RU2766439C2 - Emergency electric switch with improved contact unit - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: switching unit of the switch consists of a fixed contact element electrically connected to the coil of the interrupting unit; coil is electrically connected to the first contact terminal on the switch body; fixed contact element is located in the above housing outside the interrupting unit, on the side facing the seat. Movable contact element located inside switch housing, is located adjacent to the fixed contact element and is electrically connected to the other connecting terminal on the switch body. Movable contact element is installed with possibility of rotation in the support formed on the free end section of the cantilever rod in the area located in front of the needle of the interrupting unit, and is mechanically and electrically connected to the second connection terminal, so that movable contact element is pressed in direction of fixed contact element by means of spring and can also move in the opposite direction, i.e. from the fixed contact element, overcoming the resistance of said spring, when the switching element turns under the action of the needle.

EFFECT: simplifying the design of the emergency electric switch and improving its reliability.

3 cl, 11 dwg

Description

The present invention relates to electricity, namely, to basic electrical components, in particular to switches and structural parts of switches that can be controlled by means of an appropriate lever, and in particular to switches suitable for protection against electrical overloads. According to the International Patent Classification (IPC), such inventions are classified as H01H 71/52, H01H 73/50 or H01H 71/40.

In this case, the objective of the invention is only to simplify the emergency switch while increasing its reliability. This, however, means that an appropriate concept must be developed in relation to the emergency electrical switch, which will make it possible that, after embedding such a switch in an electrical circuit, as soon as either a thermal overload or a short-circuit current occurs in this circuit, the said switch should open the circuit quickly and reliably while keeping the contact resistance and internal power losses as low as possible, as a result of which the speed of rotation of the moving contact when opening the circuit passing through it must be as high as possible, so that the switching of the electric arc must be fast, and on the other hand , also the mechanical concept and layout of the movable contact element and the fixed contact element should be simple and allow for automated mass production, as well as the creation of such a current path, which, on the one hand, should lead to a deflection of the electric arc due to the formation of a corresponding magnetic field, and on the other hand, also maintaining a sufficient distance between the movable contact element and the fixed contact element, due to which it is also possible to significantly increase the discharge resistance of the switch in its open state.

A safety electrical switch is disclosed in EP 2545576 B1, which is referenced herein. Such a switch comprises a housing, which consists of an electrically insulating material and is provided with at least two electrical contacts for connection to at least two wires, thanks to which the switch can be integrated into the required electrical circuit. For making and breaking said electrical circuit, inside said housing, a moving contact and a fixed contact are provided, which themselves consist of an electrically conductive material and are themselves connected to said contacts used to be built into each electrical circuit. Said movable contact is configured to interact with a release mechanism connected to a drive handle, which is configured to control the switch and indicate errors and can be actuated by means of a trigger mechanism. Said release mechanism comprises at least an electric coil, a bimetallic washer and a needle that can act on said release mechanism either due to thermal expansion of said bimetallic washer or under the influence of a magnetic field generated by said coil.

Said actuating handle is rotatably integrated at its hinge point into the housing and comprises a section protruding outward from the housing and a section located inside the housing, to which a hooking bracket is attached, which serves to connect the handle to the said disconnect mechanism and indirectly also to the movable contact. Said release mechanism comprises a release lever and a release lever, wherein the release lever at its pivot point is rotatably integrated into the housing and comprises a first seat located in front of the trigger needle and a second seat located adjacent to the drive handle and configured to interaction with the hooking bracket. A tooth is located between said seats at an appropriate distance from the hinge point of said disconnect lever, while a tension spring is attached to said tooth, and this spring is attached to the movable contact on the other side. The trigger lever, rotatably mounted at its hinge point on the connecting lever, comprises a first console located in front of said needle, as well as a second console located opposite to said hinge point and adjacent to the second seat on the disconnect lever. In this way, the engagement bracket, which is connected on one side to the actuating handle, can be inserted between the second console of the trigger lever and the seat on the release lever.

