CN213425110U - Be used for transporting lithium cell vibration damping mount - Google Patents

Abstract

The utility model discloses a be used for transporting lithium cell vibration damping mount, place case, concatenation inserted bar, concatenation hole, slidingtype battery clamping device, lateral wall centre gripping spring, lateral wall grip block, slip drive arrangement, concatenation mounting and place the baffle including concatenation formula battery, slidingtype battery clamping device includes slidingtype grip block, battery clamp spring and battery clamp plate, slip drive arrangement includes sliding motor, sliding screw, sliding tray, a slip support piece two and slide bar. The utility model belongs to the technical field of the lithium cell transportation, specifically be a be used for transporting lithium cell vibration damping mount, the effectual loss that leads to because the shock of lithium cell in the existing market in the transportation of having solved realizes the purpose of transporting simultaneously the multiunit lithium cell through the mode of concatenation, and further, realized can realize the purpose of transporting simultaneously to the lithium cell of different width, be a very practical be used for transporting lithium cell vibration damping mount.

Description

Be used for transporting lithium cell vibration damping mount

Technical Field

The utility model belongs to the technical field of the lithium cell transportation, specifically indicate a be used for transporting lithium cell vibration damping mount.

Background

The lithium battery is a primary battery which uses lithium metal or lithium alloy as a negative electrode material and uses a non-aqueous electrolyte solution, and is different from a rechargeable battery, namely a lithium ion battery and a lithium ion polymer battery, and the inventor of the lithium battery is edison. Because the chemical characteristics of lithium metal are very active, the requirements on the environment for processing, storing and using the lithium metal are very high, so that the lithium battery is not applied for a long time, miniaturized equipment is increasingly increased along with the development of microelectronic technology at the end of the twentieth century, the high requirements on power supplies are provided, and the lithium battery enters a large-scale practical stage. In actual life, present lithium cell conveyer shock attenuation effect is poor, protection lithium cell that can not be fine, and the lithium cell is fragile at the in-process of transportation, gives people and causes huge economic loss, has shortened the life of lithium cell.

Disclosure of Invention

To the above situation, for overcoming prior art's defect, the utility model provides a be used for transporting lithium cell vibration damping mount, the effectual loss that leads to because the shock of lithium cell in the existing market in the transportation of having solved realizes the purpose of transporting simultaneously to the multiunit lithium cell through the mode of concatenation, and further, realized can realize the purpose of transporting simultaneously to the lithium cell of different width, is a very practical be used for transporting lithium cell vibration damping mount.

The utility model adopts the following technical scheme: the utility model relates to a damping base for transporting lithium batteries, which comprises a splicing type battery placing box, a splicing insertion rod, a splicing hole, a sliding type battery holding device, a side wall clamping spring, a side wall clamping plate, a sliding driving device, a splicing fixing part and a placing baffle plate, wherein the splicing fixing part is arranged on the splicing type battery placing box, the splicing insertion rod is arranged on the splicing fixing part, the splicing hole is arranged on the splicing fixing part and is arranged at one side away from the splicing insertion rod, the side wall clamping spring is arranged on the side wall inside the splicing type battery placing box, the side wall clamping plate is arranged on the side wall clamping spring, the placing baffle plate is arranged in the splicing type battery placing box, the sliding driving device is arranged on the splicing type battery placing box, one end of the sliding type battery holding device is arranged on the sliding type battery holding device, the other end of the sliding type battery holding device is, the sliding type battery clamping device comprises a sliding type clamping plate, a battery clamping spring and a battery clamping plate, wherein one end of the sliding type clamping plate is arranged on the sliding driving device, the other end of the sliding type clamping plate is arranged on the placing partition plate in a sliding manner, the battery clamping spring is arranged on the sliding type clamping plate and is symmetrically arranged with the side wall clamping spring, the battery clamping plate is arranged on the battery clamping spring and is symmetrically arranged with the side wall clamping plate, the sliding driving device comprises a sliding motor, a sliding screw rod, a sliding groove, a first sliding support piece, a second sliding support piece and a sliding rod, the sliding motor is arranged on the side wall of the splicing type battery placing box, the first sliding support piece is arranged on the inner wall of the splicing type battery placing box, the second sliding support piece is arranged on the inner wall of the splicing type battery placing box and is symmetrically arranged with the first sliding support piece, one end of the sliding, the other end of the sliding screw is arranged on an output shaft of the sliding motor, the sliding groove is arranged on the bottom wall of the spliced battery placing box, the sliding rod is arranged on the sliding support piece II and is symmetrically arranged with the sliding screw, one end of the sliding clamping plate is arranged on the sliding screw, the other end of the sliding clamping plate is arranged on the sliding rod in a sliding way, the spliced battery placing box plays a role in supporting and transporting lithium batteries, the spliced inserting rod and the splicing hole play a role in splicing and transporting, the sliding battery clamping device plays a role in adjusting and transporting lithium batteries with different lengths, the side wall clamping spring and the side wall clamping plate play a role in clamping lithium batteries, the sliding driving device plays a driving role, the splicing fixing piece plays a supporting role, the placing partition plate plays a partition role in separating, and the sliding clamping plate plays a role in adjusting and clamping length, the battery clamping spring and the battery clamping plate play a role in clamping lithium batteries with different lengths, the first sliding support piece and the second sliding support piece play a role in supporting, and the sliding rod plays a role in limiting displacement.

