RU2011089C1 - Valve - Google Patents

Abstract

FIELD: automatic proportioning of liquids. SUBSTANCE: diaphragm units are provided with inlet, outlet and control passages and with working and control chambers and are connected with drives. Housings are interconnected and tail-pieces of plunger are mounted in control passages. Control chambers are filled with incompressible liquid. First outlet passage is connected with second inlet passage. Total volume of working and control chambers of first unit is less than volume of working chamber of second unit with the valve in the closed position. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to hydropneumatic automation and can be used, for example, in systems for dispensing liquids with pneumatic control, including automatic.

 A known valve comprising a housing with a seat, a poppet with a stem, a bellows elastic element (1).

 The presence of a bellows elastic element determines the complexity of the design and the limited service life.

 Closest to the invention is a valve containing a membrane assembly made in the form of a housing with inlet, outlet and control channels, working and control cavities, the membrane being a valve shutter and a gate actuator (2).

 This embodiment of the valve (2) does not provide complete closure of the medium flow when closing, since an additional amount of the dosed liquid enters the outlet channel when the valve is closed.

 To prevent additional quantity of dosed liquid from entering the outlet channel when closing the valve, i.e., to increase the accuracy of the medium shut-off, a valve containing a membrane assembly made in the form of a housing with inlet, outlet, and control channels, working and control cavities, and membranes the drive is equipped with an additional membrane unit, made in the form of an additional housing with additional input, output and control channels, with additional working and control cavities, additionally membrane and a double-sided plunger associated with the drive, and the housing of the membrane nodes are interconnected, the shanks of the plunger are installed in the control channels, the control cavities are filled with incompressible fluid, while the output channel is connected to an additional input, and the total volume of the working and control cavities of the first membrane unit less than the volume of the working cavity of the additional membrane unit with the valve closed.

 Since the valve contains an additional membrane unit that completely compensates (absorbs) the liquid pushed out by the main membrane unit when the valve is closed, a high accuracy of cutting off the working medium (for example, liquid) is achieved.

 The drawing shows a schematic diagram of a valve.

 The valve contains a membrane assembly made in the form of a housing 1 with an input 2, output 3 and control 4 channels, a working 5 and control 6 cavities and a membrane 7 and connected to the actuator 8. The valve also contains a membrane assembly made in the form of an additional housing 9 with additional input 10, output 11 and control 12 channels, with additional working 13 and control 14 cavities, additional membrane 15 and two-sided plunger 16 connected to drive 8. Housings 1, 9 of the membrane units are interconnected, shanks 17, 18 of the plunger 16 installed in the control 4, 12 channels. The control cavities 6, 14 are filled with incompressible fluid, the output channel 3 is connected to the additional input 10, and the total volume of the working 5 and control 6 cavities of the first membrane unit is less than the volume of the working cavity 13 of the additional membrane unit with the valve closed.

 The valve operates as follows.

The plunger 16 associated with the actuator 8 makes a reciprocating movement depending on the control signal P _control . If the plunger 16 is in the upper position, the membrane 7 of the first membrane unit is raised up under the pressure of the vacuum created in the control cavity 6. Since the total volume of the working 5 and control 6 cavities of the first membrane unit is less than the volume of the working cavity 13 of the additional membrane unit, then with the upper the position of the plunger 16 additional input 10 and output 11 channels do not overlap.

When applying a control signal P _control. the plunger 16 is moved to the lower position, in the control cavity 6 creates excessive pressure, under the action of which the membrane 7 of the first membrane unit is lowered and blocks the input 2 and output 3 channels, the flow of the working medium is blocked. At the same time, a certain amount of dosed liquid is pushed during the passage of the membrane 7 through the outlet channel 3 and enters through the inlet channel 10 into the working cavity 13. Since the course of the membrane 7 is equal to the course of the membrane 15, the working fluid displaced when the membrane 7 is activated is held in the working cavity 13 and does not pass from the valve through the outlet channel 11.

 This ensures high accuracy of cutting off the flow of the working medium.

 (56) 1. Sokolov M.V. et al. Automatic dosing of liquid media, L.: Chemistry, 1987, p. 149, fig. 5.1. and.

 2. Sokolov M.V. et al. Automatic dosing of liquid media, L.: Chemistry, 1987, p. 149, fig. 5.1. J.

Claims (1)

 A VALVE containing a membrane assembly made in the form of a housing with an input, output and control channels, working and control cavities and membranes and connected to the actuator, characterized in that it is equipped with an additional membrane assembly made in the form of an additional housing with additional input, output and control channels, additional working and control cavities and an additional membrane, and a two-sided plunger associated with the drive, and the housing of the membrane nodes are interconnected, the shanks of the plunger and set in the control channels, the control cavity filled with an incompressible fluid, wherein the outlet channel connected to an additional input, and the total volume of the working and control cavities of the first membrane unit is less than the volume of the working chamber an additional membrane unit in the closed position of the valve.

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