KR100885991B1 - Dynamic testing device for mechanical seal - Google Patents

Abstract

A dynamic soundness testing device for a mechanical seal is provided to proceed a soundness test of a mechanical seal for a subject under the same condition as a condition applied to a pump by combining the inner side of the mechanical seal for a subject with a principal axis. A pressure chamber(22) of a circular shape in which a mechanical seal is mounted on the support stand(21) moving according to a rail(23) is formed. A mechanical seal mounting unit(20) in which the pressure chamber is mounted is formed. A principal axis installing part(30) in which a principal axis(31) rotating with the sleeve of the mechanical seal is prepared is formed. A principal axis driving part(40) in which a drive motor connected through a belt and a joint axis combined with the principal axis of the principal axis installing part are prepared is formed.

Description

Mechanical integrity test device of mechanical seal {dynamic testing device for mechanical seal}

The present invention relates to an apparatus for testing the integrity of a mechanical seal, and more particularly, to allow the mechanical chamber to be tested to be easily mounted without fear of damage, and also to the integrity test under the same conditions as the conditions under which the mechanical seal is applied to an actual pump. In this regard, the present invention relates to a dynamic soundness testing apparatus of a mechanical seal, which enables accurate testing of the actual soundness of a mechanical seal.

On the rotating shaft of the pump for pumping the fluid, a mechanical seal is provided to prevent fluid leakage from the rotating shaft portion.

The mechanical seal maintains hermeticity and liquid tightness by sliding the seal by the sealing water while the rotary ring is in close contact with the rotary shaft of the pump.

Therefore, in order to completely prevent fluid leakage from the pump shaft by installing the mechanical seal on the actual pump, after confirming that the airtightness and liquid tightness can be maintained through the mechanical seal, that is, the actual installation of the mechanical seal is tested. It is preferable to make.

On the other hand, in order to test the integrity of the mechanical seal, the most accurate test may be performed by operating the pump while the mechanical seal is mounted on the actual pump and confirming that airtightness and liquid tightness in the pump shaft are maintained.

However, the method of testing the mechanical seal's dryness by mounting the mechanical seal on the actual pump is very cumbersome to attach the mechanical seal to the pump, and the mechanical seal itself may be damaged when the mechanical seal is attached to the pump. Since it is considerable, mounting a mechanical seal on a pump for testing has been problematic in practical application.

For this reason, conventionally, after preparing a pressure chamber to replace the actual pump, the mechanical chamber to be tested is mounted on the pressure chamber, and the pressure of the pressure chamber is coupled to the O-ring of the mechanical chamber to be mounted on the pressure chamber. After the pressure water is introduced into the chamber to make the pressure chamber the same as the internal pressure when the pump is actually operated, a method of checking whether there is a leakage of the pressure water introduced into the pressure chamber from the contact surface between the test chamber and the insertion chamber The integrity of the mechanical chamber under test has been tested by the static integrity test method.

However, the conventional static mechanical seal integrity test method is performed in a state in which the insertion shaft coupled to the mechanical chamber to be tested is not rotated, so that the mechanical chamber to be tested bears the actual sealing water and the airtight and liquid tightness of the pump shaft is rotated. It was not possible to confirm whether this was maintained, but it was only a test of the integrity of the O-ring provided in the mechanical seal and the machining state of the contact surface in contact with the pump shaft, but it was not a practical test method of the integrity of the mechanical seal. There was a problem.

In order to solve the problem according to the conventional static mechanical seal integrity test method, the mechanical chamber to be mounted on the pressure chamber is installed on a rotating shaft that passes through the pressure chamber as in the state where it is applied to the actual pump, and rotates as it is. It is desirable to do a test.

In this case, in order for the rotating shaft to penetrate the pressure chamber, installation of a mechanical chamber for maintaining airtightness and liquid tightness at the rotating shaft penetrating portion of the pressure chamber requires two mechanical chambers in the pressure chamber to test the dynamic integrity of the mechanical chamber to be tested. In other words, the mechanical chamber to be tested and another mechanical seal for maintaining airtightness and liquid tightness in the penetrating portion of the rotating shaft of the pressure chamber should be installed, which not only increases the amount of work but also ensures accurate testing. Prior to the integrity test of the mechanical chamber, there was a problem of first managing and maintaining the other mechanical chamber installed in the penetrating portion of the rotating shaft of the pressure chamber.