Further, the concatenation mounting is located between concatenation inserted bar and the concatenation hole, the lateral wall centre gripping spring is located between concatenation formula battery placement box and the lateral wall grip block, the battery presss from both sides tight spring and locates between battery pinch block and the slidingtype grip block.

Further, lateral wall centre gripping spring is perpendicular setting with concatenation formula battery placement box, lateral wall centre gripping spring is perpendicular setting with the lateral wall grip block, the lateral wall grip block is perpendicular setting with placing the baffle, the lateral wall grip block is parallel arrangement with the battery pinch-off blades, the battery pinch-off blades is perpendicular setting with placing the baffle, the sliding screw is parallel arrangement with the slide bar.

Further, the concatenation inserted bar is the shaft-like setting of cylinder, the concatenation hole is the setting of cylinder poroid, the concatenation inserted bar is the same with concatenation hole diameter and is coaxial setting.

Further, it is equipped with three groups to place the baffle, the sliding tray is equipped with two sets ofly, the concatenation inserted bar is equipped with four groups, the concatenation hole is equipped with four groups, the concatenation mounting is equipped with four groups, the lateral wall centre gripping spring is equipped with eight groups, the lateral wall grip block is equipped with two sets ofly, the battery presss from both sides tight spring is equipped with eight groups, the battery presss from both sides tight board is equipped with four groups.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is used for transporting lithium cell vibration damping mount, the effectual loss that leads to because the shock of having solved the lithium cell in the existing market in the transportation realizes the purpose of multiunit lithium cell transportation simultaneously through the mode of concatenation, and further, has realized the purpose that can realize the transportation simultaneously to the lithium cell of different width, is a very practical lithium cell vibration damping mount that is used for transporting.

Drawings

Fig. 1 is a schematic view of the overall structure of a shock-absorbing base for transporting lithium batteries according to the present invention;

fig. 2 is a schematic structural view of another angle for transporting the lithium battery damping base of the present invention;

figure 3 is the utility model relates to a top view for transporting lithium cell vibration damping mount.

