RU2641308C1 - Circuit breaker with mechanical link - Google Patents

Abstract

FIELD: electricity.SUBSTANCE: circuit-breaker with a mechanical link comprises of a transverse rod and a pull rod. The pull rod is located in the transverse rod. In addition, the circuit-breaker with a mechanical link contains a guide means. The guide means is provided with two load-bearing elements and two guide arms. The load-bearing elements are attached to the transverse rod and are located on the two sides of the pull rod. The guide arms suitably surround the load-bearing elements to rotate and are spaced away from the pull rod.EFFECT: increase of reliability and stability.9 cl, 3 dwg

Description

FIELD OF TECHNOLOGY

The present invention relates to a circuit breaker with a mechanical connection, in particular, to a three-phase high voltage circuit breaker with a mechanical connection with a guide means.

BACKGROUND

The circuit breaker is an important switching device in the electrical system, and it is responsible for two tasks, namely, control and protection. Its characteristics play a major role in determining whether an electrical system can operate safely. As people demand ever higher quality of supplied electric power, more and more high demands are placed on reliability and stability of circuit breakers. This is especially true in the case of circuit breakers with mechanical coupling, the actuator of which is an important part of them, one of the key components that determines the opening / closing characteristic of a circuit breaker with mechanical coupling. The characteristic of the actuator is directly related to the characteristic of the circuit breaker with mechanical coupling.

In existing mechanically coupled circuit breakers, a large gap between the phases often means that the pull rod is excessively long. Such a traction rod is easily deformed and becomes unstable when driven by a drive mechanism, and this affects the mechanical properties of the circuit breaker with mechanical coupling. An urgent solution to the problem is needed - how to increase the reliability and stability of the transmission of motion through the traction rod without changing its shape or material, so as to meet the relevant requirements for mechanical properties, as well as guarantee the reliability and stability of the circuit breaker with mechanical coupling.

SUMMARY OF THE INVENTION

The present invention is to provide a circuit breaker with mechanical coupling with high reliability and stability. Such a mechanically coupled circuit breaker comprises a transverse rod and a traction rod, wherein the traction rod is located in this transverse rod. Such a mechanically coupled circuit breaker further comprises guiding means. The guide means comprises two load-bearing elements and two guide sleeves, while the load-bearing elements are attached to the transverse rod and are located on two sides of the pull rod. The guide sleeves appropriately surround the load-bearing elements with the possibility of rotation and are separated from the pull rod.

In accordance with one aspect of the present invention, the two load bearing members are bolts and the guide sleeves are tubular.

In accordance with another aspect of the present invention, the guiding means also comprises two first washers located between the load-bearing elements and the transverse rod.

In accordance with another aspect of the present invention, the guiding means also comprises two nuts, and the load-bearing elements, after passing through the respective guide sleeves, are screwed into the corresponding nuts.

In accordance with another aspect of the present invention, the guide means also comprises two liners located between the load-bearing elements and the guide sleeves.

In accordance with another aspect of the present invention, the guiding means also comprises two second washers located between the nuts and liners

In accordance with another aspect of the present invention, the guiding means also comprises a frame with a channel inside the frame, as well as guide sleeves located in the channel. Two through holes are formed on one side of the frame, while two threaded holes are made on the opposite side. The load-bearing elements after passing through the transverse rod, the corresponding through holes and the corresponding guide sleeves are screwed into the corresponding threaded holes.

In accordance with another aspect of the present invention, the frame is made of metal.

In accordance with another aspect of the present invention, two guide sleeves are made of Teflon.

In the mechanically coupled circuit breaker of the present invention, two load-bearing elements are mounted on the transverse rod and are located on two sides of the pull rod, and two guide sleeves surround, respectively, these two load-bearing elements with rotation and are separated from the pull rod. This configuration can not only prevent the deformation and instability of the traction rod, but also reduce friction caused by relative movement between the guide arms and the traction rod, thereby reducing wear of the material of the guide sleeve. Moreover, it is not only ensured that the distance between each guide sleeve and the pull rod is within a certain range in order to guarantee the reliability and stability of the circuit breaker with mechanical coupling, but its cost is also reduced. In addition, the guiding means is easy to install, and there are no seizing or other defects that might occur during operation.

The above description is only a general principle of the technical solution of the present invention. In order to provide a more complete understanding of the technical approaches of the present invention, so that it can be implemented in accordance with the contents of this description, and to make the above and other aspects, features and advantages understood more clearly and more easily, an explanation of preferred options for execution.

