SU574569A1 - Multiple-way valve - Google Patents

Description

one

The invention relates to the field of mechanical engineering and relates to devices for the distribution of liquids and gases.

Known multi-position distributor, in the spool of which channels are made. The distributor has a number of additional elements that provide switching in the required sequence 1.

The disadvantages of this device include large dimensions and a relatively small number of flows of the working medium, which can be simultaneously distributed in different directions.

Closest to the invention is a multi-way distribution valve, in the casing of which a cylindrical distribution link with axial and radial channels is installed, with output channels located on the casing with a constant angular pitch 2J.

However, with an increase in the number of streams distributed, the dimensions increase and a sufficiently wide switching range is not provided.

The aim of the invention is to increase the number of switching flows of the working environment and to expand the control range.

To do this, in the proposed multi-distribution distributor, the distribution link is made in the form of a ball rotor with permanent magnets fixed on the outer surface, which cut the shaped flow-guiding channels.

FIG. 1 shows the proposed distributor; in fig. 2 - ball rotor.

The multi-position distributor includes a stator housing 1, inside which a ball rotor 2 with current-guiding channels 3 is installed. Inlet 4 and outlet 5 nozzles are installed in the stator housing. In the ball rotor 2 there are stirring permanent magnets 6, which are distributed over the surface of the ball rotor evenly. In the housing apparatus, control windings 7, 8 are installed. The control windings in the vertical and horizontal planes are spaced apart from each other for equal distances. The distances between the flow paths of the ball of the rotor are multiples of the pitch of the control windings. Switching the control windings on and off is performed by the switching device 9.

The device works as follows.

Claims (2)

The distributor connects the inlet 4 and outlet to the nozzles with one another by means of flow guide channels 3, made in the body of the ball rotor 2. The working medium enters the input nozzle 4 from the supply line, then goes to the flow guide channel 3, from which it passes through the output pipe 5 to the discharge line. To separate the lines, the ball rotor is rotated to a position in which the nozzles of the nozzles will be blocked by the ball surface of the rotor, on which there are no flow-guide channels. The rotation of the ball rotor at a predetermined angle and in a predetermined direction is provided by applying voltage pulses to the respective control windings 8. The magnetic fields generated in the control windings interact with the permanent magnets 6 and the ball rotor turns an angle equal to the angular pitch of the windings. To switch simultaneously some groups of nozzles with other groups of nozzles constantly connected on the surface of the ball rotor, a system of closed channels is performed according to the number of switched nozzles. In this case, when the rotor is rotated in the vertical and horizontal planes, one or more steps, depending on the channel profile, the group of inlet and outlet nozzles will be permanently connected. The rotor is fixed at a given position by magnetic fields between the permanent magnets and the control windings. The use of a distribution link made in the form of a ball with permanent magnets fixed on the outer surface and with profiled flow guide channels makes it possible to significantly increase the number of distributed flows with a compact device design. Claims of the invention The multi-position distributor for the flows of liquids and gases, in the stator housing of which a distribution link is installed, rotating in two planes, characterized in that, in order to increase the number of switching flows of the working medium, the distribution link is made in the form of a ball rotor on the outer surface by permanent magnets, between which profiled flow-guide channels are cut. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 189265, cl. F 16K 11/20, 1969. 2. USSR author's certificate No. 435409, cl. F 16K 11/08, 1974.