SU688757A1 - Quick-release pipe coupling - Google Patents

Description

one

The invention relates to valves and can be used in pneumatic units used in systems for transporting working media in the energy, chemical and gas industries.

A quick-disconnect is known in which the holding of the semi-plugs is effected by electromagnetic forces, and the magnetic circuit is made in the form of guide brackets rigidly fixed to the spring-loaded flange of the electromagnet.

However, this compound has a high energy consumption, and the use of an electromagnet leads to an increase in the overall weight indicators.

It is also known to have a quick-disconnecting connection of pipelines containing interconnecting flanges of the housing of semi-plugs, one of which has a magnetic core with a source of magnetic field 2.

However, this quick coupling does not reduce the weight and overall dimensions of the joint.

The aim of the invention is to reduce the weight and dimensions of the compound.

For this, in the proposed connection, the magnetic conductor is formed by permanent magnets, arranged on a rotating ring made of a nonmagnetic material installed in one of the half connector housings.

FIG. 1 shows the proposed quick coupling in the docked position, longitudinal section; in fig. 2 is a section A-A in FIG. one.

In the housing 1 of the first semi-connector there is a valve 3 preloaded by the spring 2. The saddle 4 is located on the upper base of the magnetic circuit 5, and its lower base, which is simultaneously a connecting flange, is made in the form of a cross with poles 6, above which are fixed in a rotating ring 7 from non-magnetic material permanent magnets 8 in the form of segments, and the angle of rotation is determined by the limiting protrusion 9. The other half-connector consists of a housing 10 from a connecting flange 11 of magnetic material. Inside the housing 12 are located a spring-loaded valve 13 and a pusher 14.

Quick coupling works as follows.

Before coupling, the permanent magnets 8 are located under the poles 6, and the ManniTiibUi flux created by the permanent magnets closes along the magnetic circuit 5, which eliminates partial demagnetization of the permanent magnets.

After docking, the magnetic flux splits and partially passes through the poles 6, as well as through the connecting flange 11 of the other half connector. At the same time, the interaction force (attraction) between the poles and the permanent magnets decreases, which makes it possible to rotate the ring 7 by an angle defined by the restriction protrusion 9 (see Fig. 2). In this case, the magnetic flux is closed only along the connecting flange 11, and the half-connectors are held together. The pipeline is open.

To disconnect the semi-plugs, the ring 7 is turned all the way to the other side, i.e., the poles 6 are mixed, with the permanent magnets 8. However, due to the redistribution of the magnetic flux, the holding force is reduced, and under the effect of the force of the compressed springs, the semi-plugs diverge.

Claims (2)

1. USSR author's certificate No. 502175, cl. F 16L 37/24, 1976. 2. US patent number 3586048, cl. 285-29, 1971. Ug. /