KR200330079Y1 - polymer bushing for high voltage cut-off - Google Patents

Abstract

The present invention forms wide hatched wings and narrow hatched wings on the outer surface of the outdoor bushing part of the housing alternately to maintain insulation even during heavy rain or heavy snow, and to make the contact area wider on the outer surface of the conductive rod of aluminum or brass. The present invention relates to a polymer bushing for a high pressure circuit breaker and a switch to form a flange so as to reinforce strength and to eliminate gas generation during molding.

The present invention for this,

A coupling groove is formed at the lower end of the conductive rod that forms a coupling hole into which the eye bolt type connector can be mounted so that the high voltage cable of the overhead distribution line can be drawn in or drawn out from the upper end.

The flange formed of epoxy so as to widen the contact area on the outer surface of the conductive rod forms a plurality of filling holes in the periphery,

In the outdoor bushing part of the housing molded of the silicon material, wide hatched wings and narrow hatched wings are alternately formed,

The connecting bushing of the housing is characterized in that it is configured to be integrally coupled to the flange by the brass mesh.

Description

Polymer bushing for high voltage breakers and switchgear

The present invention relates to a polymer bushing for a high-pressure circuit breaker and a switch, and particularly, a wide hatched wing and a narrow hatched wing are alternately formed on the outer surface of the outdoor bushing part of the housing to maintain insulation even during rainfall or heavy snow. It relates to a polymer bushing for a high-pressure circuit breaker and switchgear to form a flange with epoxy so as to widen the contact area on the outer surface of the conductive rod to eliminate the phenomenon of gas generated during molding.

As is well known to those skilled in the relevant art, the connection of the insulated wire to the existing SF6 gas switchgear which draws in and draws high voltage and current is connected to the gas switch 100 as shown in FIGS. 1 and 2. The insulator 101 of the magnetic material to be formed is formed, and the mold cone 200 formed to connect the insulated wire 104 to the insulator 101 is connected. This conventional method has a problem in that the manufacturing cost of the power equipment by using the insulated wire 104, the mold cone 200 and the insulator 101 by using an independent combination. In addition, the existing method has a problem that the manufacturing process is complicated and the work efficiency is lowered, a long installation work time is required, and the following operation after installation.

In particular, the conventional insulator 101 shown in Figs. 1 and 2 is made of a hard magnetic material that is susceptible to external mechanical shocks, such as instantaneous electric shocks (for example, lightning strikes or transient overvoltages) and secular changes. When insulation breakdown occurs due to external flashover or moisture intrusion into the bushing due to prolonged surface contamination, the instantaneous release of high-pressure insulating SF6 gas, which is broken and filled, occurs. Debris of the broken insulator 101 was scattered to various power equipment, power facilities or pedestrians installed around it, which could cause permanent damage and human injury.

3 shows a cable connecting bushing 50 and a switch attaching bushing 60 for attaching a switch, which are detachable structures of another conventional embodiment for solving the above problems.

Referring to FIG. 3, a part of the existing improved configuration is that the cable connection bushing 50 is molded into a single structure using a synthetic rubber polymer material (EPDM, Ethylene Propylene Diene Terpolymer) as a molding material, and is connected to the coupling groove 4. Combination of the corresponding protrusions 13 of the corresponding type was configured by differentiating the connection bushing (60) for attaching the switch formed of epoxy-based polymer (Epoxy). As a result, the installation work is easy in the field by the combination of the cable connection bushing 50 and the simple connection structure of the connector mounting bushing 60 having excellent tracking resistance without the installation configuration of the existing insulator 101. It is expected to have a strong impact resistance against external and mechanical shocks, and ultimately extend the service life.

However, in the improved conventional cable connection bushing 50 of FIG. 3, the cable connection bushing 50 is made of a synthetic rubber polymer material (EPDM), and the switch attachment connector bushing 60 is an epoxy polymer material (Epoxy). Local dielectric inequality is generated due to different intrinsic dielectric constants, and when air gaps are formed at the interface between different dissimilar insulators, partial discharge is continuously generated to promote insulation deterioration. As a result, the service life was not extended. In order to delay the mechanism as much as possible, the coupling groove 61 constituting the inner circumferential surface of the cable connecting bushing 50 and the coupling protrusion 61 constituting the outer circumferential surface of the switch attachment bushing 60 for the switch during the initial installation work. Insulating silicone grease was applied to each of them, but the insulation loses due to the change of physical properties of the insulating silicone grease over time, and local insulation deterioration progresses due to the remaining of foreign substances mixed during outdoor installation work. Had problems leading to destruction. In addition, the long time work according to the outdoor installation is also extremely low efficiency, there is a problem that only the worker with a certain level or more can work.

