CN114313507A

CN114313507A - Endotoxin filter production line

Info

Publication number: CN114313507A
Application number: CN202210245806.1A
Authority: CN
Inventors: 郭文群; 程强; 郭川
Original assignee: Changzhou Hengyi Light Industrial Machinery Co ltd
Current assignee: Changzhou Hengyi Light Industrial Machinery Co ltd
Priority date: 2022-03-14
Filing date: 2022-03-14
Publication date: 2022-04-12

Abstract

The invention relates to the technical field of packaging detection, in particular to an endotoxin filter production line. The invention provides an endotoxin filter production line, comprising: the device comprises a workbench, a circulating conveying part, a unreeling part, a forming part and a detection part; the circular conveying part is fixed at one end of the workbench, a plurality of clamping blocks are arranged on the circular conveying part, and the clamping blocks are suitable for limiting and fixing workpieces; the detection part is suitable for detecting whether the packaging of the workpiece is qualified or not and labeling the qualified workpiece packaging bag; wherein the packaging bag is extruded and formed by the forming part and then moves to the circulating conveying part, and the workpiece is inserted into the packaging bag and is clamped and fixed by the workpiece clamping block; when the workpiece packaging bag is qualified, the workpiece packaging bag abuts against the detection part so that the detection part labels the packaging bag; when the workpiece packaging bag is unqualified, the workpiece packaging bag does not abut against the detection part, and the detection part can remove the unqualified workpiece from the workpiece clamping block.

Description

Endotoxin filter production line

Technical Field

The invention relates to the technical field of packaging detection, in particular to an endotoxin filter production line.

Background

The transportation package is a package which aims at reducing the damage to products in the transportation and circulation process as much as possible, ensuring the safety of the products, facilitating the storage, transportation, loading and unloading and accelerating the cross-over inspection, and people mainly aim at the transportation, the storage and the transportation in the package. The packaging bag is also called as an outer package, and mainly has the functions of protecting commodities, preventing goods from being damaged and bad in the storage and transportation process, avoiding the possible influence of various external conditions on the commodities in the transportation process to the maximum extent, and facilitating inspection, counting and distribution.

Therefore, the outer package of the workpiece is added to the production line of the workpiece in the production process, the outer package of the workpiece is labeled, and the packaged workpiece is transported to the detection equipment for detection. Therefore, it is necessary to develop an endotoxin filter production line.

Disclosure of Invention

The invention aims to provide an endotoxin filter production line.

In order to solve the above technical problems, the present invention provides an endotoxin filter production line comprising: the packaging bag roll forming device comprises a workbench, a circulating conveying part, a roll releasing part, a forming part and a detecting part, wherein the roll releasing part is fixed on the workbench and is suitable for placing a packaging bag roll;

the forming part is fixed on one side of the unwinding part and is suitable for extruding the packaging bag into a cylindrical shape;

the circular conveying part is fixed at one end of the workbench, a plurality of clamping blocks are arranged on the circular conveying part, and the clamping blocks are suitable for limiting and fixing workpieces;

the detection part is fixed on the workbench, is arranged below the circulating conveying part and is suitable for detecting whether the packaging of the workpieces is qualified or not and labeling qualified workpiece packaging bags; wherein

The packaging bag is extruded and formed by the forming part and then moves to the circulating conveying part, and the workpiece is inserted into the packaging bag and is clamped and fixed by the clamping block;

when the workpiece packaging bag is qualified, the workpiece packaging bag abuts against the detection part so that the detection part labels the packaging bag;

when the workpiece packaging bag is unqualified, the workpiece packaging bag does not abut against the detection part, and the detection part can remove the unqualified workpiece from the workpiece clamping block.

Further, the unwinding part includes: the cutting device comprises an unwinding support, two unwinding disks, two guide rollers, a tension adjusting roller, a cutting fixing plate and a clamping cylinder, wherein the unwinding support is vertically fixed on the workbench, the two unwinding disks are symmetrically arranged, and a packaging bag coiled material is suitable to be placed between the two unwinding disks;

the tension adjusting roller is arranged on the side wall of the unreeling bracket in a lifting and sliding manner, the two guide rollers are respectively fixed on two sides of the tension adjusting roller, and the tension adjusting roller and the guide rollers are parallel to the workbench;

the cutting fixing plate is vertically fixed on the side wall of the unreeling support, the clamping cylinder is fixed above the cutting fixing plate, and a clamping fixing plate matched with the cutting fixing plate is fixed at the end part of a piston rod of the clamping cylinder; wherein

Sliding the tension adjusting roller up and down to adjust the tension of the packaging bag;

the vertical downstream of centre gripping cylinder drive centre gripping fixed plate is to when offsetting with cutting out the fixed plate, the shaping portion can be cut into the wrapping bag and predetermine length.