DESCRIPTION OF THE accompanying drawings

FIG. 1 is a schematic illustration of a mechanically coupled circuit breaker of the present invention.

FIG. 2 is a schematic illustration of an embodiment of the guiding means of the present invention for a mechanically coupled circuit breaker shown in FIG. one.

FIG. 3 is a schematic illustration of another embodiment of the guiding means of the present invention for a mechanically coupled circuit breaker shown in FIG. one.

Positional symbols in the accompanying drawings mean:

100 - circuit breaker with mechanical coupling

110 - transverse rod

120 - first phase

130 - second phase

140 - third phase

150 - pull rod

160, 160a, 160b - guide means

163a, 163b - load-bearing elements

164a, 164b - guide sleeves

1630 - the first washer

165 - liner

171 - second washer

175 - frame

1751 - through hole

1753 - channel

1756 - threaded hole

170 - nut

1651 - restrictive washer.

SPECIFIC EMBODIMENTS

Below, in combination with the accompanying drawings and embodiments, the present invention is explained in further details in order to clarify the technical problem intended to be solved in this way, as well as to present the technical solution itself and the beneficial effects thereof. It should be understood that the specific embodiments described herein are intended only to illustrate the present invention and not to define it.

FIG. 1 shows a schematic representation of a mechanically coupled circuit breaker 100 of the present invention. As shown in FIG. 1, the mechanically coupled circuit breaker 100 comprises a transverse rod 110, a first phase 120, a second phase 130, a third phase 140, a pull rod 150 and a guide means 160. The first phase 120, the second phase 130 and the third phase are located on the transverse rod 110. The pull rod the rod 150 is located in the transverse rod 110 and interconnects adjacent the first phase 120 and the second phase 130, as well as the second phase 130 and the third phase 140. The guide means 160 is also located in the transverse rod 110 and is used to guide the pull rod 150. Depending on specific In various embodiments of the present invention, the number and position of the guide means 160 may be different, for example, between the first phase 120 and the second phase 130, one guide means 160 may be provided, and the other guide means 160 may be provided between the second phase 130 and the third phase 140, or a larger number of guide means 160 may be used. The guide means 160 comprises two load-bearing elements and two guide sleeves. For example, in the embodiment shown in FIG. 2, the guide means 160A comprises two load-bearing members 163a and two guide sleeves 164a, and in the embodiment shown in FIG. 3, the guide means 160b comprises two load-bearing members 163b and two guide sleeves 164b. The guide sleeves 164a and 164b can rotate relative to the load bearing members 163a and 163b to reduce friction caused by the relative movement of the guide sleeves 164a and 164b and the pull rod 150. These two guide sleeves 164a and 164b are preferably made of a material such as Teflon. In any embodiment, the load-bearing elements are attached to the transverse rod 110 and are located on two sides of the pull rod 150, while the guide sleeves accordingly rotate the load-bearing elements and are away from the pull rod. In the present invention, the term “spaced” means that there is a very small gap between each guide sleeve and the pull rod, such that when this pull rod is not deformed or only slightly deformed, there is no contact between the pull rod and each of the guide arms, while when the deformation of the traction rod exceeds an acceptable value, this traction rod is maintained by contact with the guide sleeve. A circuit breaker with mechanical coupling with the guiding means in accordance with the present invention can not only prevent the deformation and instability of the traction rod, but also can reduce friction caused by the relative movement of the guide sleeve and the traction rod, thereby reducing wear of the material of the guide sleeve. Moreover, it is not only ensured that the distance between each guide sleeve and the pull rod is within a certain range in order to guarantee the reliability and stability of the circuit breaker with mechanical coupling, but also its cost is reduced. In addition, the guiding means is easy to install, and it does not jam or other defects that may occur during operation.

