CN219619565U - Gauze folding and packaging device - Google Patents

Abstract

The utility model discloses a gauze folding and packaging device, which belongs to the technical field of textile equipment and comprises a folding mechanism, wherein an inserting plate mechanism is arranged at the upper end of the folding mechanism, a bag opening mechanism is arranged at the lower end of the folding mechanism, a rotary packaging mechanism is arranged on the side surface of the bag opening mechanism, the working end of the inserting plate mechanism and the working end of the bag opening mechanism are vertically and correspondingly arranged up and down, gauze is longitudinally folded and transversely folded, gauze blocks are moved into a packaging bag with an opening bag, secondary transportation after folding of the gauze is avoided, packaging is carried out again, and therefore time, labor cost and the like are reduced, and production efficiency is improved.

Description

Gauze folding and packaging device

Technical Field

The utility model relates to the technical field of textile equipment, in particular to a gauze folding and packaging device.

Background

Gauze is cotton fabric with sparse warp and weft. Belongs to textile raw materials and cloth, and is characterized by sparseness and obvious grids. Gauze is widely used in the medical field and is also a stock product in daily life. The gauze generally needs to be subjected to multiple procedures such as cutting, sewing, folding, slitting, stacking, packaging, sterilizing and the like in the production process. The procedures are basically carried out in a split way, and sometimes products are required to be transported due to different production workshops, which clearly increases the cost of time, manpower and the like and reduces the production efficiency.

Disclosure of Invention

The embodiment of the utility model provides a gauze folding and packaging device which aims to solve the problems in the background technology.

The embodiment of the utility model adopts the following technical scheme: including folding mechanism, folding mechanism's upper end installs picture peg mechanism, folding mechanism's lower extreme installs sack opening mechanism, sack opening mechanism's side is equipped with rotatory packagine machine mechanism, the position of picture peg mechanism's work end and sack opening mechanism's work end is perpendicular correspondence from top to bottom, rotatory packagine machine mechanism's work end department presss has got the wrapping bag, rotatory packagine machine mechanism is equipped with multiunit mobilizable work end, the wrapping bag moves to the work end of sack opening mechanism along with rotatory packagine machine mechanism's work end in, sack opening mechanism's work end symmetry is equipped with vacuum chuck, the symmetry vacuum chuck is located the both sides of wrapping bag, picture peg mechanism's work end passes folding mechanism and sack opening mechanism's work end in proper order and arrives in the wrapping bag.

Further, the rotary packaging mechanism comprises a rotary table and a plurality of groups of bracket components, the plurality of groups of bracket components are arranged on the rotary table at circular intervals, the rotary table drives the plurality of groups of bracket components to synchronously rotate, movable clamping jaws are symmetrically arranged at the working ends of the bracket components, and packaging bags are clamped between the clamping jaws.

Further, folding mechanism includes workstation and folding subassembly, be equipped with the picture peg groove on the workstation, the deflector is installed to the lower extreme symmetry in picture peg groove, the output of deflector extends to directly over the wrapping bag.

Further, the picture peg mechanism includes U-shaped board and T shape picture peg, the upper end at the workstation is installed to the both sides of U-shaped board, the up end of U-shaped board is equipped with promotes cylinder one, promote the output of cylinder one and connect T shape picture peg, T shape picture peg is located the picture peg groove directly over, the work end symmetry of sack opening mechanism is equipped with vacuum chuck, the symmetry vacuum chuck is located the both sides of wrapping bag.

Further, folding subassembly includes first and second of upset axle, first symmetry of upset axle is installed in the both sides of workstation, second of upset axle is located the outside of first of upset axle, first of upset axle is gone up equidistant interval and is installed a plurality of bracing pieces, second of upset axle is gone up equidistant interval and is installed a plurality of bracing pieces, bracing piece one and bracing piece two are dislocation installation in the horizontal plane, every the side of first of upset axle all is equipped with gear one, every the side of second of upset axle all is equipped with gear two, every gear one with every gear two all is located the homonymy of workstation.

