RU2669703C2 - Static arc-striking contact assembly and grounding switch thereof - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to a static arc-striking contact assembly, comprising a housing, a shaft, a static arc-striking contact and a spring, wherein the housing has an opening. One end of the static arc-striking contact extends into the opening and is rotatably connected to the housing by means of the shaft. Spring is connected to the housing and causes the static arc-striking contact to be deflected towards one side of the opening. Grounding switch comprises the static arc-striking contact assembly.

EFFECT: static arc-striking contact assembly and grounding switch thereof of the present invention can be used for higher voltage ratings, operate reliably and have low costs.

9 cl, 5 dwg, 1 tbl

Description

FIELD OF THE INVENTION

The present invention relates to a fixed contact node for the occurrence of an arc, in particular a fixed contact node for the appearance of an arc for a high voltage switch in an electric power system. In addition, the present invention also relates to a grounding switch using such a fixed contact occurrence of an arc.

BACKGROUND

A high voltage switch in an electric power system, such as a disconnector, for transmitting and converting electrical energy, has an earth switch included therein. The earthing switch is a mechanical switch for the grounded part of the circuit, and must be able to withstand current under abnormal conditions for a given period of time, but it is not necessary to withstand current in normal operation. During the repair of electrical equipment, the grounding switch must be closed in every direction in which electricity can be transferred to the power-off equipment if it is likely that it can produce induced voltage in order to prevent the sudden return of electricity during the repair, creating a threat for the life of related personnel. Conventional grounding switches do not require an arcing device. However, as electric power systems are developed, the transmission and conversion of electric power at ultra-high voltage is energetically popularized. In order to solve the problem of the ever-insufficient corridors of transmission and conversion of electricity, double-circuit transmission lines of electricity are often used. Since the distance between the conductive wires in the dual-circuit electrical energy transmission line is very small, a significant electromagnetic and electrostatic coupling exists between the conductive wires and between the conductive wire and ground. To ensure reliability and safety during the overhaul, it is necessary that the earthing switches used on the line have the ability to switch the induced current, therefore, an arcing device should be provided.

Utility Model Chinese Patent CN201804780 discloses an arcing device of a high voltage ground switch in which an arcing contact is set below the ground contact and an arcing plate is provided on the ground contact pin. During the closure of the grounding switch, an arc is formed between the arcing contact and the arcing plate, which come into contact earlier with the grounding contact, and the grounding contact pin comes into contact later. Such an arcing device of a high voltage grounding switch can satisfy the technical requirements at lower rated voltages, but in the case of higher rated voltages, such as rated voltages of about 500 kV and higher, related problems, such as insufficient insulation distance, may occur.

SUMMARY OF THE INVENTION

The present invention is the provision of a fixed contact node of the occurrence of the arc, which can be used for higher rated voltages, works reliably, and has a low cost. Such a fixed contact node of the occurrence of the arc contains a housing, a shaft, a fixed contact of the occurrence of an arc and a spring, while the housing has an opening. One end of the fixed contact of the occurrence of the arc continues into the opening and is pivotally connected to the housing by means of a shaft. The spring is connected to the housing and causes the fixed arc contact to deflect towards one side of the aperture. Such a fixed contact node for the occurrence of an arc has a simple design and low cost, it works reliably and can be conveniently installed regardless of the main contacts of the switch, and is especially suitable for switches with high voltage rated power.

According to one aspect of the fixed arc-generating contact node of the present invention, said end of the stationary arc-generating contact is fixed to the shaft, wherein the shaft is rotatably connected to the housing, and the spring causes the fixed-arc contact to be deflected in the direction of one side of the aperture by restricting the rotation of the stationary contact occurrence of the arc. Applying force to a fixed arc-generating contact by means of a spring not only ensures that the arc-making contacts come into contact earlier than the main contacts, but also ensure reliable contact between them.

According to another aspect of the fixed arc contact assembly of the present invention, the housing consists of two semi-shells with two spacer blocks provided between two half-shells, and two half-shells are attached to two spacer blocks. The combination of these two semi-shells and spacer blocks facilitates the assembly of a fixed contact node for the appearance of the arc.

According to another aspect of the fixed contact occurrence of the arc, according to the present invention, the ball head is attached to the other end of the fixed contact occurrence of the arc. The ball-shaped head helps reduce or eliminate the discharge effect from a possible pointed end on the normal operation of the switch.

