CN114313525A - Water filter production line for dialysis - Google Patents

Abstract

The invention relates to the technical field of packaging detection, in particular to a water filter production line for dialysis. The invention provides a dialysis water filter production line, comprising: the label sticking device comprises a workbench, a packaging part, a labeling part and a detection part; the packing portion includes: the hot-pressing sealing assembly, the bottom membrane assembly, the top membrane assembly and the pull belt assembly are arranged in the box body; the bottom film is led out from the bottom film component and then horizontally moves towards the detection part, the workpiece is placed on the bottom film, and the bottom film drives the workpiece to horizontally move; the top film is led out from the top film assembly, covers the workpiece and moves horizontally to the detection part along with the workpiece; when the workpiece moves to the position below the hot-pressing sealing assembly, the hot-pressing sealing assembly moves downwards to hot-press and seal the workpiece; the hot-pressing sealing assembly blows air between the bottom film and the top film before sealing so that the workpiece pull belt assembly drives the edge of the sealed top film to move horizontally towards the detection part.

Description

Water filter production line for dialysis

Technical Field

The invention relates to the technical field of packaging detection, in particular to a water filter production line for dialysis.

Background

The existence and the meaning of packing test lie in promoting the reliability of goods packing, let the people know whether product packaging can reach anticipated effect, very big reduction the probability that the product damaged because of the packing problem in the transportation.

The existing packaging test equipment can test the impact, the drop and the like of the outer package of a product only after the product packaging is produced, so that the detection is more professional, but the time and the labor are wasted. Particularly, when the workpiece is a dialysis water filter, the dialysis water filter is columnar, and the outer packaging bag and the workpiece are integrally columnar; therefore, it is necessary to develop a water filter production line for dialysis.

Disclosure of Invention

The object of the present invention is to provide a water filter production line for dialysis, which solves the above problems.

In order to solve the above technical problems, the present invention provides a water filter production line for dialysis, including: the labeling device comprises a workbench, a packaging part, a labeling part and a detecting part, wherein the packaging part is arranged above the workbench and is suitable for sealing and packaging workpieces from the upper end and the lower end;

the labeling part is arranged on one side of the packaging part and is suitable for labeling the outer package of the workpiece;

the detection part is fixed on the workbench and is suitable for detecting whether the outer package of the workpiece is qualified or not;

the packing part includes: the hot-pressing sealing device comprises a hot-pressing sealing component, a bottom membrane component, a top membrane component and a pull belt component, wherein the bottom membrane component is arranged at one end of the workbench, a bottom membrane roll is placed on the bottom membrane component and extends to the hot-pressing sealing component, and a workpiece is suitable to be placed on the bottom membrane;

the top film assembly is arranged above the workbench, and the top film roll is placed on the top film assembly and extends to cover the workpiece;

the hot-pressing sealing assembly is fixed on the workbench and is suitable for hot-pressing a sealing bottom film and a sealing top film;

the draw belt assembly is arranged on one side of the hot-pressing sealing assembly and is suitable for driving a workpiece to move; wherein

The bottom film is led out from the bottom film component and then horizontally moves to the detection part, the workpiece is placed on the bottom film, and the bottom film drives the workpiece to horizontally move;

the top film is led out from the top film assembly, covers the workpiece and moves horizontally to the detection part along with the workpiece;

when the workpiece moves to the position below the hot-pressing sealing assembly, the hot-pressing sealing assembly moves downwards to hot-press and seal the workpiece;

blowing air between the bottom film and the top film by the hot-pressing sealing assembly before sealing so as to expand the semi-closed bag of the workpiece;

and the drawstring component drives the sealed top film edge to horizontally move towards the detection part.

Further, the carrier film assembly comprises: the device comprises a bottom film supporting plate, a bottom film unwinding roller and a bottom film guide roller, wherein the bottom film supporting plate is fixed on the workbench, the bottom film unwinding roller is rotatably arranged on the side wall of the bottom film supporting plate, and a bottom film roll is sleeved on the outer wall of the bottom film unwinding roller;

the basement membrane guide roller is rotatably and horizontally arranged on the workbench, and is arranged below the basement membrane support plate; wherein

The bottom film extends out of the bottom film unwinding roller and extends to the draw belt assembly after passing through the bottom film guide roller;

the drawstring component axially rotates to drive the bottom film to horizontally slide so as to drive the workpiece on the bottom film to synchronously and horizontally move.

Further, the top film assembly comprises: the top film rolling device comprises a top film supporting plate, a top film unwinding roller, a top film guiding roller and a top film compaction column, wherein the top film supporting plate is fixed on the workbench, the top film unwinding roller is rotatably arranged on the side wall of the top film supporting plate, and the top film guiding roller is fixed on the side wall of the top film supporting plate;

the top film compaction column is rotatably arranged on the workbench, and the horizontal height of the top film compaction column is not less than the height of a workpiece; wherein

When the bottom film drives the workpiece to move to the position below the top film compaction column, the top film is pressed against the upper end of the workpiece from the top film unwinding roller through the top film compaction column and moves horizontally towards the detection part along with the workpiece.

Further, the ironing seal assembly comprises: the hot stamping device comprises a first cylinder, a second cylinder, a first hot stamping plate, a second hot stamping plate and a pressurizing assembly, wherein the first cylinder and the second cylinder are symmetrically arranged on two sides of a bottom membrane, and are both vertically fixed on a workbench;

the first ironing pressing plate is fixed at the end part of the piston rod of the first air cylinder, and the second ironing pressing plate is fixed at the end part of the piston rod of the second air cylinder;

the pressurizing assembly is fixed on one side, far away from the second air cylinder, of the first air cylinder, is suitable for blowing and pressurizing between the bottom film and the top film, and is linked with the second ironing plate;

the second ironing pressing plate comprises a transverse plate and two longitudinal plates, the moving directions of the transverse plate and the bottom film are parallel to each other, the two longitudinal plates are symmetrically arranged, and the two longitudinal plates are respectively and vertically fixed at two ends of the transverse plate;

the end parts of the two longitudinal plates are abutted against the side wall of the first ironing plate; wherein

When the bottom film drives the workpiece to move below the second ironing pressing plate, the second cylinder drives the transverse plate and the longitudinal plate to move downwards so as to iron and press the sealed bottom film and the sealed top film;

the pressurizing assembly synchronously blows and pressurizes air in a semi-closed bag formed by the sealed bottom film and the sealed top film;

the first air cylinder drives the first ironing pressing plate to move downwards, and the pressurizing assembly is pushed to slide outwards and simultaneously iron and press the sealing bottom film and the sealing top film.

