CN219937234U - High-strength anti-deformation mobile energy storage equipment - Google Patents

Abstract

The utility model relates to a high-strength anti-deformation mobile energy storage device, which comprises a barrel shell; the upper side of the barrel shell is provided with a case upper shell; the outer side of the barrel shell is a lower shell of the machine case, and flanging is arranged on the periphery of the top of the barrel shell; the bottom of the flanging is provided with a plurality of reinforcing columns; the inner side of the bottom of the lower case of the case is provided with a plug-in end relative to the reinforcing column; a first reinforcing part is arranged on the inner side of the reinforcing column; and a second reinforcing part is arranged on the side wall of the lower case of the case. The bottom of the turning plate of the barrel shell is provided with the reinforcing column, and the bottom of the reinforcing column is spliced in the splicing end, so that two functions can be achieved; firstly, the stability of the barrel is enhanced by encircling the periphery of the barrel shell, so that shaking is avoided; and secondly, the reinforcing column is attached to the inner side of the lower case of the case, so that a certain supporting effect can be achieved on the lower case of the case, and the strength of the lower case of the case is improved.

Description

High-strength anti-deformation mobile energy storage equipment

Technical Field

The utility model relates to a mobile energy storage device, in particular to a high-strength anti-deformation mobile energy storage device.

Background

The chassis housing serves as an external container for the mobile energy storage device and serves to protect internal electronic components (e.g., various circuit boards, electrical cores, inverters, etc.). Meanwhile, the case shell is also provided with various accessories such as a flip cover, a handle and the like. The existing chassis shell is thin, particularly, a cavity exists between the barrel shell and the lower shell of the chassis, so that the first barrel shell is poor in installation stability; second, due to lack of internal support, the chassis lower shell is subject to collapse after being subjected to external forces; secondly, the barrel shell or the upper shell of the case is provided with a flanging or a boss, and is easy to deform after frequent use. In addition, there are many problems such as deformation of the high-frequency use portion such as a handle and a mobile carrier. Therefore, further improvements are needed.

Disclosure of Invention

Therefore, the utility model provides the high-strength anti-deformation mobile energy storage equipment for overcoming the defects in the prior art, which has the advantages of stable and reliable structure, wide coverage range of the reinforced structure and prolonged service life of the chassis shell.

A high-strength anti-deformation mobile energy storage device comprises a barrel shell; the upper side of the barrel shell is provided with a case upper shell; the outer side of the barrel shell is a lower shell of the machine case, and flanging is arranged on the periphery of the top of the barrel shell; the bottom of the flanging is provided with a plurality of reinforcing columns; the inner side of the bottom of the lower case of the case is provided with a plug-in end relative to the reinforcing column; a first reinforcing part is arranged on the inner side of the reinforcing column; and a second reinforcing part is arranged on the side wall of the lower case of the case.

Preferably, the reinforcing column is a copper stud arranged at the bottom of the flanging; the copper studs comprise at least 12 copper studs; the inserting end protrudes from the bottom surface of the lower case of the case; the inside of the plug end is provided with a plug groove.

Preferably, the first reinforcing part comprises a reinforcing rib A arranged between the flanging and the side wall of the barrel shell; the reinforcing rib A is provided with a right-angle end; the right-angle end is positioned at an included angle between the flanging and the side wall of the barrel shell.

Preferably, the second reinforcing parts are arranged on two side walls of the lower case of the case; the second reinforcing part is an inwards concave groove body.

Preferably, the upper case of the case is provided with an opening opposite to the flip; a boss is arranged at the bottom of the opening; the boss is provided with a third reinforcing part at the included angle of the upper shell of the case; the upper case of the case is also provided with a handle.

Preferably, the third reinforcing part is a reinforcing rib B; the reinforcing rib B is provided with a right-angle end; a fourth reinforcing part is arranged at the hinge joint of the flip cover and the upper shell of the case; the inner side of the handle is provided with a fifth reinforcing part.

Preferably, the fourth reinforcement part comprises a cross beam horizontally connected between two hinge seats; a plurality of reinforcing vertical beams are arranged between the cross beams and the flip cover; the fifth reinforcing part comprises a plurality of reinforcing ribs C protruding to the inner side of the handle.

Preferably, the lower case of the case is arranged on the mobile carrier; the surface of the movable carrier is provided with reinforcing ribs D in a staggered manner; side baffles are arranged at four vertex angles of the movable carrier; the surface of the side baffle is provided with a reinforcing rib E.

