SU1022173A1 - Pneumatic master control - Google Patents

Description

The invention relates to elements of pneumatic automation, and the name to the vacuum control,

Vacuum setting devices are known, containing a five-membrane comparison element, one nozzle of which is connected to a vacuum source, an overpressure setting device connected to the camera of the comparison element, and an output channel l

The disadvantage of this vacuum adjuster is the complexity of the design.

The closest in technical essence to the present is a task. The sensor includes a housing with flow-through and blind chambers, between which a membrane is located, on both sides of which springs are installed, a spring placed in a blind chamber, connected to the force setting unit, a nozzle installed in the flow-through chamber, and an output channel connected through the throttle c feed channel and through the nozzle - with the atmosphere 2,

The known device has a limited scope, since it can only be used as an overpressure setting device.

The purpose of the invention is to expand the scope of the setting device.

This goal is achieved by the fact that the pneumatic unit, comprising a housing with flow and blind chambers,. Mefana is located on both sides of which springs are installed, the spring placed in a deaf chamber is made with the force setting unit, the nozzle installed in the flow chamber and the output channel connected through the throttle to the power channel are provided with a vacuum source to which The pigan channel is connected, and the input channel is connected to a deaf chamber and through the nozzle and the flow chamber to the atmosphere.

The technical and economic effect is due to the fact that when using

The proposed invention greatly simplifies the technical implementation of a vacuum stabilizer.

The drawing shows a diagram of the setter.

The gauge consists of body 1, membrane 2, springs 3, and a setting unit — adjusting screw 4. Case 1 is divided by membrane 2 into two chambers, 5 is deaf and flow 6 with nozzle 7. Deaf camera 5 is connected to output channel 8, through throttle 9 - to the vacuum source 1O and through the nozzle 7 and the flow chamber 6 - to the atmosphere.

The gauge works as follows.

With the help of screw 4, the spring 3 is compressed and a force is applied to the membrane 2, directed vaz. The membrane 2 bends downward and closes the nozzle 7. A vacuum source H (for example, a vacuum pump) is connected.

As a result, the magnitude of the vacuum increases in chamber 5, and, therefore, a force upward acts on the membrane 2.

The membrane moves upwards and occupies a position in which the amount of air entering from chamber 6 through nozzle 7 into chamber 5 becomes equal to the amount of air escaping through

35 Choke 9 to vacuum source 1O. In this case, the force effects on the mem & wound 2 created by the vacuum and the springs 3 will be equal. Thus, the magnitude of the vacuum in the deaf chamber 5 will be

40 remain constant.

If it is necessary to change the value of the stabilizing vacuum, then with the help of screw 4 the force is applied to m vmbrv 2 and, consequently, 45 the size of the vacuum on the flow and in the channel 8 P is changed por45,

8S

Claims (1)

A PNEUMATIC SENSOR, comprising a housing with a flow and a deaf chamber, between which there is a membrane, on both sides of which there are springs, the spring placed in the deaf chamber made with a force setting unit, a nozzle installed in the flow chamber, and an output channel connected through a throttle to a power channel, with the fact that. in order to expand the scope of its application, the setter is equipped with a vacuum source to which a power channel is connected, and the output channel is connected to a deaf chamber and through the saddle and flow chamber with the atmosphere. ^ 80 ^ 1022173