SU1585604A1 - Combination packing - Google Patents

Abstract

The invention relates to a sealing technique and may find application in pump seals and chemical apparatus. The aim of the invention is to simplify the design by eliminating a separate mechanism for moving a one-hundred-night mechanical seal. The seal contains a shaft 1 on which a step sleeve 2 is installed. In the bore of the housing 3 there is a collar 4 arranged axially floating relative to the housing 3. At the end of the atmosphere, the flange 5 with the workpiece is rigidly fixed at the end of the atmosphere. The flange 5 is lifted by the springs 6 and is fixed against rotation by the lead 7. On the sleeve 2 from the atmosphere side, a ring 9 is mounted on the end face one hundred night seal. During operation, a vacuum is created in the cavity formed by the rotor end of the labyrinth pump and the flange 5, and a pressure greater than or equal to the pressure before compaction is created in the cavity formed by the collar shoulder 4 and the end of the pump rotor. The specified pressure acts on an annular surface enclosed by diameters D y and D p, a large area of an annular surface limited by diameters D y and D o, which is influenced by fluid pressure before compaction. As a result, the sleeve 4 is displaced towards the flow part and the contact in the one-hundred-night face seal is opened. 2 hp f-ly, 1 ill.

Description

The invention relates to a sealing technique and can be used in pump seals and chemical equipment.

The purpose of the invention - to simplify the design by eliminating separate mechanical hand moving mechanism ⁵ lotneniya yn.

The drawing shows a combined seal, General view.

A step sleeve 2 is installed on the shaft 1, the middle part of which, having the largest diameter, is the rotor of the labyrinth-vortex pump. In the bore of the housing 3 there is a ferrule 4 of a labyrinth vortex pump (seal). The cage 4 is made axially floating relative to the housing 3. On the side of the atmosphere at the end of the casing 4, a flange 5 with a working belt of the mechanical parking seal is rigidly fixed. The flange 5 is lifted by the springs 6 and fixed by a lead 7. The ring 9 of the mechanical seal is installed in the sleeve 8 on the sleeve 2 from the atmosphere side 20 of the sphere.

The holder 4 is made stepwise, and its stage sealed relative to the housing 3 has a diameter d & smaller than the thread diameter d _{p of the} working part of the holder. 25 The diameter d _{r of the} working girdle of the mechanical seal ring made on the flange 5 is less than or equal to the diameter ίζ of the outer, cage step 4.

The device operates as follows.

When parking under the action of springs 6 and the pressure of the sealed fluid acting on the annular surface limited by the diameters dp and d _o , the cage 4 with the flange 5 moves towards the atmosphere and the mechanical seal ring made on the specified flange is pressed against the counter ring 9. When operation of the unit, i.e., when the shaft 1 is rotated in the cavity from the end of the parking seal formed by the end face of the rotor of the labyrinth-vortex pump and flange 5, a vacuum is created, and in the cavity from the side of the flow part, bathing the shoulder of the cage 4 and the end face of the rotor of the labyrinth-vortex pump, creates a pressure greater than or equal to the pressure before sealing. The specified pressure acts on the annular surface, limited by diameters d _p , greater than the area of the annular surface, limited by diameters dujVt d _a , on which the fluid pressure acts before sealing. As a result, the cage 4 is shifted towards the flow part and the contact in the parking mechanical seal opens.

Claims (3)

Claim 1. The combined seal containing the housing, sequentially installed dynamic axial labyrinth-vortex seal with a cage and a parking end seal with a working belt and with an axially movable part, characterized in that, in order to simplify the design, the cage of the labyrinth-vortex seal is made axially floating relative to the body, and its end from the atmosphere is connected to the axially moving part of the parking mechanical seal. 2. Seal by π. 1, characterized in that the cage of the labyrinth-vortex seal is made stepwise in the diametric section, and the outer diameter of the stage from the liquid side, sealed relative to the housing, is smaller than the inner diameter of the cutting of the cage. 3. The seal according to paragraphs. 1 and 2, characterized in that the inner diameter of the working belt of the mechanical seal is less than the diameter of the outer stage of the cage.