CN214313305U - Nickel-hydrogen power battery insulating ring assembly quality - Google Patents

Abstract

The utility model discloses a nickel-hydrogen power battery insulating ring assembling device, which comprises a bracket, wherein the upper end of the bracket is provided with a bottom plate, the upper end of the bottom plate is fixed with a battery storage box consisting of a plurality of storage bins which are distributed at equal intervals, and the lower parts of the storage bins are provided with a first discharge hole; the upper end of bottom plate is fixed with and is located the insulating circle temporary storage case that deposits the case and constitute by a plurality of temporary storage bins with the storage bin one-to-one, and insulating circle temporary storage case and battery deposit the length that the distance between the case is greater than the battery, open the left lower part in temporary storage bin has the second discharge gate that corresponds with first discharge gate, the upper end of bottom plate is installed and is expected the subassembly by reciprocating sliding, and the material pushing end that pushes away material the subassembly is fixed with the electro-magnet of adaptation, the bottom plate is opened a plurality of feed openings that are located between battery storage case and the insulating circle temporary storage case, and this neotype effect does: the insulating ring of equipment that can be convenient fast has avoided staff's finger to receive the injury simultaneously.

Description

Nickel-hydrogen power battery insulating ring assembly quality

Technical Field

The utility model relates to a nickel-hydrogen power battery insulating ring assembly quality belongs to battery insulating ring assembly technical field.

Background

Since the 21 st century, the demand for energy conservation and emission reduction is rising day by day, the stable growth of world economy and the sustainable development of human society are urgently needed to develop novel energy and improve an energy utilization mode, and the nickel-hydrogen power battery has the characteristics of high specific power, large current charge and discharge, no pollution, good safety performance and the like, and has wide application prospects in the aspects of portable electric appliances, electric vehicles, hybrid electric vehicles, railway vehicles and the like.

Insulating circle is nickel-hydrogen power battery's important component, its effect prevents to open a circuit between battery and the battery, when the equipment of nickel-hydrogen power battery group, must assemble the insulating circle on every battery, the equipment of present battery insulating circle is manual operation, press the insulating circle on the battery, because insulating circle is identical inseparable with the battery top, consequently relatively hard when artifical when pressing the insulating circle to the battery, not only reduce production efficiency, influence the work progress, moreover, staff operating time is long afterwards, also have certain injury to staff's finger.

Disclosure of Invention

An object of the utility model is to provide a nickel-hydrogen power battery insulating ring assembly quality, the equipment insulating ring that can be convenient fast has not only reduced staff's intensity of labour, has avoided staff's finger to receive the injury, has accelerated the production progress moreover.

The utility model adopts the technical scheme as follows: the nickel-hydrogen power battery insulating ring assembling device comprises a support, wherein a bottom plate is fixed at the upper end of the support, a battery storage box consisting of a plurality of storage bins distributed at equal intervals is fixed at the upper end of the bottom plate, and a first discharge hole which is communicated from left to right is formed in the lower part of each storage bin; the upper end of the bottom plate is fixedly provided with an insulating ring temporary storage box which is positioned right to the battery storage box and consists of a plurality of temporary storage bins corresponding to the storage bins one by one, the distance between the insulating ring temporary storage box and the battery storage box is greater than the length of the battery, the left lower part of the temporary storage bin is provided with a second discharge port corresponding to the first discharge port, the inner left end of the insulating ring temporary storage box is provided with a through hole which is communicated left and right and is concentric with the second discharge port, the upper end of the bottom plate is provided with a material pushing assembly capable of sliding in a reciprocating manner, the material pushing end of the material pushing assembly is fixedly provided with an adaptive electromagnet, the material pushing assembly is connected with a reciprocating mechanism capable of driving the material pushing assembly to slide in a reciprocating manner, the bottom plate is provided with a plurality of discharge ports positioned between the battery storage box and the insulating ring temporary storage box, the electromagnet adsorbs the battery when being electrified, and can push the batteries in the plurality of storage bins into the temporary storage bins to be connected with the insulating ring when the electromagnet moves rightwards, and when the electromagnet moves leftwards to drive the battery to be between the storage box and the temporary storage box, the electromagnet is powered off, and the battery falls down from the feed opening.