Further, the pressurizing assembly includes: the pressurizing air pump is fixed on the outer side of the first air cylinder, and the sliding block is arranged below the first ironing plate in a sliding mode;

the side, close to the workpiece, of the sliding block is provided with a vent hole, and the sliding block is communicated with a pressurizing air pump through a hose;

one end of the pressurizing spring is fixed at the end part of the pressurizing air pump, and the other end of the pressurizing spring is fixed on the side wall of the sliding block;

one side of the sliding block, which is close to the workpiece, is provided with an inclined plane, and the lower end of the first ironing pressing plate is provided with an inclined plane matched with the sliding block; wherein

After the second ironing press plate irones and seals the bottom film and the top film, the pressurizing air pump blows air into the bottom film and the top film through the sliding block for pressurizing;

the first ironing pressing plate moves downwards to iron and seal the top film and the bottom film, and the lower end of the first ironing pressing plate extrudes the sliding block to slide outwards to be separated from the bottom film.

Further, the draw tape assembly comprises: the pull belt motor is fixed on the workbench, and the rotating disc is sleeved on the outer wall of a rotating shaft of the pull belt motor;

the plurality of racks are annularly arranged on the circumference of the rotating disc at equal intervals, and the racks are abutted against the bottom film; wherein

When the drawstring motor drives the rotating disc to axially rotate, the rack can drive the bottom film to horizontally move.

Further, the labeling part includes: the label placing device comprises a labeling support, a label placing column, a pasting plate, a label collecting column and a label collecting motor, wherein the labeling support is fixed on the workbench, the label placing column is rotatably fixed on the side wall of the labeling support, and the label placing column is suitable for placing a label roll;

the attaching plate is arranged above the workpiece, and one side of the attaching plate is abutted against the side wall of the workpiece;

the label collecting motor is fixed on one side of the label sticking bracket, and the label collecting column is sleeved on the outer wall of a rotating shaft of the label collecting motor; wherein

After the label roll is placed on the label placing column, the label moves towards the attaching plate and labels the outer package of the workpiece.

Further, the detection section includes: the detection section includes: the label collecting and breaking device comprises a driving assembly, a compacting assembly, a label collecting assembly and a bag breaking assembly, wherein the driving assembly is fixed on the workbench, the compacting assembly is slidably arranged at the movable end of the driving assembly, and the compacting assembly faces towards a workpiece;

the label collecting component is arranged on one side of the compacting component and is linked with the compacting component, and the label collecting component is suitable for collecting the label which is not compacted on the outer packaging bag of the workpiece;

the bag breaking assembly is arranged at the other end of the compaction assembly and is arranged on the workbench in a sliding manner, and the bag breaking assembly is suitable for cutting off unqualified outer packaging bags of workpieces; wherein

When the bottom film slides horizontally to drive the workpiece to move to the labeling part, the labeling part is suitable for labeling the outer packaging bag of the workpiece;

the driving assembly pushes the compaction assembly to horizontally slide towards the workpiece so as to detect whether the outer packaging bag of the workpiece leaks air or not;

when the detection is qualified, the outer packaging bag of the workpiece is abutted against the compaction component, so that the compaction component slides towards the driving component and compacts the outer label of the packaging bag;

the compaction assembly synchronously pushes the label collecting assembly and the bag breaking assembly to turn over towards two sides in the sliding process of the compaction assembly towards the driving assembly, so that the label collecting assembly and the bag breaking assembly cannot contact the outer packaging bag of the workpiece;

when the detection is unqualified, the outer packaging bag of the workpiece is not contacted with the compaction assembly, the label collecting assembly moves towards the workpiece, and the label on the outer packaging bag of the workpiece is collected and recovered;

the bag breaking component synchronously slides towards the outer packaging bag of the workpiece and cuts the outer packaging bag of the workpiece.

Further, the drive assembly includes: the two driving cylinders are fixed on the workbench in parallel, two ends of the linkage plate are respectively and vertically fixed at the end parts of piston rods of the two driving cylinders, and the two driving cylinders can synchronously drive the linkage plate to horizontally slide towards a workpiece;

the compaction assembly comprises: the device comprises a sliding column, a compaction block and a compression spring, wherein the compaction block is in an arc shape, and the arc surface of the compaction block faces towards a workpiece;

the sliding column is vertically fixed on the inner wall of the compaction block, a through hole matched with the sliding column is formed in the side wall of the linkage plate, and the sliding column is arranged in the through hole in a sliding manner;

the compression spring is sleeved on the outer wall of the sliding column, and two ends of the compression spring are respectively fixed on the inner wall of the compaction block and the outer wall of the linkage plate.

Further, the label collecting component comprises: the label collecting fixing plate is vertically fixed on the outer wall of the linkage plate, the label collecting plate is hinged to the end part of the label collecting fixing plate, and one side of the label collecting plate abuts against the side wall of the compaction block;

the bottom label recovery piece is arranged on the inner side wall of the linkage plate, two through grooves matched with the bottom label recovery piece are formed in the side wall of the linkage plate, and the bottom label belt passes through one through groove to wind the label fixing plate and the label collecting plate and then is recovered to the bottom label recovery piece; wherein

When the outer packaging bag of the workpiece is abutted against the compaction block, the compaction block is extruded by the outer packaging bag of the workpiece and pushes the label collecting plate to expand outwards;

after the outer packaging bag of the workpiece leaks air, the label collecting plate is abutted against the outer packaging bag of the workpiece and guides the label to be contacted with the label bottom belt, and the label bottom recycling piece can drive the label bottom belt to rotate circularly so as to recycle the label;

the bag breaking assembly comprises: the bag breaking device comprises a bag breaking cylinder, a bag breaking connecting rod, a linkage piece, a bag breaking fixing frame and a hinged plate, wherein the bag breaking fixing frame is vertically fixed on the outer side wall of the linkage plate, and is arranged on one side of the sliding column, which is far away from the label collecting fixing plate;

the hinged plate is hinged to the end part of the bag breaking fixing frame and abuts against the side wall of the compaction block;

the bag breaking cylinder is slidably arranged on the workbench, the bag breaking connecting rod is fixed at the end part of a piston rod of the bag breaking cylinder, the linkage piece is sleeved on the outer wall of the bag breaking connecting rod, and the linkage piece is linked with the hinged plate;

the end part of the bag breaking connecting rod is provided with a bag breaking knife which penetrates through the hinged plate and faces towards the workpiece; wherein

The bag breaking cylinder drives the bag breaking connecting rod to slide towards the workpiece until the bag breaking knife is abutted against the outer packaging bag of the workpiece so as to cut off the outer packaging bag of the workpiece;

when the outer packaging bag of the workpiece is abutted against the compaction block and pushes the compaction block to contract inwards, the compaction block pushes the hinged plate to expand outwards, and the hinged plate synchronously drives the bag breaking connecting rod to expand outwards through the linkage piece, so that the bag breaking knife cannot be contacted with the outer packaging bag of the workpiece.

