CN210349902U - High-reliability lithium battery transportation frame - Google Patents

Abstract

The utility model provides a high-reliability lithium battery transportation frame, which comprises a base, a first transportation mounting frame arranged on the upper part of the base, a second transportation mounting frame arranged on the upper part of the first transportation mounting frame, and a third transportation mounting frame arranged on the upper part of the second transportation mounting frame; side supports connected with the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame are erected at the two ends of the base; the top of the side bracket is flush with the top of the third transportation mounting rack; first transportation mounting bracket, second transportation mounting bracket and third transportation mounting bracket are inboard offered respectively and are used for improving the heat dissipation rectangular hole that transportation air circulation performance was said, and in the in-service use process, because can utilize the stopper in the square groove body to carry out spacing extrusion fixed to the lithium cell, and the position of stopper can remove for adapt to the not lithium cell product of equidimension, the range of application is extensive, structural design is reasonable.

Description

High-reliability lithium battery transportation frame

[ technical field ]

The utility model relates to a lithium cell fortune equipment technical field especially relates to a structural design is reasonable, and the outstanding high reliability lithium cell transportation frame of result of application.

[ background art ]

Lithium battery related products are rapidly popularized in recent years, particularly with the rise of electric automobiles, the dependence on the battery products is heavier and heavier, and lithium battery equipment with excellent performance can bring great help to the overall operation and maintenance of the automobiles.

However, the existing lithium batteries and accessories of electric vehicles still have many disadvantages, such as poor charging performance of the batteries, incapability of realizing fast charging, poor cruising ability of the batteries, poor heat dissipation performance of the lithium battery equipment, unreasonable structural design of transportation equipment for transporting the lithium batteries, and the like, and these problems all restrict better popularization and promotion of the products.

Based on this, a great deal of research and development and realization are carried out by the technical personnel in the field, and the improvement are carried out aiming at the specific structure of the lithium battery transportation equipment, and the better performance is achieved.

[ contents of utility model ]

For overcoming the problem that prior art exists, the utility model provides a structural design is reasonable, uses the outstanding high reliability lithium cell transportation frame of effect.

The utility model provides a scheme of solving the technical problem provides a high-reliability lithium battery transportation frame, including the base, set up in first transportation mounting bracket on the base upper portion, be in the second transportation mounting bracket on the first transportation mounting bracket upper portion and be in the third transportation mounting bracket on the second transportation mounting bracket upper portion; side supports connected with the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame are erected at the two ends of the base; the top of the side bracket is flush with the top of the third transportation mounting rack; the inner sides of the first transport mounting frame, the second transport mounting frame and the third transport mounting frame are respectively provided with a heat dissipation strip hole for improving the air circulation performance in the transport process; square groove bodies are arranged on the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame, and each heat dissipation strip hole is positioned in the corresponding square groove body; the lithium battery transportation device is characterized by also comprising limiting blocks which are arranged in the square groove bodies of the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame and are used for fixing and limiting the lithium batteries embedded in the square groove bodies; two ends of the limiting block are respectively contacted with the wall body of the square groove body to form interference fit; the base is of a square structure, and four opposite angle parts of the base are respectively provided with connecting screw holes used for being connected with an external object.

Preferably, the two ends of the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame are fixed with the side support through screws, and a plurality of label bodies used for product classification and identification are arranged on the outer side of the side support.

Preferably, the inner sides of the two ends of the square groove body of the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame are respectively provided with an elastic buffer body for buffering lithium battery products; the elastic buffer body comprises a buffer plate which is in contact with the lithium battery product and a spring body which is arranged on the other side of the buffer plate relative to the lithium battery product.

Preferably, the inner wall of the side support is provided with an infrared camera assembly for video shooting of the placement state of the lithium battery product.

Preferably, the bottom of the base is further provided with a flexible material buffer plate.

Compared with the prior art, the high-reliability lithium battery transportation frame has the structure that the base 11, the first transportation mounting frame 12 arranged on the upper part of the base 11, the second transportation mounting frame 13 positioned on the upper part of the first transportation mounting frame 12 and the third transportation mounting frame 14 positioned on the upper part of the second transportation mounting frame 13 are arranged at the same time; and two ends of the base 11 are also provided with side supports connected with the first transportation mounting rack 12, the second transportation mounting rack 13 and the third transportation mounting rack 14 in an erecting way, the top parts of the side supports are flush with the top part of the third transportation mounting rack 14, the inner sides of the first transportation mounting rack 12, the second transportation mounting rack 13 and the third transportation mounting rack 14 are respectively provided with a heat dissipation elongated hole 15 for improving the air circulation performance in the transportation process, the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 are provided with square groove bodies, and each heat dissipation strip hole 15 is positioned in the corresponding square groove body, because can utilize stopper 16 in the square groove body to carry out spacing extrusion to the lithium cell fixed, and stopper 16's position can remove for adapt to the lithium cell product of equidimension not, the range of application is extensive, and structural design is reasonable.

[ description of the drawings ]

Fig. 1 is the utility model relates to a high reliability lithium cell transportation frame's three-dimensional state structure schematic diagram.

