CN102120525A

CN102120525A - Plate turning device

Info

Publication number: CN102120525A
Application number: CN2010106202719A
Authority: CN
Inventors: 王小明; 成岳峰; 周定坤; 廖兴群; 孔令坤; 李文良
Original assignee: Shenzhen Highpower Technology Co Ltd
Current assignee: Shenzhen Highpower Technology Co Ltd
Priority date: 2010-12-31
Filing date: 2010-12-31
Publication date: 2011-07-13
Anticipated expiration: 2030-12-31
Also published as: CN102120525B

Abstract

The invention relates to a plate turning device which comprises a conveyor belt, a press roll, a detector, a controller and a plate turning component, wherein the conveyor belt is used for conveying a first anode plate and a second anode plate with a lug phase difference of 180 degrees; the press roll limits the first anode plate and the second anode plate so that the first anode plate or the second anode plate is conveyed to the plate turning component along a conveying direction; the detector is used for detecting the first anode plate and the second anode plate and generating a signal that is sent to the controller; and the controller receives the signal, controls the plate turning component to lift the first anode plate or the second anode plate when the first anode plate or the second anode plate is conveyed to the plate turning component, and turns the first anode plate or the second anode plate during the conveying of the conveyor belt and the limit of the press roll. The plate turning device provided by the invention automatically turns the anode plates without needing manual operation, thereby greatly saving time and cost, remarkably improving the production efficiency, lowering the production cost and ensuring continuous production.

Description

Slice turning device

[technical field]

The present invention relates to a kind of slice turning device, relate in particular to a kind of slice turning device of battery anode slice.

[background technology]

At present, in the battery anode slice production process,, need that continuous pole piece is carried out branch and cut out for obtaining the positive plate of required form.

Fig. 1 is that the conventional batteries positive plate divides the sanction scheme drawing.Traditional handicraft, normally by feed appliance with roll extrusion after and continuous pole piece feeding divide sanction continuously to slitting machine, divide to be cut into single positive plate.Divide the lug phase difference of cutting out adjacent two

positive plates

11,12 in back 180 degree.Back operation production for convenience need be with

positive plate

11,12 rankings again, and the lug position that makes

positive plate

11,12 is in same direction.

At present,

positive plate

11,12 ranking is again mostly adopted manual type, with

positive plate

11 or 12 upsets, make

positive plate

11,12 lug positions in same direction, but manual operation is consuming time and cost is high, production efficiency is low, be unfavorable for reducing production costs, and carrying out continuously of can't guaranteeing to produce.

[summary of the invention]

In view of this, be necessary to provide a kind of slice turning device that automatically positive plate is overturn.

A kind of slice turning device comprises: belt conveyor, nip drum, detector, controller and turn over chip module; Described belt conveyor is used to transmit first positive plate and second positive plate that the lug phase place differs 180 degree, the end of described nip drum and described belt conveyor direction of transfer is oppositely arranged, described slice turning device is arranged on described nip drum rear along direction of transfer, and and between the described nip drum distance less than the first positive plate width, described nip drum carries out spacing to first positive plate and second positive plate, make described first positive plate or second positive plate deliver to the described chip module that turns over along direction of transfer, described detector is used to detect first positive plate and second positive plate and produces signal and meets at controller, described controller received signal and deliver to described when turning over chip module at first positive plate or second positive plate, control the described chip module that turns over first positive plate or second positive plate are sling, spacing time first positive plate or second positive plate are overturn in described belt conveyor transmission and nip drum.

Preferably, described detector is arranged on described nip drum the place ahead along direction of transfer.

Preferably, the described dorsad belt conveyor direction of transfer of the lug of described first positive plate, the lug of described second positive plate are towards described belt conveyor direction of transfer, and described slice turning device is sling described first positive plate.

Preferably, the described chip module that turns over comprises and turns over the sheet cylinder and turn over the sheet frock; Turn over the sheet cylinder and accept described controller control, have piston rod, described piston rod is along turning over sheet cylinder axial stretching, and the described sheet frock of turning over is connected with described piston rod.

Preferably, the flexible vertical described belt conveyor direction of transfer of direction of described piston rod.

Preferably, the described sheet frock of turning over is a C type structure, and an end is connected with described piston rod, and an end is not higher than described belt conveyor transmission plane.

Preferably, described controller receives detector and detects the signal that first positive plate sends, and arrives when turning over the sheet frock at first positive plate, and control is turned over the sheet cylinder and shunk by the state of stretching out, and drives to turn over the sheet frock and first positive plate is sling overturn.

Preferably, described controller receives after detector detects second positive plate and pass through the signal that is sent, and the sheet cylinder state that remains retracted is turned in control, and the described sheet cylinder that turns over of control stretches out after second positive plate is by described nip drum.

Preferably, described controller is determined the moment of described second positive plate by described nip drum according to distance, the second positive plate width and described belt conveyor transfer rate between described detector and the nip drum.

Preferably, described controller judges that according to described detector and described distance, the first positive plate width and the described belt conveyor transfer rate of turning between the chip module first positive plate sends to the described moment of turning over chip module.

