CN215514456U - Row dress battery cutting machine - Google Patents

Abstract

The utility model provides a row-packed battery splitting machine, which comprises a workbench, a feeding mechanism, a splitting mechanism, a discharging mechanism, a heating furnace and a control mechanism, wherein the feeding mechanism, the splitting mechanism, the discharging mechanism, the heating furnace and the control mechanism are arranged on the workbench, two ends of the splitting mechanism are respectively connected with one end of the feeding mechanism and one end of the discharging mechanism, the splitting mechanism comprises a pushing assembly, a cutting assembly and a membrane splitting assembly, the pushing assembly corresponds to one end of the feeding mechanism, the membrane splitting assembly corresponds to one end of the discharging mechanism, the cutting assembly corresponds to a position between the pushing assembly and the membrane splitting assembly, the middle part of the discharging mechanism penetrates through the heating furnace, and the control mechanism is arranged on the workbench and is respectively electrically connected with the feeding mechanism and the discharging mechanism.

Description

Row dress battery cutting machine

Technical Field

The utility model relates to the technical field of battery packaging, in particular to a row-packed battery splitting machine.

Background

In the process of packaging batteries, the batteries are generally packaged into a row by a packaging film in four groups, and then a plurality of rows of batteries are packaged by a paper box, however, in order to meet the use requirements or packaging requirements of customers, sometimes every two batteries are packaged as a group, at this time, the batteries packaged according to the four groups are required to be cut and packaged into two groups, at present, the method is that after the packaging film is manually cut, the batteries are put into a heating furnace, and the packaging film shrinks and tightly packages the batteries, but the manual cutting of the packaging film has large errors and low efficiency on one hand, affects the quality of the subsequent heating packaging batteries, and on the other hand, the batteries are easy to scrape and affect the quality of the batteries, so that a row-packaged battery cutting machine is necessary to be manufactured, the row-packaged batteries can be automatically cut, and the cutting efficiency and precision are improved, the quality of the battery package is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a row battery splitting machine to solve the problems mentioned in the background technology.

In order to achieve the above purpose, the utility model provides the following technical scheme:

the utility model provides a row dress battery cutting machine, including the workstation and install the feed mechanism on the workstation, cut the mechanism, unloading mechanism, heating furnace and control mechanism, cut the both ends of mechanism and link up with feed mechanism one end, unloading mechanism one end respectively, cut the mechanism and include pushing components, cutting components and branch membrane module, pushing components corresponds in feed mechanism one end, divide the membrane module to correspond in unloading mechanism one end, cutting components corresponds between pushing components and branch membrane module, wear to establish in the heating furnace in the middle part of the unloading mechanism, control mechanism installs on the workstation and respectively with feed mechanism, unloading mechanism electrical connection.

Further description of the utility model: the feeding mechanism comprises a feeding conveying belt, first guide plates and first cover plates, the feeding conveying belt is fixed on the workbench along the Y-axis direction, the first guide plates are arranged in two groups and are respectively fixed on the left side and the right side above the feeding conveying belt, the rear ends of the inner sides of the two groups of first guide plates are respectively provided with an arc surface, and one side of each first cover plate is rotatably installed above one group of first guide plates.

Further description of the utility model: the material pushing assembly comprises a first baffle, an air cylinder, a connecting block, a push plate and an inductor, the first baffle is fixed on the front side above the feeding mechanism, the air cylinder is fixed on the workbench, one end of the connecting block is fixed at the power output end of the air cylinder, the other end of the connecting block is fixedly connected with the push plate, the push plate corresponds to the rear side of the first baffle, the inductor is fixed on the first baffle and corresponds to the upper portion of the feeding mechanism, and the induction end of the inductor corresponds to the rear side of the first baffle and the right side of the push plate.

Further description of the utility model: the cutting assembly comprises a first base plate, bosses, clamps and cutters, the first base plate is fixed on the workbench along the X-axis direction and corresponds to the right side of the material pushing assembly, the bosses are fixed on the front side and the rear side above the first base plate, the clamps are erected above the first base plate, the cutters are fixed on the clamps and correspond to the two sets of bosses, and cutting edges of the cutters face downwards.