According to yet another aspect of the fixed arc pin assembly of the present invention, the fixed pin arc pin assembly further comprises an insulating sleeve attached to the fixed pin of arc pin. The insulating sleeve ensures that current no longer flows through the movable arc contact and the stationary arc contact when the main contacts are connected.

According to another aspect of the fixed arc contact assembly of the present invention, the ground switch further comprises a conductive braid that electrically connects the housing and the stationary arc contact. The conductive braid helps to make the electrical connection between the housing and the fixed arc contact reliable.

Another objective of the present invention is the provision of a grounding switch, which can be used for a higher rated voltage, works reliably, and has a low cost. Such a grounding switch comprises an insulator, a wiring clamp, a fixed contact, a movable contact, a movable arc contact, two equalizing rings and a fixed arc contact contact assembly as described above, wherein the wiring clamp is attached to the top of the insulator. A fixed contact node for the occurrence of an arc is connected between one side of the wiring clamp and one of the equalizing rings, and the other of the equalizing rings is connected to the other side of the wiring clamp. A fixed contact is connected between the wiring clamp and the fixed contact occurrence of the arc, while the positions of the movable contact and the movable contact of the occurrence of the arc correspond to the fixed contact and the fixed contact node of the occurrence of the arc, respectively. During the closure of the grounding switch, the moving contact of the occurrence of the arc and the fixed contact node of the occurrence of the arc come into contact before the fixed contact and the moving contact. During the opening of the grounding switch, the moving contact of the occurrence of the arc and the fixed contact node of the occurrence of the arc are opened after the fixed contact and the movable contact. The wiring clamp and the fixed arc pin contact node of such a grounding switch have a simple structure and low cost, and operate reliably, and the fixed pin pin node of the arc generation can be easily installed independently of the main contacts of the switch, and is especially suitable for switches having a high voltage rated power.

According to one aspect of the grounding switch of the present invention, the position of the insulating sleeve is set so that during the closure of the grounding switch, the arc contact movable contact slides along the surface of the arc arc contact after coming into contact with the arc arc contact until the contact is fixed and the movable contact come into proper contact, and then the movable contact of the occurrence of the arc remains on the insulating sleeve; when the opening process of the grounding switch starts, the moving contact of the occurrence of the arc and the fixed contact of the occurrence of the arc immediately re-establish the contact, and only disconnect when the fixed contact and the movable contact are completely disconnected. Setting the position of the insulating sleeve thus ensures that current no longer flows through the arcing contacts when the main contacts are connected.

Consistent with yet another aspect of the grounding switch of the present invention, the wiring clip comprises a connecting arm, a mounting plate and a base plate, wherein the connecting arm is secured between the mounting plate and the base plate, wherein one end of the connecting arm is connected to a fixed arc contact assembly, fixed the contact is fixed to the connecting arm and is located close to the fixed contact node of the occurrence of the arc, and the base plate is fixed to the insulator . The base plate helps to ensure the creepage distance between the insulator and other parts of the switch.

According to another aspect of the grounding switch of the present invention, the connecting lever is welded to the mounting plate, and the mounting plate is attached to the base plate by at least one sleeve, wherein said one end of the connecting lever is connected to one of the equalizing rings by means of a fixed contact assembly arcs, and the other end of the connecting lever is connected to the other of the equalization rings. Welded and connected wiring clamps have a lower cost and operate reliably.

The above explanation is just a brief overview of the technical solution of the present invention. Preferred embodiments are given below and described in detail in conjunction with the accompanying drawings, so that the technical approach of the present invention is more clear and implemented in accordance with the description, and so that the above-mentioned other objects, features and advantages of the present invention are more obvious and easy to understand.

DESCRIPTION OF THE accompanying drawings

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, in order to give those skilled in the art a better understanding of the above and other features and advantages of the present invention. Specifically:

Figure 1 is a three-dimensional schematic illustration of a grounding switch according to an embodiment of the present invention;

Figure 2 is an exploded schematic drawing of the grounding switch of Figure 1;

FIG. 3 is an exploded schematic drawing of a wiring clamp of FIG. 1;

Figure 4 is an exploded schematic drawing of a fixed contact node for the occurrence of the arc of figure 1;

Figure 5 additionally displays a fixed contact node of the occurrence of the arc of figure 4.

