CN205609429U - Aerify for cabinet heavy current and seal utmost point post admittedly - Google Patents

Abstract

The utility model discloses a high-current solid-sealed pole column for an inflatable cabinet, which comprises an insulating cylinder and an arc extinguishing chamber fixed therein, and a lower outgoing line end, which is conductively connected to the lower end of the arc extinguishing chamber through a soft connection device. The sleeve part, the lower end of the sleeve part is provided with more than two connection positions that are conductively connected to the soft connection device, and each connection position is outside the outer periphery of the arc extinguishing chamber. In the utility model, the connecting part of the sleeve part of the lower outgoing line end is arranged outside the arc extinguishing chamber, so that the span between the lower end of the arc extinguishing chamber and the connecting point of the lower outgoing line end increases, which also increases the span of the soft connection device In this way, in the process of moving up and down with the conductive rod at the moving end driven by the insulating rod, the bending deformation of the flexible connection device will decrease with the increase of the span, so that the fatigue damage speed of the flexible connection device will be reduced. The column has the advantage that the soft connection device is not easy to be damaged, which ensures the reliability of the entire solid-sealed pole.

Description

Inflatable cabinet with high current solid-sealed pole

technical field

The utility model relates to a high-current solid-sealed pole for an inflatable cabinet.

Background technique

The inflatable cabinet, also known as gas-insulated metal-enclosed switchgear, is a complete set of indoor AC 50Hz electrical equipment with a wide range of applications. It can be used not only in areas with relatively harsh environmental conditions and places with serious pollution, but also in densely populated areas and large industrial and mining areas. In enterprises, high-rise buildings and other occasions, it is used to divide and combine load current, overload current and short-circuit current to realize the control, measurement, online monitoring and protection of the power supply system. The solid-sealed pole is mainly composed of upper and lower outlet terminals and a vacuum interrupter. The lower outlet terminal and the moving conductive rod of the vacuum interrupter are connected by soft connection or sliding connection to form the main conductive circuit. On small current solid-sealed poles, flexible connections are often used to realize the connection between the lower outgoing terminal and the moving conductive rod of the vacuum interrupter. The flexible connection is located between the upper end surface of the lower outgoing terminal and the lower end surface of the movable conductive rod. The end surface connection method is adopted between the moving conductive rod of the vacuum interrupter, but the contact area between the soft connection and the moving conductive rod, the soft connection and the lower outlet terminal is small, and the soft connection has the problem of low flow capacity, so this connection method is not suitable. It is suitable for high-current solid-sealed poles. On the high-current solid-sealed pole, due to the limitation of the diameter of the end face of the moving conductive rod in the vacuum interrupter and the heat dissipation of the current-carrying conductor, the sliding connection method is often used. Although this method solves the problem of high-current solid-sealed pole flow, but Its structure is complex, the assembly process is cumbersome, the cost is high, and the heat dissipation effect is not good due to the compact structure.

Chinese patent document CN 104332351 A discloses a flexible connection device and an embedded pole using the device. The flexible connection device of the embedded pole includes a flexible connection fixed between the conductive rod at the moving end and the lower outlet end. The connection has a middle part that is fixedly assembled on the conductive rod at the moving end through a transfer conductor and more than two wings provided at the edge of the middle part, each wing is overhanging from the edge of the middle part, and the overhanging end is fixed On the lower outlet end, the contact area is increased through multiple wings of the soft connection, and the flow performance of large current is improved. However, on the solid-sealed pole using this flexible connection device, the lower outlet end is composed of a sleeve portion extending up and down and a connecting end protruding radially on the upper side of the outer circumference, and the sleeve portion is supported in the arc extinguishing chamber The outer diameter of the sleeve part is equal to the outer diameter of the arc extinguishing chamber, so the distance from the overhanging end of the wing part of the soft connection to the center of the middle part will be smaller than the outer diameter of the arc extinguishing chamber, and with the development of existing switchgear equipment Due to the requirement of miniaturization, the outer diameter of the arc extinguishing chamber is inherently small, which makes the length of the overhanging part of the wing smaller. At the same time, because the soft connection usually uses a copper conductive plate, the conductive rod at the moving end is driven by the insulating rod. During the lifting process, the deformation range of the middle part of the soft connection and the transitional connection part of the wing will be large, which will cause the fatigue damage of the soft connection to intensify, and will cause the contact reaction force under the rated opening distance to be too large. Therefore, the soft connection device It has the defects of fast damage speed, high maintenance frequency, and excessive contact reaction force under the rated opening distance.

Utility model content

The purpose of the utility model is to provide a high-current solid-sealed pole for an inflatable cabinet, aiming to solve the problem of aggravated fatigue damage of the soft connection caused by the too small radial dimension of the sleeve part of the lower outlet end in the prior art.

