RU205772U1 - Conveyor belt deviation sensor with bistable magnetically controlled two-channel switch - Google Patents

Abstract

The utility model relates to measuring technology, in particular, to switches actuated by a change in a magnetic or electric field, for example, by a change in the relative position of a magnetic field of a given shape and a switch, and can be used to simultaneously change the state of two electrically separated circuits. with a simultaneous change in the state of two electrically isolated circuits to ensure coordination of the angles of operation of two reed switches. The declared sensor is made as follows: On the base-bracket 1 with a stop 2, the switching unit 3 with a pressure seal 4 is rigidly fixed (see Fig. 1 - Fig. 3) ... A spring 6 is located on the axis 5, which presses the control unit 7 against the stop 2. The control unit 7 is equipped with a roller 8 designed to receive the pressure of the conveyor belt (not shown in the drawings). In the cavity of the switching unit 3 there is a two-channel bistable magnetically controlled switch (see Fig. 4), consisting of two reed switches 91 and 92 in heat shrink tubes 10 and a holding magnet 11, which magnetizes the output of one reed switch located in close proximity to the North pole, and the same output of the second reed switch - south pole. The control unit 7 (see Fig. 5) contains one pair of magnets: the magnets 121 and 122 have axial magnetization, are arranged so that their magnetic axes are parallel, control the state of both reed switches 91 and 92 as part of a two-channel bistable magnetically controlled switch. ensuring their electrical isolation in conjunction with their synchronous control using one pair of control magnets with parallel axes makes it possible to simultaneously change the state of two electrically isolated circuits, which makes it possible to obtain a given result in the form of ensuring the coordination of the angles of operation of two reed switches. 8 ill.

Description

The utility model relates to measuring technology, in particular, to switches actuated by a change in a magnetic or electric field, for example, a change in the relative position of a magnetic field of a given shape and a switch, and can be used to simultaneously change the state of two electrically separated circuits.

Known magnetically controlled switching device for determining the angle of inclination / rotation (RF patent No. 187013 on class H01H 36/00), containing two bistable reed switches moving relative to the control magnetic field created by two pairs of permanent magnets, the magnetic axes of which are parallel, and the poles of the same name directed in opposite directions.

There is also known a sensor of the conveyor belt descent from the roller supports (RF patent No. 192294 in class H01H 36/00), which differs from the above-described device in that the switching unit with two bistable switches is fixed on the base stationary, and the control unit moves relative to the base. This sensor was chosen as a prototype.

The specified sensor contains a fixed switching unit with two bistable reed switches and a control unit with two pairs of control magnets, made with the ability to move relative to the switching unit. In this case, each pair of magnets controls its own bistable reed switch, when turning, changing the direction of the magnetic induction in the output zone of the reed switch located on the side of the control unit. The reed switch is a closing reed switch with two leads, to one of the leads of which a holding magnet is attached, the residual induction of which is not enough to close the reed switch, but enough to keep the reed switch closed. The second opposite pin of the reed switch is influenced by the magnetic field of a pair of magnets that controls this particular reed switch. When the control unit moves relative to the magnetic flux that commutes the direction in the reed switch output zone located on the side of the control unit, it changes its direction to the opposite, and if the direction of the magnetic flux created by a pair of control magnets coincides with the direction of the magnetic flux created by the holding magnet, the reed switch closes ... If the directions of the magnetic flux are opposite, the reed switch opens.

However, if it is necessary to simultaneously change the state of two bistable reed switches, this solution is not applicable for mass production, since due to the spread of the parameters of the reed switches, the spread of the parameters of the magnets, the tolerances of the relative position of the reed switches and magnets included in the control unit, the alignment of the angles it takes an unacceptably long time for two reed switches to operate. For example, in the sensors for monitoring tape displacement DKSL-7502 and DKSL-7702 produced by JSC NPK TEKO, a bistable switching reed switch is used; normally closed and normally open circuits change their state at the same time. But in a switching reed switch, normally closed and normally open circuits have a common contact, and in some cases, a requirement is set for the electrical separation of safety and other circuits (for example, signal).