Explanation of the symbols in the accompanying drawings:

Table:

one Earthing switch 13 Wiring clamp eleven Fixed arc pin 1311, 1312 Ends of the connecting arm 111 Body 132 Mounting plate 112 Shaft 1322 Hole 113 Fixed arc occurrence contact 133 Base plate 114 Spring 134 Sleeve 115 Spacer block fourteen Pin 116 Ball head 141 Arc contact 1111, 1112 Holes 142 Movable contact 12 Fixed contact 143 Arc contact movable contact piece 121 Fixed contact body 151, 152 Equalization ring 122 Fixed contact fitting 153 Insulator 131 Connecting lever 117 Conductive braid 118 Insulating sleeve

SPECIFIC EMBODIMENTS

The present invention is explained in more detail below in the form of embodiments to explain its objectives, technical solutions and advantages.

Figures 1 and 2 represent the grounding switch 1 of the present invention, which has a fixed contact occurrence node 11, which is shown in figures 4 and 5. The fixed contact occurrence 11 of the arc contains a housing 111, a shaft 112, a fixed contact 113 of the occurrence of the arc and the spring 114 , while the housing 111 has an opening. One end of the fixed arc contact 113 continues into the opening and is rotatably connected to the housing 111 via the shaft 112. A spherical head 116 is attached to the other end of the fixed arc contact 113. The spherical head 116 is generally made of metal and helps to reduce or eliminate the discharge effect from a possible pointed end on the normal operation of the switch. In addition, it will be understood by those skilled in the art that the same or similar effect can also be achieved by adjusting the shape of the other end of the fixed arc contact 113 rather than by the spherical head 116. The spring 114 is connected to the housing 111 and makes the fixed contact 113 the occurrence of the arc to be deflected in the direction of one side of the aperture.

The end of the fixed arc contact 113, which continues into the opening, can be secured to the shaft 112, for example, fastened to the middle part of the shaft 112 by means of a snap connection or threaded connection (for example, by installing a nut on the thread on the fixed contact 113 of the arc) with the shaft 112, rotatably connected to the housing 111, for example, if the two ends of the shaft, as shown in FIG. 5, have protrusions for insertion into the holes 1112 in the housing 111, then the axial movement of the shaft 112 may be limited after installation Novki without the need for any additional component. The spring 114 causes the arc-contact fixed contact to be deflected to one side of the aperture by restricting the rotation of the arc-contact stationary contact 113, but a method (not shown) of limiting the rotation of the shaft 112 can also be used to cause the arc-contact fixed contact 113 to be deflected to one side of the aperture . The spring 114 may be a torsion spring, but may also be another spring capable of realizing the same function. As shown in figure 4, the housing 111 consists of two semi-shells with two spacer blocks 115 provided between two half-shells, and two half-shells are attached to two spacer blocks 115 by means of bolts or screws (not shown) passing through holes 1111 in the floor shells, and if necessary, additionally fixed to one end 1311 of the connecting lever 131 of the clamp 13 for wiring on the grounding switch 1. The floor of the shell and spacer blocks are all made of metal material. In one embodiment of the present invention, which is not shown, the housing 111 may also take a different shape, for example, of a solid member formed by casting so as to include floor shells and spacer blocks.

The fixed arc generation contact 11 may further comprise an insulating sleeve 118. The insulating sleeve 118 is attached to the fixed arc originating contact 113 and is used to isolate between the movable arc originating contact 141 and the stationary arc originating contact 113 when the stationary contact 12 and the movable contact 142 are in proper contact to ensure that no longer flows current through the movable arc contact 141 and the stationary occurrence contact 113 I arc when the main contacts are connected, but the insulating sleeve 118 is not necessary.

Figures 1 and 2 represent the ground switch 1. The ground switch 1 comprises an insulator 153, a wiring clip 13, a fixed contact 12, a movable contact 142, a movable arc contact 141, two equalizing rings 151 and 152, and a fixed contact assembly 11, as described above, in which the wiring clamp 13 is attached to the top of the insulator 153.

