CN205985477U - Effectively increase creepage distance's female arranging of stromatolite - Google Patents

Abstract

The utility model provides an effectively increase creepage distance's female arranging of stromatolite, the stromatolite is female to be arranged including conducting layer and insulating layer, be connected with first electrode and second electrode on the conducting layer, be equipped with the insulating film between first electrode and the second electrode, the insulating film with the conducting layer nonparallel, just the length of insulating film is greater than the length of first electrode and second electrode. The utility model discloses a stand the insulating film, form the interelectrode creepage route of electricity, effectively improved creepage distance, strengthened the female performance of arranging the product of stromatolite, the utility model discloses an insulating film need amputate, and the utility model discloses in need not the excision, can directly use, simple and convenient, improve production efficiency, reduction in production cost, the utility model discloses an at the other exhausted edge strip that bonds of insulating film, it is fixed effectively to stand the insulating film to improve the stability of insulating film.

Description

A kind of stack bus bar being effectively increased creep age distance

Technical field

This utility model is related to stack bus bar field, particularly to a kind of stack bus bar being effectively increased creep age distance.

Background technology

Laminated bus bars, also known as composite bus bar, low-inductance bus, are that a kind of multi-layer compound structure connects row, have repeatable The high-power modular attachment structure part of the features such as electric property, Low ESR, anti-interference, good reliability, assembling are succinct, extensively It is applied to electric power and mixing traction, power switch system, electricity generation system, the power conversion module of electrical equipment etc..Laminated bus The size of the creep age distance of row depends on the rated operational voltage of busbar, the environment of work（The class of pollution）.

In laminated bus bars practical application, due to reasons such as rated operational voltage, busbar structure layouts, make bus bar the two poles of the earth Between electric clearance and creep age distance not, lead to produce electric discharge between the two poles of the earth during bus bar work, would have at the two poles of the earth Between viscous insulation strip increasing creep age distance and isolation electric clearance, this situation often limited configurations, using viscous insulation strip Mode not only increases technology difficulty, and because bond area is little, the bigger reliability of insulating part is poorer.Therefore, how effectively Improving interelectrode creep age distance becomes the major issue that stack bus bar field needs to solve.

Utility model content

The purpose of this utility model is to effectively improve the interelectrode creep age distance of stack bus bar, this utility model provide with Lower technical scheme：

A kind of stack bus bar being effectively increased creep age distance, described stack bus bar includes conductive layer and insulating barrier, described leads First electrode and second electrode are connected with electric layer, between described first electrode and second electrode, are provided with dielectric film, described insulation Film is not parallel with described conductive layer, and the length of described dielectric film is more than the length of described first electrode and second electrode.

As a kind of preferred version of the present utility model, described dielectric film is perpendicular to described conductive layer.

As another kind preferred version of the present utility model, the side of described dielectric film is provided with insulation strip, described insulation Film is adhered to the side of described insulation strip.

As another preferred version of the present utility model, described dielectric film and insulating barrier are structure as a whole.

This utility model advantage is：

1st, by dielectric film is stood, formation is interelectrode to climb power path to this utility model, effectively increases creep age distance, Enhance the performance of stack bus bar product；

2nd, dielectric film of the present utility model is to need excision in original processing technique, and need not in this utility model Excision, can directly use, simple and convenient, improve production efficiency, reduce production cost；

3rd, this utility model passes through bonding insulation strip other in dielectric film, effectively dielectric film is stood fixation, thus improving absolutely The stability of velum.

Brief description

Fig. 1 is this utility model perspective view.

In figure is numbered：

1 conductive layer, 2 insulating barrier 21 dielectric film

31 first electrode, 32 second electrode 4 insulation strip

Specific embodiment

Below in conjunction with the accompanying drawings preferred embodiment of the present utility model is described in detail, so that advantage of the present utility model Can be easier to be readily appreciated by one skilled in the art with feature, thus make apparent clear and definite to protection domain of the present utility model Define.

As shown in accompanying drawing 1 this utility model perspective view, stack bus bar includes conductive layer 1 and insulating barrier 2, conductive On layer 1, first electrode 31 and second electrode 32 are installed, first electrode 31 is cylindrical conductive joint, second electrode 32 is strip Conductive panel beating.Dielectric film 21 is the insulating barrier 2 of second electrode 32 side excision, and dielectric film 21 is structure as a whole with insulating barrier 2, passes through It is folded upward at so that dielectric film 21 is stood for vertical direction.It is bonded with insulation strip 4, the bottom of insulation strip 4 in the side of dielectric film 21 Face is adhered to the surface of insulating barrier 2, and the side of insulation strip 4 is adhered to dielectric film 21, is stood with ensureing that dielectric film 21 is reliable.

When not installing dielectric film 21, the creep age distance of first electrode 31 and second electrode 32 is the surface along insulating barrier 2 Air line distance, after installing dielectric film 21, creep age distance needs the bottom through dielectric film 21 side, climb along dielectric film 21 Rise, extend to another side bottom again to top, then climb again to another electrode.Creep age distance, on the basis of original, increases 2 times of dielectric film 21 height.Interelectrode creep age distance is greatly improved, ensure that the reliability and electrically of product simultaneously Performance.

The above, specific embodiment only of the present utility model, but protection domain of the present utility model does not limit to In this, in technical scope disclosed by this utility model for any those of ordinary skill in the art, can be without creative labor The dynamic change or replacement expected, all should cover within protection domain of the present utility model.Therefore, protection model of the present utility model Enclose and be defined by the protection domain that claims are limited.

Claims (4)

1. a kind of stack bus bar being effectively increased creep age distance, described stack bus bar includes conductive layer and insulating barrier, described conduction Layer on be connected with first electrode and second electrode it is characterised in that：It is provided with dielectric film between described first electrode and second electrode, Described dielectric film is not parallel with described conductive layer, and the length of described dielectric film is more than the length of described first electrode and second electrode Degree.

2. a kind of stack bus bar being effectively increased creep age distance according to claim 1 it is characterised in that：Described dielectric film Perpendicular to described conductive layer.

3. a kind of stack bus bar being effectively increased creep age distance according to claim 2 it is characterised in that：Described dielectric film Side insulation strip is installed, described dielectric film is adhered to the side of described insulation strip.

4. a kind of stack bus bar being effectively increased creep age distance according to claim 1 it is characterised in that：Described dielectric film It is structure as a whole with insulating barrier.