The battery storage box comprises a spliced battery storage box body 1, a spliced insertion rod 2, a spliced hole 3, a spliced hole 4, a sliding type battery clamping device 5, a side wall clamping spring 6, a side wall clamping plate 7, a sliding driving device 8, a spliced fixing piece 9, a storage partition plate 10, a sliding type clamping plate 11, a battery clamping spring 12, a battery clamping plate 13, a sliding motor 14, a sliding screw rod 15, a sliding groove 16, a sliding support piece I, a sliding support piece II, a sliding support piece 18 and a sliding rod.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in FIGS. 1-3, the shock absorbing base for transporting lithium batteries of the utility model comprises a splicing type battery placing box 1, a splicing inserted bar 2, a splicing hole 3, a sliding type battery clamping device 4, a side wall clamping spring 5, a side wall clamping plate 6, a sliding driving device 7, a splicing fixing member 8 and a placing baffle plate 9, wherein the splicing fixing member 8 is arranged on the splicing type battery placing box 1, the splicing inserted bar 2 is arranged on the splicing fixing member 8, the splicing hole 3 is arranged on the splicing fixing member 8 and is arranged at one side far away from the splicing inserted bar 2, the side wall clamping spring 5 is arranged on the inner side wall of the splicing type battery placing box 1, the side wall clamping plate 6 is arranged on the side wall clamping spring 5, the placing baffle plate 9 is arranged in the splicing type battery placing box 1, the sliding driving device 7 is arranged on the splicing type battery placing box 1, one end of the sliding type battery clamping device 4 is arranged on the sliding type battery, the other end of the sliding type battery clamping device 4 is arranged on the placing partition board 9 in a sliding manner, the sliding type battery clamping device 4 comprises a sliding type clamping board 10, a battery clamping spring 11 and a battery clamping board 12, one end of the sliding type clamping board 10 is arranged on the sliding driving device 7, the other end of the sliding type clamping board 10 is arranged on the placing partition board 9 in a sliding manner, the battery clamping spring 11 is arranged on the sliding type clamping board 10 and is symmetrically arranged with the side wall clamping spring 5, the battery clamping board 12 is arranged on the battery clamping spring 11 and is symmetrically arranged with the side wall clamping board 6, the sliding driving device 7 comprises a sliding motor 13, a sliding screw 14, a sliding groove 15, a first sliding support piece 16, a second sliding support piece 17 and a sliding rod 18, the sliding motor 13 is arranged on the side wall of the splicing type battery placing box 1, and the first sliding support piece 16 is arranged on the inner wall of the splicing type, two 17 of slip support piece locate on 1 inner wall of concatenation formula battery place case and be the symmetry setting with a 16 of slip support piece, 14 one end of sliding screw locates on a 16 of slip support piece, the 14 other ends of sliding screw locate on the output shaft of sliding motor 13, sliding tray 15 is located on the diapire that concatenation formula battery placed case 1, slide bar 18 is located on two 17 of slip support piece and is the symmetry setting with sliding screw 14, slide bar 14 is located to slidingtype grip block 10 one end, the slidingtype grip block 10 other end slides and locates on slide bar 18.

The splicing fixing piece 8 is arranged between the splicing insertion rod 2 and the splicing hole 3, the side wall clamping spring 5 is arranged between the splicing type battery placing box 1 and the side wall clamping plate 6, and the battery clamping spring 11 is arranged between the battery clamping plate 12 and the sliding type clamping plate 10.

Lateral wall centre gripping spring 5 is perpendicular setting with concatenation formula battery placement box 1, lateral wall centre gripping spring 5 is perpendicular setting with lateral wall grip block 6, lateral wall grip block 6 is perpendicular setting with placing baffle 9, lateral wall grip block 6 is parallel arrangement with battery clamping plate 12, battery clamping plate 12 is perpendicular setting with placing baffle 9, sliding screw 14 is parallel arrangement with slide bar 18.

Concatenation inserted bar 2 is the shaft-like setting of cylinder, concatenation hole 3 is the poroid setting of cylinder, concatenation inserted bar 2 is the same and coaxial setting with 3 diameters in concatenation hole.

It is equipped with three groups to place baffle 9, sliding tray 15 is equipped with two sets ofly, concatenation inserted bar 2 is equipped with four groups, concatenation hole 3 is equipped with four groups, concatenation mounting 8 is equipped with four groups, lateral wall centre gripping spring 5 is equipped with eight groups, lateral wall grip block 6 is equipped with two sets ofly, battery clamp spring 11 is equipped with eight groups, battery clamp plate 12 is equipped with four groups.