A fixed arc generation contact 11 is connected between one side of the wiring clamp 13 and the equalization ring 151, and more specifically, is connected between one end 1311 of the connecting lever 131 and the equalization ring 151 through holes 1111 in the housing 111, and the equalization ring 152 is connected to the other side clamp 13 for wiring. The movable arc contact 141 is attached to the pin 14 by means of the connecting part 143 of the movable arc contact and is held at a suitable distance from the movable contact 142. The fixed contact 12 is connected between the wiring terminal 13 and the fixed arc contact 11. The positions of the movable contact 142 and the movable arc occurrence contact 141 correspond to the fixed contact 12 and the stationary arc occurrence contact assembly 11, respectively. During the closure of the grounding switch, the movable arc contact 141 and the fixed arc generating contact 11 come into contact before the fixed contact 12 and the movable contact 142. When the grounding switch 1 opens, the movable arc making contact 141 and the fixed arc making contact 11 after the fixed contact 12 and the movable contact 142. Since the spring 114 causes the fixed arc contact 113 to be deflected to the aperture side, which facing the movable arc contact 141, the distance between the movable arc contact 141 and the fixed arc contact node 11 is less than the distance between the fixed contact 12 and the movable contact 142, so when the ground switch is closed, the movable arc contact 141 and the fixed contact 11 arc arises come into contact earlier relative to the fixed contact 12 and the movable contact 142, but are separated later during the opening of the grounding switch, which avoids the ablation of the fixed contact 12 and the movable contact 142 through the arc during this process. In addition, since the distance is maintained between the arcing contacts (i.e., the moving arcing contact 141 and the fixed arcing contact 113) and the main contacts (i.e. the fixed contact 12 and moving contact 142), destruction and / or Ablation between them can be avoided as much as possible.

In one embodiment, in which the fixed arc generating contact 11 includes an insulating sleeve 118, the position of the insulating sleeve 118 is set so that when the grounding switch 1 is closed, the movable arc making contact 141 slides along the surface of the fixed arc making contact 113 after entering contact with the fixed contact 113 of the occurrence of the arc, and when the fixed contact 12 and the movable contact 142 come into proper contact, remains on the insulating sleeve 118. When the opening process of the grounding switch 1 starts, the movable arc contact 141 and the fixed arc contact 113 immediately re-establish the contact, and only disconnect when the fixed contact 12 and the movable contact 142 are completely disconnected. Thus, this ensures that current no longer flows through the arcing contacts when the main contacts are connected. Since the spring 114 causes the fixed arc contact 113 to be biased towards the aperture side that faces the movable arc pin 141, there is always a pair action / reaction force between the movable arc pin 141 and the fixed arc pin 113 throughout the entire contact process between a movable arc occurrence contact 141 and a fixed arc occurrence contact 113, so that reliable contact is provided between the movable occurrence contact 141 arc and fixed contact 113 an arc.

Figure 3 additionally displays a clip 13 for wiring. The wiring terminal 13 comprises a connection lever 131, a mounting plate 132 and a support plate 133, wherein the connecting lever 131 and the mounting plate can be made of aluminum, while the support plate 133 can be made of steel. Holes 1322 in the mounting plate 132 are used for additional wiring clamp 13 for wiring. A connecting lever 131 is attached between the mounting plate 132 and the base plate 133, while the base plate is fixed to the insulator 153 by means of bolts (not shown). One end 1311 of the connecting lever 131 is connected to the fixed contact node 11 of the occurrence of the arc. The body 121 of the fixed contact 12 is fixed to the connecting lever 131 by means of the connecting part 122 of the fixed contact and located close to the fixed contact node 11 of the occurrence of the arc. The connecting lever 131 can be connected to the mounting plate 132 by welding, but can also be riveted or bolted. The mounting plate 132 may be secured to the base plate with bolts (not shown) passing through four bushings 134, as shown in FIG. 3, or in an embodiment that is not shown, secured by a single bush having several holes; preferably, the connecting arm and mounting plate and base plate can be made as a single molded component, but a welded or connected wiring clamp has a lower cost and can be installed with greater adaptability and convenience. One end 1311 of the connecting lever 131 is connected to the equalizing ring 151 by means of the fixed arc contacting unit 11, while the other end 1312 of the connecting lever 131 is directly connected to the equalizing ring 152.

During the closure of the grounding switch according to the present invention, the movable arc contact 141, which is attached to the movable contact 142, approaches the fixed arc contact 113 of the fixed arc contact 11, so that the movable contact 142 only makes contact with the fixed contact 12 when the movable arc contact 141 comes into contact with the fixed arc contact 113. During opening of the ground switch according to the present invention, the movable contact 142 breaks the contact with the fixed contact 12 earlier, and the movable arc contact 141 breaks the contact with the fixed arc contact 113 when the movable contact 142 reaches a certain distance from the fixed contact 12; before the movable arc contact 141 and the fixed arc contact 113 are completely disconnected, an arc is formed between them. The earthing switch according to the present invention has a simple structure and operates reliably, and thereby realizes the reliable closing and opening of the earthing switch at low cost, avoiding the ablation of the movable contact and the fixed contact by means of an arc.