The task is to create a sensor with a simultaneous change in the state of two electrically isolated circuits to ensure coordination of the angles of operation of two reed switches.

The problem is solved by the fact that in the conveyor belt descent sensor with a bistable magnetically controlled two-channel switch, which includes a switching unit rigidly fixed on a fixed base combined into a common structure, containing a horizontally fixed axis and two bistable reed switches located in its cavity, each consisting of a reed switch and a permanent magnet, a control unit located on the horizontal axis of the switching unit, which can be rotated in a vertical plane, containing at least one pair of magnets, equipped with a roller for receiving the pressure of the conveyor belt, a torsion spring located on the horizontal axis of the switching unit, pressing the control unit to the stop located on the side of the controlled conveyor belt, according to the utility model, two bistable reed switches are two reed switches electrically isolated from each other, assembled with one common constant m holding magnet so that the leads on one side of both reed switches are brought together at one point in space, and the opposite leads are attached to opposite poles of a common holding magnet located between these leads, forming a single bistable magnetically controlled two-channel switch, the state of the circuits of which changes under the influence of the magnetic field of the pair control unit magnets, the magnetic axes of which are parallel.

The assembly of two reed switches with a common holding magnet while ensuring their electrical isolation in conjunction with their synchronous control using one pair of control magnets with parallel axes makes it possible to simultaneously change the state of two electrically isolated circuits, which makes it possible to obtain the desired result in the form of ensuring the coordination of the operating angles of two reed switches.

The technical result is to ensure a simultaneous change in the state of two electrically isolated circuits when the control unit is rotated relative to the switching unit.

The inventive sensor has a novelty in comparison with the prototype, differing from it in such essential features as the assembly of two reed switches into a single unit with a common holding magnet and the placement of leads located on the opposite side of the reed switch from the holding magnet, at one point, which causes the effect on both reed switches of the magnetic induction, the same in magnitude and direction, providing in the aggregate the achievement of a given result.

The inventive sensor can be used in measuring technology, in particular, to determine the displacement of a conveyor belt, and therefore meets the criterion of "industrial applicability".

The utility model is illustrated by figures, which are presented in:

- fig. 1 - sensor, front view;

- fig. 2 - sensor, left side view;

- fig. 3 - sensor, top view;

- fig. 4 is a schematic diagram of a two-channel bistable switch;

- fig. 5 - arrangement of control magnets in the control unit, the switching unit is not shown;

- fig. 6 - relative position of the two-channel bistable switch and magnets of the control unit in the initial position of the sensor - the roller is located perpendicular to the plane of the base, the control unit is pressed against the stop.

- fig. 7 - relative position of the two-channel bistable switch and the control unit magnets when the control unit is rotated under the action of the controlled conveyor belt at an angle at which the middle magnetic plane of the control unit magnets is located opposite the plane of symmetry of the two-channel bistable switch.

- fig. 8 - relative position of the two-channel bistable switch and the magnets of the control unit when the control unit is rotated under the action of the controlled conveyor belt by the angle of change in the state of the reed switches of the two-channel bistable switch.

The inventive sensor of the conveyor belt descent from the roller supports is made as follows.

On the base-bracket 1 with a stop 2, a switching unit 3 with a sealed lead-in 4 is rigidly fixed (see Fig. 1 - Fig. 3). A spring 6 is located on the axis 5, which presses the control unit 7 against the stop 2. The control unit 7 is equipped with a roller 8 designed to receive the pressure of the conveyor belt (not shown in the drawings). In the cavity of the switching unit 3 there is a two-channel bistable magnetically controlled switch (see Fig. 4), consisting of two reed switches 9 ₁ and 9 ₂ in heat shrink tubes 10 and a holding magnet 11, which magnetizes the output of one reed switch located in close proximity with the north pole, and the same conclusion of the second reed switch - the south pole. The control unit 7 (see Fig. 5) contains one pair of magnets: the magnets 12 ₁ and 12 ₂ have axial magnetization, are arranged so that their magnetic axes are parallel, control the state of both reed switches 9 ₁ and 9 ₂ as part of a two-channel bistable magnetically controlled switch.