Above-mentioned slice turning device, belt conveyor transmits first positive plate and second positive plate, carry out spacing at the terminal nip drum of belt conveyor to first positive plate and second positive plate, win positive plate and second positive plate can be delivered to turn over chip module, controller is controlled after receiving the signal of detector and is turned over chip module and first positive plate and second positive plate are sling overturn, thereby make the positive plate of winning identical with the second positive plate lug phase place, automatically positive plate is overturn, need not manual operation, save plenty of time and cost, enhance productivity greatly, reduce production costs, guaranteed the continuity of producing.

[description of drawings]

Fig. 1 is that the conventional batteries positive plate divides the sanction scheme drawing;

Fig. 2 is the structural representation of slice turning device among the embodiment;

Fig. 3 be among the embodiment this slice turning device turn over scheme drawing before the sheet;

Fig. 4 be among the embodiment this slice turning device turn over scheme drawing in the sheet;

Fig. 5 be among the embodiment this slice turning device turn over scheme drawing behind the sheet.

[specific embodiment]

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.

Fig. 2 is the structural representation of slice turning device among the embodiment.This slice turning device comprises: belt conveyor 100, nip drum 200, detector 300, turn over chip module 400 and controller 500.

Belt conveyor 100 is used for transmitting continuously being cut to single positive plate, first positive plate 600 as shown in the figure and second positive plate 700.First positive plate 600 and second positive plate, 700 both lugs are phasic difference 180 degree mutually, are spaced apart from each other.Among this embodiment, the lug of first positive plate 600 is carried on the back towards belt conveyor 100 direction of transfers, and the lug of second positive plate 700 is towards belt conveyor 100 direction of transfers.

Nip drum 200 is arranged on belt conveyor 100 ends (end of belt conveyor 100 on direction of transfer), transmits the plane with belt conveyor 100 and is oppositely arranged, and is used for carrying out spacing to first positive plate 600 and second positive plate 700.

Among this embodiment, first positive plate 600 and second positive plate 700 are when arriving belt conveyor 100 ends, because the continuation of belt conveyor 100 transmits and first positive plate 600 and second positive plate, 700 self gravitations, when first positive plate 600 and second positive plate 700 exceed belt conveyor 100 ends in center of gravity, promptly drop from belt conveyor 100, can't send to and turn over chip module 400, make that turning over chip module 400 can't overturn to first positive plate 600 or second positive plate 700.

Nip drum 200 is oppositely arranged with belt conveyor 100 ends, and distance is adaptive with first positive plate, 600 thickness between nip drum 200 and the belt conveyor 100.First positive plate 600 and second positive plate 700 are by passing through between nip drum 200 and the belt conveyor 100, nip drum 200 makes first positive plate 600 and second positive plate 700 advance along belt conveyor 100 direction of transfers at belt conveyor 100 ends, surpass belt conveyor 100 when terminal in first positive plate 600 and second positive plate, 700 centers of gravity, because nip drum 200 spacing on positive plate perk direction, win positive plate 600 and second positive plate 700 are still advanced along direction of transfer, and before stretch out belt conveyor 100 ends, until first positive plate 600 and second positive plate 700 fully by nip drum 200.

Detector 300 is arranged on the place ahead of nip drum 200 along direction of transfer, is used to detect first positive plate 600 and second positive plate 700 and sends signals to controller 500.

Turn over chip module 400 and be arranged on along direction of transfer and be arranged on nip drum 200 rears, and between the nip drum 200 distance less than first positive plate, 600 width.Turn over chip module 400 and accept controller 500 control, with first positive plate 600 or second positive plate 700 by slinging on the belt conveyor 100, belt conveyor 100 transmit and nip drum 200 spacing down, first positive plate 600 or second positive plate 700 are overturn.

Among this embodiment, turn over chip module 400 and comprise and turn over sheet cylinder 410 and turn over sheet frock 420.Turn over sheet cylinder 410 and have piston rod 411, sheet cylinder 400 axial stretchings are turned on piston rod 411 edges, and flexible direction is perpendicular to belt conveyor 100 direction of transfers.Turn over sheet frock 420 and be the C type, an end is connected with piston rod 411, and the other end is not higher than the transmission plane of belt conveyor 100.First positive plate 600 or second positive plate 700 are delivered to and are turned over sheet frock 420 other ends, with its overlap joint.

Turn over sheet cylinder 411 and accept the control of controller 500, send to turning over sheet frock 420 other ends at first positive plate 600 or second positive plate 700 and to shrink, drive is turned over sheet frock 420 and is risen, and turns over sheet frock 420 first positive plate 600 or second positive plate 700 are sling thereby make.

Controller 500 receives the signal of detectors 300, sends at first positive plate 600 or second positive plate 700 and turns over chip module 400 back controls and turn over 400 pairs first positive plates 600 of chip module or second positive plate 700 and sling and overturn.

