CN203774411U - Full-automatic lithium battery cell forming machine - Google Patents

Abstract

The utility model discloses a full-automatic lithium battery cell forming machine. The full-automatic lithium battery cell forming machine comprises a drive device, a transmission device, a machining device and a feeding device, wherein the feeding device specifically comprises a blanking slot and a rolling shaft, wherein the blanking slot is formed in the front upper side of the rolling shaft; a plurality of machining slots are formed in the rolling shaft; a bearing at the left side of the rolling shaft is driven by a cam mechanism; the cam mechanism is arranged on a secondary transmission shaft; a primary transmission shaft drives the secondary transmission shaft to rotate; the primary transmission shaft is supplied with power by a motor; the motor is connected with a gearbox; the gearbox is connected with the primary transmission shaft; a mould used for machining a lithium battery cell is arranged at the right side of the rolling shaft; during machining, the cam mechanism on the primary transmission shaft drives the mould to move leftwards. The full-automatic lithium battery cell forming machine disclosed by the utility model further can improve the machining precision to +/-0.01mm. Besides, power of a punch is 15kW while the power of the full-automatic lithium battery cell forming machine is only 0.75kW. Compared with a machine tool, the full-automatic lithium battery cell forming machine disclosed by the utility model has a simpler structure; compared with a conventional lithium battery cell machining tool, the full-automatic lithium battery cell forming machine disclosed by the utility model is lower in energy consumption, lower in cost, higher in efficiency and higher in machining precision.

Description

A kind of full-automatic lithium cell core forming machine

Technical field

The utility model relates to lithium battery manufacture field, relates in particular to a kind of full-automatic lithium cell core forming machine.

Background technology

The method of processing lithium cell core adopts the method for punch press processing mostly at present, and punch press is processed with very many shortcomings, be exactly typically cost and quality problems, because punch press processing all needs workman that lithium cell core to be processed is put into punch press at every turn, due to each difference of putting position and the vibration of punch press work in-process self, the trade union that adds of punch press produces very large error, affect precision, and the power of punch press is very high, except high energy consumption, the mould that punch press uses is also wanted ten of thousands, has greatly increased processing cost.

Utility model content

The utility model aims to provide a kind of full-automatic lithium cell core forming machine.

For realizing above-mentioned technical purpose, the utility model provides following technical scheme, a kind of full-automatic lithium cell core forming machine, comprise drive unit, transmission device, processing unit (plant) and pay-off, pay-off specifically comprises blanking groove and roller bearing, blanking groove is the groove of storing, width is consistent with lithium cell core, blanking groove is located at the front upper place of roller bearing, described roller bearing is provided with several processing grooves, the diameter of processing groove is identical with the diameter of lithium cell core, width is less than the width of lithium cell core, the bearing in roller bearing left side is driven by cam mechanism, cam mechanism is located on counter drive shaft, counter drive shaft is located at the below of pay-off, final drive shaft drives the counter drive shaft at cam mechanism place to rotate, the power of final drive shaft is provided by motor, motor connects gearbox, gearbox connects final drive shaft, the rear of roller bearing is provided with felt, felt connects cam mechanism, cam mechanism is located on counter drive shaft equally, the right side of roller bearing is provided with for processing the mould of lithium cell core, add cam mechanism driving mould on final drive shaft in man-hour to left movement, driving the cam mechanism of roller bearing and felt motion is all to provide power by counter drive shaft, counter drive shaft is directly driven by final drive shaft, the characteristics of motion of the cam mechanism on counter drive shaft and cam mechanism on final drive shaft is consistent so, during forming machine running, cooperatively interact, blanking place, roller bearing top is also provided with directive wheel, directive wheel props up roller bearing, directive wheel drives its rotation by a rotation axis, the power of rotation axis is provided by the processing power transmission shaft being located between roller bearing and final drive shaft, processing power transmission shaft is by final drive shaft driven rotary.

As preferably, described roller bearing is gear-bearing, and the reciprocating motion of cam mechanism can advance a lattice gear every a period of time.

