RU1786300C - Electropneumatic transducer - Google Patents

Abstract

The invention relates to the field of pneumatic automation. The device comprises a housing 1, an electromagnet 3 and a working chamber 10 with coaxially located supply 4 and atmospheric 5 nozzles with a locking element. The implementation of the locking element in the form of two balls 6 and 7, interconnected by springs 8, significantly reduces the power consumption of the electro-pneumatic converter. 1 ill.

Description

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The invention relates to the field of auto, mathematics and can be applied to automatically control pneumatic actuators. :

An object of the present invention is to reduce the power consumption of an electro-pneumatic converter.

The invention is illustrated in the drawing, which shows the construction of an electro-pneumatic converter.

The electro-pneumatic converter comprises a housing 1 of non-magnetic material, a core frame 2 of an electromagnet 3, a feeding nozzle 4, coaxial to which the atmospheric nozzle 5 is located. A locking element is placed between the feeding and atmospheric nozzles, consisting of two balls b and 7 freely located in the housing opening, interconnected by two elastic elements 8. made in the form of curved flat springs connected to each other and balls by toroidal bevels 9. Ball 7 is made of magnetic material and has contact with the feed nozzle 4. Ball 6 has the ability to contact with the atmospheric nozzle 5. The length of the flat springs is less than + XtЈs, where d is the diameter of the balls, Xmakc is the largest movement of the balls. Balls 6 and 7 are placed in the working chamber 10, equipped with an output channel 11. The working chamber 10 is sealed on the side of the electromagnet by a non-magnetic insert 12.

Electro-pneumatic Converter operates as follows.

In the absence of voltage on the coil of the electromagnet 3, the ball 6 locks the atmospheric nozzle 5. In this position, the flat springs 8 are bent, attracting the ball 7 to the ball 6, while the gap between the ball

6 and the feed nozzle 4 provides the desired flow area.

When voltage is applied to the coil of electromagnet 3, ball 7 begins to move and ball 6 remains stationary. As the gap between the ball 7 and the feed nozzle 4 decreases, the flat springs 8 straighten out, their stiffness, and hence the elastic force, increase sharply.

This leads to the separation of the ball 6 from the atmospheric nozzle 5 and it begins to move together with the ball 7 until the ball 7 touches the feed nozzle 4, while the elastic force decreases, the ball 6

is attracted to the ball 7, forming with the atmospheric nozzle 5 a gap sufficient to provide the required flow area.

Claims (1)

When the voltage is removed from the coil of the electromagnet 3, both balls detach and the ball 6 closes the atmospheric nozzle 5. . SUMMARY OF THE INVENTION An electro-gezhevmatic converter containing an electromagnet with a core frame fixed in a groove of the housing, inside of which there is a working chamber with coaxially located feed and atmospheric nozzles, a lateral output a channel and a first ball of magnetic material located between the nozzles, characterized in that, in order to reduce power consumption, in the working chamber from the side of the atmospheric nozzle a second ball is located, connected to the first ball with an elastic element made of two flat springs curved and interconnected by toroidal slopes, each arc length less than d + Xmakc. where d is the diameter of the balls, Xmakc is the maximum movement of the balls.