RU2091652C1 - Shut-off valve - Google Patents

Abstract

FIELD: tight shutting-off of pipe lines. SUBSTANCE: hinged shut-off member is engageable with seat mounted in body and is connected with spindle of drive by means of hinge-slider. Body consists of two halves with flanges. Sectional shut-off member consists of disk equipped with cylindrical latches, bearing and hold-down member made in form of flange with skirt. Skirt is provided with L-shaped grooves located at angle to end surface of disk for tightly keeping the disk to seat by means of cylindrical latches received by above-mentioned slots. Outer race is located between flanges of body. Hinge-slider is secured on disk and is linked with outer race of bearing. Inner race is split with hold-down member secured on it and worm sector in its lower portion. Additional drive provided with worm is mounted on body in parallel with seat; worm is mounted for engagement with worm sector of hold- down member. EFFECT: enhanced reliability. 4 dwg

Description

 The invention relates to the field of valves and can be used on pipelines, tanks, apparatuses, etc. for hermetic overlapping of the section as a shut-off or non-return valve.

 Known check valve with a detachable body [1] consisting of two halves connected by flanges with studs. Between the flanges is a locking element in the form of a lattice, overlapped by clapper disks under the influence of their own weight.

 The known device can only be used as a check valve.

A known valve comprising a housing and a hinged locking member interacting with a seat installed in the housing and connected to the actuator spindle using a slide hinge [2]
A disadvantage of the known valve is the unreliability in operation and the complexity of the repair due to the lack of convenient access to the seat. The unreliability of its operation is due to the fact that the load from the pressure of the medium is transmitted mainly to the drive.

 The purpose of the invention is to increase reliability, reduce the complexity of maintenance and repair.

 The goal is achieved in that the housing is made of two halves with flanges, and the locking body is made of a disc made with cylindrical hooks, a bearing and a clamping element made in the form of a flange with a skirt, the skirt being made with L-shaped grooves located at an angle to the end the surface of the disk with the possibility of providing a tight clamping of the disk to the saddle with the help of cylindrical hooks placed in the L-shaped grooves, while the outer race of the bearing is located between the flanges of the halves of the housing, a hinge mounted on the disk and connected to the outer race of the bearing, and the inner race of the bearing is detachable and fixed to the clamping element and the worm sector located in its lower part, in addition to the housing parallel to the saddle mounted an additional drive equipped with a worm located with the possibility of interaction with worm sector of the clamping element.

 In FIG. 1 shows a shutoff valve, section; in FIG. 2, section A A in FIG. one; in FIG. 3 view of the pinch element; in FIG. 4 section B B in FIG. 3.

 The shut-off valve comprises a metal housing made of two halves 1 and 2 (Fig. 1) with flanges, a folding shut-off element made of a prefabricated disk 3, equipped with cylindrical hooks 4, a bearing 5 and a clamping element 6, made in the form of a flange with a skirt 7 The skirt 7 is made with L-shaped grooves 8, located at an angle to the end surface 9 of the disk 3 with the possibility of tight sealing of the contact ring 10 of the disk 3 to the saddle 11 using cylindrical hooks 4 placed in the L-shaped grooves 8, the outer cage 12 bearing Single 5 is disposed between the flanges and the half 2 of the housing 1. The hinge-slide 14 is mounted on the disk 3 and is connected to the outer race 12 of the bearing 5 using the bracket 15. The inner race of the bearing 5 is made detachable from two halves 16 and 17, tightened by the studs 18. A clamping element 6 is fixed to half 16 of the inner race, and half 17, the worm sector 19, located in its lower part. An additional drive (not shown) is installed on the housing of the saddle 11, equipped with a worm 200 arranged to interact with the worm sector 19 and transmitting rotation to the pressing member 6. The cylindrical hooks 4 of the locking member are fixed by the locking screws 21. The stem 22 is movably connected to the slide-hinge 14 with a connecting pin 23 on the one hand and with a first valve actuator (not shown in FIG. 1) on the other hand.

 The shutoff valve operates as follows.

 Closing when the first actuator rotates clockwise (the principle diagram of the standard valve is adopted in terms of raising and lowering the shutter) of the rotation of the rod 22 goes into the translational movement of the hinge-slide 14 and the locking element starts to fall, falling with cylindrical hooks 4 into the skirts 7 evenly spaced around the circumference 7 grooves 8 L-shaped. The slots have a slope towards the clamp angle, providing a tight clamp of the contact ring 100 to the valve seat 11. The number of grooves 8 in the skirt 7 of the clamping element 6 corresponds to the number of hooks in the locking body and depends on the diameter of the blocked pipeline (or apparatus) and pressure. Then, using the second drive, similarly to the first, turning the worm sector 19 connected to the movable element 6 by a small screw 20, press the contact ring 10 to the valve seat 11, as the cylindrical hooks 4 go deeper into the grooves 8 of the skirt 7 of the hold-down element 6 A uniform clamping of the contact ring to the saddle occurs, due to the evenly spaced grooves around the circumference of the skirt 7 of the clamping element and the corresponding arrangement of the hooks of the locking member. The rotation of the worm stops with a sharp increase in the moment on it. The valve is closed.

 Opening during rotation of the worm 20 counterclockwise, the movement through the worm sector 19 is transmitted to the movable element 6, which, in turn, releases the hooks 4 of the disk 3 from the grooves 8, thereby removing the additional preload force. After this, by rotating the first drive counterclockwise, the forward translational movement upwards to the hinge-slide 14 through the stem 22, which begins to lift the locking element behind it, setting it in the required position. The valve is open.

 In this case, the valve acts as a shut-off valve. With the pin 23 disconnected and the stem 22 raised upward, the valve operates as a non-return valve.

 The developed design can work as a shut-off for hermetic overlapping of the section or check valve on pipelines, tanks, devices, etc. The valve has a detachable body, it allows to fully perform collapsible work during manufacture and repair, which makes it easy to ensure their quality, therefore, increase its service life and quality of work, which solves the problem of reducing the complexity of maintenance and repair. The valve consists of simple technological components and parts. An additional clamping unit on the clamping element, which includes cylindrical hooks, pressing with a worm gear increases the degree of tight overlap, and therefore increases its reliability. The valve can be made full bore for any type of connection, for any pressure and diameter, equipped with any drive (manual, electric, hydraulic, etc.), it is especially necessary in domestic lines.

Claims (1)

 A shut-off valve comprising a housing and a hinged shut-off element interacting with a seat mounted in the housing and connected to the actuator spindle by a slide hinge, characterized in that the housing is made of two halves with flanges, and the shut-off element is made of a disc made of cylindrical hooks , a bearing and a clamping element made in the form of a flange with a skirt, and the skirt is made with L-shaped grooves located at an angle to the end surface of the disk with the possibility of providing a tight clamp for suit to the saddle with the help of cylindrical hooks placed in the L-shaped grooves, while the outer bearing race is located between the flanges of the halves of the housing, the hinge slide is fixed to the disk and connected to the outer race of the bearing, and the inner race of the bearing is detachable and clamped on it an element and a worm sector located in its lower part, in addition, an additional drive is installed on the housing parallel to the saddle, equipped with a worm located with the possibility of interaction with the worm sector other element.

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