In such a switch, the movable contact is constructed as a homogeneous lever, which is incorporated in a housing with the possibility of rotation about its hinge point and allows rotation from its first stable position, in which it rests on the fixed contact, to its second stable position at a certain distance from said fixed contact. contact, and is also made with the possibility of interacting with the disconnection mechanism, namely, either with the disconnecting lever, or with its trigger lever. In addition, said moving contact is configured to be compressed against the fixed contact by means of a spring, optionally a tensile coil spring stretched between a tooth on the trigger lever and a seat located on the moving contact at a certain distance from the hinge point and at an appropriate angle relative to said console. Said console of the movable contact is provided with a support surface designed to interact either with the seat of the connecting lever located adjacent to the trigger needle, or with a protrusion on the first console of the trigger lever. The hinge point of the movable contact is located at least approximately on the line of displacement of the said needle and in front of it, while the first console of the trigger lever and the seat of the disconnect lever are located in the area between the movable contact and the needle. Such a switch is made up of relatively complex components, which are also manufactured and assembled in a relatively complex manner, especially in view of their mass production. The switch itself generally allows the electrical circuit to be opened in the event of an overcurrent or short circuit current, however, the electrical current path is largely unsatisfactory in terms of magnetic field generation, which is preferred. must deflect an electric arc when the electrical contact elements move towards or away from each other. In addition, it is also desirable to slightly increase the speed when moving the contact, since this measure can lead to a significantly higher discharge resistance of the switch in its open circuit state, in which the contact elements are kept apart from each other.

A similar switch is disclosed in EP 2837014 B1, which is also referred to. An additional switch is disclosed in DE 4424332 A1.

In addition, a protective electrical switch is also disclosed in EP 0 621 619 A1, which also comprises a housing having two connecting terminals, by means of which the movable and fixed contact elements located inside said housing are electrically connected. Such a switch also comprises a thermal disconnect unit, provided with a coil, an electromagnet and a needle, which is integrated into the electrical circuit between the fixed contact element and the corresponding connection terminal on the housing. The movable contact element is electrically connected to the corresponding connecting terminal on the body and can be shifted either to its first position, in which it abuts against the said fixed contact element, or to its second position, in which it is held at a certain distance from the said fixed contact element. Said movable contact element, on the other hand, is connected to a trigger lever, which is built with the possibility of rotation around its hinge point in said housing and contains a drive console protruding outside of said housing, while a bracket is fixed on its section located inside said housing, designed to install connections between said lever and the interrupting mechanism. The breaking mechanism consists of a switching lever and a starting lever. Said movable contact element is rotatably mounted in said housing and is held in the direction of the housing by means of a spring on one side, and is pressed against the fixed contact element on the other hand. It is electrically connected to the corresponding terminal on said housing by means of a flexible electrical conductor, which is rigidly connected, for example by soldering or welding, on one side to said fixed contact element, and on the other side to said terminal. When an electrical overload occurs, said interrupting mechanism, by means of said needle, actuates the starting lever, which, by means of the switching lever, causes the switching lever to turn, as well as simultaneously turning the movable contact element away from the fixed contact element, overcoming the resistance of the said spring, due to which the electric circuit opens. In this case, the moving contact is moved away from the fixed contact element by a relatively small distance, which results in a relatively low discharge resistance of such a switch. At the same time, when said moving contact is rotated, said flexible electrical conductor is also significantly deformed, which means that also both connection points, at which said conductor is connected to the connecting terminal and the moving contact, are subjected to undesirable mechanical stresses, which gives rise to certain risks in terms of reliability. such a switch, especially when used for a long time, since the properties of the materials used can at least locally and/or even chemically change over time, as a result of which the number of closings and openings, in general, can even increase. Moreover, in this case also, the path of the electric current is largely unsatisfactory in terms of deflecting the electric arc by means of the magnetic field generated by closing and opening the circuit by said switch.

The present invention relates to an emergency electrical switch with an improved contact assembly, such a switch generally comprising a box housing, as well as a contact assembly, an interrupting assembly, a switching assembly, and optionally also an arc chute, which are built into said housing.

Said box-shaped housing consists of an electrically insulating material and is provided with a seat in one of its end zones, enabling detachable connection of said housing with a standardized connecting shelf in each accessible electrical switching panel, and in its second end zone it is equipped with a rotary knife switch, which serves both for manual activation circuit breaker in order to create an electrical circuit passing through it, and for manual shutdown of the circuit breaker due to opening of the said electrical circuit. Said body is further provided with two connecting terminals, each of which can itself be connected to a respective electrical conductor, whereby said. the switch is built into the corresponding electrical circuit.