The present invention has been devised in view of the above circumstances, and it is possible to easily mount the mechanical chamber under test without fear of damage, and the integrity test is performed under the same conditions as those under which the mechanical chamber under test is actually applied to a pump. Accordingly, an object of the present invention is to provide a dynamic soundness testing apparatus for mechanical seals that can accurately test the soundness of actual mechanical seals.

Dynamic integrity test apparatus of the mechanical seal according to the present invention for achieving the above object,

A main body having a table shape and having a storage space provided inside the upper plate;

A mechanical chamber mounting portion located on one side of the upper surface of the main body and provided with a circular pressure chamber in which a mechanical chamber to be tested is mounted on an upper portion of the support which is moved along the rail;

It is located on the upper surface of the main body to face the mechanical seal mounting portion, the main shaft mounting portion provided with a main shaft to rotate with the sleeve in a state fixed to the sleeve of the mechanical chamber to be tested on the upper end of the frame installed on the upper plate of the main body Wow;

A main shaft driving unit which is located at one side of the main shaft mounting unit and has a driving motor connected to one end of a connecting shaft to which the main shaft of the main shaft mounting unit is coupled and a belt;

Located in the storage space inside the main body, a water tank having a water inlet pipe leading from the outside of the main body and a recovery chamber leading from the pressure chamber and the mechanical chamber, a water pump provided with a water supply pipe leading from the water tank, a pressure chamber and Pressure accumulator head having a connecting pipe leading to the mechanical chamber, and installed on the connecting pipe leading from the pressure header to the pressure chamber to measure the flow rate of water supplied into the pressure chamber, and installed on the connecting pipe leading from the pressure header to the mechanical chamber and into the mechanical chamber. A test water pressure unit provided with a flow sensor for measuring a flow rate of water to be supplied;

Located in front of the spindle mounting portion, the power switch for applying power to the drive motor and the water pump, the operation button for manipulating the operation of the drive motor and the water pump, the revolutions per minute of the spindle and the instantaneous water to the pressure chamber A controller provided with an indicator for indicating the supply amount and the accumulated flow rate supplied to the pressure chamber, the instantaneous water supply to the mechanical chamber, the accumulated flow rate supplied to the mechanical chamber, and the temperature of the test water circulated through the interior of the mechanical chamber; It is characterized by that.

The dynamic integrity test apparatus of the mechanical seal according to the present invention is provided with a flange according to the standard of the mechanical chamber to be tested in the pressure chamber, and thus the mechanical chamber to be tested can be quickly and simply installed without fear of damage. The rotatable main shaft is coupled to the inside of the mechanical chamber to test the integrity of the mechanical chamber under the same conditions as applied to the actual pump. The actual mechanical health can be accurately tested. It is possible to accurately determine whether the new mechanical seal is defective and whether the mechanical seal is replaced during use.

Hereinafter, with reference to the accompanying drawings in more detail as follows.

1 is a perspective view showing the external appearance of the dynamic soundness test apparatus of the mechanical seal according to the present invention, Figure 2 is a rear view showing the external appearance of the dynamic soundness test apparatus of the mechanical seal according to the present invention, Figure 3 Figure 4 is a partial cross-sectional view for explaining the structure of the mechanical seal mounting unit in the dynamic soundness test apparatus of the mechanical seal, Figure 4 is a partial cross-sectional view for explaining the structure of the spindle installation in the dynamic soundness tester of the mechanical seal according to the present invention, Figure 5 Is a partial cross-sectional view for explaining the structure of the main shaft drive unit in the dynamic soundness test apparatus of the mechanical seal according to the present invention, Figure 6 is a schematic diagram for explaining the flow of test water in the dynamic soundness tester of the mechanical seal according to the present invention. .

As shown in FIGS. 1 and 2, the dynamic health test apparatus A of the mechanical seal according to the present invention includes a main body 10, a mechanical thread mounting part 20, a main shaft mounting part 30, and a main shaft driving part ( 40, the test water pressure unit 50, and the control unit 60.

The main body 10 is in the form of a table, and an accommodation space 10a is provided inside the upper plate 11.

The lower end of the main body 10 is preferably provided with a caster 12 to facilitate the movement.

The mechanical thread mounting part 20 is located on one side of the upper surface of the main body 10 as shown in FIG. 3, and the mechanical thread that is a test object on the upper part of the support 21 that is horizontally moved along the rail 23 ( A circular pressure chamber 22 in which 100 is mounted is provided.