Preferably, the plurality of storage bins and the plurality of temporary storage bins are of a hollow structure without a top.

Preferably, the material pushing assembly comprises a connecting rod connected with the bottom plate in a sliding manner, a plurality of push rods in one-to-one correspondence to the first discharge ports are fixed at the right end of the connecting rod, electromagnets are fixed at the right ends of the push rods, the right ends of the push rods can penetrate through the first discharge ports and can drive the electromagnets to move to the right side of the temporary storage box, and the connecting rod is of a rectangular ring groove structure;

reciprocating motion mechanism includes driving motor, driving motor passes through the mounting bracket to be fixed at the left end of storage box, and the vertical downward distribution of driving motor's output, driving motor's output is fixed with the connecting rod, and connecting rod rotatable coupling has the drive post, the drive post extends into the inside of rectangle annular.

Further, the push rod is of a cylindrical structure, the electromagnet is of a disc-shaped structure, and the outer diameter of the push rod and the outer diameter of the electromagnet are equal to the outer diameter of the battery.

Preferably, a plurality of discharging pipes which correspond to the discharging openings one by one are fixed at the bottom of the bottom plate, and a collecting box is arranged on the lower side of each discharging pipe.

Preferably, the second discharge hole is of a circular structure, and the outer diameter of the second discharge hole is equal to that of the insulating ring.

Preferably, the bottom of the storage bin is of a semicircular structure matched with the battery, and the bottom of the temporary storage bin is of a semicircular structure matched with the insulating ring.

Preferably, the battery storage box and the insulating ring temporary storage box are both provided with observation ports.

The beneficial effects of the utility model reside in that:

the utility model drives the pushing component to slide in a reciprocating way through the reciprocating motion mechanism, the electromagnet is fixed at the pushing end of the pushing component, when the pushing component moves rightwards, the electromagnet is electrified, when the electromagnet moves the pushing assembly rightwards, the electromagnet adsorbs the bottom of the battery, the top of the battery is pushed to the inside of the temporary storage bin, the insulating ring is pressed to the top of the battery, so that the battery is tightly matched with the insulating ring, the pushing assembly slides leftwards after the battery is tightly matched with the insulating ring, meanwhile, when the electromagnet moves leftwards to drive the battery to be between the electromagnetic storage box and the insulating ring temporary storage box, the electromagnet is powered off, the battery falls down from the feed opening and falls into the collection box, this device has replaced manual assembly's mode, has not only reduced staff's intensity of labour, has avoided staff's finger to receive the injury for the production progress has moreover accelerated, has improved the economic benefits of enterprise.

Drawings

Fig. 1 is a schematic view of the novel three-dimensional structure.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic view of the novel front view cross-section structure.

Fig. 4 is a schematic view of the novel three-dimensional partial structure.

In the figure: the device comprises a support 1, a bottom plate 2, a feed opening 2-1, a battery storage box 3, a storage bin 3-1, a first discharge opening 3-2, an insulating ring temporary storage box 4, a temporary storage bin 4-1, a second discharge opening 4-2, a through hole 4-3, a pushing assembly 5, a connecting rod 5-1, a push rod 5-2, an electromagnet 6, a reciprocating mechanism 7, a driving motor 7-1, a connecting rod 7-2, a driving column 7-3, a discharging pipe 8, an observation opening 9, an installation frame 10, a collection box 11, a battery 12 and an insulating ring 13.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings, which are only used for illustrating the technical solutions of the present invention and are not limited.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the nickel-hydrogen power battery insulating ring assembling device comprises a support 111, a bottom plate 2 is fixed at the upper end of the support 111, a battery storage box 3 composed of a plurality of storage bins 3-1 distributed at equal intervals is fixed at the upper end of the bottom plate 2, and a first discharge hole 3-2 penetrating left and right is formed at the lower part of the storage bin 3-1; the upper end of the bottom plate 2 is fixedly provided with an insulating ring temporary storage box 4 which is positioned right to the battery storage box 3 and consists of a plurality of temporary storage bins 4-1 which are in one-to-one correspondence with the storage bins 3-1, the distance between the insulating ring temporary storage box 4 and the battery storage box 3 is greater than the length of the battery 12, the left lower part of the temporary storage bin 4-1 is provided with a second discharge hole 4-2 which corresponds to the first discharge hole 3-2, the inner left end of the insulating ring temporary storage box 4 is provided with a through hole 4-3 which is communicated left and right and is concentric with the second discharge hole 4-2, the upper end of the bottom plate 2 is provided with a pushing assembly 5 which can slide back and forth, the pushing end of the pushing assembly 5 is fixedly provided with an adaptive electromagnet 6, the pushing assembly 5 is connected with a reciprocating mechanism 7 which can drive the pushing assembly 5 to slide back and forth, the bottom plate 2 is provided with a plurality of discharge holes 2-1 which are positioned between the battery storage box 3 and the insulating ring temporary storage box 4, when the electromagnet 6 is electrified, the batteries 12 are adsorbed, when the electromagnet 6 moves rightwards, the batteries 12 in the storage bins 3-1 can be pushed into the temporary storage bin 4-1 to be connected with the insulating ring 13, when the electromagnet 6 moves leftwards to drive the batteries 12 to be between the storage bins and the temporary storage bin, the electromagnet 6 is powered off, and the batteries 12 fall down from the feed opening 2-1.

