RU1779803C - Electrohydraulic system - Google Patents

Abstract

Usage: in chemical engineering, in devices for the accumulation and delivery of a liquid or gas product and its exact dosage. The essence of the invention and: when the dispenser is functioning, the consumable product enters through the channels 22 and 20 into the cavity 16 and the storage cavity 2. When the membrane is completely changed, the membrane presses

Description

The invention relates to chemical engineering, and more particularly, to devices for accumulating, dispensing a liquid and gas product and accurately dosing it.

A known dispenser comprising a housing with niches, with inlet and outlet channels and a constant volume chamber divided by a membrane into two cavities, partitions and contacts of the membrane extreme position sensors with leads are located in the housing niches, and the inlet and outlet channels are connected to the inlet and outlet valves .

However, the known dispenser device is not reliable enough for a long life (20,000 or more shifts) due to friction on the sensor surface, it has insufficient measurement accuracy of the product, requires controlled membrane shifts and significant membrane stiffness, which is not always acceptable, especially in highly sensitive devices at low pressures x incandescent product (5 ... 10 mm Hg required, for example, when purging spark chambers, the Cherenkov sensor) and in the presence of a transferred membrane with zero stiffness, which changes begin to occur at a pressure of 3-5 mm vod,

The aim of the invention is to increase reliability by eliminating friction of the membrane against spherical surfaces, reducing weight and overall dimensions.

This goal is achieved by the fact that bores are made in the niches of the housing, the partitions are made in the form of spherical perforated segments with passage holes and annular stops on the opposite side from the membrane and are installed to interact with the bores of the housing niches, and the contacts of the sensors of the membrane extreme position are mounted on the partitions from the side opposite the annular stops, the end walls of the niches along the axis of the housing are made with nozzles with axial and transverse channels, and on the outside Mounting flanges are made on the branch pipe, and the conclusions of the sensors of the membrane extreme position are placed in the axial

pipe channels, and inlet and outlet valves are connected to their transverse channels.

The invention is illustrated in the drawing, which shows a dispenser.

The dispenser contains a housing 1 with niches 2 and 4, inlet and outlet 6 and 7 channels and a constant-volume chamber divided by a membrane 8 into two cavities 9 and 10. B

niches 2 and 3 of the housing 1 contain partitions 11 and 12 and contacts 13 and 14 of the extreme position sensors of the membrane 8 with leads. Inlet 4 and 5 and outlet 6 and 7 channels are connected to inlet 15 and 16 and outlet. 17 and 18 valves. In niches 2 IZ housing

I Bores 19 and 20. Performed

I1 and 12 are made in the form of spherical perforated segments with passage holes 21 and annular stops 22 s

the opposite sides of the membrane and are installed with the possibility of interaction with the bores 19 and 20 of the niches 2 and 3 of the housing 1, and the contacts 13 and 14 of the sensors of the extreme position of the membrane are installed on the partitions 11 and 12 from the side opposite the ring stops 22. The end walls of the niches 2 and 3 along the axis of the housing 1 are made with nozzles with axial 23 and 24 and transverse channels, and on the outside of the nozzles

mounting flanges 25 are made. Moreover, the conclusions of the sensors of the extreme position of the membrane 8 are located in the axial 23 and 24 channels of the nozzles, and the inlet 4 and 5 and the outlet 6 and 7 valves are connected to their transverse

channels.

When the dispenser is operating, the consumed product (gas) with the valve 6 open enters through the channels 4 and 23 into the cavity 26, from which it enters through the openings 21

into the storage cavity 10, and with the outlet valve 18 open, the membrane 8 is shifted. With a complete changeover, the membrane presses the contactors 13 of the sensor. At his command, the valves 16 and 18 are closed, and the valves 15 and 17 open, gas with a control pressure is supplied to the cavity 9. The membrane 8 moves in the opposite direction and displaces the accumulated product. To ensure reliable operation

and providing several thousand shifts is necessary, on the one hand, the surface of the drive is absolutely smooth, and on the other hand, a more or less controlled transfer process is required. In extreme positions, the membrane adheres to the spherical surface of the housing 1, except for the surface of the partitions 11 and 12. The partitions 11 and 12 are made of material with a low coefficient of friction, and distribution holes 10 are made uniformly on the surface and radially to the axis of the sphere. 21. Cavities 26 and 27 provide uniform distribution of the accumulated product over openings 21, and in addition, provide convenient installation of cables from contacts 13 and 14 of the respective 15 sensors.

