RU1789745C - Pneumatic pressure control unit - Google Patents

Abstract

The invention relates to pneumatic automation elements. The purpose of the invention is to increase the range of variation during operation is achieved by the introduction of an additional unit 2 of single-membrane elements (OE) and a control pneumatic line 20, in communication with deaf chambers 11, 12, 13 OE of the main unit 1 - the outputs of the locking elements of the additional unit 2 and through an additional adjustable choke 24 with a power source. 1 ill.

Description

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The invention relates to pneumatic automation elements, in particular to pressure switches.

The purpose of the invention is to increase the number of discrete output signals.

The invention is illustrated in the drawing, which shows a schematic diagram of a device.

The pneumatic adjuster is made in the form of two single-membrane elements (for example, USEPPP P2P2 or P23DZ): main 1 and additional 2.

Each block contains three single-membrane elements. The inputs of the flow chambers 3,4, 5 are connected through the corresponding locking devices 6, 7, 8 to the pneumatic line 9, which is the output of the Pout device and through the throttle 10 to the pneumatic source. The inputs of the deaf chambers 11, 12, 13 of the single-membrane elements of the main unit 1 are communicated with a common output pneumonia 20 of the additional unit 2. The outputs of the flow chambers 14, 15, 16 of the single-membrane elements 17, 18, 19 are communicated with pneumatic 20 through the shut-off devices 21 , 22, 23 of additional unit 2. An air source is connected to the pneumatic line 20 through an adjustable throttle 24. The flow chamber of each of the single-membrane elements is equipped with a nozzle connected to the atmosphere. Single-membrane elements are equipped with a shift adjustment mechanism.

Locking devices 6, 7, 8, 21, 22, 23 can be connected to an automatic control system (not shown in the drawing).

The device operates as follows.

The pneumatic adjuster is prepared for operation by applying the supply pressure Rpit and opening, for example, in turn, by supplying control signals to the shut-off devices 6, 7, 8, 21, 22, 23. Using the shift adjustment mechanism, the output signals of the pressure of the block elements are adjusted so that they differ from one another, for example by a unit of pressure required. In this case, the pressure from the first to the last single-membrane element of block 1 increases by a unit of the required pressure, for example, 0.1; 0.2; 0.3 kgf / cm2, respectively.

The pressure in the additional unit 2 of the single-membrane element is 0.3, respectively; 0.6; 0.9 kgf / cm2.

Pneumatic adjuster operates as follows. If it is necessary in pneumatic line 9 to change the outlet pressure sequentially from min to max, then first

open the locking device 6 and at the outlet 9, a pressure of 0.1 kgf / cm2 (the pressure at which the single-membrane element 3 is configured) is opened, then the locking device 7 is opened and the device 6 is closed. At the output 9, the second signal is 0.2 kgf / cm. Then the locking device 8 is opened, and 7 the third signal 0.3 kgf / cm2 is closed at the output. After that, power is supplied to the throttle 24 and the locking device 21 is opened. A pressure of 0.3 kgf / cm2 will be generated in the pneumatic line 20, to which the output pressure of the single-membrane element 17 of block 2 has been adjusted.

5, the pressure enters simultaneously into the deaf chambers 11, 12, 13 and shifts their output signals by 0.3 kgf / cm. As a result, they become 0.4; 0.5; 0.6 kgf / cm, respectively, since the locking device 8 was

0 open, then in the pneumatic line 9 at the output a fourth pressure signal of 0.6 kgf / cm will be generated. If the locking device 7 is opened and the device 8 is closed, then the fifth signal with a pressure of 0.5 kgf / cm will appear. AND

5 if the shut-off device 6 is opened and 7 is closed, then the sixth pressure signal 0.4 kgf / cm2 appears in the pneumatic line 9. Closing the shut-off device 21 and opening 22 at the outlet of the pneumatic line 9, the pressure 0.7, then 0.8 and 0.9 kgf / cm, is similar to that brought by the wrench. And finally, to connect the single-membrane element 19, we get three additional output pressures of 1.0. 1.1; 1.2 kgf / cm2.

5 Locking devices 8 and 23 may not be, since their pressure is maximum, and the single-membrane elements are connected according to the circuit for determining the signal mines, therefore, when opening one of the locking devices

0 outlet pressure will be equal to the output of this element, since its output will be less than the maximum. Moreover, if power is supplied simultaneously to inductor 10 and 24, then the number of output signals5 will be obtained in steps 3–3. If the power supply signal on inductor 24 is turned off, then three more output signals will be received, i.e. n m + а в, where m 3

is the number of single-membrane elements in block 0, then n 3 + A2 3 + 9 12.

If the shut-off devices 6, 7, 8 are closed, and the power supply Rpit is supplied to the inductor 10, then at the output of Pout in channel 9 there will be a signal in the form of the supply pressure, where n (t + 1) + a at 5 4 + 9 13.

- Thus, we offer a pneumatic adjuster contains two times less single-membrane elements, similarly switching device. It’s twice as easy.

Due to the original connections, without increasing the number of single-membrane elements, uniting them in blocks, it is possible to increase the number of output signals in the form of compressed air pressure, i.e. increase the range of their change. For example, if there are 10 single-membrane elements, then I will form two blocks with the same number of elements, we get 55 and 25 different pressures. Here is the formula of invention

A pneumatic pressure adjuster comprising a main unit of single-membrane elements, including a deaf chamber, a flow chamber communicated through a nozzle to the atmosphere, and shut-off elements whose inlets are connected to flow chambers of the single-membrane elements, and an output pneumatic line communicated with the outputs of the shut-off elements and through a regulator

an increase in the number of signals 25:10 2.5 times a day and a half times.

If the single-membrane elements are 100, then 100: 2 50g. and in 50502 2500.

Here, the increase in signals in comparison with the prototype has already occurred at least 25 times, so the effect of the proposal is higher, the larger the element c.

adjustable throttle - with a power source, characterized in that, in order to increase the number of discrete output signals, the control unit is equipped with an additional unit of single-membrane elements and a control pneumatic line in communication with blind cameras of single-membrane elements of the main unit - outputs of the locking elements of the additional unit and through an additional adjustable throttle - with power source.