During specific use, the user selects different groups of splicing type battery placing boxes 1 according to the number of lithium batteries stored by the user, then the user places the lithium batteries between the side wall clamping plate 6 and the battery clamping plate 12, when the distance between the side wall clamping plate 6 and the battery clamping plate 12 is larger than the length of the lithium batteries, the user opens the sliding motor 13, the sliding motor 13 drives the sliding screw 14 to rotate at the first sliding support piece 16, so as to drive the sliding type clamping plate 10 to generate a rotation trend, and only can move on the placing partition plate 9 and the sliding groove 15 under the limiting action of the sliding rod 18 and cannot rotate, so as to drive the battery clamping spring 11 and the battery clamping plate 12 to move in the splicing type battery placing boxes 1, so as to contact with the lithium batteries to clamp the lithium batteries, when the user needs to transport the clamping of multiple groups of lithium batteries, the user inserts the four groups of splicing type battery placing boxes 1 into the four groups of splicing insertion rods 2 and the other groups of splicing type battery placing boxes 1 into the four groups Thereby combine together and continue to carry out the centre gripping transportation to the lithium cell, above be the whole use procedure that is used for transporting lithium cell vibration damping mount.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a be used for transporting lithium cell vibration damping mount which characterized in that: the splicing type battery placing box comprises a splicing type battery placing box body, a splicing insertion rod, splicing holes, a sliding type battery clamping device, a side wall clamping spring, a side wall clamping plate, a sliding driving device, a splicing fixing piece and a placing baffle plate, wherein the splicing fixing piece is arranged on the splicing type battery placing box body, the splicing insertion rod is arranged on the splicing fixing piece, the splicing holes are arranged on the splicing fixing piece and are arranged on one side away from the splicing insertion rod, the side wall clamping spring is arranged on the side wall inside the splicing type battery placing box body, the side wall clamping plate is arranged on the side wall clamping spring, the placing baffle plate is arranged in the splicing type battery placing box body, the sliding driving device is arranged on the splicing type battery placing box body, one end of the sliding type battery clamping device is arranged on the sliding type battery clamping device body, the other end of the sliding type battery clamping device is arranged on, The battery clamping device comprises a battery clamping spring and a battery clamping plate, wherein one end of the sliding type clamping plate is arranged on the sliding driving device, the other end of the sliding type clamping plate is arranged on the placing clapboard in a sliding mode, the battery clamping spring is arranged on the sliding type clamping plate and is symmetrically arranged with the side wall clamping spring, the battery clamping plate is arranged on the battery clamping spring and is symmetrically arranged with the side wall clamping plate, the sliding driving device comprises a sliding motor, a sliding screw rod, a sliding groove, a first sliding support piece, a second sliding support piece and a sliding rod, the sliding motor is arranged on the side wall of the spliced battery placing box, the first sliding support piece is arranged on the inner wall of the spliced battery placing box, the second sliding support piece is arranged on the inner wall of the spliced battery placing box and is symmetrically arranged with the first sliding support piece, one end of the sliding screw rod is arranged on the first sliding support piece, and the, the sliding groove is arranged on the bottom wall of the spliced battery placing box, the sliding rod is arranged on the sliding support piece II and symmetrically arranged with the sliding screw rod, one end of the sliding clamping plate is arranged on the sliding screw rod, and the other end of the sliding clamping plate is arranged on the sliding rod in a sliding mode.

2. The lithium battery vibration damping mount for transportation according to claim 1, wherein: the splicing fixing piece is arranged between the splicing insertion rod and the splicing hole, the side wall clamping spring is arranged between the splicing type battery placing box and the side wall clamping plate, and the battery clamping spring is arranged between the battery clamping plate and the sliding type clamping plate.

3. The lithium battery vibration damping mount for transportation according to claim 2, wherein: the battery storage box is characterized in that the side wall clamping spring and the spliced battery storage box are arranged vertically, the side wall clamping spring and the side wall clamping plate are arranged vertically, the side wall clamping plate and the storage partition plate are arranged vertically, the side wall clamping plate and the battery clamping plate are arranged in parallel, the battery clamping plate and the storage partition plate are arranged vertically, and the sliding screw and the sliding rod are arranged in parallel.

4. The lithium battery vibration damping mount for transportation according to claim 3, wherein: the concatenation inserted bar is the shaft-like setting of cylinder, the concatenation hole is the poroid setting of cylinder, the concatenation inserted bar is the same with concatenation hole diameter and is coaxial setting.

5. The lithium battery vibration damping mount for transportation according to claim 4, wherein: the battery clamping device is characterized in that the placing partition plates are provided with three groups, the sliding grooves are provided with two groups, the splicing insertion rods are provided with four groups, the splicing connection holes are provided with four groups, the splicing fixing piece is provided with four groups, the side wall clamping springs are provided with eight groups, the side wall clamping plates are provided with two groups, the battery clamping springs are provided with eight groups, and the battery clamping plates are provided with four groups.

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