RU152507U1 - SWITCH OF THE WAY INSTANT ACTION - Google Patents

Abstract

The instantaneous directional switch comprises a control lever 13 mounted on a shaft 12 mounted in a housing divided into two compartments 13. In the upper compartment of the housing 1 there is a contact block with fixed electrical contacts 5 and a contact lever 7 carrying spring-loaded movable electrical contacts 8. In the lower the housing compartment 1 on the shaft 12 of the liner 17 with the protrusion 20, connected to the wings 16 by means of spring rings 19 enclosed in a cage 18. The spring rings 19 with force cover the protrusion 20 of the liner 17 and the isthmus 24 of the wings 16 h cut ferrule 18. The width of the protrusion 20 is equal to the width of the isthmus 24. In the lower compartment of the housing 1, an arm 32 is fixed on the axis 6, the ends of which are located in two-stage grooves 41 of spring-loaded latches 36. The bearing pads 42 of spring-loaded latches 36 located in two-stage grooves 41 are designed to hold the rocker arm from turning until the link 16, when turning, presses on the latch 36 and, thereby, does not disengage the support platform 42 from engagement with the end of the rocker arm 32. 1 n.p., 3 ill.

Description

The technical field to which the utility model relates.

The utility model relates to electrical engineering, namely to switches with a control element designed for switching electrical control circuits under the influence of moving work elements, in particular to switches and track switches used in the automation of elevator and industrial equipment.

State of the art

Known instantaneous switch with constant contractual pressure, containing two spring-loaded bridge contacts placed in the window of a plastic beam, when switching translational movement along the guide and provided at the ends with protrusions for fixing extreme positions using spring-loaded latches, in which the beam is equipped with an additional window, in which the switching spring is inserted, cocked when the drive element is moved to the position that ensures the release of the latches ok, and carrying out the traverse to extreme positions (see AS No. 152681, publ. 12/16/1966 [1]).

A disadvantage of the known limit switch [1] is its unreliability and fragility, due to the presence of a large number of translational pairs.

Also known is a momentary directional switch comprising a controlled lever with a roller and a link, bearing a spring-loaded pusher mounted on one axis, a contact lever with movable electrical contacts mounted to interact with fixed electric contacts, mounted on another axis bearing a beam, interacting flat a surface located between the axis of its rotation and the wings, with a spring-loaded pusher, and two spring-loaded levers located on different sides it is relative to the wings and the rocker arm, equipped with support platforms for engagement with the ends of the rocker arm and protrusions designed to bring the ends of the rocker arm out of engagement with the support platforms of the spring levers (see A.F. Krainev “Dictionary-reference for mechanisms. - 2nd ed. , revised and enlarged M: Mechanical Engineering, 1987, pp. 278-279, article “WAY SWITCH”, c. b [2]).

A disadvantage of the known travel switch is the high probability of its breakdown if the control element of the external device turns it beyond the extreme position.

The closest analogue in terms of the set of essential features and the technical result achieved is an instantaneous directional switch [2], containing a controlled lever mounted on a shaft with a roller and a link, carrying a spring-loaded pusher mounted in its longitudinal cavity, as well as a rocker and a contact lever mounted on the same axis with movable electrical contacts installed with the possibility of interaction with stationary electrical contacts, and two spring-loaded interacting with fox latches located on different sides relative to the rocker arm, equipped with supporting platforms designed to engage with the ends of the rocker arm.

The known device [2], selected as a prototype, operates as a track switch if the link is spring-loaded in one or the other direction, and as a track switch if the specified spring is missing.

Utility Model Disclosure

The technical problem to which the utility model is directed is to increase the durability of the instantaneous travel switch by reducing the likelihood of its breakdown.

