air supply hole (11).

According to another feature of the present invention, the control valve 40 is configured to open and close the intermediate portion of the air supply pipe (21, 22) by reversely rotating the lever 41 provided on one side, one end of the control valve ( It is connected to the lever 41 of the 40 and the air cylinder 60 for opening and closing the control valve 40 by rotating the lever 41 forward and backward according to the expansion and contraction, and branched from the first air supply pipe portion 21 Branch pipes 71 and 72 connected to the air cylinder 60 to supply compressed air to the air cylinder 60, and are provided in the middle of the branch pipes 71 and 72, respectively. It further includes an auxiliary control valve 80 for controlling the flow of compressed air supplied to the air cylinder 60 through the auxiliary control valve 80 is connected to the fixing member 14, the operator fixed the As the member 14 is rotated, the auxiliary air control valve 80 is supplied to the air cylinder 60 through the branch pipes 71 and 72. By controlling the flow, the air cylinder 60 is extended or contracted, and as the air cylinder 60 is expanded and contracted, the lever 41 of the control valve 40 is rotated to allow the second air supply part 22 to be rotated. There is provided an air breather inspection apparatus characterized in that it is possible to control the flow of compressed air supplied to the air supply hole (11) through.

According to another feature of the present invention, the auxiliary control valve 80 has a control passage (81a) formed therein and the air supply passage (81b) and the connecting passage (81c) connected to the control passage (81a) on the circumferential surface And a valve housing 81 having an exhaust passage 81d slidably coupled to the inside of the control passage 81a so that the air supply passage 81b and the exhaust passage 81d are selectively connected to the connection passage 81c. And a valve body 82 to communicate with each other, wherein the branch pipes 71 and 72 include a first branch pipe part 71 connecting the first air supply pipe part 21 and the air supply path 81b; It consists of a second branch pipe portion 72 connecting the connecting passage 81c and the air cylinder 60, the valve body 82 is connected to the fixing member 14 by a connecting rod 83, As the fixing member 14 is rotated, the high pressure air supplied through the first branch pipe part 71 is moved forward and backward through the valve body 82. The air cylinder 60 is supplied to the air cylinder 60 through the pipe portion 72 so that the air cylinder 60 is extended, or the air inside the air cylinder 60 is passed through the first branch pipe portion 71 and the exhaust passage 81d. It is discharged to the outside is provided with an air breather inspection device, characterized in that to reduce the air cylinder (60).

Air breather inspection apparatus according to the present invention is to control the high-pressure air supplied by the air compressor (20) to a constant pressure using the pressure regulator 30 and then supplied to the air breather (1) coupled to the holder 10 Thus, by inspecting whether the air breather 1 is defective, the structure is very simple, and there is an advantage that is very suitable for inspecting the air breather 1.

1 is a front configuration view showing an air breather inspection apparatus according to the present invention,
Figure 2 is a plan sectional view showing a holder of the air breather inspection apparatus according to the present invention,
3 is a reference diagram for explaining the operation of the air breather inspection apparatus according to the present invention,
Figure 4 is a front configuration view showing a second embodiment of the air breather inspection apparatus according to the present invention,
5 and 6 are a plan sectional view showing the fixing member and the auxiliary control valve of the second embodiment of the air breather inspection apparatus according to the present invention,
7 and 8 are cross-sectional views showing an air cylinder of a second embodiment of the air breather inspection apparatus according to the present invention,
9 and 10 are front cross-sectional view showing an auxiliary control valve of the second embodiment of the air breather inspection apparatus according to the present invention,
11 and 12 are reference diagrams for explaining the operation of the second embodiment of the air breather inspection apparatus according to the present invention.

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

1 to 3 show an air breather inspection apparatus according to the present invention, the air breather 1 is provided on one side of a vehicle's mission case or axle housing, and the pressure inside the mission case or axle housing is preset pressure. When it is raised above, it is automatically opened and configured to discharge air inside the mission case or axle housing.

