SU610074A1 - Pressure regulator - Google Patents

Description

(54) PRESSURE REDUCER

The invention relates to pneumatic valves and can be used in pneumatic systems. A gas pressure reducer is known, comprising a supply, discharge, and a sensitive element, which is ia-shaped as a stepped piston, the outlet pressure cavity communicating with the sensitive element cavity l. However, the cavity between the piston stages is filled with a variable pressure, non-linearly dependent on the valve stroke, as a result of which the piston force is compensated and the output pressure accuracy is sufficiently not reached. A pressure reducer is also known, which has a housing with an inlet and an outlet cavity in which the first sensing element, made in the form of a stepped piston | associated with the first {fossepirukitsy valve-saddle pair, and the second sensing element associated with the second throttling valve-saddle pair 2. The valve device is driven by a second sensing element, under the influence of control and output pressures. The output pressure range of this gearbox is limited. The second sensing element comes to equilibrium at equal pressures in the output and control cavities, and taking into account the main control line scheme (the presence of two steps of different areas and the effect on the piston through the valve tappet), this line is included in the control process only when a certain value is reached outlet pressure. However, this gearbox has a control gearbox with a safety valve on the control line, which complicates the device. The aim of the invention is to simplify the device. This is achieved by the fact that the output cavity is limited to a larger piston stage and is connected to the cavity between the stages of the MI through the second U-axis valve pair. The drawing is righteous prvnnngshapna gearbox diagram. The pressure reducer has a housing I with a sedpe 2, a valve being closed 3. The output pop 4 commutes with a pneumopopia (between the stages) 5 canals 6 and 7 n with a second throttling pair valve 8 with a saddle 9, Stepped piston 1O is the first sensitive the element, and the piston is the 11th second sensing element, reacting to the outlet pressure and leading the second throttle to a handheld pair. The springs 12 and 13 provide the required elastic force on the sensing elements 10 and 11, Kanap 14 ensures a constant flow of gas from the pneumo-cavity 5 and thus the possibility of decreasing the pressure in HeJi required in the process of regulation; the gearbox also has an input cavity 15, a rod 16, the Redput avpenn works as follows. In the initial position of the gearbox 12 and 13, housed in housing 1, are loaded on the same nominal output pressure, valves 3 and 8 are pressed: respectively from saddles 2 and 9. At the same time, channel 6 is blocked by a stepped piston 1O. The gas from the internal cavity 15 flows through the annular gap between valve 3 and seat 2 into the output cavity 4. The stepped piston Yu from this pressure starts to move to a large level, and gas from vko The second cavity flows to the second sensitive element-element 11 and then through the annular gap between the valve 8 and the seat 9 and through the channel 7 to the volume 5, from where the gas drains through the canal 14. The pressure in the bedrock 5 has a corrective effect on the step piston 10, and thus the output pressure. In order to increase the stability of the operation of the reducer, the difference in the diameter of the piston stages was chosen as the Minimum, providing only an adjustment of the output pressure when the input pressure and gas flow were changed. When the outlet pressure reaches the demand degos value corresponding to the degree of compression. the spring 13, the piston 11 will begin to move, allowing the valve 8 to cross the saddle 9. At the expense of the gas flow through the channel 14 and the regulated gas flow through the saddle 9 in the pneumatic cavity 5, a variable pressure is created, the value of which depends on the pressure correction required in the output cavity 4. Since the pressure in the outlet cavity and the pressure at which the piston 11 begins to move is nominally equal, which can be achieved by the corresponding compression of the springs 12 and 13.1 And can be almost arbitrarily small, then the range of output pressures the gearbox may start from zero and become, therefore, expanded. The cavity communicates from the side of the larger end surface of the piston With the output cavity 4, the overlap of the channel 6 in the initial position and this piston cause the gear to work without increasing the output pressure at any input pressure supply rates and filling the output volume and subject to using springs as elastic items. Thus, the invention creates the conditions for the operation of the gearbox in a wide range of output pressures and allows the use of springs on sensitive elements and thereby simplify the design and reduce the size of the gearbox. F. Formula of the invention A pressure reducer having a housing with inlet and outlet cavities in which the first sensing element is installed, made in the form of a stepped piston connected by a rod with the first throttling valve-saddle pair, and the second sensitive element connected with the second throttling a pair of valve-seat, which is characterized by the fact that, in order to simplify the design, the output cavity is limited to a larger piston stage and connected to the cavity between (through the second throttling valve-seat pair through a second valve. Sources inform Considerations taken into account during the examination: 1. USSR author's certificate No. 504038, class Q O5G16 / O6, 1974. 2. Author's certificate USSR N24449O8, class Q 05D16 / O6, 1972.