The contact assembly is built into the said housing and consists of a fixed contact element and a movable contact element made of an electrically conductive material. Said contact assembly is configured to close or open an electrical circuit passing through the switch, so that the electrical circuit closes when said movable contact element abuts against said fixed contact element or opens when said movable contact element is held at a distance from said fixed contact element . Each of said contact elements is electrically connected to one of said contact terminals and thus also to the respective electrical conductor.

Said interrupting unit is also built into said housing and consists of a tubular housing, around which a coil is wound and inside which a strike needle located in the center and continuing in the longitudinal direction is inserted, while a bimetallic membrane is installed on its end section protruding towards the contact unit. In addition, a fixed yoke and an anchor are introduced into the interior of said tubular body of said interrupting assembly in the region of said coil, displaced in the longitudinal direction together with said needle, while a spring is inserted between said yoke and said anchor, designed to repel the yoke and anchor from each other . Thus, said needle can be displaced along said body either by said bimetallic membrane due to its deformation as a result of overheating caused by electrical overload, or by said armature when the latter moves relative to the yoke in the direction of the contact assembly under the action of a magnetic field generated by electrical overload in the area said coil, or when it returns back to its original position under the action of a force generated by said spring.

The switching unit, in general, consists of an electrically insulating material and is mechanically connected on the one hand to the said switch on the switch body, so that by means of it the said lever can be rotated either to its first or to its second end position, while the said switching unit is located in front of said impact needle of the interrupting assembly adjacent to said movable contact element of the contact assembly. With each displacement of said needle in the direction of the movable contact element, said needle strikes the switching unit, as a result of which, on the one hand, said movable contact element moves a distance from the fixed contact element, due to which the electrical circuit passing through the switch is opened, and on the other hand, said switch is simultaneously shifted from its first to its second end position, while said switching unit is held in its rest position by means of a spring mounted in said switch body.

The present invention proposes a switch in which said contact assembly comprises a fixed contact element made of an electrically conductive material and electrically connected to said coil of the interrupting assembly, wherein said coil is electrically connected to said first contact terminal on the switch body, wherein said fixed contact element located in said housing outside of said interrupting assembly and on that side of it which faces said seat, said switch additionally contains a movable contact element, which is also made of electrically conductive material, inside said switch housing is located adjacent to said fixed contact element and electrically connected to another connection terminal on the switch body.

According to the invention, said movable contact element is rotatably mounted in a support formed on the free end section of the cantilever rod in the area located in front of said needle of said interrupting assembly, and is mechanically and electrically connected to said second connection terminal, so that said movable contact element, installed in said support, is pressed in the direction of said fixed contact element by means of a spring, with which it is supported in the vicinity of said support, and can also move in the opposite direction, i.e. from said fixed contact element, overcoming the resistance of said spring, when said switching unit rotates under the influence of the needle.

Said spring, which preferably is a flat spring, is, in a preferred embodiment of the invention, firmly fixed on the one hand to the supporting element of the arc chute, which is mechanically and electrically connected to the connecting terminal adjacent to said movable contact element, and on the other hand is pivotally supported on the mentioned support on said movable contact element. In this case, said spring is made in the form of a cantilever and is mounted on a rigid electrically conductive carrier element on said shelf, which, in general, consists of an electrically insulating material, while said carrier element is mechanically and electrically connected to the connecting terminal on the side of the movable contact element, while while the other carrier element of said shelf is also rigid and electrically conductive and at the same time is electrically and mechanically firmly connected to the fixed contact element.

The invention will now be described on the basis of one embodiment, which is presented in the accompanying drawings, where

Fig. 1 schematically depicts an emergency electrical switch according to the invention;

Fig. 2 is a schematic representation of the electrical circuit passing through the switch of FIG. one;

Fig. 3 is a separately shown contact assembly of the switch of FIG. 1 and 2 in isometric view;

Fig. 4 contact node according to Fig. 3 when installed in the switch of FIG. 1 and 2 and is in a state in which the movable contact element abuts against the fixed contact element;

Fig. 5 the moving contact of the contact assembly of FIG. 3 in front view;

Fig. 6 contact assembly according to FIG. 3 when installed in the switch of FIG. 1 and 2 and is in a state in which the movable contact member is kept at a distance from the fixed contact member;