This problem is solved in that the instantaneous switch, comprising a housing with two compartments separated by a partition, a controlled lever with a roller, mounted on one end of a shaft mounted in the housing for rotation, on the other end of which is located in the lower compartment, an insert with a protrusion is fixed around which annular springs with a transverse section are placed, covered by a cage located together with the springs and the liner between the ends of the wings, in the longitudinal cavity of which a spring-loaded a pusher in contact with the surface of the beam, the ends of which are located in two-stage grooves spring-loaded in the direction of the beam, pivotally mounted in the housing and able to interact with the wings of the two latches with support platforms located between the steps of the grooves and able to interact with the ends of the beam to prevent it from turning when moving the pusher along the surface of the rocker arm until the base pad comes out of contact with the end of the rocker arm by releasing the latch from the bar backstage, after which the beam has the ability to rotate together with the axis mounted in the housing with the possibility of rotation, on which it is mounted, and mounted on the axis located in the upper compartment of the housing by a contact lever made of insulating material, bearing spring-loaded relative to each other installed in a rectangular hole conductive plates with movable electrical contacts having the ability to alternately contact the stationary electrical contacts, secured In the case of the contact block located in the upper compartment of the case, the annular springs by means of a cage cover with effort the protrusion of the liner and the isthmus of the wings having the same width.

Essential features common with the prototype [2] are: instantaneous travel switch, containing a controlled lever with a roller, mounted on one shaft together with a link, in the longitudinal cavity of which there is a spring-loaded pusher in contact with the surface of the rocker arm, the ends of which are installed with the possibility of interaction with supporting platforms articulated spring-loaded in the direction of the rocker arm having the ability to interact with the wings of two latches to keep the rocker arm from turning during placing the pusher on the surface of the rocker arm until the base pad comes out of contact with the end of the rocker arm by releasing the latch from the rocker arm by the rocker, after which the rocker arm can rotate with the contact arm carrying movable electrical contacts, which are able to alternately contact stationary electrical contacts.

The distinctive essential features of the instantaneous traveling switch, not known from the prototype [2], are the presence of a housing with two compartments separated by a partition, the presence and location in the lower compartment of the insert body with a protrusion around which annular springs with a transverse section are placed, covered by a clip located together with the springs and the liner between the ends of the wings in the lower compartment of the housing, the location of the ends of the rocker in two-stage grooves pivotally mounted in the housing having interact with the backstage of two latches, the support pads of which are located between the steps of the grooves, the location in the upper compartment of the housing and the implementation of the insulating material of the contact arm carrying conductive plates spring-loaded relative to each other with movable electrical contacts, the movable electrical contacts being fixed in the housing contact block, also located in the upper compartment of the housing, while the annular springs by means of a clip about grab with effort the protrusions of the liner and the isthmus of the wings having the same width.

Brief Description of the Drawings

In FIG. 1 shows the design of the instantaneous travel switch - top view with the top cover and gasket removed.

In FIG. Figure 2 shows the design of the instantaneous travel switch - bottom view with the lower cover and sealing gasket removed (link structure and its mounting device on the axis of the controlled lever in 1/4 section).

In FIG. Figure 3 shows the design of the instantaneous travel switch - a top view with the top cover removed, the gasket and a controlled lever with a roller.

The utility model can be implemented in the following design.

The instantaneous directional switch contains a housing 1 with two compartments - the upper (Fig. 1) and lower (Fig. 2), separated by a flat partition 2. In the upper compartment, by means of screws 3, the contact block housing 4 is made of an insulating material, in which fixed at two levels, fixed electrical contacts 5 and mounted on the axis 6 (Fig. 2) contact lever 7, bearing spring-loaded movable electrical contacts 8 (bridge contacts). One pin 9 (for grounding) is installed on the bottom of the partition 2, and the second is on the outside of the housing 1. Fixed upper level electrical contacts 5 are fixed in the housing 4 of the contact block with screws 10, and fixed lower level electrical contacts 5 are fixed in the housing 4 of the contact block screws 11.

