SU1647523A1 - Direct-acting pressure controller - Google Patents

Abstract

The invention relates to control equipment and can be used in hydraulic systems for various purposes. The purpose of the invention is to enhance the functionality of sa by allowing it to be used as a pulsator valve and to improve the operating characteristics of the regulator by changing its slope.

Description

The invention relates to control equipment and can be used in hydraulic systems for various purposes.

The purpose of the invention is to enhance the functionality by enabling it to be used as a pulsator valve and to improve the performance characteristics of the controller by changing the steepness of its static characteristic.

Figure 1 shows the regulator; a longitudinal section; FIG. 2 is a section A-A in FIG. 1. FIG.

The regulator includes a housing 1 in which a fixed cylindrical seat 2 and a movable locking-regulating element 3, which is made in the form of a cone valve 4 and a spring-loaded cup surrounding the saddle, coaxially are installed. The locking and regulating element is loaded with a spring 5, the preliminary tension of which is set by the adjusting screw 7 placed in the lid 6 through the cap 8. The position of the adjusting screw is fixed by the lock nut 9. The bottom of the glass of the locking and regulating element has two longitudinal holes 10 and a transverse blind hole 11, in which the spring loaded spool

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12, loaded with a spring 13 and interacting with an adjustable stop 14, is placed in the controller housing. The position of the stop is fixed by the lock nut 15. The cone valve 4 rests on the seat and forms with it a pressure cavity 16, which through the inlet channel 17 communicates with the feed line of the system. The spring-loaded cup 3 forms, with a stationary cylindrical seat 2, an intermediate cavity 18, and with a housing a drain cavity 19, which is connected through the outlet channel 20 to the outflow line of the system. The open end of the glass is provided with recesses 21, which form with a fixed cylindrical saddle 2 deaf channels, which are connected to the drainage floor.

The surfaces 22 play the role of cylindrical guides and provide coaxiality and constant contact between the saddle and the locking control element.

 The direct pressure regulator operates as follows.

When using a pressure regulator as a direct-acting safety valve, the adjustable stop 14 is set in a position in which the spring loaded spool 12 interacting with it is shifted to the left and opens the longitudinal from 5

Mile 10, connecting the intermediate cavity 18 with the drain cavity 19.

The maximum pressure in the supply line of the system and in the pressure cavity 16 of the regulator is limited by adjusting the spring 5, the preliminary tension of which is set by the position of the adjusting screw 7. When the pressure in the pressure cavity reaches the maximum permissible value, the shut-off element 3 moves upwards and opens the passage of fluid between the cone valve 4 and the saddle 2 of the system supply line through the inlet channel 17, the pressure cavity 16 ,. longitudinal holes 10, drain cavity 19. output channel

20c to the outflow hydroline of the system, which in this case is connected to the tank.

The recesses at the open end of the glass of the shut-off and regulating element 3 are designed in such a way that, when the regulator acts as a safety valve, the ducts are

21 are not communicating with the intermediate cavity 18 even at the maximum lift amount of the locking and regulating element.

The static characteristic of the safety valve can be changed by an adjustable stop 14, which sets the spring-loaded valve 12 to throttle the fluid passing from the intermediate cavity 18 through the longitudinal holes 10 into the drain cavity 19, which provides the required amount of fluid pressure in the cavity 18, affecting steepness of the static characteristic. When using a direct-action pressure regulator as a pulsator valve, the adjustable stop 14 is set in a position in which the spring-loaded spool 12 interacting with it blocks the longitudinal apertures 10. Liquid is supplied to the regulator through the inlet 17 branch through the output channel 20.

When the pressure in the pressure cavity reaches the value determined by the setting of Prunin 5, the locking-controlled element 3 moves upwards and opens the passage of fluid from the system supply line through the inlet 17. The pressure head is 647523

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. The weight 16 into the intermediate cavity 18. Here, the liquid affects the area of the shut-off and adjustable element 3, which leads to its further upward movement until the recess 21 connects the cavity 18 to the drain cavity 19 and then through the output channel 20 cabbage

JQ hydroline system. The pressure in the supply line of the system and in the cavity 16 and 18 drops. Due deist-. spring 5, the shut-off and control element 3 returns to its original

15, which causes an increase in pressure in the supply line of the system. Then the cycle of operation of the regulator is repeated, which allows the output to generate stable hydraulic

20 pulses. The set parameters of the generated hydraulic pulses are adjusted by an adjustable stop 14, which determines the position of the spring-loaded slide valve 12.

Claims (1)

25 claims A direct-action pressure regulator, comprising a housing with an inlet and an outlet channel, in which a fixed cylinder cylinder coaxially mounted to the inlet channel, and a movable lock-regulator element in the form of a spring-loaded cup, forming an intermediate cavity with the fixed cylindrical saddle. and with the housing - a drain cavity, which is connected to the output channel, characterized in that, in order to expand the functionality of the controller by allowing it to be used as ve pulsator valve and improve the operating characteristics of the regulator by varying its transconductance statk45 cal characteristics, the bottom cup is provided with two longitudinal holes and a transverse blind hole in which is placed a spring loaded spool defining a longitudinal ot50; Versions are throttling slots, which are connected through longitudinal versts with intermediate and drain cavities, and an adjustable stop of a spring-loaded hopper is mounted in the case, with an open end The cup is provided with undercuts, which form a deaf channel with a fixed cylindrical saddle, which are connected to the drain cavity. 35 40 iz Fig 2