SU1717889A1 - Device for stabilization of pressure of medium after pump - Google Patents

Abstract

The invention relates to pumping engineering, and can be used to stabilize the pressure of the medium downstream of the pump. The purpose of the invention is to increase the reliability of work. When the pump operation mode changes, pressure in the piston cavity 13, overcoming the force of the spring 2, moves the piston 12 and the throttle body associated with it up until the piston 12 is fixed in the second position. In this case, the throttle element 5 with a different capillary structure, designed for operation at an increased pressure of the medium, comes into contact with the disk 8 of the differential piston. 1 il. (L С vi со сою 44

Description

The invention relates to a pump engineering and can be used to stabilize the pressure of the medium behind the pump.

The purpose of the invention is to increase the reliability.

The drawing shows a device for stabilizing the pressure behind the pump.

A device for stabilizing the pressure behind the pump comprises a housing 1, in which a throttle body 3 spring-loaded by a spring 2 is placed, made in the form of a packet, N throttling elements 4 and 5 (sequentially placed along the axis of the housing 1) (for example, N = 2), the number of which is determined by the number of possible pump operating modes 6. Throttle elements 4 and 5 are made of material of different capillary structure. Opposite the throttle body 3, perpendicular to the axis of the housing 1, a sensing element is installed, made in the form of a hollow sealed differential piston 7, interacting through the perforated disk 8 located therein with the throttle body 3. The disk 8 is designed to filter the medium and prevent adhesive bonds between the differential piston 7 and throttle elements 4 and

5. The sensing element is connected by a pipe 9 to the inlet pipe 10 of the device. Throttle body. 3 is connected by a rod 11 with a mechanism for its movement, made in the form of a piston 12, a piston cavity 13 of which is connected to the inlet pipe 10 of the device. The piston 12 is equipped with position locks made in the form of a spring ball 14 interacting with grooves 15 made on the piston 12.

The step H between the position locks is equal to the installation step of the throttle elements 4 and 5. The inlet pipe 10 of the device is connected to the output of the pump 6. In addition, the piston 12 can be equipped with a shank 16 with a threaded stopper 17 at the end to manually change the operating mode of the device with the subsequent input of the stopper 17 in grooves 18 or 19.

The device for stabilizing the pressure of the medium behind the pump operates as follows.

From the output of the pump 6, the medium enters the inlet pipe 10 of the device, and then into the sub-piston cavity 13 and through the pipe 9 to the differential piston 7. Then the medium passes through the perforated disk 8, throttled in the capillaries of the throttle element 4, to the consumer’s output. The force of the working medium on the piston 12 is balanced by the force of the spring 2 on the throttle body 3. 'In this case, the piston 12 is fixed by a ball 14 in the upper groove 15. With fluctuations in the pressure of the medium, the force exerted by the differential piston 7 changes, providing elastic deformation of the element 4. Due to capillary of the structure of element 4, the deformation force determines the area of its bore, which decreases with increasing pressure of the medium and vice versa. The required stroke of the differential piston 7 for deformation is determined by the type of material of the throttle elements 4 and 5 and can range from fractions of a millimeter (for metal rubber) to several millimeters (for soft porous rubbers).

When changing the operating mode of the pump 6, there is a sharp jump in pressure at its outlet, which leads to an increase in the force of the medium at the end of the piston 12. Under the difference in the forces on the piston 12 from the pressure of the medium and the spring 2, it moves upward by step Н and is fixed by a ball 14 in the lower the groove 15. The piston 12 moves the throttle body 3 to the second position, while the throttle element 5 with another capillary structure, designed for operation under increased medium pressure, comes into contact with the disk 8.

When changing the initial operation of the pump 6 moves the choke spring ^2: ny body 3 with the piston 12 to its original position.

Using the invention improves the reliability of the device.

Claims (1)

Claim Device for stabilizing the pressure of the medium behind the pump, comprising a housing with inlet and outlet nozzles in which a spring-loaded throttle body is placed, and a sensing element connected by a pipeline to the inlet nozzle, characterized in that, in order to improve reliability, the throttle body is in the form of a package throttle elements made of a material of different capillary structure, placed successively along the axis of the housing, and the sensing element is designed as a hollow compacted differential piston, and The axial unit is connected by a rod with a mechanism for its displacement, made in the form of a piston, the sub piston cavity of which is connected to the inlet branch pipe and which is provided with position fixers installed in increments equal to the pitch of the throttle elements.