A controlled lever 13 with a roller 14 is mounted on the shaft 12 with the possibility of adjusting its angular position relative to the shaft 12. For this, radially located corrugations 15 are made on the end part of the shaft 12 (Fig. 3). Response corrugations are made on both sides of the controlled lever 13 in such a way so that when installing the controlled lever 13 on the shaft 12 with one or the other side of the corrugation, the sides of the controlled lever 13 with the protrusions enter the grooves of the corrugations of the shaft 12. On the shaft 12 from the side of the lower compartment there is a link 16, an insert 17 and a clip 18, fastening spring rings 19. The liner 17 is made in the form of a ring with an external protrusion 20 and is mounted on the shaft 12 by means of a pin. The link 16 consists of two parts 21 and 22, each of which has an annular section 23 at the end, an isthmus 24, a staple section 25 and an opening. Parts 21 and 22 of the wings 16 are interconnected by means of a stepped axis 26 installed between the end of one part 22 at the location of the staple section 25 and the end of the other part 21, in which there is no staple section at this place. The spring rings 19 are elastic rings with a transverse section, folded into a bag and enclosed in a clip 18, while the ends of the rings 19 together with the clip are pulled apart and led behind the protrusion 20 of the insert 17 and the isthmus 24 of the wings 16, compressing them with the help of the clip .

Spring rings 19 with a cage 18 are installed between the annular portions 23 of the wings 16 outside the liner 17. The brace-shaped portion 25 located at the end of the part 21 of the wings 16 forms protrusions 27, and protrusions 28 are made in the middle of the part 22 of the wings 16 on the staple-shaped portion 25.

The longitudinal cavity formed between the two parts 21 and 22 of the wings 16 has a square cross-sectional shape. In the specified longitudinal cavity between the pusher 29, made in the form of a ball, and the middle part of the axis 26 is a compression spring 30.

The width of the protrusion 20 of the liner 17 is equal to the width of the isthmus 24 of the wings 16, while the holder 18 with the spring rings 19 covers with a force the protrusion 20 of the liner 17 and the isthmus 24 of the wings 16.

On the axis 6 by means of a screw 31, a rocker arm 32 is assembled from a package of plates fastened together with rivets 33. The flat surface 34 of the rocker arm 32 interacts with the pusher 29, and the ends 35 of the rocker arm 32 interact with latches 36 mounted on the axles (hinges) 37 and 38, located on different sides of the plane passing through the geometric axis of the shaft 12 and axis 6. The axes 37 and 38 are installed in the holes of the flat jumper between the compartments of the housing 1 and are fixed in them by plastic deformation from the upper compartment. The latches 36, as well as the rocker arm 32, are made in the form of a package of plates fastened together by rivets 39.

The ends 40 of the latches 36 are designed to alternately interact with the protrusions 27 of the wings 16. In the latches 36 there are stepped grooves 41, designed to accommodate the ends 35 of the rocker arm 32, while the lateral surfaces located in the middle of the grooves form support platforms 42, designed to temporarily hold the ends of the rocker arm 35. 32.

At the ends of the axes 37, 38 in the annular grooves, persistent quick-detachable washers are installed in accordance with GOST 11678-75, which hold the latches 36 from axial movement. The same washer 43 is installed in the annular groove of the shaft 12, preventing the axial displacement of the cage 18 with the spring rings 19.

In the latches 36, holes are made in which the ends of the compression spring 44 are installed at one end, the other ends of which are fixed on the protrusions of the housing 1 located symmetrically on the two side walls of the housing 1 from the inside. On one of the protrusions 28 of the wings 16, a compression spring 45 can be installed at one end, the other end of which is fixed on one of the protrusions 46 located symmetrically on the two side walls of the housing 1 from the inside.

The controlled lever 13 is attached to the shaft 12 by means of a nut 47, a flat washer 48 and a lock ring. Correspondingly, a cylindrical section is made on the shaft 12 for the hole of the controlled lever 13 and a threaded section 49 for the nut 47.

The controlled lever 13 in the plane passing through the geometric axis of the roller 14 and the shaft 12, has a zigzag profile. The roller 14 is mounted on the controlled lever 13 with the possibility of rotation. The shaft 12 is mounted in the hole of the housing 1 with the possibility of rotation and is fixed in the axial direction by the locking ring.

The fixed electrical contacts 5 are made in the form of conductive plates with a part bent at right angles, intended for mounting in the housing 4 of the contact block and connecting the electrical wires.

