CN104058212A - Lifting and passage distributing device - Google Patents

Abstract

The invention provides a lifting and passage distributing device, and belongs to a bearing table, a hopper, a lifting component and a passage distributing component, wherein an accommodating chamber used for placing a workpiece is formed in the hopper; an opening communicated with the accommodating chamber is formed in one lateral edge of the hopper; the lifting component comprises a vertical lifting belt and a drive piece connected with the lifting belt; the opening of the hopper is connected with the lower end of the lifting belt through a first feeding passage; the lifting component further comprises one or more adsorption pieces capable of adsorbing workpieces on the first feeding passage to the lifting belt; a plurality of placing working stations are arranged on the lifting belt; the passage distribution component comprises at least two second feeding passages and a plurality of rotary tables in one-to-one correspondence with the second feeding passages; the head ends of all the second feeding passages are communicated with each other and form a connecting passage connected with the upper end of the lifting belt; the tail ends of the second feeding passages are arranged in the inlets of corresponding rotary tables respectively. The lifting and passage distributing device is reasonable in design and small in occupied area.

Description

A kind of lifting channel-dividing device

Technical field

The invention belongs to battery production technical field, relate to a kind of lifting channel-dividing device, particularly a kind of lifting channel-dividing device that is applicable to battery steel shell.

Background technology

In prior art, in alkaline battery flow production line, having procedure is workman's stairs, and the battery steel shell of producing is directly toppled in vibration feeder rotating disk, and subsequently, the battery steel shell in vibration feeder rotating disk is transferred and carries out other operations.Said structure design is unreasonable, makes battery steel shell fraction defect higher, inefficiency.

In modern alkaline battery automation production flow line, someone has improved above-mentioned structure, its operation is that the battery steel shell of producing directly transfers on the belt conveyor being obliquely installed, through belt conveyor, be promoted in a transfer passage again, then battery steel shell is poured in vibration feeder rotating disk through transfer passage, subsequently, the battery steel shell in vibration feeder rotating disk is transferred and carries out other operations.Why battery steel shell need to first promote is delivered in vibration feeder rotating disk again, be because the setting position of General Oscillation feeder rotating disk relatively hopper want high, also in order to facilitate, battery steel shell in vibration feeder rotating disk is follow-up can carry out even apportion or permutation, if vibration feeder disk position is arranged lower than hopper, it is larger to the impulsive force of vibration feeder rotating disk when the battery steel shell in hopper unloads, easily damage equipment, reduces service life of equipment.

Existing battery steel shell promotes channel-dividing device and has following defect: one, for preventing battery steel shell landing, reduce the rolling power in battery steel shell course of conveying, the general belt conveyor of selecting is obliquely installed, structure design is unreasonable, make integral device take the larger usable floor area in workshop, cause space waste; Two, transfer passage generally adopts single channel mode to carry battery steel shell in vibration feeder rotating disk, that is to say that battery steel shell is row or a line transmits, so just caused operation below also can only operate by single-row conveyor line, design unreasonable and inefficiency, in addition, the transfer passage of single-row setting will meet the demand of postorder work capacity, and what just its length need to be arranged is long, takies so very much manufacturing line space.

In sum, need to design a kind of reasonable in design and lifting channel-dividing device that area occupied is little.

Summary of the invention

The object of the invention is to have the problems referred to above for existing technology, proposed a kind of reasonable in design and lifting channel-dividing device that area occupied is little.

Object of the present invention can realize by following technical proposal: a kind of lifting channel-dividing device, comprise plummer and be arranged on the hopper on plummer, lifting subassembly, shunting assembly, described hopper has for the cavity volume of place work piece and side and offers the opening communicating with cavity volume, described lifting subassembly comprises the elevator belt of vertical setting and the actuator being connected with elevator belt, the opening part of described hopper is connected with the lower end of elevator belt by the first feeding channel, described lifting subassembly also comprises can be by the absorption of workpieces on the first feeding channel at least one adsorption piece on elevator belt, on described elevator belt, be provided with some stations of laying, described shunting assembly comprises at least two the second feeding channels and some and the second feeding channel rotating disk one to one, the head end UNICOM of each second feeding channel also forms the interface channel being connected with elevator belt upper end, the end of each second feeding channel is separately positioned on corresponding rotating disk entrance.

