CN204632857U - The orthoscopic of lithium battery is efficiently cut folding and is scalded forming machine - Google Patents

Abstract

The orthoscopic that the utility model discloses a kind of lithium battery efficiently cuts the boiling hot forming machine of folding, include frame and be arranged at the conveying mechanism in this frame, throughput direction along lithium battery is sequentially provided with trimming mechanism and folding and ironing machine structure, and this conveying mechanism includes front and back to linearly extended leading portion conveying mechanism, the first transfer manipulator, front and back to linearly extended left conveying mechanism, front and back to linearly extended right conveying mechanism, the second transfer manipulator and front and back to linearly extended back segment conveying mechanism.It scalds according to folding the characteristic that the time is longer than the nearly twice of trimming activity time, by rational deployment leading portion conveying mechanism, left conveying mechanism, right conveying mechanism and back segment conveying mechanism, and in conjunction with the material fetching mechanism of two twins, make full use of the time interval of each operation, the folding and ironing machine structure that it is carried out by both sides simultaneously coordinates a trimming mechanism, avoid the too fast and long standby of trimming mechanism, thus greatly improve production and processing efficiency.

Description

The orthoscopic of lithium battery is efficiently cut folding and is scalded forming machine

Technical field

The utility model relates to lithium battery automated production equipment art, and the orthoscopic referring in particular to a kind of lithium battery efficiently cuts the boiling hot forming machine of folding.

Background technology

At soft package lithium battery production field, need to encapsulate aluminum plastic film, carry out shell voltage, shell resistance test again after encapsulation, choose substandard product.As shown in Fig. 6 a to Fig. 6 c, the battery 70 of test passes again essence cuts unnecessary side sealing 72 and airbag limit 71, then gets up to be attached on battery main body 70 by the side sealing and airbag edge break of cutting rear remainder, and is shaped on the limit after folding.In legacy equipment, be all adopt single-function device for the aforementioned production to operation, large to operating personnel's demand, production efficiency is low, unstable product quality, and product rejection rate is high, causes product cost high.

Along with the progress of science and technology, the lithium battery occurring some All-in-Ones at present on the market cuts the boiling hot forming machine of folding, its by each Function Integration Mechanism on same full-automatic or semiautomatic equipment, solve the problems existing for simple function equipment, improve battery production efficiency, improve product quality, decrease operating personnel's demand, reduce production cost, really there is progressive.But find in practice uses, these existing All-in-One lithium batteries are cut the boiling hot forming machine of folding and are failed to reach best efficiency on product structure and serviceability, still have many deficiencies, now lithium battery common for part is cut folding scald forming machine and existing problem reductive analysis as follows: 1. an orthoscopic is cut folding and is scalded three-in-one molding machine, it is the passage be made up of two heating blocks by a group with battery fixture that this equipment folding scalds limit principle, passage front becomes bell mouth shape, be straight channel below, in the process that battery passes through, finally shaped by progressively bending in battery limit, this principle can not adapt to need of production more and more higher to the requirement of battery apparent size at present, and fixture is remodeled, cost is high, market demand rate is less, 2. a rotating disc type cuts the boiling hot three-in-one molding machine of folding, this machine before trimming not by electric cylinder and pressure sensor is dual guarantees the function that battery is located, carry out successively to operation, just last operation can be carried out after an operation after completing, but the processing time of each operation actual needs is different, process portion is in holding state for a long time, efficiency exists and seriously learns waste, and production efficiency can not maximize lifting further.

Utility model content

The utility model is for the disappearance of prior art existence, and the orthoscopic that its main purpose is to provide a kind of lithium battery efficiently cuts the boiling hot forming machine of folding, and its production efficiency is fully promoted, and stay in grade is reliable.