Further, the molding portion includes: the forming assembly is fixed on the workbench, and the horizontal height of the forming assembly is greater than that of the circulating conveying part;

the cutting assembly is arranged on the workbench in a sliding mode, and one end of the cutting assembly is close to the cutting fixing plate;

the pushing assembly is slidably arranged below the forming assembly and is suitable for pushing the formed packaging bag into the clamping block; wherein

The cutting assembly absorbs the packaging bag and horizontally moves to place the packaging bag on the forming assembly;

the forming component extrudes the packaging bag downwards to form a U shape and then thermoprints the packaging bag to form a cylinder shape;

the pushing assembly is abutted against one end of the packaging bag and pushes the packaging bag to horizontally slide to the falling-in clamping block.

The cutting assembly comprises a cutting fixing plate, a cutting sliding cylinder, a cutting scissors, a cutting cylinder and a cutting adsorption plate, wherein the cutting sliding cylinder is horizontally fixed on the workbench, and the cutting fixing plate is fixed at the end part of a piston rod of the cutting sliding cylinder;

the cutting cylinder is fixed on one side, close to the unreeling support, of the cutting fixing plate, the cutting scissors are arranged at the movable end of the cutting cylinder, and the cutting cylinder can drive the cutting scissors to be opened or closed to cut the packaging bag;

the cutting adsorption plate is arranged on one side of the cutting fixing plate through a connecting plate in a lifting manner, and faces towards the workbench;

a supporting table is fixed on one side of the unreeling support and arranged below the cutting adsorption plate; wherein

The cutting adsorption plate slides downwards to abut against the support platform to adsorb the packaging bag;

the cutting sliding cylinder drives the cutting adsorption plate to horizontally slide so as to convey the packaging bag to the upper part of the forming assembly;

the cutting cylinder drives the cutting scissors to be closed so as to cut off the packaging bag.

Further, the molding assembly includes: the forming device comprises a forming platform, a forming extrusion plate, a forming cylinder and a sealing hot stamping plate, wherein the forming platform is horizontally arranged above the workbench, and a forming groove matched with the forming extrusion plate is formed in the forming platform;

the forming cylinder is fixed on the side wall of the forming platform, the forming extrusion plate is fixed at the end part of a piston rod of the forming cylinder, and the forming extrusion plate is vertically arranged above the forming groove;

the forming extrusion plate is provided with a sliding groove along the length direction, and the sealing thermoprinting plate is arranged in the sliding groove in a sliding manner; wherein

After the packaging bag is moved to the forming platform by cutting the adsorption plate, the forming extrusion plate slides downwards to extrude the packaging bag into the forming groove, so that the packaging bag is U-shaped;

the opening hot stamping plate horizontally slides to seal the opening hot stamping on the U-shaped packaging bag to form a cylinder shape;

the pushing component horizontally slides to push the cylindrical packaging bag to the clamping block.

Further, the pusher assembly includes: the device comprises a material pushing cylinder, a material pushing plate and two material pushing contacts, wherein the material pushing cylinder is horizontally arranged below the forming platform;

the material pushing plate is vertically fixed at the end part of the piston rod of the material pushing cylinder, the material pushing plate is U-shaped, and a U-shaped opening of the material pushing plate is arranged below the forming groove;

the two pushing contacts are oppositely arranged on the inner wall of the pushing plate and respectively abutted against the side wall of the forming extrusion plate; wherein

After the forming extrusion plate slides downwards to extrude the packaging bag into the forming groove, the two pushing contacts are abutted against the forming extrusion plate from two sides;

the material pushing cylinder drives the material pushing plate to horizontally slide so that the two material pushing contacts slide along the length direction of the forming extrusion plate to push the formed packaging bag to the clamping block.

Furthermore, a matrix type is arranged on the lower bottom surface of the cutting adsorption plate, a plurality of adsorption holes are formed in the lower bottom surface of the cutting adsorption plate, and suction pipes communicated with the adsorption holes are arranged on the side wall of the cutting adsorption plate; wherein

When cutting the adsorption plate and offseting with the wrapping bag, the suction tube passes through a plurality of absorption holes and adsorbs the wrapping bag negative pressure at cutting the adsorption plate lower extreme.

Furthermore, a holding tank is arranged on the clamping block and is in a U shape, a clamping groove is formed in the side wall of the holding tank, and the workpiece is abutted against the clamping groove after being inserted into the cylindrical packaging bag.

Further, the circulation conveying portion includes: the conveying support frame is vertically fixed on the workbench, the conveying motor is fixed at one end of the conveying support frame, which is far away from the detection part, the conveying belt is arranged outside the conveying support frame and is in transmission connection with the conveying motor, and the plurality of clamping blocks are fixed on the outer wall of the conveying belt at equal intervals;

the inner side wall of the conveying support frame is symmetrically provided with two sealing plates which can slide oppositely or oppositely;

the outer wall of the conveying support frame corresponding to the sealing plate is provided with a blower, and the blower is suitable for blowing air into the cylindrical packaging bag for pressurization; wherein

When the conveying belt drives the workpiece to move between the two sealing plates, the blower blows air into the packaging bag to pressurize, and the two sealing plates slide in opposite directions to seal the packaging bag.