The dialysis water filter production line has the beneficial effects that the dialysis water filter production line can convey the workpiece and seal and package the workpiece by punching the upper end and the lower end of the workpiece through the arrangement of the packaging part. Through the setting of subsides mark portion, can paste the mark to the outer packing bag of work piece. The detection part can detect whether the outer packaging bag of the workpiece is qualified or not, and if the outer packaging bag of the workpiece is unqualified, the detection part can take off the label on the packaging bag and tear the outer packaging bag; if qualified, the detection part can compact the label on the packaging bag.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of the dialysis water filter production line of the present invention;

FIG. 2 is a perspective view of the wrapping portion of the present invention;

FIG. 3 is a perspective view of the ironing seal assembly of the present invention;

FIG. 4 is a perspective view of the drawtape assembly of the present invention;

FIG. 5 is a plan view of the detecting part of the present invention;

FIG. 6 is a partial perspective view of the detection section of the present invention;

fig. 7 is a partial cross-sectional view of a linkage of the present invention.

In the figure:

1. a work table; 2. a packaging part; 21. ironing and pressing the sealing assembly; 211. a first cylinder; 212. a second cylinder; 213. a first ironing plate; 214. a second ironing plate; 215. a pressurizing assembly; 216. a pressurized air pump; 217. a slider;

22. a base film component; 221. a basement membrane support plate; 222. unwinding a bottom film roller; 223. a base film guide roll;

23. a top film assembly; 231. a top membrane support plate; 232. a top film unwinding roller; 233. a top film guide roller; 234. a top film compaction post;

24. a drawstring assembly; 241. a pull belt motor; 242. rotating the disc; 243. a rack;

3. a labeling part; 31. labeling a bracket; 32. placing a mark post; 33. attaching a plate; 34. collecting a label column; 35. a label collecting motor;

4. a detection unit; 41. a drive assembly; 411. a driving cylinder; 412. a linkage plate;

42. compacting the assembly; 421. a traveler; 422. compacting the block; 423. a compression spring;

43. a label collecting component; 431. a label collecting fixing plate; 432. collecting a label plate; 433. marking a background receipt; 434. recovering the motor;

44. a bag breaking assembly; 441. a bag breaking cylinder; 442. a bag breaking connecting rod; 443. a linkage member; 4431. a fixing ring; 4432. a slip ring; 4433. positioning the shaft; 4434. a compression spring; 444. a bag breaking fixing frame; 445. a hinge plate; 45. a bag breaking knife.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 6, the present invention provides a water filter production line for dialysis, comprising: a working table 1, a packaging part 2, a labeling part 3 and a detecting part 4. The table 1 is adapted to carry a packaging portion 2, a labelling portion 3 and a detection portion 4. The packing section 2 is adapted to hermetically pack the work. The labeling part 3 is suitable for labeling the packaged outer package of the workpiece. The detection unit 4 is adapted to detect whether or not the work outer package is acceptable. The workpiece is a dialysis water filter which is columnar, and the outer packaging bag surrounds the dialysis water filter, so that the workpiece and the packaging bag are integrally columnar. With respect to the above components, detailed description is given below.

Working table 1

The workbench 1 is fixedly arranged on a horizontal plane, and the workbench 1 is suitable for bearing the packaging part 2, the labeling part 3 and the detection part 4.

Packing part 2

The packaging part 2 is arranged above the workbench 1, and the packaging part 2 is arranged on one side of the feeding end of the workbench 1. The packing section 2 is adapted to convey the work and pack the work from both upper and lower ends thereof.

The structure of the packing portion 2 will be described specifically below, and the packing portion 2 includes: a hot-press sealing assembly 21, a bottom film assembly 22, a top film assembly 23, and a draw tape assembly 24. The hot-pressing sealing assembly 21 is fixed on the workbench 1. A carrier film assembly 22 is arranged at one end of the table 1, the carrier film assembly 22 is suitable for storing carrier film rolls, and the free ends of the carrier film rolls extend towards the ironing and pressing sealing assembly 21. The carrier film is adapted to receive a workpiece thereon, and the workpiece can be moved with the carrier film toward the hot press seal assembly 21 side. The top film assembly 23 is arranged above the workbench 1, a top film roll is placed on the top film assembly 23 and extends to cover the top film roll above a workpiece, and the top film and the bottom film can coat the workpiece from two ends. The ironing seal assembly 21 is adapted to iron seal the bottom and top films. The draw tape assembly 24 is arranged on one side of the hot-pressing sealing assembly 21, and the draw tape assembly 24 is suitable for driving a workpiece to move. Particularly, the free end and the stretching strap subassembly 24 fixed connection of end membrane book, stretching strap subassembly 24 can the level set up, and stretching strap subassembly 24 can the axial rotate, and stretching strap subassembly 24 can be rolled up through the pulling end membrane and remove to the work piece that the end membrane was rolled up is driven and is removed.

In order to achieve the above-mentioned effects of carrying a film roll by the carrier film assembly 22 and carrying and conveying a workpiece by the carrier film, the carrier film assembly 22 includes: a base film support plate 221, a base film unwinding roller 222, and a base film guide roller 223. The basement membrane supporting plate 221 is fixed on the workbench 1, the basement membrane supporting plate 221 is arranged in an upward inclined mode, and the inclined direction of the basement membrane assembly 22 is far away from the workbench 1. The basement membrane unreeling roller 222 is rotatably arranged on the side wall of the basement membrane supporting plate 221, and a basement membrane roll is sleeved on the outer wall of the basement membrane unreeling roller 222. The rotatable level of basement membrane guide roll 223 sets up on the workstation 1, just basement membrane guide roll 223 sets up basement membrane support plate 221 below. The free end of the base film extends from the base film unwind roll 222 and is capable of extending horizontally toward the draw tape assembly 24 after being wound under the base film guide roll 223. The workpiece can be placed on a horizontally disposed base film roll. The belt drawing assembly 24 axially rotates to drive the bottom film to horizontally slide so as to drive the workpiece on the bottom film to synchronously and horizontally move.

