CN218940568U

CN218940568U - Novel flat power supply connecting wire

Info

Publication number: CN218940568U
Application number: CN202223250248.2U
Authority: CN
Inventors: 罗小兵
Original assignee: Zhongshan Magnesium Electronics Co ltd
Current assignee: Dongguan Xin Magnesium Electronics Co ltd
Priority date: 2022-12-05
Filing date: 2022-12-05
Publication date: 2023-04-28
Anticipated expiration: 2032-12-05

Abstract

The utility model provides a novel flat power supply connecting wire, which comprises the following components: the device comprises a main joint, a plurality of taps and flat wire row groups corresponding to the taps one by one, wherein the upper end of each flat wire row group is electrically connected to the main joint, and the lower end of each flat wire row group is electrically connected to the tap one by one; the flat wire row group comprises a plurality of flat wire rows which are arranged side by side in parallel along the front-back direction; the flat wire row comprises a flexible insulating sleeve and a wire set, the wire set comprises a plurality of bare conductive wires, the bare conductive wires are spaced apart along the left-right direction and are arranged in parallel, the flexible insulating sleeve is integrally formed and coated on the wire set, and the flexible insulating sleeve is of a flat structure; the upper connecting section of the bare conductive wire is electrically connected to the main joint, and the upper connecting section is coated with an upper insulating sleeve; the lower connecting section of the bare conductive wire is electrically connected to the corresponding tapping joint, and the lower connecting section is coated with a lower insulating sleeve.

Description

Novel flat power supply connecting wire

Technical Field

The utility model relates to the technical field of conductive wire accessories of electronic products, in particular to a novel flat power supply connecting wire.

Background

With the rapid development of technology, computers are becoming increasingly popular. Most of the connecting conductive wires of computers in the current market among the internal components of the chassis mainly adopt scattered conductive wires, and the structure is rough and complex, so that the wiring of the conductive wires connected among the internal components of the chassis is extremely scattered, and the overall appearance is very affected. In addition, the wire is also in market, the bundled conductive wires are put together and then are covered by the woven mesh, but after the bundled conductive wires are covered by the woven mesh, the whole wire is very hard, so that the whole bending operation and wiring of the wire are very laborious and troublesome; and the conductive wires are required to be redispersed during processing operation, so that the operation is difficult, a large amount of working hours are wasted, the precise components are not realized when the conductive wires are scattered, the current is not distributed uniformly due to the resistance, and the burn-in phenomenon is caused.

To sum up, the existing connecting conductive wire has the problems that wires are scattered, wires are too hard, wires are laborious, the wires cannot be tidy and attractive, precise dispersion is difficult, burn-in is easy to cause and the like during wiring.

Therefore, there is a strong need for a new flat power connection wire to overcome the above-mentioned problems.

Disclosure of Invention

The embodiment of the utility model aims to provide a novel flat power supply connecting wire, which has the advantages of simple structure, easiness in bending operation, labor saving and convenience in wiring and convenience in accurate dispersion.

To achieve the above object, a first aspect of an embodiment of the present utility model provides a novel flat power connection wire, including: a main joint, a plurality of taps and flat wire row groups corresponding to the taps one by one,

the upper end of each flat wire row group is electrically connected to the total connector, and the lower end of each flat wire row group is electrically connected to the tap in a one-to-one correspondence manner;

the flat wire row group comprises a plurality of flat wire rows, and the flat wire rows are arranged in parallel along the front-back direction;

the flat wire row comprises a flexible insulating sleeve and a wire set, the wire set comprises a plurality of bare conductive wires, the bare conductive wires are spaced apart along the left-right direction and are arranged in parallel, the flexible insulating sleeve is integrally molded and coated on the wire set, and the flexible insulating sleeve is of a flat structure;

an upper connecting section extending upwards out of the upper end of the flexible insulating sleeve is formed at the upper end of the bare conductive wire, the upper connecting section is electrically connected to the main joint, and an upper insulating sleeve is coated on the upper connecting section;

the lower end of the bare conductive wire is provided with a lower connecting section which downwards extends out of the lower end of the flexible insulating sleeve, the lower connecting section is electrically connected to the corresponding tapping joint, and the lower connecting section is coated with a lower insulating sleeve.