Further description of the utility model: anchor clamps include mounting panel, briquetting and screw, and the mounting panel erects in first bottom plate top, has seted up the mounting groove on the mounting panel, and the briquetting passes through the screw fixation on the mounting panel, and the briquetting corresponds in the mounting groove, and the cutter is fixed between mounting groove inner wall and briquetting.

Further description of the utility model: the membrane splitting assembly comprises a second bottom plate and a lifting component, the film separating knife comprises a film separating knife, a second guide plate and a second cover plate, wherein the second bottom plate is fixed on a workbench along the X-axis direction and corresponds to the right side of the cutting assembly, a lifting part is fixed in the middle of the upper portion of the second bottom plate, a top guide surface and a side guide surface are arranged on the lifting part, the left end of the top guide surface corresponds to the upper end surface of the second bottom plate, the top guide surface inclines upwards along the right direction, the side guide surfaces correspond to the front side and the rear side of the top guide surface, the side guide surface inclines inwards along the right direction, the film separating knife is fixed on the second bottom plate and corresponds to the right side of the lifting part, the cutting edge of the film separating knife corresponds to the right side of the top guide surface and inclines upwards along the right direction, the second guide plate is fixed on the front side and the rear side above the second bottom plate, arc convex parts are arranged on the inner sides of the two groups of second guide plates, the arc convex parts correspond to the film separating knife, and one side of the second cover plate is rotatably installed above one group of the second guide plate.

Further description of the utility model: the blanking mechanism comprises a blanking conveying belt, a second baffle and a third baffle, the blanking conveying belt is fixed on the workbench along the Y-axis direction, the middle of the blanking conveying belt penetrates through the heating furnace, the second baffle is fixed on the workbench and corresponds to the left side and the right side of the blanking conveying belt, and the third baffle is fixed on the front side of the second baffle and corresponds to the upper portion of the blanking conveying belt.

The utility model has the beneficial effects that: through setting up cutting assembly, cut the packaging film of row dress battery from the top, the rethread divides the membrane module to cut the packaging film bottom to make the row dress battery segmentation of four dresses be the battery of two sets of two dresses, rethread heating furnace heats the packaging film, makes the tight battery of packaging film, and this design can cut the row dress battery automatically, improves the precision and the efficiency of cutting the battery, avoids causing the damage to the battery surface, is favorable to improving the quality of product.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a block diagram of the feed mechanism and pusher assembly of the present invention;

FIG. 3 is a block diagram of a cutting assembly and a membrane assembly of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at position A;

FIG. 5 is a block diagram of the blanking mechanism and the heating furnace of the present invention;

description of reference numerals:

1. a work table; 2. a feeding mechanism; 21. a feeding conveyer belt; 22. a first guide plate; 221. a circular arc surface; 23. a first cover plate; 3. a slitting mechanism; 31. a material pushing assembly; 311. a first baffle plate; 312. a cylinder; 313. connecting blocks; 314. pushing the plate; 315. an inductor; 32. cutting the assembly; 321. a first base plate; 322. a boss; 323. a clamp; 3231. mounting a plate; 3232. briquetting; 3233. a screw; 324. a cutter; 33. a membrane separation component; 331. a second base plate; 332. a lifting member; 3321. a top guide surface; 3322. a side guide surface; 333. a film separating knife; 334. a second guide plate; 3341. a circular arc convex part; 335. a second cover plate; 4. a blanking mechanism; 41. blanking a conveying belt; 42. a second baffle; 43. a third baffle plate; 5. heating furnace; 6. and a control mechanism.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1, a row-packed battery splitting machine includes a workbench 1, a feeding mechanism 2, a splitting mechanism 3, a discharging mechanism 4, a heating furnace 5, and a control mechanism 6, which are mounted on the workbench 1, two ends of the splitting mechanism 3 are respectively connected with one end of the feeding mechanism 2 and one end of the discharging mechanism 4, the splitting mechanism 3 includes a pushing assembly 31, a cutting assembly 32, and a membrane splitting assembly 33, the pushing assembly 31 corresponds to one end of the feeding mechanism 2, the membrane splitting assembly 33 corresponds to one end of the discharging mechanism 4, the cutting assembly 32 corresponds to a position between the pushing assembly 31 and the membrane splitting assembly 33, the middle portion of the discharging mechanism 4 is inserted into the heating furnace 5, and the control mechanism 6 is mounted on the workbench 1 and is respectively electrically connected with the feeding mechanism 2 and the discharging mechanism 4.