At this time, the air breather (1) is a kind of safety valve, as shown in Figure 2, the valve body (2) formed so that the through-hole (2a) penetrates both ends in the longitudinal direction, and the valve body (2) And a fixed cap 3 having a vent hole 3a connected to the through hole 2a at a circumferential surface thereof, and provided at the valve body 2 to open and close the through hole 2a. The valve body 4 and the spring 5 which pressurize the said valve body 4 and the valve body 4 block the through-hole 2a are comprised.

In addition, a coupling portion 2b having a thread formed on an outer circumferential surface thereof is formed at a proximal end of the valve body 2 so that the coupling portion 2b may be screwed tightly to an exhaust hole formed at one side of a mission case or an axle housing. It is configured to be.

In addition, when the pressure inside the mission case or the axle housing is increased by 0.2 bar or more at the standard pressure, the valve body 4 is pushed outward to open the through hole 2a to open the inside of the mission case or the axle housing. By letting the air out of the air, the air inside the mission case or axle housing does not rise above 0.2 bar.

And, according to the present invention, the air breather inspection device, the holder 10 is formed with the air supply hole 11 to which the air breather 1 is coupled, and the holder 10 through the air supply pipes (21, 22) Is connected to the air compressor 20 for supplying compressed air to the air breather (1) through the air supply hole 11, the pressure regulator 30 and the control valve connected to the middle portion of the air supply pipe (21, 22) 40 and the pressure measuring means (50).

In detail, as shown in FIG. 1, the holder 10 is configured in the form of a rectangular metal block, and is fixed to the support 12.

The support 12 is composed of a pedestal 12a and a support panel 12b which is formed of a high-strength metal material and is disposed to extend in the vertical direction on the upper surface of the pedestal 12a. It is fixed to the front surface of the support panel 12b.

As shown in FIG. 2, the air supply hole 11 has a fixing part 11a extending rearward from the front of the holder 10 and a side of the holder 10 at a rear end of the fixing part 11a. It consists of the extension part 11b extended by the.

At this time, a screw thread is formed on the inner circumferential surface of the fixing portion 11a so that the coupling portion 2b formed at the proximal end of the air breather 1 valve body 2 can be screwed to the fixing portion 11a. The side of the holder 10 is provided with a connection tab 13 connected to the extension portion 11b to connect the air supply pipes 21 and 22 to the extension portion 11b through the connection tab 13. It is configured to be.

The air compressor 20 is configured separately from the holder 10 and is fixedly installed on the bottom surface. The air supply pipes 21 and 22 have one end portion fixed to the front surface of the support panel 12b. Is connected to 11b.

In this case, the air supply pipes 21 and 22 connect the first air supply pipe part 21 connecting the air compressor 20 and the pressure regulator 30 to the pressure regulator 30 and the holder 10. It is comprised by the 2nd air supply pipe part 22.

The pressure regulator 30 is connected between the first air supply pipe 21 and the second air supply pipe 22, the pressure of the high-pressure compressed air supplied through the first air supply pipe 21 Lowers the pressure to a predetermined pressure and supplies the air supply hole 11 to the air supply hole 11 through the second air supply pipe 22.

Preferably, the pressure regulator 30 adjusts the compressed air of high pressure supplied through the first air supply part 21 to 0.3 bar which is slightly higher than the air pressure at which the air breather 1 is opened. It is set to supply to the 2nd air supply pipe part 22. FIG.

The control valve 40 is provided with a lever 41 on one side to use a general cock valve or butterfly valve that is opened and closed when the lever 41 is rotated forward and backward, and is provided in the second air supply pipe part 22. It is configured to control the flow of air supplied to the air supply hole (11) through the second air supply pipe 22.

The pressure measuring means 50 is provided in the second air supply pipe part 22 so as to be positioned between the pressure regulator 30 and the control valve 40, and then passes through the pressure regulator 30. It measures and displays the pressure of the air supplied to the air supply hole 11 through the 2 air supply pipe part 22, and uses a general analog or digital barometer.

Referring to the use of the air breather inspection apparatus configured as described above are as follows.