Optionally, the total joint comprises a first base body and a plurality of first plugging columns formed by extending the top of the first base body vertically upwards, wherein first plugging channels which vertically penetrate are formed in the first plugging columns; first through channels which are communicated with the first plug-in channels in one-to-one vertical correspondence are formed in the first matrix.

Optionally, the novel flat power connection wire further comprises: the first conductive terminals are vertically arranged in the first through channels in a penetrating mode and are accommodated and positioned in the corresponding first inserting channels; the upper end of the upper connecting section stretches into the first penetrating channel, and the upper end of the upper connecting section is electrically connected to the lower end of the first conductive terminal.

Optionally, the front side of first base member is protruding to stretch forward to be formed with first elasticity support arm, the front end downwardly extending of first elasticity support arm is formed with first elasticity and presses the portion, first elasticity is pressing the portion and is elastic unsettled arrange in the front side of first base member, the upper end of first elasticity is pressing the portion upwards extends and is formed with first elasticity link arm, first elasticity link arm be elastic unsettled arrange in the front side of first grafting cylinder, the upper end of first elasticity link arm is protruding to stretch towards the rear side to be formed with first lock hook, the top of first lock hook rear side is formed with first guide inclined plane.

Optionally, the total joint comprises a first base body and a plurality of first plug-in columns formed by horizontally extending forward from the front side of the first base body, wherein first plug-in channels penetrating forward horizontally are formed in the first plug-in columns; first penetrating channels which are communicated with the rear ends of the first inserting channels in a one-to-one correspondence mode are formed in the first base body, and each first penetrating channel comprises a horizontal penetrating section and a vertical penetrating section which is communicated with the rear ends of the horizontal penetrating sections.

Optionally, the novel flat power connection wire further comprises: the first conductive terminals are in one-to-one correspondence with the first plugging channels, horizontally penetrate through the horizontal penetrating sections and are accommodated and positioned in the corresponding first plugging channels; the upper end of the upper connecting section penetrates through the vertical penetrating section and then bends forwards to horizontally penetrate into the horizontal penetrating section, and the upper end of the upper connecting section is electrically connected to the rear end of the first conductive terminal.

Optionally, the bottom of first base member front end is vertical to be protruding to stretch downwards to be formed with first elasticity support arm, the lower extreme downwardly extending of first elasticity support arm is formed with first elasticity and presses the portion, first elasticity press the portion be elastic unsettled arrange in the front side of first base member, the lower extreme of first elasticity support arm still horizontal forward extension be formed with first elasticity link arm, first elasticity link arm be elastic unsettled arrange in the below of first grafting cylinder, the front end of first elasticity link arm is protruding to be formed with first lock hook up, the top of first lock hook front side is formed with first guide slope.

Optionally, the tap comprises a second base body and a plurality of second plugging columns formed by extending the bottom of the second base body vertically downwards, wherein second plugging channels which vertically penetrate through are formed in the second plugging columns; and second penetrating channels which are vertically and correspondingly communicated with the second inserting channels one by one are formed in the second matrix.

Optionally, the novel flat power connection wire further comprises: the second conductive terminals are vertically arranged in the second through channels in a penetrating mode and are accommodated and positioned in the corresponding second inserting channels; the lower end of the lower connecting section stretches into the second penetrating channel and is electrically connected to the lower end of the second conductive terminal.

Optionally, the rear side of second base member is protruding to stretch backward and is formed with the second elastic support arm, the rear end of second elastic support arm upwards extends and is formed with second elasticity pressing part, second elasticity pressing part be elastic unsettled arrange in the rear side of second base member, the lower extreme downwardly extending of second elasticity pressing part is formed with the second elasticity link arm, the second elasticity link arm be elastic unsettled arrange in the rear side of second grafting cylinder, the lower extreme of second elasticity link arm is protruding to stretch forward and is formed with the second lock hook, the bottom of second lock hook front side is formed with the second guide inclined plane.

