SU806962A1 - Gasket-type parking seal - Google Patents

Description

one

The invention relates to a sealing technique, in particular to one hundred. temporary seals of rotating shafts.

A well-known night seal of the cuff-type with a clamping working edge of the cuff on the stand and opening it when the shaft rotates the devices l.

A disadvantage of the known construction is the comparatively low reliability of operation when it is disconnected and uniform compression of the working edge of the interacting surface with it, eliminating the possibility of a hydrodynamic effect preventing the wear of working surfaces and increasing the durability of the seal.

The purpose of the invention is to increase the reliability of opening the cuff while ensuring non-uniformity of compression by the working edge of the surface interacting with it. This goal is achieved due to the fact that the movable and opening devices are made in the form of a single node consisting of radically playing a game in the sides / axis

the shaft of the cargo / cuff fixed on the sponge and kinematically associated with the elements springing them. These weights can be made in the form of sleeve sleeves radially arranged in the cuff of the sponge, through the inner openings of which the rods pass, passed through spring loading elements, for example

0 springs, and fixed in the body part of the cuff.,

The weights can be made differently - in the form of ball-shaped elements, with which rods fixed to their cuffs, which pass them through the spring-loaded elements and which enter with the possibility of longitudinal movement to the cuffs made in the body part of the cuff, are rigidly connected.

In addition, to fix the maximum opening of the cuff jaws, mounting elements can be placed in the holes, which, when they are made, for example, in the form of threaded plugs, simultaneously serve as controllers for the degree of unevenness of the surface with the working edge of the surface interacting with it, which allows

affect hydrodynamics in the friction zone.

Figure 1 shows one of the possible embodiments of a seal; figure 2 is another option.

The proposed seal consists of a cuff 1, which is installed in a glass 3 rotating with the shaft 2. The working sponge 4 of the cuff with its working edge 5 interacts with the element 6 of the housing 7. The pressing and opening devices are made in the form of a single assembly consisting of weights 8 (or) 9, spring-loaded with the aid of spring-loaded elements, for example, springs 10, within which rods 11 pass.

In accordance with the first embodiment, see fig. 1) the loads are made in the form of sleeves 8, through the inner holes of which rods 11 pass, passed through springs 10 and secured in the cylindrical part of the bowl 3. in accordance with another embodiment (see .2) the weights are made in the form of washer element OOE 9, with which rods 1, which fasten them simultaneously to the cuff 1 of the cuff 1, are rigidly connected.

The rods are passed through the springs 10 and enter 3 holes 12 made in the cylindrical part of the cup, within which they have the possibility of longitudinal movement. To fix the extreme position of the rods and, consequently, maximize the opening of the cuffs. In the openings, movable, e.g. threaded, elements 13 and 14 are installed, which simultaneously control the irregularity of the working surface of the cooperating surface with it. when screwing in or. unscrewing element 14.

Other embodiments of the invention are possible, in particular with a slightly different attachment of the rods both in relation to the working edge and to the body part of the cuff or stgcan in which it is located. Combinations are also possible in various combinations of both the described embodiments.

The operation of the device is as follows.

In the absence of rotation of the shaft, the edge 5 of the cuff -1 with the help of springs 10, the stretching of which is limited on one side by the sleeves 8 of Fig. 1) or by the washer-like elements 9 (Fig.2) fastened to the sponge 4 and placed according to its parameter, is pressed to the outer the surface of the element 6 of the housing 7, which ensures reliable sealing between the shaft 2 and the housing 7 of the hydraulic aggregate. The magnitude of the force half edge 5 to

the outer surface of the element 6 of the housing 7 can be pre-adjusted by screwing or unscrewing the rods 11 in the first embodiment or the threaded elements 14 in the second embodiment.

At the beginning of the shaft rotation, the edge 5 of the sponge 4 is rubbing against the outer surface of the element 6. At the same time, the working edge 5 of the outer edge of the element is not compressed. 6 contributes to the occurrence of a hydrodynamic wedging effect in the zone of their contact, which allows reducing the total frictional force and wear of the working edge 5.

With a further increase in shaft speed, the working edge 5 under the action of centrifugal forces (applied to the sponge 4, due to the rotation of both the mass of the sponge 4 and the mass of parts fastened to it) overcomes the reduction force and moves away from the outer surface of the element 6, and its movement is limited during the second version of the design with threaded elements 13, in which the rods rest in the longitudinal movement in the radial holes 12. In the process of stopping the hydraulic unit and reducing the revolutions of the shaft, the total force from The spring and elasticity of the elastic sponge: and 4 overcomes the force from the action of centrifugal forces, and due to the limited stretching of the sponge 4, the working edge 5 sufficiently returns to its original position and. It begins to contact the outer surface of the element 6, which ensures that there is no leakage of the working medium in the process of reducing the efficiency of the dynamic compaction.

At the same time, in the zone of contact of the working edge 5 with the surface of the element 6, as well as at the beginning of rotation of the shaft, a hydrodynamic effect occurs (due to uneven distribution of the compressing force around the perimeter of the working edge 5), which reduces friction and wear of the working edge 5 at high tightness of the seal. .

Thus, the proposed design allows to significantly increase the reliability of operation, tightness and durability of one hundred night seal of the sleeve type.

Invention Formula

Claims (4)

1. One hundred night seal of the sleeve type with pressing the working edge of the assembly on the stand and opening it when the shaft is rotated by devices that are different By the fact that, in order to increase the reliability of opening the cuff while ensuring non-uniformity of cutting by the working edge of the surface interacting with it, the pressing and opening devices are made in the form of a single unit consisting of radially spring Hbix towards the axis of the shaft of the weights attached to the sponge of the cuff with spring-loaded elements. 2. The seal according to claim 1, wherein the weights are made in the form of sleeves radially arranged in the cuff of the sponge, through the internal openings of which the rods pass through the spring-loaded elements, for example springs, and fixed in the body part of the cuff. 3. Compaction according to claim 1, characterized in that the weights are made in the form of washer-like ele- gents, with which rods fixed to the sponge cuffs, passed through spring-loaded elements and entering with the possibility of longitudinal movement into radial bore inserts made in the case, are rigidly connected. 4. A seal according to claim 3, characterized in that mounting holes, for example, threaded elements, are placed in the holes for fixing the extreme uncoupling of the cuff and adjusting the non-uniformity of compression by the working edge of the surface interacting with it. five Sources of information taken into account in the examination 1. Golubev G; A., Kukin G.M. et al. Contact seals of rotating shafts, M.J Mashinostroenie, 1976, fig. 39, P03.4. Fng. { / V yy fi.i