In above-mentioned a kind of lifting channel-dividing device, described hopper below is removably provided with the vibrator being connected with hopper, and the cavity volume madial wall of described hopper seamlessly transits to opening.

In above-mentioned a kind of lifting channel-dividing device, described elevator belt is belt, and described adsorption piece is that magnet and quantity are one, and described adsorption piece is arranged on plummer and with elevator belt and lays bottom the corresponding setting of station.

In above-mentioned a kind of lifting channel-dividing device, on the outer peripheral face of described elevator belt, uniform ring is around the mounting sheet that is distributed with some horizontally sets, and each is laid station and forms by adjacent two mounting sheet clampings.

In above-mentioned a kind of lifting channel-dividing device, described elevator belt is covered with support outward, each second feeding channel is all opened on support, described support upper end offers one can hold the outlet that single workpiece passes through, described interface channel is connected with outlet, described in lay station height be slightly less than the height of outlet.

In above-mentioned a kind of lifting channel-dividing device, described interface channel is connected with outlet by connecting panel, and described connecting panel is installed on support, and described connecting panel partly stretches out the outer peripheral face setting of outlet adjacent mounting sheet, and described connecting panel is silica gel plate.

In above-mentioned a kind of lifting channel-dividing device, the entrance of each the second feeding channel is equipped with the block piece that can stop workpiece to move on, and each block piece is all movably arranged on support, and each block piece is all connected with force piece.

In above-mentioned a kind of lifting channel-dividing device, described block piece is the baffle plate being located on support, and described force piece is rack-mount cylinder, and the second feeding channel inductor one to one is also installed on described support.

In above-mentioned a kind of lifting channel-dividing device, the quantity of described the second feeding channel is two, and described the first feeding channel, two second feeding channels all can hold a row battery steel shell to be passed through.

In above-mentioned a kind of lifting channel-dividing device, described the first feeding channel, each second feeding channel are all obliquely installed, the both sides of described the first feeding channel respectively outward extend to form first and protect edge, and the both sides of each the second feeding channel respectively outward extend to form second and protect edge.

Compared with prior art, the present invention is transported in corresponding rotating disk through the battery steel shell of hopper separation successively vertical-lifting shunting, so that the battery steel shell in rotating disk can be transferred, carries out other operations, and reasonable in design and area occupied are little.

Accompanying drawing explanation

Fig. 1 is the birds-eye view of a preferred embodiment of the present invention.

Fig. 2 is the front elevation of a preferred embodiment of the present invention.

Fig. 3 is the lateral plan of a preferred embodiment of the present invention.

Fig. 4 is the structural representation of a preferred embodiment of the present invention.

Fig. 5 is the structural representation at another visual angle of Fig. 4.

Fig. 6 is the structural representation of a preferred embodiment of the present invention medium-height trestle.

Fig. 7 is the structural representation at another visual angle of Fig. 6.

Fig. 8 is the structural representation of elevator belt in a preferred embodiment of the present invention.

In figure, 10, plummer; 20, hopper; 21, cavity volume; 22, opening; 30, lifting subassembly; 31, elevator belt; 311, lay station; 312, mounting sheet; 32, actuator; 40, shunting assembly; 41, the second feeding channel; 411, second protect edge; 42, rotating disk; 43, interface channel; 44, connecting panel; 45, block piece; 46, force piece; 50, the first feeding channel; 51, first protect edge; 60, support; 61, outlet.

The specific embodiment

Be below specific embodiments of the invention by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiment.

