RU176941U1 - STAND FOR TEST SEALING SEALS - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and is intended for testing stuffing box seals in gas and liquid media at high pressure. The technical result of the proposed utility model is expressed in the possibility of testing various sizes of the packing box section by replacing the stuffing box in the stuffing box, increasing the accuracy of testing stuffing box packing and rings, as well as in the possibility of collecting the leakage of the stuffing box medium and its supply to the device for measuring the amount of leakage. The packing test includes a stuffing box with a stem and stuffing box, a stem drive. The stuffing box is made in the form of a stuffing box and a high-pressure cup, interconnected as a detachable connection with conical sealing surfaces and fixed by means of a union nut. An annular groove is made in the pressure nut with a sealing ring installed in it, which has the possibility of sealing contact with the stem and with a sealing union nut mounted on the end of the pressure nut. A hole is made in the pressure nut to collect the leakage of the medium. Compared to the prototype, the proposed stand provides the opportunity to obtain more accurate test results, has a compact design, and is characterized by ease of use.

Description

The utility model relates to the field of mechanical engineering and is intended for testing stuffing box seals in gas and liquid media at high pressure.

A known bench for life tests of lip seals of hydraulic cylinders of the drive of a hydraulic manipulator of a forestry machine (RF patent for utility model No. 97529, IPC G01M 15/00, publication date 09/10/2010).

The stand is mounted on a frame. An electric motor is used as a drive. The hydraulic cylinder with a lip seal is equipped with adjustable valve-type throttles that provide a loading force that simulates resistance to movement of the working elements of the hydraulic manipulator, a hydraulic pump and a two-position distributor with automatic return to its original position. The hydraulic cylinder and the distributor are connected by high pressure hoses. The electric motor is connected to the hydraulic pump by means of a coupling. The working fluid from the tank with the help of a hydraulic pump is pumped into the distributor, from where, having worked out the test cycle in the hydraulic cylinder, it flows back into the tank.

The disadvantages of the stand are

1) the presence of a large number of high-precision moving parts and elements with high requirements for their reliability;

2) the high complexity of the maintenance of control valves and control valves for test control;

3) the inability to quantify the amount of leakage of the medium in the stuffing box operating under high pressure of the medium;

4) testing the stuffing box packing only on liquid media.

A well-known stand for life tests of stuffing boxes and lip seals and cylinder liners (RF patent for utility model No. 105446, IPC G01M 15/00, publication date 10.06.2011).

The stand is mounted on a frame on which a hydraulic cylinder with a rod and a piston is installed, on the working surface of which are tested cuff or stuffing rings. The reciprocating movement of the piston in the hydraulic cylinder is carried out using a hydraulic manipulator connected by a hydraulic system to a hydraulic pump and a two-position distributor. The piston is returned to its original position in the hydraulic cylinder using a calibrated spring. The amount of movement of the piston is regulated by throttle valves.

The disadvantages of the stand are

1) the high cost of the on-off distributor and control valves;

2) the presence of a large number of high-precision moving parts and elements with high requirements for their reliability;

3) the high complexity of the maintenance of control valves and a hydraulic manipulator for test management, coupled with the requirement of highly qualified staff;

4) the lack of the ability to quantify the amount of leakage in the stuffing box, operating under high pressure;

5) testing the stuffing box packing only on liquid media.

The objective of the utility model is to test various sizes of the packing box section by replacing the stuffing box and to reliably evaluate the tightness of the stuffing box.

The problem is solved in that the test bench for stuffing box seals, containing a stuffing box with a stem and stuffing box packing, the stem drive mounted on the frame, according to a utility model is equipped with a high-pressure cup, the installed stuffing box is made in the form of a stuffing box and a high-pressure cup connected between each other as a detachable connection with conical sealing surfaces, while the stuffing box has a persistent protrusion and is fixed in a high-pressure glass means of a union nut interacting with said thrust protrusion of the stuffing box and a screw thread made on the outside of the pressure cup, and the stuffing box is equipped with a compression nut, which has an annular groove with a sealing ring installed in it, with the possibility of sealing contact with the rod and with the sealing a union nut mounted on the end of the pressure nut.

A thrust washer is installed between the sealing union nut and the o-ring.

A hole is made in the pressure nut to collect a fluid leak.

The technical result of the proposed utility model is expressed in the possibility of testing various sizes of the section of the stuffing box packing by replacing the stuffing box in the stuffing box, increasing the accuracy of testing the stuffing box packing, and also in the possibility of collecting the leakage of the stuffing box medium and its supply to the device for measuring the amount of leakage.

The design of the utility model is illustrated by drawings, where in FIG. 1 shows a General view of the stand for research and testing of stuffing box seals and rings; in FIG. 2 - axial section of the stuffing box with the stuffing box installed in it; in FIG. 3 - variants of stuffing box for different sizes of stuffing box packing.

