SU1015344A1 - Consumption stabilizer - Google Patents

Abstract

A FLOW STABILIZER Containing an elastic membrane installed in the housing, the chamber on one side of which is connected to the inlet duct, and the chamber on the other side of the outlet channel, and a throttling unit, characterized in that, for the sake of simplification, the throttling unit is designed as a nozzle assembly. the damper, the nozzle is installed in the center of the elastic membrane, and the damper connected to the displacement unit installed in the stabilizer is located in the chamber connected to the outlet channel.

Description

The invention relates to means of pneumohydroautomatics, namely, stabilizers for gas and liquid flow.

Known choke flow stabilizers containing a constant choke and a choke with automatic adjustment of the resistance value fl].

A disadvantage of the known stabilizers is the complexity of their construction.

Closest to the proposed technical essence is a flow stabilizer containing an elastic membrane installed in the housing, the camera on one side of which is connected to the input channel, and the camera on the other hand is connected to the output channel, and a throttling unit [2].

The presence of a separate channel in this device, in which a throttling unit is installed - a constant choke, between the input channel and the camera connected to the output channel complicates its design. In addition, this device does not have the ability to configure a given flow rate.

The purpose of the invention is to simplify the design of the flow stabilizer.

This goal is achieved by the fact that in the flow stabilizer containing an elastic membrane installed in the housing, the camera on one side of which is connected to the input channel, and the camera on the other hand> · with the output channel, and a throttle assembly, the latter is made in the form of a nozzle-damper assembly the nozzle of which is installed in the center of the elastic membrane, and the damper connected to the displacement unit installed in the stabilizer is located in the chamber connected to the output channel.

In FIG. 1 shows a flow stabilizer with an elastic membrane; in FIG. 2 - the same version:: with an elastic spring-loaded membrane.

The stabilizer contains a housing 1, in which an elastic membrane 2 is installed (Fig. 1), in the center of which

a nozzle 3 is installed. In the chamber 4 connected to the output channel 5, a shutter 6 is placed, connected to the node 7 of its movement. Camera 8 _ is connected to input channel 9.

The stabilizer can be made with an elastic membrane 10 connected to the spring 11. The damper is connected to the movement unit 12 (figure 2). As an example, the node 7 is made θ yen in the form of an electric motor with a screw connection with a shutter, and the node 12 with a handle management. The flow stabilizer operates as follows.

The nominal flow rate is set. moving the shutter, i.e. by setting the gap h between the nozzle 3 and the shutter 6. Through channel 9, the working fluid (liquid or compressed air) enters under pressure into the high-pressure chamber 8 and then through the nozzle 3 and the gap h of the throttle slit into the low-pressure chamber 4, which exits through the channel 5. If the pressure in chamber 8 increases, then the differential on nozzle 3 will increase, which could lead to an increase in flow rate. However, under the action of increased pressure in the chamber 8, the elastic memjq of the brane 2 bends down (according to the drawing) together with the nozzle 3 and thereby reduces the gap h to a value at which the flow rate is established at the same level.

The rigidity of the membrane 2 in the operating range is constant and, therefore, the position of the nozzle is linearly dependent on. pressure drop across the membrane. If the pressure increases in the chamber 4, the differential on the nozzle 3 will decrease, however, the decrease in flow rate is compensated by the deflection of the membrane 2 upward and an increase in the gap h.

Thus, in the design described above, the flow rate of the working fluid 45 is independent of the pressure drop. Similarly, the stabilizer shown in FIG. 2.

The effectiveness of the invention is determined by reducing the cost of manufacturing the device and increasing the accuracy of stabilization of the flow rate of the working environment.

FIG. 2

ВНИИПИ Order 3208/44 Circulation 874 Subscription

Branch of PPP Patent,

Uzhhorod, st. Design, .4

Claims (1)

CONSUMPTION STABILIZER, comprising an elastic membrane installed in the housing, the chamber on one side of which is connected to the inlet channel, and the chamber on the other side with the outlet channel, and a throttling unit, characterized in that, for the sake of simplicity, the throttling unit is made in the form of a nozzle unit a shutter, the nozzle of which is installed in the center of the elastic membrane, and a shutter connected to the displacement unit installed in the stabilizer is located in the chamber connected to the outlet channel. figure 1 1 --1015344