In the mechanical chamber mounting portion 20, the pressure chamber 22 has an inlet 22b for injecting water into the inside, a drain valve 22c for discharging water therein, and a fastening bolt 22a 'radially. It is provided with a flange (22a) coupled, the support 21 is to have a drip tray (21a) on the lower side of one side.

At this time, the flange 22a of the pressure chamber 22 is free to be separated and combined on the pressure chamber 22, and used according to the specification of the mechanical chamber 100 to be tested.

The main shaft mounting portion 30 is located on the upper surface of the main body 10, as shown in Figure 4 but to face the mechanical seal mounting portion 20, the frame installed on the upper plate 11 of the main body 10 ( 32) The main shaft 31 is provided to rotate in a fixed state on the sleeve of the mechanical chamber 100 to be tested.

In the main shaft mounting portion 20, the main shaft 31 is located at the same line as the center of the pressure chamber 22 of the mechanical seal mounting portion 20, and is connected to the tip of the connecting shaft 33 which is rotatable. To be combined.

At this time, the main shaft 31 is preferably free to separate and coupled on the connecting shaft (33).

Since the main shaft 31 is free to be separated and combined on the connecting shaft 33, the mechanical seal 100 having various specifications can be subjected to the test subject according to the replacement of the main shaft 31.

On the other hand, it is preferable that a stopper 32a made of an elastic material is provided in front of the frame 32 of the main shaft mounting portion 30.

A stopper 32a made of an elastic material is provided in front of the frame 32 of the spindle mounting portion 30 so that the support 21 of the mechanical seal mounting portion 20 moves toward the frame 32 of the spindle mounting portion 30. When the shock is alleviated and the support 21 can be stopped.

The main shaft driving unit 40 is located on one side of the main shaft mounting unit 30, as shown in Figure 5, one end of the connecting shaft 33, the rotation axis of which is coupled to the main shaft 31 of the main shaft mounting unit 30 And a drive motor 41 connected with the belt 42 is provided.

The outer side of the main shaft drive unit 40 is preferably wrapped with a cover 43 to protect the user and the device.

At this time, the drive motor 41 is an inverter (not shown in the figure) is to control the rotation speed.

The technique of controlling the rotational speed of the drive motor through the inverter is a general bar, a detailed description thereof will be omitted.

The test water pressure unit 50 is located in the storage space (10a) inside the main body 10, as shown in Figure 2, the water inlet pipe 51a and the pressure chamber 22 that extends from the outside of the main body 10 And a water pump 52 having a water tank 51 provided with a recovery pipe 51b leading from the mechanical chamber 100, a water pump 52 provided with a water supply pipe 52a leading from the water tank 51, a pressure chamber 22, Pressure accumulator 53 provided with connecting pipes 53a and 53a 'leading to the mechanical chamber 100, and a pressure chamber installed on the connecting pipe 53a extending from the pressure storing header 53 to the pressure chamber 22. 22) Flow rate sensor for measuring the flow rate of water supplied to the inside and installed on the connecting pipe (53a ') from the pressure storage header 53 to the mechanical chamber 100 to measure the flow rate of water supplied into the mechanical chamber 100 (54, 54 ').

On the recovery pipe 51b of the water tank 51 from the test water pressure unit 50, particularly on the recovery pipe 51b leading to the mechanical chamber 100, as shown in FIG. 6, the thermometer 51d and the line cooler ( It is preferable that 51c) is provided, and a filter 52b for filtration of test water is provided on the water supply pipe 52a of the water pump 52, and the connection pipes 53a and 53a 'of the pressure storage header 53 are provided. It is preferable that a pressure regulator 53b and a pressure gauge 53c are provided on the upper side.

The thermometer 51d and the line cooler 51c are provided on the recovery pipe 51b of the water tank 51 forming the test water pressure section 50, particularly on the recovery pipe 51b leading from the mechanical chamber 100. The temperature of the test water recovered in the heated state inside the mechanical chamber 100 can be grasped so that it is possible to determine that there is an abnormality in the contact surface machining state or the friction pressure adjustment state of the mechanical chamber 100 as well as the test water. Since cooling can be performed, test conditions can be kept constant, and a filter 52b is provided on the water supply pipe 52a of the water pump 52, so that the test chamber 22 is provided with a pressure chamber 22 when the test water is introduced into the pressure chamber 22. It is possible to block foreign substances from entering the inside, and the pressure regulator 53b and the pressure gauge 53c are provided on the connection pipes 53a and 53a 'of the pressure storage head 53 to supply the test water at a stable pressure. Not only will you be able to test The water supply pressure can be checked visually.