As preferably, described roller bearing is evenly distributed with 12 processing grooves, the every propelling one lattice gear of reciprocating motion of cam mechanism, roller bearing also can rotate 1/12nd circle thereupon, after completing once promotion, cam mechanism is got back to original position, the mould of now processing lithium cell core completes once homing after the processing of lithium cell core to left movement under the promotion of cam mechanism, and meanwhile felt also can prop up processed lithium cell core under the effect of cam mechanism, after machining, gets back to original position.

As preferably, the right-hand member of counter drive shaft is umbrella gear, matches with the umbrella gear on final drive shaft, and final drive shaft reaches counter drive shaft by umbrella gear by power.

As preferably, counter drive shaft is located at the below of pay-off.

As preferably, the power of described processing power transmission shaft is provided by final drive shaft, and the processing drive plate at power transmission shaft top adopts ox-hide band to couple together with the drive plate at final drive shaft top, and the rotation by final drive shaft drive plate drives processes power transmission shaft and rotate.

As preferably, the bevel gear at processing power transmission shaft middle part and the bevel gear of the rotation axis right-hand member incompatible drive rotation axis that matches rotates.

As preferably, described directive wheel is provided with two, is positioned at the both sides of roller bearing.

A kind of full-automatic lithium cell core forming machine of the utility model design, the punch press that has replaced the use of lithium cell core processing in the past, roller bearing adopts gear-bearing, the reciprocating motion of cam mechanism all can advance a lattice gear every a period of time, and roller bearing is evenly distributed with 12 processing grooves, the every propelling one lattice gear of reciprocating motion of cam mechanism, roller bearing also can rotate 1/12nd circle thereupon, after completing once promotion, cam mechanism is got back to original position, the mould of now processing lithium cell core completes once to homing after the processing of lithium cell core to left movement under the promotion of cam mechanism, meanwhile felt also can prop up processed lithium cell core under the effect of cam mechanism, after machining, get back to original position, only need in blanking groove, put into lithium cell core man-hour adding like this, and add man-hour directive wheel and felt can prop up roller bearing, directive wheel is pressed into processing groove by the lithium cell core that falls into roller bearing processing groove from blanking groove, guarantee the smooth of lithium cell core, machining rear lithium cell core can automatically fall under the effect of gravity below roller bearing, can greatly reduce human cost, and adopt the utility model the precision of processing can also be increased to positive and negative 0.01mm, the machining accuracy of punch press is positive and negative 0.02mm, in addition, the power of punch press is 15kW, and power of the present utility model only needs 0.75kW, the relative lathe of structure of the present utility model is also simpler, the cost of each parts is all very low, relatively traditional lithium cell core machining tool, the utility model energy consumption is lower, cost is lower, efficiency is higher, machining accuracy is higher.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage accompanying drawing below combination obviously and is easily understood becoming the description of embodiment, wherein:

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the end view of the utility model embodiment.

In figure: 1, blanking groove; 2, roller bearing; 3, gear-bearing; 4, felt; 5, counter drive shaft; 6, final drive shaft; 7, processing mold; 8, processing power transmission shaft; 9, rotation axis; 10, directive wheel; 11, drive plate (); 12, bevel gear (); 13, bevel gear (two); 14, bevel gear (three); 15, bevel gear (four); 16, cam mechanism (); 17, cam mechanism (two); 18, cam mechanism (three); 19, ox-hide band; 20, motor; 21, reduction box; 22, drive plate (two); 23, processing groove.

Embodiment

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of identical or similar functions from start to finish.Below by the embodiment being described with reference to the drawings, be exemplary, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, unless otherwise prescribed and limit, it should be noted that, term " installation ", " being connected ", " connection " should be interpreted broadly, for example, can be mechanical connection or electrical connection, can be also the connection of two element internals, can be to be directly connected, also can indirectly be connected by intermediary.For the ordinary skill in the art, can understand as the case may be the concrete meaning of above-mentioned term.