Further, the detection section includes: the two driving cylinders are symmetrically fixed on the workbench, and two ends of the linkage plate are respectively fixed at the end parts of piston rods of the two driving cylinders;

the compaction block is vertically fixed at the end part of the sliding column, the sliding column is arranged on the linkage plate in a lifting manner, and the compaction block faces the conveying belt;

the labeling assembly is arranged on one side of the compaction block and is linked with the compaction block;

the rejecting assembly is arranged on the other side of the compacted block and is linked with the compacted block; wherein

When the conveying belt drives the workpiece to move to the upper end of the compaction block, the driving cylinder drives the compaction block to move towards the workpiece so as to detect the workpiece;

when the detection is qualified, the workpiece packaging bag abuts against the compaction block, and the compaction block extruding and labeling assembly abuts against the workpiece packaging bag to label;

when the detection is unqualified, the workpiece packaging bag is not contacted with the compaction block, and the rejecting assembly is lifted upwards to eject the workpiece out of the clamping block and slide.

The invention has the beneficial effects that the invention provides the endotoxin filter production line, and the circulating conveying part is arranged, so that the workpieces can be limited and fixed and can be conveyed circularly. Through the setting of unreeling portion, can pack the work piece from four lateral walls. Through the setting of shaping portion, can extrude the wrapping bag cylindricly to wrap up the work piece. Through the setting of detection portion, can detect whether work piece wrapping bag gas tightness after the sealing is qualified.

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 medical hollow fiber filter package delivery apparatus of the present invention;

FIG. 2 is a perspective view of the unrolling and forming section of the present invention;

FIG. 3 is a perspective view of the unrolling part of the invention;

FIG. 4 is a perspective view of the forming section of the present invention;

FIG. 5 is a perspective view of the cutting assembly of the present invention;

FIG. 6 is a perspective view of a profiled extruded sheet of the present invention;

FIG. 7 is a perspective view of a cutting suction plate of the present invention;

FIG. 8 is a perspective view of the endless conveyor section of the present invention;

FIG. 9 is a perspective view of a clamping block of the present invention;

fig. 10 is a perspective view of the detection unit of the present invention.

In the figure:

1. a work table; 2. a circulating conveying part; 20. a clamping block; 21. accommodating grooves; 22. a clamping groove; 23. conveying the support frame; 24. a conveying motor; 25. a conveyor belt; 26. a sealing plate; 27. a blower;

3. a unwinding part; 31. unwinding the support; 32. placing the reel; 33. a guide roller; 34. a dancer roll; 35. cutting a fixing plate; 36. a clamping cylinder; 37. clamping the fixing plate;

4. a molding section; 41. a molding assembly; 411. a forming platform; 412. forming an extrusion plate; 413. a forming cylinder; 414. sealing the hot stamping plate;

42. cutting the assembly; 421. cutting the fixing plate; 422. a sliding cylinder is cut; 423. cutting scissors; 424. a cutting cylinder; 425. cutting the adsorption plate; 426. an adsorption hole;

43. a material pushing assembly; 431. a material pushing cylinder; 432. a material pushing plate; 433. a pusher contact;

5. a detection unit; 51. a driving cylinder; 52. a linkage plate; 53. compacting the block; 54. a traveler; 55. labeling the assembly; 56. and (6) rejecting the component.

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 10, the present invention provides an endotoxin filter production line comprising: the device comprises a workbench 1, a circulating conveying part 2, a unreeling part 3, a forming part 4 and a detecting part 5. The table 1 is adapted to support the endless conveying section 2, the unwinding section 3, the forming section 4 and the detecting section 5. The circulating conveying part 2 is suitable for limiting and fixing the workpiece. The unwinding section 3 is adapted to package the workpiece. The forming section 4 is adapted to extrude the packaging bag into a cylindrical shape. The detection section 5 is adapted to detect the airtightness of the packaging bag. With respect to the above components, detailed description is given below.

Working table

The workbench 1 is arranged on a horizontal plane, the workbench 1 is integrally of a box-type structure, and the workbench 1 is suitable for supporting the circular conveying part 2, the unreeling part 3, the forming part 4 and the detection part 5. And a recycling box is fixedly arranged on one side of the workbench 1, and the processed workpiece can be recycled into the recycling box.