The novel flat power supply connecting wire comprises: the device comprises a main joint, a plurality of taps and flat wire row groups corresponding to the taps one by one, wherein the upper end of each flat wire row group is electrically connected to the main joint, and the lower end of each flat wire row group is electrically connected to the tap one by one; the flat wire row group comprises a plurality of flat wire rows which are arranged side by side in parallel along the front-back direction; the flat wire row comprises a flexible insulating sleeve and a wire set, the wire set comprises a plurality of bare conductive wires, the bare conductive wires are spaced apart along the left-right direction and are arranged in parallel, the flexible insulating sleeve is integrally formed and coated on the wire set, and the flexible insulating sleeve is of a flat structure; an upper connecting section extending upwards out of the upper end of the flexible insulating sleeve is formed at the upper end of the bare conductive wire, the upper connecting section is electrically connected to the main joint, and an upper insulating sleeve is coated on the upper connecting section; the lower end of the bare conductive wire is provided with a lower connecting section which extends downwards to the lower end of the flexible insulating sleeve, the lower connecting section is electrically connected to the corresponding tapping joint, and the lower connecting section is coated with a lower insulating sleeve. The structure is compact and simple, the flexible insulation sleeve is integrally molded and coated on the wire group, and the flexible insulation sleeve is of a flat structure. On the one hand, the scattered wiring of the bare conductive wires can be avoided, and the influence on the appearance is avoided. On the other hand, the flat wire row group has better flexibility, is easy to bend, and ensures that the whole bending operation and wiring are more labor-saving and convenient, and the wiring is more neat and attractive. Furthermore, the bare conductor wires are arranged side by side in parallel in a left-right direction at intervals, the flexible insulation sleeve is integrally formed and coated on the wire group, so that the bare conductor wires can be distributed neatly, and when the upper connecting sections or the lower connecting sections at the upper end and the lower end of the bare conductor wires are dispersed, accurate components can be more conveniently achieved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of a novel flat power connection wire according to an embodiment of the present utility model.

Fig. 2 is a schematic view of fig. 1 in another view with the rear side facing forward.

Fig. 3 is an exploded view of fig. 1.

Fig. 4 is an exploded view of fig. 2.

Fig. 5 is a schematic perspective view showing a combination of a flat wire row, a first conductive terminal and a second conductive terminal of a first embodiment of a novel flat power connection wire according to an embodiment of the present utility model.

Fig. 6 is a schematic combined perspective view of a second embodiment of a novel flat power connection wire according to an embodiment of the present utility model.

Fig. 7 is a schematic view of fig. 6 in another view with the rear side facing forward.

Fig. 8 is an exploded view of fig. 6.

Fig. 9 is an exploded view of fig. 7.

Fig. 10 is a schematic perspective view showing a combination of a flat wire row, a first conductive terminal and a second conductive terminal in a second embodiment of a novel flat power connection wire according to an embodiment of the present utility model.

Detailed Description

The utility model will be further described with reference to the drawings and preferred embodiments, but the embodiments of the utility model are not limited thereto.