Further, the side-mounting of workstation has the slide, the symmetry is installed slider first in the slide, every the appearance of slider first is L shape, every all be provided with rack and gear first meshing on the slider first, the symmetry is installed slider second in the slide, every all be provided with rack and gear second meshing on the slider second, the side symmetry of slide is provided with the removal groove first, the lower terminal surface symmetry of slide is equipped with the removal groove second, every all install slider first in the removal groove first, every all install slider second in the removal groove second, two run through between the slider first have two bi-directional lead screw, two between the slider second through connection have bi-directional lead screw second, the both ends of slide are provided with servo motor first and servo motor second respectively, bi-directional lead screw is connected to servo motor first's output, bi-directional lead screw second is connected to servo motor second's output.

Further, the sack opening mechanism includes U-shaped pole and drive box, the one end at the drive box is connected to the slope of U-shaped pole, the one end of drive box is provided with the mounting groove, the U-shaped pole is symmetrically installed in the mounting groove, every all be provided with rotation axis and wedge on the U-shaped pole, every the equal movable mounting of rotation axis is in the mounting groove, every reset spring is all installed to one side of wedge and is connected to the drive box, the other end of drive box is provided with impeller and promotes cylinder two, the shape of impeller is isosceles trapezoid, the impeller is located two between the wedge, promote cylinder two's output and connect the impeller, the impeller removes in the mounting groove, every reset spring's one side and impeller's side laminating are kept away from to the wedge.

The above at least one technical scheme adopted by the embodiment of the utility model can achieve the following beneficial effects:

firstly, lay gauze on folding mechanism, folding mechanism carries out vertical folding to gauze, the gauze after folding vertically expands the area and reduces, a work end in the rotatory packagine machine constructs and drives the wrapping bag and move to the work end of sack opening mechanism in, sack opening mechanism removes the both sides of packing bag and fix this moment, the sack opening of sack opening mechanism realization wrapping bag is opened through removing again, the work end of picture peg mechanism moves down this moment, the gauze after vertical folding follows the work end of picture peg mechanism and moves down, make the gauze piece after vertical folding pass folding mechanism get into the sack that the wrapping bag was opened, the gauze after vertical folding transversely folds into gauze piece again, through upwards moving the work end of picture peg mechanism, make its work end shift out in the wrapping bag and reach initial position, the gauze piece is detained in the wrapping bag, carry out vertical folding and transversely folding to gauze piece, make the gauze piece remove get into the wrapping bag of opening the sack in, the secondary transport after having avoided the gauze to fold, the time has been reduced, the manpower cost such as being packed again, production efficiency has been improved.

Secondly, carry out twice vertical folding through folding subassembly to the both ends of tiling gauze, very big reduction tiling gauze area in the horizontal plane, improved the packing length of collapsible gauze, finally through the gauze of twice vertical folding being located the up end of workstation, improved the efficiency of folding the packing to longer gauze.

Thirdly, through the reciprocating motion that promotes the piece of drive of promotion cylinder two, realize that the work end department of both sides U-shaped pole realizes separating and being close to the laminating, vacuum chuck forms the adsorption affinity to the both sides of wrapping bag, makes the sack of wrapping bag open the processing to this realizes carrying out the sack to the wrapping bag that removes on the rotatory packagine machine constructs and opens the processing, improves the packing efficiency of gauze.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a second perspective structure of the present utility model;

FIG. 3 is a schematic side view of the folding mechanism of the present utility model;

FIG. 4 is a schematic view of a rotary packaging mechanism according to the present utility model;

FIG. 5 is a schematic view of a fork strap set according to the present utility model;

fig. 6 is a schematic structural view of the bag opening mechanism of the present utility model.

Reference numerals

Folding mechanism 100, table 110, board insertion slot 111, guide plate 112, folding unit 120, first turning shaft 121, first support rod 122, first gear 123, second turning shaft 124, second support rod 125, second gear 126, slide 130, first slider 131, second slider 132, first moving slot 133, second moving slot 134, first bi-directional screw 135, second bi-directional screw 136, first servo motor 137, second servo motor 138, board insertion mechanism 200, U-shaped board 210, T-shaped board insertion 220, first pushing cylinder 230, pocket opening mechanism 300, vacuum chuck 310, U-shaped rod 320, rotation shaft 321, wedge block 322, return spring 323, drive cassette 330, mounting slot 331, pushing block 332, second pushing cylinder 333, rotary packaging mechanism 400, rotation table 410, bracket assembly 420, clamping jaw 421, and packaging bag 422.