Circulation conveying part

The circular conveying part 2 is fixed at one end of the workbench 1, a plurality of work clamping blocks 20 are arranged on the circular conveying part 2, the work clamping blocks 20 are suitable for limiting and fixing workpieces, one work clamping block 20 corresponds to one workpiece, and after the work clamping blocks 20 fix the workpieces, the circular conveying part 2 can drive the workpieces to be conveyed along the length direction of the circular conveying part 2. Particularly, an accommodating groove 21 has been seted up on the frock clamp piece 20, accommodating groove 21 is "U" type, simultaneously a chucking groove 22 has been seted up to accommodating groove 21 lateral wall, and the shown work piece both sides of this embodiment are provided with the arch corresponding with chucking groove 22, and the back in the work piece inserts the tube-shape wrapping bag, and the work piece can be followed the horizontal direction, and protruding corresponding with chucking groove 22 promptly inserts in the accommodating groove 21 to make the work piece offset with chucking groove 22. The chucking groove 22 can vertically restrain the workpiece so that the workpiece cannot be removed from the accommodating groove 21 in the vertical direction. Through the arrangement, when the workpiece follow-up clamp block 20 moves to the accommodating groove 21 with the opening facing downwards, the workpiece cannot slide from the accommodating groove 21.

The structure of the circulating conveyor 2 will be described in detail below, and the circulating conveyor 2 includes: a conveying support frame 23, a conveying motor 24 and a conveying belt 25. The conveying support frame 23 is vertically fixed on the workbench 1, and the conveying support frame 23 is suitable for supporting a conveying motor 24 and a conveying belt 25. The conveying motor 24 is fixed the one end of carrying the support frame 23 to keep away from the detection portion 5, the conveyer belt 25 sets up outside carrying the support frame 23, is fixed with a plurality of worker's clamp blocks 20 on the conveyer belt 25, and each worker's clamp block 20 equidistant setting is at the conveyer belt 25 outer wall. The conveyer belt 25 with conveying motor 24 transmission is connected, specifically, and conveying motor 24 level sets up, and conveyer belt 25 overcoat is on conveying motor 24's output shaft, and conveying motor 24 during operation can drive conveyer belt 25 circulation slip to it slides to drive worker's clamp splice 20 circulation. Two sealing plates 26 are symmetrically arranged on the inner side wall of the conveying support frame 23, and the two sealing plates 26 can slide relatively or away from each other. The conveying support frame 23 is provided with a blower 27 corresponding to the outer wall of the sealing plate 26, and the blower 27 is suitable for blowing and pressurizing air into the cylindrical packaging bag. When the conveyor 25 drives the workpiece to move between the two sealing plates 26, the blower 27 blows air into the package to pressurize the package, and the two sealing plates 26 slide toward each other to seal the package.

Unwinding part

The unwinding part 3 is fixed on the workbench 1, and the unwinding part 3 is suitable for placing a packaging bag roll.

The structure of the unwinding section 3 will be described specifically below, and the unwinding section 3 includes: the device comprises an unwinding bracket 31, two unwinding disks 32, two guide rollers 33, a tension adjusting roller 34, a cutting fixing plate 35 and a clamping cylinder 36. The unreeling bracket 31 is vertically fixed on the workbench 1, and the unreeling bracket 31 is suitable for supporting a unreeling disc 32, two guide rollers 33, a tension adjusting roller 34, a cutting fixing plate 35 and a clamping cylinder 36. The two unwinding reels 32 are symmetrically arranged, and a packaging bag coiled material is suitable to be placed between the two unwinding reels 32; the tension adjusting roller 34 is arranged on the side wall of the unreeling support 31 in a lifting and sliding manner, the two guide rollers 33 are fixed on two sides of the tension adjusting roller 34 respectively, and the tension adjusting roller 34 and the guide rollers 33 are parallel to the workbench 1. By adjusting the relative position of the two force adjustment rollers 34, the tension on the web of packaging bags can be adjusted. Cut fixed plate 35 vertical fixation in unreel the support 31 lateral wall, centre gripping cylinder 36 is fixed cut fixed plate 35 top, just centre gripping cylinder 36's piston rod end portion be fixed with one with cut fixed plate 35 looks adaptation's centre gripping fixed plate 37. The clamping cylinder 36 drives the clamping fixing plate 37 to vertically move downwards to abut against the cutting fixing plate 35, and the forming part 4 can cut the packaging bag into a preset length.

Forming section

A forming part 4 is fixed to one side of the unwinding part 3, and the forming part 4 is adapted to extrude the packing bag into a cylindrical shape. The packaging bag is extruded and formed by the forming part 4 and then is moved to the circulating conveying part 2, and the workpiece is inserted into the packaging bag and is clamped and fixed by the clamping block 20, so that the packaging bag of the workpiece can be detected conveniently.

The structure of the forming section 4 will be described in detail below, and the forming section 4 includes: a forming assembly 41, a cutting assembly 42 and a pushing assembly 43. The forming component 41 is fixed on the workbench 1, and the horizontal height of the forming component 41 is greater than that of the circulating conveying part 2, so that the workpiece and the packaging bag are located below the forming part 4. The forming assembly 41 extrudes the packaging bag downwards to form a U shape, and then the packaging bag is thermoprinted to form a cylinder shape. Cutting assembly 42 slidable sets up on the workstation 1, just cutting assembly 42 one end is close to cut out fixed plate 35, cutting assembly 42 is suitable for absorption wrapping bag horizontal migration to place the wrapping bag on shaping subassembly 41 to cutting assembly 42 is after the wrapping bag blowing is to predetermineeing length, cuts the wrapping bag to make the wrapping bag can pack next work piece. The material pushing assembly 43 is slidably arranged below the forming assembly 41, and the material pushing assembly 43 is suitable for pushing the formed packaging bag into the clamping block 20 so that the packaging bag horizontally slides to fall onto the clamping block 20.