First, the air compressor 20 is operated and the control valve 40 is locked, and the coupling part 2b of the air breather 1 is screwed into the air supply hole 11, as shown in FIG. 3. Likewise, when the operator rotates and opens the lever 41 of the control valve 40, the compressed air adjusted to 0.3 bar through the pressure regulator 30 is adjusted to the second air supply pipe part 22 and the air supply hole ( 11) is supplied to the air breather (1).

When the air breather 1 is in a normal state, when the air pressure inside the second air supply pipe part 22 becomes 0.2 bar, the air breather 1 is opened to maintain the air pressure inside the air supply hole 11 to 0.2 bar or less. If there is an error in the air breather 1, the air breather 1 cannot be opened at an air pressure of 0.2 bar, and the air pressure in the air supply hole 11 and the air supply pipes 21 and 22 rises to 0.2 bar or more. do.

Therefore, the operator can check the pressure displayed by the pressure measuring means 50, it is possible to confirm the abnormality of the air breather (1).

The air breather inspection apparatus configured as described above adjusts the high pressure air supplied by the air compressor 20 to a constant pressure using the pressure regulator 30, and then supplies the air breather 1 coupled to the holder 10. By checking whether the air breather 1 is defective, the structure is very simple, and there is an advantage that is very suitable for inspecting the air breather 1.

In the present exemplary embodiment, although one air supply hole 11 is formed in the holder 10, one air breather 1 may be inspected at a time, but a plurality of air supply holes may be provided in the holder 10. 11) and branched ends of the air supply pipes 21 and 22 so as to be connected to each air supply hole 11 at the same time, it can be configured to be able to inspect a plurality of air breather (1) at a time.

In addition, the air breather 1 may be configured in various forms in addition to the above-described form, in this case, the diameter or shape of the fixing portion 11a of the air supply hole 11 may also be modified to correspond thereto.

In addition, the structure of the holder 10 may be variously changed.

In addition, although the control valve 40 has been illustrated as being connected to the middle portion of the air supply pipes 21 and 22, the control valve 40 is provided between the air supply pipes 21 and 22 and the holder 10. Thus, the air supply pipes 21 and 22 and the holder 10 may be configured to be connected to each other.

4 to 12 show another embodiment according to the present invention, the air supply hole 11 is configured to insert and fix the proximal end of the air breather (1).

That is, in the first embodiment described above, a thread is formed on the inner circumferential surface of the fixing part 11a of the air supply hole 11 so that the coupling part 2b formed at the proximal end of the air breather 1 in the air supply hole 11 is formed. Although it is configured to be screwed, in the present embodiment, as shown in Figures 5 and 6, the fixing portion (11a) is not formed inside the thread, simply to the outer diameter of the thread of the coupling portion (2b) It is configured in the form of a corresponding through hole.

At this time, a packing 11c is provided at a circumference of the fixing part 11a, and when the coupling part 2b of the air breather 1 is inserted into the fixing part 11a, the air breather 1 is high. It is configured to be confidentially coupled to the government 11a.

In addition, the holder 10 is provided with a fixing member 14 for fixing the air breather (1).

The fixing member 14 is configured as a bar shape extending in the front and rear direction, as shown in 4 to 6, the rear end is rotatable to the bracket 15 provided on the front of the holder 10 It is coupled to the front, and the front end portion is formed with a locking portion 14a that is caught on the front end portion of the air breather 1 coupled to the fixed portion.

Accordingly, as shown in FIG. 6, when the engaging member 2b of the air breather 1 is inserted into the fixing part, the fixing member 14 is rotated toward the air breather 1 so that the fixing member 14 is rotated. The catching part 14a is caught by the front end of the air breather 1 and can be fixed so that the air breather 1 does not fall out.

In addition, an air cylinder 60 is connected to the lever 41 of the control valve 40 to rotate the lever 41 forward and backward according to the expansion and contraction of the air cylinder 60 to open and close the control valve 40. And the branch pipes 71 and 72 branched from the first air supply pipe part 21 are connected to the air cylinder 60 and supplied from the air compressor 20 to the first air supply pipe part 21. It is configured to supply high pressure compressed air to the air cylinder (60).

