RU2709189C1 - Lever of circuit breaker - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to lever of circuit breaker, which comprises left support (21) and right support made of plastic, at that, left support and right support are located opposite to each other. Fan-shaped contact recess is located on each of left support (21) and right support. Metal support plate (23) is located inside contact recess. Two arms of lever for closing and opening, respectively, are configured to interact in corresponding contact recesses and with possibility of abutment to support plates (23). Support is made from plastic, and not metal material, usually used in products of this type, which prevents negative effect of magnetic flux formed by metal support in process of interruption, carried out by means of circuit breaker, on electric arc movement direction, preventing attachment of metal particles formed by electric arc in process of interruption, and preventing negative effect of eddy current formed by metal support under voltage in process, on efficiency of circuit breaker at temperature increase. Plastic support is formed by injection molding, easy to manufacture and to process and is characterized by high accuracy.

EFFECT: support plate (23) improves surface hardness at the section of contact of the plastic support with the lever, requires a simple process, is made with possibility of simple processing and allows increasing speed of rotation, improving breaking capacity of the circuit breaker.

8 cl, 9 dwg

Description

Technical field

The present invention relates to a circuit breaker, and more particularly to a circuit breaker lever.

State of the art

Since the circuit breaker is used to protect lines or devices from short circuits, its breaking capacity is a very important operational parameter. Currently, the supports for the drive mechanisms of the circuit breaker are generally made of metal material. As shown in FIG. 6 - 9, the lever 3 interacts with the left and right metal supports 2 with the formation of a U-shaped conductor. In the process of opening the circuit breaker, the magnetic circuit formed by the U-shaped conductor can attract an electric arc formed on the contact area 1 towards the metal supports 2 (as shown in Fig. 9, the arrow 10 of the electric current indicates the direction of electric current, and the arrow 12 of the magnetic circuit indicates the direction of the magnetic circuits formed by the metal supports 2; and as shown in Fig. 8, the arrow 11 of the electric arc indicates the direction of movement of the electric arc under the influence of itnogo path) that does not contribute to the efficient and rapid quenching of the maximum electric arc. In addition, the metal particles formed during the opening process can be attached to the metal supports 2, thereby affecting the performance of the mechanism. In addition, when power is supplied to the circuit breaker, the U-shaped conductor can generate eddy current 13, which can generate heat, thereby affecting the performance of the circuit breaker with increasing temperature. Additionally, metal supports 2 formed by cold stamping technology require the use of various processes and are difficult to process, and their accuracy cannot be effectively guaranteed. That is, this can affect the accuracy of the entire drive mechanism, and thus the performance of the mechanism.

Therefore, it is obvious that the known circuit breaker of this design has the following disadvantage: since its metal supports are characterized by complex processing and low accuracy, the direction of movement of the electric arc can be affected during the interruption, thereby offsetting an improvement in its breaking capacity.

Disclosure of the invention

The technical problem to be solved by the present invention relates to the disadvantage existing in the known circuit breaker of such a design, in which its metal supports are characterized by complex processing and low accuracy, the direction of movement of the electric arc can be affected during the interruption, thereby leveling the improvement in its opening abilities.

To solve this technical problem, the present invention provides the following technical solution: a circuit breaker lever containing a left support and a right support made of plastic, while the left support and the right support are located opposite each other, a fan-shaped contact recess located on each of the left support and the right support; a metal support plate located inside the contact recess; two arm levers for closing and opening, respectively, made with the possibility of interaction in the respective contact recesses and with the possibility of abutment to the base plate.

In the above solution, the contact recess comprises an arcuate portion and rectilinear portions extending along the two ends of the arcuate portion in a tangential direction, and a lever for closing and opening is rotatably rotated between the two rectilinear portions.

In the above solution, the support plate has a rounded corner extending outward along its vertical direction to form an arcuate stop that is engaged with and secured to the arcuate portion.

In the above solution, the backing plate extends outward in its vertical direction to form plug-in panels, the number of which is two and which are respectively located in a tangent direction to the rounded corner, and the backing plate is engaged with rectilinear sections and attached to them.

In the above solution, the support plate comprises symmetrical positioning recesses having a shape corresponding to the contact recess.

In the above solution, the support plate has a plurality of mounting holes.

In the above solution, the radian measure of the arcuate portion equals the radian measure of the lower end of each of the shoulders.

In the above solution, on each of the left support and the right support, a mounting frame is arranged to be attached to the housing, the contact recess being located on the mounting frame.

In the present invention, the support is made of plastic, and not of the metal material commonly used in products of this type, which helps to prevent the negative influence of the magnetic flux generated by the metal support during the opening process, carried out by means of a circuit breaker, on the direction of movement of the electric arc, to prevent the effect on operational characteristics of the mechanism as a result of attachment of a metal particle formed in the process of opening, and to prevent negative impact s eddy current formed metal core under tension in the process, on the circuit breaker performance when the temperature rises. The plastic support formed by injection molding technology is simple to manufacture and process, and is characterized by high accuracy, thus overcoming the disadvantage that the metal support formed by cold stamping requires the use of various processes and is characterized by a high degree of inaccuracy; at the same time, to avoid the disadvantage of low hardness due to the use of plastic materials, part of the metal base plate is partially integrated into the plastic support, which improves the surface hardness at the contact area of the plastic support with the lever for closing and opening, and increases the speed of rotation of the lever for closing and opening relative to the support, thereby improving the breaking capacity of the circuit breaker.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 schematically depicts a view of the present invention located on a circuit breaker;

In FIG. 2 is a schematic view of a left support according to the present invention;

In FIG. 3 is a schematic view of a support plate according to the present invention;

In FIG. 4 is a schematic view of a lever for closing and opening suitable for the present invention;

In FIG. 5 is a schematic view of a lever for closing and opening according to the present invention located inside a contact recess;

In FIG. 6 is a schematic view of a circuit breaker having a structure identical to the present invention;

In FIG. 7 is a schematic view of a metal support shown in FIG. 6;

In FIG. 8 is a schematic partial view of FIG. 6;

In FIG. 9 is a schematic simplified view of FIG. 8.