The utility model has the following beneficial effects: first: the bottom of the turning plate of the barrel shell is provided with the reinforcing column, and the bottom of the reinforcing column is spliced in the splicing end, so that two functions can be achieved; firstly, the stability of the barrel is enhanced by encircling the periphery of the barrel shell, so that shaking is avoided; secondly, the reinforcing column is attached to the inner side of the lower case of the case, so that a certain supporting effect can be achieved on the lower case of the case, and the strength of the lower case of the case is improved;

second,: the side wall of the lower case of the case is provided with a plurality of second reinforcing parts, so that the strength of the lower case of the case can be further improved; simultaneously, the bottom of the flanging of the barrel shell and the opening of the upper shell of the case are provided with the first reinforcing part and the third reinforcing part, and as the two parts are frequently pressed, the stability of the barrel is improved through the support of the first reinforcing part and the third reinforcing part.

Third,: the fourth reinforcing part and the fifth reinforcing part are arranged on the lifting handle and the flip cover, so that the structural strength of the high-frequency use position is improved. Meanwhile, the movable carrier is improved, and the staggered reinforcing ribs D can effectively protect the surface of the vehicle body; the side baffles around can also play a role in anti-collision.

Drawings

Fig. 1 is a schematic exploded view of the present utility model.

Fig. 2 is a schematic structural view of a lower case of the chassis.

Fig. 3 is a schematic structural view of the barrel shell.

Fig. 4 is a schematic structural view of an upper case of the chassis.

Fig. 5 is a schematic structural view of the handle.

Fig. 6 is a schematic structural view of the flip cover.

Fig. 7 is a schematic structural view of the mobile carrier.

In the figure: 1 is a barrel shell, 1.1 is a flanging, 2 is a machine case upper shell, 2.1 is an opening, 3 is a machine case lower shell, 4 is a reinforcing column, 5 is a plugging end, 5.1 is a plugging groove, 6 is a reinforcing rib A,7 is a groove body, 8 is a handle, 8.1 is a handle upper cover, 8.2 is a handle lower cover, 9 is a reinforcing rib B,10 is a cross beam, 11 is a reinforcing vertical beam, 12 is a reinforcing rib C,13 is a reinforcing rib D,14 is a side baffle, 15 is a reinforcing rib E,16 is a flip cover and 17 is a mobile carrier.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art, provided that the terms are not defined differently. It is to be understood that terms defined in commonly used dictionaries have meanings that are consistent with the meaning of the terms in the prior art.

Referring to fig. 1-7, a high strength, deformation resistant mobile energy storage device includes a barrel housing 1; the upper side of the barrel shell 1 is provided with a case upper shell 2; the outer side of the barrel shell 1 is provided with a lower case 3, and the periphery of the top of the barrel shell 1 is provided with a flanging 1.1; the bottom of the flanging 1.1 is provided with a plurality of reinforcing columns 4; the inner side of the bottom of the chassis lower shell 3 is provided with a plug-in end 5 relative to the reinforcing column 4; a first reinforcing part is arranged on the inner side of the reinforcing column 4; a second reinforcing part is arranged on the side wall of the chassis lower case 3.

Further, the reinforcing column 4 is a copper stud arranged at the bottom of the flanging 1.1; the copper studs comprise at least 12 copper studs; the inserting end 5 protrudes from the bottom surface of the lower case 3; the inside of the plug end is provided with a plug groove 5.1.

During installation, the upper end of the reinforcing column 4 is connected with a threaded hole (visible in the figure) at the bottom of the flanging 1.1 of the barrel shell 1 through threads, and then the bottom is directly inserted into the inserting groove 5.1 of the inserting end 5 of the lower shell 3 of the chassis.

Further, the first reinforcing part comprises a reinforcing rib A6 arranged between the flanging 1.1 and the side wall of the barrel shell 1; the reinforcing rib A6 is provided with a right-angle end; the right-angle end is positioned at the included angle between the flanging 1.1 and the side wall of the barrel shell 1.

Further, the second reinforcing parts are arranged on two side walls of the chassis lower shell 3; the second reinforcing part is a groove body 7 which is concave inwards.

Specifically, the first reinforcing part, that is, the reinforcing rib A6 in the embodiment can play a supporting role on the flanging 1.1 of the barrel shell 1, so as to prevent deformation at the place; the groove body 7 is recessed towards the inner part of the lower shell of the case, so that the cross section joint is enlarged, and the strength of the case is further improved.

Further, the upper case 2 of the case is provided with an opening 2.1 opposite to the flip cover; a boss 2.2 is arranged at the bottom of the opening 2.1; a third reinforcing part is arranged at the included angle between the boss 2.2 and the upper case 2 of the case; the upper case 2 of the case is also provided with a handle; the handle 8 is provided with a handle upper cover 8.1 and a handle lower cover 8.2.

