RU187525U1 - EMERGENCY ROPE CIRCUIT BREAKER - Google Patents

Abstract

The utility model relates to the basic elements of electrical equipment, namely to electric switches with switching using a movable element using an electric or magnetic field, in particular, to switching devices that use magnetically controlled contacts - reed switches, and can be used to control emergency cable circuit breakers used in security systems of various technological lines, in particular, conveyor.

The task is to increase reliability by increasing the service life.

The emergency cable switch contains a rectangular hollow body with a cover, to the side wall of which a rod is attached externally with a cable attached to it. Inside the housing there is a fixed switching element in the form of a switching reed switch having a sensitivity zone, an acting element in the form of a permanent magnet-switch connected with its moving element in the sensitivity zone, and a switch fixation element in the switched state in this zone. At the same time, the switching reed switch is located in a separate case under the cover of the main case, an element for fixing the switch in the switched state in the sensitivity zone is attached to its normally closed terminals, which is a permanent magnet - a latch for holding it in the switched state. In the same case there is a spring-loaded button with a reverse switching magnet, the characteristics of which are similar to those of the holding magnet, the magnetic axes of the mentioned magnets are parallel, the poles of the same name are oriented in one direction, and when the button is pressed, both magnets are aligned to compensate for the effect of each other on the switching reed switch. The movement element of the acting element in the sensitivity zone is a carriage with a permanent magnet-switch located inside the housing and connected to the rod mounted on the side wall, made spring loaded with the ability to move it along the guides under the action of a cable attached to it.

Placement of a switching reed switch in a separate housing with fastening to its normally closed terminals of a permanent magnet - a latch for holding it in a switched state if there is a spring-loaded button with a reverse magnet in the same case when their axes are parallel and the poles of the two magnets are placed in the same direction when the button is pressed coaxially, provides reliable fixation of the switching reed switch in the switched state without the use of rapidly wearing ball clamps, and returns at the switching reed switch to the initial state when the button is pressed, which in combination with the movement of the acting element in the sensitivity zone in the form of a carriage with a permanent magnet-switch located inside the housing and connected by a rod mounted on the side wall, made spring loaded with the ability to move it along the guides under the action of a cable attached to it through a pull rod does not require mechanical fixing of the moving parts relative to each other in the initial and switched state . 8 ill.

Description

The utility model relates to the basic elements of electrical equipment, namely to electric switches with switching using a movable element using an electric or magnetic field, in particular, to switching devices that use magnetically controlled contacts - reed switches, and can be used to control emergency cable circuit breakers used in security systems of various technological lines, in particular, conveyor.

So, the mechanical emergency cable switch ATV-0102 manufactured by NPO TEKO JSC (Chelyabinsk) is known (see Appendix 1). As a switching element in it, and similar switches, ordinary mechanical contacts are used. Such equipment has been successfully used and is used where it is necessary to control starters or intermediate relays with a working current of the order of a few tenths of an ampere to several amperes. But for switching the signal to the input to the programmable logic relays (PLR) or controllers (PLC), i.e. where the logical unit current does not exceed several milliamps, mechanical contacts of devices designed for much higher currents, due to the inevitable appearance of an oxide film on the contact surfaces, are unsuitable.

Under these conditions, low-current relays based on reed switches - sealed magnetically controlled contacts show themselves well. The minimum values of the switched current for the reed switches produced by the Ryazan metal-ceramic products plant are of the order of several microamps.

As an example of a reed switch cable, you can cite, for example, an emergency stop sensor for the conveyor of the DEK-M- ... series manufactured by Pilot Production Technologies of Control LLC. (See Appendix 2).

Known switch seems to be closest in technical essence to the claimed one and is selected as a prototype.

