Battery feedway
Technical field
The utility model relates to battery boosting technology field, in particular to a kind of battery feedway.
Background technology
At present, magnetic patch base is that manipulator and docking platform are carried battery and taken out the vital parts of battery.Magnetic patch base is positioned at the midway location of manipulator, and magnetic patch base is connected with belt, and magnetic patch is arranged on magnetic patch base.Driven by motor belt moves, and then drives magnetic patch base to move, and then completes by the adhesive of magnetic patch and battery the action that battery transports.
In prior art, after belt time of run is long, belt may loosen, and at this moment just needs to regulate belt.But belt is bolted on the bottom of magnetic patch base, when belt loosens, need magnetic patch base to disassemble the degree of tightness that could regulate belt, such operation bothers very much, and the operating time of operating personal is long, increases the labour intensity of operating personal.
Utility model content
Main purpose of the present utility model is to provide a kind of battery feedway, to solve in prior art the problem of the degree of tightness inconvenience regulating belt.
To achieve these goals, the utility model provides a kind of battery feedway, comprising: support; Belt, is arranged on support, and belt comprises first end and the second end; Magnetic patch base, has diapire, and the first end of belt is fixed on the lower surface of diapire, and the second end of belt is removably connected on the upper surface of diapire.
Further, battery feedway also comprises belt briquetting, and belt briquetting is arranged on the upper surface of diapire, and belt is between belt briquetting and magnetic patch base.
Further, belt briquetting and magnetic patch base are bolted.
Further, battery feedway also comprises the first guide rail, the second guide rail, the first positioning sliding block and the second positioning sliding block, first guide rail and the second guide rail parallel arrange and are positioned at the both sides of belt, first positioning sliding block and the second positioning sliding block are fixed on the lower surface of diapire, first positioning sliding block has the first chute coordinated with the first guide rail, and the second positioning sliding block has the second chute coordinated with the second guide rail.
Further, the first positioning sliding block is multiple, and multiple first positioning sliding block is arranged on magnetic patch base along the moving direction of belt.
Further, the second positioning sliding block is multiple, and multiple second positioning sliding block is arranged on magnetic patch base along the moving direction of belt.
Further, the first positioning sliding block and magnetic patch base are bolted.
Further, the second positioning sliding block and magnetic patch base are bolted.
Further, the first positioning sliding block is two.
Further, the second positioning sliding block is two.
Application the technical solution of the utility model, when belt loosen need to regulate belt time, only the second end of belt need be disassembled from magnetic patch base, then regulate belt.So just do not need magnetic patch base to disassemble, regulate belt very convenient, easy and simple to handle, shorten the operating time, alleviate the labour intensity of operating personal.
Accompanying drawing explanation
The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 shows the structural representation of the embodiment according to battery feedway of the present utility model; And
Fig. 2 shows the perspective view of the magnetic patch base of the TV feedway of Fig. 1.
Wherein, above-mentioned accompanying drawing comprises the following drawings mark:
10, belt; 20, magnetic patch base; 21, the 3rd through hole is installed; 22, the 4th through hole is installed; 23, the first tapped bore; 24, second through hole is installed; 30, belt briquetting; 40, magnetic patch.
Detailed description of the invention
It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.
As shown in Figure 1, the battery feedway of the present embodiment comprises support, belt 10 and magnetic patch base 20, belt 10 is arranged on support, belt 10 comprises first end and the second end, magnetic patch base 20 has diapire, the first end of belt 10 is fixed on the lower surface of diapire, and the second end of belt 10 is removably connected on the upper surface of diapire.
The battery feedway of application the present embodiment, when belt loosen need to regulate belt time, only the second end of belt 10 need be disassembled from magnetic patch base 20, then regulate belt 10.So just do not need magnetic patch base 20 to disassemble, regulate belt 10 very convenient, easy and simple to handle, shorten the operating time, alleviate the labour intensity of operating personal.
In the present embodiment, battery feedway also comprises belt briquetting 30, and belt briquetting 30 is arranged on the upper surface of diapire, and belt 10 is between belt briquetting 30 and magnetic patch base 20.Be fixed on magnetic patch base 20 by belt briquetting 30 by belt 10, the structure of belt briquetting 30 is simple, easy to process, easy and simple to handle, with low cost.In the present embodiment, belt briquetting 30 and magnetic patch base 20 are bolted.The structure of bolt is simple, easy to use, easy and simple to handle, with low cost.As shown in Figure 2, preferably, belt briquetting 30 is provided with the first installation through hole for wearing bolt, and magnetic patch base 20 is provided with the first tapped bore 23 coordinated with the outside thread of bolt.More preferably, the first installation through hole and the first tapped bore 23 are two, install through holes and two the first tapped bore 23 one_to_one corresponding settings for two first.Certainly, the first number of installing through hole and the first tapped bore 23 is also not limited to this.As long as belt 10 can be fixed between belt briquetting 30 and magnetic patch base 20.