Fig. 7 contact assembly according to FIG. 3 when installed in the switch of FIG. 1 and 2, when moving the movable contact element away from the fixed contact element:

Fig. 8 shows separately the interrupting assembly of the switch according to the invention:

Fig. 9 interrupting the node, presented without coil in longitudinal section along its diametrical plane;

Fig. 10 - interrupting the node together with the said coil, presented in longitudinal section along its diametrical plane in the case when the electric current in the circuit slightly exceeds the rated current;

Fig. 11 - interrupting the node together with the said coil, presented in longitudinal section along its diametrical plane in the case when the electric current in the circuit significantly exceeds the rated current.

The emergency electrical switch (Fig. 1 and 2) contains a box-shaped housing 1, as well as a contact node 2, an interrupting node 3, a switching node 4 and, as an option, also an arc chute 5, which are built into the mentioned housing 1.

Said box-shaped body 1 consists of

electrically insulating material and in one of its end zone is provided with a seat 11, which serves to establish a detachable connection of the said housing 1 with a standardized connecting shelf in each accessible electrical patch panel. The housing 1 is provided in its other end zone with a rotary switch 12, which serves both to manually activate the circuit breaker by closing the electrical circuit passing through it, and to manually open the circuit breaker by opening said electrical circuit. In addition, said housing 1 is provided with connection terminals 13, 14, each of which can itself be connected to a respective electrical conductor 15', 15'', whereby said switch is integrated into a respective electrical circuit.

In addition, the contact assembly 2 is built into said housing 1 and includes a fixed contact element 21 and a movable contact element 22 and is configured to close or open an electrical circuit passing through the switch, so that the electrical circuit is closed when said movable contact element 22 abuts against said fixed contact element 21 or opens when said movable contact element 22 is held at a distance from said fixed contact element 21. Each of said contact elements 21, 22 is electrically connected to one of said contact terminals 13, 14 and thus also to the corresponding electrical conductor 15', 15''.

In addition, the interrupting unit 3 is built into said housing 1 and consists of a tubular housing 30 around which a coil 31 is wound and which is shown separately in FIG. 8-11. In said body 30, a centrally located and longitudinally extending impact needle 32 is introduced, while a bimetallic membrane is installed on its end section 30', protruding towards the contact node. In addition, a fixed yoke 34 and an armature 35 capable of being displaced longitudinally together with said needle 32 are inserted into the interior of said tubular body 30 of said interrupting assembly 3 in the area located inside said coil 31. Spring 36 is inserted between said yoke 34 and said anchor. 35 and is designed to repel the yoke 34 and the anchor 35 from each other, and in the presented embodiment, it can be made in the form of a coil spring working in compression.

Said needle 32 can be displaced along said body 30 either by said bimetallic membrane 33 due to its deformation as a result of overheating caused by electrical overload, or by said armature 35 when the latter moves relative to yoke 34 in the direction of contact node 2 under the action of a magnetic field generated due to electrical overload by said coil 31. The electrical circuit passing through said switch according to the invention, namely through the conductors 15, 15'' and the connecting terminals 13, 14, the movable contact element 22 and the fixed contact element 21, as well as the interrupting unit 3, in the process normal operation of the circuit breaker retains the normal mode shown in Fig. 1. As soon as the current in the electrical circuit exceeds the nominal value, the coil 31 and the housing 30 heat up and the heat is transferred to the bimetallic membrane 33, which in this case bends to the right according to FIG. 1, namely in the direction of the contact assembly 2, as a result of which the needle 32 also moves in the said direction. When a short circuit current occurs, the current substantially exceeds the nominal value in a very short period of time, so that there is not enough time to transfer heat to the bimetallic membrane 33. In this case, when the current increases, the coil 31 quickly generates the proper magnetic field, which leads to an instantaneous movement of the armature 35 in the direction of the yoke 34, overcoming the holding force of said spring 36, which also leads to an instantaneous movement of the said needle 32 in the direction of the contact node 2.

The switching unit 4 generally consists of an electrically insulating material and on the one hand is mechanically connected to said switch 12 on the switch body 1, so that by means of it said lever 12 rotates either to its first or its second end position, and on the other On the side, said switching unit is located in front of said impact needle 32 of the breaking unit 3 adjacent to said movable contact element 22 of the contact unit 2. Said switching unit 4 is held in its initial position according to FIG. 6 by means of a spring 41 attached to the body 1 of the switch.