In addition, an auxiliary control valve 80 is provided at an intermediate portion of the branch pipes 71 and 72 to control the flow of compressed air supplied to the air cylinder 60 through the branch pipes 71 and 72. It is composed.

In detail, the air cylinder 60 is provided in the cylinder body 61 and the cylinder body 61, as shown in FIGS. 7 and 8, to define an inner space of the cylinder body 61. A piston 62 partitioning into the first and second chambers 61a and 61b, and a piston rod extending from the piston 62 to the outside of the front end of the cylinder body 61 through the first chamber 61a; 63 and a compression coil spring 64 provided inside the first chamber 61a to pressurize the piston 62, and both ends of the support panel 12b of the holder 10 and the control valve. It is hinged to the lever 41 of the 40, respectively.

Therefore, as shown in FIG. 7, when compressed air is supplied into the second chamber 61b, the piston 62 and the piston rod 63 are advanced to extend the length of the air cylinder 60. As shown in FIG. 11, the control valve 40 is opened by rotating the lever 41 of the control valve 40 forward.

On the contrary, as shown in FIG. 8, when the compressed air inside the second chamber 61b flows back to the branch pipes 71 and 72 and is discharged, the air cylinder 60 is caused by the elasticity of the compression coil spring 64. 12 is reduced, and as shown in FIG. 12, the control valve 40 is closed by rotating the lever 41 of the control valve 40 in reverse.

The branch pipes 71 and 72 are connected to the second chamber 61b through the rear end of the air cylinder 60, and are compressed by the air compressor 20 so as to compress the first air supply part 21. The compressed air supplied through the high pressure is supplied into the second chamber 61b.

In this case, the branch pipes 71 and 72 may include a first branch pipe part 71 connecting the first air supply pipe part 21 and the auxiliary control valve 80, the auxiliary control valve 80, and the air. It consists of the 2nd branch pipe part 72 which connects the 2nd chamber 61b of the cylinder 60. As shown in FIG.

As shown in FIGS. 4 and 5, and FIGS. 9 and 10, the auxiliary control valve 80 has a control passage 81a formed therein and an air supply passage connected to the control passage 81a on a circumferential surface thereof. A valve housing 81 having a 81b, a connecting passage 81c, and an exhaust passage 81d, and a slidably coupled inside the control passage 81a, are slidably connected to the air supply passage 81b and the exhaust passage 81d. Is composed of a valve body 82 for selectively communicating with a connecting passage 81c.

In detail, the valve housing 81 is formed in a rectangular block shape, and the control passage 81a is formed so that one end of the valve housing 81 is opened to the circumference of the valve housing 81. .

The air supply passage 81b and the exhaust passage 81d are formed to be connected to the control passage 81a at one side of the valve housing 81 so as to be laterally spaced apart from each other, and the connection passage 81c is connected to the valve. On the other side of the housing 81 is formed to be connected to the control passage (81a).

At this time, the connection passage 81c is formed such that a central axis is positioned at an intermediate portion between the air supply passage 81b and the exhaust passage 81d.

The first branch pipe portion 71 is connected to the air supply passage 81b, the second branch pipe portion 72 is connected to the connection passage 81c, and the exhaust passage 81d is opened. Keep it.

The valve body 82 is configured in the shape of a rod having a cross-sectional shape corresponding to the control passage 81a, and a communicating portion 82a having a small diameter is formed in a central portion thereof, as shown in FIG. When the 82 is advanced to the right, the air supply passage 81b and the connection passage 81c communicate with each other while the exhaust passage 81d is sealed. As shown in FIG. 10, the valve body 82 is left-sided. When the retreat is made, the connecting passage 81c and the exhaust passage 81d are connected to each other in a sealed state of the air supply passage 81b.

In addition, as shown in FIGS. 5 and 6, the valve body 82 is connected to the fixing member 14 by a connecting rod 83, and is fitted into the air supply hole 11. When the fixing member 14 is rotated in the direction of fixing the valve body 82 advances to the right, and the fixing member 14 is rotated in the opposite direction, when the fixing of the air breather 1 is released, the valve The sieve 82 is configured to retract to the left.

