SU478971A1 - Vacuum valve - Google Patents

Description

one

The invention relates to reinforcement and may find application in the home building industry, producing vacuum backed reinforcement.

Clans are known to have locking bodies which are made in the form of a hermetic disk formed by a base, which serves to drive the drive unit, to which, using flexible elements on both sides, attachment discs that have non-detachable surfaces.

The aim of the invention is to reduce the size of the clan.

This is achieved by the fact that, in the proposed vacuum valve, the plate of the constrictor body is made in a vnde rigid Danish, integrally connected by a flexible element with a ring, with the help of which the plate is sealed in the carrier.

In such a way, the valve allows unloading of welded bows from the significant efforts that occur to the work of the vaulting organ in the “Closed” position, which increases its incidence in operation.

The whole dead body is rigidly fixed with the help of a rim on monolithic water, and the working medium (in the proposed valve this is mercury) is supplied to the shut-off node through an autonomous pipeline, which allows

2

The movements behind the hub are made in the inside of the ship, loosely laid on one side of the shaft section in the space between the body of the clan and on the vodna organ.

On fng. 1 knockout proposed clan in section; pas figs. 2 - section aa-a on fng. one; in fig. 3 - node I on fng. 2; in fig. 4 - half-faces, a variant of a vinolpeni.

In case 1 of a welded structure consisting of two bearing 2 and 3 and two thin 4 and 5 lateral and two bearing flanges 6 and 7 of the flow through hole 8, a valve body 9 is installed, made in the form of a flat

cylinder. The closed organ (see Fig. 2) consists of a working plate 10 with a removable sealing insert 11 and a nun plate 12, which are sealed 13 on 14 in air-tight with a welding machine. Each

from 10 n 12 plates it is made of a rigid dns 15 central part, a ring 16 and a flexible section 17 in the range of a bellow of a bellows monolithically connecting a hard disk with a ring. On the outer part of the rings applied

the thread with which the DSK is inserted into the inner thread of the onrava 13.

Drove 14 annular organ. 9, made in the form of a yoke, attached to the shaft 18,

which is installed in the supports 19 and 20, of the recess in the sockets made in the flanges 6 and 7. On the flanges 6 and 7, stops 21 and 22 are installed, restricting the movement of the receptacle 9.

The sidewall 2 of Cornus 1 with a nominal pipe 23 with a flange is attached to the Cornus 24 of the Mprvod assembly, CO-standing out of the worm-shaped gear with a 25 worm screw and 26-worm wheel, the inner part of which is made in a thread: The shaft 27 of the actuator is mounted with an IB nanowel 28, at the end of which the projections 29 are made, which are included in the longitudinal grooves made along the entire length of the rod, and prevent its turning.

One end of the rod 27 with the roller 30 is in contact with the bodil 14 and with the flange 31 and bellows 32 seals the clan cavity of the environmental axis.

Cornus 24 consists of two monolithically connected parts, the IB of one of the wormworms is located and this part of the cord is rigidly fixed through the flange of the guide 28 with the flange 33 of the string 23, and the other part is made in the form of a glass. At the end of this part of the Cornus of the outer surface, a thread is made and four through grooves are cut with four protrusions 34 of flange 35 inside them, on which is fixed a hydraulic cylinder 36, which has been removed from the ring-reinforced bellows. The protrusions 34 are screwed onto the threaded part of the casing on both sides of the body, nuts 37 and 38 are screwed with the help of which the longitudinal position of the hydraulic cylinder relative to the end of the stem 27 c is fixed to fix this position. Guide) Assessing the C 1abgen with a co-spring-loaded spring device, which consists of a set of cup springs 39 laid on the crown 40, which in turn is installed with the possibility of longitudinal movement in the tubular protrusion 41 of the hydrocyliidre. The cavity of the bellows of the hydrocyliidre with the help of pipe0: water 42 and 43 is combined with the cavity of the porphyry 9. The field of the filling is filled with a hydraulic fluid, such as mercury. Pipeline 42 has a mapper 44. Pipeline 43, located in the innermost floor of the valve between the carrier 14 of the shut-off assembly and the housing flange 6, is produced in the form of a cylindrical helix that fits the shaft 18 freely.