To achieve the effect of the top film assembly 23 cooperating with the bottom film assembly 22 to coat the workpiece, the top film assembly 23 comprises: top film support plate 231, top film unwind roller 232, top film guide roller 233, and top film compaction post 234. The top film supporting plate 231 is fixed on the working table 1, and the top film supporting plate 231 is adapted to support a top film unwinding roller 232, a top film guiding roller 233 and a top film compacting column 234. The top film unwinding roller 232 is rotatably arranged on the side wall of the top film supporting plate 231, and a top film roll is suitable to be placed on the top film unwinding roller 232. The top film guide rollers 233 are fixed to the side walls of the top film supporting plate 231, the number of the top film guide rollers 233 is two, the two top film guide rollers 233 are arranged on the two sides of the top film unwinding roller 232, and the top film roll can surround the two top film guide rollers 233, so that the tension of the top film roll is adjusted, and the extending direction of the free ends of the top film guide rollers 233 is changed. The top film compaction column 234 is rotatably arranged on the workbench 1, and the horizontal height of the top film compaction column 234 is not smaller than the height of the workpiece, so that when the bottom film roll carries the workpiece to move horizontally, the workpiece passes through the lower part of the top film compaction column 234. The free end of the roll of top film is extended horizontally toward the draw tape assembly 24 after passing under the top film compression post 234 so that the roll of top film overlies the upper end of the workpiece. Through the mode, the top film unwinding roller 232 abuts against the upper end of the workpiece through the top film compaction column 234, so that the top film coil is matched with the bottom film coil to cover the workpiece from the upper end and the lower end.

In order to achieve the effect of the hot-pressing sealing assembly 21 described above that seals the bottom film and the top film to seal the package to the workpiece, the hot-pressing sealing assembly 21 includes: a first air cylinder 211, a second air cylinder 212, a first ironing plate 213, a second ironing plate 214 and a pressing assembly 215. The first cylinder 211 and the second cylinder 212 are symmetrically disposed at both sides of the base film. The first cylinder 211 and the second cylinder 212 are both vertically fixed on the working table 1. The piston rod of the first cylinder 211 is disposed vertically downward, and the piston rod of the second cylinder 212 is also disposed vertically downward. The first ironing plate 213 is fixed to the end of the piston rod of the first cylinder 211, and the second ironing plate 214 is fixed to the end of the piston rod of the second cylinder 212. The first cylinder 211 can drive the first ironing press plate 213 to vertically slide, so that the top film and the bottom film at the corresponding positions of the first ironing press plate 213 are ironed and sealed; the second air cylinder 212 can drive the second ironing plate 214 to vertically slide, so that the top film and the bottom film at the corresponding positions of the second ironing plate 214 are ironed and sealed. Specifically, the second ironing board 214 includes a transverse board and two longitudinal boards, the transverse board and the bottom film move in parallel, the two longitudinal boards are symmetrically disposed, and the two longitudinal boards are respectively and vertically fixed at two ends of the transverse board. When the workpiece moves to the inner side of the second ironing press plate 214, the second air cylinder 212 drives the second ironing press plate 214 to iron and seal the top film and the bottom film at two transverse plates and one vertical plate of the second ironing press plate 214, so as to seal three side surfaces of the workpiece. The end parts of the two longitudinal plates are abutted against the side wall of the first ironing press plate 213, and the first cylinder 211 drives the first ironing press plate 213 to iron and seal the top film and the bottom film at the corresponding positions of the first ironing press plate 213, so as to seal the last side surface of the workpiece. The pressing component 215 is fixed on the side of the first air cylinder 211 far away from the second air cylinder 212, the pressing component 215 is suitable for blowing air and pressing between the bottom film and the top film, and the pressing component 215 is linked with the second ironing board 214. Specifically, after the second cylinder 212 drives the transverse plate and the longitudinal plate to move downwards to scald and seal the bottom film and the top film, the pressurizing assembly 215 synchronously blows and pressurizes a semi-closed bag formed by the sealed bottom film and the sealed top film so as to enable the semi-closed bag to be in a bulging state, and finally the first cylinder 211 drives the first ironing press plate 213 to move downwards to push the pressurizing assembly 215 to slide outwards and scald and seal the bottom film and the top film, so that an outer packing bag which wraps a workpiece and is in a bulging state is formed. The draw tape assembly 24 drives the sealed top film edge to move horizontally toward the detection part 4.

In order to achieve the above-mentioned effect of pressurizing the half-closed bag by blowing with the pressurizing assembly 215, the pressurizing assembly 215 includes: a pressurizing air pump 216, a slide block 217, and a pressurizing spring. The pressurization air pump 216 is fixed to the outside of the first air cylinder 211, and the pressurization air pump 216 is adapted to blow air outward. The sliding block 217 is slidably disposed below the first ironing plate 213, a vent hole is disposed on one side of the sliding block 217 close to the workpiece, and the sliding block 217 is communicated with the pressurizing air pump 216 through a hose. The pressurizing air pump 216 can blow air to the workpiece horizontally through the vent holes, and meanwhile, the pressurizing air pump 216 can slide horizontally to be close to the bottom film and the top film through the sliding block 217 and blow air to the inside for pressurizing. One end of the pressurizing spring is fixed at the end of the pressurizing air pump 216, and the other end of the pressurizing spring is fixed at the side wall of the sliding block 217. One side of the sliding block 217 close to the workpiece is provided with an inclined plane, and the lower end of the first hot pressing plate 213 is provided with an inclined plane matched with the sliding block 217. After the second ironing plate 214 irones and seals the bottom film and the top film, a pressurizing air pump 216 blows air into the bottom film and the top film through a sliding block 217 for pressurization. The first ironing plate 213 moves downward to iron seal the top film and the bottom film, and the lower end of the first ironing plate 213 presses the sliding block 217 to slide outward to be separated from the bottom film.

To the above-described effect of the draw tape assembly 24 driving the carrier film horizontally, the draw tape assembly 24 comprises: a pull belt motor 241, a rotary disc 242 and a plurality of racks 243. The pull belt motor 241 is fixed on the workbench 1, and an output shaft of the pull belt motor 241 is horizontally arranged. The rotating disc 242 is sleeved on the outer wall of the rotating shaft of the pull belt motor 241. The plurality of racks 243 are annularly arranged on the circumference of the rotating disc 242 at equal intervals, and the racks 243 are abutted against the bottom film. When the belt drawing motor 241 drives the rotating disc 242 to axially rotate, the rack 243 can drive the bottom film to horizontally move.

