SU1551920A1 - Fase seal of vertical shaft - Google Patents

Abstract

The invention relates to a sealing technique, namely to the seals of the rotating shafts of submersible electric motors of pumps for pumping fluid from wells and wells. The purpose of the invention is to increase reliability by allowing pressure release in the inner chamber. When the pressure in cavity "A" increases, the sealing element 3, compressing the spring 5, leaves the cylindrical part of the bore, ensuring pressure relief in cavity "A." After the pressure drops, the sealing element 3 returns to the cylindrical part of the bore under the action of the spring 5. 1 hp f-ly, 1 ill.

Description

I The invention relates to a sealing technique, as well as to seals of rotating shafts of submersible electric motors designed to drive nabs for pumping fluids from wells and wells.

The purpose of the invention is to increase the reliability of the seal by providing the possibility of pressure relief in the inner chamber.

i The drawing shows the mechanical seal.

The mechanical seal contains a non-rotating friction ring G and a rotating friction ring 2 in contact with it. “An annular bore is made about a rotating friction ring 2, consisting of cylindrical and conical (bevel) parts, to which a sealing element (rubber ring) 3 is mounted, pressed against the rotating friction ring 2 by a washer 4 using a spring 5. Washer 4 weighed in MfeHT to an annular protrusion extending into the bore of the rotating friction ring 2 and in contact with the sealing element 3. The second spring 5 contacts the ferrule 6 having a socket on the side of the stop element 7, the inner surface of which is conical, B; which has a sealing element 8 in the form of a rubber ring of circular cross section in contact with the stop element 7. The stop element 7 is fixed by the ring 9 on the shaft 10.

Mechanical seal operates as follows.

The rotation of the shaft 10 through the sealing element 8 and the yoke 6 is transmitted to the rotating friction ring 2, which is pressed by the force of the spring 5 through the washer 4 to the non-rotating friction ring 1. The sealing element 3 seals the friction ring 2 on the shaft 10. The holder 6 is constantly pressed by the spring 5 to the sealing element 8, creating a constant tightness, which eliminates the influence of time on the change in adhesion to the shaft.

The washer 4 under the action of the force of the spring 5 holds the sealing element 3 in the bore of the friction ring 2.

With increasing pressure in the cavity A, the sealing element 3, compressing the spring 5, leaves the cylindrical part of the bore, providing pressure relief in the cavity A. As soon as the pressure in the cavity drops, the sealing element 3 again ¹⁰ moves the spring 5 into the cylindrical part of the bore.

Due to the possibility of depressurization in the inner chamber of the seal through the gap formed when the pressure increases between the friction ring 2 and the sealing element 3, as well as due to the transmission of torque from the shaft 10 to the friction ring 2 through the sealing element 8, constantly pressed by the conical surface clips 6, ²⁰ and reliability of consolidation increases.

Claims (2)

Claim 1. The mechanical seal of the vertical shaft 25, containing a guiding friction ring and pressed by a spring to it, a rotating friction ring mounted in a cage fixed to the shaft and interacting with the thrust element, a sealing element installed in a 30 ring bore of the rotating friction ring and preloaded by the spring by washers with an annular protrusion extending into the annular bore, characterized in that, in order to increase reliability, the wall of the annular bore is made with bevel 35 from the side of the washer. 2. Seal by π. 1, characterized in that it is equipped with a sealing element in the form of an elastic ring, and the inner surface of the cage from the thrust side 49 of the element is conical, while the sealing element is located between the thrust element and the conical surface.