CN215298887U - New energy extraction conducting bar - Google Patents

Abstract

The utility model discloses a new energy leading-out conducting bar, which comprises a conducting substrate, a first nickel sheet and a second nickel sheet; the conductive substrate is formed by punching a metal substrate and comprises a main body part, a vertical part and a horizontal part which are integrally formed and connected, wherein the main body part comprises a first flat plate part, an arch part and a second flat plate part which are sequentially integrally formed and connected; the vertical part is bent downwards and vertically and extends from the edge of one side of the second flat plate part; the horizontal part is bent outwards and horizontally and extends at the lower end edge of the vertical part; this first nickel piece and second nickel piece are all with conducting substrate welded fastening, through welding first nickel piece and second nickel piece on conducting substrate, can avoid chemical corrosion, the life of extension conducting substrate, also make conducting substrate need not to adopt the compound material of copper aluminium simultaneously, be favorable to reduce cost, conducting substrate's main part is by first flat board portion, arch portion and second flat board portion are constituteed moreover, can realize two battery parallel connection external circuit board, bring the facility for the installation and use.

Description

New energy extraction conducting bar

Technical Field

The utility model belongs to the technical field of new forms of energy battery technique and specifically relates to indicate a new forms of energy draws forth and leads electrical drainage.

Background

The new energy battery is a power supply for providing a power source for the tool, and is mainly applied to the industries of automobiles and motorcycles, industrial power systems, electric automobiles and electric bicycles. When the existing new energy battery is connected with a circuit board, the leading-out conducting bar is required to be used, the whole leading-out conducting bar is made of copper-aluminum composite materials, chemical corrosion is easily caused, and the service life of the leading-out conducting bar is shortened; the cost of the copper-aluminum composite material is high; in addition, the current lead-out conducting bar can only be used for connecting one battery with a circuit board, which brings inconvenience to installation and use. Therefore, there is a need for an improved extraction conductor bar.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a new energy extraction power strip, which can effectively solve the problems of short service life, high cost and inconvenient installation and use of the existing extraction power strip.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a new energy extraction conducting bar comprises a conducting substrate, a first nickel sheet and a second nickel sheet; the conductive substrate is formed by punching a metal substrate and comprises a main body part, a vertical part and a horizontal part which are integrally formed and connected, wherein the main body part comprises a first flat plate part, an arch part and a second flat plate part which are sequentially integrally formed and connected; the vertical part is bent downwards and vertically extends out from the edge of one side of the second flat plate part; the horizontal part is bent outwards and horizontally extends from the edge of the lower end of the vertical part; the first nickel sheet and the second nickel sheet are welded and fixed with the conductive substrate, the first nickel sheet completely covers one surface of the horizontal part and one surface of the vertical part, and the second nickel sheet completely covers the other surface of the horizontal part and the other surface of the vertical part.

Preferably, the upper surface of the first flat plate portion and the upper surface of the second flat plate portion are each concavely provided with a circular concave portion, a first through hole is formed in the center of the bottom surface of each circular concave portion, and the first through hole penetrates through the lower surface of the main body portion.

Preferably, the first through hole is a circular hole.

Preferably, a square concave portion is recessed on one side of the surface of the first flat plate portion.

Preferably, the arch portion is downwardly arched.

As a preferable scheme, a U-shaped open slot is formed at the bending connection position between the horizontal part and the vertical part.

Preferably, two second through holes are formed on the upper surface and the lower surface of the horizontal portion at intervals in a penetrating manner, and the two second through holes are round holes.

Preferably, the inner diameter of each second through hole is larger than the inner diameter of each first through hole.

As a preferable scheme, the first nickel plate is provided with two third through holes, each third through hole and each second through hole are identical in size and shape and are in opposite communication with each other, the second nickel plate is provided with two fourth through holes, and each fourth through hole and each second through hole are identical in size and shape and are in opposite communication with each other.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

through the skin weld at conducting substrate has first nickel piece and second nickel piece, can avoid arousing chemical corrosion, the life of extension conducting substrate, also make conducting substrate need not to adopt the compound material of copper aluminium simultaneously, be favorable to reduce cost, conducting substrate's main part comprises first flat board portion, arch portion and the flat board portion of second moreover, make the electrode of two batteries can be connected simultaneously to this product, realize two battery parallel connection and insert external circuit board, use for the installation and bring the facility.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an assembled perspective view of a preferred embodiment of the present invention;

FIG. 2 is another perspective view of the preferred embodiment of the present invention;

FIG. 3 is a top view of the preferred embodiment of the present invention;

fig. 4 is a cross-sectional view of a preferred embodiment of the invention.

The attached drawings indicate the following:

10. conductive substrate 11 and main body

12. Vertical part 13, horizontal part

111. First flat plate part 112, arch part

113. Second plate part 101, circular concave position

102. First through hole 103, square concave position

104. Open groove 105, second through hole

20. First nickel sheet 21 and third through hole

30. A second nickel sheet 31 and a fourth through hole.

Detailed Description

Referring to fig. 1 to 4, a specific structure of a preferred embodiment of the present invention is shown, which includes a conductive substrate 10, a first nickel plate 20 and a second nickel plate 30.