Description of the embodiments

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The following describes in detail the technical solutions provided by the embodiments of the present utility model with reference to the accompanying drawings.

Referring to fig. 1-6, an embodiment of the present utility model provides a gauze folding packaging device, including a folding mechanism 100, a board inserting mechanism 200 is installed at an upper end of the folding mechanism 100, a bag opening mechanism 300 is installed at a lower end of the folding mechanism 100, a rotating packaging mechanism 400 is disposed on a side surface of the bag opening mechanism 300, a working end of the board inserting mechanism 200 and a working end of the bag opening mechanism 300 are vertically corresponding to each other, a packaging bag 422 is clamped at a working end of the rotating packaging mechanism 400, the rotating packaging mechanism 400 is provided with a plurality of groups of movable working ends, the packaging bag 422 moves into a working end of the bag opening mechanism 300 along with a working end of the rotating packaging mechanism 400, vacuum chucks 310 are symmetrically disposed at working ends of the bag opening mechanism 300, the vacuum chucks 310 are symmetrically disposed at two sides of the packaging bag 422, and the working ends of the board inserting mechanism 200 sequentially penetrate through the folding mechanism 100 and the working ends of the bag opening mechanism 300 to reach the packaging bag 422.

Spreading gauze on the folding mechanism 100, longitudinally folding the gauze by the folding mechanism 100, reducing the longitudinal unfolding area of the folded gauze, enabling the folded gauze to be positioned right below the working end of the plugboard mechanism 200, rotating one working end of the packaging mechanism 400 to drive the packaging bag 422 to move into the working end of the bag opening mechanism 300, enabling the working end of the bag opening mechanism 300 to move, enabling the vacuum suction cups 310 to be attached to two sides of the packaging bag 422, respectively adsorbing and fixing the two sides of the packaging bag 422 through the adsorption force of the vacuum suction cups 310, enabling the vacuum suction cups 310 on the two sides to drive the two sides of the packaging bag 422 to separate when the bag opening mechanism 300 is moved again, realizing opening of the bag opening of the packaging bag 422, enabling the working end of the plugboard mechanism 200 to move downwards at the moment, enabling the longitudinally folded gauze to move downwards along with the working end of the plugboard mechanism 200, the longitudinally folded gauze piece is made to enter the opening of the packaging bag 422 through the folding mechanism 100, when the longitudinally folded gauze passes through the folding mechanism 100, the longitudinally folded gauze is extruded by the downward movement of the working end of the spile mechanism 200, so that the longitudinally folded gauze enters the packaging bag 422 in a v-shaped state, the longitudinally folded gauze is transversely folded into gauze pieces again, at the moment, the working end of the spile mechanism 200 is positioned in the packaging bag 422 to stop moving downwards, the working end of the spile mechanism 200 is moved out of the packaging bag 422 to reach the initial position by moving upwards the working end of the spile mechanism 200, and the gauze pieces are left in the packaging bag 422 due to the resistance of interference formed when the working end of the spile mechanism 200 moves upwards by the gauze in the v-shaped state, at the moment, the two sides of the opening of the packaging bag 422 are desorbed and fixed by the opening mechanism 300, through the removal of rotatory packagine machine mechanism 400, make the wrapping bag 422 that is equipped with yarn piece of cloth shift out in the work end of sack opening mechanism 300, in the adjacent work end on the rotatory packagine machine mechanism 400 removes another wrapping bag 422 to the work end of sack opening mechanism 300 simultaneously, repeat above work step, vertically fold and transversely fold gauze, make the gauze piece remove and get into in the wrapping bag 422 of opening the sack, avoid the secondary after the gauze is folded to be transported, again pack, thereby time, cost such as manpower have been reduced, production efficiency has been improved.