In order to achieve the above-mentioned effect of extruding the packaging bag into a "U" shape by the forming assembly 41, the forming assembly 41 includes: a forming platform 411, a forming extrusion plate 412, a forming cylinder 413 and a seal stamping plate 414. The forming platform 411 is horizontally arranged above the workbench 1, a forming groove matched with the forming extrusion plate 412 is formed in the forming platform 411, and the forming extrusion plate 412 can slide in the forming groove along the vertical direction. The shaping cylinder 413 is fixed shaping platform 411 lateral wall, the vertical upwards setting of piston rod of shaping cylinder 413, shaping stripper plate 412 is fixed the piston rod end portion of shaping cylinder 413, just the vertical setting of shaping stripper plate 412 is in shaping groove top. The forming extrusion plate 412 is provided with a sliding groove along the length direction, and the sliding groove is opened along the horizontal direction. The seal hot stamping plate 414 is slidably disposed within the sliding channel. After the cutting assembly 42 sucks and moves the packing bag onto the forming platform 411, the forming extrusion plate 412 slides downwards to extrude the packing bag into the forming groove, so that the shape of the packing bag is changed into a shape matched with the forming groove, namely a 'U' shape. The seal stamping plate 414 slides horizontally to seal the opening of the U-shaped packaging bag into a cylinder shape. The pusher assembly slides horizontally to push the cylindrical packing bag toward the clamping block 20. In this state, the four side walls of the workpiece are wrapped by the packaging bag through the seal hot stamping plate 414, and the two sealing plates 26 are matched, so that after the air blower 27 blows air into the cylindrical packaging bag and pressurizes the cylindrical packaging bag, the two end liquids of the workpiece can be sealed by the packaging bag, and a completely sealed packaging bag is formed.

In order to realize the effect that the cutting assembly 42 sucks the packaging bag to horizontally move to place the packaging bag on the forming assembly 41, the cutting assembly 42 comprises a cutting fixing plate 421, a cutting sliding cylinder 422, cutting scissors 423, a cutting cylinder 424 and a cutting sucking plate 425. Cut sliding cylinder 422 level and fix on workstation 1, cut sliding cylinder 422's piston rod level setting, it fixes to cut fixed plate 421 cut sliding cylinder 422's piston rod tip. Cut sliding cylinder 422 can drive and cut fixed plate 421 horizontal slip cut cylinder 424 is fixed cut fixed plate 421 and be close to unreel one side of support 31, cut scissors 423 and set up cut the expansion end of cylinder 424, cut cylinder 424 can drive cut scissors 423 and open or the closure is in order to cut the wrapping bag. Cut the setting that adsorption plate 425 passes through the connecting plate liftable cut fixed plate 421 one side, just cut adsorption plate 425 towards workstation 1, cut the horizontal setting of adsorption plate 425, cut the setting of adsorption plate 425 in the wrapping bag top, it is fixed with a supporting bench to unreel support 31 one side, it sets up to prop up supporting bench cut adsorption plate 425 below, and cut the lower extreme of adsorption plate 425 and can slide down to propping up supporting bench to adsorb the wrapping bag. Specifically, a plurality of adsorption holes 426 are formed in a matrix manner on the lower bottom surface of the cutting adsorption plate 425, and suction pipes communicated with the adsorption holes 426 are arranged on the side walls of the cutting adsorption plate 425. When the cutting adsorption plate 425 is pressed against the packaging bag, the suction pipe sucks the packaging bag at the lower end of the cutting adsorption plate 425 through the adsorption holes 426. The cutting slide cylinder 422 drives the cutting suction plate 425 to horizontally slide to transport the packaging bag to the upper side of the forming assembly 41. The cutting cylinder 424 drives the cutting scissors 423 closed to cut the package.

The wrapping bag that pushes away material pushing component 43 after will shaping is to the effect that promotes in the worker's clamp splice 20, material pushing component 43 includes: a pushing cylinder 431, a pushing plate 432 and two pushing contacts 433. The material pushing cylinder 431 is horizontally arranged below the forming platform 411, and the material pushing cylinder 431 is arranged below the packaging bag and the workpiece. The material pushing plate 432 is vertically fixed at the end of the piston rod of the material pushing cylinder 431, the material pushing plate 432 is U-shaped, and the U-shaped opening of the material pushing plate 432 is arranged below the forming groove. The two pushing contacts 433 are oppositely disposed on the inner wall of the pushing plate 432, and the two pushing contacts 433 respectively abut against the side wall of the extrusion molding plate 412. After the extrusion plate 412 slides downwards to extrude the packaging bag into the extrusion groove, the two pushing contacts 433 abut against the extrusion plate 412 from two sides. The pushing cylinder 431 drives the pushing plate 432 to horizontally slide, so that the two pushing contacts 433 slide along the length direction of the forming extrusion plate 412 to push the formed packaging bag to the clamping block 20.