The present invention protects a kind of lifting channel-dividing device, and workpiece is preferably battery steel shell (not shown), and this lifting channel-dividing device is applicable to battery steel shell aspect, also applicable to the occasion of other similar battery steel shell workpiece.In addition,, for increasing work efficiency and considering practical application matters, the rotating disk in the present invention is preferably vibration feeder rotating disk, also can according to the actual requirements vibration feeder rotating disk be replaced with to other rotating disks, is not limited only to vibration feeder rotating disk.

Traditional production line for manufacturing battery is all manually to topple over aloft battery steel shell conventionally, and lost labor and consuming time of a specified duration, causes the fraction defect of battery steel shell higher; And the design of existing battery steel shell lifting channel-dividing device lift structure is unreasonable, make integral device take the larger usable floor area in workshop, and adopt single channel mode to carry battery steel shell in rotating disk 42, when the battery steel shell of every batch of production is more, just need to extend very long product line, take up room very much.If by the first vertical-lifting of battery steel shell, and shunting flows to postorder below, is conducive to save and produces space of lines and increase work efficiency.Therefore it is necessary, lifting channel-dividing device being set on production line for manufacturing battery.

Lifting channel-dividing device of the present invention is for being transported to the battery steel shell through hopper 20 separation successively vertical-lifting shunting in corresponding rotating disk 42, so that being transferred, the battery steel shell in rotating disk 42 carries out other operations, reasonable in design and area occupied are little, fraction defect is low, save cost of labor, improved work efficiency.

As shown in Figures 1 to 5, this lifting channel-dividing device comprises plummer 10 and is arranged on the hopper 20 on plummer 10, lifting subassembly 30, shunting assembly 40, hopper 20 has for the cavity volume 21 of place work piece and side and offers the opening 22 communicating with cavity volume 21, lifting subassembly 30 comprises the elevator belt 31 of vertical setting and the actuator 32 being connected with elevator belt 31, opening 22 places of hopper 20 are connected with the lower end of elevator belt 31 by the first feeding channel 50, lifting subassembly 30 also comprises can be by the absorption of workpieces on the first feeding channel 50 at least one adsorption piece on elevator belt 31, on elevator belt 31, be provided with a plurality of stations 311 of laying, the arrival end of the first feeding channel 50 is connected with opening 22, the exit end of the first feeding channel 50 is connected with the corresponding station 311 of laying of the lower end of elevator belt 31, adsorption piece can be by the absorption of workpieces of the exit end of the first feeding channel 50 in the correspondence of the lower end of elevator belt 31 be laid station 311.

In the present invention, preferably each is laid station 311 and can carry single workpiece lifting, the gouging abrasion of increasing work efficiency and having avoided too much causing due to workpiece.For ease of workpiece, promote the one-step optimization technical scheme of the present invention of going forward side by side, the height of design elevator belt 31 is greater than the height of hopper 20, and in actual frock process, the height of elevator belt 31 and the height of hopper 20 all should be set according to actual space, workshop.

Workpiece in cavity volume 21 is through opening 22, the first feeding channel 50 enters into correspondence while laying station 311, actuator 32 can drive elevator belt 31 to carry workpiece and vertically move to elevator belt 31 upper ends by elevator belt 31 lower ends, shunting assembly 40 comprises at least two the second feeding channels 41 and a plurality of and the second feeding channel 41 rotating disk 42 one to one, the head end UNICOM of each second feeding channel 41 also forms the interface channel 43 being connected with elevator belt 31 upper ends, the end of each second feeding channel 41 is separately positioned on corresponding rotating disk 42 entrance, when the workpiece of elevator belt 31 upper ends is transported to interface channel 43, workpiece is shunted and is given each the second feeding channel 41 through interface channel 43, workpiece in each second feeding channel 41 finally enters in rotating disk 42 through corresponding rotating disk 42 entrances.