In the embodiment shown in FIG. 2, as well as in another embodiment shown in FIG. 3, the two load-bearing members 163a and 163b are bolts, while the guide arms 164a and 164b are tubular. Those skilled in the art will understand that other components capable of fixing the guide arms 164a and 164b in their position can also be used as two load-bearing elements 163a and 163b, so long as they allow relative rotations of the guide arms 164a and 164b, but when using bolts, the installation is simple and its cost is low. In the embodiment shown in FIG. 2, the guide means 160a also comprises two nuts 170; wherein the load-bearing elements 163a, after passing through the respective guide sleeves 164a, are screwed into the corresponding nuts 170. In the embodiment shown in FIG. 2, an insert 165 can be provided between each load bearing member 163a and the guide sleeve 164a in order to firmly mount the load bearing member 163a on the transverse rod 110. This insert 165, located between the load bearing member 163a and the guide sleeve 164a, surrounds the carrier load element 163A. This allows a nut 170 to be used to firmly install the load bearing member 163a on the transverse rod 110. In addition, in order to reduce shaking, a first washer 1630 can be provided between each load bearing element 163a and the transverse rod 110, and between each nut 170 and a second washer 171 is provided in the liner 165. A restriction washer 1651 can also be provided between each liner 165 and the second washer 171, or, if there is no second washer 171, this restriction washer 1651 can be installed directly between each liner 165 and the nut 170. In the case where there is no fixed fit between each guide sleeve 164a and the liner 165, this restriction washer 1651 may limit the position of the guide sleeve 164a or, if there is no restriction washer 1651, a second larger washer may limit the position of the guide sleeve 164a than the insert 165. The restriction washer 1651 may also form a single element together with the insert 165. The restriction washer 1651 and liner 165 are preferably made of metal. In the embodiment shown in FIG. 3, the guide means 160b also includes a frame 175 with a channel 1753 inside the frame 175, as well as guide sleeves 164b located in the channel 1753. Two through holes 1751 are formed on one side of the frame 175, two threaded holes 1756 are made on the opposite side. The load-bearing elements 163b, after passing through the transverse rod 110, the corresponding through holes 1751 and the corresponding guide sleeves 164b are screwed into the corresponding threaded holes 1756. Frame 175 preferably made of metal, such as aluminum. The presence of a frame 175 increases the support ability of the guide means 160 in a direction substantially perpendicular to the length direction of the pull rod 150, so that the pull rod 150 is unlikely to deform, providing a more reliable and more stable mechanical link circuit breaker.

The above embodiments are only preferred embodiments of the present invention, which are not intended to limit it. Any modifications, equivalent replacements or enhancements, etc. made within the essence and principles of the present invention, should be included in the scope of its protection.

Claims (10)

1. The mechanically coupled circuit breaker (100) comprises a transverse rod (110) and a traction rod (150), in which a traction rod (150) is located in this transverse rod (110), characterized in that the circuit breaker (100) with a mechanical the bond further comprises guiding means (160, 160a, 160b); the guiding means (160, 160a, 160b) contains two load-bearing elements (163a, 163b) and two guide sleeves (164a, 164b), while the load-bearing elements (163a, 163b) are attached to the transverse rod (110) and arranged in two sides of the pull rod (150), and the guide sleeves (164a, 164b) surround the load-bearing elements (163a, 163b), respectively, with the possibility of rotation and are separated from the pull rod (150). 2. A circuit breaker (100) with a mechanical connection according to claim 1, characterized in that the load-bearing elements (163a, 163b) are bolts and the guide sleeves (164a, 164b) are tubular. 3. A circuit breaker (100) with a mechanical connection according to claim 2, characterized in that the guiding means (160, 160a, 160b) also contains two first washers (1630) located between the load-bearing elements (163a, 163b) and the transverse rod (110). 4. A circuit breaker (100) with a mechanical link according to claim 3, characterized in that the guiding means (160a) also contains two nuts (170), and the load-bearing elements (163a) are screwed into the guiding sleeves (164a) matching nuts (170). 5. A circuit breaker (100) with a mechanical connection according to claim 4, characterized in that the guiding means (160a) also contains two inserts (165) located between the load-bearing elements (163a) and the guide sleeves (164a). 6. A circuit breaker (100) with a mechanical connection according to claim 4, characterized in that the guiding means (160a) also contains two second washers (171) located between the nuts (170) and the bushings (165). 7. A circuit breaker (100) with a mechanical connection according to claim 3, characterized in that the guiding means (160b) also comprises a frame (175) with a channel (1753) inside the frame (175), as well as guides located in the channel (1753) sleeves (164b), while on one side of the frame (175) two through holes (1751) are formed, while on the opposite side there are two threaded holes (1756), while the load-bearing elements (163b) after passing through the transverse the rod (110), the corresponding through holes (1751) and the corresponding guides Ukawa (164b) are screwed into corresponding threaded holes (1756). 8. A circuit breaker (100) with a mechanical connection according to claim 3, characterized in that the frame (175) is preferably made of metal. 9. The circuit breaker (100) with a mechanical connection according to any one of paragraphs. 1 to 8, characterized in that the two guide sleeves (164a, 164b) are made of Teflon.

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