The operation of the sensor is illustrated in FIG. 6, figs. 7, figs. eight.

In the neutral position, when the control unit 7 with the roller 8 is pressed by the spring 6 against the stop 2, the two-channel bistable magnetically controlled switch is in the range of the magnet 12 ₁ . The holding magnet 11 magnetizes the closest terminal and, to a lesser extent, the opposite terminal of the reed switch 9 ₁ in the direction coinciding with the direction of the magnetic flux of the magnet 12 ₁ . And the near, and, to a lesser extent, the opposite output of the reed switch 9 _{2, the} holding magnet 11 magnetizes in the direction opposite to the direction of the magnetic flux of the magnet 12 ₁ . As a result, the reed switch 9 ₁ , both outputs of which are magnetized in the same direction, is closed, and the reed switch 9 ₂ , the outputs of which are magnetized in opposite directions, due to the fact that the magnetic flux of the holding magnet 11 and the magnetic flux of the control magnet 12 mutually weaken each other, is open (See Fig. 6).

When turning the control unit 7 with the roller 8 under the action of the conveyor belt pressing on the roller, the control magnets 12 ₁ and 12 ₂ move relative to the switching unit 3. When the control unit 7 is rotated by such an angle that the middle plane between the magnetic axes of the control magnets 12 coincides with the plane of symmetry of the two-channel bistable magnetically controlled switch, in this position the state of the reed switches 9 ₁ and 9 ₂ is determined only by the magnetic field of the holding magnet 11. The magnetic field of the holding magnet 11 is sufficient to keep the reed switch 9 ₁ in a closed state, but not enough to bring the reed switch 9 ₂ into a closed state (See Fig. 7).

To change the state of the reed switches 9 ₁ and 9 ₂ , which are part of the bistable magnetically controlled switch, the control unit 7 must rotate at a greater angle relative to the switching unit 3 so that the control magnet 12 _{2 is} closer to the plane of symmetry of the two-channel bistable magnetically controlled switch (See Fig. eight). At the point where the component H _y increases so much that it can re-magnetize the outputs of the reed switches 9 ₁ and 9 _{2 closest to the magnet 12 2} so that the two outputs of the reed switch 9 ₂ will be magnetized in the same direction, since the direction of the component H _y and the direction the magnetic flux generated by the north pole of the holding magnet 11 coincide, and the two leads of the reed switch 9 ₁ will be magnetized in opposite directions, since H _y and the direction of the magnetic flux generated by the south pole of the holding magnet 11 are opposite; as a result, reed switch 9 ₂ will close, and reed switch 9 _{1 will} open. The state of the circuits of the two-channel bistable magnetically controlled switch changes synchronously.

In comparison with the prototype, the inventive sensor provides a simultaneous change in the state of two electrically isolated circuits when the control unit is rotated relative to the switching unit.

Claims (1)

A conveyor belt descent sensor with a bistable magnetically controlled two-channel switch, which includes a switching unit rigidly fixed on a fixed base combined into a common structure, containing a horizontally fixed axis, two bistable reed switches located in its cavity, each of a reed switch and a permanent magnet, located on the horizontal axis of the switching unit, a control unit that can be rotated in a vertical plane, containing at least one pair of magnets, equipped with a roller for receiving the pressure of the conveyor belt, a torsion spring located on the horizontal axis of the switching unit, pressing the control unit against the stop located on the side of the controlled conveyor belt, characterized in that two bistable reed switches are two electrically isolated reed switches assembled with one common permanent holding magnet so that the terminals with one The torons of both reed switches are brought together at one point in space, and the opposite leads are attached to opposite poles of a common holding magnet located between these leads, forming a single bistable magnetically controlled two-channel switch, the state of the circuits of which changes under the influence of the magnetic field of a pair of magnets of the control unit, the magnetic axes of which are parallel.

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