SU949280A1 - Device for throttling fluids - Google Patents

Description

(54) DEVICE FOR THROTTLE LIQUID AND GAS

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The invention relates to pipe fittings. It can be used in control elements of electro-hydraulic and electropneumatic systems.

A device is known for throttling liquid and gas, in the casing of which a nozzle and a flap are mounted, rigidly connected to a piezo transducer made in the form of a set of piezoceramic plates 1.

A disadvantage of the known device is the direct contact of the piezoceramic plates with the working medium, which significantly reduces its life and degrades performance.

It is also known a device for throttling a liquid and a gas, in the casing of which a package of alternating flexible and rigid throttling elements connected to the piezo transducer 2 is installed.

The disadvantages of the known throttling device are the low resource of work 20, the limited range and the low accuracy of the throttling of the working medium.

The purpose of the invention is to improve the accuracy of controlling the flow rate of the working medium.

The goal is achieved by the fact that rigid throttling elements are made in the form of flat shields with radial and annular grooves and conical chamfers on the inner diameter, the height of which is greater than the depth of the radial grooves, and the flexible throttling elements in the form of a piezo-transducer mandrel resiliently elongated in the body and a spring-loaded mandrel membranes with holes fixed on it, and the membranes are fixed in such a way that their holes are located opposite the annular channels of rigid throttling elements.

FIG. 1 shows the device, general view, in section; in fig. 2 - hard choke element; in fig. 3 — coupling along the working surfaces of rigid and flexible choking elements.

Claims (2)

The device comprises a housing 1 in which a package of alternating rigid 2 and flexible 3 throttling elements connected to a piezotransducer 4 is installed. The rigid throttling elements 2 are made in the form of flat shields with radial 5 and annular 6 grooves and conical chamfers 7 on the inner diameter, the height hi of which greater than the depth of the radial channels h2 (Fig. 2). Flexible throttling elements 3 are made in the form of a spring-loaded spring 9 9 resiliently suspended in the housing I on the sealing membranes in the direction of the piezotransducer 4 of the rod 10 and the membranes 11 with holes 12 fixed on the rod in such a way that the holes 12 are located opposite the annular grooves 6 of the rigid throttles . The spring tension is adjusted by a screw 13, and the position of the converter is respectively a screw 14. The converter is powered from the generator 15. The device operates as follows. The throttle device by means of the initial adjustment ensures the operation in the following modes; normally open, when the device skips the operating environment when the control signal is turned off; normally closed, when the device is turned off when the control signal is turned off, the device does not pass the medium in the first case. The device is regulated in the following way: pressure is connected and the screw 14 moves the piezoelectric transducer 4 and the rod 10 with flexible membranes I, which, bending, block the grooves 5 on a rigid throttle element 2, and the flow rate is stopped. A screw 13 is used to tension the spring Q, which provides the required natural frequency of the flexible membrane unit 11. When the converter 4 is supplied with an alternating electric current, the frequency of which is close to the natural frequency of the moving part, consisting of an elastic spring 9 suspended in the body 1 10 and membranes 11, resonances of oscillations of the „„ „NOI parts with a maximum amplitude arise. If the membranes 11 are initially pressed to the left side of the rigid elements 2 (Fig. 3), the arrival of the working medium occurs in the phase of compression of the piezoelectric transducer 4, and its locking is in the phase of its expansion. In case the flexible elements are initially pressed to the right side of the rigid elements 2, the working medium comes in the expansion phase of the converter 4. The flow of the working medium is controlled by changing the amplitude of the control signal to the converter 4, while operating in a resonant mode reduces the electric consumption energy. The throttling of the working medium occurs as a result of the turbulization of the flow passing between the stationary rigid and vibrating flexible throttling elements. Thus, the implementation of rigid throttling elements in the form of flat washers with radial and annular grooves and conical chamfers on the inner diameter, the height of which is greater than the depth of the radial grooves, and flexible throttling in the form of an elongated spring-loaded stem and diaphragms with holes elastically in the body mounted on the rod in such a way that their holes are located opposite the annular grooves of rigid throttling elements, allows to increase the accuracy of control of the flow rate whose environment. The invention is a device for throttling a liquid and a gas, in the casing of which a package of alternating flexible and rigid throttling elements connected to a piezo transducer is installed, characterized in that, in order to improve the control accuracy, the rigid throttling elements are made in the form of flat washers with radial and annular grooves and conical chamfers on the inner diameter, the height of which is greater than the depth of the radial grooves, and flexible throttling elements - in the form of elastically suspended in the body dinner in the direction of the piezoelectric transducer stem and membranes with holes fixed on it, and the membrane is fixed in such a way that their holes are located opposite the annular grooves of rigid throttling elements. Sources of information taken into account during the examination 1. USSR author's certificate No. 608032, cl. F 16 K 31/02, 1978. 2. USSR Author's Certificate No. 504043, cl. F 16 C 47/04, 1974. fO J / / corner ZV / // // WU / Aghj rx / xi y.