SU1275987A1 - Gas heat drive - Google Patents

Abstract

The invention relates to the field of mechanical engineering and can be used as a drive in pressure units, jacks, presses, which are triggered when gas is released from the sorbent due to thermal energy released by the electric heater. The invention makes it possible to increase the power by uniformly heating the sorbent throughout its volume. Inside the chamber 2 filled with gas 1 a perforated shell is placed.

Description

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And it can be used in the field of mechanical engineering and can be used as a drive in pressure blocks, jacks, presses, cpa6aTfjiBa ontnx when removing gas from the sorbent due to the thermal energy generated by the electric heater.

The aim of the invention is to increase the power pzghem uniform heating of the sorbent throughout its volume

Pa figs. 1 shows the described drive, axial section; Fig 2, the plot of the dependence of the net pressure P of the gas on the temperature T during the desorption of xenon from carbon

The drive contains filled with the working gas 15, for example, xenon, chamber 2. One of the walls of chamber 2 is extremely mobile in the form of a membrane 3 (or in the form of a piston, bellows) and connected to the power takeoff rod 4. Inside chamber 2, a solid electrically conductive sorbent 5 is placed, for example activated carbon, perforated sheath 6 with an electric heater, made in the form of electrodes 7 and 8 placed on opposite sides of the shell 6 and connected to the current lead 9. Camera 2 is equipped with a charging plug 10.

During the manufacture of the drive, an electrically conductive sorbent 5 is placed in chamber 2 — activated carbon encased in perforated obo-. The box 6. Then the sorbent .5 is regenerated, for which the chamber 2 is evacuated through the booster 4 Jibiii ipengel 10, and the sorbent 5 is heated by passing a current through it. In the process of heating and evacuating the sorbent 5, extraneous gases and moisture are removed from it. Thus, the sorbent 5 is prepared for saturation with the working gas 1. The release of the pulse is determined by setting the pressure in chamber 2, after which the vacuum is stopped, the volume of the sorbent 5 is cooled to the non-operating temperature of the drive the drive that it has when it is disconnected, at least partly, of the source of the power supply - see shstak T, -T in figo 2), then the power supply pelvis 1 under pressure is fed through the pinge-10n camera 2. The non-operating mode of the drive corresponds to the initial section (with the lowest torque of 75987

Noah) grchfpka function (T), which characterizes the process of desorption of xenon from activated carbon. About full saturation of the activated carbon is judged 5 at the steady-state pressure in chamber 2, after which the supply of the working hectare. for stopping, they make sealing of the filling rod 10. Activated carbon has a high sorption capacity, which depends on the temperature of adsorption. For example, 1 g of activated carbon absorbs 1200 cm or 6-9 g of xenon at 16.6 ° C and -bO atm pressure.

5 The drive operates as follows.

When the power source is connected to the current lead 9, the electrically conductive sorbent bent 5 is heated by an electric current, as a result of which the gas 1 adsorbed in it is released, increasing the pressure in chamber 2. The diaphragm 3 under the influence of pressure is moved together with

 rod 4 in the axial direction and does useful work. After disconnecting the supply source, the electrically conductive sorbent 5 cools to the non-operating mode of the drive.

30 and adsorbs gas 1, as a result of which the pressure in chamber 2 is reduced to the level of the non-operating mode of the drive, Membrane 3 due to its own elastic forces and pi elastic additional

35, the spring (not shown) returns to its original state.

Thus, the pressure of working gas 1 in chamber 2 increases as a result of volumetric and, consequently, more rapid and uniform heating of sorbent 5, carried out due to the flow of electric current through the volumetric electric resistance of sorbent 5, which increases the drive speed characteristics and its power .

Claims (2)

1. Gas heat drive containing a gas-filled chamber, one of the walls of which / mobile is mobile and connected to the power stem 53 of HocTHs, with a perforated sheath filled with a solid sorbent with an electric heater that is located inside the chamber By the fact that, in order to increase power by uniformly heating the sorbent throughout its volume, the electric heater is made as located on opposite sides of the shell electrodes, and the sorbent is electrically conductive. 2. The actuator according to claim 1, wherein the sorbent is activated carbon.