In the present embodiment, battery feedway also comprises magnetic patch 40, and magnetic patch 40 is arranged on magnetic patch base 20.In the present embodiment, magnetic patch base 20 comprises and is arranged on two the first side walls on diapire and second sidewall, two the first side walls are oppositely arranged, second sidewall connects two the first side walls, belt briquetting 30 is arranged on one end away from the second sidewall of diapire, and magnetic patch 40 is fixed on the second sidewall.As shown in Figure 2, preferably, the second sidewall is provided with the second installation through hole 24 for installing magnetic patch 40.
In the present embodiment, battery feedway also comprises the first guide rail, the second guide rail, the first positioning sliding block and the second positioning sliding block, first guide rail and the second guide rail parallel arrange and are positioned at the both sides of belt 10, first positioning sliding block and the second positioning sliding block are fixed on the lower surface of diapire, first positioning sliding block has the first chute coordinated with the first guide rail, and the second positioning sliding block has the second chute coordinated with the second guide rail.
In prior art, positioning sliding block is two, two positioning sliding blocks are set up in parallel along the moving direction perpendicular to belt, during such transports cell, magnetic patch base easily rocks, magnetic patch base fluctuation of service, magnetic patch also can and then rock, magnetic patch base easy sideslip during transports cell, and then when causing magnetic patch to dock with battery, docking is inaccurate.After when magnetic patch base long operational time, the positioning sliding block on guide rail easily damages, and then increases equipment cost.
For the problems referred to above, in the present embodiment, the first positioning sliding block is multiple, and multiple first positioning sliding block is arranged on magnetic patch base 20 along the moving direction of belt 10.During such transports cell, magnetic patch base 20 is not easy to rock, improve the operation stability of magnetic patch base 20, and then dock when magnetic patch base 20 is docked with magnetic patch 40 accurately, the time that battery transports can be shortened, and then extend the life-span of the first positioning sliding block and miscellaneous part, cost-saving.Preferably, the first positioning sliding block is two.Two the first positioning sliding block structures are simple, easy to process, easy and simple to handle, effectively reduce maintenance cost.
In the present embodiment, the first positioning sliding block and magnetic patch base 20 are bolted.Bolt fastening structure is simple, easy to use, easy and simple to handle, with low cost.As shown in Figure 2, preferably, magnetic patch base 20 the 3rd installation through hole 21, first positioning sliding block be provided with for wearing bolt is provided with the second tapped bore for coordinating with the outside thread of bolt.More preferably, first positioning sliding block is connected by four bolts with magnetic patch base 20.
In order to improve the operation stability of magnetic patch base 20 further, in the present embodiment, the second positioning sliding block is multiple, and multiple second positioning sliding block is arranged on magnetic patch base 20 along the moving direction of belt 10.During such transports cell, magnetic patch base 20 is more difficult rocks, effectively improve the operation stability of magnetic patch base 20, and then dock when magnetic patch base 20 is docked with magnetic patch 40 more accurate, the time that battery transports can be shortened, and then extend the life-span of the first positioning sliding block and miscellaneous part, cost-saving.Preferably, the second positioning sliding block is two.Two the second positioning sliding block structures are simple, easy to process, easy and simple to handle, effectively reduce maintenance cost.
In the present embodiment, the second positioning sliding block and magnetic patch base 20 are bolted.Bolt fastening structure is simple, easy to use, easy and simple to handle, with low cost.As shown in Figure 2, preferably, magnetic patch base 20 the 4th installation through hole 22, second positioning sliding block be provided with for wearing bolt is provided with the 3rd tapped bore for coordinating with the outside thread of bolt.More preferably, second positioning sliding block is connected by four bolts with magnetic patch base 20.
Use the battery feedway of the present embodiment not only can regulate the degree of tightness of belt 10, also improve the stability of magnetic patch base 20, also greatly reduce the damage rate of belt 10, reduce the damage rate of all parts, effectively improve the efficiency of transports cell.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.