Referring to fig. 1 to 5, a novel flat power connection wire 100 according to a first embodiment of the present application is shown, where the novel flat power connection wire 100 of the present embodiment includes: the connector comprises a main connector 10, a plurality of taps 20 and flat wire row groups 30 corresponding to the taps 20 one by one, wherein the upper end of each flat wire row group 30 is electrically connected to the main connector 10, and the lower end of each flat wire row group 30 is electrically connected to the tap 20 one by one, so that the branching function is realized. In detail, the flat wire array set 30 includes a plurality of flat wire arrays (not shown in the drawing), and the flat wire arrays are arranged side by side in parallel along the front-rear direction, so that the structural layout is simpler and more reasonable. The flat conductor bar comprises a flexible insulating sleeve 311 and a conductor set (not labeled in the figure), wherein the conductor set comprises a plurality of bare conductor wires (not labeled in the figure), the bare conductor wires are arranged side by side in parallel and spaced apart along the left-right direction, the flexible insulating sleeve 311 is integrally molded and coated on the conductor set, so that the bare conductor wires are uniformly fixed and coated in the flexible insulating sleeve 311, and the conductive short circuit between the bare conductor wires can be avoided. And the flexible insulating sleeve 311 is flat structure, and the compliance is better, and the bending operation is more convenient laborsaving, can be according to the flexible bending of wiring requirement, is more convenient for the wiring. The upper end of the bare conductor is formed with an upper connection section 3121a extending upwardly beyond the upper end of the flexible insulation sleeve 311, the upper connection section 3121a is electrically connected to the main joint 10, and the upper connection section 3121a is covered with an upper insulation sleeve 3122 to insulate and protect the upper connection section 3121a exposed outside the flexible insulation sleeve 311. The lower end of the bare conductor is formed with a lower connection section 3121b extending downward beyond the lower end of the flexible insulation sleeve 311, the lower connection section 3121b is electrically connected to the corresponding tap 20, and the lower connection section 3121b is covered with a lower insulation sleeve 3123 to insulate and protect the lower connection section 3121b exposed outside the flexible insulation sleeve 311. The structure is compact and simple, the flexible insulation sleeve 311 is integrally molded and coated on the wire set, and the flexible insulation sleeve 311 is of a flat structure. On the one hand, the scattered wiring of the bare conductive wires can be avoided, and the influence on the appearance is avoided. On the other hand, the flat wire array group 30 has better flexibility, is easy to bend, and has more labor-saving and convenient overall bending operation and wiring, and the wiring is tidier and more attractive. Furthermore, the bare conductor wires are arranged side by side in parallel in a left-right direction at intervals, the flexible insulating sleeve 311 is integrally formed and coated on the wire group, so that the bare conductor wires can be distributed neatly, and when the upper connection section 3121a or the lower connection section 3121b at the upper end and the lower end of the bare conductor wires are dispersed, accurate components can be more conveniently achieved, the operation is more convenient, the working time is saved, in addition, the phenomenon that the resistance caused by inaccurate dispersion cannot be even can be avoided, the current distribution is ensured to be even, and the burn-in phenomenon is prevented. Specifically, the following are:

with continued reference to fig. 1 to 5, in the present embodiment, the total connector 10 includes a first base 11 and a plurality of first plugging columns 12 formed by extending vertically upward from the top of the first base 11, wherein first plugging channels 121 are formed in the first plugging columns 12; first through passages 111 are formed in the first base 11 and vertically communicate with the first plugging passages 121 one by one, that is, in this embodiment, the first plugging columns 12 and the first base 11 are parallel to each other, and the first plugging passages 121 and the first through passages 111 are also parallel to each other, so as to form a straight-bar-shaped total joint 10. Furthermore, the novel flat power connection wire 100 of the present embodiment further includes: the first conductive terminals 40 are in one-to-one correspondence with the first plugging channels 121, and the first conductive terminals 40 vertically penetrate through the first penetrating channels 111 and are accommodated and positioned in the corresponding first plugging channels 121. The upper end of the upper connection section 3121a protrudes into the first through channel 111, and the upper end of the upper connection section 3121a is electrically connected to the lower end of the first conductive terminal 40. Therefore, the upper connection section 3121a is electrically connected to the installation connection structure on the main joint 10, and the first plugging cylinder 12 can realize plugging fit with an external electronic device, and the first conductive terminal 40 can realize conductive connection with the external electronic device, so that the structure is simpler and more reasonable.