In order to achieve the above purpose, the technical scheme of the gas-filled cabinet with a large current to seal the pole in the utility model is as follows:

The inflatable cabinet uses a high-current solid-sealed pole, including an insulating cylinder and its internally fixed arc extinguishing chamber, and a lower outlet end. The lower outlet end has a sleeve that is electrically connected to the lower end of the arc extinguishing chamber through a flexible connection device. The lower end of the sleeve is There are more than two connection positions that are conductively connected to the soft connection device, and each connection position is outside the periphery of the arc extinguishing chamber.

The inner hole of the sleeve part includes a circular hole part coaxially connected with the shaft section where the arc extinguishing chamber is located in the insulating cylinder. The hole walls on at least two sides of the circular hole part are provided with groove parts parallel to the circular hole part. Each of the connection points is respectively arranged on the groove bottom end surface of the corresponding groove part.

The inner cylinder wall of the insulating cylinder is protruded with an annular step supported at the lower end of the arc extinguishing chamber. The insulating cylinder is divided into an upper cylinder at the annular step and its upper position and a lower cylinder below the annular step. The outlet end is in the lower barrel.

The inner hole of the lower cylindrical body coincides with the sleeve portion of the lower outlet end.

Define the part of the groove bottom of the lower cylinder body that cooperates with the groove part of the sleeve part as a raised part, and the raised part is provided with a heat dissipation port through the inside and outside, and the heat dissipation port is located below the lower outlet end.

There are two grooves of the sleeve part, which are symmetrically arranged on the opposite sides of the circular hole, and the cooling ports on the corresponding convex parts of the two grooves are arranged opposite to each other in the radial direction of the lower cylinder.

The upper cylinder is a circular cylinder; the part of the lower cylinder that fits with the circular hole of the sleeve is defined as the main body, and the main body is an arc-shaped cylinder wall coaxial with the upper cylinder.

The upper end of the insulating cylinder is provided with the upper outgoing line terminal connected to the upper end of the arc extinguishing chamber and the accommodation groove for accommodating the upper outgoing line end. The accommodation groove extends along the radial direction of the insulating cylinder, and the groove walls on both sides of the accommodation groove are enclosed. The insulation protection edge on opposite sides of the upper outgoing line end and higher than the upper outgoing line end.

The lower end of the insulating cylinder is embedded with a sealing insert. The sealing insert has a threaded sleeve part embedded in the cylinder wall of the insulating cylinder and an annular disc body attached to the lower end surface of the insulating cylinder. The axis of the threaded sleeve part is parallel to the The axis of the insulating cylinder and the disk body are coaxially arranged at the lower end of the screw sleeve, and an annular sealing groove for embedding a sealing ring is coaxially provided on the end surface of the lower ring of the disk body.

In the utility model, the connecting part of the sleeve part of the lower outlet end is arranged outside the arc extinguishing chamber, so that the contact surface between the lower end of the arc extinguishing chamber and the soft connection is increased, the flow area is increased, and the lower end of the arc extinguishing chamber and the lower end of the arc extinguishing chamber are enlarged. The span between the connecting points of the outlet ends increases the span of the flexible connecting device, so that when the insulating rod drives the conductive rod at the moving end to move up and down, the bending deformation of the flexible connecting device will decrease with the increase of the span. Small, so that the fatigue damage speed of the soft connection device is reduced, and the problem of aggravated fatigue damage of the soft connection caused by the too small radial dimension of the sleeve part of the lower outlet end in the prior art is solved. Therefore, the sealing pole has a soft connection device that is not easy to be damaged The advantages ensure the reliability of the entire solid-sealed pole.

Description of drawings

Fig. 1 is the three-dimensional structure schematic diagram of the embodiment of the utility model;

Fig. 2 is the front view of Fig. 1;

Fig. 3 is the left view of Fig. 2;

Fig. 4 is the bottom view of Fig. 2;

Fig. 5 is a schematic diagram of the connection structure of the sealing insert on the insulating cylinder in Fig. 2;

Fig. 6 is a schematic diagram of the structure of the lower outlet in Fig. 2 .

detailed description

An embodiment of a large current solid-sealed pole for an inflatable cabinet in the utility model: as shown in Figures 1 to 6, the solid-sealed pole includes an insulating cylinder 4 and an upper outlet terminal 1 fixed from top to bottom inside, a vacuum The arc extinguishing chamber 3, the lower outlet terminal 5, and the inner cylinder wall of the insulating cylinder 4 are protrudingly provided with an annular supporting step supported on the lower end of the vacuum interrupting chamber 3, and the supporting step divides the insulating cylinder 4 into parts where it is located and above it. The upper cylinder and the lower cylinder below it, wherein the upper outlet 1 and the vacuum interrupter 3 are in the upper cylinder of the insulating cylinder 4, and silicon is arranged between the vacuum interrupter 3 and the insulating cylinder 4 The rubber layer 2 ; the lower outlet end 5 is in the lower cylinder body of the insulating cylinder 4 .

