RU190842U1 - VALVE LOCK ELEMENT CLAMP ON THE LEVER - Google Patents

Abstract

The utility model relates to hydropower engineering, in particular, to hydraulic inlet valves for the dosed supply of fluid into the filling tank. The technical result of the proposed utility model is increased reliability, reduced series of hydraulic shocks. The technical result is achieved by the fact that the locking member of the valve on the (movable) lever is characterized by the fact that the locking element is made with a step along the perimeter and additionally contains a pressure element corresponding to the shape of the pressure element surrounding the locking element, the pressure element is attached to the lever. the cone can be located on the lever, and a corresponding recess on the locking element. The locking element and the pressing element may be in the form of a disk and a ring, respectively. The locking element and the pressing element can be made of rubber and metal, respectively. A useful model can be successfully used for the manufacture of a valve for hydropower.

Description

The utility model relates to hydropower, in particular to a hydraulic inlet valves for the dosed supply of fluid into the tank being filled.

Known "Normally closed non-return valve" US 4535820 [1], containing a tubular lug with a hole for the liquid, a rubber elastic valve disc, the yoke for clamping to the valve disc.

The disadvantages of the known design are complex and metal-intensive design of fixing the disc valve.

Closest to the claimed technical solution is the "Float and diaphragm valves" RU 2193632 [2], including a movable lever, a short arm which transmits the force to the center of the locking element, made in the form of an elastic round membrane. The edges of the membrane are pressed against the device body with a retaining ring.

Known design is less metal consuming compared with [1].

A disadvantage of the known construction is reduced reliability and the formation of a series of water hammer.

The technical result of the proposed utility model is to increase reliability, reduce the series of water hammer.

The technical result is achieved by the fact that the locking member of the valve on the (movable) lever is characterized by the fact that the locking element is made with a step along the perimeter and additionally contains a pressure element corresponding to the shape of the pressure element surrounding the locking element, the pressure element is attached to the lever.

Opposite the center of the locking element on the lever, there can be a cone, and a corresponding notch on the locking element, which will eliminate the lateral displacement of the central part of the locking element.

The locking element and the clamping element can be in the form of a disk and a ring, respectively, which will increase the reliability of their fixation and simplify their manufacture.

The locking element and the clamping element can be made of rubber and metal, respectively, which will increase their durability, and, accordingly, reliability.

FIG. shows the locking element of the valve on the lever lever, where:

1 - lever in the open position of the valve;

2 - lever in the closed position of the valve;

3 - valve seat;

4 - locking element;

5 - clamping element;

6 - step of the locking element;

7 - cone.

The device operates as follows: the lever can be actuated by a float or other known mechanism, the lever in the open position of the valve pos. 1. Lever in the closed position of the valve pos. 2, while the locking element 4 is pressed against the valve seat 3, stopping the flow of fluid from the seat, in particular water. The locking element is held on the lever by means of a step 6 located along the perimeter of the locking element and the corresponding clamping element 5 interacting with this step. On the lever there is a cone 7 entering the corresponding recess on the “back” side of the locking element. The side of the locking element facing the saddle "front".

The technical result is increased reliability is achieved by the fact that due to the steps along the perimeter, the locking element is more reliably fixed to the valve lever. The technical result is a reduction in the series of hydraulic shocks achieved by the fact that the valve is rigidly pressed against the lever, this eliminates the vibration of the valve locking element, and the locking element more surely performs the function of locking the valve.

Industrial application. The utility model can be successfully used for the manufacture of valve for hydropower.

Claims (5)

1. The locking member of the valve on the lever, characterized in that the locking element is made with a step around the perimeter and further comprises a pressure element corresponding to the shape of the step, which surrounds the locking element, the pressure element is attached to the lever. 2. The latch according to claim 1, characterized in that opposite the center of the locking element on the lever is a cone, and on the locking element - the corresponding recess. 3. The latch according to claim 1, characterized in that the locking element and the clamping element are in the form of a disk and a ring, respectively. 4. The catch according to claim. 1, characterized in that the locking element is made of rubber. 5. The catch according to claim. 1, characterized in that the clamping element is made of metal.

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