[ detailed description of the invention ]

To make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the utility model relates to a high-reliability lithium battery transportation frame 1, which comprises a base 11, a first transportation mounting frame 12 arranged on the upper portion of the base 11, a second transportation mounting frame 13 arranged on the upper portion of the first transportation mounting frame 12, and a third transportation mounting frame 14 arranged on the upper portion of the second transportation mounting frame 13; two ends of the base 11 are also provided with side supports connected with a first transportation mounting rack 12, a second transportation mounting rack 13 and a third transportation mounting rack 14 in an erecting way; the top of the side frame is flush with the top of the third transport mount 14; the inner sides of the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 are respectively provided with a heat dissipation strip hole 15 for improving the air circulation performance in the transportation process; square groove bodies are arranged on the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14, and each heat dissipation strip hole 15 is positioned in the corresponding square groove body; the lithium battery transportation device is characterized by further comprising a limiting block 16 which is arranged in the square groove bodies of the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 and used for fixing and limiting the lithium battery embedded in the square groove bodies; two ends of the limiting block 16 are respectively contacted with the wall body of the square groove body to form interference fit; the base 11 is a square structure, and four opposite corners of the base 11 are respectively provided with connecting screw holes for connecting with external objects.

The structure of the transportation mounting frame is characterized in that a base 11, a first transportation mounting frame 12 arranged on the upper portion of the base 11, a second transportation mounting frame 13 arranged on the upper portion of the first transportation mounting frame 12 and a third transportation mounting frame 14 arranged on the upper portion of the second transportation mounting frame 13 are arranged at the same time; and two ends of the base 11 are also provided with side supports connected with the first transportation mounting rack 12, the second transportation mounting rack 13 and the third transportation mounting rack 14 in an erecting way, the top parts of the side supports are flush with the top part of the third transportation mounting rack 14, the inner sides of the first transportation mounting rack 12, the second transportation mounting rack 13 and the third transportation mounting rack 14 are respectively provided with a heat dissipation elongated hole 15 for improving the air circulation performance in the transportation process, the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 are provided with square groove bodies, and each heat dissipation strip hole 15 is positioned in the corresponding square groove body, because can utilize stopper 16 in the square groove body to carry out spacing extrusion to the lithium cell fixed, and stopper 16's position can remove for adapt to the lithium cell product of equidimension not, the range of application is extensive, and structural design is reasonable.

Preferably, the two ends of the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 are fixed with the side support through screws, and a plurality of label bodies for product classification and identification are arranged outside the side support.

Preferably, the inner sides of the two ends of the square groove body of the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 are respectively provided with an elastic buffer body for buffering lithium battery products; the elastic buffer body comprises a buffer plate which is in contact with the lithium battery product and a spring body which is arranged on the other side of the buffer plate relative to the lithium battery product.

Preferably, the inner wall of the side support is provided with an infrared camera assembly for video shooting of the placement state of the lithium battery product.

Preferably, a flexible buffer plate is further disposed at the bottom of the base 11.

Compared with the prior art, the high-reliability lithium battery transportation frame 1 has the structure that the base 11, the first transportation mounting frame 12 arranged on the upper part of the base 11, the second transportation mounting frame 13 positioned on the upper part of the first transportation mounting frame 12 and the third transportation mounting frame 14 positioned on the upper part of the second transportation mounting frame 13 are arranged at the same time; and two ends of the base 11 are also provided with side supports connected with the first transportation mounting rack 12, the second transportation mounting rack 13 and the third transportation mounting rack 14 in an erecting way, the top parts of the side supports are flush with the top part of the third transportation mounting rack 14, the inner sides of the first transportation mounting rack 12, the second transportation mounting rack 13 and the third transportation mounting rack 14 are respectively provided with a heat dissipation elongated hole 15 for improving the air circulation performance in the transportation process, the first transportation mounting frame 12, the second transportation mounting frame 13 and the third transportation mounting frame 14 are provided with square groove bodies, and each heat dissipation strip hole 15 is positioned in the corresponding square groove body, because can utilize stopper 16 in the square groove body to carry out spacing extrusion to the lithium cell fixed, and stopper 16's position can remove for adapt to the lithium cell product of equidimension not, the range of application is extensive, and structural design is reasonable.

The above-mentioned embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (1)

1. The utility model provides a high reliability lithium cell transportation frame which characterized in that: the device comprises a base, a first transportation mounting frame arranged on the upper part of the base, a second transportation mounting frame positioned on the upper part of the first transportation mounting frame, and a third transportation mounting frame positioned on the upper part of the second transportation mounting frame; side supports connected with the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame are erected at the two ends of the base; the top of the side bracket is flush with the top of the third transportation mounting rack; the inner sides of the first transport mounting frame, the second transport mounting frame and the third transport mounting frame are respectively provided with a heat dissipation strip hole for improving the air circulation performance in the transport process; square groove bodies are arranged on the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame, and each heat dissipation strip hole is positioned in the corresponding square groove body; the lithium battery transportation device is characterized by also comprising limiting blocks which are arranged in the square groove bodies of the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame and are used for fixing and limiting the lithium batteries embedded in the square groove bodies; two ends of the limiting block are respectively contacted with the wall body of the square groove body to form interference fit; the base is of a square structure, and four opposite corners of the base are respectively provided with connecting screw holes for connecting with external objects; two ends of the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame are fixed with the side support through screws, and a plurality of label bodies used for product classification and identification are arranged on the outer side of the side support; elastic buffer bodies for buffering lithium battery products are respectively arranged on the inner sides of the two ends of the square groove body of the first transportation mounting frame, the second transportation mounting frame and the third transportation mounting frame; the elastic buffer body comprises a buffer plate which is contacted with the lithium battery product and a spring body which is arranged on the other surface of the buffer plate relative to the lithium battery product; an infrared camera assembly for performing video shooting on the placement state of the lithium battery product is arranged on the inner wall of the side support; the base bottom still is provided with flexible material buffer board.

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