The lower wire outlet end 5 is composed of a sleeve part fitted on the inner cylinder wall of the lower cylinder body and a lower connection end passing through one side cylinder wall of the lower cylinder body. The sleeve part is divided into a round hole part 51 in the center and a groove part 52 symmetrically arranged on opposite sides of the round hole part 51 according to the shape of the inner hole. The inner hole of the groove part 52 and the round hole part 51 communicates, and the groove part 52 and the circular hole portion 51 are arranged in parallel. The inner hole of the circular hole portion 51 communicates coaxially with the inner hole of the upper cylinder, and the cylinder wall section of the circular hole portion 51 is an arc cylinder wall coaxial with the upper cylinder. The groove part 52 is a rectangular groove, and the groove bottom of the groove part 52 is outside the outer periphery of the vacuum interrupter 3, and the end surface of the lower end of the groove bottom wall is provided with a connection position connected to the lower end of the vacuum interrupter 3 through a soft connection device. , the connecting position is provided with connecting screw holes extending vertically.

The soft connection device is a soft connection 7 conductively connected between the lower outlet terminal 5 and the vacuum interrupter 3. The soft connection 7 is a copper bar extending radially along the lower cylinder. The soft connection 7 has a conductive connection through an adapter sleeve. The middle part 71 of the lower end of the conductive rod at the moving end of the vacuum interrupter 3 and the wing parts 72 cantilevered from the opposite side edges of the middle part 71. The groove portion 52 of the sleeve portion of the end 5 is on the connection position of the lower end surface of the groove bottom wall, so that the overhanging ends of the two wings 72 are all outside the outer periphery of the vacuum interrupter 3 .

The upper terminal 1 is coaxially conductively connected to the upper end of the vacuum interrupter 3 , that is, the upper terminal 1 is coaxially conductively connected to the upper end of the conductive rod at the static end of the vacuum interrupter 3 .

The upper cylinder of the insulating cylinder 4 is a cylindrical cylinder extending up and down, and the upper end of the upper cylinder is provided with an accommodating groove for accommodating the upper outlet end 1. The accommodating groove is opened on the opposite sides of the upper cylinder The side opening and the limit set on the inner cylinder wall of the upper cylinder are composed of an annular limit step that stops at the upper end of the vacuum interrupter 3. The upper step surface of the limit step forms the groove bottom surface of the receiving groove, and the limit The cylinder wall above the steps forms insulating guards surrounding the opposite sides of the upper outlet end 1 on opposite sides of the upper outlet end 1 , and the top of the insulating guard is higher than the upper outlet end 1 .

The inner cylinder wall of the lower cylinder body of the insulating cylinder 4 matches the sleeve portion of the lower outlet end 5, that is, the lower cylinder body has a main body portion 41 that cooperates with the round hole portion 51 of the sleeve portion and is symmetrically arranged on the opposite sides of the main body portion 41. The protruding part 42 is a rectangular protuberance that matches the groove bottom of the groove part 52 of the sleeve part. The vault positions of the two protruding parts 42 are provided with heat dissipation ports 43 that penetrate inside and outside to dissipate heat. The opening 43 is located below the lower outlet end 5, and the two cooling openings 43 are arranged opposite to each other in the radial direction of the lower cylinder. The lower end of the lower cylinder is provided with an everted flange end, and four sealing inserts 6 at the four corners are embedded and fixed on the lower end surface of the flange end. The sleeve part and the annular disc body attached to the lower end surface of the flange end, the axis of the screw sleeve part is parallel to the axis of the insulating cylinder 4, the disc body is coaxially arranged at the lower end of the screw sleeve part, and the disc body part An annular sealing groove for embedding the sealing ring is coaxially opened on the end surface of the lower ring.