Referring to fig. 1 and 3, in the present embodiment, a first elastic supporting arm 122 is formed by protruding forward from the front side of the first base 11, a first elastic pressing portion 123 is formed by extending downward from the front end of the first elastic supporting arm 122, the first elastic pressing portion 123 is arranged on the front side of the first base 11 in an elastic suspended manner, a first elastic connecting arm 124 is formed by extending upward from the upper end of the first elastic pressing portion 123, the first elastic connecting arm 124 is arranged on the front side of the first plugging cylinder 12 in an elastic suspended manner, a first fastening hook 125 is formed by protruding backward from the upper end of the first elastic connecting arm 124, and a first guiding inclined plane 126 is formed on the top of the rear side of the first fastening hook 125. When the main connector 10 is plugged into an external electronic device, the corresponding buckling part on the electronic device can be hooked by the first buckling hook 125 on the first elastic connecting arm 124, so that the main connector 10 is prevented from accidentally loosening and falling, and the plugging is more firm and reliable. Moreover, when the first fastening hook 125 enters the corresponding fastening part on the electronic device, the corresponding fastening part on the electronic device can push the first guiding inclined plane 126 to drive the first fastening hook 125 to elastically deform to avoid entering until the first fastening hook 125 completely enters the corresponding fastening part fastened on the electronic device, so that the first fastening hook 125 can smoothly enter the corresponding fastening part on the electronic device, and the structure is more reasonable and labor-saving. If the total connector 10 needs to be detached from an external electronic device, the first elastic pressing portion 123 is pressed backwards to generate elastic deformation, so that the first elastic connecting arm 124 is driven to drive the first buckling hook 125 to elastically swing forwards to be separated from a corresponding buckling position on the electronic device, and the total connector 10 can be pulled out from the external electronic device, so that the pulling-out operation is simpler and more convenient, and the structure is more reasonable.

Referring to fig. 2 and 4, the tap 20 of the present embodiment includes a second base 21 and a plurality of second plugging columns 22 formed by extending vertically downward from the bottom of the second base 21, wherein a second plugging channel 221 is formed in each of the second plugging columns 22; second through passages 211 are formed in the second base 21 in one-to-one vertical correspondence with the second plugging passages 221. Furthermore, the novel flat power connection wire 100 of the present embodiment further includes: the second conductive terminals 50 are in one-to-one correspondence with the second plugging channels 221, and the second conductive terminals 50 vertically penetrate through the second penetrating channels 211 and are accommodated and positioned in the corresponding second plugging channels 221. The lower end of the lower connection section 3121b extends into the second through-channel 211 and is electrically connected to the lower end of the second conductive terminal 50. Thereby realizing the installation connection structure that the lower connection section 3121b is electrically connected to the tap 20, and the second plugging cylinder 22 can realize plugging fit with external electronic devices, and the second conductive terminal 50 can realize conductive connection with external electronic devices, so that the structure is simpler and more reasonable.

Referring to fig. 2 and 4, in the present embodiment, a second elastic supporting arm 212 is formed by protruding the rear side of the second base 21 backward, a second elastic pressing portion 213 is formed by extending the rear end of the second elastic supporting arm 212 upward, the second elastic pressing portion 213 is arranged at the rear side of the second base 21 in an elastic suspended manner, a second elastic connecting arm 214 is formed by extending the lower end of the second elastic pressing portion 213 downward, the second elastic connecting arm 214 is arranged at the rear side of the second plugging cylinder 22 in an elastic suspended manner, a second fastening hook (not shown) is formed by protruding the lower end of the second elastic connecting arm 214 forward, and a second guiding inclined surface 216 is formed at the bottom of the front side of the second fastening hook. When the tap 20 is plugged into an external electronic device, the corresponding buckling part on the electronic device can be hooked by the second buckling hook on the second elastic connecting arm 214, so that the tap 20 is prevented from accidentally loosening and falling, and the plugging is more firm and reliable. Moreover, when the second fastening hook enters the corresponding fastening part on the electronic device, the corresponding fastening part on the electronic device can push the second guiding inclined plane 216 to drive the second fastening hook to elastically deform to avoid entering until the second fastening hook completely enters the corresponding fastening part fastened on the electronic device, so that the second fastening hook can smoothly enter the corresponding fastening part on the electronic device, and the structure is more reasonable and labor-saving. If the tap 20 needs to be detached from an external electronic device, the second elastic pressing portion 213 is pressed backwards to elastically deform, so that the second elastic connecting arm 214 is driven to drive the second fastening hook to elastically swing forwards to separate from the corresponding fastening portion on the electronic device, and the tap 20 can be pulled out from the external electronic device, so that the pulling-out operation is simpler and more convenient, and the structure is more reasonable.