Detection part

Detection portion 5 is fixed on workstation 1, detection portion 5 sets up circulation conveying portion 2 below, detection portion 5 is suitable for and detects whether qualified work piece encapsulation to label qualified work piece wrapping bag. That is, when the workpiece packaging bag is qualified, the workpiece packaging bag abuts against the detection portion 5 so that the detection portion 5 labels the packaging bag; when the workpiece packaging bag is unqualified, the workpiece packaging bag does not abut against the detection part 5, and the detection part 5 can remove the unqualified workpiece from the clamping block 20.

The structure of the detection unit 5 will be described in detail below, and the detection unit 5 includes: two driving cylinders 51, a linkage plate 52, a compaction block 53, a sliding column 54, a labeling component 55 and a removing component 56. Two drive actuating cylinder 51 symmetries are fixed on the workstation 1, it is fixed with workstation 1 to drive actuating cylinder 51's shell, and drives the vertical setting of actuating cylinder 51, and the vertical upwards setting of piston rod that drives actuating cylinder 51. Two drive cylinders 51 are provided on either side of the compacted cake 53. Two ends of the linkage plate 52 are respectively fixed at the end parts of the piston rods of the two driving cylinders 51, the linkage plate 52 is horizontally arranged, and the linkage plate 52 is suitable for supporting a compaction block 53, a sliding column 54, a labeling assembly 55 and a removing assembly 56. When the two driving cylinders 51 work, the two ends of the linkage plate 52 can be driven to synchronously and vertically slide. The sliding column 54 is arranged on the linkage plate 52 in a lifting manner, a through hole matched with the sliding column 54 is formed in the linkage plate 52, and the sliding column 54 is arranged in the through hole in a sliding manner. The compacted cake 53 is fixed vertically at the end of the slide 54 with the compacted cake 53 facing the conveyor belt 25. One side of the compacting block 53 facing the linkage plate 52 is provided with a spring, one end of the spring is fixed with the compacting block 53, and the other end of the spring is fixed with the linkage plate 52. When the conveying belt 25 drives the workpiece to move to the upper end of the compaction block 53, the driving air cylinder 51 pushes the compaction block 53 to move towards the workpiece so as to detect the workpiece. Specifically, if the packaging bag of the workpiece is qualified, the packaging bag is in an expanded state, and when the compaction block 53 abuts against the packaging bag, the compaction block 53 is driven by air in the packaging bag to slide downwards along the through hole; if the envelope of the workpiece is not acceptable, the compacted cake 53 does not contact the envelope. The labeling assembly 55 is arranged on one side of the compacting block 53, the labeling assembly 55 is linked with the compacting block 53, specifically, two label rollers are rotatably arranged at the lower end of the linkage plate 52, label tapes are suitable for being placed on the label rollers and extend upwards to abut against the side walls of the compacting block 53, and when the compacting block 53 slides downwards, the compacting block 53 can pull the label tapes to slide so that the labels slide to abut against packaging bags of workpieces, so that labeling is carried out on the packaging bags. The rejecting assembly 56 is arranged on the other side of the compacted block 53, the top of the rejecting assembly 56 is positioned above the compacted block, and the rejecting assembly 56 is linked with the compacted block 53. Specifically, the lower end of the removing component 56 is provided with a removing cylinder, and when the compaction block 53 moves towards the unqualified packaging bag, the removing cylinder is lifted upwards to lift the workpiece out of the clamping block 20 and slide the workpiece. After the detection is completed, an operator can take off the qualified workpiece on the clamping block 20 and place the workpiece in the recycling box, so that the clamping block 20 can move to the feeding end circularly to process the next 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

1. An endotoxin filter production line, comprising:

the packaging bag roll forming device comprises a workbench (1), a circulating conveying part (2), an unreeling part (3), a forming part (4) and a detecting part (5), wherein the unreeling part (3) is fixed on the workbench (1), and the unreeling part (3) is suitable for placing a packaging bag roll;

the forming part (4) is fixed on one side of the unwinding part (3), and the forming part (4) is suitable for extruding the packaging bag into a cylinder shape;

the circulating conveying part (2) is fixed at one end of the workbench (1), a plurality of clamping blocks (20) are arranged on the circulating conveying part (2), and the clamping blocks (20) are suitable for limiting and fixing workpieces;

the detection part (5) is fixed on the workbench (1), the detection part (5) is arranged below the circulating conveying part (2), and the detection part (5) is suitable for detecting whether the packaging of the workpieces is qualified or not and labeling qualified workpiece packaging bags; wherein

The packaging bag is extruded and formed by the forming part (4) and then is moved to the circulating conveying part (2), and a workpiece is inserted into the packaging bag and is clamped and fixed by the workpiece clamping block (20);

when the workpiece packaging bag is qualified, the workpiece packaging bag is abutted against the detection part (5) so that the detection part (5) labels the packaging bag;

when the workpiece packaging bag is unqualified, the workpiece packaging bag does not abut against the detection part (5), and the detection part (5) can remove the unqualified workpiece from the workpiece clamping block (20).

