RU2604778C1 - Test bench for end seals of shafts of circulating pumps - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building, particularly, to benches for testing end seals of shafts of circulating pumps. Test bench for end seals of shafts of circulating pumps comprises a pedestal with a housing. In housing there are vertically installed two supports shaft. On shaft of stand there is a bushing-simulator of pump shaft. End seal of pump is installed on bushing-simulator and pressure housing. Motor is arranged in lower part of stand and is connected to shaft of stand via coupling and with pressure housing through a support. Pressure housing is equipped with power shaft, in which there are shaft supports. In upper part of pressure housing and shaft there is a groove seal, consisting of partition and reflector, end seal is supported on bushing-simulator through an adjustment ring. Between motor and shaft through adjustment ring there is a flexible coupling, and pressure housing is installed on base through a system of wedge-like washers.

EFFECT: higher quality of performed tests of end seals and higher reliability of stand.

1 cl, 1 dwg

Description

The invention relates to the field of engineering, in particular to stands for testing mechanical seals of shafts of circulation pumps.

A well-known test bench for mechanical seals of shafts of circulating pumps, containing a pedestal with a shaft horizontally mounted on it on the bearing bearings, while a tested mechanical seal and a drive motor are connected to the shaft through the coupling (see, for example, A.I. Golubev, Mechanical seals rotating Valov, Moscow, Mechanical Engineering, 1974, pp. 177-178).

This design of the stand provides testing of mechanical seals of shafts of horizontally located circulation pumps, however, if the circulation pump and mechanical seal are located vertically, such a stand does not fully represent the tests being carried out, since the weight of the parts of mechanical seals significantly affects the performance of the seal.

A test bench for mechanical seals of shafts of circulation pumps is known, containing a pedestal with a shaft vertically mounted on it on the bearing bearings, while the tested mechanical seal and a drive motor located on top are connected to the shaft through the coupling (see, for example, A.I. Golubev, Mechanical seals of rotating shafts, Moscow, Engineering, 1974, pp. 181-182).

The given design of the stand provides representativeness of tests of vertical pumps, however, due to the fact that the drive motor is located on top, the dismantling of the mechanical seal is much more complicated for its replacement, revision, etc.

A well-known test bench for mechanical seals of shafts of circulation pumps, containing a pedestal with a power housing and a shaft mounted vertically on three bearings, while the sleeve-simulator of the shaft of the circulation pump is installed on the shaft, the tested mechanical seal of the circulation pump is installed on the sleeve-simulator and on the power a housing, an electric motor connected to the main shaft through the coupling and to the power housing through the bed, is located at the bottom of the stand (see, for example, Chinese patent No. CN 101649833, IPC F04B 51/00, published Van 17.02.2010).

This design provides a more affordable mounting and dismounting of the tested mechanical seal, however, has a number of disadvantages.

Firstly, all parts of the stand (pedestal, power case, seal) are interconnected rigidly and without adjustments, which can lead to distortions during installation, to a violation of hydraulic loads on the test seal and to distort test results.

Secondly, since leakage from the seal under test is not provided, this can lead to flooding of the bearings and motor below and disable it.

Thirdly, the installation of the third bearing is problematic without measuring the true dimensions, which can lead to its overheating and failure.

The technical result of the invention is to eliminate these drawbacks, in particular to improve the quality of the tests of mechanical seals and increase the reliability of the stand.

The specified technical result is achieved by the fact that in the well-known test bench for mechanical seals of shafts of circulation pumps, containing a pedestal with a power housing with a shaft placed vertically on two bearings, a sleeve simulator of the pump shaft mounted on the shaft of the stand, a mechanical seal of the pump mounted on simulator sleeve and power case, as well as an electric motor located in the lower part of the stand and connected to the stand shaft through the coupling and with the power case through the bed, the power case is equipped with a shaft, into the cat The shaft mounts are installed, a slotted seal consisting of a baffle and a reflector is installed in the upper part of the power housing and the shaft, the mechanical seal is supported on the simulator sleeve through the adjusting ring, a flexible coupling is placed between the electric motor and the shaft through the adjusting ring, and the power housing is mounted on a pedestal through a system of wedge washers.

The invention is illustrated in the drawing, which shows a longitudinal section of the proposed stand.