For achieving the above object, the utility model adopts following technical scheme:

A kind of orthoscopic of lithium battery is efficiently cut folding and is scalded forming machine, include frame and be arranged at the conveying mechanism in this frame, throughput direction along lithium battery is sequentially provided with trimming mechanism and folding and ironing machine structure, to linearly extended leading portion conveying mechanism before and after this conveying mechanism includes, first transfer manipulator, front and back are to linearly extended left conveying mechanism, front and back are to linearly extended right conveying mechanism, second transfer manipulator and front and back are to linearly extended back segment conveying mechanism, aforementioned left conveying mechanism is positioned at the front left side of aforementioned leading portion conveying mechanism, right conveying mechanism is positioned at the forward right side of aforementioned leading portion conveying mechanism, the suitable distance in dead ahead that aforementioned back segment conveying mechanism is positioned at leading portion conveying mechanism, leading portion conveying mechanism goes forward backwardly to be sequentially provided with blowing district, trimming district and Qian Daiwei district, aforementioned left conveying mechanism goes forward backwardly to be sequentially provided with left material feeding region, left folding scalds district and cold formed district, a left side, right conveying mechanism goes forward backwardly to be sequentially provided with right material feeding region, right folding scalds district and cold formed district, the right side, and back segment conveying mechanism goes forward backwardly to be sequentially provided with receiving section and discharge zone, and to being arranged side by side about aforementioned Qian Daiwei district, left material feeding region and right material feeding region, to being arranged side by side about cold formed district, an aforementioned left side, the cold formed district in receiving section and the right side,

Aforementioned first transfer machinery hand comprise have left and right to linearly extended first guide rail and along about this first guide rail to synchronization-moving two first material fetching mechanisms, be across about this first guide rail above aforementioned Qian Daiwei district, left material feeding region and right material feeding region; And about two first material fetching mechanisms to distance with about aforementioned Qian Daiwei district, left material feeding region to distance identical, about Qian Daiwei district, left material feeding region to distance with about Qian Daiwei district, right material feeding region to distance identical; Aforementioned second transfer machinery hand comprise have left and right to linearly extended second guide rail and along about this second guide rail to synchronization-moving two second material fetching mechanisms, be across above cold formed district, an aforementioned left side, the cold formed district in receiving section and the right side about this second guide rail; And about two second material fetching mechanisms to distance with about cold formed district, an aforementioned left side, receiving section to distance identical, about left cold formed district, receiving section to distance with about receiving section, right cold formed district to distance identical; Aforementioned trimming mechanism is arranged in the trimming district of aforementioned leading portion conveying mechanism, and aforementioned folding and ironing machine structure includes left folding ironing mechanism and right folding ironing mechanism, and left folding ironing mechanism is arranged at aforementioned left folding and scalds in district, and right folding ironing mechanism is arranged at aforementioned right folding and scalds in district.

As a kind of preferred version, described trimming mechanism includes two front and back to the single trimming mechanism sequentially arranged.

As a kind of preferred version, this single trimming mechanism described is divided into upper and lower cutter mechanism, trimming positioning mechanism, roller press plate mechanism and width adjusting mechanism, after the proximity switch of battery through trimming front upper place is responded to, feeding belt is positioned at withholding period, and roller pressing plate cylinder first moves downward pushes down battery; The built-in spring automatic correction device of trimming positioning mechanism, trimming positioning mechanism promotes battery and locates to lower cutter blend stop, and cutting knife blend stop is with the trimming width adjusting of battery, and unnecessary battery limit is cut smooth by last upper cutter motion.

As a kind of preferred version, described first transfer machinery hand comprises the first portal frame, first portal frame is provided with left and right to linearly extended aforementioned first guide rail, first guide rail is provided with the first travelling carriage moved left and right along this first guide rail, the below of the first travelling carriage is provided with aforementioned two first material fetching mechanisms arranged left and right, to synchronizing moving about this two first material fetching mechanism.

As a kind of preferred version, described second transfer machinery hand comprises the second portal frame, second portal frame is provided with left and right to linearly extended aforementioned second guide rail, second guide rail is provided with the second travelling carriage moved left and right along this second guide rail, the below of the second travelling carriage is provided with aforementioned two second material fetching mechanisms arranged left and right, to synchronizing moving about this two second material fetching mechanism.

As a kind of preferred version, describedly in material feeding region and right material feeding region, be respectively arranged with shaping mechanism.