2. The endotoxin filter production line of claim 1,

the unwinding section (3) includes: the cutting machine comprises an unreeling support (31), two unreeling disks (32), two guide rollers (33), a tension adjusting roller (34), a cutting fixing plate (35) and a clamping cylinder (36), wherein the unreeling support (31) is vertically fixed on the workbench (1), the two unreeling disks (32) are symmetrically arranged, and a packaging bag coiled material is suitable to be placed between the two unreeling disks (32);

the tension adjusting roller (34) is arranged on the side wall of the unreeling support (31) in a lifting and sliding manner, the two guide rollers (33) are respectively fixed on two sides of the tension adjusting roller (34), and the tension adjusting roller (34) and the guide rollers (33) are parallel to the workbench (1);

the cutting fixing plate (35) is vertically fixed on the side wall of the unreeling support (31), the clamping cylinder (36) is fixed above the cutting fixing plate (35), and a clamping fixing plate (37) matched with the cutting fixing plate (35) is fixed at the end part of a piston rod of the clamping cylinder (36); wherein

Sliding the tension adjusting roller (34) up and down to adjust the tension of the packaging bag;

centre gripping cylinder (36) drive centre gripping fixed plate (37) vertical downstream to with when tailorring fixed plate (35) and offset, shaping portion (4) can be cut into preset length with the wrapping bag.

3. The endotoxin filter production line of claim 2,

the molding section (4) includes: the cutting device comprises a forming assembly (41), a cutting assembly (42) and a material pushing assembly (43), wherein the forming assembly (41) is fixed on the workbench (1), and the horizontal height of the forming assembly (41) is greater than that of the circulating conveying part (2);

the cutting assembly (42) is arranged on the workbench (1) in a sliding mode, and one end of the cutting assembly (42) is close to the cutting fixing plate (35);

the pushing assembly (43) is slidably arranged below the forming assembly (41), and the pushing assembly (43) is suitable for pushing the formed packaging bag into the clamping block (20); wherein

The cutting assembly (42) horizontally moves the absorbed packaging bag to place the packaging bag on the forming assembly (41);

the forming component (41) extrudes the packaging bag downwards to form a U shape, and then the packaging bag is thermoprinted to form a cylinder shape;

the pushing component (43) is abutted against one end of the packaging bag and pushes the packaging bag to horizontally slide to fall onto the clamping block (20).

4. An endotoxin filter production line as claimed in claim 3,

the cutting assembly (42) comprises a cutting fixing plate (421), a cutting sliding cylinder (422), cutting scissors (423), a cutting cylinder (424) and a cutting adsorption plate (425), wherein the cutting sliding cylinder (422) is horizontally fixed on the workbench (1), and the cutting fixing plate (421) is fixed at the end part of a piston rod of the cutting sliding cylinder (422);

the cutting cylinder (424) is fixed on one side, close to the unreeling support (31), of the cutting fixing plate (421), the cutting scissors (423) are arranged at the movable end of the cutting cylinder (424), and the cutting cylinder (424) can drive the cutting scissors (423) to be opened or closed to cut packaging bags;

the cutting adsorption plate (425) is arranged on one side of the cutting fixing plate (421) in a lifting manner through a connecting plate, and the cutting adsorption plate (425) faces to the workbench (1);

a supporting table is fixed on one side of the unreeling support (31), and the supporting table is arranged below the cutting adsorption plate (425); wherein

The cutting adsorption plate (425) slides downwards to be abutted against the supporting table so as to adsorb the packaging bag;

the cutting sliding cylinder (422) drives the cutting adsorption plate (425) to horizontally slide so as to convey the packaging bag above the forming assembly (41);

the cutting cylinder (424) drives the cutting scissors (423) to close so as to cut the packaging bag.

5. The endotoxin filter production line of claim 4,

the forming assembly (41) comprises: the seal hot stamping device comprises a forming platform (411), a forming extrusion plate (412), a forming cylinder (413) and a seal hot stamping plate (414), wherein the forming platform (411) is horizontally arranged above the workbench (1), and a forming groove matched with the forming extrusion plate (412) is formed in the forming platform (411);

the forming cylinder (413) is fixed on the side wall of the forming platform (411), the forming extrusion plate (412) is fixed at the end part of a piston rod of the forming cylinder (413), and the forming extrusion plate (412) is vertically arranged above the forming groove;

the forming extrusion plate (412) is provided with a sliding groove along the length direction, and the seal hot stamping plate (414) is arranged in the sliding groove in a sliding manner; wherein

After the cutting adsorption plate (425) moves the packaging bag to the forming platform (411), the forming extrusion plate (412) slides downwards to extrude the packaging bag into a forming groove, so that the packaging bag is U-shaped;

the seal hot stamping plate (414) horizontally slides to hot stamp and seal the opening on the U-shaped packaging bag to form a cylinder shape;

the pusher assembly slides horizontally to push the cylindrical packing bag onto the clamping block (20).