The row of four dress batteries passes through feed mechanism 2 and transports to cutting mechanism 3, the pushing equipment subassembly 31 on the cutting mechanism 3 pushes the battery to cutting assembly 32, cutting assembly 32 cuts the top of row dress battery packaging film, divide membrane module 33 to cut and separate the packaging film bottom, make the row dress battery segmentation of four dress two sets of dress batteries, rethread unloading mechanism 4 carries heating furnace 5 to the heating of packaging film, make the tight battery of packaging film, the battery of accomplishing the heating packing carries in the follow-up process through unloading mechanism 4, control mechanism 6 is used for controlling the speed that feed mechanism 2 and unloading mechanism 4 carried the row dress battery.

As shown in fig. 2, the feeding mechanism 2 includes a feeding conveyor belt 21, first guide plates 22 and a first cover plate 23, the feeding conveyor belt 21 is fixed on the workbench 1 along the Y-axis direction, the first guide plates 22 are provided in two sets and fixed on the left and right sides above the feeding conveyor belt 21, the rear ends of the inner sides of the two sets of first guide plates 22 are provided with arc surfaces 221, and one side of the first cover plate 23 is rotatably installed above one set of first guide plates 22.

The row dress battery is carried on material loading conveyer belt 21, carry between two sets of first deflector 22 through arc surface 221 on the first deflector 22, first deflector 22 can adjust the direction of row dress battery, only the row dress battery that the direction is correct can get into all between first deflector 22 and carry and push away material subassembly 31, first apron 23 can protect the row dress battery in carrying, and can prevent that the battery from piling up, first apron 23 can adopt transparent material to make, so that observe the condition of row dress battery.

The material pushing assembly 31 comprises a first baffle 311, an air cylinder 312, a connecting block 313, a push plate 314 and a sensor 315, wherein the first baffle 311 is fixed on the front side above the feeding mechanism 2, the air cylinder 312 is fixed on the workbench 1, one end of the connecting block 313 is fixed on the power output end of the air cylinder 312, the other end of the connecting block 313 is fixedly connected with the push plate 314, the push plate 314 corresponds to the rear side of the first baffle 311, the sensor 315 is fixed on the first baffle 311 and corresponds to the upper side of the feeding mechanism 2, and the sensing end of the sensor 315 corresponds to the rear side of the first baffle 311 and the right side of the push plate 314.

When the arranged batteries are conveyed to contact with the first baffle 311 and are sensed by the sensor 315, the cylinder 312 drives the connecting block 313 and the push plate 314 to move rightwards, the arranged batteries are conveyed to one side of the cutting assembly 32, and the latter battery pushes the former battery to continuously move towards the next process.

As shown in fig. 3 to 4, the cutting assembly 32 includes a first base plate 321, bosses 322, clamps 323 and a cutter 324, the first base plate 321 is fixed on the worktable 1 along the X-axis direction and corresponds to the right side of the material pushing assembly 31, the bosses 322 are fixed on the front and rear sides above the first base plate 321, the clamps 323 are arranged above the first base plate 321, the cutter 324 is fixed on the clamps 323 and corresponds to between the two sets of bosses 322, the cutting edge of the cutter 324 faces downward, the arranged batteries are conveyed in the channel defined by the first base plate 321 and the two sets of bosses 322, the position of the cutter 324 corresponds to the middle of the four batteries, and when the arranged batteries pass under the cutter 324, the top of the packaging film is cut by the cutter 324.

In the design, the clamp 323 comprises a mounting plate 3231, a pressing block 3232 and a screw 3233, the mounting plate 3231 is erected above the first base plate 321, a mounting groove is formed in the mounting plate 3231, the pressing block 3232 is fixed on the mounting plate 3231 through the screw 3233, the pressing block 3232 corresponds to the mounting groove, the cutter 324 is fixed between the inner wall of the mounting groove and the pressing block 3232, the screw 3233 penetrates through the mounting plate 3231 to be in threaded connection with the pressing block 3232 to press the pressing block 3232 to one side of the cutter 324, so that the cutter 324 is fixed, and the left and right positions, the up and down positions of the cutter 324 in the mounting groove can be adjusted.