In the lifting channel-dividing device shown in Fig. 1 to Fig. 5, the battery steel shell of producing on production line for manufacturing battery first passes through hopper 20 separation, then battery steel shell is through opening 22, the first feeding channel 50 and be adsorbed and enter into correspondence and lay in station 311, and vertical-lifting shunting are transported in corresponding rotating disk 42 successively then respectively to lay battery steel shell in station 311.Certainly, in the present invention, hopper 20 and the first feeding channel 50 can belong to other local parts of production line for manufacturing battery, also can be used as a part for lifting channel-dividing device of the present invention, or the two one of and drive the required various mechanisms of the belt-driving such as motor, belt pulley of its running and parts all as the part of lifting channel-dividing device of the present invention.

Preferably the height of the elevator belt 31 in the present invention is greater than the height of rotating disk 42, under the effect of workpiece self gravitation, such structure design can make workpiece from the head end landing of the second feeding channel 41 to end, finally enter in corresponding rotating disk 42, rationally distributed and improved transport efficiency.

Actuator 32 in this case, for driving elevator belt 31 to rotate, can be preferably motor and belt pulley combination, simple in structure, and it is also convenient to install.Wherein, elevator belt 31 vertically arranges to save manufacturing line space, and the path of motion of elevator belt 31 should be oval, so that actuator 32 drives elevator belts 31 rotate and back and forth use.

Battery steel shell is the exit to elevator belt 31 by elevator belt 31 entrance vertical-liftings, and whole lifting process is stable, and no touch between adjacent two battery steel shells, has reduced battery steel shell scuffing, has realized automatic assembly line function.

Opening 22 communicates with cavity volume 21 and is opened in the side of hopper 20, rather than open the bottom at hopper 20, the benefit of design is like this: side output makes the battery steel shell in hopper 20 have one section of buffering course, making in the battery steel shell whereabouts output procedure in cavity volume 21 not can overcrowding, the opening 22 that can not concentrate on bottom is gone out, reduce collision and friction between battery steel shell, reduced the generation of substandard products.In the present invention, opening 22 is connected with the lower end of elevator belt 31 by the first feeding channel 50, and the first 50 pairs of feeding channels carry the battery steel shell in way to play guiding and Anti-fall effect, and simple in structure and frock conveniently.

Adsorption piece (not shown) in the present invention can be for single or multiple.If adsorption piece is independent one, can be preferably arranged on elevator belt 31 lower end inner sides 31 settings of adjacent elevator belt, what make that it aims at elevator belt 31 lower ends lays station 311, the effect of adsorption piece is exactly the battery steel shell of the outlet end of the first feeding channel 50 to be adsorbed on to elevator belt 31 correspondence bottom lay in station 311 so, what carry battery steel shell lays station 311 along with elevator belt 31 rises, the next empty station 311 of laying moves to elevator belt 31 lowest positions, above-mentioned adsorption piece continues repeated work, a new battery steel shell is adsorbed into this and laid in station 311, if adsorption piece is designed to lay station 311 corresponding one by one, preferably each adsorption piece is embedded in correspondence and lays station 311 backs, when each adsorption piece is laid station 311 and turned to elevator belt 31 lowest positions along with correspondence, adsorption piece is adsorbed on correspondence by the battery steel shell of the outlet end of the first feeding channel 50 and lays in station 311 so.Reasonable in design and the compact in design of said structure, flexible for installation, use simple and conveniently, adsorption piece absorption battery steel shell is firm, follow-up without the frequent adsorption piece of changing.In addition, it is worth mentioning that, elevator belt 31 turning efforts of the present invention can ensure the adsorption affinity that is greater than adsorption piece, when to make adsorption piece be single, elevator belt 31 can take away battery steel shell is housed bottom lay station 311.

What in the present invention, on elevator belt 31, arrange lays station 311 and can take in battery steel shell, and elevator belt 31 lifting process are steady, lay station 311 and cooperatively interact with adsorption piece, can be designed to groove, can prevent battery steel shell landing.

In the present invention, be provided with at least two the second feeding channels 41 and with the second feeding channel 41 a plurality of rotating disks 42 one to one, the head end UNICOM of each second feeding channel 41 also forms the interface channel 43 being connected with elevator belt 31 upper ends.Such structure design makes can shunt battery steel shell after this lifting channel-dividing device, has reduced the applicable area in workshop, and the manufacturing line of original single-row operation, can switch to now multiple row manufacturing line and operate simultaneously, and corresponding postorder work efficiency has also promoted.