6. The endotoxin filter production line of claim 5,

the pusher assembly (43) comprises: the device comprises a material pushing cylinder (431), a material pushing plate (432) and two material pushing contacts (433), wherein the material pushing cylinder (431) is horizontally arranged below the forming platform (411);

the material pushing plate (432) is vertically fixed at the end part of the piston rod of the material pushing cylinder (431), the material pushing plate (432) is U-shaped, and a U-shaped opening of the material pushing plate (432) is arranged below the forming groove;

the two pushing contacts (433) are oppositely arranged on the inner wall of the pushing plate (432), and the two pushing contacts (433) are respectively abutted against the side wall of the forming extrusion plate (412); wherein

After the forming extrusion plate (412) slides downwards to extrude the packaging bag into the forming groove, the two pushing contacts (433) are abutted against the forming extrusion plate (412) from two sides;

the material pushing cylinder (431) drives the material pushing plate (432) to horizontally slide, so that the two material pushing contacts (433) slide along the length direction of the forming extrusion plate (412) to push the formed packaging bag to the clamping block (20).

7. The endotoxin filter production line of claim 6,

a plurality of adsorption holes (426) are formed in the lower bottom surface of the cutting adsorption plate (425) in a matrix mode, and suction pipes communicated with the adsorption holes (426) are arranged on the side wall of the cutting adsorption plate (425); wherein

When the cutting adsorption plate (425) is pressed against the packaging bag, the suction pipe sucks the packaging bag at the lower end of the cutting adsorption plate (425) through a plurality of adsorption holes (426) under negative pressure.

8. The endotoxin filter production line of claim 7,

the clamping device is characterized in that an accommodating groove (21) is formed in the clamping block (20), the accommodating groove (21) is U-shaped, a clamping groove (22) is formed in the side wall of the accommodating groove (21), and the workpiece is abutted to the clamping groove (22) after being inserted into the cylindrical packaging bag.

9. The endotoxin filter production line of claim 8,

the circulating conveying part (2) comprises: the detection device comprises a conveying support frame (23), a conveying motor (24) and a conveying belt (25), wherein the conveying support frame (23) is vertically fixed on the workbench (1), the conveying motor (24) is fixed at one end, far away from the detection part (5), of the conveying support frame (23), the conveying belt (25) is arranged outside the conveying support frame (23), the conveying belt (25) is in transmission connection with the conveying motor (24), and a plurality of clamping blocks (20) are fixed on the outer wall of the conveying belt (25) at equal intervals;

two sealing plates (26) are symmetrically arranged on the inner side wall of the conveying support frame (23), and the two sealing plates (26) can slide oppositely or oppositely;

the conveying support frame (23) is provided with a blower (27) corresponding to the outer wall of the sealing plate (26), and the blower (27) is suitable for blowing air into the cylindrical packaging bag for pressurization; wherein

When the conveying belt (25) drives the workpiece to move between the two sealing plates (26), the air blower (27) blows air into the packaging bag to pressurize, and the two sealing plates (26) slide oppositely to seal the packaging bag.

10. The endotoxin filter production line of claim 9,

the detection unit (5) includes: the labeling machine comprises two driving cylinders (51), a linkage plate (52), a compaction block (53), a sliding column (54), a labeling assembly (55) and a removing assembly (56), wherein the two driving cylinders (51) are symmetrically fixed on the workbench (1), and two ends of the linkage plate (52) are respectively fixed at the end parts of piston rods of the two driving cylinders (51);

the compaction block (53) is vertically fixed at the end part of the sliding column (54), the sliding column (54) is arranged on the linkage plate (52) in a lifting way, and the compaction block (53) faces the conveying belt (25);

the labeling assembly (55) is arranged on one side of the compacted block (53), and the labeling assembly (55) is linked with the compacted block (53);

the rejecting assembly (56) is arranged on the other side of the compacted block (53), and the rejecting assembly (56) is linked with the compacted block (53); wherein

When the conveying belt (25) drives the workpiece to move to the upper end of the compaction block (53), the driving air cylinder (51) pushes the compaction block (53) to move towards the workpiece so as to detect the workpiece;

when the detection is qualified, the workpiece packaging bag abuts against the compaction block (53), and the compaction block (53) extrudes the labeling component (55) to abut against the workpiece packaging bag to label;

when the detection is unqualified, the workpiece packaging bag is not contacted with the compaction block (53), and the rejecting assembly (56) is lifted upwards to eject the workpiece out of the workpiece clamping block (20) and slide down.