RU192294U1 - Conveyor belt exit sensor with roller support - Google Patents

Abstract

The invention relates to measuring equipment, in particular to switches, driven by a change in a magnetic or electric field, for example, by changing the relative position of a magnetic field of a given shape and a switch, and can be used to determine the movement of a controlled working body of technological equipment causing a tilt (rotation) the moving part of the sensor is relatively stationary at an angle from 0 to 355 °. The task is to increase the reliability of the sensor. On the base-bracket 1 with an emphasis 2 rigidly fixed switching node 3 with terminal box 4 (wires suitable for the terminal box are not shown). A spring 6 is located on the axis 5, pressing the control unit 7 against the abutment 2. The control unit 7 is equipped with a roller 8 designed to absorb the pressure of the conveyor belt (not shown in the drawings). Reed bistable switches 9 and 10 are located in the cavity of the switching unit 3, and the control unit 7 contains two pairs of magnets: magnets 11 and 11 that control the state of the bistable reed switch 9, magnets 12 and 12 that control the state of the bistable reed switch 10. Reed bistable switches 9 and 10 (Fig. 4) have the same design: each switch consists of a reed switch 13 and a permanent magnet glued to it 14. The execution of the switching unit stationary makes it possible to mount on the basis of the device TWA of the terminal box or stationary laying of the built-in cable, excluding cable deformation, which, together with the execution of the control unit as movable to ensure the operability of the device, provides the desired result. 6 ill.

Description

The utility model relates to measuring technique, in particular, to switches driven by a change in a magnetic or electric field, for example, by changing the relative position of a magnetic field of a given shape and a switch, and can be used to determine the movement of a conveyor belt causing tilting (rotation) of the moving part the sensor is relatively stationary at an angle from 0 to 90 °.

Known polarized magnetically controlled switching device for determining the angle of inclination / rotation of the sensor, presented in p. RF No. 187013 class. H01H 36/00, 3.27.03., Op. 02/13/2019, and selected as a prototype.

The known device contains a fixed control unit, with two permanent axially magnetized magnets, the magnetic axes of which are parallel, and the same magnetic poles are directed in opposite directions, as well as a switching unit with bistable reed switches, arranged to move relative to the control unit, assembled in one device wherein the control unit includes a fixed base to which a magnetic field generator is permanently attached from it of magnetic material, additionally containing a second pair of permanent magnets with the above magnetization, arrangement of magnetic axes and poles, the switching unit is additionally equipped with a second bistable reed switch and has a housing in which both bistable reed switches are located, each of which consists of a reed switch with external terminals and a permanent magnet, while the switching unit is equipped with a roller to absorb the pressure of the conveyor belt, is spring loaded and has the ability to rotate it flax management node under the action of the tape at the gathering it with the roller carriages and return to the original position by the spring.

The disadvantage of the device is the not entirely satisfactory reliability of the sensor due to the difficulty of installing a terminal box or stationary laying of the built-in cable to the mobile unit of the device, which threatens to reduce the resource of the device due to cracking and chipping when bending the cable due to rotation of the movable unit of the device relative to the fixed base. Given the fact that the inventive sensor is used to control the displacement of conveyor belts from the rollers, often located in the subarctic and arctic climatic zones of our country, the insulation ductility of even frost-resistant cables is significantly reduced under conditions close to the lower limit of the operating temperature declared by the cable manufacturer, the problem is becoming very urgent.

The objective is to increase the reliability of the sensor.

The problem is solved in that in the sensor of the descent of the conveyor belt with a roller bearing, which includes fixed polarized magnetically-controlled switches, switching and control units combined in a common design, while the control unit is a magnetic field generator containing two pairs of permanent magnets with axial magnetization whose magnetic axes are parallel, the magnetic poles of the magnets of each pair are directed in opposite directions, and the switching node contains two bistable arms of the circuit breaker, according to the utility model, the switching unit is fixed on a fixed base, and the control unit is movable, equipped with a roller for sensing the pressure of the conveyor belt, spring-loaded and has the ability to rotate it relative to the control unit under the action of the conveyor belt when it leaves the roller support and returns to its original position under the action of a spring.

The execution of the switching unit motionless makes it possible to install the built-in cable on the basis of the terminal box device or stationary laying of the cable, excluding cable deformation, which, in combination with the execution of the control unit movable to ensure the operability of the device, provides the desired result.