The implementation of the invention

Next, the present invention will be described in detail with reference to specific embodiments and drawings of the description.

As shown in FIG. 1 and 2, the circuit breaker lever according to the present invention is located on the housing 10, wherein the circuit breaker comprises a left support 21 and a right support 22 made of plastic, the left support 21 and the right support 22 being opposite each other. A fan-shaped contact recess is located on each of the left support 21 and the right support 22. A metal support plate 23 is located in the contact recess. Two shoulders 31 of the lever 30 for closing and opening are made with the possibility of interaction in the respective contact recesses and with the possibility of abutment to the support plates 23, respectively.

Preferably, with reference to FIG. 5, the contact recess comprises an arcuate portion 241 and rectilinear portions 242 extending along the two ends of the arcuate portion 241 in a tangential direction. These two straight sections 242 form a range of opening and closing of the lever 30 for closing and opening, which is located between these two straight sections 242 with the possibility of rotation.

Preferably, as shown in FIG. 3, the support plate 23 comprises a rounded corner that extends outward along its vertical direction so as to form an arcuate stop 231 engaged with and secured to the arcuate portion 241. The support plate 23 extends outward along its vertical direction so as to form plug-in panels 232, the number of plug-in panels 232 being two and they are respectively located in a tangent direction to the rounded corner and are engaged with the rectilinear sections 242 and attached to them. The support plate 23 has symmetrical positioning recesses 233, the shape of which corresponds to the contact recess. This design not only makes it possible to insert the support plate 23 into engagement with and attach to the contact recess, but also facilitates quick installation and positioning, and displacement after installation is unlikely.

Preferably, the support plate 23 comprises a plurality of mounting holes 234 in such a way that the support plate 23 can be mounted on the left support 21 or the right support 22.

Preferably, with reference to FIG. 3 and 4, the radian measure of the arcuate portion 241 is equal to the radian measure of the lower end of each of the arms 31. Thus, the closing and opening lever 30 is constantly in interaction with the arcuate portion 241 during opening and closing, thereby providing a more stable closure and opening.

In the present invention, the support is made of plastic, and not of the metal material commonly used in products of this type, which helps to prevent the negative influence of the magnetic flux generated by the metal support during interruption by a circuit breaker on the direction of movement of the electric arc, to prevent the effect on the performance of the mechanism due to the attachment of a metal particle formed during the interruption process and to prevent negative effects s eddy current formed in the metal support during power-on circuit breaker performance when the temperature rises. The plastic support formed by injection molding technology, which is easy to manufacture and process and is characterized by high accuracy, thus overcomes the disadvantages inherent in the metal support, which is formed by cold stamping, is characterized by the need to use various processes and a high degree of inaccuracy; in order to avoid low hardness due to the use of plastic materials, part of the metal base plate is partially integrated into the plastic support, which improves the surface hardness at the contact area of the plastic support with the lever for closing and opening, and increases the speed of rotation of the lever for closing and opening relative to the support, such thus improving the breaking capacity of the circuit breaker.

The present invention is not limited to the above described embodiments. It should be understood that structural changes based on the ideas of the present invention are within the scope of protection of the present invention if their technical solutions are identical or similar to those disclosed in the present invention.

Claims (8)

1. The lever of the circuit breaker containing the left support and the right support made of plastic, while the left support and the right support are located opposite each other, a fan-shaped contact recess located on each of the left support and the right support; a metal support plate located inside the contact recess; two arm levers for closing and opening, respectively, made with the possibility of interaction in the respective contact recesses and with the possibility of abutment to the base plate. 2. The circuit breaker lever according to claim 1, wherein the contact recess comprises an arcuate portion and rectilinear portions extending along the two ends of the arcuate portion in a tangential direction, and a lever for closing and opening is rotatably rotated between said two rectilinear portions. 3. The circuit breaker lever according to claim 2, wherein the base plate has a rounded corner extending outward along its vertical direction to form an arcuate stop that is engaged with the arcuate portion and attached to it. 4. The circuit breaker lever according to claim 3, in which the base plate extends outward in its vertical direction with the formation of plug-in panels, the number of which is two and which are respectively located in a tangent direction to the rounded corner, and mesh with rectilinear sections and attached to him. 5. The circuit breaker lever according to claim 1, wherein the base plate comprises symmetrical positioning recesses having a shape corresponding to the contact recess. 6. The circuit breaker lever according to claim 1, wherein the base plate has a plurality of mounting holes. 7. The circuit breaker lever according to claim 2, wherein the radian measure of the arcuate portion equals the radian measure of the lower end of each of the arms. 8. The lever of the circuit breaker according to claim 1, in which on each of the left support and the right support is a mounting frame made with the possibility of attachment to the housing, and the contact recess is located on the mounting frame.

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