ES2964485T3 - Circuit breaker contact handling mechanism - Google Patents

Abstract

A contact operating mechanism of a circuit breaker is disclosed, in which a mounting slot (11) is provided in a base (1) and under a handle (2), a pressure spring (111) and a block are provided. sliding (112) inside. the mounting slot (11), one end of the pressure spring (111) rests against an inner side face of the mounting slot (11) and the other end thereof rests against the sliding block (112), a rod Push button (113) is between the sliding block (112) and a locking latch (5), and a spring (8) is provided that applies an elastic force to a movable contact mounting seat (6) between the movable contact assembly (6) and a side wall. of the base (1). (Automatic translation with Google Translate, without legal value)

Description

DESCRIPTION

Circuit breaker contact handling mechanism

field of invention

[0001] The present invention relates to a circuit breaker, and especially to a contact management mechanism within the circuit breaker.

Background

[0002] A contact handling mechanism of a conventional circuit breaker generates an opening force by pulling a movable contact installation base, which is inconvenient to install; In addition, a small tensile force will affect the opening, and a locking hook generates a restoring force through a torsion spring or a tensile spring, which will affect the opening of a moving contact.

[0003] Patent CN 205 564 679 U describes contact handling mechanisms for circuit breakers according to the preamble of claim 1. Patent CN 104241 038 A is another document that illustrates the technological background of contact handling mechanisms for circuit breakers.

Summary of the invention

[0004] The present invention overcomes defects of the prior art and provides a new contact handling mechanism of a circuit breaker that is easy to install and has a good opening effect.

[0005] To realize the above utility model, a technical solution used in the present invention is: a contact handling mechanism of a circuit breaker, including a base, a handle, a connecting rod, a jump connector, a hook lock, a movable contact installation base, and a movable contact, wherein the locking hook and the movable contact installation base are rotatably provided on the base, the jump buckle is rotatably provided on the base of movable contact installation, and the movable contact is fixedly provided on the movable contact installation base; the handle and the jumping buckle are connected by the connecting rod; a support foot and a push foot are provided on the locking hook, where the support foot is fixed to the jump buckle, and the push foot is correspondingly provided to a tripping device of the circuit breaker; an installation slot is provided at the base and under the handle, and a support spring and a sliding block are provided in the installation slot; one end of the support spring abuts an inner side of the installation groove, and the other end abuts the sliding block; a push rod is provided between the sliding block and the locking hook, and a spring that generates resilience to the movable contact installation base is provided between the movable contact installation base and the side wall of the base.

[0006] By the above solution, a structural arrangement of the product is reasonable, and the above configurations are more flexible for a locking hook pushing force, and there will be no jamming phenomenon. In addition, the spring is easy to install in this way, especially the spring can be configured to have higher resilience, and then the circuit breaker will have better tripping effect. The resilience generated by the movable contact installation base acts entirely on the movable contact installation base, and the opening force is not affected by other components.

[0007] A further configuration of the present invention is that: the installation slot is a rectangular installation slot, the sliding block can be provided in the installation slot in a sliding manner, a first spring base is provided on one side of the sliding block facing the supporting spring, and a connecting hole is provided at an upper end of the sliding block; The locking hook and the movable contact installation base share an axis of rotation that is rotatably provided on the base, an installation hole is provided on the locking hook and is located between the axis of rotation and the foot of support, one end of the push rod is movably inserted into the connecting hole and the other end is movably inserted into the installation hole.

[0008] Through the above solution, the push rod can adjust the directions when in operation, thus ensuring the resilience generated by the locking hook and stabilizing the operation of the circuit breaker.

[0009] A further configuration of the present invention is that: the locking hook and the movable contact installation base share a rotation axis that is rotatably provided on the base, a second spring base is provided on one side of the movable contact installation base that starts from the handle and is located on the axis of rotation, one end of the spring abuts the second spring base, and the other end abuts a side wall of the base.

[0010] Through the above solution, the resilience of the spring can act well on the movable contact installation base, thus ensuring opening effects.

[0011] A further configuration of the present invention is that: a fan-shaped notch is placed on one side of the connection hole of the sliding block facing the locking hook, and the pusher rod is inserted into the connection hole through the fan-shaped notch.

