SU446695A1 - Adjustable leakage mechanical seal - Google Patents

Description

one

There are known end hydrostatic seals with a fixed axial clearance, in the contact rings of which channels for supplying fluid to the friction zone are made. Their disadvantage is the need to use capillary chokes to provide self-regulation of the axial clearance.

The advantage of the proposed seal is that it eliminates the use of capillary chokes and increases the reliability of the seal.

The sealing of the proposed construction is characterized in that the chambers on the working surface of the sealing ring are made separate, and the number of supply channels is adopted by a smaller number of chambers.

Figure 1 shows the seal, a longitudinal section; in Fig.2 and 3, types A-A and BB in Fig. 1; Fig, 4 shows a variant of the sealing ring on the asymmetrical arrangement

the supply channels; Fig. 5 is a graph showing the pressure change in kai & g pax sealing ring.

The seal includes a housing I, a lid 2, a shaft 3 on which the rotary ring 4 is fixed, the stationary ring 5 is mounted on the lug 6 of the lid, sealed with a rubber ring 7, pushed by a spring 8 and fixed by rotation of a pin 9. There are a number of channels II, the output holes 12 of which are placed on the same diameter as the chamber 10. The number of channels is less than the number of cameras so that they can only communicate with cavity B part of the chambers. In the embodiment of the seal in Fig. 4, the outlet openings 12 are located asymmetrically with respect to the axis of rotation to create an additional hydrodynamic expansion of the rings.

The seal acts in the following manner.

As shaft 3 rotates through channels II, fluid from cavity V. is successively supplied to chambers 10. A graph of pressure changes in each chamber is shown in Fig. 5, where the maximum pressure is equal to the pressure in cavity B minus losses in channels II, and the minimum depends on the angular velocity of rotation and the number of channels.

The pulsating pressure in chambers 10 creates a hydrostatic force that expands the rings 4 and 3. The change in fluid pressure between the rings disrupts the balance of forces in the axial direction and changes the axial clearance, which causes a corresponding change in pressure in the chambers 10, and therefore a change in the forces that restore the balance and the initial gap between the sealing rings Nvrishtrichchre location of the channels Cpr.Q causes a slight inclination of the ring 5 and creates a hydrodynamic wedge, making it easier to unclench 5 for large crust rotation.

SUBJECT OF INVENTION

10Fold seal with adjustable leakage containing stationary and rotating sealing rings with fluid inlet to the working surfaces of the channels

15: on one and located on

upper friction chambers on another, characterized by

 that, in order to eliminate the use of

 capillary droEs and higher | and

20i are reliable in operation, the cameras on the working surface of the sealing ring are made separate, and the number of supply channels is smaller than the number of cameras.

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