As a kind of preferred version, in the cold formed district in cold formed district, a described left side and the right side, be respectively arranged with cold formed mechanism.

The utility model compared with prior art has obvious advantage and beneficial effect, specifically, as shown from the above technical solution:

One, it scalds according to folding the characteristic that the time is longer than the nearly twice of trimming activity time, by rational deployment leading portion conveying mechanism, left conveying mechanism, right conveying mechanism and back segment conveying mechanism, and in conjunction with the material fetching mechanism of two twins, make full use of the time interval of each operation, the folding and ironing machine structure that it is carried out by both sides simultaneously coordinates a trimming mechanism, avoid the too fast and long standby of trimming mechanism, thus greatly improve production and processing efficiency.

Two, multiple operation be integrated on an equipment and complete, realize semi-automatic work, complete machine production capacity is high, compact conformation, good looking appearance, and more traditional cut folding to scald three-in one machine cost of remodeling low, debugging speed of remodeling is fast, each operation rational deployment, and only need operating personnel just can easy manipulation.And have good foolproof function, all moving components maybe may be equipped with protective cover to the part that human body damages, and guarantee that operating personnel's person is perfectly safe.

Three, Product Precision is high, and trimming precision reaches positive and negative 0.15mm, and flanging height error is less than positive and negative 0.2mm, and reliability is high, has good homogeneity of product.

For more clearly setting forth architectural feature of the present utility model, technological means and the specific purposes reached thereof and function, below in conjunction with accompanying drawing and specific embodiment, the utility model is described in further detail:

Accompanying drawing explanation

Fig. 1 is the assembling schematic perspective view of the embodiment of the utility model.

Fig. 2 is the assembling vertical view of the embodiment of the utility model.

Fig. 3 is the layout structure schematic diagram of conveying mechanism in the embodiment of the utility model.

Fig. 4 is the perspective view of manipulator in the embodiment of the utility model.

Fig. 5 is the perspective view of folding and ironing machine structure in the embodiment of the utility model.

Fig. 6 a is the structural representation in the embodiment of the utility model before soft package lithium battery untouched edge.

Fig. 6 b is the structural representation in the embodiment of the utility model after soft package lithium battery trimming.

Fig. 6 c is that in the embodiment of the utility model, soft package lithium battery rolls over the structural representation after scalding.

Embodiment

Please refer to shown in Fig. 1 to Fig. 5, that show the concrete structure of the preferred embodiment of the utility model, the orthoscopic including a kind of lithium battery efficiently cuts the boiling hot forming machine of folding, the conveying mechanism 20 including frame 10 and be arranged in this frame 10, the throughput direction along lithium battery is sequentially provided with trimming mechanism 30 and folding and ironing machine structure 40.

Wherein, this conveying mechanism 20 include before and after to linearly extended leading portion conveying mechanism 21, first transfer manipulator 22, front and back to linearly extended left conveying mechanism 23, front and back to linearly extended right conveying mechanism 24, second transfer manipulator 25 and front and back to linearly extended back segment conveying mechanism 26.

Shown in composition graphs 2 and Fig. 3, aforementioned left conveying mechanism 23 is positioned at the front left side of aforementioned leading portion conveying mechanism 21, right conveying mechanism 24 is positioned at the forward right side of aforementioned leading portion conveying mechanism 21, the suitable distance in dead ahead that aforementioned back segment conveying mechanism 26 is positioned at leading portion conveying mechanism 21.

Leading portion conveying mechanism 21 goes forward backwardly to be sequentially provided with blowing district 211, trimming district 212 and Qian Daiwei district 213, aforementioned left conveying mechanism 23 goes forward backwardly to be sequentially provided with left material feeding region 231, left folding scalds district 232 and cold formed district 233, a left side, right conveying mechanism 24 goes forward backwardly to be sequentially provided with right material feeding region 241, right folding scalds district 242 and cold formed district 243, the right side, and back segment conveying mechanism 26 goes forward backwardly to be sequentially provided with receiving section 261 and discharge zone 262; And to being arranged side by side about aforementioned Qian Daiwei district 213, left material feeding region and right material feeding region, to being arranged side by side about cold formed district, an aforementioned left side, the cold formed district in receiving section and the right side.