Labeling part 3

The labeling part 3 is arranged on one side of the packaging part 2, and the labeling part 3 is suitable for labeling the outer package of the workpiece.

The structure of the labeling part 3 will be described in detail below, and the labeling part 3 includes: labeling support 31, label placing column 32, attaching plate 33, label collecting column 34 and label collecting motor 35. The labeling support 31 is fixed on the workbench 1, the label placing column 32 is rotatably fixed on the side wall of the labeling support 31, and the label placing column 32 is suitable for placing a label roll. The attaching plate 33 is arranged above the workpiece, and one side of the attaching plate 33 abuts against the side wall of the workpiece. The label collecting motor 35 is fixed on one side of the label sticking bracket 31, and the label collecting column 34 is sleeved on the outer wall of the rotating shaft of the label collecting motor 35. After the label roll is placed on the label placing column 32, the label is moved toward the attachment plate 33 and labels the work outer package.

Detection part 4

The detection part 4 is fixed on the workbench 1, the detection part 4 is arranged between the attaching plate 33 and the labeling support 31, and after the attaching plate 33 attaches the label to the outer package of the workpiece, the detection part 4 can detect whether the outer package of the workpiece is qualified or not and extrude the outer wall of the outer package bag of the workpiece with qualified air tightness, so that the label is compacted; and (5) recycling the label of the outer packaging bag of the workpiece with unqualified air tightness, and crushing the outer packaging bag of the workpiece.

The structure of the detection unit 4 will be described in detail below, and the detection unit 4 includes: a drive assembly 41, a compaction assembly 42, a label receiving assembly 43, and a bag breaking assembly 44. The driving assembly 41 is fixed on the workbench 1, the compacting assembly 42 is slidably arranged at the movable end of the driving assembly 41, and the compacting assembly 42 faces towards a workpiece. Receive mark subassembly 43 and set up in one side of compaction subassembly 42, just receive mark subassembly 43 with the linkage of compaction subassembly 42, work piece outer packing bag can be pressed to compaction subassembly 42 to whether detect work piece outer packing bag gas leakage, if work piece outer packing bag gas leakage, then receive mark subassembly 43 and can collect the label that does not compact on the work piece outer packing bag. The bag breaking assembly 44 is arranged at the other end of the compacting assembly 42, the bag breaking assembly 44 is slidably arranged on the workbench 1, and the bag breaking assembly 44 is suitable for cutting off unqualified outer packaging bags of workpieces.

In order to achieve the effect of the driving assembly 41 driving the horizontal sliding of the compacting assembly 42, the driving assembly 41 comprises: two drive cylinders 411 and a linkage plate 412. Two driving cylinders 411 are fixed on the workbench 1 in parallel, the two driving cylinders 411 are horizontally arranged, and piston rods of the driving cylinders 411 are vertical to the horizontal sliding direction of the basement membrane. Two ends of the linkage plate 412 are respectively and vertically fixed at the end parts of the piston rods of the two driving cylinders 411. Through the arrangement, when the workpiece horizontally slides to one side of the linkage plate 412 along with the bottom film, the two driving cylinders 411 synchronously drive the linkage plate 412 to horizontally slide towards the workpiece, so that the compacting component 42 can extrude the outer packaging bag of the workpiece.

The compaction assembly 42 includes: a sliding column 421, a compacted cake 422. The compaction block 422 is arc-shaped, and the arc surface of the compaction block 422 faces the workpiece. The sliding column 421 is vertically fixed on the inner wall of the compacting block 422, a through hole matched with the sliding column 421 is formed in the side wall of the linkage plate 412, and the sliding column 421 is slidably arranged in the through hole. Through the mode, the driving cylinder 411 pushes the linkage plate 412 to horizontally move to the compaction block 422 to abut against the outer packaging bag of the workpiece, so that whether the outer packaging bag of the workpiece is qualified in air tightness is detected. Specifically, if the air tightness of the outer packaging bag of the workpiece is qualified, when the compaction block 422 abuts against the outer packaging bag of the workpiece, the driving cylinder 411 drives the pushing linkage plate 412, and the gas in the outer packaging bag of the workpiece can extrude the compaction block 422 to slide along the through hole, so that the outer packaging bag of the workpiece is prevented from being broken by the compaction block 422; if the air tightness of the outer packaging bag of the workpiece is not qualified, and the compaction block 422 abuts against the outer packaging bag of the workpiece, the compaction block 422 extrudes the outer packaging bag of the workpiece, so that the gas in the outer packaging bag of the workpiece escapes from the air leakage position. When the compaction block 422 is abutted to the outer packaging bag of the workpiece, the label pasted on the outer packaging bag of the workpiece with qualified air tightness can be compacted, and the label is prevented from falling off from the outer packaging bag of the workpiece.

In addition, in order to facilitate the resetting of the compaction block 422, the compaction assembly 42 further comprises a compression spring 423, the compression spring 423 is sleeved on the outer wall of the sliding column 421, and two ends of the compression spring 423 are respectively fixed on the inner wall of the compaction block 422 and the outer wall of the linkage plate 412. When the compaction block 422 slides along the through hole, the compression spring 423 is compressed, and when the compaction block 422 is separated from the outer packaging bag of the workpiece, the compression spring 423 pulls the compaction block 422 to reset.

In order to achieve the above-mentioned effect that the label collecting assembly 43 collects the label on the unqualified outer packaging bag for workpieces, the label collecting assembly 43 comprises: a label fixing plate 431, a label collecting plate 432 and a label base recovery part 433. The label-collecting fixing plate 431 is vertically fixed on the outer wall of the linkage plate 412, and the label-collecting fixing plate 431 is suitable for supporting the label-collecting plate 432. The label collecting plate 432 is hinged to the end of the label collecting fixing plate 431, one side of the label collecting plate 432 abuts against the side wall of the compaction block 422, and the label collecting plate 432 abuts against the outer packaging bag of the workpiece, so that the label on the unqualified outer packaging bag of the workpiece is removed. When the compaction block 422 slides along the through hole in the direction away from the workpiece, the mark collecting plate 432 can be pushed to rotate around the end of the mark collecting fixing plate 431. By the mode, when the qualified outer packaging bag for workpieces passes through, the compaction block 422 slides inwards along the through hole, so that the label collecting plate 432 is pushed to expand outwards, and the label on the qualified outer packaging bag for workpieces is prevented from being uncovered by the label collecting plate 432. The standard bottom reclaimer 433 is arranged on the inner side wall of the linkage plate 412, and two through grooves matched with the standard bottom reclaimer 433 are formed in the side wall of the linkage plate 412. The label bottom tape passes through a through groove to wind the label fixing plate 431 and the label collecting plate 432 and then is collected to a label bottom collection device 433. After the outer packaging bag of work piece leaks gas, receive mark board 432 and work piece outer packaging bag and offset and guide label and bottom marking tape contact, bottom marking retriever 433 can drive bottom marking tape circulation and rotate in order to retrieve the label.

