CS212366B1 - Connecting the wedge to the non-rotating rising spindle of the gate valve - Google Patents

Abstract

The invention falls into the field of fittings and solves the connection of a wedge with a non-rotating rising spindle of a yoke valve. The essence of the invention lies in the fact that the connection of the wedge with the spindle is solved in the form of a bayonet lock. The spindle head is formed by a non-collar, provided with flat longitudinal surfaces, which is placed in the wedge in a recess of a rotary shape, the cylindrical inlet opening of which is also provided with flat surfaces, while the largest cross-section of the spindle collar corresponds to the cross-section of the inlet opening.

Description

The invention relates to the connection of a wedge with a non-rotating rising spindle of the yoke spool.

The connection of the wedge to the non-rotating rising spindle of the yoke slide is normally accomplished by a lock in the form of a rotating collar and two parallel surfaces formed on the spindle head, which fits into a prismatic recess in the wedge. The collar ensures the proper connection of the wedge to the spindle, while the parallel surfaces prevent the spindle from rotating, as the wedge is directed by a guide in the slide body.

The above-mentioned lock is provided, for example, in an anvil of the upper part of the wedge, and the spindle head is inserted into the recess in the direction of the slide axis. However, this construction solution increases the construction height of the closing node and thus of the entire slide. The lock can be provided directly in the wedge and the spindle head is inserted into the recess in a direction perpendicular to the slide axis.

However, this solution significantly reduces the stiffness of the wedge in the area of the sealing surfaces, which adversely affects the tightness of the slide.

The above-mentioned drawbacks of the known solutions are essentially eliminated by the invention, which is to connect the wedge to the non-rotating rising spindle of the yoke gate, consisting of a wedge provided with a recess and a spindle provided with a rotating collar. and that the spindle collar is provided on its periphery with at least two longitudinal surfaces corresponding to the planar surfaces of the inlet opening of the wedge recess.

It is a further object of the invention that the cross section of the inlet opening of the wedge recess is greater by the sliding clearance than the largest cross section of the spindle collar.

It is a further object of the invention that the axial cross-section of the wedge recess chamber is greater by the sliding clearance than the largest axial cross-section of the spindle collar.

The yoke extension of the slide valve is provided with a lateral guide in which the locking lever is fixed slidably fixed to the slide valve.

The higher effect of the invention can be seen in the fact that the proposed connection of the wedge with the non-rotating rising spindle of the yoke spool ensures high wedge stiffness and thus higher tightness of the spool at low overall height of the whole fitting. In addition, the assembly of the spool is facilitated.

An example of a particular embodiment of the invention is shown schematically in the drawings, wherein FIG.

Fig. 2 shows a detail of the wedge with the spindle head in the disassembled state; Fig. 3 shows the assembled wedge with the spindle of Fig. 2 in the assembled state; Fig. 4 is a cross-section of the joint of Fig. 3 in the AA plane; and Fig. 5 shows a detail of the connection of the wedge to the spindle of the slide including a detail of the spindle lock against rotation.

The slide body 2 is provided in its upper part with a cover 4 with a yoke extension 4, in which the spindle nut 4 is housed 4 3®. ^{In the} cover 4 ^{there is} also a packing 2 with a packing lid 8. The spindle nut 6 and the packing 2 a spindle 2 which is provided with a locking lever 10 in the area of the yoke extension 4 into the inner space of the valve body.

A slide wedge 14 is mounted in the slide body 2 and is detachably connected to the lower end of the spindle 2.

Spindle 2 the spool 2 is provided with a collar 12 of the frustoconical and cylindrical shank n, which is located between the large base of the collar 12 and the actual spindle 2 · The collar 12 of the spindle 2 3 ^is provided with two parallel longitudinal surfaces 41 »whose perpendicular distance is equal to the diameter of the shank 13 .

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The wedge 11 of the slide 2 is provided with a central recess 15 consisting of a cylindrical inlet opening 16 provided with two parallel planar faces 14 and a frusto-conical chamber 18 whose larger base adjoins the inlet opening 16 of the recess 15.

The radius of the inlet opening 16 is greater than the sliding clearance greater than the largest radius of the collar 12 as well as half the perpendicular distance of the planar faces 14 of the inlet opening 16 by the sliding clearance greater than half the perpendicular distance of the longitudinal surfaces 17 of the collar 12. 11. extending perpendicularly to the planar surfaces 14 of the inlet opening 16 with a sliding clearance of a branch greater than the largest axial cross-section of the spindle collar 12 including its shaft 13.

The yoke extension g of the cover g of the slide 2 is provided with a lateral guide 19 in which the locking lever 10 is mounted slidably fixed on the spindle g of the slide 2. The locking lever 10 is forked and is provided with a tongue 20 mounted in a groove formed in the spindle g. and a clamping screw 21 for securing the forked end of the locking lever 10 to the spindle g of the slide 2.

The positioning of the locking lever 10 relative to the spindle g of the slide 2 can be done in another way, for example by replacing the tongue 20 with a pin or by adjusting the contact surfaces of the locking lever 10 and the spindle g in the shape of a circular segment or polygon.

The connection of the wedge 11 to the spindle g is made by inserting the spindle flange 12 through the inlet 16 into the chamber 18 of the wedge recess 15 by subsequently rotating the spindle flange 12 in the recess 15 of the wedge 11 by 90 ° and securing the spindle g. g of the slide g, which also serves as an indicator of the position of the wedge 11 of the slide g in the slide body 6.

When inserting the spindle flange 12 into the wedge recess 15, the longitudinal surfaces 17 of the spindle flange 12 must be oriented parallel to the planar surfaces 14 of the inlet opening 16 of the wedge recess 15.

Claims (4)

Object of the invention Connection of a wedge with a non-rotating rising spindle of the yoke gate, consisting of a wedge provided with a recess and a spindle provided with a rotating collar, characterized in that the recess (15) of the wedge (11) is formed by a cylindrical inlet (16) provided with at least two planar surfaces (14) and, on the other hand, a chamber (18) of rotational shape which adjoins the inlet (16) and that the collar (12) of the spindle (9) is provided with at least two longitudinal surfaces (17) corresponding to planar surfaces ( 14) an inlet opening (16) of the recess (15) of the wedge (11). Connection according to claim 1, characterized in that the cross-section of the inlet opening (16) of the recess (15) of the wedge (11) is greater than the largest cross-section of the collar (12) by the sliding clearance (9). Connection according to Claims 1 and 2, characterized in that the axial cross-section of the chamber (18) of the recess (15) of the wedge (11) is greater than the largest axial cross-section of the collar (12) of the spindle (9). Connection according to one of Claims 1 to 3, characterized in that the yoke extension (4) of the slider (2) is provided with a lateral guide (19) in which the locking lever (10) is mounted slidingly fixed to the spindle (9). (2). 3 sheets of drawings