SU1610324A1 - Pneumatic follower - Google Patents

Abstract

The invention relates to a pneumatic technique and can be used to measure the pressure of various media, including under high temperature conditions. The purpose of the invention is to increase the sensitivity and simplify the design. The pneumatic repeater includes a housing 1 with a receiving 2 and a flow through 3 chambers. A membrane 4 is located between chambers 2 and 3. A rigid plate 5 with a central channel 6 and an opening 7 is installed in the chamber 3. In channel 6 a nozzle 8 with an emphasis 9 is placed, which is axially movable and connected with the flexible tube 10 with the atmosphere. The chamber 3 is also fitted with a spring 11, which presses the nozzle 8 to the plate 5. The inner surface of the cover 12, which forms the chamber 2 with the membrane, and the surface of the plate 5 on the side of the membrane 4 is made with its profile repeated at maximum deviation. 1 il.

Description

The invention relates to pneumatic technology, is intended to create an output signal equal in pressure to the input signal, and can be used to measure pressure of various media.

The purpose of the invention is to increase the sensitivity and simplify the design of the pneumatic repeater. Yu

The drawing shows a diagram of the proposed pneumatic repeater.

The pneumatic repeater comprises a housing 1 with a receiving 2 and flowing 3 cameras. A membrane 4 is located between the receiving 2 and flow-through 3 15 chambers. A rigid plate 5 is installed in the flow-through chamber 3 with a central channel 6 and a hole 7. A nozzle 8 is placed in the central channel 6 with a stop 9, 20 mounted for axial movement and connected by a flexible tube 10 with the atmosphere. A spring 11 is also installed in the flow chamber 3, which presses the nozzle 8 against the hard plate 5. A cover 12 with a supply channel 13 is attached to the plate 5.

The inner surface of the cover 12, forming with the membrane 4 the receiving chamber 2, and the surface of the plate 5 from the side of the membrane 4 is made with the repetition of its profile with a maximum deviation.

The maximum deviation of the center of the membrane 4 from the equilibrium position is determined by the maximum value of the gap between the center of the membrane 4 and the nozzle 8,

Membrane 4 (depending on the required sensitivity and operating conditions) can be made of various flexible profiled materials (for example, anticorrosive steel having corrugations on the periphery made around the circumference).

The pressing force of the nozzle 8 to the rigid plate 5 is set to a minimum, but exceeding the weight of the nozzle 8 with a flexible cutting 10.

Pneumatic repeater operates as follows.

In the initial position, air under pressure Ρ _πν1τ from the power source through the inductor DR enters the lower part of the flow chamber 3, from which through the hole 7 enters the upper part of the flow chamber 3; where through the gap between the membrane 4 and the nozzle

8, the nozzle 8 and the flexible tube 10 are vented to the atmosphere. In this case, the pressure in the flow chamber, and hence the outlet pressure P _Out, is zero.

When the input pressure appears in the receiving chamber 2, the membrane 4 bends under the influence of this pressure, as a result of which the gap between the center of the membrane 4 and the nozzle 8 decreases and the pneumatic resistance of the nozzle-damper type, which is formed by the center of the membrane 4 and the nozzle 8, increases, and therefore air from the flow chamber 3 through the nozzle 8 and the flexible tube 10 into the atmosphere is difficult. In the receiving chamber 3, an increase in pressure begins. Upon reaching this pressure equal to the inlet pressure P _in , the deviation of the membrane 4 ceases and equilibrium occurs at which the pressures on both sides of the membrane 4 are equal, and therefore the inlet pressure P _in / is equal to the outlet pressure P _{eb (lf} .

In the case of a decrease in the inlet pressure P _{in, the} gap between the membrane 4 and the nozzle 8 increases due to a decrease in the deflection of the membrane, and the air flow from the flow chamber 3 to the atmo sphere increases until a new equilibrium occurs, at which the pressures on both sides of the membrane are equal between by itself, which means that the input pressure P _in is equal to the output ³⁵ pressure P _Bblx .

With sharp changes in the input pressure at the initial moment, the membrane 4 also sharply deviates from the equilibrium position up to. 40 to the stop with the inner surface of the receiving chamber 2 or plate 5, since the equality of pressure on both sides of the membrane 4 at this moment is sharply violated.

However, even in the case of using a membrane 4 with reduced strength and supplying an increased inlet pressure, its destruction is difficult, since when deflecting, the membrane 4 is insulated in contact with the nozzle 8, it is insulated into the plate, and the inner surface of the receiving chamber 2 and the plate 5 from the side of the membrane C are limited membrane deflection 4. without causing its additional deformation and destruction.

Reduced requirements for membrane strength 4 allow the use of thinner membranes, which increases the sensitivity of the pneumatic repeater and dispersion expands the range of materials from which the membrane is made, which expands the scope of application of the pneumatic repeater (including in conditions of elevated and low temperatures and aggressive environments).

Claims (1)

Claim Pneumatic repeater, contents housing with a flow chamber formed by the walls of the housing, a rigid plate with a hole and a membrane attached along the contour to the plate, which on the membrane side has a profiled surface, as well as a spring-loaded nozzle with an abutment connected with the atmosphere and installed in a channel made by the center of the rigid 5th plate, while the nozzle is installed with the possibility of axial movement and contact with the membrane, characterized in that, in order to increase the sensitivity and simplify the design, it is equipped with They are internally profiled with a cover with a supply channel attached to the rigid plate from the side of the membrane to form a receiving cavity, and 15 the nozzle is connected to the atmosphere by means of a flexible tube inserted into the pneumatic repeater.