In addition, the synthetic rubber-based polymer material (EPDM), which is a molding material constituting the existing improved cable connection bushing 50, is exposed to corona (Corona, creepage discharge) according to the secular variation compared to the synthetic rubber-based polymer material such as silicon, Water repellency (or hydrophobicity, hydrophobi-city, water rejection property), arc resistance and tracking resistance deteriorate, permanently losing self-cleaning ability, and ultraviolet (UV) light. And surface deterioration such as permanent discoloration and fine cracking and choking due to the influence of ozone (O3) and the like.

Furthermore, in the existing improved cable connection bushing 50, the conductor connection (coupling bolt hole 52) at each connection portion of the cable connection bushing 50, the switch attachment attaching bushing 60 and the cable 53, Since the coupling nut groove 62 is formed inside the bushing, it is difficult for the operator to check the mechanical optimum connection state, and as time passes, the connection state and degree thereof rapidly decrease, thereby limiting the role of the bushing. It has been revealed, there is a problem in the work, such as the reconnection of the conductor portion and not easy to reuse repeatedly.

Therefore, the applicant proposed by the application No. 20-2002-0029512 (integrated composite bushing for high pressure switch) on October 2, 2002,

This is shown in Figure 4,

The integrated composite bushing 200 for a high pressure switch includes a conductive rod 70 of a single body, a housing 80 made of synthetic rubber-based polymer, and a flange 90 made of high strength engineering plastics. Configure it,

An upper end of the conductive rod 70 forms a coupling hole 71 to which an eyebolt type connector can be mounted so that a high voltage wire (not shown) of the overhead distribution line can be drawn in or drawn out.

A coupling groove 72 is formed at the lower end of the conductive rod 70 for connection with the internal components of the switchgear (commonly referred to as the main circuit portion),

The flange (90) forms a plurality of filling holes (92) in the periphery thereof while forming a seating hole (91) in the center through which the conductive rod (70) is inserted and seated,

The housing 80 formed of the synthetic rubber polymer is divided into an outdoor bushing 81 and a connection bushing 82 mounted to the main body.

However, since the housing 80 is formed of a synthetic rubber-based polymer material, the thermal stability is lowered and gas is generated by the conventional multi-component bushing for the conventional high pressure switch. As a result, there is a problem in that the strength and insulation are reduced. .

And since the wings are formed in the outdoor bushing portion 81 of the housing 80 in the same size, the integrated composite bushing for the high-pressure switchgear is installed vertically, and when the heavy snowfall or heavy rain falls, the state is continuously connected through the ends of the wings. There was a disadvantage such that the leakage distance for the insulation is not secured, resulting in a gis phase that breaks down the insulation.

Thus, the present invention is devised to solve the problems as described above, by forming a wide hatch wing and narrow hatch wing alternately on the outer surface of the outdoor bushing portion of the housing to maintain insulation even during rainfall or heavy snow At the same time, the purpose of the present invention is to provide a high pressure circuit breaker and a polymer bushing for switchgear to form a flange with epoxy so as to increase the contact area on the outer surface of the conductive rod of aluminum or brass to eliminate the phenomenon of gas generation during molding. do.

The polymer bushing for the high voltage circuit breaker and the switch according to the present invention for achieving the above object is a lower portion of the conductive rod formed with a coupling hole that can be mounted to the eye bolt type connector so that the high voltage wire of the overhead distribution line can be drawn in or drawn out at the upper end thereof. At the tip, a coupling groove is formed for connection with the internal components of the switchgear,

The flange formed of epoxy so as to widen the contact area on the outer surface of the conductive rod forms a plurality of filling holes in the periphery,

In the outdoor bushing part of the housing molded of the silicon material, wide hatched wings and narrow hatched wings are alternately formed,

The connecting bushing of the housing is characterized in that the coupling to the flange of the brass mesh is configured to be integrated.