The stand for research and testing of stuffing box seals and rings contains a drive 1, consisting of an electric motor 2, a worm gear 3, a crank mechanism 4, a coupling 5, a rod 6, an stuffing box 7, a frame 8 (Fig. 1). The stuffing box 7 contains a high-pressure cup 9 (Fig. 2), which is connected by type of detachable connection to the conical sealing surfaces of the stuffing box 10, which are fixed to each other using a union fixing nut 11 that interacts with the thrust protrusion (not indicated in the drawings) of the stuffing box 10 and a screw thread (not indicated in the drawings) made on the outside of the high-pressure glass 9. The stuffing box 7 is fixedly attached to the brackets 14 welded to the brackets 14 using fasteners 12 and 13 frame 8. In the stuffing box 10, a seat is made (not indicated in the drawings) for installing the stuffing box 15, stuffing box 16, packing followers 17. The stuffing box 10 is equipped with a compression nut 18 in which a hole 19 is made for connecting the medium leakage measuring device ( not shown in the drawings) a leak of medium passing through the stuffing box 10. The pressure nut 18 has an annular groove (not indicated in the drawings) with a sealing ring 20 and a washer 21 installed therein, with the possibility of a seal th contact with the rod 6 and the sealing cap nut 22 mounted on the end portion of the locking nut 18. The supply fluid pressure (liquid or gas) is carried out through the opening 23 in glass 9 high pressure.

Stand for research and testing of packing and rings is as follows.

The high-pressure glass 9 is fixed in a vice (not shown in the drawings). The stuffing box 10 is fixed in the cup 9 by means of a fixing nut 11 interacting with the thrust protrusion of the stuffing box 10 and a screw thread made on the outside of the high-pressure cup 9. Sealing is provided as a detachable connection with conical sealing surfaces between the inner surface of the cup 9 and the outer surface stuffing box 10. In the stuffing box 10 install the rod 6, on the seat set gland ring 15, stuffing box seal 16 and ground axle box 17. On the thread made on the outside of the stuffing box 10, screw the compression nut 18 all the way and select all the clearances in the stuffing box 16. Using the fasteners 12, 13, the stuffing box 7 is attached by brackets 14 on the frame 8. In the ring groove push nuts 18, a sealing ring 20 and a washer 21 are installed, which are fixed with a sealing union nut 22. Using a coupling 5, the stem 6 is connected to the actuator 1. A device for measuring the amount of leakage of the medium, which may be caused, can be connected to the hole 19 in the pressure nut 18 A renewed during the test (not shown). Check the tightness of the leakage volume of the medium through the hole 19 using a device for measuring the amount of leakage of the medium (not shown in the drawings). With sufficient sealing of the stuffing box 7, the pressure is supplied in steps through the hole 23 to the high-pressure cup 9 to the nominal test pressure of the stuffing box 16. The leak in the stuffing box 7 is measured by a medium leakage measuring device (not shown in the drawings) through the hole 19. If the leakage is does not exceed the permissible value specified in the technical specifications or regulatory documents, include a drive 1, which transmits the movement of the rod 6 from the electric motor 2 through the worm gear 3, the coupling 5 and the curve shipno 4-crank mechanism that converts rotational motion into reciprocation, and is held time between cycles of reciprocating rod 6 moves to the values specified in the specification. If the leakage in the stuffing box 7 exceeds the permissible value when the number of cycles is less than indicated in the technical conditions, the test is stopped (the drive 1 is turned off, the pressure in the high-pressure nozzle 9 is released), the coupling 5 is disconnected. The pressure nut 18 is tightened with the initial torque value moment and re-check the tightness of the stuffing box 7. If the required tightness is not provided, increase the tightening force of the pressure nut 18. Measure the friction force of the stem 6 and stuffing box 16 when the tightening force of the pressure nut 18 is increased. The leakage volume is checked for leaks using a medium leakage meter (not shown in the drawings) connected to the hole 19 in the pressure nut 18. If leakage volume is tight, pressure is applied through the hole 23 steps to the nominal test pressure values. If the leakage does not exceed the permissible value, connect the actuator 1 and produce the operating time of the strokes of the stem 6 to the required values.

When running the required values of the stroke cycles of the stem 6 and leakage values not exceeding the permissible values, the tests are stopped (depressurize through the hole 23 and turn off the actuator 1). Measure the friction force in the connection of the rod 6 and the stuffing box seal 16. The amount of leakage through the hole 19, the shrinkage of the stuffing box seal 16, the tightening force of the compression nut 11, the friction force in the connection of the rod 6 and the stuffing box 16, the number of stroke cycles of the rod 6 to the first depressurization of the stuffing box 7 take as an operational characteristics of the stuffing box 7. These tests also allow you to evaluate the life of the stuffing box 7 at the parameters specified in the documentation. To test the stuffing box seals 16 of various cross-sectional sizes, the stuffing box 10 is replaced (Fig. 3). The external dimensions of the stuffing box 10 are identical, the seat (not indicated in the drawings) is made in accordance with the size of the studied stuffing box seal 16.

Thus, the stand allows you to test various standard sizes of the section of the stuffing box seal by replacing the stuffing box in the stuffing box and a reliable assessment of the tightness of the stuffing box.

The proposed utility model meets the requirements of industrial applicability, its implementation is possible on standard technological equipment.

Claims (3)

1. A test bench for stuffing box seals, containing a stuffing box with a stem, with stuffing box packing and with a nozzle for supplying test pressure, a rod drive mounted on a frame, characterized in that the stuffing box is made in the form of a stuffing box and a high-pressure cup connected between a type of detachable connection with conical sealing surfaces, while the stuffing box has a persistent protrusion and is fixed in the high-pressure cup by means of a union nut, interacting with said thrust protrusion of the stuffing box and a screw thread made on the outside of the high-pressure cup, wherein the stuffing box is equipped with a compression nut, which has an annular groove with a sealing ring installed in it, which has the possibility of sealing contact with the stem and with a sealing union nut installed on the end of the pressure nut. 2. The stand according to claim 1, characterized in that a thrust washer is installed between the sealing union nut and the o-ring. 3. The stand according to claim 1, characterized in that a hole for collecting a medium leak is made in the pressure nut.

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