Preferably, the rotary packaging mechanism 400 includes a rotary table 410 and a plurality of groups of bracket assemblies 420, the plurality of groups of bracket assemblies 420 are arranged on the rotary table 410 at circular intervals, the rotary table 410 drives the plurality of groups of bracket assemblies 420 to synchronously rotate, movable clamping jaws 421 are symmetrically arranged at the working ends of each group of bracket assemblies 420, and packaging bags 422 are clamped between the symmetrical clamping jaws 421.

The rotary table 410 in the rotary packaging mechanism 400 rotates to drive the plurality of groups of support assemblies 420 to synchronously rotate, clamping jaws 421 symmetrically arranged on each group of support assemblies 420 fix two ends of a packaging bag 422, when the rotary table 410 rotates, the packaging bag 422 on one group of support assemblies 420 moves into the working end of the bag opening mechanism 300, at the moment, the rotary table 410 stops rotating, after yarn cloth is filled in the packaging bag 422, the rotary table 410 is started again, another packaging bag 422 on the adjacent support assemblies 420 reenters the working end of the bag opening mechanism 300 to form a pipelining operation, the working efficiency is improved, the removed packaging bag 422 is continuously fixed by the clamping jaws 421 and moves to enable the packaging bag 422 to be subjected to subsequent sealing treatment, the clamping jaws 421 are repeatedly and circularly moved to fix the packaging bag 422 to be released, the pipelining operation is realized, and the working efficiency is improved.

Preferably, the folding mechanism 100 includes a workbench 110 and a folding assembly 120, the workbench 110 is provided with a board inserting groove 111, the lower end of the board inserting groove 111 is symmetrically provided with a guide plate 112, and the output end of the guide plate 112 extends to the position right above the packaging bag 422.

The gauze after folding is located on workstation 110, insert the picture peg mechanism 200 after folding in picture peg groove 111 through the downward movement, the gauze that gets into in the picture peg groove 111 gets into the sack of wrapping bag 422 along deflector 112 in, realize that the gauze after folding transversely folds and forms the gauze piece, thereby realize the extrusion to gauze piece both sides through deflector 112, prevent that the gauze piece from causing loosely because of the removal, the gauze piece of being convenient for more is in the in-process of removal guides entering wrapping bag 422 through deflector 112, the accuracy of gauze piece packing has been improved, and production efficiency is improved.

Preferably, the board inserting mechanism 200 includes a U-shaped board 210 and a T-shaped board 220, two sides of the U-shaped board 210 are mounted at the upper end of the workbench 110, a first pushing cylinder 230 is disposed on the upper end surface of the U-shaped board 210, an output end of the first pushing cylinder 230 is connected with the T-shaped board 220, the T-shaped board 220 is located at a right upper end of the board inserting groove 111, vacuum suction cups 310 are symmetrically disposed at working ends of the bag opening mechanism 300, and the symmetrical vacuum suction cups 310 are located at two sides of the packaging bag 422.

The U-shaped plate 210 plays a supporting effect on the pushing cylinder one 230 and the T-shaped plugboard 220, so that the T-shaped plugboard 220 has a certain height from the workbench 110, interference between the T-shaped plugboard 220 and the T-shaped plugboard 220 in the working process of the folding mechanism 100 is prevented, the pushing cylinder one 230 drives the T-shaped plugboard 220 to realize up-and-down reciprocating movement, the T-shaped plugboard 220 transversely pushes folded gauze, the gauze is inserted into the plugboard groove 111, the packaging bag 422 with an opened bag opening is opposite to the outlet end of the guide plate 112, the T-shaped plugboard 220 is convenient to drive the movement of the gauze piece into the packaging bag 422, packaging of the gauze piece is completed, and the production efficiency is improved.

Preferably, the folding assembly 120 includes a first turning shaft 121 and a second turning shaft 124, the first turning shaft 121 is symmetrically mounted on two sides of the workbench 110, the second turning shaft 124 is located at the outer side of the first turning shaft 121, a plurality of first support rods 122 are mounted on the first turning shaft 121 at equal intervals, a plurality of second support rods 125 are mounted on the second turning shaft 124 at equal intervals, the first support rods 122 and the second support rods 125 are mounted in a staggered manner in a horizontal plane, a first gear 123 is disposed on each side face of the first turning shaft 121, a second gear 126 is disposed on each side face of the second turning shaft 124, and each first gear 123 and each second gear 126 are located at the same side of the workbench 110.

