CN2819401Y - Lined wires with expanded structure - Google Patents

Abstract

The utility model relates to a rowed wires with expanded structure, which comprises a first rowed wire part and a second rowed wire part, wherein the first rowed wire part is connected with the second rowed wire part; the first rowed wire part and the second rowed wire part have unequal width; a covering body is covered between the first rowed wire part and the second rowed wire part in an extrusion shaping method. Thereby, the rowed wire can be directly connected with various connectors with different specifications or width. The utility model reduces the arrangement cost of connecting commutators, avoids bad contact phenomena and can simplify the integral structure of the rowed wire.

Description

Winding displacement with expansion structure

Technical field

The utility model relates to a kind of winding displacement with expansion structure, relate in particular to a kind of winding displacement that is used for inserting connection for the connector of various different sizes, can reduce the cost that is provided with of adapter switching thus, avoid the phenomenon of loose contact, and can significantly simplify the winding displacement overall structure.

Background technology

Because electronic product is accurate day by day, the structure of computer, motor is more and more meticulousr, winding displacement is applied to above-mentioned needs to be transmitted in the occasion of signal, can make operator or user can promptly realize assembling work with electric connector when mounted, and, make computer, motor internal configuration space neat, heat radiation easily by arranging the winding displacement design of shape structure, or be easy to maintain, can also keep the good signal transmission effect.

The known connection that is used for the connector of different size (or width), as shown in Figure 1, it mainly comprises the first winding displacement 11a, the second winding displacement 12a, the first connector 13a, the second connector 14a and adapter 15a.Wherein, the width of the first winding displacement 11a is less than the width of the second winding displacement 12a, and the first connector 13a and the second connector 14a are different size, and it is connected to the end of the first winding displacement 11a and the second winding displacement 12a, two ends by adapter 15a combine with the first connector 13a and the second connector 14a grafting respectively, constitute the combining structure of winding displacement and connector thus.

Yet, there is following defective in the combining structure of known winding displacement and connector, its switching of passing through adapter 15a is with the connector 13a that realizes different size, the electrical connection of 14a, through switching process repeatedly, with a large amount of losses of the electric energy that this winding displacement is transmitted, and between adapter 15a and connector 13a, 14a, produce the phenomenon of loose contact easily; In addition, because its constituent components complexity is various, not only increases the cost that is provided with of assembly, and also will occupy most of effectively usage space after the assembling, thereby can not be applied on the electronic product of microminiaturization day by day or slimming, therefore significantly limit its practicality and used category.

The design people is in view of the defective that exists in the above-mentioned prior art, rely on the sector experience for many years of being engaged in, at carrying out improvements, through concentrating on studies and cooperating actual utilization, in line with excelsior spirit, propose a kind of reasonable in design and effectively improve the utility model of the problems referred to above.

Content of the present utility model

In order to reduce the cost that is provided with of adapter switching, avoided the phenomenon of loose contact, main purpose of the present utility model is to provide a kind of winding displacement with expansion structure, and this winding displacement with expansion structure comprises: first winding displacement part and second winding displacement part that is connected with first winding displacement part; The width of this first winding displacement part and second winding displacement part is unequal, coats in the extrusion molding mode to be formed with cladding between this first winding displacement part and second winding displacement part.

The utility model is by extruding coating to the unequal winding displacement of two width, this winding displacement can directly be connected with the connector of various different sizes (or width), to reduce the cost that is provided with of adapter switching thus, avoided the phenomenon of loose contact, and can significantly simplify the winding displacement overall structure.

Preferably, the two ends of this winding displacement are connected with the connector of two kinds of different sizes respectively.

Preferably, the width of this first winding displacement part is greater than the width of this second winding displacement part.

Preferably, the width of this first winding displacement part is less than the width of this second winding displacement part.

Preferably, this first winding displacement part and this second winding displacement part comprise many heart yearns and the insulator that coats each above-mentioned heart yearn respectively; Wherein, the heart yearn radical of this first winding displacement part equates with the heart yearn radical of this second winding displacement part.

Preferably, this heart yearn is single copper cash, Copper Foil or connects any that combines by many flat coppers skein silk.

Preferably, this cladding is coated between this first winding displacement part and second winding displacement part in the extrusion molding mode.

Preferably, this cladding is made of Teflon (PTFE) material.

Brief description of drawings

Fig. 1 is the three-dimensional exploded view of known winding displacement and connector;

Fig. 2 is the stereo appearance figure of the utility model first embodiment;

Fig. 3 is the assembled sectional view of the utility model first embodiment;

Fig. 4 is applied to the combination schematic diagram of connector for the utility model;

Fig. 5 is the assembled sectional view of the utility model second embodiment;

Fig. 6 is the assembled sectional view of the utility model the 3rd embodiment.

In the accompanying drawing, the list of parts of each label representative is as follows:

11a-first winding displacement

12a-second winding displacement

13a-first connector

14a-second connector

The 15a-adapter

The 1-winding displacement

11-first winding displacement part 111, the 121-heart yearn

112,122-insulator 12-second winding displacement part

The 21-cladding

3-first connector

31-housing 32-Plug Division

The 33-upper shield

4-second connector

Embodiment

Relevant feature of the present utility model and technology contents now are described in conjunction with the accompanying drawings, and accompanying drawing only provides reference and explanation, is not to be used for the utility model is limited.

Fig. 2, Fig. 3 are respectively stereo appearance figure and the assembled sectional view of the utility model first embodiment.As Fig. 2, shown in Figure 3, the utility model provides a kind of winding displacement with expansion structure, and winding displacement 1 mainly comprises: first winding displacement part 11 and second winding displacement part 12 that is connected with first winding displacement part 11; The width of first winding displacement part 11 and second winding displacement part 12 is unequal, coats in the extrusion molding mode to be formed with cladding 21 between first winding displacement part 11 and second winding displacement part 12; Constitute bus-bar construction of the present utility model thus.

