RU139038U1 - REDUCING VALVE - Google Patents

Abstract

A pressure reducing valve comprising a housing with inlet and outlet cavities communicated respectively with the inlet and outlet channels and separated by a jumper with an opening communicating these cavities, a spring-loaded shut-off element installed with the possibility of blocking the opening in the jumper, characterized in that the shut-off element is cylindrical with a cut-off edge and with an internal bore, and in the jumper there is a conical facet conjugated to the hole with the possibility of contacting its conical surface with with the incision edge of the locking member, and a plunger connected to the housing is installed in the inner bore of the locking member to form a damper cavity communicated by the channel with the inlet cavity.

Description

The utility model relates to hydraulic units, in particular, to pressure regulators designed to regulate pressure in hydraulic systems.

A pressure-reducing valve is known, comprising a housing with inlet and outlet cavities communicated respectively with the inlet and outlet channels and separated by a jumper with an opening communicating these cavities, a spring-loaded shut-off element installed with the possibility of closing the opening in the jumper (see T.M. Bashta, Design and Aircraft Hydraulic Systems, Oborongiz 1961, p. 273, Fig. 186).

A disadvantage of the known design is the unstable operation of the pressure reducing valve due to the influence of hydrodynamic force on its shut-off element, which in some cases causes self-oscillations and, as a result, disruption of the pressure-reducing valve (see the above source, p. 262, 263).

The technical result that can be achieved from the proposed technical solution is to increase the operational reliability of the pressure reducing valve by increasing its stability.

This result is achieved by the fact that in the reduction valve containing the housing with inlet and outlet cavities, respectively connected with the inlet and outlet channels and separated by a jumper with a hole communicating these cavities, a spring-loaded shut-off element installed with the possibility of blocking the hole in the jumper is made cylindrical with a cut-off edge and with an internal bore, and in the jumper there is a conical facet conjugated to the hole with the possibility of contacting its conical surface Tew with a shut-off edge of the locking body; at the same time, a plunger connected to the housing is installed in the inner bore of the locking body with the formation of a damper cavity communicated by the channel with the inlet cavity.

The figure shows a pressure relief valve in section.

The pressure reducing valve comprises a housing 1 with an inlet 2, an outlet 3 cavities communicated respectively with the inlet 4 and outlet 5 channels, separated by a jumper 6 with an opening 7; a locking member 8 with a spring 9 and a cut-off edge 10, in the inner bore 11 of which is installed a plunger 12 connected to the housing 1, forming a damper cavity 13, communicated by the channel 14 with the inlet cavity 2; in the jumper 6, a chamfer 15 is made, which is a saddle for a locking body.

The pressure relief valve operates as follows:

In the initial position, the locking member 8 is in the position pressed out from the conical bevel 15. The working fluid from the inlet 4 channel enters the outlet 5 channel through the inlet 2 cavity, hole 7 and the outlet 3 cavity.

After the pressure rises to the value of the reduced pressure, the locking element 8, compressing the spring 9, will move towards the close to the conical facet 15 partially or completely, blocking the access of the working fluid from the inlet 2 to the outlet 3 of the cavity, thereby ensuring a constant pressure in output channel 5.

The influence of hydrodynamic force on the shut-off element 8 during the flow of the working fluid in the hole 7 is negligible compared to the known design due to the cylindrical design of the shut-off element, which increases the stability of the pressure reducing valve. In addition, the stability of the pressure reducing valve is also increased due to the presence in the design of the damper cavity 13, communicated by the channel 14 with the inlet 2 cavity.

Thus, in the proposed technical solution, by increasing the stability of the pressure reducing valve, its operational reliability is increased.

Claims (1)

A pressure reducing valve comprising a housing with inlet and outlet cavities communicated respectively with the inlet and outlet channels and separated by a jumper with an opening communicating these cavities, a spring-loaded shut-off element installed with the possibility of blocking the opening in the jumper, characterized in that the shut-off element is cylindrical with a cut-off edge and with an internal bore, and in the jumper there is a conical facet conjugated to the hole with the possibility of contacting its conical surface with with the incision edge of the locking member, and a plunger connected to the housing is installed in the inner bore of the locking member to form a damper cavity communicated by the channel with the inlet cavity.

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