Referring to fig. 6 to 10, a novel flat power connection wire 100 'according to a second embodiment of the present application is shown, and the novel flat power connection wire 100' according to the present embodiment has substantially the same structure as the novel flat power connection wire 100 according to the first embodiment, and differs from the novel flat power connection wire 100 according to the first embodiment only in that:

in the present embodiment, the total connector 10 'includes a first base 11' and a plurality of first plugging columns 12 'formed by extending the front side of the first base 11' horizontally and forwards, wherein the first plugging columns 12 'are each formed with a first plugging channel 121' extending horizontally and forwards; first through channels (not shown) which are communicated with the rear ends of the first inserting channels 121 ' in a one-to-one correspondence manner are formed in the first base body 11 ', and each first through channel comprises a horizontal through section (not shown) and a vertical through section 1112 ' communicated with the rear ends of the horizontal through sections. That is, in the present embodiment, the first plugging columns 12 'are perpendicular to the first base 11', the first plugging channels 121 'are parallel to the horizontal penetrating sections of the first penetrating channels, and the first plugging channels 121' are perpendicular to the vertical penetrating sections 1112 'of the first penetrating channels, so that the rectangular total joint 10' is formed. Furthermore, the novel flat power connection wire 100' of the present embodiment further includes: the first conductive terminals 40 ' which are in one-to-one correspondence with the first inserting channels 121 ' horizontally penetrate into the horizontal penetrating section and are accommodated and positioned in the corresponding first inserting channels 121 '; the upper end of the upper connection section 3121a penetrates through the vertical penetrating section 1112 'and then is bent forward to horizontally penetrate into the horizontal penetrating section, and the upper end of the upper connection section 3121a is electrically connected to the rear end of the first conductive terminal 40'. Therefore, the upper connection section 3121a is electrically connected to the mounting connection structure on the main joint 10 ', the first plug-in column 12 ' can realize plug-in connection with an external electronic device, the first conductive terminal 40 ' can realize conductive connection with the external electronic device, and the plug-in connection requirement of 90-degree bending can be met, so that the structure is simpler and more reasonable.

Referring to fig. 6 and 8, in the present embodiment, a first elastic supporting arm 122 'is formed by vertically extending downward from the bottom of the front end of the first base 11', a first elastic pressing portion 123 'is formed by extending downward from the lower end of the first elastic supporting arm 122', the first elastic pressing portion 123 'is elastically suspended on the front side of the first base 11', a first elastic connecting arm 124 'is also formed by extending horizontally and forward from the lower end of the first elastic supporting arm 122', the first elastic connecting arm 124 'is elastically suspended below the first plugging cylinder 12', a first fastening hook 125 'is formed by extending upward from the front end of the first elastic connecting arm 124', and a first guiding inclined surface 126 'is formed on the top of the front side of the first fastening hook 125'. In this embodiment, when the main connector 10 'is plugged into an external electronic device, the corresponding buckling part on the electronic device can be hooked by the first buckling hook 125' on the first elastic connecting arm 124 ', so that the main connector 10' is prevented from accidentally loosening and falling, and the plugging is more firm and reliable. Moreover, when the first fastening hook 125 ' enters the corresponding fastening part on the electronic device, the corresponding fastening part on the electronic device can push the first guiding inclined plane 126 ' to drive the first fastening hook 125 ' to elastically deform to avoid entering until the first fastening hook 125 ' completely enters the corresponding fastening part fastened on the electronic device, so that the first fastening hook 125 ' can more smoothly enter the corresponding fastening part on the electronic device, and the structure is more reasonable and labor-saving. If the main connector 10 ' needs to be detached from an external electronic device, the first elastic pressing portion 123 ' is pressed backwards to elastically deform, so that the first elastic connecting arm 124 ' is driven to drive the first buckling hook 125 ' to elastically deform downwards to be separated from a corresponding buckling position on the electronic device, and the main connector 10 ' can be pulled out from the external electronic device, so that the pulling-out operation is simpler and more convenient, and the structure is more reasonable.