Mobile electrical contacts 8 are fixed in pairs at the ends of the conductive plates 50 mounted in a rectangular hole 51 of the contact arm 7 made of an insulating material. The conductive plates 50 are spring-loaded with a contact spring 52 and have lateral protrusions preventing them from falling out of the hole 51. The contact spring 52 is installed between the conductive plates 50 on which cylindrical protrusions are made under the inner diameter of the contact spring 52, preventing its lateral displacement.

On the lower part of the housing, threaded holes 53 are made for the screws for fastening the bottom cover, and in the upper part of the body, threaded holes 54 are made for the screws of fastening the top cover.

The upper and lower covers are fastened through continuous elastic bands.

The housing 1 also has a threaded hole 55 for a sealed cable entry with a gland in which a removable plug 56 is installed.

In the lower compartment of the housing 1 there are two protrusions 57, on which the latches 36 abut in the extreme positions of the link 16. The pusher 29 can be made in the form of a cylinder with a spherical end surface in contact with the beam 32.

The instantaneous directional switch is fixed to the structural element of the external device.

In the switch mode, the track spring 45 is mounted on the protrusion 46 of the housing 1 and on the protrusion 28 of the wings 16, as shown in FIG. 2 (the protrusion 46 is under the spring, so it is not visible).

In the initial position, the link 16 under the action of the spring 45 is in the extreme stable position, as shown in FIG. 2., while the left end 35 of the rocker arm 32 is located in the lower part of the stepped groove 41 and rests on the lower side wall of the stepped groove 41 of the latch 36, and the right end 35 of the rocker arm 32 is located in the upper part of the stepped groove 41 of the latch 36, which rests on the right protrusion rocker arm 32, the contact lever 7 is in the extreme right position in FIG. 1, in which the fixed and movable electrical contacts located to the right in FIG. 1 are closed, and there is a gap between the plate 50 of closed movable electrical contacts and the wall of the rectangular hole 51 closest to it.

Under the action of the control element of the external device, the controlled lever 13 in FIG. 2 rotates counterclockwise (clockwise in FIG. 1). Together with the controlled lever 13, the shaft 12 and the link 16 rotate, the torque to which is transmitted by means of the spring rings 19 and the cage 18. In this case, the spring-loaded pusher 29 is in constant contact with the flat surface 34 of the rocker arm 32, creating a moment of force relative to the geometric axis 6, which the rocker 32 and the contact arm 7 are fixedly fixed. When the pusher 29 and the rocker 32 are in contact with the plane of the plane passing through the geometric shaft 12 and axis 6, the moment of force is zero and the rocker 32 is in this mode ent in an unstable position. With a further rotation of the link 16 together with the controlled lever 13, an oppositely directed moment of force is created, as a result of which the rocker 32, choosing the gap between the end 35 of the rocker arm 32 and the support pad 42 of the stepped groove 41 of the latch 36 on the right, rotates to the stop with the end 35 of the rocker 32 in the support pad 42, located on the right in FIG. The value of the angle of rotation depends on the size of the initial gap between the support platform 42 and the end 35 of the rocker arm 32. The value of this gap should be minimal. The indicated value should ensure that when turning the rocker arm 32 and with it the contact arm 7, so that the movable electrical contacts 8 remain closed with the stationary electrical contacts 5 on the right in FIG. one.

With further rotation of the wings 16 together with the controlled lever 13, the moment of force created by the spring 30 increases due to an increase in the shoulder, which is due to the removal of the contact spot of the pusher 29 with the rocker 32 from the point of unstable equilibrium. The protrusion 27 of the wings 16 comes into contact with the end 40 of the latch 36 located on the right in FIG. 2, and rotates the latch 36, disengaging the support pad 42 from the end 35 of the rocker arm 32. At some point, the end 35 of the rocker 32 breaks off the support pad 42 of the stepped groove 41 of the latch 36 and the rocker 32 sharply rotates clockwise (Fig. 2), the left end 35 of the rocker arm 32 engages in the upper part of the stepped groove 41, and the latch 40 on the left deviates from the stop 57. Together with the rocker arm 32 from the position shown in FIG. 1, the contact lever 7 sharply rotates in the same direction (in Fig. 1 - in the opposite direction), while some movable contacts 8 instantly come out of contact with the fixed contacts 5 located on one side, and the others come in contact with the fixed contacts 5 located on the other side. In this case, the contact spring 52 first expands, pressing the conductive plate with one movable contacts 8 against the wall of the rectangular hole 51, and then compresses, creating a certain pressure in the contact spots of the other movable contacts 8 with the fixed contacts 5.