Aforementioned leading portion conveying mechanism 21 includes loading bracket mechanism and material loading conveying mechanism, and by servo motor, planetary reducer, synchronizing wheel sensing chip precision induction grooved switch, drive trimming district flute profile feeding belt, every minor tick and motion step pitch are all accurate equal.Supplied materials battery, between flute profile feeding belt withholding period, is positioned in battery guide rail by operator, and during feeding belt motion, will send a step pitch before battery, it is interval that blowing district forms new blowing, can again utilize the time stopped to complete subsequent processing by placing battery.

Aforementioned trimming mechanism 30 is arranged in the trimming district 212 of aforementioned leading portion conveying mechanism 21, for excising side sealing unnecessary on soft package lithium battery and airbag limit.Described trimming mechanism 30 includes two front and back to sequentially arrange first single trimming mechanism 31 and the single trimming mechanism 31 of second single trimming mechanism 32, first for excising the airbag limit of lithium battery, and second single trimming mechanism 32 is for excising the side sealing of lithium battery.

These two single trimming mechanisms are all divided into upper and lower cutter mechanism, trimming positioning mechanism, roller press plate mechanism, width adjusting mechanism, after the proximity switch of battery through trimming front upper place is responded to, feeding belt is positioned at withholding period, and roller pressing plate cylinder first moves downward pushes down battery.The built-in spring zero offset capability of trimming positioning mechanism, even if there is deviation in material loading battery, also can automatic calibration.Trimming positioning mechanism promotes battery and locates to lower cutter blend stop, and cutting knife blend stop can with the trimming width adjusting of battery, and unnecessary battery limit is cut smooth by last upper cutter motion.Next single other battery limit on one side of trimming mechanism excision delivered to by feeding belt again live pond, and the proximity switch induction stream above trimming mechanism goes out subsequent processing.

Shown in composition graphs 4, aforementioned first transfer manipulator 22 includes the first portal frame 221, first portal frame 221 is provided with left and right to linearly extended first guide rail 222, first guide rail 222 is provided with the first travelling carriage 223 moved left and right along this first guide rail 222, the below of the first travelling carriage 223 is provided with two first material fetching mechanisms 224 arranged left and right, and this two first material fetching mechanism about 224 is to synchronizing moving.This first guide rail about 222 is across above aforementioned Qian Daiwei district 213, left material feeding region 231 and right material feeding region 241; And two first material fetching mechanisms about 224 to distance and aforementioned Qian Daiwei district 213, left material feeding region about 231 to distance identical, Qian Daiwei district 213, left material feeding region about 231 to distance and Qian Daiwei district 231, right material feeding region about 241 to distance identical.

Aforementioned second transfer manipulator 25 is identical with the structural principle of aforementioned first transfer manipulator 22, namely this second transfer manipulator 25 includes the second portal frame 251, second portal frame 251 is provided with left and right to linearly extended second guide rail 252, second guide rail 252 is provided with the second travelling carriage 253 moved left and right along this second guide rail 252, the below of the second travelling carriage 253 is provided with two second material fetching mechanisms 254 arranged left and right, and this two second material fetching mechanism about 254 is to synchronizing moving.This second guide rail about 252 is across above the cold formed district 243 in cold formed district, an aforementioned left side 233, receiving section 261 and the right side; And two second material fetching mechanisms about 254 to distance and cold formed district, an aforementioned left side 233, receiving section about 261 to distance identical, left cold formed district 233, receiving section about 261 to distance and receiving section 261, right cold formed district about 243 to distance identical.