At this time, the pressure gauge 53c provided on the connection pipes 53a and 53a 'of the pressure storage head 53 is preferably exposed to the outside of the main body 10 so that the user can easily check.

On the other hand, the test water pressure unit 50 is preferably to be stopped automatically after the operation for a predetermined time (about 10 minutes) set by the timer.

Since the operation time limit of the device through the timer is a general technology, detailed description thereof will be omitted.

The control unit 60 is located in front of the main shaft installation unit 30, the power switch for applying power to the drive motor 41 of the main shaft drive unit 40 and the water pump 52 of the test water pressure unit 50 ( 61, an operation button 62 for manipulating the operation of the drive motor 41 of the spindle drive unit 40 and the water pump 52 of the test water pressure unit 50, the revolutions per minute and the pressure chamber of the spindle 31; Circulating and recovering the instantaneous water supply to the 22 and the cumulative flow rate supplied to the pressure chamber 22 and the instantaneous water supply to the mechanical chamber 100 and the accumulated flow rate supplied to the mechanical chamber 100 and the interior of the mechanical chamber 100 An indicator 63 indicating the temperature of the test water to be provided is provided.

In such a control unit 60, the drive motor operation button 62 is interlocked between the drive motor operation button 62 and the water pump operation button 62 so that the operation can be performed only when the water pump 52 is operated. It is preferable that the (not shown) is installed.

The test target mechanical mechanism is provided by the interlock between the drive motor operation button 62 and the water pump operation button 62 so that the drive motor operation button 62 of the controller 60 can be operated only after the water pump 52 is operated. The seal 100 may be rotated only in a state where the test water is circulated, thereby preventing the damage to the mechanical seal 100 due to the coolant member.

Since the operation principle of the interlock is well known, the detailed description is omitted.

The health test process of the mechanical chamber 100 through the dynamic health test apparatus (A) of the mechanical chamber according to the present invention as described above in detail as follows.

The mechanical chamber 100 to be tested is mounted to the pressure chamber 22 provided in the mechanical chamber mounting portion 20.

The pressure chamber 22 is provided with a flange 22a adapted to the standard of the mechanical chamber 100 to be tested, and a fastening bolt 22a 'is provided at the flange 22a, and the fastening hole of the mechanical chamber 100 is provided. The mechanical chamber 100 to be tested on the pressure chamber 22 of the mechanical thread mounting portion 20 by binding the nut to the fastening bolt 22a 'while the 101 is inserted into the fastening bolt 22a' of the flange 22a. ) Can be mounted.

The main shaft 31 of the main shaft mounting portion 30 is coupled from the rear of the mechanical chamber 100 to be tested in a state where the mechanical chamber 100 to be tested is mounted on the pressure chamber 22 of the mechanical chamber mounting portion 20. .

Since the support 21 of the mechanical thread mounting part 20 is free to move on the rail 23, the support 21 is pushed toward the main shaft mounting part 30 so that the mechanical thread mounting part 20 is installed on the main shaft. Close to the part 30, the front of the support 21 is fitted to the end of the stopper (32a) provided in the main shaft mounting portion 30 in the process of the mechanical seal mounting portion 20 close to the main shaft mounting portion (20). When the mechanical thread mounting portion 20 stops moving, and the mechanical thread mounting portion 20 moves toward the main shaft mounting portion 30, the main shaft 31 of the main shaft mounting portion 30 moves toward the central portion of the mechanical chamber 100. Since it is inserted into the through hole 101, that is, the sleeve, the main shaft 31 of the main shaft mounting unit 30 may be coupled to the test target mechanical chamber 100.

At this time, the main shaft 31 of the main shaft mounting portion 30 has a diameter corresponding to the inner diameter of the mechanical chamber 100, the main shaft 31 of the main shaft mounting portion 30 without mechanical force 100 It can be coupled to the sleeve of the.

Supply of test water into the pressure chamber 22 of the mechanical chamber mounting part 20 and the test chamber mechanical chamber 100 in a state in which the main shaft 31 of the main shaft mounting unit 30 is coupled to the mechanical chamber 100 to be tested. This is done.