In prior art, the opening 22 of hopper 20 is generally driveed in bottom, and opening 22 is directly connected with elevator belt 31.As everyone knows, in the cavity volume 21 of hopper 20, the shape that battery steel shell is arranged is fitfull, battery steel shell is steel band punching, steel band is all very thin, so if battery steel shell oral area is very thin, add the pressure that the top-down gravity of a lot of battery steel shells forms, the minimum place particularly bordering at elevator belt 31 and hopper 20, add battery steel shell residual buildup, the pressure that the battery steel shell of bottommost is subject to will be large especially, when elevator belt 31 promotes, the oral area of the battery steel shell of bottommost is just as blade, damage that will be larger to elevator belt 31, can be the surperficial scratch of elevator belt 31, after having a breach, will progressively deepen, add that battery steel shell is smooth not, not only easily cause 31 life-spans of elevator belt short, and can make battery steel shell distortion.

Therefore,, for addressing the above problem, the opening 22 in one, this case is opened in the side of hopper 20; Two, hopper 20 belows are removably provided with the vibrator (not shown) being connected with hopper 20, vibrator can facilitate and accelerate the fill process of battery steel shell, cavity volume 21 madial walls of hopper 20 seamlessly transit to opening 22, and mellow and full molten cavity wall plays lubricated and anticollision effect to battery steel shell.

In the present invention, battery steel shell itself is by while vibrating the discharging of rolling, pressure cell thrust between battery steel shell has been cancelled most, and opening 22 battery steel shell out is directly adsorbed part by the first feeding channel 50 and adsorbs into laying in station 311, for the pressure of the relatively above-mentioned prior art of pressure of elevator belt 31, be much smaller.In addition, even when fraction battery steel shell touches elevator belt 31 or touches elevator belt 31 soon, adsorbed to walk with regard to the adsorption piece being raised with 31 rears, the residence time is shorter, to elevator belt 31, substantially can not produce too macrolesion, has extended service life of equipment.

Preferably, elevator belt 31 is belt, easy to process and cost is lower.Adsorption piece is arranged on plummer 10 and with elevator belt 31 and lays bottom the corresponding setting of station 311, and the adsorption piece in the present invention can adopt mechanism and the equipment that can adsorb battery steel shell.Obviously, negative pressure equipment is exactly that one of them can play adsorbing adsorption piece to battery steel shell.In addition, for reducing costs, the invention provides structure adsorption piece more simply, easily and effectively, adsorption piece quantity is one and is magnet.This scheme is simple in structure, reasonable in design and can not take larger workshop area, and can be according to different demand allotment adsorption piece quantity, adsorption piece and the ratio of laying station 311, and commonality is wide, and alerting ability is large.

In conjunction with shown in Fig. 1 to Fig. 8, preferably, on the outer peripheral face of elevator belt 31, uniform ring is around the mounting sheet 312 that is distributed with a plurality of horizontally sets, each is laid station 311 and forms by adjacent two mounting sheet 312 clampings, the outer support 60 that is covered with of elevator belt 31, each second feeding channel 41 is all opened on support 60, and support 60 upper ends offer one can hold the outlet 61 that single workpiece passes through, interface channel 43 is connected with outlet 61, and the height of laying station 311 is slightly less than the height of outlet 61.

In the actual course of processing, can landing for guaranteeing to lay the interior battery steel shell of station 311, should design mounting sheet 312 and slightly upwarp.Because battery steel shell is generally laterally to roll into lay in station 311, the height of therefore laying station 311 should design the diameter that is slightly larger than battery steel shell, simple in structure and can make lifting process steady, makes not landing easily of battery steel shell in lifting process.The second feeding channel 41 is opened on support 60, is convenient to Assembly &Disassembly, outlet 61 and interface channel 43 coordinate closely, and in this case, integral structure transmits battery steel shell process without careless mistake, and battery steel shell transport process is steady, is difficult for landing.In addition, support 60 also plays certain support and protective effect.