Aforementioned folding and ironing machine structure 40 is the mode of left-right layout, bilaterally respectively establishes one group, and include left folding ironing mechanism and right folding ironing mechanism, left folding ironing mechanism is arranged at aforementioned left folding and scalds in district 232, and right folding ironing mechanism is arranged at aforementioned right folding and scalds in district 242.Shown in composition graphs 5, folding scalds process and is divided into one section of shaping mechanism, 50, two sections of folding and ironing machine structures, 40, three sections of cold formed mechanisms 60, one section of shaping mechanism 50 is positioned at aforementioned left material feeding region 231 and right material feeding region 241, two sections of folding and ironing machine structures 40 are positioned at aforementioned left folding and scald district 232 and right folding and scald cold formed mechanism 60 of 242, three sections, district and be positioned at the cold formed district 243 in cold formed district, an aforementioned left side 233 and the right side.Battery is pushed down in the action of one section of integer station pressing plate cylinder, then is corrected battery by side detent mechanism; After completing correction, the sucker plate below battery rises, and moves forward to two sections of foldings and scalds station, fall battery; Folding scalds action first pushes down battery by pressing plate cylinder respectively, and then folding boiling hot limit briquetting rolls over boiling hot limit to battery downwards, rolls over boiling hot limit to battery simultaneously; After completing the boiling hot limit of folding, the sucker plate below battery rises, and moves forward to three sections of cold formed stations, falls battery; Correcting station action is that pressing plate cylinder first pushes down battery, then carries out cold formed by side detent mechanism to battery; After completing sizing, the subordinate material of the second transfer machinery flows out to the blanking drawstring in back segment conveying mechanism.

The operation principle of the present embodiment, using method or the course of work are described in detail in detail as follows:

Workflow: material loading → side location → mono-trimming → side location → mono-trimming → transfer manipulator feeding → integer → folding scalds limit → cold formed → transfer manipulator feeding → blanking.

By operating personnel flexible-packed battery is positioned over the blowing district 211 in leading portion conveying mechanism 21, by leading portion conveying mechanism 21, lithium battery is fed forward, monolateral trimming is carried out by first single trimming mechanism 31 respectively, the airbag limit 71 of excision lithium battery 70 via behind the first trimming detent mechanism location.Carry out monolateral trimming by second single trimming mechanism 32 after being located by the second trimming detent mechanism, the side sealing 72 of excision lithium battery 70, then sends again.Discharging detection proximity switch detects battery and is sent trimming district, and will send signal, the first transfer manipulator 22 is by air cylinder driven, and oscilaltion picks and places material to Zhe Tang district, and material taking arm is dual gear, and feeding is to left and right folding and ironing machine structure respectively.In its reclaiming process, two first material fetching mechanisms 224 carry out simultaneously, when material fetching mechanism 224 takes out the lithium battery after trimming from the Qian Daiwei district 213 of leading portion conveying mechanism 21 one by one, the lithium battery 70 after trimming is positioned over left material feeding region 231 or right material feeding region 241 by its another the first material fetching mechanism 224.Rolled over different batteries by left and right folding and ironing machine structure 40 simultaneously and scald process, battery is exported to the blanking drawstring on back segment conveying mechanism 26 by the second transfer manipulator 25 feeding after completing the boiling hot operation of folding.

The above, it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore every above embodiment is done according to technical spirit of the present utility model any trickle amendment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (7)

1. the orthoscopic of lithium battery efficiently cuts the boiling hot forming machine of folding, and include frame and be arranged at the conveying mechanism in this frame, the throughput direction along lithium battery is sequentially provided with trimming mechanism and folding and ironing machine structure, it is characterized in that:

This conveying mechanism includes front and back to linearly extended leading portion conveying mechanism, the first transfer manipulator, front and back to linearly extended left conveying mechanism, front and back to linearly extended right conveying mechanism, the second transfer manipulator and front and back to linearly extended back segment conveying mechanism, aforementioned left conveying mechanism is positioned at the front left side of aforementioned leading portion conveying mechanism, right conveying mechanism is positioned at the forward right side of aforementioned leading portion conveying mechanism, the suitable distance in dead ahead that aforementioned back segment conveying mechanism is positioned at leading portion conveying mechanism;

