SU641279A2 - Gas metering apparatus - Google Patents

Description

product (valves, drainage and gas receiver are not shown in the drawing).

For automatic installation of the required dose, a constant pressure cavity in the part where there is a narrowing is provided with an induction unit for 7 doses, installed with the possibility of reciprocating movement and an interacting magnetic field with a core 8, which is rigidly fixed to rod 2 and placed in of the constricted part of the housing 1. The core and the piston are moved by means of a lead screw 10 connected with a drive, for example, a reversible motor, operating according to a predetermined program.

An electromagnet H with a winding 12 is coupled to the outside of the casing within the range of movement of the overhead valve. The electromagnet interacts with an alternating magnet field with the field of a permanent rod magnet 13 fixed forcibly on the shaft 2 from the cavity side c. The electromagnet 1 is a magnetically conductor consisting of a set of plates, for example, C-shaped, made of magnetically soft material, which easily re-magnetizes under the action of alternating current.

The permanent magnet 13 is made in the form of a rod of magnetically hard material with a high value of coercive force. On the constricted part of the body under the unit doser is located the roller setter 14.

The device works as follows.

The induction unit 7 sets the required volume of the measuring vessel. For this, the setting coil 4 is moved to the required distance in the on state. The movement of the coil is accompanied by a corresponding movement of the core 8, and hence the piston 2. At the same time, a non-trehmey current is applied to the winding 12 of the electromagnet 11, which creates an alternating magnetic field at the ends of the magnetic circuit, interacting with the field of the constant magnet 53. When the strength vector does not match the magnetic field of an electromagnet with a vector of intensity of a magnetic field of a permanent magnet on the latter is acted upon by a force, creating an eject moment, under the action of which a magnet 3 with a piston 2 will turn % at an angle values which are determined by the frictional forces of the piston housing wall, and the resulting vectors.

When the current direction in the winding 12 is changed, the magnetic field of the electromagnet coincides with the field of the permanent magnet. As a result, the torque acting on the magnet 13 changes the opacifier and it returns to its original position with the piston 2.

In this position, the cavity B is connected to the atmosphere by a pipe 4. After setting the dose, winding 12 de-energizes. Then the test gas from the source. Under excess pressure, the pipeline 5 is pumped into the measured volume B. The excess gas through pipeline 6 is disposed of in the drain. After flushing and filling the measuring tank with the analyzed gas, it is disconnected from the gas source and drainage, and the constant pressure cavity is disconnected from the atmosphere and connected via pipeline 3 to a source of carrier gas with a constant pressure. At the same time, coil I is turned and power is supplied to winding 12.

If the pressure of the test gas in the measuring vessel is greater than the pressure in half a constant pressure, then the piston 2 starts to move upwards until the pressure in vessel B is equal to the pressure in cavity B. When the pressure of the gas to be dosed in the measuring vessel is less than in the cavity of the other pressure, the piston moves downward until equality

0 pressure in both cavities. Since the piston 2 at this moment makes an oscillatory rotational movement under the action of an alternating magnetic field created by an electromagnet, this provides a significant decrease in the CVM of the friction material pack

5 lotnesnyh on the wall of the cylinder, and therefore increases the sensitivity of the piston to a slight difference in pressure in the volumes B and C, i.e., in general, increases the accuracy of dosing. Overdose and stabilized

The Q gas is carried by the flow of carrier gas through conduit 5, is displaced from the measuring container through conduit 6 to the gas receiver.

Claims (1)

Invention Formula 5 Gas metering device according to ed. SID VNb 542911, characterized in that, in order to improve metering accuracy, the housing is externally provided with a variable electromagnet, and the piston on the upper side is a permanent magnet. 7 fe./4f gN one