When gauze is tiled on the table 110, the first step is: the two gears 126 drive the two turnover shafts 124 to synchronously rotate in opposite directions, the two support rods 125 on each turnover shaft 124 rotate by taking the turnover shaft 124 as a rotation center, so that the two support rods 125 turn over towards the first support rod 122, and the gauze is paved on the upper end surfaces of the two support rods 125, so that the gauze on the corresponding positions is driven to synchronously rotate by the rotation of the two support rods 125, the gauze on the upper end surfaces of the two support rods 125 turns over and folds towards the upper end surfaces of the first support rods 122, and after the two ends of the gauze are synchronously longitudinally folded for the first time, the two gears 126 reversely rotate, so that the second support rods 125 are reset; and a second step of: the two first gears 123 drive the two first turning shafts 121 to synchronously rotate in opposite directions, so that gauze on the upper end face of the first support rod 122 turns over and folds towards gauze on the upper end face of the workbench 110, the two ends of the gauze are longitudinally folded for the second time, and at the moment, the two first gears 123 reversely synchronously rotate to reset the first support rod 122; the two ends of the flat gauze are folded longitudinally twice through the two steps, the area of the flat gauze in the horizontal plane is greatly reduced, the packing length of the foldable gauze is improved, the gauze which is finally folded longitudinally twice is positioned on the upper end face of the workbench 110, the efficiency of folding and packing longer gauze is improved, the first support rod 122 and the second support rod 125 are installed in a staggered manner in the horizontal plane, and the two support rods 125 are prevented from interfering with the first support rod 122 in the rotating and folding process, so that the folding effectiveness of the second support rod 125 on the gauze is improved.

Preferably, the side of the workbench 110 is provided with a slide 130, the slide 130 is internally and symmetrically provided with a first slide 131, each first slide 131 is L-shaped, each first slide 131 is provided with a first rack and a first gear 123 for meshing, the slide 130 is internally and symmetrically provided with a second slide 132, each second slide 132 is provided with a second rack and a second gear 126 for meshing, the side of the slide 130 is symmetrically provided with a first moving groove 133, the lower end surface of the slide 130 is symmetrically provided with a second moving groove 134, each first moving groove 133 is internally and symmetrically provided with a first slide 131, each second moving groove 134 is internally and symmetrically provided with a second slide 132, a first bidirectional screw 135 is penetrated between the first slide 131, a second bidirectional screw 136 is penetrated and connected between the second slide 132, two ends of the slide 130 are respectively provided with a first servo motor 137 and a second servo motor 138, the output end of the first servo motor 137 is connected with the second bidirectional screw 136, and the output end of the second servo motor 138 is connected with the second bidirectional screw 136.

The output end of the second servo motor 138 drives the second bidirectional screw rod 136 to rotate, the rotation of the second bidirectional screw rod 136 drives the symmetrically installed second sliding blocks 132 to synchronously slide in the slideway 130, at the moment, the two second sliding blocks 132 are far away from each other, and a rack arranged on each second sliding block 132 drives the second gear 126 at a corresponding position to rotate, so that the second supporting rod 125 longitudinally folds towards the first supporting rod 122 for the first time, and the rotation directions of the two second gears 126 are opposite because the movement directions of the two second sliding blocks 132 are opposite, so that the second supporting rods 125 at two ends synchronously fold towards the first supporting rod 122; when the output end of the second servo motor 138 reversely rotates, the second bidirectional screw rod 136 drives the second sliding blocks 132 to synchronously move in the slideway 130, at the moment, the second sliding blocks 132 are close to each other, and the second gear 126 at the corresponding position is driven to reversely rotate, so that the second supporting rod 125 at the corresponding position is reset; similarly, the rotation of the first servo motor 137 drives the first support rod 122 to turn over and fold towards the end of the workbench 110, so that the second longitudinal folding of the gauze is realized, the first servo motor 137 turns back, the reset of the first support rod 122 is realized, the second support rod 125 which is symmetrically installed is synchronously controlled to perform the first longitudinal folding and resetting on the gauze in the direction of the first support rod 122 through the forward and reverse rotation of the second bidirectional screw 136, the first support rod 122 which is symmetrically installed is synchronously controlled to perform the second longitudinal folding and resetting on the gauze in the direction of the workbench 110, the automatic turning and folding of the two ends of the gauze are simultaneously realized, and the folding efficiency of the gauze is improved.