The test bench for mechanical seals of shafts of circulation pumps contains a pedestal 1 and a power casing 2. In the power casing 2, the shaft 3 is fixed on two bearings made in the form of rolling bearings 4 and 5, which are fixed in the shaft 6, which occupies the center of the power casing 2. On the shaft 3 mounted sleeve-simulator 7 of the pump shaft. The mechanical seal 8 is supported on the simulator sleeve 7 through the adjusting ring 9. The mechanical seal 8 is connected with the power case 2 with the lower part 2. A slotted seal 10 is located in the upper part of the power case 2 and the shaft 3, which consists of a baffle 11 installed in the case 2, and a reflector 12 fixed on the shaft 3. The electric motor 13 is mounted on a bed 14, which is connected to the lower part of the power housing 2. The shaft 3 is connected to the shaft 15 of the electric motor 13 by a flexible coupling 16 through the adjusting ring 17. In the upper part of the power housing 2 made radial hole 18.

The power housing 2 is mounted on pedestal 1 through a system of wedge washers 19. The shaft seal 8 is equipped with a built-in refrigerator 20. To supply the locking fluid, the seal 8 has a hole 21. To drain leaks from the lower and upper stages of the seal 8, holes 22 and 23 are provided in it. 8 is attached to the shaft with a nut 24. The upper part of the seal is closed by a transparent cap 25.

The proposed design works as follows.

The assembly of the stand is carried out from the power housing 2, in the shaft 6 of which the shaft 3 is installed with a slotted seal 10 on two bearings 4 and 5. Then, the frame 14, the flexible coupling 16 and the electric motor 13 are installed after measuring the true size of the flexible coupling 16 and trimming the adjusting ring 17. In this way, the flexible coupling 16 is mounted on the shaft 15 without distortions and stresses. The whole assembly of the power casing 2 and the motor 13 is turned over and mounted on the pedestal 1 through a system of double, or bevelled, wedge washers 19. Adjusting the wedge washers 19 allows you to set the power case 2 in the horizon with high accuracy. The simulator sleeve 7 is mounted on the shaft 3. According to the true size specified in the seal 8, the ring 9 is cut and placed on the simulator sleeve 7, on which the rotating part of the seal 8 rests, and the lower end of the seal 8 coincides with the upper end of the power housing 2. This position of the seal 8 eliminates the impact of parts of the stand on it. The seal 8 is fastened with a nut 24 and covered with a transparent cap 25 to monitor the process of accumulation and prevent leakage from splashing.

After connecting the service systems, power supplies and feeding the seal 8 of the locking medium into the hole 21, the stand is ready for operation.

When rotating, the seal 8 works without load due to installation on the cut ring 9. The heat generated by the seal 8 is removed by the built-in refrigerator 20. The leakage of the locking medium is discharged through holes 22 and 23. In case of an emergency associated with an increase in leakage from the lower stage to a hole is provided for the power housing 18. The working part of the power housing 2 is protected by a gap seal 10, the reflector 12 of which reflects emergency leaks during rotation, and the baffle 11 protects the shaft 6 when stopped stand. In protected shaft 6, bearings 4 and 5 have been running on grease for a long time. In this case, accidental leaks on the flexible coupling 16 and the electric motor 13 are completely eliminated.

A flexible coupling 16, mounted on the shafts 3 and 15 due to trimming the adjusting ring 17, is without additional loads. The flexible coupling installed in this way has a longer life, and the antenna connected to it transmits an electromagnetic signal to the receiving device.

The stand assembled in this way works without fail and reliably for unlimited time.

Claims (1)

A test bench for mechanical seals of shafts of circulation pumps, containing a pedestal, a power casing vertically mounted on two shaft supports, with a sleeve simulating a pump shaft mounted on a shaft, a mechanical seal mounted on a sleeve simulator and a power casing, and an electric motor located in the lower part of the stand and connected through the coupling with the shaft and through the bed with the power casing, characterized in that the power casing is equipped with a shaft in which the shaft supports are installed, in the upper part of the power casing and the shaft A slotted seal consisting of a baffle and a reflector is installed, the mechanical seal is supported on the simulator bushing through an adjusting ring, a flexible coupling is placed between the electric motor and the shaft through the adjusting ring, and the power case is mounted on a pedestal through a system of wedge washers.

Images