[0012] The change of the force direction of the push rod is further ensured and the operating stability of the product is ensured.

[0013] The final configuration of the present invention is that: a movable contact relocation slot is provided in the movable contact installation base, a convex column and an inclined hole are provided in the movable contact relocation slot, a fixing hole and an oblique through hole which are respectively corresponding to the convex column and the inclined hole are provided in the movable contact, and the fixing hole of the movable contact is located in the relocation groove and then is provided fixedly in the relocation slot after hot riveting by the convex column.

[0014] Using the above solutions, it is easy to establish a mobile contact. Furthermore, after the movable contact and a static contact are in contact during a closing process, a spring generates pressure on a movable contact installation base, and continues to rotate a handle to move a shaft in an inclined hole, which results in excessive travel and end pressure.

[0015] The present invention will be described in more detail below with reference to the accompanying drawings. Description Drawings

[0016]

FIG. 1 is a three-dimensional diagram of a contact handling mechanism according to an embodiment of the present invention;

FIG. 2 is a structural diagram of a sliding block according to an embodiment of the present invention; and

FIG. 3 is a structural diagram of a movable contact installation base according to an embodiment of the present invention.

Detailed description of the invention

[0017] As shown in Figures 1 to 3, a contact handling mechanism of a circuit breaker, including a base 1, a handle 2, a connecting rod 3, a jump connector 4, a locking hook 5, a movable contact installation base 6, and a movable contact 7, where the locking hook 5 and the movable contact installation base 6 are rotatably provided on the base 1; the jump buckle 4 is rotatably provided on the movable contact installation base 6, and the movable contact 7 is fixedly provided on the movable contact installation base 6; the handle 2 and the jump buckle 4 are connected by the connecting rod 3; a support foot 51 and a push foot 52 are provided on the locking hook 5, where the support foot 51 is fixed to the jump buckle 4, and the push foot 52 is provided correspondingly to a trigger device of the circuit breaker. The technical characteristics mentioned above are also common in the prior art, and will not be described in detail in this embodiment. In this embodiment, an installation slot 11 is provided at the base 1 and under the handle 2, and a support spring 111 and a sliding block 112 are provided in the installation slot 11; one end of the support spring 111 abuts an inner side of the installation groove 11, and the other end abuts the sliding block 112; a push rod 113 is provided between the sliding block 112 and the locking hook 5, and a spring 8 that generates resilience to the movable contact installation base 6 is provided between the movable contact installation base 6 and the side wall of the base 1. The resilience here includes a reset force to the moving contact installation base 6 when it opens and a final pressure to the moving contact installation base 6 when it closes. By the above solution, a structural arrangement of the product is reasonable, and the above configurations are more flexible for a thrust force of the locking hook 5, and there will be no jamming phenomenon. In addition, the spring 8 is easy to install in this way, especially the spring 8 can be configured to have higher resilience, and then the circuit breaker will have a better tripping effect. The resilience generated by the movable contact installation base 6 acts entirely on the movable contact installation base 6, and the opening force is not affected by other components.

[0018] In this embodiment of the present invention, the installation slot 111 is a rectangular installation slot, the sliding block 112 can be provided in the installation slot 111 in a sliding manner, a first spring base 1121 is provided on a side of the sliding block 112 facing the support spring 111, and a connecting hole 1122 is provided at an upper end of the sliding block 112, the locking hook 5 and the movable contact installation base 6 share a rotation axis which is rotatably provided in the base 1, an installation hole 511 is provided in the locking hook 5 and is located between the rotation axis and the support foot 51, one end of the pusher rod 113 is movably inserted onto the connection hole 1122 and the other end is movably inserted into the installation hole 511. By the above solution, the push rod 113 can adjust the directions when in operation, thus ensuring the resilience generated by the locking hook 5 and stabilizing the operation of the circuit breaker.

[0019] In this embodiment of the present invention, a second spring base 62 is provided on one side of the movable contact installation base 6 starting from the handle 2 and is located on the axis of rotation, one end of the spring 8 abuts the second spring base 62, and the other end abuts a side wall of the base 1. Generally, a spring fixing board for fixing an end part of the spring 8 can be provided on the side wall . By the above solution, the resilience of the spring 8 can act well on the movable contact installation base 6, thus ensuring opening effects.