The known emergency cable switch contains a rectangular case with a flat cover, two rods attached to the side walls of the case on the outside for attaching a cable to them, a fixed switching element in the case in the form of a switching reed switch having a switch sensitivity zone determined by its design parameters, and the acting element connected with the cable in the form of a permanent magnet-switch mounted on a rotary handle mounted on the housing cover, and kinematic esk connected with rods, capable of entering the sensitivity zone of the switching reed switch, and its fixing element in extreme positions in the form of spring-loaded balls, due to the pulling of the cable attached to any of the rods or the rotation of the handle.

By pulling the cable attached to one of the rods or turning the handle to the off position, you can change the position of the movable magnet switch relative to the fixed switching element (switching reed switch), and thereby change the state of the contacts of the reed switch. To return to the “on” state, it is necessary to return the handle by turning it back to its original position. This design provides mechanical fixation of the rotary part of the sensor in the “on” and “off” positions. As fixing elements, spring-loaded balls are used.

The disadvantage of this design is its unreliability, due to the presence of ball clamps, which should create sufficient force to hold the handle in the “on” and “off” positions (at least five to seven kilograms per rod), but the greater the retention force, the with great effort it is necessary to turn the handle, the faster the ball stop socket breaks, and the faster the device becomes unusable.

The objective is to increase reliability by increasing the service life.

The problem is solved in that in an emergency cable switch containing a rectangular hollow body with a cover, a rod with a cable attached to it, attached to the side wall, a fixed switching element located inside the case in the form of a switching reed switch having a sensitivity zone, an acting element in the form permanent magnet switch associated with the element of its movement in the sensitivity zone, and the locking element of the switch in the switched state in this zone, according to of a useful model, a switching reed switch is located in a separate case under the cover of the main case, an element for fixing the switch in the switched state in the sensitivity zone is attached to its normally closed terminals, which is a permanent magnet - a latch for holding it in the switched state, a spring-loaded button with a reverse switching magnet, the characteristics of which are similar to the characteristics of a retention magnet, and the magnetic axis of the magnets are parallel, the poles of the opposite direction are directed in one direction, with the button pressed, both magnets are arranged coaxially to compensate for the effect of each other on the switching reed switch, and the element for moving the acting element in the sensitivity zone is a carriage with a permanent magnet switch located inside the housing and connected to the rod mounted on the side wall made spring-loaded with the possibility of moving it along the guides under the action of a cable attached to it through a thrust.

Placement of a switching reed switch in a separate housing with fastening to its normally closed terminals of a permanent magnet - a latch for holding it in a switched state if there is a spring-loaded button with a reverse magnet in the same case when their axes are parallel and the poles of the two magnets are placed in the same direction when the button is pressed coaxially, provides reliable fixation of the switching reed switch in the switched state without the use of rapidly wearing ball clamps, and returns at the switching reed switch to the initial state when the button is pressed, which, in combination with the movement of the acting element in the sensitivity zone in the form of a carriage with a permanent magnet switch located on the side wall and connected with a pull rod mounted on the side wall, is spring-loaded to move it along the guides under the action of a cable attached to it through a pull rod, it does not require mechanical fixation of the moving parts relative to each other in the initial and switched state ui.

The technical result is an increase in reliability.

The inventive emergency switch has a novelty in comparison with the prototype, differing from it by such significant features as the placement of the switching reed switch in a separate housing under the cover of the main body, the fastening to its normally closed terminals made in the form of a permanent magnet of the locking element to keep the reed switch in the switched state in the sensitivity zone , placement in the same case of a spring-loaded button with a reverse magnet, the execution of the above magnets with such similar x characteristics such as the location of the magnetic axes and the orientation of their poles, the location of these magnets coaxially with the button pressed, compensating for their effect on the reed switch, the execution of the moving element of the acting element in the sensitivity zone in the form of a permanent magnet carriage mounted on the side wall and connected to the side mounted on the side wall -switch, made spring-loaded with the ability to move it along the guides under the action of a cable attached to it through a cable pull, providing aggregate achievement of a given result.