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

Claims (11)

1. An earthing switch comprising an insulator (153), a wiring clamp (13), a fixed contact (12), a movable contact (142), a movable arc contact (141), two equalizing rings (151, 152) and a fixed contact assembly (11) the appearance of the arc, and the stationary contact node (11) of the appearance of the arc contains a housing (111), a shaft (112), a fixed contact (113) of the appearance of the arc and a spring (114), and the housing (111) has an opening, one end of the stationary the contact (113) of the occurrence of the arc continues into the opening and is pivotally connected to the housing (111) by the shaft shaft (112), the spring (114) is connected to the housing (111) with the possibility of rejecting the fixed contact (113) of the occurrence of an arc to one side of the opening, moreover, the wiring clamp (13) is fixed on the upper part of the insulator (153), the fixed contact node (11) for the appearance of the arc is connected between one side of the wiring clamp (13) and one of the equalization rings (151), and the other of the equalization rings (152) ) connected to the other side of the wiring clamp (13); the fixed contact (12) is connected between the clamp (13) for wiring and the fixed contact node (11) of the appearance of the arc, while the positions of the movable contact (142) and the movable contact (141) of the appearance of the arc correspond respectively to the fixed contact (12) and the fixed contact node (11) the occurrence of an arc; during the closure of the grounding switch (1), the moving contact (141) of the appearance of the arc and the fixed contact unit (11) of the appearance of the arc come into contact before the fixed contact (12) and the moving contact (142); during the opening of the grounding switch (1), the moving contact (141) of the occurrence of the arc and the fixed contact node (11) of the occurrence of the arc are separated later than the fixed contact (12) and the movable contact (142). 2. An earthing switch according to claim 1, wherein said end of the fixed contact (113) of the arc is fixed to the shaft (112), while the shaft (112) is pivotally connected to the housing (111), and the spring (114) makes the fixed contact ( 113) the occurrence of the arc to be rejected to one side of the opening by restricting the rotation of the fixed contact (113) the occurrence of the arc. 3. The grounding switch according to claim 2, in which the housing (111) consists of two half-shells with two spacer blocks (115) provided between two half-shells, and two half-shells attached to two spacer blocks (115). 4. An earthing switch according to claim 3, in which a ball head (116) is fixed at the other end of the fixed contact (113) of the occurrence of the arc. 5. An earthing switch according to claim 4, in which the fixed contact node (11) of the appearance of the arc further comprises an insulating sleeve (118), fixed to the fixed contact (113) of the appearance of the arc. 6. An earthing switch according to claim 5, in which the earthing switch further comprises a conductive braid (117) that connects the housing (111) and the fixed contact (113) of the occurrence of the arc electrically. 7. An earthing switch according to claim 6, in which the position of the insulating sleeve (118) is set so that during the closure of the earthing switch (1), the movable arc contact (141) slides along the surface of the stationary contact (113) of the arc occurrence after entering contact with the fixed arc contact (113) until the stationary contact (12) and the movable contact (142) make proper contact, and then the movable arc contact remains on the insulating sleeve (118); when the opening process of the grounding switch (1) begins, the movable arc contact (141) and the arcing fixed contact (113) immediately re-establish contact, and only separate when the fixed contact (12) and movable contact (142) are completely separated. 8. An earthing switch according to any one of claims 1 to 7, in which the wiring clamp (13) comprises a connecting lever (131), a mounting plate (132) and a support plate (133), wherein the connecting lever (131) is secured between the mounting the plate (132) and the base (133), and one end (1311) of the connecting lever is connected to the fixed contact node (11) of the arc, the fixed contact (12) is fixed to the connecting lever (131) and is located close to the fixed contact node (11 ) the appearance of the arc, and the base plate (133) is fixed to the insulator (153). 9. An earthing switch according to claim 8, in which the connecting lever (131) is welded to the mounting plate (132), and the mounting plate (132) is fixed to the base plate (133) by means of at least one sleeve (134), said one end (1311) of the connecting lever (131) is attached to one of the equalization rings (151) by means of a fixed contact node (11) for arcing, and the other end (1312) of the connecting lever (131) is connected to the other of the equalizing rings (152) )

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