The film splitting assembly 33 comprises a second base plate 331, a lifting member 332, a film splitting blade 333, a second guide plate 334 and a second cover plate 335, wherein the second base plate 331 is fixed on the workbench 1 along the X-axis direction and corresponds to the right side of the cutting assembly 32, the lifting member 332 is fixed in the middle above the second base plate 331, the lifting member 332 is provided with a top guide surface 3321 and side guide surfaces 3322, the left end of the top guide surface 3321 corresponds to the upper end surface of the second base plate 331, the top guide surface 3321 is inclined upwards along the right direction, the side guide surfaces 3322 correspond to the front and rear sides of the top guide surface 3321, the side guide surfaces 3322 are inclined inwards along the right direction, the film splitting blade 333 is fixed on the second base plate 331 and corresponds to the right side of the lifting member 332, the blade edge of the film splitting blade 333 corresponds to the right side of the top guide surface 3321 and is inclined upwards along the right direction, the second guide plate 334 is fixed on the front and rear sides above the second base plate 331, the inner sides of the two sets of second guide plates 334 are provided with circular arcs 3341, the circular arc protrusion 3341 corresponds to the film separating blade 333, and the second cover plate 335 is rotatably installed at one side above one set of the second guide plates 334.

The row-mounted batteries are conveyed through a channel defined by the second bottom plate 331 and the two sets of second guide plates 334, when the row-mounted batteries pass through the lifting component 332, the row-mounted batteries rise along the top guide surface 3321, because the tops of the packaging films are cut by the cutting component 32, after the batteries rise, every two batteries are cut obliquely downwards and tightly attached to the side guide surface 3322, namely, the row-mounted batteries are transported in an inverted V shape towards the direction of the film separating knife 333, when the batteries pass through the film separating knife 333, the bottom of the packaging films are cut by the film separating knife 333, the batteries are close to the middle as far as possible by the arc convex part 3341 when the packaging films are cut at the position of the film separating knife 333, the displacement towards two sides is prevented, the cutting precision is improved, the second cover plate 335 can protect the row-mounted batteries in conveying, the position of the tops of the row-mounted batteries can be limited, the packaging films are tightly attached to the film separating knife 333 downwards to ensure complete cutting, the second cover plate 335 can be made of transparent materials, so as to observe the condition of arranging the batteries.

As shown in fig. 5, the discharging mechanism 4 includes a discharging conveyer belt 41, a second baffle 42 and a third baffle 43, the discharging conveyer belt 41 is fixed on the workbench 1 along the Y-axis direction, and the middle portion of the discharging conveyer belt is inserted into the heating furnace 5, the second baffle 42 is fixed on the workbench 1 and corresponds to the left and right sides of the discharging conveyer belt 41, the third baffle 43 is fixed at the front side of the second baffle 42 and corresponds to the upper portion of the discharging conveyer belt 41, the batteries cut on the membrane separating assembly 33 fall onto the discharging conveyer belt 41 and are transported toward the heating furnace 5, and the second baffle 42 and the third baffle 43 can prevent the arranged batteries from falling outside the discharging conveyer belt 41.

The working principle of the embodiment is as follows:

firstly, four arranged batteries are transported to a slitting mechanism 3 through a feeding mechanism 2, the batteries are pushed to a cutting assembly 32 by a pushing assembly 31 on the slitting mechanism 3, the cutting assembly 32 cuts the top of a packaging film of the arranged batteries, the bottom of the packaging film is cut and separated through a separating assembly 33, the four arranged batteries are divided into two groups of two packaged batteries, the packaging film is conveyed to a heating furnace 5 through a blanking mechanism 4 to heat the packaging film, the packaging film tightly wraps the batteries, and the batteries which are heated and packaged are conveyed to the subsequent process through the blanking mechanism 4.

The technical scope of the present invention is not limited to the above embodiments, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical spirit of the present invention still fall within the technical scope of the present invention.