With each displacement of said needle 32 in the direction of said movable contact element 22, for the reasons previously described, said needle 32 strikes said switching unit 4, as a result of which, on the one hand, said movable contact element 22 moves a distance from the fixed contact element 21 (Fig. 7), whereby the electrical circuit passing through the switch is opened (Fig. 6), and on the other hand, said switch 12 is shifted from its first to its second end position.

After opening the electrical circuit passing through the switch, by turning said lever 12 back to its original position, the switching unit returns back to its original position, whereby the movable contact element 22 returns to its original position, in which it rests on the fixed contact element 21 contact point 2.

As already noted, said contact assembly 2 comprises a fixed contact element 21 and a movable contact element 22. The fixed contact element 21 is made of an electrically conductive material and is electrically connected to said coil 31 of the interrupting assembly 3, while the coil 31 is electrically connected to said first contact terminal 13 on the body of 1 switch. The fixed contact element is located in said housing 1 outside of said interrupting assembly 3 and on the side facing said seat 11. Said movable contact element 22 is also made of electrically conductive material and is located inside said switch housing 1, located adjacent to said fixed contact element 21 and at the same time electrically connected to another connecting terminal 14 on the body 1 of the switch.

In the sense of solving the previously posed technical problem, the switch according to the invention is characterized in that said movable contact element 22 is mounted rotatably in a support 220 formed on the free end section of the cantilever rod 221 in the area located in front of said needle 32 of said interrupting assembly 3, and mechanically and is electrically connected to said second connection terminal 14. In this case, said movable contact element 22, rotatably mounted in said support 220, is pressed in the direction of said fixed contact element 21 by means of a spring 222, with which it is supported in the vicinity of said support 220, but can also move in the opposite direction, i.e. from said fixed contact element 21, overcoming the resistance of said spring 222, when said switching element 4 rotates under the influence of needle 32.

In the illustrated embodiment (FIG. 3), said spring 22 is designed as a flat spring, although one embodiment not shown also provides that said spring 222 may be a compression coil spring.

In addition, in the embodiment shown, said spring 222 is firmly fixed on one side to the supporting element 51 of the arc chute 5, which is mechanically and electrically connected to the connecting terminal 14 adjacent to said movable contact element 22, and on the other hand is hinged on said support. 22 0 on said movable contact element 22. In this case, said spring 222 is made in the form of a cantilever and is mounted on a rigid electrically conductive carrier element 51 on said shelf 5, which generally consists of an electrically insulating material. In this embodiment, said support element 51 is mechanically and electrically connected to the connection terminal 14 on the side of the movable contact element 22, while another rigid electrically conductive support element 52 of said shelf 5 is electrically and mechanically firmly connected to the fixed contact element 21.

Thanks to this described embodiment of the movable contact element 22 and the idea of supporting it by means of a spring 222, when said movable contact element 22 rests on the fixed contact element 21, the component F _k1 of the force F _v1 of the spring 222 is in fact the force with which said movable contact element 22 is pressed against the fixed contact element 21, as well as the force component with which the movable contact 22 is held in position (FIGS. 4 and 5). Said component F _k1 acts on the force arm r _k1 relative to the hinge point on the support 222, while the force F _v1 acts on the force arm r _v1 . The torques generated by the forces F _k1 and F _v1 are equal. When the contact element 22 (FIG. 7) moves, the direction of the force F _v1 changes, while the arm r _v1 of the force decreases to r _v2 .

The operation of the switch has been explained above both during the passage of a rated electric current and an excess electric current, and the previously posed technical problem has thus been solved.