Referring to the operation of the air breather inspection device configured as described above are as follows.

First, as shown in FIG. 6, the operator inserts the engaging portion 2b of the air breather 1 into the air supply hole 11 of the holder 10, and then moves the fixing member 14 toward the air breather 1. When the air breather 1 is fixed by rotating, as shown in FIG. 9, the valve body 82 of the auxiliary control valve 80 is advanced to the right, so that the air supply passage 81b and the connection passage 81c In this way, as shown in FIG. 7, the high-pressure air supplied through the first branch pipe part 71 is supplied to the second chamber of the air cylinder 60 through the second branch pipe part 72. Supplied to 61b to allow the air cylinder 60 to expand.

As shown in FIG. 11, as the air cylinder 60 is extended, the lever 41 of the control valve 40 is rotated so that the control valve 40 is opened, so that the pressure regulator 30 is opened. The compressed air that has passed is supplied to the air supply hole 11 and the air breather 1 through the second air supply pipe part 22 to inspect the defect of the air breather 1.

When the inspection of the air breather 1 is completed and the worker releases the air breather 1 by rotating the fixing member 14 in the opposite direction as shown by the solid line in FIG. As shown, the valve body 82 of the auxiliary control valve 80 is retracted so that the connection passage 81c and the exhaust passage 81d communicate with each other. Thus, as shown in FIG. The air in the second chamber 61b of the air cylinder 60 flows back to the second branch pipe part 72 to be discharged to the outside through the exhaust passage 81d to reduce the air cylinder 60.

And, as shown in FIG. 12, as the air cylinder 60 is reduced, the control valve 40 is sealed and supplied to the air supply hole 11 through the second air supply pipe 22. Shut off the flow of air.

The air breather inspection device configured as described above is provided with a fixing member 14 for fixing the air breather 1 to the holder 10, and after inserting the proximal end of the air breather 1 into the air supply hole 11. By rotating the fixing member 14 to allow the fixing member 14 to be coupled to the air breather 1, the air breather 1 may be fixed so as not to be pulled out from the air supply hole 11. Compared to the above-described first embodiment in which 1) is screwed into the air supply hole 11, it is very easy to detach the air breather 1.

In addition, one end is connected to the lever 41 of the control valve 40, the air cylinder 60 for opening and closing the control valve 40 by forward and reverse rotation of the lever 41 according to the expansion and contraction, and the first air supply pipe Branches (71) and (72) branched from the unit (21) and connected to the air cylinder (60) for supplying compressed air to the air cylinder (60), and are provided in the middle of the branch pipes (71,72) An auxiliary control valve 80 for controlling the flow of compressed air supplied to the air cylinder 60 through the branch pipes 71 and 72 is provided, and the auxiliary control valve 80 is connected to the fixing member 14. Connected, the user rotates the fixing member 14 to fix the air breather 1 to the air supply hole 11 or release the air breather 1 fixed to the air supply hole 11, automatically. The flow of compressed air supplied to the air supply hole 11 through the second air supply pipe part 22 is controlled.

Therefore, compared to the first embodiment in which the operator must manually operate the control valve 40, the operation is very easy and there is an advantage that can improve the working speed.

Particularly, the control valve 40 is controlled by controlling the air cylinder 60 that is expanded and contracted by the high pressure compressed air supplied from the air compressor 20 to the first air supply part 21. Not only does not require a separate power to control, but also has the advantage of high operation reliability.

In addition, the auxiliary control valve 80 has a control passage 81a formed therein, and an air supply passage 81b, a connection passage 81c, and an exhaust passage 81d connected to the control passage 81a are formed on a circumferential surface thereof. The valve housing 81 formed so as to be slidably coupled to the inside of the control passage 81a so that the air supply passage 81b and the exhaust passage 81d are selectively communicated with the connection passage 81c. ), The structure is very simple and has the advantage of reducing the cost.