Claims (7)

1. The utility model provides a row dress battery cutting machine which characterized in that: including the workstation and install feed mechanism, cutting mechanism, unloading mechanism, heating furnace and control mechanism on the workstation, cut the both ends of mechanism respectively with feed mechanism one end unloading mechanism one end links up, cut the mechanism and include pushing away the material subassembly, cut the subassembly and divide the membrane module, it corresponds to push away the material subassembly feed mechanism one end, divide the membrane module to correspond unloading mechanism one end, it corresponds to cut the subassembly push away the material subassembly with divide between the membrane module, unloading mechanism middle part is worn to establish in the heating furnace, control mechanism installs on the workstation and respectively with feed mechanism unloading mechanism electrical connection.

2. The battery splitting machine of claim 1, wherein: feed mechanism includes material loading conveyer belt, first deflector and first apron, the material loading conveyer belt is fixed along Y axle direction on the workstation, first deflector sets up two sets ofly, fixes respectively the left and right sides of material loading conveyer belt top, and is two sets of the inboard rear end of first deflector all is equipped with the arc surface, rotationally install one of them a set of first apron one side first deflector top.

3. The battery splitting machine of claim 1, wherein: the material pushing assembly comprises a first baffle, a cylinder, a connecting block, a push plate and a sensor, wherein the first baffle is fixed at the front side above the feeding mechanism, the cylinder is fixed on the workbench, one end of the connecting block is fixed at the power output end of the cylinder, the other end of the connecting block is fixedly connected with the push plate, the push plate corresponds to the rear side of the first baffle, the sensor is fixed on the first baffle and corresponds to the top of the feeding mechanism, and the sensing end of the sensor corresponds to the rear side of the first baffle and the right side of the push plate.

4. The battery splitting machine of claim 1, wherein: the cutting assembly comprises a first base plate, bosses, a clamp and a cutter, the first base plate is fixed along the X-axis direction on the workbench and corresponds to the right side of the material pushing assembly, the bosses are fixed on the front side and the rear side of the upper portion of the first base plate, the clamp is erected above the first base plate, the cutter is fixed on the clamp and corresponds to the two sets of the bosses, and the cutting edges of the cutter face downwards.

5. The battery splitting machine of claim 4, wherein: anchor clamps include mounting panel, briquetting and screw, the mounting panel erects first bottom plate top, the mounting groove has been seted up on the mounting panel, the briquetting passes through the screw fixation is in on the mounting panel, the briquetting corresponds in the mounting groove, the cutter is fixed mounting groove inner wall with between the briquetting.

6. The battery splitting machine of claim 1, wherein: the film separating assembly comprises a second bottom plate, a lifting component, a film separating knife, a second guide plate and a second cover plate, the second bottom plate is fixed on the workbench along the X-axis direction and corresponds to the right side of the cutting assembly, the lifting component is fixed in the middle of the upper portion of the second bottom plate, the lifting component is provided with a top guide surface and a side guide surface, the left end of the top guide surface corresponds to the upper end surface of the second bottom plate, the top guide surface inclines upwards along the right direction, the side guide surfaces correspond to the front side and the rear side of the top guide surface, the side guide surfaces incline inwards along the right direction, the film separating knife is fixed on the second bottom plate and corresponds to the right side of the lifting component, the cutting edge of the film separating knife corresponds to the right side of the top guide surface and inclines upwards along the right direction, and the second guide plate is fixed on the front side and the rear side above the second bottom plate, and arc convex parts are arranged on the inner sides of the two groups of second guide plates, the arc convex parts correspond to the film separating knives, and one side of the second cover plate is rotatably arranged above one group of second guide plates.

7. The battery splitting machine of claim 1, wherein: the blanking mechanism comprises a blanking conveying belt, a second baffle and a third baffle, the blanking conveying belt is fixed on the workbench along the Y-axis direction, the middle of the blanking conveying belt penetrates through the heating furnace, the second baffle is fixed on the workbench and corresponds to the left side and the right side of the blanking conveying belt, and the third baffle is fixed on the front side of the second baffle and corresponds to the position above the blanking conveying belt.

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