The inventive emergency cable switch can be used in security systems of various technological lines, in particular, conveyor, and therefore meets the criterion of "industrial applicability".

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

- FIG. 1 is a longitudinal view of an emergency cable switch;

- FIG. 2 is a top view of an emergency cable switch from above;

-Fig. 3 is a front view of the location of the switch magnets in operating mode;

- FIG. 4 is a top view of the arrangement of the magnet of the switch in operating mode;

- FIG. 5 is a front view of the location of the circuit breaker magnets in the “Emergency” mode;

- FIG. 6 is a top view of the location of the circuit breaker magnets in the “Emergency” mode;

- FIG. 7 is a front view of the location of the switch magnets in the transfer mode from the "Emergency" mode to the operating mode;

-Fig. 8 is a top view of the location of the switch magnets in the transfer mode from the "Emergency" mode to the operating mode.

The design of the switch is shown in FIG. 1, 2. It consists of a housing 1 with guides 2 and springs 3 located in it, a spring-loaded carriage 4 with a magnet switch 5 and a rod 6 moving along the guides 2. On the cover 7 there is a reed switch unit 8 with a reed switch 9 located in it, holding magnet 10 and a spring-loaded button 11 with magnet 12 reverse switching. Rod 6 is designed to attach the cable 14, which serves for emergency stop equipment.

The switch operates as follows. In the initial position (see Fig. 3, 4), contacts 9 ₁ and 9 _{2 are} closed, contacts 9 ₁ and 9 ₃ are open, since the magnetic field of the holding magnet 10 is not enough to switch the reed switch 9. The springs 2 are compressed with pre cable tension. The carriage 4 is in such a position that the magnet switch 5 is located away from the axis of the reed switch 9 and is not able to switch the reed switch 9. The button 11 is lifted by a spring, and the magnetic field of the reverse switching magnet 12 does not significantly affect the reed switch 9 either.

When pulling the cable 14 by hand, the rod 6 moves the carriage 4 and the magnet switch 5 towards the reed switch 9, which leads to the switch of the reed switch 9: contacts 9 ₁ and 9 ₂ open, contacts 9 ₁ and 9 ₃ close (Fig. 5, 6). The action of the magnet-latch 10 retention leads to the fact that the reed switch 9 remains in the switched state and when the carriage 4 moves further, and when it returns to its original state after removing the force from the cable 14.

To reverse the switch of the reed switch, press the button 11, thereby lowering the magnet 12 of the reverse switch to the reed switch 9. In this case, the magnets 10 and 12 are located symmetrically relative to the axis of the reed switch 9, and, acting on the reed switch 9 with opposite poles, mutually cancel each other, which leads to reverse switching reed switch 9 (Fig. 7, 8).

In comparison with the prototype of the inventive emergency cable switch is more reliable in operation.

Claims (1)

An emergency cable switch containing a rectangular hollow body with a cover, a rod with an attached cable attached to the side wall on the side wall, a fixed switching element located inside the case in the form of a switching reed switch, creating a switch sensitivity zone, and connected to the cable, the acting element in the form of a constant magnet switch, an element for moving the acting element in the sensitivity zone and an element for fixing it in this zone, characterized in that the switching reed switch it is placed in a separate case under the cover of the main case, an element for fixing the switch in the switched state in the sensitivity zone is attached to its normally closed terminals, which is a permanent magnet-lock holding it in the switched state, a spring-loaded button with a reverse switching magnet is placed in the same case, characteristics which are similar to the characteristics of the retention magnet-retainer, and the magnetic axes of the mentioned magnets are parallel, the poles of the same name are directed in one When the button is pressed, both magnets are arranged coaxially to compensate for the effects of each other on the switching reed switch, and the element for moving the acting element in the sensitivity zone is a carriage with a permanent magnet-switch located inside the housing and connected to the rod mounted on the side wall, which is spring-loaded with the possibility of moving it along the guides under the action of a cable attached to it through a thrust.

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