Below with reference to Fig. 1 to Fig. 2, describe according to the full-automatic lithium cell core forming machine of the utility model embodiment.A kind of full-automatic lithium cell core forming machine, comprise drive unit, transmission device, processing unit (plant) and pay-off, pay-off specifically comprises blanking groove 1 and roller bearing 2, the groove that blanking groove 1 is storing, width is consistent with lithium cell core, blanking groove 1 is located at the front upper place of roller bearing 2, described roller bearing 2 is provided with several processing grooves 23, the diameter of processing groove 23 is identical with the diameter of lithium cell core, width is less than the width of lithium cell core, the bearing in roller bearing 2 left sides is driven by cam mechanism () 16, described roller bearing is gear-bearing 3, cam mechanism (one) 16 is located on counter drive shaft 5, counter drive shaft 5 is located at the below of pay-off, final drive shaft 6 drives the counter drive shaft 5 at cam mechanism (one) 16 place to rotate, the right-hand member of counter drive shaft 5 is umbrella gear (three) 14, match with the umbrella gear (four) 15 on final drive shaft 6, final drive shaft 6 reaches counter drive shaft 5 by umbrella gear by power, the power of final drive shaft 6 is provided by motor 20, motor 20 connects gearbox 21, gearbox 21 connects final drive shaft 6, the rear of roller bearing 2 is provided with felt 4, felt 4 connects cam mechanism (two) 17, cam mechanism (two) 17 is located on counter drive shaft 5 equally, the right side of roller bearing 2 is provided with for processing the mould 7 of lithium cell core, add cam mechanism (three) 18 driven molds 7 on final drive shaft 6 in man-hour to left movement, driving the cam mechanism of roller bearing 3 and felt 4 motions is all to provide power by counter drive shaft 5, on counter drive shaft 5, directly by final drive shaft 6, driven, the characteristics of motion of the cam mechanism on counter drive shaft 5 and cam mechanism (three) 18 on final drive shaft 6 is consistent so, during forming machine running, cooperatively interact, roller bearing 2 blanking places, top are also provided with directive wheel 10, directive wheel 10 props up roller bearing 2, described directive wheel 10 is provided with two, be positioned at the both sides of roller bearing 2, directive wheel 10 drives its rotation by a rotation axis 9, the power of rotation axis 9 is provided by the processing power transmission shaft 8 being located between roller bearing 2 and final drive shaft 6, incompatible drive rotation axis 9 rotations that match of the bevel gear (two) 13 at processing power transmission shaft 8 middle parts and the bevel gear () 12 of rotation axis 9 right-hand members, processing power transmission shaft 8 is by final drive shaft 6 driven rotary, the drive plate (two) 22 at processing power transmission shaft 8 tops adopts ox-hide band 19 to couple together with the drive plate at final drive shaft 6 tops () 11, rotation by final drive shaft 6 top drive plates () 11 drives 8 rotations of processing power transmission shaft.

As preferably, described roller bearing 2 is evenly distributed with 12 processing grooves 23, the every propelling one lattice gear of reciprocating motion of cam mechanism () 16, roller bearing 2 also can rotate 1/12nd circle thereupon, after completing once promotion, cam mechanism () 16 is got back to original position, the homing mould 7 of now processing lithium cell core completes once to the processing of lithium cell core under the promotion of cam mechanism (three) 18 to left movement after, meanwhile felt 4 also can prop up processed lithium cell core under the effect of cam mechanism (two) 17, after machining, gets back to original position.

A kind of full-automatic lithium cell core forming machine of the utility model design, the punch press that has replaced the use of lithium cell core processing in the past, roller bearing adopts gear-bearing, the reciprocating motion of cam mechanism all can advance a lattice gear every a period of time, and roller bearing is evenly distributed with 12 processing grooves, the every propelling one lattice gear of reciprocating motion of cam mechanism, roller bearing also can rotate 1/12nd circle thereupon, after completing once promotion, cam mechanism is got back to original position, the mould of now processing lithium cell core completes once to homing after the processing of lithium cell core to left movement under the promotion of cam mechanism, meanwhile felt also can prop up processed lithium cell core under the effect of cam mechanism, after machining, get back to original position, only need in blanking groove, put into lithium cell core man-hour adding like this, and add man-hour directive wheel and felt can prop up roller bearing, directive wheel is pressed into processing groove by the lithium cell core that falls into roller bearing processing groove from blanking groove, guarantee the smooth of lithium cell core, machining rear lithium cell core can automatically fall under the effect of gravity below roller bearing, can greatly reduce human cost, and adopt the utility model the precision of processing can also be increased to positive and negative 0.01mm, the machining accuracy of punch press is positive and negative 0.02mm, in addition, the power of punch press is 15kW, and power of the present utility model only needs 0.75kW, the relative lathe of structure of the present utility model is also simpler, the cost of each parts is all very low, relatively traditional lithium cell core machining tool, the utility model energy consumption is lower, cost is lower, efficiency is higher, machining accuracy is higher.