In this embodiment, the insulation cylinder 4 has no sharp corners as a whole, and all transition parts adopt rounded corners for smooth transition. The epoxy resin thickness of the insulation cylinder 4 is uniform, so the electric field distribution around the solid-sealed pole is very uniform, and the electric field will not be excessive. Large and concentrated, so as to avoid flashover and corona. The upper cylinder adopts a cylindrical structure, and the upper outlet terminal 1 is placed in the electric field of a coaxial cylinder, effectively shielding the electric field between the three-phase busbars, and greatly reducing the distance between the phases of the inflatable cabinet. The lower outlet terminal 5 is changed from the original sliding connection method to the soft connection 7 method shown in Figure 1, which can greatly increase the heat dissipation capacity while meeting the flow requirements, and can also reduce the opening and closing force of the mechanism. It can ensure that the opening and closing are in place. On the basis of not reducing the mechanical performance of the embedded pole, the heat dissipation port 43 is designed on the insulating cylinder 4, which reduces the temperature of the embedded pole; the sealing groove is designed on the sealing insert 6, so that one embedded pole can be used for four A sealing ring is used for sealing, which increases the sealing area, ensures the airtightness of the circuit breaker air chamber to a certain extent, and reduces the difficulty of circuit breaker design at the same time. The above advantages increase the use environment and occasions of the inflatable cabinet, increase the reliability of the inflatable cabinet in the field to a certain extent, and improve the market competitiveness of the inflatable cabinet.

In the above embodiments, the vacuum interrupter is supported by the support steps protruding from the inner wall of the insulating cylinder. In other embodiments, the vacuum interrupter can also be supported by the lower outlet end. In addition, in order to cooperate with the two wings of the soft connection, the lower outlet end also adopts two groove parts, and in other embodiments, when there are more than two wings of the soft connection, the groove part on the lower outlet end More than two are also required, or the sleeve portion is designed as a circular sleeve with a larger overall outer diameter.

Claims (9)

1. the great-current fixed sealed pole of gas-filling cabinet, including insulating cylinder and interior fixing arc-chutes, lower wire end, lower wire end has the set portion being conductively connected on arc-chutes lower end by soft connection device, the lower end in set portion is provided with the connection position being conductively connected on soft connection device more than at two, it is characterized in that, each connection position is in outside the periphery of arc-chutes.

The great-current fixed sealed pole of gas-filling cabinet the most according to claim 1, it is characterized in that, the endoporus in set portion includes and the circular hole part of the shaft part coaxial communication of arc-chutes present position in insulating cylinder, the hole wall of at least both sides of circular hole part is provided with the groove part be arrangeding in parallel with circular hole part, and described each junction is separately positioned on the bottom land end face of respective slot part.

The great-current fixed sealed pole of gas-filling cabinet the most according to claim 2, it is characterized in that, the ring-shaped step being supported on arc-chutes lower end it is convexly equipped with on the inner tube wall of insulating cylinder, insulating cylinder is divided into the upper shell being at ring-shaped step and at top position and is in the lower shell below ring-shaped step, and described lower wire end is in lower shell.

The great-current fixed sealed pole of gas-filling cabinet the most according to claim 3, it is characterised in that the endoporus of lower shell is identical with the set portion of lower wire end to match.

The great-current fixed sealed pole of gas-filling cabinet the most according to claim 4, it is characterized in that, the bottom land mating part of the groove part with set portion of definition lower shell is bossing, and bossing offers inside and outside through thermovent, and thermovent is in the lower section of lower wire end.

The great-current fixed sealed pole of gas-filling cabinet the most according to claim 5, it is characterized in that, the concave part in set portion has two and divides the opposite sides being arranged symmetrically in circular hole part, and the thermovent on bossing that two groove parts are corresponding is in the diametrically setting of lower shell.

The great-current fixed sealed pole of gas-filling cabinet the most according to claim 4, it is characterised in that upper shell is circular cylinder body；It is main part that the round hole part with set portion of definition lower shell distributes the part closed, and main part is the circular arc barrel coaxial with upper shell.

The great-current fixed sealed pole of gas-filling cabinet the most as claimed in any of claims 1 to 7, it is characterized in that, the upper end of insulating cylinder is provided with coaxial conductive and is connected to the upper leading-out terminal of arc-chutes upper end and for accommodating the holding tank of upper leading-out terminal, holding tank radially extending along insulating cylinder, the both sides cell wall of holding tank is to go along with sb. to guard him in upper leading-out terminal opposite sides and be higher than the insulation of leading-out terminal and protect edge.

The great-current fixed sealed pole of gas-filling cabinet the most as claimed in any of claims 1 to 7, it is characterized in that, the lower end setting-in of insulating cylinder is fixed with sealing inserts, seal inserts and there is swivel nut portion and the annular disk body section being sticked on the lower surface of insulating cylinder in the barrel embedding insulating cylinder, the axis in swivel nut portion is parallel to the axis of insulating cylinder, disk body section is co-axially located on the lower end in swivel nut portion, and the lower ring end face of disk body section the sealing draw-in groove coaxially offering the annular for embedded sealing ring.