Preferably, the bag opening mechanism 300 includes a U-shaped rod 320 and a driving box 330, the U-shaped rod 320 is obliquely connected to one end of the driving box 330, one end of the driving box 330 is provided with a mounting groove 331, the U-shaped rod 320 is symmetrically mounted in the mounting groove 331, each U-shaped rod 320 is provided with a rotating shaft 321 and a wedge block 322, each rotating shaft 321 is movably mounted in the mounting groove 331, one side of each wedge block 322 is provided with a return spring 323 connected to the driving box 330, the other end of the driving box 330 is provided with a pushing block 332 and a pushing cylinder two 333, the pushing block 332 is isosceles trapezoid, the pushing block 332 is located between the two wedge blocks 322, the output end of the pushing cylinder two 333 is connected with the pushing block 332, and the pushing block 332 moves in the mounting groove 331, and one side of each wedge block 322 far from the return spring 323 is attached to the side of the pushing block 332.

The pushing cylinder II 333 drives the pushing block 332 to move in the mounting groove 331, at this time, the two sides of the pushing block 332 squeeze the wedge blocks 322 arranged at two sides in the mounting groove 331, at this time, the wedge blocks 322 at two sides compress the reset springs 323 at corresponding positions respectively, at the same time, the positions of the wedge blocks 322 rotate around the rotating shafts 321, the wedge blocks 322 at two sides are gradually separated, at this time, the two side U-shaped rods 320 take the respective rotating shafts 321 as the centers, so that the vacuum suction cups 310 at the working ends of the two side U-shaped rods 320 adsorb two sides of the packaging bag 422, when the pushing cylinder II 333 drives the pushing block 332 to reversely move in the mounting groove 331, the wedge blocks 322 at two sides in the mounting groove 331 are rebounded by the elasticity of the reset springs 323, the wedge blocks 322 at two sides are gradually close, at this time, the working ends of the two side U-shaped rods 320 are gradually separated, the vacuum suction cups 310 form adsorption forces on two sides of the packaging bag 422, the opening of the packaging bag 422 is processed, the two side U-shaped rods 320 are driven by the pushing cylinder II drives the reciprocating movement of the pushing block 320 to realize separation and close to the working ends of the two side U-shaped rods 320, so that the packaging bag 422 can move upwards, and the packaging bag 422 is opened, and the packaging efficiency of the packaging bag is improved.

The foregoing is merely exemplary of the present utility model and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are to be included in the scope of the claims of the present utility model.

Claims (7)

1. A gauze folding and packaging device, which is characterized in that: including folding mechanism (100), picture peg mechanism (200) are installed to the upper end of folding mechanism (100), bag opening mechanism (300) are installed to the lower extreme of folding mechanism (100), the side of bag opening mechanism (300) is equipped with rotatory packagine machine construct (400), the position of the work end of picture peg mechanism (200) and the work end of bag opening mechanism (300) is perpendicular correspondence from top to bottom, wrapping bag (422) have been got to the work end department clamp of rotatory packagine machine construct (400), rotatory packagine machine construct (400) are equipped with multiunit mobilizable work end, wrapping bag (422) follow the work end of rotatory packagine machine construct (400) and remove in the work end of bag opening mechanism (300), the work end symmetry of bag opening mechanism (300) is equipped with vacuum chuck (310), the symmetry vacuum chuck (310) are located the both sides of wrapping bag (422), the work end of picture peg mechanism (200) passes in proper order folding mechanism (100) and bag opening mechanism (300) work end and arrives in wrapping bag (422).