After removing the control force from the controlled lever 13 under the action of the spring 45, all the links of the mechanism returns to its original position in the following sequence.

The link 16 along with the controlled lever 13 is rotated clockwise (Fig. 2). After passing through the unstable position, the rocker arm 32, choosing the gap between the end 35 of the rocker arm 32 and the support platform 42 of the stepped groove 41 of the latch 36 on the left, is turned fully by the end 35 of the rocker arm 32 into the support platform 42 located on the left in FIG. 2. With further movement of the wings 16 together with the controlled lever 13, the moment of force created by the spring 30 increases due to the increase in the shoulder, which is due to the removal of the contact spot of the pusher 29 with the rocker 32. The protrusion 27 of the wings 16 comes into contact with the end 40 of the latch 36, to the left of FIG. 2, and rotates the latch 36, disengaging the support pad 42 from the end 35 of the rocker arm 32. At some point, the end 35 of the rocker 32 breaks off the support pad 42 of the stepped groove 41 of the latch 36 and the rocker 32 sharply rotates counterclockwise (Fig. 2), in this case, the right end 35 of the rocker arm 32 engages in the upper part of the stepped groove 41 and the latch 40 on the right deviates from the stop 57. Together with the rocker arm 32 to the position shown in FIG. 1, the contact lever 7 sharply rotates in the same direction (in Fig. 1 - in the opposite direction), while some movable contacts 8 instantly come out of contact with the fixed contacts 5 located on one side, and the others come in contact with the fixed contacts 5 located on the other side.

With the spring 45 removed, the device operates in the travel switch mode, in which the return to the initial position is possible only under the influence of an external device.

In the case when the action of the control element of the external device on the controlled lever 13 continues after switching contacts and moving the wings 16 to the extreme position, further movement of the controlled lever 13 within certain limits will not lead to a breakdown of the mechanism. In this case, the link 16 will remain in the extreme position, and with the further movement of the controlled lever 13, the protrusion 20 of the insert 17 will turn with it relative to the remaining fixed link 16, overcoming the resistance of the spring rings 19, resting on the side of the neck 24 of the link 21 by the end of the clip 18.

Claims (1)

An instantaneous directional switch comprising a housing with two compartments separated by a partition, a controlled lever with a roller, mounted on one end of a shaft mounted in the housing for rotation of the shaft, on the other end of which is located in the lower compartment, an insert with a protrusion is mounted, around which ring springs with a cross section, covered by a cage located together with the springs and the liner between the ends of the wings, in the longitudinal cavity of which is installed a spring-loaded pusher in contact with the surface of the rocker arm, the ends of which are located in two-stage grooves, spring-loaded in the direction of the rocker arm, pivotally mounted in the housing and able to interact with the link of two latches with support platforms located between the steps of the grooves and able to interact with the ends of the rocker arm to keep it from turning when moving the pusher on the surface of the rocker arm until the base pad comes out of contact with the end of the rocker arm by releasing the latch from the rocker arm by the wings, after which The rocker has the ability to rotate together with the axis mounted on the housing on which it is rotatable, and mounted on the axis located in the upper compartment of the housing by a contact lever made of insulating material, carrying conductive plates spring-loaded relative to each other and movable in a rectangular hole electrical contacts that have the ability to alternately contact with stationary electrical contacts fixed in the housing contact a block located in the upper compartment of the housing, while the ring springs by means of a cage cover with effort the protrusion of the liner and the isthmus of the wings having the same width.

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