1 is a schematic view showing a configuration according to an embodiment of a bushing applied to a conventional gas switch airflow.

2 is an enlarged view of a portion A of FIG.

Figure 3 is a schematic diagram showing a configuration according to another embodiment of a bushing for a conventional gas switch.

Figure 4 is a partial cross-sectional view showing the configuration of a conventional composite bushing for high pressure switch.

5 is a partial cross-sectional view showing the configuration of the polymer bushing for the high-pressure switch of the present invention.

Explanation of symbols on the main parts of the drawings

1: conductive rod 11: flange

13: screw hole 21: housing

22: outdoor bushing 23: wide hat blade

24: narrow hat blade 25: connection bushing

26: threaded hole 30: brass mesh

Hereinafter, with reference to the accompanying drawings of the present invention will be described in detail.

5 schematically shows a configuration of the present invention,

The lower end of the conductive rod (1) formed with a coupling hole (2) to which an eyebolt connector can be mounted to allow the high voltage cable of the overhead distribution line to be drawn in or drawn out from the upper end thereof. To form a coupling groove (3),

The flange 11 formed of epoxy so as to widen the contact area on the outer surface of the conductive rod 1 forms a plurality of filling holes (12),

In the upper outdoor bushing part 22 of the housing 21, wide hatched wings 23 and narrow hatched wings 24 are alternately formed,

The screw hole 26 formed in the connection bushing portion 25 of the housing 21 and the screw hole 13 of the flange 11 are coupled to each other by a brass mesh 30 to be integrated.

The high pressure circuit breaker and the switchgear polymer bushing of the present invention configured as described above,

Coupling hole (2) formed in the upper end is to be fitted with an eye bolt type connector for the high-voltage wire of the overhead distribution line is drawn or drawn out.

And to the coupling groove (3) formed at the lower end of the conductive rod (1) to connect the internal components of the switchgear.

On the outer surface of the conductive rod 1, the flange 11 is formed of epoxy so that the contact area is widened, and a plurality of filling holes 12 are integrally formed around the conductive rod 1 so that the strength is increased, and at the same time, gas is generated during molding to insulate it. To prevent this from falling.

The outdoor bushing part 22 of the housing 21 formed of the silicon material has a wide hatch-shaped wing 23 and a narrow hatch-shaped wing 24 alternately, and is sufficient even if rainfall or heavy snow falls even when vertically disposed. Leakage distance for insulation should be secured to prevent accidents during use.

The overall coupling strength is achieved by combining the screw hole 26 formed in the connection bushing 25 of the housing 21 and the screw hole 13 of the flange 11 with the brass mesh 30 so as to be integrated. Be good.

As described above, the high voltage circuit breaker and the switch-type polymer bushing of the present invention alternately form wide hatched wings and narrow hatched wings on the outer surface of the outdoor bushing portion of the housing to maintain insulation even during rainfall or heavy snow.

The flange is formed of epoxy so that the contact area is widened on the outer surface of the conductive rod of aluminum or brass, so that the strength is reinforced and at the same time eliminates the phenomenon of gas generation during molding

By combining the connection bushing of the flange and the housing with a brass mesh, the overall strength is enhanced.

Claims (3)

A coupling groove 3 is formed at the lower end of the conductive rod 1 having the coupling hole 2 formed at the upper end thereof. In the flange 11 formed on the outer surface of the conductive rod 1, a plurality of filling holes 12 are formed in the periphery, The connection bushing portion 25 of the housing 21 having the outdoor bushing portion 22 at the upper end forms a screw hole 26 to be coupled to the screw hole 13 of the flange 11 with the brass mesh 30. Polymer bushing for high voltage circuit breaker and switchgear, characterized in that the configuration. The method of claim 1, The flange (11) is a polymer bushing for the high-pressure circuit breaker and switchgear formed of epoxy to widen the contact area on the outer surface of the conductive rod (1). The method of claim 1, The housing is a high-pressure circuit breaker and switchgear polymer bushing formed of a silicon material alternately formed on the outdoor bushing portion 22 of the upper hatch wing 23 and the narrow hatch wing 24 alternately.