RU2178853C1 - Check valve - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: check valve used in high-pressure hydraulic systems has inlet and outlet pipe connections and seat with passages in between, shut-off member made in the form of flexible disk, and stabilizer made in the form of plate and used to press disk to seat; seat, shut- off member, and stabilizer are installed between pipe connections. Segmental projections are built integral with disk on ends of free surface on diametrically opposite sides. Plate has parallel working surfaces. Seat is provided with rectangular diametrical projection. Shut-off member is provided with adjacent mating surface. EFFECT: enhanced reliability; simplified design. 3 dwg

Description

 The invention relates to mechanical engineering and can be used in high pressure hydraulic systems (in pumps).

 Known check valve a. from. USSR 1214966, F 16 K 15/14, F 16 L 55/02, comprising an inlet and outlet nozzles and a support element with passage channels located between them, an elastic spacer and a closure element in the form of an elastic flap diaphragm.

 However, the device is not reliable when used in a hydraulic system of high pressure, because when the valve is open between the support element and the elastic spacer, a turbulent flow is formed, which increases their wear. This reduces valve reliability.

 A non-return valve is also known (patent US 3831628 A, class F 16 K 15/14, 08/27/1974), adopted as a prototype and containing inlet and outlet pipes and a saddle with passage channels located between them, a locking element in the form of an elastic disk and a stabilizer in the form of a plate, a stabilizer pressing it to the saddle in the form of a plate with conical working surfaces.

 The disadvantage is the imperfect form of the stabilizer, the side surfaces of which are located at an angle to each other.

 When the medium is fed into the inlet pipe, the elastic disk, bending in half, is pressed with its central part to the lateral planes of the stabilizer. In this case, the bent planes of the elastic disk are located at an angle to the flow of the working fluid and perceive its increased resistance and pressure, which causes their wear and a decrease in the reliability of the device. As a result, a bending moment acts on the free ends of the elastic disk, causing additional tensile loads in a thin place of its bend (jumper), leading to stretching, to rupture, which reduces the reliability of the device.

 The task of the invention is to increase the reliability and simplify the design.

 The technical result of the invention is achieved by the fact that in the check valve containing the inlet and outlet nozzles and a saddle with passage channels located between them, a locking element in the form of an elastic disk and a stabilizer in the form of a plate pressing it to the saddle, in the disk in one piece with it at the ends segmented protrusions are made on the free surface from diametrically opposite sides, and the plate is made with parallel working surfaces, while the saddle is made with a diametrical rectangular protrusion, and on the locking element The mating mating surface with it was made.

 The presence on the locking element of the segmented protrusions at the ends from diametrically opposite sides allows them to close across the entire segment plane with the valve open, without causing additional tensile loads in a thin bend (bridge) of the locking element. This reduces wear on the latter and improves valve reliability.

 The implementation of the stabilizer plate with parallel working plates will provide with the valve open, the location of the bent planes of the locking element parallel to the flow of the working fluid. This will reduce the flow resistance and its pressure on the shut-off element, which in turn will reduce the wear of the latter and increase the reliability of the valve.

 The execution of the saddle in one piece with a diametrical protrusion having all right angles is easy to manufacture, which simplifies the design.

The device shown in the drawing, where
in FIG. 1 shows a check valve, a general view, a longitudinal section;
in FIG. 2 is a section AA in FIG. 1;
in FIG. 3 - saddle, top view.

 The non-return valve (Fig. 1) contains inlet 1 and outlet 2 nozzles and a saddle 3 located between them, a locking element in the form of an elastic disk 4 and a stabilizer 5 made in the form of a plate with parallel working planes 6. In the locking element, the disk 4 in one integral with it, at the ends of the free surface, segments-protrusions 7 are made from diametrically opposite sides, FIG. 2. The saddle 3 is made with a diametrical rectangular protrusion 8, and on the locking element is made mating outlet surface 9.

 The device operates as follows.

 When the working fluid is supplied, it passes through the inlet pipe 1 into the holes of the saddle 3 and bends the elastic disk 4 in half with its pressure. The central part of the surface of the elastic disk 4 is pressed against the working planes 6 of the stabilizer 5, becoming parallel to the flow of the working fluid, and its upper part is in contact with each other another segmented protrusions 7 (Fig. 1, shown by a dotted line). The valve is open.

 When the supply of the working fluid is turned off, the pressure in the inlet pipe 1 drops and the elastic disk 4, straightening, takes its initial position, pressing against the surface of the saddle 3 and blocking its passage channels. The valve is closed.

Claims (1)

 A non-return valve containing an inlet and outlet nozzles and a saddle with passage channels located between them, a locking element in the form of an elastic disk and a stabilizer in the form of a plate pressing it to the saddle, characterized in that it is diametrically integrated in the disk at the ends of the free surface segmented protrusions are made on the opposite sides, and the plate is made with parallel working surfaces, while the saddle is made with a diametrical rectangular protrusion, and a mating hole is made on the locking element Supply Return surface.

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