Preferably, interface channel 43 is connected with outlet 61 by connecting panel 44, and connecting panel 44 is installed on support 60, and connecting panel 44 parts are stretched out the outer peripheral face setting of outlet 61 adjacent mounting sheet 312.Wherein the outer peripheral face of adjacent each mounting sheet 312 of connecting panel 44 is around the curved surface forming, that is to say when elevator belt 31 carries battery steel shell and moves to exit, Action of Gravity Field due to battery steel shell, it departs from laying station 311 and dropping on connecting panel 44 through opening 22 of elevator belt 31, then via one of them second feeding channel 41, enter in corresponding rotating disk 42, topology layout is reasonable and easy for installation.

Further, connecting panel 44 is silica gel plate.Silica gel plate has certain elasticity, when battery steel shell rises to highest point, will be free to fall on connecting panel 44, connecting panel 44 can prevent that battery steel shell from snapping in the gap of elevator belt 31 and interface channel 43, when elevator belt 31 remains in operation, the connecting panel 44 of adjacent setting can slightly be swiped with mounting sheet 312, and then the battery steel shell just having dropped is applied to a propelling thrust, accelerate battery steel shell and enter in rotating disk 42 through corresponding the second feeding channel 41, reasonable in design and layout are ingenious.

Preferably, the entrance of each the second feeding channel 41 is equipped with the block piece 45 that can stop workpiece to move on, and each block piece 45 is all movably arranged on support 60, and each block piece 45 is all connected with force piece 46.Above-mentioned each parts layout is tight, force piece 46 can be controlled block piece 45 open and closes, and then realization opens or closes the effect of the entrance of corresponding the second feeding channel 41, Assembly &Disassembly is all more convenient and can realize Long-distance Control, degree of automation is high, alerting ability is large, and operator can control at any time the second feeding channel 41 and open or close in needs, for postorder running facilitates.

Further preferably, block piece 45 is for to be located in the baffle plate on support 60, and force piece 46, for to be arranged on the cylinder on support 60, is also provided with the second feeding channel 41 inductor one to one on support 60.Cylinder can be controlled baffle plate and stretches out or regain, and baffle plate and air cylinder structure are simple and area occupied is little, can meet real work demand by equipment, simple to operate; It is convenient that inductor can be convenient to postorder running, when the battery steel shell quantity of passing through at a certain the second feeding channel 41 (rotating disk 42) reaches certain value, backstage can control block piece 45 by the temporary transient sealing of this second feeding channel 41 or from newly opening, reasonable in design and work efficiency are high.

Preferably, the first feeding channel 50, two second feeding channels 41 all can hold a row battery steel shell and pass through, and so both can prevent battery steel shell extruding and collision in course of conveying, have reduced fraction defect, can play certain directional tagging to battery steel shell again, increase work efficiency.

As preferred version, the quantity that designs the second feeding channel 41 is two, lifting channel-dividing device postorder of the present invention can be realized two above battery steel shell conveyor line runnings, if controlling block piece 45 by force piece 46 closes one of them second feeding channel 41, can realize the wall scroll battery steel shell conveyor line running of prior art, to meet postorder process requirements; Certainly, in order to realize running more expeditiously, generally can open two above battery steel shell conveyor lines simultaneously, at each rotating disk 42 rears, carry out respectively postorder processing work separately; In addition, also can open part battery steel shell conveyor line, correspondence is closed indivedual battery steel shell conveyor lines, to realize postorder work allocation optimization, goes round and begins again, and makes the continuous operations of this lifting channel-dividing device energy, reasonable in design and work efficiency is high.

Preferably, the first feeding channel 50, each second feeding channel 41 are all obliquely installed, and the both sides of the first feeding channel 50 respectively outward extend to form first and protect along 51, and the both sides of each the second feeding channel 41 respectively outward extend to form second and protect along 411.Respectively protect along reasonable in design, can not only prevent battery steel shell landing and play directional tagging, can also prevent that battery steel shell from mutually colliding and producing wearing and tearing.

