CN112441474B - Equipment suitable for punching, pasting double-sided adhesive tape and folding non-woven fabrics - Google Patents

Abstract

The invention discloses equipment suitable for punching, laminating double-sided adhesive tape and folding non-woven fabrics, which comprises an elliptical hole roller cutting mechanism, a guide shaft support combination mechanism and a guide plate support combination mechanism which are arranged on a rack, wherein the front end of the rack is connected with an unreeling mechanism, the rear end of the rack is sequentially connected with a transverse cutter mechanism, a non-woven fabric folding mechanism and a stacking and collecting mechanism, the guide shaft support combination mechanism comprises a first guide shaft support, a second guide shaft support, a third guide shaft support, a fourth guide shaft support and a fifth guide shaft support, and the guide plate support combination mechanism comprises a first guide plate support, a second guide plate support and a third guide plate support. The invention has the non-woven fabric processing equipment integrating the functions of perforating, pasting double faced adhesive tape, folding and collecting, and has high mechanical automation, can completely replace the traditional manual operation mode, reduces the labor cost and improves the working efficiency and the economic benefit.

Description

Equipment suitable for punching, pasting double-sided adhesive tape and folding non-woven fabrics

Technical Field

The invention relates to the technical field of non-woven fabric processing equipment, in particular to equipment suitable for punching, double-sided adhesive tape pasting and folding of non-woven fabrics.

Background

At present, for the processing operation of punching, folding and pasting double faced adhesive tape on medical non-woven fabrics, a rolled non-woven fabric is firstly unfolded and then rolled on three-sided rollers of an equilateral triangle shape (the length of each side is just the length of a non-woven fabric hole towel finished product), then three stacks of non-woven fabrics to be punched are obtained by cutting the non-woven fabrics by using a cutter, the stacked non-woven fabrics are placed under a punching machine to punch out oval holes so as to obtain the non-woven fabric hole towel, then the double faced adhesive tape is pasted on the non-woven fabric hole towel manually, and finally the non-woven fabric hole towel is folded manually and provided for a patient for operation.

Disclosure of Invention

The invention aims to provide equipment suitable for punching, double-sided adhesive tape pasting and folding of non-woven fabrics, which is provided with non-woven fabric processing equipment integrating the functions of punching, double-sided adhesive tape pasting, folding and collecting, and has the advantages that the traditional manual operation mode can be completely replaced by high mechanical automation, the labor cost is reduced, and the working efficiency and the economic benefit are improved.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The utility model provides a be applicable to non-woven fabrics punching a hole, paste double faced adhesive tape and folding equipment, includes that elliptical hole roller that sets up in the frame cuts mechanism, guiding axle support integrated configuration and deflector support integrated configuration the front end of frame is connected with unreels the mechanism, and the rear end has connected gradually transverse knife mechanism, non-woven fabrics folding mechanism and has piled up collection mechanism, guiding axle support integrated configuration includes first guiding axle support, second guiding axle support, third guiding axle support, fourth guiding axle support and fifth guiding axle support, deflector support integrated configuration includes first guiding board support, second guiding board support and third guiding board support, the top side of frame is equipped with first guiding axle support, elliptical hole roller from front to back in proper order and cuts mechanism, second guiding axle support, first guiding board support, second guiding board support, third guiding axle support, fourth guiding axle support, third guiding board support, fifth guiding axle support, be equipped with double faced adhesive tape on the fourth guiding axle support.

Preferably, the unreeling mechanism comprises an air expansion shaft and a control cylinder, wherein one end of the air expansion shaft is held tightly by the control cylinder, the air expansion shaft is arranged on a fixed plate through a bearing, the control cylinder is arranged on the fixed plate through a connecting plate, and the fixed plate is fixedly connected with the rack.

Preferably, the first guide shaft support, the second guide shaft support, the third guide shaft support and the fourth guide shaft support are composed of rectangular frames and rotating shafts, and the rotating shafts are at least two and are respectively transversely arranged in the frames in parallel and can adjust the height.

Preferably, the fifth guide shaft support comprises a first vertical guide shaft, guide shafts inclined by 45 degrees, a horizontal guide shaft and a second vertical guide shaft, wherein the first vertical guide shaft is arranged in the quadrangular frame, the horizontal guide shaft is horizontally arranged in the supporting frame, the inclined guide shaft of 45 degrees is fixed on the frame through a base plate in a 45-degree angle mode, the quadrangular frame, the supporting frame and the second vertical guide shaft, the first vertical guide shaft is provided with two guide shafts, the inclined guide shaft of 45 degrees is provided with one guide shaft, the horizontal guide shaft is provided with four guide shafts, and the second vertical guide shaft is further arranged between the first vertical guide shaft and the inclined guide shaft of 45 degrees.