In this embodiment, the storage bins 3-1 and the temporary storage bins 4-1 are hollow structures without tops.

In this embodiment, the pushing assembly 5 includes a connecting rod 5-1 slidably connected to the bottom plate 2, the bottom of the connecting rod 5-1 is slidably connected to the upper end of the bottom plate 2 through a chute and slide rail structure (not shown in the figure), a plurality of push rods 5-2 corresponding to the first discharge ports 3-2 one to one are fixed to the right end of the connecting rod 5-1, and an electromagnet 6 is fixed to the right end of the push rods 5-2, wherein the right end of the push rod 5-2 can pass through the first discharge ports 3-2 and can drive the electromagnet 6 to move to the right side of the temporary storage box, and the connecting rod 5-1 is a rectangular ring groove structure;

reciprocating motion mechanism 7 includes driving motor 7-1, driving motor 7-1 passes through mounting bracket 10 to be fixed at the left end of storage box, and driving motor 7-1's output is vertical distributes downwards, driving motor 7-1's output is fixed with connecting rod 7-2, and connecting rod 7-2 has drive post 7-3 through bearing swivelling joint, drive post 7-3 extends into the inside of rectangle annular.

Further, the push rod 5-2 is of a cylindrical structure, the electromagnet 6 is of a disc-shaped structure, and the outer diameter of the push rod 5-2 and the outer diameter of the electromagnet 6 are equal to the outer diameter of the battery 12.

In this embodiment, a plurality of discharging pipes 8 corresponding to the discharging ports 2-1 one to one are fixed at the bottom of the bottom plate 2, and a collecting box 11 is disposed at the lower side of the plurality of discharging pipes 8.

In this embodiment, the second discharge hole 4-2 is a circular structure, and the outer diameter of the second discharge hole 4-2 is equal to the outer diameter of the insulating ring 13.

In this embodiment, the bottom of the storage bin 3-1 is a semicircular structure adapted to the battery 12, and the bottom of the temporary storage bin 4-1 is a semicircular structure adapted to the insulating ring 13.

In this embodiment, the battery storage box 3 and the insulating ring storage box 4 are each opened with a viewing port 9.

The utility model discloses a theory of operation and application method:

when the device is used, the batteries 12 are horizontally stacked in the storage bin, the insulating ring 13 is vertically stacked in the temporary storage bin 4-1, the pushing assembly 5 is driven by the reciprocating mechanism 7 to slide in a reciprocating mode, when the pushing assembly 5 moves rightwards, the electromagnet 6 is powered on, when the electromagnet 6 moves rightwards to push the pushing assembly 5, the electromagnet 6 adsorbs the bottom of the battery 12 and pushes the top of the battery 12 into the temporary storage bin 4-1, the positive end of the battery 12 extends into the through hole 4-3, the insulating ring 13 is pressed onto the top of the battery 12, so that the battery 12 is tightly matched with the insulating ring 13, after the battery 12 is tightly matched with the insulating ring 13, the pushing assembly 5 slides leftwards, and when the electromagnet 6 moves leftwards to drive the battery 12 to be arranged between the battery storage bin 3 and the temporary storage bin of the insulating ring 4, the electromagnet 6 is powered off, the battery 12 falls down from the discharging opening 2-1, the material pushing component 5 moves to the left end of the battery storage box 3 at the same time when the material pushing component falls into the collection box 11, and then the next pushing is carried out, so that the reciprocating operation is carried out.