The technical result is an increase in the reliability of the sensor.

The inventive sensor has a novelty in comparison with the prototype, differing from it by such essential features as the implementation of the switching node is rigidly fixed on a fixed base, and the control node is movable, equipped with a roller for sensing the pressure of the conveyor belt, spring-loaded and able to rotate relative to the switching node, providing aggregate achievement of a given result.

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

The utility model is illustrated by drawings, which are presented on

- FIG. 1 is a front view of a sensor;

- FIG. 2 is a rear view of the sensor;

- FIG. 3 is a front view of the sensor, a control unit with a roller deployed relative to its neutral position;

- FIG. 4 - design of a reed switch;

- FIG. 5 - placement of the poles of the control magnets on the side of the switching node;

- FIG. 6 - location of the control and switching nodes relative to each other during the operation of the sensor.

The inventive sensor of the descent of the conveyor belt with a roller support is made as follows.

On the base bracket 1 with an emphasis 2, the switching unit 3 is fixedly fixed with terminal box 4 (wires suitable for the terminal box are not shown). A spring 6 is located on the axis 5, pressing the control unit 7 against the abutment 2. The control unit 7 is equipped with a roller 8 designed to absorb the pressure of the conveyor belt (not shown in the drawings). Reed bistable switches 9 and 10 are located in the cavity of the switching unit 3, and the control unit 7 contains two pairs of magnets: magnets 11 ₁ and 11 ₂ that control the state of the bistable reed switch 9, magnets 12 ₁ and 12 ₂ that control the state of the bistable reed switch 10.

Reed bistable switches 9 and 10 (Fig. 4) have the same design: each switch consists of a reed switch 13 and a permanent magnet 14 glued to it.

The operation of the sensor is illustrated in FIG. 6. In the neutral position, when the control unit 7 with the roller 8 is pressed by a spring 6 against the stop 2 of the bracket base 1, the reed bistable switch 9 is in the range of the permanent magnet 11 ₁ and the reed bistable switch 10 is in the range of the permanent magnet 12 ₁ . In this case, the switch 9 is in a closed state, since the action of the magnetic field of the permanent magnet 11 _{1 is} combined with the action of the magnetic field of the own magnet of the switch 9, and the switch 10 is in the open state, since the effect of the magnetic field of the own magnet of the reed switch and the action of the magnetic field of the magnet 12 ₁ mutually weaken each other. When the control unit 7 is turned under the action of the conveyor belt pressing on the roller to the switching angle of the switch 10, the switch 10 enters the zone of action of the magnet 12 ₁ , the magnetic field of which together with the magnetic field of the own magnet of the switch 10 magnetizes the contacts of the reed switch and closes it. With further rotation, the switch 10 remains in a closed state, since the magnetic field of its own magnet creates a magnetization of the contacts of the reed switch, sufficient to keep the reed switch in a closed state. And when the control unit 7 is rotated by the switching angle of the switch 9, the latter enters the zone of action of the magnet 11 ₂ , the magnetic field of which weakens the action of the built-in magnet of the reed switch 9 so that the contact of the reed switch opens. With a further rotation of the control unit 7 from the neutral position, the bistable reed switches 9 and 10 maintain the switched state, and when the control unit 7 is returned to the neutral position, when the values of the rotation angle of the control unit 7 relative to the switching unit 3 are equal to the switching angles of the switches 9 and 10, first, the switch 9, and then the switch 10 is returned to its original state. In FIG. 4-6 letters “C” and “Yu” indicate the orientation of the magnets during operation.

In the described operation, the terminal box 4 and the wires laid to it remain stationary, and additional wires connecting the fixed base-bracket 1 with the rotating control unit 7 are not required.

In comparison with the prototype of the claimed device is more reliable.

Claims (1)

A sensor for the conveyor belt to roll off the roller bearing, including fixed polarized magnetically-controlled switches, switching and control units integrated into a common structure, the control unit being a magnetic field generator containing two pairs of permanent magnets with axial magnetization, the magnetic axes of which are parallel, and the magnetic poles of the magnets of each pair are directed in opposite directions, the switching node contains two bistable reed switches, characterized in that a switching unit fixed to a stationary base, and the control unit is arranged movable, is provided for sensing the pressure roller of the conveyor belt is spring-loaded and is able to rotate it relative to the control node by the action of the conveyor belt at the gathering it with the roller carriages and return to the original position by the spring.

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