Preferably, the first guide plate support, the second guide plate support and the third guide plate support are composed of rectangular frames and guide plates, the guide plates are arranged in the frames, and the guide plates of the third guide plate support are provided with hollowed-out openings in the shape of a V.

Preferably, the elliptical hole roller cutting mechanism comprises a first cutter roller, a first die-cutting bottom roller, a first bottom plate, a first wallboard, a first cover plate and a first servo motor, wherein the first cutter roller and the first die-cutting bottom roller are respectively arranged in a first U-shaped groove of the first wallboard through bearing adjustability, the first cutter roller and the first die-cutting bottom roller are arranged on the first wallboard in an upper and lower parallel mode, an elliptical cutter is arranged on the first cutter roller, the bottom end of the first wallboard is arranged on a frame through the first bottom plate, a first gear and a second gear which are meshed with each other are respectively arranged at the same end of the first cutter roller and the first die-cutting bottom roller, the first servo motor is arranged on the first bottom plate through a mounting seat, the first cutter roller is driven to rotate through the first gear arranged on the first cutter roller, the second gear is driven to rotate by the first gear arranged on the first cutter roller, a first pressing block is arranged on the first U-shaped groove, and the first pressing block is arranged on the first die-cutting bottom roller, and the first pressing block is arranged in the first U-shaped groove, and the first pressing block is arranged on the first pressing block.

Preferably, the transverse cutter mechanism comprises a second cutter roller, a second die-cutting bottom roller, a first traction rubber roller, a second wallboard and a second bottom plate, wherein the second wallboard is symmetrically arranged left and right, a second U-shaped groove and a third U-shaped groove are arranged on the second wallboard in parallel, rotating shafts at the left and right ends of the second cutter roller and the second die-cutting bottom roller are respectively arranged in the second U-shaped groove of the second wallboard through bearing adjustability, a transverse cutter is arranged on the second cutter roller, shafts at the left and right ends of the first traction rubber roller and the second traction rubber roller are respectively arranged in the third U-shaped groove through bearings, the top ends of the second U-shaped groove and the third U-shaped groove are respectively provided with a second cover plate and a third cover plate, the second pressurizing screw and the third pressurizing screw are respectively connected with a second base through a second pressing block and a third pressing block on the second base through a second gear, the second traction rubber roller is respectively meshed with a second servo motor, and the second base is respectively connected with a second servo motor through a second support frame, and the second servo rubber roller is respectively meshed with the second base.

Preferably, the non-woven fabric folding mechanism comprises a supporting plate wall, a first transverse folding plugboard, a second transverse folding plugboard, a traction roller mechanism and a belt transmission mechanism, wherein the supporting plate wall is connected with the supporting frame, the front side of the supporting plate wall is provided with the first transverse folding plugboard, the second transverse folding plugboard and the traction roller mechanism, the traction roller mechanism comprises a first traction roller group, a second traction roller group, a third traction roller group and a fourth traction roller group, the first traction roller group and the second traction roller group are arranged in the discharging direction of the transverse cutter mechanism, the discharging direction of the first traction roller group and the second traction roller group is provided with a third traction roller group and a fourth traction roller group, the first traction roller group is positioned at the lower side of the second traction roller group, the third traction roller group is positioned at the top side of the fourth traction roller group, the first traction roller group, the second traction roller group, the third traction roller group and the fourth traction roller group are driven by the synchronous belt transmission mechanism to synchronously operate, and the synchronous belt transmission mechanism is arranged at the back side of the supporting plate, and the first traction roller group and the second traction roller group are arranged at the position of the first transverse folding plugboard and the second traction roller group.

Preferably, the synchronous belt transmission mechanism comprises a first transmission synchronous belt, a second transmission synchronous belt, a first synchronous wheel, a second synchronous wheel, a fourth servo motor and a fifth servo motor, wherein an output shaft of the fifth servo motor is connected with a third driving roller shaft, the first synchronous wheel is arranged on the first driving roller shaft, the second synchronous wheel is arranged on the fourth driving roller shaft, the fifth servo motor is respectively connected with the first transmission synchronous belt and the second transmission synchronous belt through the synchronous wheels on the output shaft, the first transmission synchronous belt is connected with the first driving roller shaft through the first synchronous wheel, the second transmission synchronous belt is connected with the fourth driving roller shaft through the second synchronous wheel, the fourth servo motor is connected with the second driving roller shaft through the output shaft, and the fourth servo motor drives the second conveying belt of the second traction roller set to respectively synchronously run with the first traction roller set, the third traction roller set and the first conveying belt, the third conveying belt and the fourth conveying belt of the fourth traction roller set which are driven by the fifth servo motor.

