SU1158810A2 - Stationary fluid-type seal - Google Patents

Abstract

1. PARKING SEAL OF THE CANDLED TYPE according to ed. St. N806963, characterized in that, in order to increase the reliability of fixing the spring and isolating it from working cpejjfA tfn at the same time — increasing the efficiency and reliability of opening the cuff when starting the unit and closing when it stops, the annular protrusion of the support element is made of two parts -. The other parts, one of which in the form of an annular collar, is made integrally with the support element and is placed between the ends of the cuff sponge and the reference element, and is designed as an annular slotted between the spring and end of the support element of the elastic ring. 2. The seal according to claim 1, distinguishing from the TCM that the elastic ring is made of a cuff material.

Description

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00 The invention relates to a sealing technique, in particular to seals of rotating shafts. The aim of the invention is to increase the reliability of fixing the spring and isolate it from the influence of the working medium while increasing the effectiveness and reliability of opening the cuff when starting the unit and closing it when it stops by performing a restriction on the movement of the elastic element, preventing the working medium from being accessed while increasing by placing a mass movement limiter, deforming their sealing elements and increasing the stiffness of the cuff sponge. The drawing shows a schematic night seal. The cuff 1 is installed in the sleeve 2 together with the supporting element 3 and secured with a spring ring 4. The sleeve 2 is fastened to the shaft 5 and sealed relative to it, for example, by means of a seal 6. The elastic sponge 7 of the cuff, having a working edge 8, is pressed under the action of a bracelet the spring 9 to the annular protrusion 10 of the casing P of the unit and provides, in the absence of rotation of the shaft, a reliable overlap of the gap between the casing 11 and the shaft 5, preventing the working medium from leaking out of the sealable cavity 12. In the sponge 7 of the cuff there is an annular cavity 13, With the help of an annular slot 14 in the direction opposite to the sealing cavity 12.. The spring 9 is installed in the annular cavity 13, and additional weights 15 are placed inside the spring. The supporting element 3 is made of a composite of two mating parts, one of which 16 is in the form of an annular collar integral with the supporting element 3 and placed between the plane the end face 17 of the cuff section 1 with an annular slot 14 and the plane of the end face 18 of the support member 3, and the other is filled as an elastic member material placed between the spring 9 and the plane of the end face 18 of the support member 3 and the filling ring slot 14 and of the same as the lips ka cuff. A cuff 1 is associated with a limiter of radial deformation of the sponge 7, formed inside the ring 20, the inner diameter of which is larger than the outer diameter of the sponge 7, the cuff, for example, by the amount of radial tension that occurs when the working edge of the cuff 7 of the cuff 11 contacts. The role of the radial deformation limiter of the cuff sponge 7 in the area of the annular slot 14 is performed by the ring 19 together with the annular collar 16. On the shaft 5, a dynamic seal can be installed, for example, in the form of a screw pump or impeller with blades 21, which can be performed together with sleeve 2 or separately, and sealed relative to sleeve 2 by means of seal 6. When spring 9 is installed in the annular cavity 13, the ring 19, filled in the annular slot 14, plays the role of a pusher and limiter its movement, which facilitates the installation of the spring 9, and also prevents it from jumping off during installation and during the sealing operation. One hundred night seal works as follows. With a stationary shaft 5 of the unit, the metering of the working medium under pressure in the cavity 12 is prevented by means of a cuff, the sponge 7 of which contacts the working edge of the unit 11 with the action of the spring 9 and the pressure of the working medium with its working edge 8. In this case, the axial movement of the sponge 7 and the spring 9 under the action of the working pressure is limited by an elastic ring 19, which can be made of the same material as the cuff, for example rubber with appropriate properties. A ring 19 placed between the spring 9 and the plane of the end face 18 of the support member 3 together with the annular shoulder 16 associated with it, made in one piece with the support member 3 and placed between the plane of the end face 17 of the jaw 7 portion of the cuff 1 and the plane of the end face 18 of the support member 3 The radial movement of the cuff sponge 7 is limited by the pressure of the working medium. When the shaft 5 rotates together with the sleeve 2 associated with it, the supporting element 3, the ring 19, the cuff 1 with the sponge 7,:, spring 9 with additional weights 15, the ring 20, the spring ring 4 and the impeller with blades 21, centrifugal forces arise from the total mass of the sponge 7 cuff and deforming it in the radial direction until the sponge 7 comes into contact with the ring 20. This cuff opens, i.e. the contact of the working edge 8 of the jaw 7 of the cuff with the annular protrusion 10 of the housing 11 of the unit is interrupted and the working | 8 at nominal revolutions, shaft 5, and the necessary tightness is ensured by dynamic sealing.

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By reducing the shaft speed in the process of stopping the unit, the centrifugal forces decrease, the spring 9 influences the cuff sponge 7, ensures its radial deformation towards the shaft axis and the working lip 8 of the cuff 7 of the cuff with the annular protrusion 10 of the housing 11 contacts. cavity 12 in front of the cuff while reducing the efficiency of the dynamic sealing work pressure of the working medium.

In the process, the spring 9 is sewn in the annular cavity 13 of the sponge 7 ring

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19, for 1 / l1 of the ring-shaped slot 14, from the influence of the working medium, thus avoiding the corrosion of the spring 9 and the reduction of its elastic characteristics.

The restriction of the radial deformable when sponge is stretched with the help of the ring 20 helps to accelerate the closure of the cuff and to reduce the leakage of the working medium from the compacting cavity 12 in the process of stopping the unit when the diaamic seal significantly reduces its effectiveness.

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Claims (2)

1. PARKING SEAL 'CUFF TYPE by ed. St. No. 806963,. characterized in that, in order to increase the reliability of fixing the spring and isolating it from the influence of the working medium while increasing the efficiency and reliability of the opening of the cuff when starting the unit and closing when it stops, the annular protrusion of the supporting element is made of two conjugated parts, one of which, in the form of an annular collar, is made in one piece with the support element and placed between the ends of the lip of the cuff and the support element, and the other is made in the form of a placed and annular slot- between the spring end of the elastic support member ring. 2. Seal pop. 1, the fact that the elastic ring is made of cuff material. > 1 1158810