CS242087B1 - Pressure valve with damping - Google Patents

Abstract

The solution ae relates to a pressure valve with vibration damping of sealing elements, formed by a hollow cylindrical body and a spring-loaded cone. The essence of the solution lies in the fact that in the inlet space (7) of the body (1) there is formed a shoulder (11) with a recess (10), on which a spring-loaded cone formed by a flat cap (5) and a spherical surface (12) on its circumference abuts from the inside of the body, on which at least three spring-loaded segments (4) are abutted, placed in impassable holes (13), formed symmetrically in the inner wall of the body (1) and whose diameter is smaller than the diameter of the hole (13), while the space defined by the shoulder (11) and the spherical surface (12) of the cap (3) is connected to the atmosphere by holes (6).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure valve with damping of the sealing elements.

Fluid flow through the pressure valve when the set pressure in the pneumatic system is exceeded usually causes the spring element to oscillate. * Vibration excited in this way is transmitted not only to the individual parts of the pressure valve but also to the entire pneumatic system and the downstream system. damage to individual components or groups. The pressure valves used hitherto are designed either without any type of vibration damping or with damping by means of fixed passive resistors on the moving parts. The damping solution in this way requires high manufacturing accuracy of the valve parts and places high demands on the purity of the working medium.

The above-mentioned disadvantages are overcome by a damped pressure valve consisting of a hollow body of cylindrical shape and a spring-loaded plug according to the invention, characterized in that a recess with a recess is formed in the body entrance space. at its periphery, abutting at least three spring segments mounted in through holes formed symmetrically in the inner wall of the body and having a diameter smaller than the diameter of the hole, the space defined by the shoulder and spherical surface of the sealing cap communicating with the atmosphere through the holes.

The advantage of the proposed solution is to prevent self-vibrations of the sealing element during valve operation, thus reducing stress on other components of pneumatic circuits and increasing their durability, reliability and operational safety. By eliminating the inherent vibration of the valve plug by means of spring-loaded segments, a significant increase in overall service life and functional reliability is achieved *

An exemplary embodiment of a valve according to the invention is shown in the attached drawing.

The valve is a hollow body 1 of cylindrical shape. A shoulder 11 with a recess 10 is formed in the inlet space χ of the valve body 1. The shoulder 11 bears from the inside of the body 1 a flat cap 8 with a spherical surface 12 on its periphery, on which three segments 4 fit in the through holes 13 formed.

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Between each segment 8 and the bottom of the aperture 13, a spring is placed. The diameter of the segment is smaller than the diameter of the aperture 13. The space defined by the shoulder 11 and the spherical surface 12 of the cap is connected to the atmosphere through the apertures 6. A spring 2 is mounted between the bottom of the valve body 1 and the cap 2.

Cap 2 p ^e pressed against the shoulder 11 of the body 1 spring 2, which zajišluje amount chosen overpressure in the entrance area 2 · When exceeding the set pressure in the inlet chamber 2 cap 2 moves away from the shoulder 11 and the media from the input space enters the space defined by the shoulder 11 and a spherical surface 12 of the lid 2 and from there openings 6 into the atmosphere. Possible oscillation of the sealing elements of the valve prevents passive resistance loaded on the spherical circumferential surface 12 using DOVO sprung segment 4. The sensitivity of the valve in the beginning of the opening of the lid 2 ^{and the} region of the progressive damping is determined by the size of the clearance 8 between the diameter of the segment 2 ^{and the} opening diameter of the body of the first

The valve according to the invention can be used in all pneumatic circuits, especially in aviation technology.

Claims (1)

SUBJECT OF THE INVENTION A damped pressure relief valve consisting of a hollow body of cylindrical shape and a spring-loaded plug, characterized in that in the inlet space (7) of the housing (1) a shoulder (11) with a recess (10) is formed. formed by a flat cap (3) with a spherical surface (12) on its circumference, which is supported by at least three spring segments (4) housed in through holes (13) formed symmetrically in the inner wall of the body (1) and whose diameter is smaller than the diameter opening (13), the space defined by the shoulder (11) and the spherical surface (12) of the lid (3) communicating with the atmosphere through the openings (6).