The conductive substrate 10 is formed by punching a metal substrate, and comprises a main body part 11, a vertical part 12 and a horizontal part 13 which are integrally formed and connected, wherein the main body part 11 comprises a first flat plate part 111, an arch part 112 and a second flat plate part 113 which are sequentially integrally formed and connected; the vertical portion 12 is bent and extended downward and vertically from one side edge of the second flat plate portion 113; the horizontal part 13 is bent outwards and horizontally extends from the edge of the lower end of the vertical part 12; in this embodiment, the upper surface of the first flat plate portion 111 and the upper surface of the second flat plate portion 113 are both concavely provided with circular concave portions 101, the centers of the bottom surfaces of the circular concave portions 101 are both provided with first through holes 102, and the first through holes 102 penetrate through to the lower surface of the main body portion 11 and the first through holes 102 are circular holes; a square concave position 103 is concavely arranged on one side of the surface of the first flat plate part 111; the arch portion 112 is arched downward; a U-shaped opening groove 104 is formed at the bending connection position between the horizontal part 13 and the vertical part 12, two second through holes 105 arranged at intervals are formed in the upper surface and the lower surface of the horizontal part 13 in a penetrating mode, the two second through holes 105 are round holes, and the inner diameter of each second through hole 105 is larger than that of each first through hole 102.

The first nickel sheet 20 and the second nickel sheet 30 are welded and fixed with the conductive substrate 10, the first nickel sheet 20 completely covers one surface of the horizontal part 13 and one surface of the vertical part 12, and the second nickel sheet 30 completely covers the other surface of the horizontal part 13 and the other surface of the vertical part 12; in this embodiment, the first nickel plate 20 is provided with two third through holes 21, and each third through hole 21 and each second through hole 105 have the same size and shape and are in opposite communication with each other; the second nickel sheet 30 is provided with two fourth through holes 31, and each fourth through hole 31 and each second through hole 105 have the same size and shape and are in opposite communication with each other.

Detailed description the manufacturing process of this embodiment is as follows:

firstly, taking a metal substrate, carrying out punching continuous die blanking on the metal substrate to obtain a flat conductive substrate 10, and simultaneously forming a circular concave position 101, a first through hole 102, a square concave position 103, an open slot 104, a second through hole 105, a third through hole 21 and a fourth through hole 31; secondly, carrying out IPQC inspection on the conductive substrate 10; thirdly, cleaning the conductive substrate 10 by using CT-206 acidic degreasing cleaning agent; fourthly, cutting the first nickel sheet 20 and the second nickel sheet 30, and welding the first nickel sheet 20 and the second nickel sheet 30 on the corresponding positions of the conductive substrate 10 by using a high molecular diffusion welding machine; fifthly, removing the excess materials of the first nickel sheet 20 and the second nickel sheet 30 by stamping and cutting, so that the edges of the first nickel sheet 20 and the second nickel sheet 30 are consistent with the edge shape of the conductive substrate 10; sixthly, stamping and bending the conductive substrate 10 to form a main body part 11, a vertical part 12 and a horizontal part 13; a seventh step of polishing the conductive substrate 10 by magnetic grinding to make the surface thereof frosted; and eighthly, cleaning and drying the conductive substrate 10 by ultrasonic waves to obtain a finished product, and finally inspecting and packaging.

The utility model discloses a design focus lies in:

through the skin weld at conducting substrate has first nickel piece and second nickel piece, can avoid arousing chemical corrosion, the life of extension conducting substrate, also make conducting substrate need not to adopt the compound material of copper aluminium simultaneously, be favorable to reduce cost, conducting substrate's main part comprises first flat board portion, arch portion and the flat board portion of second moreover, make the electrode of two batteries can be connected simultaneously to this product, realize two battery parallel connection and insert external circuit board, use for the installation and bring the facility.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (9)

1. A new energy extraction power strip is characterized in that: comprises a conductive substrate, a first nickel sheet and a second nickel sheet; the conductive substrate is formed by punching a metal substrate and comprises a main body part, a vertical part and a horizontal part which are integrally formed and connected, wherein the main body part comprises a first flat plate part, an arch part and a second flat plate part which are sequentially integrally formed and connected; the vertical part is bent downwards and vertically extends out from the edge of one side of the second flat plate part; the horizontal part is bent outwards and horizontally extends from the edge of the lower end of the vertical part; the first nickel sheet and the second nickel sheet are welded and fixed with the conductive substrate, the first nickel sheet completely covers one surface of the horizontal part and one surface of the vertical part, and the second nickel sheet completely covers the other surface of the horizontal part and the other surface of the vertical part.

2. The new energy extraction power bar of claim 1, wherein: the upper surface of the first flat plate part and the upper surface of the second flat plate part are both concavely provided with circular concave positions, the centers of the bottom surfaces of the circular concave positions are both provided with first through holes, and the first through holes penetrate through to the lower surface of the main body part.

3. The new energy extraction power bar of claim 2, wherein: the first through hole is a round hole.

4. The new energy extraction power bar of claim 1, wherein: one side of the surface of the first flat plate part is concavely provided with a square concave position.

5. The new energy extraction power bar of claim 1, wherein: the arch portion is arched downward.

6. The new energy extraction power bar of claim 1, wherein: and a U-shaped open slot is formed at the bending connection position between the horizontal part and the vertical part.

7. The new energy extraction power bar of claim 1, wherein: two second through holes which are arranged at intervals are formed in the upper surface and the lower surface of the horizontal part in a penetrating mode, and the two second through holes are round holes.

8. The new energy extraction power bar of claim 7, wherein: the inner diameter of each second through hole is larger than that of each first through hole.

9. The new energy extraction power bar of claim 7, wherein: the first nickel sheet is provided with two third through holes, each third through hole and each second through hole are identical in size and shape and are in opposite communication with each other, the second nickel sheet is provided with two fourth through holes, and each fourth through hole and each second through hole are identical in size and shape and are in opposite communication with each other.

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