SU1675685A1 - Liquid level alarm - Google Patents

Abstract

The invention relates to instrument engineering and can be used in various industries to signal changes in the level of a liquid. The purpose of the invention is to simplify the design and increase the reliability of the device in operation. When the fluid level increases, the float 2 with the control magnet 3 rises in the guide tube 1. In this case, the magnet 7 interacts with the plate 11. When the float approaches the lever 6, the upper pole of the control magnet 3, having opposite polarity, with the pole of the magnet 7 facing to the tube 1. attracts it and the lever remains in its original position. Reed switch in this case is open. Upon further raising of the level, the float with the control magnet 3 rises and the lower pole of the control magnet 3 begins to interact with the near pole of the magnet 7. In this case, the magnet 7 moves in the cavity of the lever 6 to the side opposite to the tube, the lever 6 turns around the hinge 5 In this case, the magnet 7 closes the reed switch 9 and a signal is sent to the secondary device, which is maintained as the level of the liquid further increases and the control magnet 3 is removed. As the level of the liquid decreases and, accordingly, the level decreases. The fusing with the control magnet 3 takes place in the reverse order, and eventually the magnet 7 moves to the position closest to the tube 1, and the reed switch 9 opens. 1 il. w Ё

Description

The invention relates to instrumentation and can be used in various industries for level signaling.

The aim of the invention is to simplify the design and increase the reliability of the level switch.

The drawing shows the General design of the device.

The liquid level switch consists of K of the vertical component of the tube 1. Inside which is installed a float 2 with a control permanent magnet 3. The poles of the magnet 3 are oriented in the vertical direction. In this case, it is convenient 1 'to use a ring-shaped magnet. Outside the tube 1, the housing 4 of the transducer for displacing the float is installed, inside of which the lever 6 is mounted on the hinge 5 with the possibility of swinging in the vertical ^{2 (} plane. Lever 6 is made of non-magnetic material with an internal cavity symmetrically relative to the axis of swing. In the inner cavity of the lever 6 there is a constant magnet 7 with ^WHO-2! mozhnostyo oriented movement. One of the poles of the magnet 7 facing to the guide tube 1. Inside the lever 6 and the housing 4 are mounted resilient stops 8. Inside the housing 4 is t kzhe switched ents ³ formed as a reed switch 9, fixed at the opposite with respect to the guide tube 1, the end of the lever 6 to engage with the magnet reed switch 7. 9 carried by ³ rows of 10 linked to the secondary device. Upper pole control magnet 3 has a polarity opposite to that of the pole of the magnet 7. facing the tube In the housing 4, near its front wall, it is fixed ⁴ to a plate 11 made of soft magnetic material. The mass of the plate 11 is selected so that the force of magnetic action with the magnet 7 is approximately equal to the force of interaction of the magnet 7 with the reed switch 9.

The alarm operates as follows.

By increasing the liquid level float 2 to the control magnet 3 ascends toils _with a guide tube 1. The lever 6 'is in the position shown by the dashed line. In this case, the magnet 7 interacts with the plate 11. When the float approaches the lever 6, the upper pole _{from the} control magnet 3, which has opposite polarity with the pole of the magnet 7 facing the tube 1, attracts it, the lever remains in the original position, shown by the dashed line in the drawing . Reed switch in this case is open.

With a further rise in the level, the float with the control magnet 3 rises, the lower pole of the control magnet 3 begins to interact with magnet 7, which has the same polarity with the near pole of magnet 7. Due to the repulsive forces between the magnets, in this case, the magnet 7 moves in the cavity of the lever 6 in the side opposite from the tube, the lever 6 rotates around the hinge 5. In this case, the magnet 7 closes the reed switch 9 and a signal is sent to the secondary device, which is maintained as the level further increases i liquid and removal of the control magnet 3; since in this case the shifted position of the magnet 7 is maintained (due to magnetic forces and due to gravity). With a decrease in the liquid level and, accordingly, a decrease in the float with the control magnet 3, everything happens in the reverse order and, as a result, the magnet 7 moves to the position closest to the tube 2, and the reed switch 9 opens. In this design, if necessary, it is possible to obtain a return signal if the orientation of the poles of the magnet 7 is reversed.

Claims (1)

Claim A liquid level switch comprising a float with a control permanent magnet installed on it and a float displacement transducer located in a non-magnetic housing and consisting of a lever mounted with the possibility of swinging in a vertical plane, an element fixing the extreme positions of the lever, and a switch, characterized in that. in order to simplify the design and increase the reliability of operation, the lever is made hollow inside, and the locking element is made in the form of a permanent magnet and is located in the internal cavity of the lever with the possibility of oriented movement, while one of its poles is facing the float, the other is towards the switch, and the poles The control magnet is oriented vertically.