10. Holder 20. Air compressor
30. Pressure regulator 40. Control valve
50. Pressure measuring means 60. Air cylinder
71,71. Branch pipe 80. Auxiliary control valve

Claims (4)

delete In the air breather inspection apparatus for inspecting the operation of the air breather 1 provided on one side of the vehicle's mission case or axle housing,
A holder 10 having an air supply hole 11 to which the air breather 1 is coupled;
An air compressor 20 connected to the holder 10 through air supply pipes 21 and 22 and supplying compressed air to the air breather 1 through the air supply hole 11;
A first air supply part 21 and the pressure regulator connected to an intermediate part of the air supply pipes 21 and 22 to connect the air supply pipes 21 and 22 to the air compressor 20 and the pressure regulator 30. The second air supply pipe is divided into a second air supply pipe part 22 connecting the holder 10 to the second air supply pipe by adjusting the pressure of the compressed air of high pressure supplied through the first air supply pipe part 21. Pressure regulator 30 to supply to the section 22,
Connected between the middle portion of the second air supply pipe part 22 or between the second air supply pipe part 22 and the air supply hole 11 to the air supply hole 11 through the second air supply pipe part 22. A control valve 40 for controlling the flow of the supplied air;
It is connected to the second air supply pipe section 22 includes a pressure measuring means 50 for measuring the pressure of the air supplied to the air supply hole 11 through the second air supply pipe 22,
The proximal end is rotatably coupled to the holder 10 and the proximal end further includes a fixing member 14 which is caught on the circumferential surface of the air breather 1 fitted in the air supply hole 11 and fixes the air breather 1. ,
After inserting the proximal end of the air breather 1 into the air supply hole 11, the fixing member 14 is rotated so that the fixing member 14 is coupled to the air breather 1, thereby providing an air breather 1. Air breather inspection device, characterized in that it can be fixed so as not to fall from the air supply hole (11).
3. The method of claim 2,
The control valve 40 is configured to open and close the intermediate portion of the air supply pipe (21, 22) by forward and reverse rotation of the lever 41 provided on one side,
An air cylinder 60 having one end connected to the lever 41 of the control valve 40 to open and close the control valve 40 by rotating the lever 41 forward and backward according to expansion and contraction;
Branch pipes 71 and 72 branched from the first air supply part 21 and connected to the air cylinder 60 to supply compressed air to the air cylinder 60;
Further provided in the middle of the branch pipes (71, 72) further comprises an auxiliary control valve (80) for controlling the flow of compressed air supplied to the air cylinder 60 through the branch pipes (71, 72),
The auxiliary control valve 80 is connected to the fixing member 14,
As the operator rotates the fixing member 14, the auxiliary control valve 80 controls the flow of compressed air supplied to the air cylinder 60 through the branch pipes 71 and 72 so that the air cylinder ( As the air cylinder 60 expands and contracts, the lever 41 of the control valve 40 is rotated to the air supply hole 11 through the second air supply pipe 22. Air breather inspection device, characterized in that to control the flow of compressed air supplied.
The method of claim 3, wherein
The auxiliary control valve 80
A valve housing 81 having a control passage 81a formed therein and an air supply passage 81b connected to the control passage 81a, a connection passage 81c, and an exhaust passage 81d formed on a circumferential surface thereof;
And a valve body 82 slidably coupled to the inside of the control passage 81a so that the air supply passage 81b and the exhaust passage 81d selectively communicate with the connection passage 81c.
The branch pipes 71 and 72 may include a first branch pipe part 71 connecting the first air supply pipe part 21 and the air supply path 81b, the connection path 81c, and the air cylinder 60 to each other. Consists of a second branch pipe portion 72 connecting the
The valve body 82 is connected to the fixing member 14 by a connecting rod 83,
As the fixing member 14 is rotated, the high pressure air supplied through the first branch pipe part 71 by the valve body 82 is moved back and forth through the second branch pipe part 72. 60 is supplied to the air cylinder 60 to extend, or the air inside the air cylinder 60 is discharged to the outside through the first branch pipe portion 71 and the exhaust passage 81d to the air cylinder 60 Air breather inspection device, characterized in that to be reduced.

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