Among this embodiment, this slice turning device overturns to first positive plate 600, and the lug that makes first positive plate 600 is towards identical with second positive plate 700.Controller 500 is receiving first positive plate 600 through detector 300, behind the signal that detector 300 sends, deliver to when turning over sheet frock 420 (can and turn between the chip module 400 distance and belt conveyor 100 transfer rates determine that first positive plate 600 delivers to the moment of turning over sheet frock 420) according to detector 300 at first positive plate 600, control is turned over sheet cylinder 410 and is shunk by the state of stretching out, and first positive plate 600 is sling overturn.Controller 500 is receiving second positive plate 700 through detector 300, behind the signal that detector 300 sends, sheet cylinder 410 state that remains retracted is turned in control,, control the described sheet cylinder 410 that turns over and stretch out by nip drum 200 back (distance and belt conveyor 100 transfer rates are determined the moment that second positive plate 700 passes through nip drum 200 between can be according to detector 300 and nip drum 200) at second positive plate 700.

In conjunction with Fig. 3 to Fig. 5,100 pairs first positive plates 600 of belt conveyor and second positive plate 700 transport.Transport in the process, when first positive plate 600 and second positive plate 700 passed through detector 300 respectively, detector 300 sent signals to controller 500 respectively.Afterwards, first positive plate 600 continues to transport, at belt conveyor 100 ends, because nip drum 200 is spacing, first positive plate 600 can be transported to along direction of transfer and turn over sheet frock 420, controller 500 controls are turned over sheet cylinder 410 and are shunk, drive is turned over sheet frock 420 and is risen, first positive plate 600 is sling, continuation transmission and nip drum 200 at belt conveyor 100 are spacing following, first positive plate 600 upset 90 also falls to pole piece slide plate 800 by belt conveyor 100, thereby identical with second positive plate, 700 lug phase places, slides at last in the rewinding box 900.Second positive plate 700 does not need to overturn, so when second positive plate 700 passes through end, controller 500 controls are turned over sheet cylinder 410 and are in contraction state, treat that the drop back control of first positive plate 600 turns over sheet cylinder 410 and stretch out, continue first positive plate 600 is overturn, thereby finish upset automatically first positive plate 600, make it identical with second positive plate, 700 lug phase places, do not need manual operation, the efficient height is saved plenty of time and cost.

In other embodiments, turning over chip module also can adopt gear mechanism to carry out lifting.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to claim of the present invention.Should be pointed out that for the person of ordinary skill of the art without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims

1. a slice turning device is characterized in that, comprising: belt conveyor, nip drum, detector, controller and turn over chip module; Described belt conveyor is used to transmit first positive plate and second positive plate that the lug phase place differs 180 degree, the end of described nip drum and described belt conveyor direction of transfer is oppositely arranged, described slice turning device is arranged on described nip drum rear along direction of transfer, and and between the described nip drum distance less than the first positive plate width, described nip drum carries out spacing to first positive plate and second positive plate, make described first positive plate or second positive plate deliver to the described chip module that turns over along direction of transfer, described detector is used to detect first positive plate and second positive plate and produces signal and meets at controller, described controller received signal and deliver to described when turning over chip module at first positive plate or second positive plate, control the described chip module that turns over first positive plate or second positive plate are sling, spacing time first positive plate or second positive plate are overturn in described belt conveyor transmission and nip drum.

2. slice turning device according to claim 1 is characterized in that, described detector is arranged on described nip drum the place ahead along direction of transfer.

3. slice turning device according to claim 1, it is characterized in that, the described dorsad belt conveyor direction of transfer of the lug of described first positive plate, the lug of described second positive plate are towards described belt conveyor direction of transfer, and described slice turning device is sling described first positive plate.

4. slice turning device according to claim 1 is characterized in that, the described chip module that turns over comprises and turns over the sheet cylinder and turn over the sheet frock; Turn over the sheet cylinder and accept described controller control, have piston rod, described piston rod is along turning over sheet cylinder axial stretching, and the described sheet frock of turning over is connected with described piston rod.

5. slice turning device according to claim 4 is characterized in that, the described piston rod vertical described belt conveyor direction of transfer of direction that stretches.

6. slice turning device according to claim 4 is characterized in that, the described sheet frock of turning over is a C type structure, and an end is connected with described piston rod, and an end is not higher than described belt conveyor transmission plane.

7. according to the arbitrary described slice turning device of claim 3 to 6, it is characterized in that, described controller receives detector and detects the signal that first positive plate sends, and when the sheet frock is turned in the arrival of first positive plate, control is turned over the sheet cylinder and is shunk by the state of stretching out, and drives to turn over the sheet frock and first positive plate is sling overturn.

8. slice turning device according to claim 7, it is characterized in that, described controller receives after detector detects second positive plate and pass through the signal that is sent, and the sheet cylinder state that remains retracted is turned in control, and the described sheet cylinder that turns over of control stretches out after second positive plate is by described nip drum.

9. slice turning device according to claim 8 is characterized in that, described controller is determined the moment of described second positive plate by described nip drum according to distance, the second positive plate width and described belt conveyor transfer rate between described detector and the nip drum.

10. slice turning device according to claim 7, it is characterized in that described controller judges that according to described detector and described distance, the first positive plate width and the described belt conveyor transfer rate of turning between the chip module first positive plate sends to the described moment of turning over chip module.