Preferably, the stacking and collecting mechanism comprises a receiving groove, a pushing cylinder, a pushing plate and a collecting groove, wherein the collecting groove is connected to the rear end of the receiving groove, the receiving groove and the collecting groove are mutually connected and are arranged on a collecting frame, the pushing plate is arranged in the receiving groove and is connected with the pushing cylinder, and the pushing cylinder is arranged on one side of the receiving groove.

The invention has the beneficial effects that: according to the invention, the processing operation of the non-woven fabric is carried out from the starting tapping to the double-sided adhesive tape pasting, 4 times of folding and stacking collection after folding, so that the integrated full-automatic operation is realized, no manual participation is needed in the whole process, the labor cost is reduced, and the working efficiency and the economic benefit are greatly improved.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of an unreeling mechanism of the present invention;

FIG. 3 is a schematic view of the structure of the first guide shaft bracket of the present invention;

FIG. 4 is a schematic view of the left side of the elliptical hole roll-cutting mechanism of the present invention;

FIG. 5 is a schematic view of the right side of the elliptical hole roll-cutting mechanism of the present invention;

FIG. 6 is a schematic structural view of a second guide shaft bracket according to the present invention;

FIG. 7 is a schematic view of the structure of the first guide plate bracket of the present invention;

fig. 8 is a schematic structural view of a second guide plate bracket according to the present invention;

FIG. 9 is a schematic structural view of a third guide shaft bracket according to the present invention;

FIG. 10 is a schematic structural view of a fourth guide shaft bracket according to the present invention;

FIG. 11 is a schematic structural view of a third guide plate bracket according to the present invention;

FIG. 12 is a schematic view of the structure of a fifth guide shaft bracket of the present invention;

FIG. 13 is a schematic view of the left side of the crosscutting mechanism of the present invention;

FIG. 14 is a schematic view of the right side of the crosscutting mechanism of the present invention;

FIG. 15 is a schematic view showing the front side structure of the nonwoven fabric folding mechanism of the present invention;

FIG. 16 is a schematic view of the rear side structure of the folding mechanism of the nonwoven fabric of the present invention;

FIG. 17 is a schematic diagram of a timing belt drive of the present invention;

Fig. 18 is a schematic structural view of the stacking collection mechanism of the present invention.

In the figure: 1 machine frame, 2 elliptical hole roller cutting mechanism, 21 first knife roller, 22 first die cutting bottom roller, 23 first bottom plate, 24 first wallboard, 25 first cover plate, 251 first pressurizing screw, 252 first pressurizing block, 26 first servo motor, 261 mounting seat, 27 elliptical knife, 28 first gear, 29 second gear, 3 guide shaft support combined mechanism, 31 first guide shaft support, 32 second guide shaft support, 33 third guide shaft support, 34 fourth guide shaft support, 35 fifth guide shaft support, 351 first vertical guide shaft, 352 inclined 45 degree guide shaft, 353 horizontal guide shaft, 354 quadrilateral frame, 355 second vertical guide shaft, 356 support frame, 357 backing plate, 4 guide plate support combined mechanism, 5 unreeling mechanism, 51 air expansion shaft, 52 control cylinder, 53 fixed plate, 6 transverse knife mechanism, 61 second knife roller, 611, 612 third gear, 35 fifth guide shaft support a 62 second die-cutting bottom roller, a 621 second servo motor, a 622 first motor seat, a 623 fourth gear, a 63 first traction rubber roller, a 631 fifth gear, a 64 second traction rubber roller, a 641 third servo motor, a 642 second motor seat, a 643 sixth gear, a 65 second wallboard, a 66 second bottom plate, a 67 second cover plate, a 671 second pressurizing screw, a 672 second pressurizing block, a 68 third cover plate, a 681 third pressurizing screw, a 682 third pressurizing block, a 69 support frame, a 7 non-woven fabric folding mechanism, a 71 support plate wall, a 72 first transverse folding plugboard, a 73 second transverse folding plugboard, a 74 first traction roller set, a 741 first conveying belt, a 742 first driving roller shaft, a 743 first driven roller shaft, a 744 first conveying frame, a 75 second traction roller set, a 751 second conveying belt, a 752 second driving roller shaft, a 753 second driven roller shaft, a 754 second conveying frame, a 755 lifting cylinder, a 76 third traction roller set, 761 third conveying belt, 762 third driving roller shaft, 763 third driven roller shaft, 77 fourth traction roller set, 771 fourth conveying belt, 772 fourth driving roller shaft, 773 fourth driven roller shaft, 774 third conveying frame, 781 first transmission synchronous belt, 782 second transmission synchronous belt, 783 first synchronous wheel, 784 second synchronous wheel, 785 fourth servo motor, 786 fifth servo motor, 8 stacking and collecting mechanism, 81 material receiving groove, 82 material pushing cylinder, 83 material pushing plate, 84 collecting groove, 85 collecting frame and 9 double faced adhesive tape labeling machine.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