Wherein, the width of first winding displacement part 11 can be greater than or less than the width of second winding displacement part 11, the insulator 112 that first winding displacement part 11 comprises many heart yearns 111 and is coated on each heart yearn 111; The insulator 122 that second winding displacement part 12 also comprises many heart yearns 121 and is coated on each heart yearn 121.Heart yearn 111 radicals of first winding displacement part 11 equate with heart yearn 121 radicals of second winding displacement part 12, and each heart yearn 111,121 is made by the metal material with satisfactory electrical conductivity, it can be single copper cash, Copper Foil or connect the arbitrary form that combines by many flat coppers skein silk that present embodiment is single copper cash.

In addition, cladding 21 can be made of Teflon (PTFE) material, and this PTFE is not only quite good aspect wear-resisting, high-low temperature resistant, corrosion resistance, and it also has incombustibility, excellent electric characteristics (not changing with frequency and variations in temperature); There are not problem of aging, anti-aqueous vapor and ultraviolet ray; Have avirulence and extremely low coefficient of friction.

During making, each heart yearn 121 and insulator 122 strip ofves of second winding displacement part 12 are separated, and each heart yearn 121 and insulator 122 be arranged in the default mould, again the cladding 21 of molten is sent from extruder, be coated in the extrusion molding mode on the surface of each heart yearn 121 and insulator 122, thus winding displacement 1 structure of acquisition present embodiment.

Fig. 4 is applied to the combination schematic diagram of connector for the utility model.As shown in Figure 4, bus-bar construction of the present utility model can be used for being connected with first connector 3 and second connector 4 of two kinds of different sizes (or width).First connector 3 has housing 31, is provided with Plug Division 32 at the front end of housing 31, is provided with a plurality of conducting terminal (not shown)s in Plug Division 32.In addition, be connected with upper shield 33 at the rear of housing 31, the end of first winding displacement part 11 is located on the housing 31, clamps with upper shield 33 again and first connector 3 is fixedlyed connected with first winding displacement part 11, and make respectively that this conducting terminal is electrically connected with the heart yearn 121 of first winding displacement part 11; In like manner, thus second connector 4 also can interconnect with second winding displacement part 12 as mentioned above; Thus, being connected of winding displacement 1 of the present utility model and each connector 3,4 can be realized, reducing the phenomenon that cost and loose contact are set that needs in the known technology by the adapter switching, and the winding displacement overall structure can be significantly simplified.

Fig. 5 is the assembled sectional view of the utility model second embodiment.As shown in Figure 5, winding displacement 1 of the present utility model is except can the form for above-mentioned first embodiment, can also be with the tip insulator 112 of unequal first winding displacement part 11 of two width and second winding displacement part 12,122 divest, so that each heart yearn 111,121 expose, each heart yearn 111 with first winding displacement part 11 and second winding displacement part 12,121 hinge joints mutually, and be arranged in the default mould, again the cladding 21 of molten is sent from extruder, be coated on each heart yearn 111 in the extrusion molding mode, 121 and insulator 112, on 122 the surface, obtain winding displacement 1 structure of present embodiment thus.

Fig. 6 is the assembled sectional view of the utility model the 3rd embodiment.As shown in Figure 6, second winding displacement part 12 of winding displacement 1 of the present utility model can be directly molded on its terminal position, each heart yearn 121 and insulator 122 strip ofves of second winding displacement part 12 are separated, each insulator 122 is arranged in the default mould, be formed with cladding 21 in the extrusion molding mode again, cladding 21 will closely be coated on the surface of each insulator 122, and each heart yearn 121 is exposed in insulator 122 outsides, obtain winding displacement 1 structure of present embodiment thus.

In sum, winding displacement with expansion structure of the present utility model has practicality, novelty and creativeness, and structure of the present utility model not do not see in like product yet and do not have public use, meets the requirement of utility application, files an application according to Patent Law.

The above only is a preferred embodiment of the present utility model, be not so promptly limit claim of the present utility model, the equivalent structure transformation that every utilization the utility model specification and accompanying drawing content are done, directly or indirectly be used in other relevant technical field, all in like manner be included in the claim of the present utility model.

Claims (8)

1. the winding displacement with expansion structure is characterized in that, described winding displacement comprises:

First winding displacement part;

Second winding displacement part, it is connected with described first winding displacement part,

The width of described first winding displacement part and second winding displacement part is unequal, and is formed with cladding between described first winding displacement part and second winding displacement part.

2. the winding displacement with expansion structure as claimed in claim 1 is characterized in that the two ends of described winding displacement are connected with the connector of two kinds of different sizes respectively.

3. the winding displacement with expansion structure as claimed in claim 1 or 2 is characterized in that the width of the width of described first winding displacement part greater than described second winding displacement part.

4. the winding displacement with expansion structure as claimed in claim 1 or 2 is characterized in that the width of the width of described first winding displacement part less than described second winding displacement part.

5. the winding displacement with expansion structure as claimed in claim 1 is characterized in that described first winding displacement part and described second winding displacement part comprise many heart yearns and the insulator that coats each described heart yearn respectively.

6. the winding displacement with expansion structure as claimed in claim 5 is characterized in that the heart yearn radical of described first winding displacement part equates with the heart yearn radical of described second winding displacement part.

7. the winding displacement with expansion structure as claimed in claim 5 is characterized in that described heart yearn is single copper cash, Copper Foil or connects any that combines by many flat coppers skein silk.

8. the winding displacement with expansion structure as claimed in claim 1 is characterized in that described cladding is made of the Teflon material.

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