The supply of test water is made by the water pump operation button 62 provided in the control unit 60, and the test water in the water tank 51 is applied to the operation of the water pump 52 of the test water pressure unit 50. It is pumped by the supplied through the connecting pipe (53a, 53a ') of the pressure storage header 53 is supplied into the pressure chamber 22 of the mechanical chamber mounting portion 20 and the mechanical chamber 100 to be tested.

At this time, the test water supplied into the pressure chamber 22 through the connecting pipe 53a acts as the pressure water so that the inside of the pressure chamber 22 can be maintained at a high pressure as in the actual pump, The test water supplied to the mechanical chamber 100 to be tested through 53a ') acts as a cooling water so that the rotary ring 102 of the mechanical chamber 100 can slide.

Rotation of the main shaft 31 coupled to the test target mechanical chamber 100 is performed in a state in which test water is supplied to the pressure chamber 22 of the mechanical chamber mounting unit 20 and the test target mechanical chamber 100. .

The rotation of the main shaft 31 is to be made by the drive motor operation button 62 provided in the control unit 60, the drive motor 41 is the rotary shaft is connected to the connecting shaft 33 and the belt 42 , The main shaft 31 is coupled to one end of the connecting shaft 33, the rotation of the connecting shaft 33 can be made by the rotation of the drive motor 41, the main shaft (by rotating the connecting shaft 33) 31 can be rotated.

If there is no problem in the integrity of the test target mechanical seal 100 mounted on the pressure chamber 22 of the mechanical seal mounting portion 20 while the test water is supplied and the spindle 31 is rotated for a predetermined time. The measured value in the flow sensor 54, 54 'provided in the connection pipe 53a, 53a' of the hydraulic pressure part 50 does not exceed a reference | standard.

However, the test target mechanical chamber 100 mounted on the pressure chamber 22 of the mechanical chamber mounting portion 20 while the test water serving as pressure water or cooling water is supplied and the spindle 31 is rotated for a predetermined time. If there is a problem in the soundness of the test chamber because the leakage of the test water occurs in the coupling portion of the mechanical chamber 100 and the main shaft 31, the user is subject to the test by checking this through the indicator 63 of the control unit 60 The mechanical chamber 100 can determine whether it is sound.

At this time, the measured value of the flow sensor 54 'provided in the connecting pipe 53a' supplying the test water acting as cooling water and the measured value of the thermometer 51d provided in the recovery pipe 51b are the contact surfaces of the mechanical chamber 100. If the machining state is poor or if the friction pressure adjustment is inappropriate, it rises sharply above the standard, so by checking this, it is possible to determine whether the machining state of the contact surface of the mechanical seal 100 is poor and whether the friction pressure adjustment is poor.

On the other hand, if the test target mechanical chamber 100 is bad, the leaking test water flows to the lower part and is stored in the drip tray 21a provided in the support 21 of the mechanical thread mounting part 20, so that the test water leaks. It is possible to prevent contamination of the surroundings.

After the integrity test of the mechanical chamber, the mechanical thread mounting unit 20 is retracted to separate the main shaft 31 inserted into the mechanical chamber 100, and then the mechanical chamber 100 mounted to the pressure chamber 22 is separated. Done.

After the integrity test of the mechanical chamber, the drain valve 22c provided in the pressure chamber 22 must be opened to discharge the test water filled in the pressure chamber 22 to the water tank 51 through the recovery pipe 51b. It is preferable to separate the mechanical chamber 100 under test.

Dynamic health test apparatus (A) of the mechanical seal according to the present invention is that the integrity test is performed under the same conditions that the mechanical chamber 100 to be tested is actually applied to the pump as described above, so that the test results can be reliable. In addition, it is possible to determine whether the new mechanical seal is defective or not and whether the mechanical seal is replaced during use.

Since the present invention as described above is not limited to the above-described embodiments, it can be changed within the scope not departing from the gist of the present invention claimed in the claims, such changes are within the claims described.