In the description of this specification, the description of reference term " embodiment ", " example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or feature can be with suitable mode combinations in any one or more embodiment or example.

Although illustrated and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: in the situation that not departing from principle of the present utility model and aim, can carry out multiple variation, modification, replacement and modification to these embodiment, scope of the present utility model is limited by claim and equivalent thereof.

Claims (8)

1. a full-automatic lithium cell core forming machine, comprise drive unit, transmission device, processing unit (plant) and pay-off, it is characterized in that, pay-off specifically comprises blanking groove and roller bearing, blanking groove is the groove of storing, width is consistent with lithium cell core, blanking groove is located at the front upper place of roller bearing, described roller bearing is provided with several processing grooves, the diameter of processing groove is identical with the diameter of lithium cell core, width is less than the width of lithium cell core, the bearing in roller bearing left side is driven by cam mechanism, cam mechanism is located on counter drive shaft, final drive shaft drives the counter drive shaft at cam mechanism place to rotate, the power of final drive shaft is provided by motor, motor connects gearbox, gearbox connects final drive shaft, the rear of roller bearing is provided with felt, felt connects cam mechanism, cam mechanism is located on counter drive shaft equally, the right side of roller bearing is provided with for processing the mould of lithium cell core, add cam mechanism driving mould on final drive shaft in man-hour to left movement, driving the cam mechanism of roller bearing and felt motion is all to provide power by counter drive shaft, counter drive shaft is directly driven by final drive shaft, the characteristics of motion of the cam mechanism on counter drive shaft and cam mechanism on final drive shaft is consistent so, during forming machine running, cooperatively interact, blanking place, roller bearing top is also provided with directive wheel, directive wheel props up roller bearing, directive wheel drives its rotation by a rotation axis, the power of rotation axis is provided by the processing power transmission shaft being located between roller bearing and final drive shaft, processing power transmission shaft is by final drive shaft driven rotary.

2. forming machine according to claim 1, is characterized in that, described roller bearing is gear-bearing, and the reciprocating motion of cam mechanism can advance a lattice gear every a period of time.

3. forming machine according to claim 2, it is characterized in that, described roller bearing is evenly distributed with 12 processing grooves, the every propelling one lattice gear of reciprocating motion of cam mechanism, roller bearing also can rotate 1/12nd circle thereupon, after completing once promotion, cam mechanism is got back to original position, the mould of now processing lithium cell core completes once to homing after the processing of lithium cell core to left movement under the promotion of cam mechanism, meanwhile felt also can prop up processed lithium cell core under the effect of cam mechanism, after machining, gets back to original position.

4. forming machine according to claim 1, is characterized in that, the right-hand member of counter drive shaft is umbrella gear, matches with the umbrella gear on final drive shaft, and final drive shaft reaches counter drive shaft by umbrella gear by power.

5. forming machine according to claim 4, is characterized in that, counter drive shaft is located at the below of pay-off.

6. forming machine according to claim 1, it is characterized in that, the power of described processing power transmission shaft is provided by final drive shaft, the processing drive plate at power transmission shaft top and the drive plate at final drive shaft top adopt ox-hide band to couple together, and the rotation by final drive shaft drive plate drives processes power transmission shaft and rotate.

7. forming machine according to claim 6, is characterized in that, the bevel gear at processing power transmission shaft middle part and the bevel gear of the rotation axis right-hand member incompatible drive rotation axis that matches rotates.

8. forming machine according to claim 1, is characterized in that, described directive wheel is provided with two, is positioned at the both sides of roller bearing.