Further, the third reinforcing part is a reinforcing rib B9; the reinforcing rib B9 is provided with a right-angle end; a fourth reinforcing part is arranged at the hinge joint of the flip cover 1.1 and the upper case 3 of the case; the inner side of the handle 8 is provided with a fifth reinforcing part.

Specifically, the third reinforcing portion, that is, the reinforcing rib B9 in the present embodiment, reinforces the opening 2.1, and is also in a position that is relatively easy to deform because it is in contact with the opening and closing of the flip 1.1 for a long time.

Further, the fourth reinforcement part comprises a cross beam 10 horizontally connected between two hinge seats; a plurality of reinforcing vertical beams 11 are arranged between the cross beams and the flip cover; the fifth reinforcing part comprises a plurality of reinforcing ribs C12 protruding from the inner sides of the upper handle cover and the lower handle cover.

The fourth reinforcement, namely the transverse beam 10 and the reinforcing vertical beam 11, is arranged on the hinge pivot of the flip 1.1, reinforcing the strength thereof. The handle consists of an upper handle cover 8.1 and a lower handle cover 8.2, and the reinforcing ribs C12 are positioned in the upper handle cover 8.1 and the lower handle cover 8.2, so that the bending resistance of the handle is improved.

Further, the lower casing of the case is arranged on the movable carrier 17; the surface of the movable carrier 17 is provided with reinforcing ribs D13 in a staggered manner; side baffles 14 are arranged at four vertex angles of the movable carrier 12; the surface of the side baffle 14 is provided with a reinforcing rib E15.

The reinforcing ribs D13 can reduce direct abrasion of the lower case of the case on the surface of the mobile carrier; the side guards 14 and their surface ribs E15 may act as an anti-collision.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. A high-strength anti-deformation mobile energy storage device comprises a barrel shell; the upper side of the barrel shell is provided with a case upper shell; the outside of barrel casing is quick-witted case inferior valve, its characterized in that: a flanging is arranged around the top of the barrel shell; the bottom of the flanging is provided with a plurality of reinforcing columns; the inner side of the bottom of the lower case of the case is provided with a plug-in end relative to the reinforcing column; a first reinforcing part is arranged on the inner side of the reinforcing column; and a second reinforcing part is arranged on the side wall of the lower case of the case.

2. A high strength, deformation resistant mobile energy storage device as defined in claim 1, wherein: the reinforcing column is a copper stud arranged at the bottom of the flanging; the copper studs comprise at least 12 copper studs; the inserting end protrudes from the bottom surface of the lower case of the case; the inside of the plug end is provided with a plug groove.

3. A high strength, deformation resistant mobile energy storage device as defined in claim 2, wherein: the first reinforcing part comprises a reinforcing rib A arranged between the flanging and the side wall of the barrel shell; the reinforcing rib A is provided with a right-angle end; the right-angle end is positioned at an included angle between the flanging and the side wall of the barrel shell.

4. A high strength, deformation resistant mobile energy storage device as defined in claim 3, wherein: the second reinforcing parts are arranged on two side walls of the lower case of the case; the second reinforcing part is a groove body which is concave inwards.

5. The high strength, deformation resistant mobile energy storage device of claim 4, wherein: the upper shell of the case is provided with an opening relative to the flip; a boss is arranged at the bottom of the opening; a third reinforcing part is arranged at the included angle between the boss and the upper shell of the case; the upper case of the case is also provided with a handle; the handle is provided with a handle upper cover and a handle lower cover.

6. The high strength, deformation resistant mobile energy storage device of claim 5, wherein: the third reinforcing part is a reinforcing rib B; the reinforcing rib B is provided with a right-angle end; a fourth reinforcing part is arranged at the hinge joint of the flip cover and the upper shell of the case; the inner side of the handle is provided with a fifth reinforcing part.

7. The high strength, deformation resistant mobile energy storage device of claim 6, wherein: the fourth reinforcing part comprises a cross beam horizontally connected between the two hinged seats; a plurality of reinforcing vertical beams are arranged between the cross beams and the flip cover; the fifth reinforcing part comprises a plurality of reinforcing ribs C protruding from the inner sides of the upper handle cover and the lower handle cover.

8. A high strength, deformation resistant mobile energy storage device as defined in claim 1, wherein: the lower case of the case is arranged on the movable carrier; the surface of the movable carrier is provided with reinforcing ribs D in a staggered manner; side baffles are arranged at four vertex angles of the movable carrier; the surface of the side baffle is provided with a reinforcing rib E.