1 is a perspective view showing the appearance of a dynamic soundness testing apparatus of the mechanical seal according to the present invention

Figure 2 is a rear view showing the external appearance of the dynamic integrity test apparatus of the mechanical seal according to the present invention

Figure 3 is a partial cross-sectional view for explaining the structure of the mechanical thread mounting portion in the dynamic soundness test apparatus of the mechanical seal according to the present invention

Figure 4 is a partial cross-sectional view for explaining the structure of the main shaft mounting portion in the dynamic soundness testing apparatus of the mechanical seal according to the present invention

5 is a partial cross-sectional view for explaining the structure of the main shaft drive unit in the dynamic soundness test apparatus of the mechanical seal according to the present invention;

Figure 6 is a schematic diagram for explaining the test water flow in the dynamic integrity test apparatus of the mechanical seal according to the present invention

<Explanation of symbols for the main parts of the drawings>

10: main body 10a: storage space

11: top plate 12: caster

20: mechanical thread mounting portion 21: support

21a: drip tray 22: pressure chamber

22a: Flange 22a ': Tightening bolt

22b: Inlet 22c: Drain valve

23: rail 30: spindle mounting portion

31: spindle 32: frame

32a: Stopper 33: Connecting shaft

40: spindle drive 41: drive motor

42: belt 43: cover

50: test water pressure part 51: water tank

51a: water inlet pipe 51b: recovery pipe

51c: line cooler 52: water pump

52a: water supply pipe 52b: filter

53: accumulator header 53a: connector

53b: Pressure regulator 53c: Pressure gauge

60: control unit 61: power switch

62: operation button 100: mechanical seal

101: through hole 102: rotation ring

A: Mechanical seal integrity tester

Claims (5)

A main body having a table shape and having a storage space provided inside the upper plate; A mechanical chamber mounting portion located on one side of the upper surface of the main body and provided with a circular pressure chamber in which a mechanical chamber to be tested is mounted on an upper portion of the support which is moved along the rail; It is located on the upper surface of the main body to face the mechanical seal mounting portion, the main shaft mounting portion provided with a main shaft to rotate with the sleeve in a state fixed to the sleeve of the mechanical chamber to be tested on the upper end of the frame installed on the upper plate of the main body Wow; A main shaft driving unit which is located at one side of the main shaft mounting unit and has a driving motor connected to one end of a connecting shaft to which the main shaft of the main shaft mounting unit is coupled and a belt; Located in the storage space inside the main body, a water tank having a water inlet pipe leading from the outside of the main body and a recovery chamber leading from the pressure chamber and the mechanical chamber, a water pump provided with a water supply pipe leading from the water tank, a pressure chamber and Pressure accumulator head having a connecting pipe leading to the mechanical chamber, and installed on the connecting pipe leading from the pressure header to the pressure chamber to measure the flow rate of water supplied into the pressure chamber, and installed on the connecting pipe leading from the pressure header to the mechanical chamber and into the mechanical chamber. A test water pressure unit provided with a flow sensor for measuring a flow rate of water to be supplied; Located in front of the spindle mounting portion, the power switch for applying power to the drive motor and the water pump, the operation button for manipulating the operation of the drive motor and the water pump, the revolutions per minute of the spindle and the instantaneous water to the pressure chamber A controller provided with an indicator for supplying the supply amount and the cumulative flow rate supplied to the pressure chamber, the instantaneous water supply to the mechanical chamber, the cumulative flow rate supplied to the mechanical chamber, and the temperature of the test water circulated and recovered in the mechanical chamber; Dynamic integrity testing apparatus of the mechanical seal, characterized in that made. The method of claim 1, The pressure chamber of the mechanical seal mounting part includes an inlet for test water injection, a drain valve for discharge of test water, and a flange to which the fastening bolt is radially coupled, and the support is provided with a drip tray under one side thereof. Flange of the pressure chamber is a mechanical integrity test device of the mechanical chamber, characterized in that the separation and coupling freely on the pressure chamber can be used according to the specifications of the mechanical chamber to be tested. The method of claim 1, The main shaft of the main shaft mounting portion is located on the same line as the center of the pressure chamber of the mechanical seal mounting portion is to be coupled to the leading end of the connecting shaft, free to be separated and coupled from the connecting shaft, the frame is a stopper made of elastic material in front Dynamic soundness test device of the mechanical seal, characterized in that is provided. The method of claim 1, The test water pressure unit is provided with a thermometer and a line cooler on the recovery pipe leading from the water tank to the mechanical chamber, a filter is provided on the water supply pipe of the water pump, a pressure regulator and a pressure gauge is provided on the connection pipe of the pressure header. Dynamic soundness tester of mechanical seal. The method of claim 1, The control unit is a dynamic soundness testing apparatus of the mechanical chamber, characterized in that the interlock is installed between the drive motor operation button and the water pump operation button.

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