Except for the above differences, other structures are the same as those of the novel flat power connection wire 100 of the first embodiment, and thus, the description thereof will not be repeated here.

Since the novel flat power connection line 100, 100' of the present utility model includes: the device comprises a main joint 10, 10 ', a plurality of taps 20 and flat wire row groups 30 corresponding to the taps 20 one by one, wherein the upper end of each flat wire row group 30 is electrically connected to the main joint 10, 10', and the lower end of each flat wire row group 30 is electrically connected to the tap 20 one by one; the flat wire row group 30 includes a plurality of flat wire rows arranged side by side in parallel with each other in the front-rear direction; the flat wire row comprises a flexible insulating sleeve 311 and a wire set, the wire set comprises a plurality of bare conductive wires, the bare conductive wires are spaced apart along the left-right direction and are arranged in parallel, the flexible insulating sleeve 311 is integrally molded and coated on the wire set, and the flexible insulating sleeve 311 is of a flat structure; the upper end of the bare conductive wire is provided with an upper connection section 3121a extending upwards from the upper end of the flexible insulation sleeve 311, the upper connection section 3121a is electrically connected to the main joint 10, 10', and the upper connection section 3121a is covered with an upper insulation sleeve 3122; the lower end of the bare conductor is formed with a lower connection section 3121b extending downward beyond the lower end of the flexible insulation sleeve 311, the lower connection section 3121b is electrically connected to the corresponding tap 20, and the lower connection section 3121b is covered with a lower insulation sleeve 3123. The structure is compact and simple, the flexible insulation sleeve 311 is integrally molded and coated on the wire set, and the flexible insulation sleeve 311 is of a flat structure. On the one hand, the scattered wiring of the bare conductive wires can be avoided, and the influence on the appearance is avoided. On the other hand, the flat wire array group 30 has better flexibility, is easy to bend, and has more labor-saving and convenient overall bending operation and wiring, and the wiring is tidier and more attractive. Furthermore, the bare conductor wires are arranged side by side in parallel in a left-right direction at intervals, the flexible insulating sleeve 311 is integrally formed and coated on the wire group, so that the bare conductor wires can be distributed neatly, and when the upper connection section 3121a or the lower connection section 3121b at the upper end and the lower end of the bare conductor wires are dispersed, accurate components can be more conveniently achieved, the operation is more convenient, the working time is saved, in addition, the phenomenon that the resistance caused by inaccurate dispersion cannot be even can be avoided, the current distribution is ensured to be even, and the burn-in phenomenon is prevented.

The present utility model has been described above in connection with the embodiments, but the present utility model is not limited to the embodiments disclosed above, but it is intended to cover various modifications, equivalent combinations according to the essence of the present utility model.

Claims

1. A novel flat power connection wire, comprising: a main joint, a plurality of taps and flat wire row groups corresponding to the taps one by one,

2. The novel flat power connection wire according to claim 1, wherein the total connector comprises a first base body and a plurality of first plug-in columns formed by vertically extending upwards from the top of the first base body, and first plug-in channels vertically penetrating through the first plug-in columns are formed in the first plug-in columns; first through channels which are communicated with the first plug-in channels in one-to-one vertical correspondence are formed in the first matrix.