In order to implement the kinematic connection between the rod and the shut-off unit, as well as to enable the clan to work in any spatial position on the rod and on the carrier 45, an extension spring 46 is installed.

Valve works as follows.

When rotating the cage 25 from the position shown in FIG. 1 and FIG. 2, against the clock arrow, the worm gear 26 comes in rotation, which, / interacts with the threaded part of the stem 27, causes it

move left. The roller 30 of the rod, which is in a kopact with iodil 14 under the action of the forces n) of the tension rod 46, causes the locking member 9 to rotate,

mounted in onors 19 and 20 on the shaft 18. In the position when he 13 of the shut-off assembly enters KOinaKT with the stop 22, the valve is in the position “Open.

Nr rotation of the worm 25 no time

On the arrow the red wheel 26 does not move the rod in the opposite direction. The spring 46, not allowing the roller 30 to come out of contact with the carrier 14 of the locking arm, carries him along with him, and he, turning in the hems, moves to the flow orifice 8 of the valve. The KOHTaiKTe horned organ with the norm 21 (this position is shown in Fig. 1) the end of the stem 27 comes into contact with the saliva 40 of the hydrocyliidra 36. When the screw 25 is rotated

in the same direction, the stem roller 30 comes out of contact with the planet carrier 14, the spring 46 is pressed and fixes the position of the locking member 9 relative to the bore hole 8. At the same time, the end of the rod 27 that does not move in the direction of the hydraulic cylinder 36 compresses the hydraulic cylinder bellows.

Hydraulic fluid flow from the cavity of the bellows but pipelines 42 and 43 in the cavity

the locking knot, sets in motion the plates 10 and 12 in the direction of the winding hole 8.

After contact between the plates 10 and 12 with the saddles, the worm 25 continues to rotate in the same

In particular, the rod 27, displaced in the direction of the hydro-lipid, now deforms the disc springs 39. The compression of the springs 39 is brought to the calculated value, which can be controlled by the pressure gauge 44, and the stem stops rotating the screw. The forces of the springs 39 through the hydraulic system and the plates are transmitted to the stop plate 12, and the same working plate 10, which with the help of the gasket 11 11 hermetically does not open the annerture of the driving hole 8. As a result of the warming up of the clan pack and shrinking of the gasket, the definite force between the saddle m and the sealing gasket remains practically constant, such as: It is compensated for due to the power reserve of the springs 39. When the screw is rotated counterclockwise, the rod 27 does not move in the opposite direction. Following the outgoing end of the rod to its original position

the spring 39 and the pin 40 come. Thereafter, under the action of the compression spring 47, which is installed between the flanges-plugs of the hydraulic motor 36, straighten the bellows of the hydraulic cylinder. In the same. the time under the action of the plate-like mechanism of returning the locking assembly of the plate 10 and 12 is shifted towards each other until it contacts each other, i.e., it returns to its initial position. There is no hydraulic fluid up to

this in the cavity of the locking unit 9, through pipelines 43 and 42 flows into the cavity of the hydro-lipidra 36, which by this time comes to its initial position. At this point, the roller 30 comes into contact with: the carrier 14 of the locking assembly of the clalan, and their further operation proceeds from the position shown in FIG. 1 and 2.

The subject of the invention is a vacuum valve driven by a hydraulic cylinder with a plate-mounted closure body mounted in a housing mounted on a carrier, which is mounted on a shaft in a clan body, characterized in that, in order to reduce the size of the valve, the closure body is made in the form of a hard disk monolithically connected a flexible element with a ring, with iomond of which the plate is hermetically sealed in the rim of the carrier.

111- 30 31 29 32 25/56 55

FIG. I 34 2 4 I 1813 P IP15

vl.1

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Have

ig.5 d 12 If ig. 2

Figl 1b