2. A folded packaging apparatus for gauze as defined in claim 1, wherein: the rotary packaging mechanism (400) comprises a rotary table (410) and a plurality of groups of bracket components (420), wherein the plurality of groups of bracket components (420) are arranged on the rotary table (410) at circular intervals, the rotary table (410) drives the plurality of groups of bracket components (420) to synchronously rotate, movable clamping claws (421) are symmetrically arranged at the working ends of the bracket components (420), and packaging bags (422) are clamped between the clamping claws (421) symmetrically.

3. A folded packaging apparatus for gauze as defined in claim 2, wherein: the folding mechanism (100) comprises a workbench (110) and a folding assembly (120), a plugboard groove (111) is formed in the workbench (110), guide plates (112) are symmetrically arranged at the lower ends of the plugboard groove (111), and the output ends of the guide plates (112) extend to the position right above the packaging bags (422).

4. A folded packaging apparatus for gauze as defined in claim 3, wherein: the inserting plate mechanism (200) comprises a U-shaped plate (210) and T-shaped inserting plates (220), wherein two sides of the U-shaped plate (210) are arranged at the upper end of the workbench (110), a first pushing cylinder (230) is arranged on the upper end face of the U-shaped plate (210), the output end of the first pushing cylinder (230) is connected with the T-shaped inserting plates (220), and the T-shaped inserting plates (220) are located at the right upper ends of the inserting plate grooves (111).

5. The folded packaging device for gauze as defined in claim 4, wherein: folding subassembly (120) are including turnover shaft one (121) and turnover shaft two (124), the both sides at workstation (110) are installed to turnover shaft one (121) symmetry, turnover shaft two (124) symmetry are installed in the both sides of workstation (110), turnover shaft two (124) are located the outside of turnover shaft one (121), equidistant interval installs a plurality of bracing pieces one (122) on turnover shaft one (121), equidistant interval installs a plurality of bracing pieces two (125) on turnover shaft two (124), bracing piece one (122) and bracing piece two (125) are the dislocation installation in the horizontal plane, every the side of turnover shaft one (121) all is equipped with gear one (123), every the side of turnover shaft two (124) all is equipped with gear two (126), every gear one (123) and every gear two (126) all are located the homonymy of workstation (110).

6. The folded packaging device for gauze as defined in claim 5, wherein: the side-mounting of workstation (110) has slide (130), slide (130) in symmetry install slider (131), every in the appearance of slider (131) is L shape, every all be provided with rack and gear (123) meshing on slider (131), slide (130) in symmetry install slider two (132), every on slider two (132) all be provided with rack and gear two (126) meshing, the side symmetry of slide (130) is provided with movable groove one (133), the lower terminal surface symmetry of slide (130) is equipped with movable groove two (134), every in the movable groove one (133) all install slider one (131), every in the movable groove two (134) all install slider two (132), two run through between slider one (131) have two-way lead screw one (135), two run through between slider two (132) have two-way lead screw two (136), the both ends of slide (130) are provided with servo motor one (138) and two (138) respectively, two-way servo motor (138) output end two (137) are connected to two-way lead screw one servo motor (138).

7. The folded packaging device for gauze as defined in claim 6, wherein: the utility model provides a bag mouth opening mechanism (300) includes U-shaped pole (320) and drive box (330), the one end at drive box (330) is connected to U-shaped pole (320) slope, the one end of drive box (330) is provided with mounting groove (331), U-shaped pole (320) symmetry is installed in mounting groove (331), every all be provided with rotation axis (321) and wedge (322) on U-shaped pole (320), every equal movable mounting of rotation axis (321) is in mounting groove (331), every reset spring (323) are all installed to one side of wedge (322) and are connected to drive box (330), the other end of drive box (330) is provided with pushing block (332) and pushing cylinder two (333), the shape of pushing block (332) is isosceles trapezoid, pushing block (332) are located two between wedge (322), pushing cylinder two (333) output connection pushing block (332) are in mounting groove (331), every reset spring (323) is kept away from to one side of moving wedge (322) and one side laminating.