This lifting channel-dividing device is under initial condition, unit design is reasonable and area occupied is little, battery steel shell through hopper 20 separation, first by opening 22, through the first feeding channel 50, by elevator belt 31 lower ends, enter elevator belt 31 again, elevator belt 31 carries battery steel shell vertical-lifting, when battery steel shell rises to highest point, will be free to fall on connecting panel 44, when elevator belt 31 remains in operation, connecting panel 44 can slightly be swiped with mounting sheet 312, and then the battery steel shell just having dropped is applied to a propelling thrust, accelerating battery steel shell enters in corresponding rotating disk 42 through corresponding the second feeding channel 41,

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various modifications or supplement or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Claims (10)

1. one kind promotes channel-dividing device, it is characterized in that, comprise plummer and be arranged on the hopper on plummer, lifting subassembly, shunting assembly, described hopper has for the cavity volume of place work piece and side and offers the opening communicating with cavity volume, described lifting subassembly comprises the elevator belt of vertical setting and the actuator being connected with elevator belt, the opening part of described hopper is connected with the lower end of elevator belt by the first feeding channel, described lifting subassembly also comprises can be by the absorption of workpieces on the first feeding channel at least one adsorption piece on elevator belt, on described elevator belt, be provided with some stations of laying, described shunting assembly comprises at least two the second feeding channels and some and the second feeding channel rotating disk one to one, the head end UNICOM of each second feeding channel also forms the interface channel being connected with elevator belt upper end, the end of each second feeding channel is separately positioned on corresponding rotating disk entrance.

2. a kind of lifting channel-dividing device according to claim 1, is characterized in that, described hopper below is removably provided with the vibrator being connected with hopper, and the cavity volume madial wall of described hopper seamlessly transits to opening.

3. a kind of lifting channel-dividing device according to claim 1 and 2, is characterized in that, described elevator belt is belt, and described adsorption piece is that magnet and quantity are one, and described adsorption piece is arranged on plummer and with elevator belt and lays bottom the corresponding setting of station.

4. a kind of lifting channel-dividing device according to claim 1 and 2, is characterized in that, on the outer peripheral face of described elevator belt, uniform ring is around the mounting sheet that is distributed with some horizontally sets, and each is laid station and forms by adjacent two mounting sheet clampings.

5. a kind of lifting channel-dividing device according to claim 1 and 2, it is characterized in that, described elevator belt is covered with support outward, described each second feeding channel is opened on support, described support upper end offers one can hold the outlet that single workpiece passes through, described interface channel is connected with outlet, described in lay station height be slightly less than the height of outlet.

6. a kind of lifting channel-dividing device according to claim 5, it is characterized in that, described interface channel is connected with outlet by connecting panel, and described connecting panel is installed on support, described connecting panel partly stretches out the outer peripheral face setting of outlet adjacent mounting sheet, and described connecting panel is silica gel plate.

7. a kind of lifting channel-dividing device according to claim 5, it is characterized in that, the entrance of each the second feeding channel is equipped with the block piece that can stop workpiece to move on, and each block piece is all movably arranged on support, and each block piece is all connected with force piece.

8. a kind of lifting channel-dividing device according to claim 7, is characterized in that, described block piece is the baffle plate being located on support, and described force piece is rack-mount cylinder, and the second feeding channel inductor one to one is also installed on described support.

9. a kind of lifting channel-dividing device according to claim 1 and 2, is characterized in that, the quantity of described the second feeding channel is two, and described the first feeding channel, two second feeding channels all can hold a row battery steel shell to be passed through.

10. a kind of lifting channel-dividing device according to claim 1 and 2, it is characterized in that, described the first feeding channel, each second feeding channel are all obliquely installed, the both sides of described the first feeding channel respectively outward extend to form first and protect edge, and the both sides of each the second feeding channel respectively outward extend to form second and protect edge.