In order to achieve the above effect of retrieving the label by the background retriever 433, the background retriever 433 includes: and the two rollers are arranged in parallel, wherein the roller close to the compaction block 422 is suitable for unreeling the standard base tape roll, and the roller far away from the compaction block 422 is suitable for reeling the standard base tape roll. Two through grooves are formed in the linkage plate 412, and one through groove corresponds to one roller. The standard bottom tape roll passes through the corresponding through groove from the roller, and passes through another through groove after encircling the standard bottom receipt 433, and is fixed on the roller for rolling the standard bottom tape roll. A recovery motor 434 is arranged on one side of the roller for winding the label base tape roll, and when the recovery motor 434 is pneumatic, the label base tape roll can be driven to rotate circularly to recover the label.

In order to achieve the above-mentioned effect of the bag breaking assembly 44 cutting off the unqualified outer packaging bag of the workpiece, the bag breaking assembly 44 comprises: bag breaking cylinder 441, bag breaking connecting rod 442, linkage 443, bag breaking fixing frame 444 and hinge plate 445. The bag breaking fixing frame 444 is vertically fixed on the outer side wall of the linkage plate 412, and the bag breaking fixing frame 444 is arranged on one side of the sliding column 421, which is far away from the label collecting fixing plate 431. The hinged plate 445 is hinged at the end part of the bag breaking fixing frame 444, the hinged plate 445 is abutted against the side wall of the compaction block 422, and when the compaction block 422 horizontally slides along the through hole, the hinged plate 445 can be pushed to be unfolded outwards. The bag breaking cylinder 441 is slidably arranged on the workbench 1, the shell of the bag breaking cylinder 441 is fixed to the workbench 1, the piston rod of the bag breaking cylinder 441 is horizontally arranged, the bag breaking cylinder 441 is parallel to the driving cylinder 411, the bag breaking connecting rod 442 is fixed to the end portion of the piston rod of the bag breaking cylinder 441, the linkage plate 412 is provided with a sliding groove matched with the bag breaking connecting rod 442, and the bag breaking connecting rod 442 can drive the bag breaking cylinder 441 to horizontally slide along the sliding groove. The link 443 is sleeved on the outer wall of the bag breaking connecting rod 442, a link groove matched with the link 443 is formed in the hinged plate 445, a bag breaking knife 45 is arranged at the end of the bag breaking connecting rod 442, and the bag breaking knife 45 penetrates through the hinged plate 445 and faces towards a workpiece. The bag breaking link 442 passes through the linkage slot and causes the bag breaking knife 45 to protrude out of the outer sidewall of the compacted block 422. When the unqualified outer packaging bag of the workpiece passes through, the bag breaking cylinder 441 drives the bag breaking connecting rod 442 to slide towards the workpiece until the bag breaking knife 45 abuts against the outer packaging bag of the workpiece so as to cut the outer packaging bag of the workpiece. When the qualified outer workpiece packaging bag passes through, the outer workpiece packaging bag abuts against the compaction block 422 and pushes the compaction block 422 to contract inwards, the compaction block 422 pushes the hinge plate 445 to expand outwards, and the hinge plate 445 synchronously drives the bag breaking connecting rod 442 to expand outwards through the linkage 443, so that the bag breaking knife 45 cannot contact with the outer workpiece packaging bag.

The structure of the link 443 will be described in detail below, and the link 443 includes: a fixed ring 4431, a sliding ring 4432, two positioning shafts 4433, and a plurality of pressing springs 4434. The fixing ring 4431 is sleeved on the outer wall of the bag breaking connecting rod 442, the sliding ring 4432 is slidably sleeved on the outer wall of the bag breaking connecting rod 442, and the plurality of extrusion springs 4434 are annularly arranged between the fixing ring 4431 and the sliding ring 4432 at equal intervals. The two positioning shafts 4433 are vertically fixed on the upper and lower side walls of the sliding ring 4432, and the end parts of the two positioning shafts 4433 are rotatably inserted into the upper end wall or the lower end wall of the linkage groove. As the compactor masses 422 squeeze the hinge plates 445 outward, the hinge plates 445 pivot the hinge points to drive the slide rings 4432 outward. The sliding ring 4432 rotates around the positioning shaft 4433, and the sliding ring 4432 synchronously pushes the bag breaking connecting rod 442 to slide horizontally and outwards. So that the bag breaking knife 45 cannot contact with the outer packaging bag of the workpiece; on the contrary, when the hinge plate 445 is not pressed by the compaction block 422, the bag breaking knife 45 abuts against the outer packaging bag of the workpiece to cut the outer packaging bag of the workpiece.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. Water filter production line for dialysis, its characterized in that includes:

the labeling machine comprises a workbench (1), a packaging part (2), a labeling part (3) and a detection part (4), wherein the packaging part (2) is arranged above the workbench (1), and the packaging part (2) is suitable for sealing and packaging workpieces from the upper end and the lower end;

the labeling part (3) is arranged on one side of the packaging part (2), and the labeling part (3) is suitable for labeling the outer package of the workpiece;

the detection part (4) is fixed on the workbench (1), and the detection part (4) is suitable for detecting whether the outer package of the workpiece is qualified or not;

the packaging part (2) comprises: the hot-pressing sealing device comprises a hot-pressing sealing assembly (21), a bottom film assembly (22), a top film assembly (23) and a pull belt assembly (24), wherein the bottom film assembly (22) is arranged at one end of the workbench (1), a bottom film roll is placed on the bottom film assembly (22) and extends to the hot-pressing sealing assembly (21), and a workpiece is suitable to be placed on the bottom film;

the top film assembly (23) is arranged above the workbench (1), and a top film roll is placed on the top film assembly (23) and extends to cover the workpiece;

the hot-pressing sealing assembly (21) is fixed on the workbench (1), and the hot-pressing sealing assembly (21) is suitable for hot-pressing a sealing bottom film and a sealing top film;

the draw tape assembly (24) is arranged on one side of the hot-pressing sealing assembly (21), and the draw tape assembly (24) is suitable for driving a workpiece to move; wherein

The bottom film is led out from the bottom film component (22) and then moves horizontally to the detection part (4), the workpiece is placed on the bottom film, and the bottom film drives the workpiece to move horizontally;

the top film is led out from the top film assembly (23), covers the workpiece and horizontally moves to the detection part (4) along with the workpiece;

when the workpiece moves to the position below the ironing sealing assembly (21), the ironing sealing assembly (21) moves downwards to iron and seal the workpiece;

the hot-pressing sealing component (21) blows air between the bottom film and the top film before sealing so as to expand the semi-closed bag of the workpiece;

the drawstring component (24) drives the sealed top film edge to horizontally move towards the detection part (4).