Although the present invention has been described in detail with reference to the foregoing examples, it will be apparent to those skilled in the art that various changes and modifications can be made in the embodiments described above, or equivalent changes and modifications can be made to some of the technical features of the embodiments described above, and any changes, equivalents, and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a nickel-hydrogen power battery insulating ring assembly quality, includes the support, the upper end of support is fixed with bottom plate, characterized by:

the upper end of the bottom plate is provided with a battery storage box consisting of a plurality of storage bins which are distributed at equal intervals, and the lower part of each storage bin is provided with a first discharge hole which is communicated from left to right;

the upper end of the bottom plate is provided with an insulating ring temporary storage box which is positioned right to the battery storage box and consists of a plurality of temporary storage bins corresponding to the storage bins one by one, the distance between the insulating ring temporary storage box and the battery storage box is greater than the length of the battery, the left lower part of the temporary storage box is provided with a second discharge port corresponding to the first discharge port, and the inner left end of the insulating ring temporary storage box is provided with a through hole which is communicated left and right and is concentric with the second discharge port;

the upper end of the bottom plate is provided with a material pushing assembly capable of sliding back and forth, and the material pushing end of the material pushing assembly is fixed with an adaptive electromagnet;

the pushing assembly is connected with a reciprocating mechanism which can drive the pushing assembly to slide in a reciprocating manner;

the bottom plate is provided with a plurality of feed openings positioned between the battery storage box and the insulating ring temporary storage box;

when the electromagnet is electrified, the batteries are adsorbed, when the electromagnet moves rightwards, the batteries in the storage bins can be pushed into the temporary storage bins to be connected with the insulating rings, and when the electromagnet moves leftwards to drive the batteries to be between the storage bins and the temporary storage bins, the electromagnet is powered off, and the batteries fall down from the feed opening.

2. The nickel-hydrogen power battery insulating ring assembling device according to claim 1, characterized in that: the storage bins and the temporary storage bins are of hollow structures without tops.

3. The nickel-hydrogen power battery insulating ring assembling device according to claim 1, characterized in that: the material pushing assembly comprises a connecting rod which is in sliding connection with the bottom plate, a plurality of push rods which are in one-to-one correspondence with the first discharge holes are fixed at the right end of the connecting rod, electromagnets are fixed at the right ends of the push rods, the right ends of the push rods can penetrate through the first discharge holes and can drive the electromagnets to move to the right side of the temporary storage box, and the connecting rod is in a rectangular ring groove structure;

reciprocating motion mechanism includes driving motor, driving motor passes through the mounting bracket to be fixed at the left end of storage box, and the vertical downward distribution of driving motor's output, driving motor's output is fixed with the connecting rod, and connecting rod rotatable coupling has the drive post, the drive post extends into the inside of rectangle annular.

4. The nickel-hydrogen power battery insulating ring assembling device according to claim 3, characterized in that: the push rod is of a cylindrical structure, the electromagnet is of a disc-shaped structure, and the outer diameter of the push rod and the outer diameter of the electromagnet are equal to the outer diameter of the battery.

5. The nickel-hydrogen power battery insulating ring assembling device according to claim 1, characterized in that: the bottom of the bottom plate is fixedly provided with a plurality of blanking pipes which are in one-to-one correspondence with the blanking ports, and a collecting box is arranged on the lower side of each blanking pipe.

6. The nickel-hydrogen power battery insulating ring assembling device according to claim 1, characterized in that: the second discharge gate is circular structure, and the external diameter of second discharge gate equals with the external diameter of insulating circle.

7. The nickel-hydrogen power battery insulating ring assembling device according to claim 1, characterized in that: the bottom of the storage bin is of a semicircular structure matched with the battery, and the bottom of the temporary storage bin is of a semicircular structure matched with the insulating ring.

8. The nickel-hydrogen power battery insulating ring assembling device according to claim 1, characterized in that: the battery storage box and the insulating ring temporary storage box are both provided with observation ports.

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