[0020] In this embodiment of the present invention, a fan-shaped notch 1123 is placed on one side of the connecting hole 1122 of the sliding block 112 facing the locking hook 5, and the pusher rod 113 is inserted into the connecting hole 112 through the fan-shaped notch 1123, thus further ensuring the change of the force direction of the push rod 113 and ensuring the operating stability of the product. A movable contact relocation slot 61 is provided in the movable contact installation base 6, a convex column 611 and an inclined hole 612 are provided in the movable contact relocation slot 61, a fixing hole and an oblique through hole which are respectively corresponding to the convex column 611 and the inclined hole 612 is provided in the movable contact 7, and the fixing hole of the movable contact 7 is located in the relocation slot 61 and then is provided fixedly in the relocation slot relocation 61 after hot riveting by means of the convex column 611, which makes it easier to establish the movable contact 7.

Claims (5)

1. Contact handling mechanism of a circuit breaker, comprising a base (1), a handle (2), a connecting rod (3), a jump connect (4), a locking hook (5), a movable contact installation (6), and a movable contact (7), where the locking hook (5) and the movable contact installation base (6) are provided rotatably on the base (1), the locking buckle jump (4) is provided rotatably on the mobile contact installation base (6), and the mobile contact (7) is provided fixedly on the mobile contact installation base (6); the handle (2) and the jumping buckle (4) are connected by the connecting rod (3); A support foot (51) and a push foot (52) are provided on the locking hook (5), where the support foot (51) is fixed to the jump buckle (4), and the push foot (52) is provided correspondingly to a circuit breaker tripping device; characterized by the fact that an installation slot (11) is provided at the base (1) and under the handle (2), and a support spring (111) and a sliding block (112) are provided in the installation slot (I I); one end of the support spring (111) abuts an inner side of the installation groove (11), and the other end abuts the sliding block (112); a push rod (113) is provided between the sliding block (112) and the locking hook (5), and a spring (8) that generates resilience to the movable contact installation base (6) is provided between the base of movable contact installation (6) and the side wall of the base (1). 2. Circuit breaker contact handling mechanism according to claim 1, wherein the installation slot (I I I) is a rectangular installation slot, the sliding block (112) may be provided in the installation slot (111) in a sliding manner , a first spring base (1121) is provided on a side of the sliding block (112) facing the support spring (111), and a connecting hole (1122) is provided on an upper end of the sliding block (112). ); The locking hook (5) and the movable contact installation base (6) share a rotation axis which is rotatably provided on the base (1), an installation hole (511) is provided on the locking hook (5) and is located between the axis of rotation and the support foot (51), one end of the push rod (113) is inserted movably over the connection hole (1122) and the other end is inserted so movable in the installation hole (511). 3. Circuit breaker contact handling mechanism according to claim 1 or 2, wherein the locking hook (5) and the movable contact installation base (6) share an axis of rotation that is rotatably provided on the base ( 1), a second spring base (62) is provided on one side of the movable contact installation base (6) that starts from the handle (2) and is located on the axis of rotation, one end of the spring (8) it abuts the second spring base (62), and the other end abuts a side wall of the base (1). 4. Circuit breaker contact handling mechanism according to claim 2, wherein a fan-shaped notch (1123) is positioned on a side of the connection hole (1122) of the sliding block (112) facing the locking hook ( 5), and the push rod (113) is inserted into the connection hole (112) through the fan-shaped notch (1123). 5. Circuit breaker contact handling mechanism according to claim 1 or 2, wherein a movable contact relocation slot (61) is provided in the movable contact installation base (6), a convex column (611) and a hole inclined (612) are provided in the relocation groove of movable contact (61), a fixing hole and an oblique through hole which are respectively corresponding to the convex column (611) and the inclined hole (612) are provided in the contact movable (7), and the fixing hole of the movable contact (7) is located in the relocation groove (61) and then is provided fixedly in the relocation groove (61) after hot riveting by the convex column (611).