In the process of accumulation (discharge) in the area of the partitions 11 and 12, the product uniformly compresses the membrane 8, and outside this zone the membrane remains adhered to the surface 20 of the accumulator, therefore, at the initial moment of transfer only in the central zone of the membrane.

Subsequently, as the membrane moves, the resultant force from the 25 concentrated load from the pressure in the central part of the membrane becomes greater than the boundary force of adhesion of the membrane to the surface of the body and the membrane gradually detaches and thereby provides 30 initial uniform controlled transfer.

The baffles 11 and 12 are mounted flush with the surface of the housing, and thus friction at the transition points 35 is eliminated.

The adjacent surfaces of the partitions are adjusted during installation by fitting the surfaces of the stops 19, 20 and 22. The collars 25, located coaxially, provide convenient installation of the dispenser and the required strength with minimal weight and under any vibration-shock loads acting on the dispenser during its operation.

Claims (2)

1. A membrane dispenser containing a housing with niches, with inlet and outlet channels and a constant-volume chamber divided by a membrane into two cavities, partitions and contacts of the membrane extreme position sensors with leads are located in the housing niches, and the inlet and outlet channels are connected to the inlet and outlet exhaust valves, characterized in that that, in order to increase reliability by eliminating friction of the membrane against spherical surfaces, bores are made in the niches of the body, the partitions are made in the form of spherical perforated segments with passage holes and annular stops on the side opposite from the membrane and are installed with the possibility of interaction with the bores of the body niches, and the contacts of the membrane extreme position sensors are mounted on the partitions from the side opposite the annular stops. 2. The dispenser according to claim 1. that in order to reduce the weight and overall dimensions, the end walls of the niches along the axis of the housing are made with nozzles with axial and transverse channels, and fastening flanges are made on the outside of the nozzles, and the conclusions of the sensors for the extreme position of the membrane are located in the axial channels of the nozzles, and the inlet and outlet valves connected to their transverse channels. Editor I. Savina Compiled by T. Ivanova Tehred M. Morgenthal Order 4429 Mintage VNIIPI f State Committee for Inventions and Discovery under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Rauska nab., 4/5 Production and Publishing Plant Patent, Uzhhorod, 101 Gagarina St. Proofreader N. Slobod nick Date: 05/31/2001 Number of pages: 4 Previous document: SU 1779943A1 Next document: SU 1779945A1 UNION OF SOVIET SOCIALIST REPUBLIC STATE PATENT OFFICE OF THE USSR (GOSPATENT of the USSR) DESCRIPTION OF THE INVENTION TO AUTHOR'S CERTIFICATE 1 (21) 4835698/10 (22) 07.06.90 (46) 07.12.92. Bull. Number 45 (71) Svema Research and Production Association (72) V.G. Voronoi (56) Bobrovnikov G.N. Level Measurement Methods M .: Engineering, 1977, p. 160-161. (54) LIQUID ALARM (57) Usage: the invention relates to measuring equipment, namely to a signal (19) SLL „,. 1779944 A1 (5i) 5 G 01 F 2 $ / 30 lizirovaniya limiting fluid levels in tanks of conventional and explosive industries. SUMMARY OF THE INVENTION: as the liquid level increases, the load 8, which is rigidly attached to the free end of the elastic rod 1, floats, carries the rod 1, selecting it n (51bend7T1, while the protruding end 4 of the elastic rod 2 lowers the head of the actuating element 5. 1 s.p. f-ly, 3 ill. 4 5 (S WITH i vj Xj SQ 4D 4, 4