Claims (8)

1. Emergency electric switch with a contact assembly (2), while said switch contains a box-shaped body (1), which consists of an electrically insulating material and is equipped with a seat (11) in one of its end zones, providing the possibility of a detachable connection of the said body (1) with a connecting shelf in each electrical switching panel, and in its second end zone it is equipped with a swivel switch (12), which serves both to manually activate the switch by closing the electrical circuit passing through it, and to manually turn off the switch due to opening of the said electrical circuit, while the said housing (1) is also equipped with connecting terminals (13, 14), each of which can be connected to a respective electrical conductor (15', 15''), whereby said switch is integrated into a respective electrical circuit; a contact assembly (2), which is built into said housing (1) and consists of a fixed contact element (21) and a movable contact element (22) and is configured to close or open the electrical circuit passing through the switch, so that the electrical circuit is closed, when said movable contact element (22) abuts against said fixed contact element (21), and opens when said movable contact element (22) is held at a distance from said fixed contact element (21), wherein each of said contact elements (21 , 22) is electrically connected to one of the mentioned contact terminals (13, 14) and to the corresponding electrical conductor (15', 15''); interrupting unit (3), which is also built into the said body (1) and consists of a tubular body (30), around which a coil (31) is wound and inside which a strike needle (32) located in the center and continuing in the longitudinal direction is inserted, and also on the end section (30') protruding in the direction of the contact assembly (2) of which a bimetallic membrane (33) is installed, and in addition, a fixed yoke (34) and an anchor (35) displaced in the longitudinal direction together with the mentioned needle (32) are introduced into the inner space of the mentioned tubular body (30) of the mentioned interrupting unit (3) in the area of the mentioned coil (31), while between the mentioned yoke (34) and the mentioned anchor (35) a spring (36) is inserted, designed to push the yoke (34) and armature (35) from each other, while said needle (32) can be displaced along said body (30) or by means of said bimetallic membrane (33) due to its deformation as a result of overheating caused by electric ical overload, or by said armature (35), when the latter moves relative to the yoke (34) in the direction of the contact assembly (2) under the action of a magnetic field generated due to electrical overload by said coil (31); switching unit (4), which consists of an electrically insulating material and on the one hand is mechanically connected to the mentioned knife switch (12) on the body (1) of the switch, so that through it the said lever (12) rotates either to its first or to its second end position, while said switching unit is located in front of said impact needle (32) of interrupting unit (3) adjacent to said movable contact element (22) of contact unit (2), so that with each displacement of said needle (32) in the direction of said movable contact element (22), said needle (32) strikes said switching unit (4), as a result of which, on the one hand, said movable contact element (22) moves a distance from the fixed contact element (21), due to which the electric circuit , passing through the switch, opens, and on the other hand, the said switch (12) is shifted from its first to its second end field fire, at the same time, said switching unit is held in its initial position by means of a spring (41) installed in the said switch housing (1), while the fixed contact element (21) is made of electrically conductive material and is electrically connected to the mentioned coil (31) of the interrupting unit ( 3), the coil itself is electrically connected to the said first contact terminal (13) on the body (1) of the switch, while the said fixed contact element (21) is located in the said body (1) outside the said interrupting unit (3) and on the other side , which faces the said seat (11), and the movable contact element (22), which is also made of electrically conductive material and is located inside the said body (1) of the switch, is located adjacent to the said fixed contact element (21) and is electrically connected to the other connecting terminal (14) on the body (1) of the switch, characterized in that said movable contact element (22) is rotatably mounted in a support (220) formed on the free end section of the cantilever rod (221) in the area located in front of said needle (32) of said interrupting assembly (3), and is mechanically and electrically connected to said second connecting terminal (14) so that said movable contact element (22), rotatably mounted in said support (220), is pressed towards said fixed contact element (21) by means of a flat spring (222), with which it is supported in said support (220), but can also move in the opposite direction, namely away from said fixed contact element (21), overcoming the resistance of said spring (222), when said switching unit (4) rotates under the influence of the needle (32). 2. The circuit breaker according to claim 1, characterized in that said spring (222) on one side is firmly attached to the supporting element (51) of the arc chute (5), which is mechanically and electrically connected to a connecting terminal (14) adjacent to said movable contact element (22), and on the other hand pivotally rests on said support (220) on said movable contact element (22). 3. The switch according to claim 2, characterized in that said spring (222) is made in the form of a cantilever and is mounted on a rigid electrically conductive carrier element (51) on said shelf (5), which consists of an electrically insulating material, while said carrier element ( 51) is mechanically and electrically connected to the connection terminal (14) on the side of the movable contact element (22), while the other carrier element (52) of said shelf (5) is also rigid and electrically conductive and is simultaneously electrically and mechanically connected to the fixed contact element (21).

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