SU1001017A1 - Direct flow-type consumption regulator - Google Patents

Description

(5) DIRECT CURRENT FLOW REGULATOR

Claims (2)

This invention relates to automatic flow control. A known flow regulator of liquid components is known, which includes a housing with a resetting throttle and with a sensitive element associated with a regulator. The disadvantages of this device are the difficulty in ()) playout of the flow-through part of the regulator, the inability to manufacture and the complexity of the scaffold. scheme The closest in technical essence to the present invention is a flow regulator, comprising a housing with an inlet and an outlet cavity, with a sensing element made in the form of a piston with a spring, a regulator and a resetting throttle. 2 The disadvantages of this regulator are complexity configuration of the flow part of the regulator. In addition, when performing an anti-drobbing device, the pressure to the working surfaces of the sensing element under the conditions of arrangement is carried out through small-diameter channels, which in some operating modes can serve as a source of oscillatory transients in the regulator due to the effect of the added mass . The purpose of the invention is to simplify the regulator. The goal is achieved by the fact that, in the direct flow regulator, the piston with a tuning spring is located in a glass that is coaxially mounted in the housing entrance cavity and is connected through a rod to a regulating member made in the form of a plate located in the output cavity, and the resetting throttle is completed in the form of a flat spool mounted coaxially with the rod between the piston and the plate, with the axial channel being made in the rod. 310 connecting the output cavity with the glass cavity. The drawing shows a constructive scheme of the flow regulator. The flow regulator comprises a housing 1 with an input 2 and an output 3 cavities, with a sensitive element made in the form of a piston k with a spring 5 of adjustment, an adjusting member in the form of a plate 6 and a resetting throttle in the form of a flat spool 7 installed coaxially in the housing 1 between the piston and the plate 6. The piston k with the spring 5 is located in the cup 8, coaxially mounted in the inlet cavity, and is connected through the rod 9 with the plate 6. The pin 9 has an axial channel 10 connecting the output cavity 3 with a cavity of 11 Tortsov 12 of the plate 6 and the end surface 13 of the piston k are located on the side of the flat slide valve 7, whose movable washer 1 | is engaged with the screw 15 of the changeover drive. In the glass 8, axial holes 16 are made along its periphery, the Regulator operates as follows. The liquid coming under pressure from the pump into the input cavity 2 of the regulator, through the axial holes 1b in the glass 8, goes to the movable washer 14 of the flat slide valve and is throttled on the flat slide 7 "Then the liquid goes to the plate 6, is throttled on this regulator and enters to the output cavity Zg. The pressure drop at the throttle 7 of the retuning 7 is measured by the T-orc surface 13 of the piston and the end surface 12 of the plate 6. If this differential is accidentally increased, the piston together with the plate 6 moves to the left, compressing the springs At setting 5, as a result, the flow area between the housing 1 and the plate 6 is reduced. By increasing the pressure drop on the plate 6, the pressure drop on the flat slide valve 7 is restored. Thus, the flow rate of the fluid is stabilized. The adjustment of the flow controller to the new mode is provided by rotating the screw 15, which rotates the movable washer k of the flat slide valve 7 at a certain angle. The degree of overlap of the flow sections — on the flat spool — varies, and the differential is restored by the stabilizing part of the controller, as in the previous case. The new value of the flow rate through the controller is set. In order to relieve the piston pressure in the rod 9, an axial channel 10 is made connecting the output cavity 3 with the cavity 11, therefore the equilibrium piston k does not depend on the pressure in the output cavity 3. The regulator is distinguished by the simplicity of the design scheme, the ease of placement of its elements. DETAILED DESCRIPTION OF THE INVENTION A linear flow regulator comprising a housing with inlet and outlet cavities, with a sensitive element made in the form of a piston with a tuning spring, regulating the organ and a resetting throttle, characterized in that, in order to simplify it, the piston with a tuning spring is located in the glass, coaxially installed in the inlet cavity of the housing, and connected through the rod with the regulating body, made in the form of a plate located in the outlet cavity, and the resetting throttle is made in the form of a flat slide valve, The piston and the plate are aligned coaxially with the rod, and in the rod there is an axial channel connecting the output cavity with the cup cavity. Sources of information taken into account in the examination 1. US Patent No. 3168902, cl. 137-501, published 19b5. 2. Bashta. Hydraulic drive and hydropneumatic automation, M, Mashinostroenie, FIG, 2, s, I, 1972 (prototype).