Leading portion conveying mechanism goes forward backwardly to be sequentially provided with blowing district, trimming district and Qian Daiwei district, aforementioned left conveying mechanism goes forward backwardly to be sequentially provided with left material feeding region, left folding scalds district and cold formed district, a left side, right conveying mechanism goes forward backwardly to be sequentially provided with right material feeding region, right folding scalds district and cold formed district, the right side, and back segment conveying mechanism goes forward backwardly to be sequentially provided with receiving section and discharge zone; And to being arranged side by side about aforementioned Qian Daiwei district, left material feeding region and right material feeding region, to being arranged side by side about cold formed district, an aforementioned left side, the cold formed district in receiving section and the right side;

Aforementioned first transfer machinery hand comprise have left and right to linearly extended first guide rail and along about this first guide rail to synchronization-moving two first material fetching mechanisms, be across about this first guide rail above aforementioned Qian Daiwei district, left material feeding region and right material feeding region; And about two first material fetching mechanisms to distance with about aforementioned Qian Daiwei district, left material feeding region to distance identical, about Qian Daiwei district, left material feeding region to distance with about Qian Daiwei district, right material feeding region to distance identical;

Aforementioned second transfer machinery hand comprise have left and right to linearly extended second guide rail and along about this second guide rail to synchronization-moving two second material fetching mechanisms, be across above cold formed district, an aforementioned left side, the cold formed district in receiving section and the right side about this second guide rail; And about two second material fetching mechanisms to distance with about cold formed district, an aforementioned left side, receiving section to distance identical, about left cold formed district, receiving section to distance with about receiving section, right cold formed district to distance identical;

Aforementioned trimming mechanism is arranged in the trimming district of aforementioned leading portion conveying mechanism, and aforementioned folding and ironing machine structure includes left folding ironing mechanism and right folding ironing mechanism, and left folding ironing mechanism is arranged at aforementioned left folding and scalds in district, and right folding ironing mechanism is arranged at aforementioned right folding and scalds in district.

2. the orthoscopic of lithium battery according to claim 1 efficiently cuts the boiling hot forming machine of folding, it is characterized in that: described trimming mechanism includes two front and back to the single trimming mechanism sequentially arranged.

3. the orthoscopic of lithium battery according to claim 2 efficiently cuts the boiling hot forming machine of folding, it is characterized in that: described single trimming mechanism is divided into upper and lower cutter mechanism, trimming positioning mechanism, roller press plate mechanism and width adjusting mechanism, after the proximity switch of battery through trimming front upper place is responded to, feeding belt is positioned at withholding period, and roller pressing plate cylinder first moves downward pushes down battery; The built-in spring automatic correction device of trimming positioning mechanism, trimming positioning mechanism promotes battery and locates to lower cutter blend stop, and cutting knife blend stop is with the trimming width adjusting of battery, and unnecessary battery limit is cut smooth by last upper cutter motion.

4. the orthoscopic of lithium battery according to claim 1 efficiently cuts the boiling hot forming machine of folding, it is characterized in that: described first transfer machinery hand comprises the first portal frame, first portal frame is provided with left and right to linearly extended aforementioned first guide rail, first guide rail is provided with the first travelling carriage moved left and right along this first guide rail, the below of the first travelling carriage is provided with aforementioned two first material fetching mechanisms arranged left and right, to synchronizing moving about this two first material fetching mechanism.

5. the orthoscopic of lithium battery according to claim 1 efficiently cuts the boiling hot forming machine of folding, it is characterized in that: described second transfer machinery hand comprises the second portal frame, second portal frame is provided with left and right to linearly extended aforementioned second guide rail, second guide rail is provided with the second travelling carriage moved left and right along this second guide rail, the below of the second travelling carriage is provided with aforementioned two second material fetching mechanisms arranged left and right, to synchronizing moving about this two second material fetching mechanism.

6. the orthoscopic of lithium battery according to claim 1 efficiently cuts the boiling hot forming machine of folding, it is characterized in that: be respectively arranged with shaping mechanism in described left material feeding region and right material feeding region.

7. the orthoscopic of lithium battery according to claim 1 efficiently cuts the boiling hot forming machine of folding, it is characterized in that: be respectively arranged with cold formed mechanism in the cold formed district in cold formed district, a described left side and the right side.