3. The novel flat power connection wire of claim 2, further comprising: the first conductive terminals are vertically arranged in the first through channels in a penetrating mode and are accommodated and positioned in the corresponding first inserting channels; the upper end of the upper connecting section stretches into the first penetrating channel, and the upper end of the upper connecting section is electrically connected to the lower end of the first conductive terminal.

4. The novel flat power connection wire according to claim 2, wherein a first elastic supporting arm is formed by protruding forward of the front side of the first base body, a first elastic pressing portion is formed by extending downward of the front end of the first elastic supporting arm, the first elastic pressing portion is elastically suspended on the front side of the first base body, a first elastic connecting arm is formed by extending upward of the upper end of the first elastic pressing portion, the first elastic connecting arm is elastically suspended on the front side of the first plugging cylinder, a first buckling hook is formed by protruding backward of the upper end of the first elastic connecting arm, and a first guiding inclined plane is formed at the top of the rear side of the first buckling hook.

5. The novel flat power connection wire according to claim 1, wherein the total connector comprises a first base body and a plurality of first plug-in columns formed by horizontally extending forward from the front side of the first base body, and first plug-in channels penetrating horizontally forward are formed in the first plug-in columns; first penetrating channels which are communicated with the rear ends of the first inserting channels in a one-to-one correspondence mode are formed in the first base body, and each first penetrating channel comprises a horizontal penetrating section and a vertical penetrating section which is communicated with the rear ends of the horizontal penetrating sections.

6. The novel flat power connection wire of claim 5, further comprising: the first conductive terminals are in one-to-one correspondence with the first plugging channels, horizontally penetrate through the horizontal penetrating sections and are accommodated and positioned in the corresponding first plugging channels; the upper end of the upper connecting section penetrates through the vertical penetrating section and then bends forwards to horizontally penetrate into the horizontal penetrating section, and the upper end of the upper connecting section is electrically connected to the rear end of the first conductive terminal.

7. The novel flat power connection wire according to claim 5, wherein a first elastic supporting arm is formed by vertically protruding downwards from the bottom of the front end of the first base body, a first elastic pressing portion is formed by extending downwards from the lower end of the first elastic supporting arm, the first elastic pressing portion is arranged on the front side of the first base body in an elastic suspended mode, a first elastic connecting arm is formed by extending forwards from the lower end of the first elastic supporting arm in a horizontal mode, the first elastic connecting arm is arranged below the first plugging column in an elastic suspended mode, a first buckling hook is formed by protruding upwards from the front end of the first elastic connecting arm, and a first guiding inclined plane is formed on the top of the front side of the first buckling hook.

8. The novel flat power connection line according to any one of claims 1 to 7, wherein the tap comprises a second base body and a plurality of second plugging columns formed by extending vertically downwards from the bottom of the second base body, wherein second plugging channels penetrating vertically are formed in the second plugging columns; and second penetrating channels which are vertically and correspondingly communicated with the second inserting channels one by one are formed in the second matrix.

9. The novel flat power connection wire of claim 8, further comprising: the second conductive terminals are vertically arranged in the second through channels in a penetrating mode and are accommodated and positioned in the corresponding second inserting channels; the lower end of the lower connecting section stretches into the second penetrating channel and is electrically connected to the lower end of the second conductive terminal.

10. The novel flat power connection wire according to claim 9, wherein a second elastic supporting arm is formed by extending the rear side of the second base backward, a second elastic pressing portion is formed by extending the rear end of the second elastic supporting arm upward, the second elastic pressing portion is arranged on the rear side of the second base in an elastic suspended manner, a second elastic connecting arm is formed by extending the lower end of the second elastic pressing portion downward, the second elastic connecting arm is arranged on the rear side of the second plugging cylinder in an elastic suspended manner, a second buckling hook is formed by extending the lower end of the second elastic connecting arm forward, and a second guiding inclined plane is formed at the bottom of the front side of the second buckling hook.