2. The water filter production line for dialysis as claimed in claim 1,

the carrier film assembly (22) comprising: the film unwinding device comprises a bottom film supporting plate (221), a bottom film unwinding roller (222) and a bottom film guiding roller (223), wherein the bottom film supporting plate (221) is fixed on the workbench (1), the bottom film unwinding roller (222) is rotatably arranged on the side wall of the bottom film supporting plate (221), and a bottom film roll is sleeved on the outer wall of the bottom film unwinding roller (222);

the basement membrane guide roll (223) is rotatably and horizontally arranged on the workbench (1), and the basement membrane guide roll (223) is arranged below the basement membrane support plate (221); wherein

The base film extends from the base film unwinding roller (222) and extends to the draw tape assembly (24) after passing through the base film guide roller (223);

the drawstring component (24) axially rotates to drive the bottom film to horizontally slide so as to drive the workpiece on the bottom film to synchronously and horizontally move.

3. The dialysis water filter production line as claimed in claim 2,

the top film assembly (23) comprises: the film pressing device comprises a top film supporting plate (231), a top film unwinding roller (232), a top film guiding roller (233) and a top film compacting column (234), wherein the top film supporting plate (231) is fixed on the workbench (1), the top film unwinding roller (232) is rotatably arranged on the side wall of the top film supporting plate (231), and the top film guiding roller (233) is fixed on the side wall of the top film supporting plate (231);

the top film compaction column (234) is rotatably arranged on the workbench (1), and the horizontal height of the top film compaction column (234) is not less than the height of a workpiece; wherein

When the bottom film drives the workpiece to move to the position below the top film compaction column (234), the top film is pressed against the upper end of the workpiece from the top film unwinding roller (232) through the top film compaction column (234) and moves horizontally towards the detection part (4) along with the workpiece.

4. The water filter production line for dialysis as set forth in claim 3,

the ironing seal assembly (21) comprises: the hot stamping device comprises a first air cylinder (211), a second air cylinder (212), a first hot stamping plate (213), a second hot stamping plate (214) and a pressing assembly (215), wherein the first air cylinder (211) and the second air cylinder (212) are symmetrically arranged on two sides of a bottom film, and the first air cylinder (211) and the second air cylinder (212) are vertically fixed on a workbench (1);

the first ironing plate (213) is fixed at the end of the piston rod of the first air cylinder (211), and the second ironing plate (214) is fixed at the end of the piston rod of the second air cylinder (212);

the pressurizing assembly (215) is fixed on one side, away from the second air cylinder (212), of the first air cylinder (211), the pressurizing assembly (215) is suitable for blowing air between the bottom film and the top film for pressurizing, and the pressurizing assembly (215) is linked with the second ironing plate (214);

the second ironing press plate (214) comprises a transverse plate and two longitudinal plates, the moving directions of the transverse plate and the base film are parallel to each other, the two longitudinal plates are symmetrically arranged, and the two longitudinal plates are respectively and vertically fixed at two ends of the transverse plate;

the end parts of the two longitudinal plates are propped against the side wall of the first ironing plate (213); wherein

When the bottom film drives the workpiece to move below the second ironing press plate (214), the second air cylinder (212) drives the transverse plate and the longitudinal plate to move downwards so as to iron and press the bottom film and the top film;

the pressurizing assembly (215) synchronously blows and pressurizes the air in the semi-closed bag formed by the sealed bottom film and the sealed top film;

the first air cylinder (211) drives the first ironing press plate (213) to move downwards, and pushes the pressing assembly (215) to slide outwards and iron and press the sealing bottom film and the sealing top film simultaneously.

5. The water filter production line for dialysis as set forth in claim 4,

the pressurization assembly (215) comprises: the pressing device comprises a pressurizing air pump (216), a sliding block (217) and a pressurizing spring, wherein the pressurizing air pump (216) is fixed on the outer side of the first air cylinder (211), and the sliding block (217) is arranged below the first ironing plate (213) in a sliding mode;

a vent hole is formed in one side, close to the workpiece, of the sliding block (217), and the sliding block (217) is communicated with a pressurization air pump (216) through a hose;

one end of the pressurizing spring is fixed at the end part of the pressurizing air pump (216), and the other end of the pressurizing spring is fixed on the side wall of the sliding block (217);

one side of the sliding block (217), which is close to the workpiece, is provided with an inclined plane, and the lower end of the first hot pressing plate (213) is provided with an inclined plane matched with the sliding block (217); wherein

After the second hot pressing plate (214) is used for hot pressing and sealing the bottom film and the top film, a pressurizing air pump (216) blows air into the bottom film and the top film through a sliding block (217) for pressurizing;

the first ironing plate (213) moves downwards to iron and seal the top film and the bottom film, and the lower end of the first ironing plate (213) extrudes the sliding block (217) to slide outwards to separate from the bottom film.

6. The water filter production line for dialysis as set forth in claim 5,

the draw tape assembly (24) comprises: the rotary table comprises a pull belt motor (241), a rotary disc (242) and a plurality of racks (243), wherein the pull belt motor (241) is fixed on the working table (1), and the rotary disc (242) is sleeved on the outer wall of a rotary shaft of the pull belt motor (241);

the plurality of racks (243) are annularly arranged on the circumference of the rotating disc (242) at equal intervals, and the racks (243) are abutted against the bottom film; wherein

When the pull belt motor (241) drives the rotating disc (242) to axially rotate, the rack (243) can drive the bottom film to horizontally move.

