RU2236625C2 - Magnetic ball tap-switcher - Google Patents

Abstract

FIELD: valving.

SUBSTANCE: tap has T-branch. The diameter of the outlet pipes of the T-branch decreases as outlet openings approach. The stops are provided upstream of the openings. The inlet port is provided with a baffle. The ferromagnetic ball is hollow. A magnet made of rare-earth metals is used for driving.

EFFECT: enhanced accuracy of controlling.

1 dwg

Description

The present invention is intended to control water flows in heating, cooling, etc. It can be used in the communal sector and in industrial enterprises.

Similar devices are known. So, for example, in British patent No. 1543797 a ball valve-switch made in the form of a tubular tee is described, comprising a housing made of non-magnetic material, in which the locking element is a ferromagnetic ball controlled by a magnet placed outside. The disadvantage of the prototype is the inability to deeply adjust the magnitude of the flow of water and the need for a magnet with a large magnitude of magnetization.

The aim of the invention is to eliminate these disadvantages.

This goal is achieved in that the diameter of the outlet pipes of the tee decreases as it approaches the outlet openings in front of which the limiters are made, the inlet is equipped with a jumper, the ferromagnetic ball is hollow, and a rare-earth magnet is used to drive it.

The drawing shows the proposed device included in the central heating system. Here: 1 - a tee body made of non-magnetic material, 2 - a ferromagnetic hollow ball, 3 - a rare-earth magnet moved outside the tee, 4 - a device for moving the magnet, 5 - ball limiters, 6 - heater (radiator).

The device operates as follows (the drawing shows three positions of the magnet). Hot water enters the housing 1 through the inlet a, equipped with a jumper, and if the ball 2 is in the middle of the tee, the water flow is distributed evenly between the heater 6 and another drain pipe and then leaves point b to the next floor or the room. To reduce the temperature in the room, move magnet 3 with the help of special tool 4 to the right (manually or from a temperature sensor). In this case, the cross section of the flow going to the device 6 will decrease. With the extreme right position of the ball 2, the water flow through the device 6 will approach zero. When moving the ball in the other direction, the water flow in the radiator 6 will increase, i.e. the temperature in the room will increase.

The limiters 5 are necessary so that the “sticking” of element 2 does not occur. The fact is that the reinforcement connected to the tee 1 is usually made of ferromagnetic material and when the ball 2 is very close to it, the increased magnetic flux along the magnet-ball-reinforcement line can cause such “sticking” of the ball to the outlet. To eliminate this phenomenon, restrictors 5 are required. They can be small stops in the body of the housing, rings, etc. At the same time, when they restrict further movement of the ball, leaks in locking the holes and small water leaks may occur. But for the application in question, these leaks (a few drops) will not affect the process of controlling the temperature in the room.

The jumper (copper wire) at the inlet protects it from accidentally clogging the ball 2.

The use of hollow elements 2 and magnets of rare-earth metals (rare-earth metals) reduces the dimensions of the device and the power to control it.

Claims (1)

Ball valve-switch, comprising a housing in the form of a tubular tee of non-magnetic material with a locking element in the form of a ferromagnetic ball and a drive made of a magnet located outside, characterized in that the diameter of the outlet pipes of the tee decreases as it approaches the outlet openings, in front of which limiters are made, the inlet is equipped with a jumper, the ferromagnetic ball is hollow, and a rare-earth metal magnet is used to drive it.