RU1831628C - Electromagnetic valve - Google Patents

Abstract

Usage: in devices for cutting materials with a jet of liquid. SUMMARY OF THE INVENTION: An axial channel is made in the housing with an outlet opening blocked by a spherical locking member. A stepped hub with slots is coaxially mounted in the channel. The locking element is mounted rotatably and provided with a shank of magnetic material. The shank interacts with the control electromagnet. An annular groove is made on the locking member, which divides it into two parts, interacting respectively with the sleeve and the outlet. The upper edge of the groove is located from the center of the sphere at a distance calculated depending on the radius of the sphere and the angle of rotation of the shank. 1 ill.

Description

The invention relates to pipe fittings and can be used in devices for cutting materials with a liquid jet operating at high pressures.

The aim of the invention is to simplify the design and reduce the dimensions when operating at high pressures,

The valve provides simplification of the structure due to the lack of sealing of the input of the movement of the locking member, as well as the reduction of its size.

The valve is shown in the drawing.

The electromagnetic valve comprises a housing 1 of non-magnetic material with an axial channel 2. and an outlet opening 3 coaxial with it, overlapped by a spherical locking member 4 provided with a shank 5 of magnetic material. interacting with the control electromagnet 6. A spherical locking member 4 is mounted in a stepped sleeve 7 with slots 8 coaxially placed in the axial channel 2 of the housing 1. An annular groove 9 is made on the spherical locking member 4, dividing it into upper 10 and lower 11 parts. The upper edge 12 of the groove 9 is located at a distance I from the center of the sphere, equal to the product of the radius of the sphere by the sine of the angle of rotation of the rod. In the lower part of the housing 1 from the side of the outlet 3, con holder 13 with the nozzle 14 is located coaxially with the latter. The axis of which coincides with the axis of the outlet 3.

The valve operates as follows.

The liquid under pressure enters the axial channel 2. In the closed position of the valve shown in the drawing, the lower part 11 of the spherical locking element 4 closes the outlet 3 and the liquid does not flow out through the nozzle 14. To start cutting material with a liquid jet, it is necessary to move the electromagnet 6

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in the arrow indicated. in the drawing, to the left position. In this case, the shank 5 rotates in the same direction (to the left) to the stop, and the groove 9 connects the axial channel 2 through the slots 8 of the step sleeve 7 with the outlet 3.

Thus, pressurized fluid flows from the nozzle 14 for cutting the material.

The distance I is equal to the product of the radius of the sphere by the sine of the angle of rotation of the shank so that the valve does not shift the axis of the spherical locking element relative to the axis of the outlet 3 and does not jam.

The proposed valve allows to simplify the design and reduce the size and weight by making the locking element rotary, which makes it possible to avoid the use of numerous seals when controlling the movement of the locking element,

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Claims (1)

The claims An electromagnetic valve comprising a housing with an axial channel formed therein with an outlet opening blocked by a spherical locking member and a control electromagnet, characterized in that a stepped sleeve with slots is coaxially mounted in the axial channel of the housing, and the spherical locking member is rotatably mounted and equipped with a shank of magnetic material interacting with an electromagnet, while an annular groove is made on the shut-off element, by means of which it is divided into two parts, interacting respectively, with a sleeve and an outlet of the axial channel, the upper edge of the groove being located from the center of the sphere at a distance I, defined by the expression -g-I r sin a, where r is the radius of the sphere; a-angle of rotation of the shank.  -