7. The water filter production line for dialysis as set forth in claim 6,

the labeling part (3) comprises: the label sticking device comprises a labeling support (31), a label placing column (32), a laminating plate (33), a label collecting column (34) and a label collecting motor (35), wherein the labeling support (31) is fixed on the workbench (1), the label placing column (32) is rotatably fixed on the side wall of the labeling support (31), and the label placing column (32) is suitable for placing a label roll;

the attaching plate (33) is arranged above the workpiece, and one side of the attaching plate (33) is abutted against the side wall of the workpiece;

the label collecting motor (35) is fixed on one side of the labeling support (31), and the label collecting column (34) is sleeved on the outer wall of a rotating shaft of the label collecting motor (35); wherein

After the label roll is placed on the label placing column (32), the label moves towards the attaching plate (33) and labels the outer package of the workpiece.

8. The water filter production line for dialysis as set forth in claim 7,

the detection unit (4) includes: the detection unit (4) includes: the bag breaking device comprises a driving assembly (41), a compacting assembly (42), a label collecting assembly (43) and a bag breaking assembly (44), wherein the driving assembly (41) is fixed on the workbench (1), the compacting assembly (42) is slidably arranged at the movable end of the driving assembly (41), and the compacting assembly (42) faces towards a workpiece;

the label collecting component (43) is arranged on one side of the compacting component (42), the label collecting component (43) is linked with the compacting component (42), and the label collecting component (43) is suitable for collecting the label which is not compacted on the outer packaging bag of the workpiece;

the bag breaking assembly (44) is arranged at the other end of the compacting assembly (42), the bag breaking assembly (44) is slidably arranged on the workbench (1), and the bag breaking assembly (44) is suitable for cutting off unqualified outer packaging bags of workpieces; wherein

When the bottom film slides horizontally to drive the workpiece to move to the labeling part (3), the labeling part (3) is suitable for labeling the outer packaging bag of the workpiece;

the driving component (41) pushes the compacting component (42) to horizontally slide towards the workpiece so as to detect whether the outer packaging bag of the workpiece leaks air or not;

when the detection is qualified, the outer packaging bag of the workpiece is abutted against the compacting component (42) so that the compacting component (42) slides towards the driving component (41) and compacts the outer label of the packaging bag;

the compacting component (42) synchronously pushes the label collecting component (43) and the bag breaking component (44) to turn over towards two sides in the sliding process of the driving component (41), so that the label collecting component (43) and the bag breaking component (44) cannot contact the outer packaging bag of the workpiece;

when the detection is unqualified, the outer packaging bag of the workpiece is not contacted with the compacting component (42), the label collecting component (43) moves towards the workpiece, and the label on the outer packaging bag of the workpiece is collected and recovered;

the bag breaking component (44) synchronously slides towards the outer packaging bag of the workpiece and cuts the outer packaging bag of the workpiece.

9. The water filter production line for dialysis as set forth in claim 8,

the drive assembly (41) comprises: the two driving cylinders (411) and the linkage plate (412), the two driving cylinders (411) are fixed on the workbench (1) in parallel, two ends of the linkage plate (412) are respectively and vertically fixed at the end parts of piston rods of the two driving cylinders (411), and the two driving cylinders (411) can synchronously drive the linkage plate (412) to horizontally slide towards a workpiece;

the compaction assembly (42) comprises: the device comprises a sliding column (421), a compaction block (422) and a compression spring (423), wherein the compaction block (422) is in an arc shape, and the arc surface of the compaction block (422) faces towards a workpiece;

the sliding column (421) is vertically fixed on the inner wall of the compaction block (422), a through hole matched with the sliding column (421) is formed in the side wall of the linkage plate (412), and the sliding column (421) is slidably arranged in the through hole;

the compression spring (423) is sleeved on the outer wall of the sliding column (421), and two ends of the compression spring (423) are respectively fixed on the inner wall of the compaction block (422) and the outer wall of the linkage plate (412).

10. The water filter production line for dialysis as set forth in claim 9,

the label receiving assembly (43) comprises: the mark collecting fixing plate (431), the mark collecting plate (432) and the mark bottom recovering piece (433), wherein the mark collecting fixing plate (431) is vertically fixed on the outer wall of the linkage plate (412), the mark collecting plate (432) is hinged to the end part of the mark collecting fixing plate (431), and one side of the mark collecting plate (432) is abutted to the side wall of the compaction block (422);

the standard bottom recovery piece (433) is arranged on the inner side wall of the linkage plate (412), two through grooves matched with the standard bottom recovery piece (433) are formed in the side wall of the linkage plate (412), and a standard bottom belt passes through one through groove to wind around the standard bottom fixing plate (431) and the standard bottom recovery plate (432) and then is recovered to the standard bottom recovery piece (433); wherein

When the outer packaging bag of the workpiece is abutted against the compaction block (422), the compaction block (422) is extruded by the outer packaging bag of the workpiece and pushes the label collecting plate (432) to expand outwards;

after the outer packaging bag of the workpiece leaks air, the label collecting plate (432) is abutted against the outer packaging bag of the workpiece and guides the label to be contacted with the label base belt, and the label base recycling piece (433) can drive the label base belt to rotate circularly so as to recycle the label;

the bag breaking assembly (44) comprises: the bag breaking device comprises a bag breaking cylinder (441), a bag breaking connecting rod (442), a linkage piece (443), a bag breaking fixing frame (444) and a hinge plate (445), wherein the bag breaking fixing frame (444) is vertically fixed on the outer side wall of the linkage plate (412), and the bag breaking fixing frame (444) is arranged on one side, away from the label collecting fixing plate (431), of the sliding column (421);

the hinged plate (445) is hinged at the end part of the bag breaking fixing frame (444), and the hinged plate (445) is abutted against the side wall of the compaction block (422);

the bag breaking cylinder (441) is slidably arranged on the workbench (1), the bag breaking connecting rod (442) is fixed at the end part of a piston rod of the bag breaking cylinder (441), the linkage piece (443) is sleeved on the outer wall of the bag breaking connecting rod (442), and the linkage piece (443) is linked with the hinge plate (445);

the end part of the bag breaking connecting rod (442) is provided with a bag breaking knife which passes through the hinged plate (445) and faces a workpiece; wherein

The bag breaking cylinder (441) drives the bag breaking connecting rod (442) to slide towards the workpiece until the bag breaking knife is abutted against the outer packaging bag of the workpiece so as to cut the outer packaging bag of the workpiece;

when the outer packaging bag of the workpiece is abutted against the compaction block (422) and pushes the compaction block (422) to contract inwards, the compaction block (422) pushes the hinged plate (445) to expand outwards, and the hinged plate (445) synchronously drives the bag breaking connecting rod (442) to expand outwards through the linkage (443), so that the bag breaking knife cannot be in contact with the outer packaging bag of the workpiece.

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