SU794391A1 - Pneumatic weighing apparatus - Google Patents

Description

In addition, the inlet channel of the ejector is connected to the measuring device by means of a tube located in the letter, the inlet of which is directed towards the pressure regulator.

On. The drawing shows a pneumatic weighing device.

The device contains a weighing platform 1, rigidly connected with the comparison element in the form of a piston 2 located in the housing 3, a weight measuring sensor made in the form of a damper - a ball 4 fixed in the lower part of the piston 2, and a nozzle 5 connected to the controller 6 pressure.

In the housing 7 of the nozzle 5 there is a cavity 8, an ejector with a cavity of the nozzle 5.

The differential pressure gauge 9 comprises a housing 10, in which a membrane 11 is located, which is connected to the downstream device 12 and the internal cavity of the housing 10 is divided into chambers 13 and 14.

Chamber 13 by channel 15 is communicated with cavity 8, and chamber 14 by tube 16 is with nozzle cavity 5. One end of tube 16 is located in the cavity of nozzle 5 and is directed towards pressure regulator 6.

In the Cornus 3, the channels 17 are made, and on its inner wall there are annular recesses 18, by means of which the internal cavity of the housing 3 is connected to a power source. The piston 2 is located in the housing 3 with a gap to form an air bearing. An adjustable stop 19 is installed in the upper part of the housing 3 to limit the upward movement of the piston 2.

The device works in the following way.

When the power sources are turned on, air enters through the channels 17 and the annular recesses 18 into the gap between the housing 3 and the piston 2, thus forming an air bearing in which the piston 2 is centered relative to the housing 3.

At the same time, the pressure in the cavity of the nozzle 5 increases, under the action of which the ball 4 moves upward, moving the piston 2 to the stop 19. This opens the nozzle 5 and the air is released from it through the gap between the ball 4 and the nozzle 5. In addition, the air enters through the tube 16 into the chamber 14 of the differential pressure gauge 9, the pressure in it increases and the membrane I moves towards the chamber 13. At the same time, an additional force acts on the membrane, directed towards its movement and due to the fact that during the passage of air in the cavity with la 5 through ejection into the cavity 8 formed razrezhepie and air from chamber 13 flows through channel 15 into cavity 8.

The pressure value fixed by the pointer device 12 will correspond to a zero weight value.

When a controlled load is placed on the weighing platform 1, the piston 2 moves downwards, since the pressure acting on the bottom surface of the ball 4, and hence the piston 2, does not balance the weight of the controlled load. In this case, the ball 4, lowering together with the piston 2 downwards, reduces the flow of air coming from the nozzle 5, and the pressure in

the latter is changed in proportion to the measured weight, which is accordingly fixed by the pointer device 12.

Thus, the use of an additional flow parameter, namely, the velocity head, allowed ejection, create a vacuum in the cavity and, thus, create an additional force acting on the membrane.

In addition, the connection of the nozzle with the measuring device through a tube, one end of which is located in the cavity of the nozzle and directed towards the pressure regulator, allows to increase the signal to the measuring device,

dynamic flow account,, t. e. velocity head, which also leads to an increase in measurement accuracy.

As a result of using the invention, the accuracy of the device is improved by about

nine times the known pneumatic weighing devices.

Claims (2)

1. A pneumatic weighing device comprising a weighing platform, a comparison element rigidly associated with it in the form a piston installed in a housing and a weight measuring sensor designed in the form of a damper nozzle, the damper of which is rigidly connected to the weighing platform, and the nozzle cavity is connected to a measuring device and through a regulator with a pressure source, in order to increase the measurement accuracy, the nozzle equipped with an ejector forming an ejector cavity with its intrinsic surface associated with the measuring device. 2. A pneumatic weighing device according to claim 1, characterized in that the supply channel of the electron is connected to the measuring device by means of A tube whose inlet is directed towards the pressure regulator. Sources of information taken into account in the examination 1. USSR author's certificate NS 348890, cl. G 01G 19/28, 08.23.72. 2.Wiedmann, R. and Illig, T. Fluidic weight checking apparatus. “Proc. 6th Granfield, Fluidics Conf., Cambridge, 1974, Granfield, 1974, Gl / 1-Gl / 11 (prototype).