As shown in fig. 1-18, a device suitable for punching, laminating double-sided adhesive tape and folding non-woven fabrics comprises an elliptical hole roll cutting mechanism 2, a guide shaft support combination mechanism 3 and a guide plate support combination mechanism 4 which are arranged on a machine frame 1, wherein the front end of the machine frame 1 is connected with an unreeling mechanism 5, the rear end of the machine frame is sequentially connected with a transverse cutter mechanism 6, a non-woven fabric folding mechanism 7 and a stacking and collecting mechanism 8, the guide shaft support combination mechanism 3 comprises a first guide shaft support 31, a second guide shaft support 32, a third guide shaft support 33, a fourth guide shaft support 34 and a fifth guide shaft support 35, the guide plate support combination mechanism 4 comprises a first guide plate support 41, a second guide plate support 42 and a third guide plate support 43, the top side of the machine frame 1 is sequentially provided with the first guide shaft support 31, the elliptical hole roll cutting mechanism 2, the second guide shaft support 32, the first guide plate support 41, the second guide plate support 42, the third guide shaft support 33, the fourth guide shaft support 34, the third guide plate support 43 and the fifth guide shaft support 35 from front to back, and the fourth guide shaft support 34 are provided with double-sided adhesive tape on the fourth guide shaft support 34.

As shown in fig. 2, the unreeling mechanism 5 comprises an air expansion shaft 51 and a control cylinder 52, wherein one end of the air expansion shaft 51 is connected with the control cylinder 52, the connecting end of the air expansion shaft 51 and the control cylinder 52 is arranged on a fixed plate 53 through a bearing, the fixed plate 53 is fixedly connected with the frame 1, the control cylinder 52 controls the tension force of non-woven fabric traction through clamping the shaft of the air expansion shaft 51, and the fixation and the removal of the non-woven fabric roll are realized through the inflation and the deflation of an inflation valve port on the air expansion shaft 51.

As shown in fig. 3, 6, 9 and 10, the first guide shaft support 31, the second guide shaft support 32, the third guide shaft support 33 and the fourth guide shaft support 34 are each composed of a rectangular frame and at least two rotating shafts, the rotating shafts are respectively arranged in the frame in a transverse parallel manner, and the rotating shafts can be moved up and down on the frame to be adjusted to a proper height so as to play roles in horizontally guiding and forward and backward guiding the non-woven fabrics.

Two rotating shafts are arranged in the frame of the first guide shaft bracket 31, four rotating shafts are arranged in the frame of the second guide shaft bracket 32, four rotating shafts are arranged in the frame of the third guide shaft bracket 33, and three rotating shafts are arranged in the frame of the fourth guide shaft bracket 34.

The double faced adhesive tape labeller 9 establishes on the frame of fourth guiding axle support 34 through supporting the horizontal pole, the both ends and the frame fixed connection of supporting the horizontal pole, and be located between the rotation axis, double faced adhesive tape labeller 9 is prior art, and double faced adhesive tape labeller 9 adopts the automatic sticky tape cutting machine on the market, can set for the length of spitting of double faced adhesive tape, and through the action of this machine of signal control spitting double faced adhesive tape and cut off the double faced adhesive tape, paste on the non-woven fabrics and non-woven fabrics synchronous movement after the double faced adhesive tape spitting, when operating for the patient, the effect of double faced adhesive tape is in order to fix the non-woven fabrics on the operation sheet to avoid sliding.

As shown in fig. 12, the fifth guide shaft bracket 35 includes a first vertical guide shaft 351, a guide shaft 352 inclined by 45 °, a horizontal guide shaft 353 and a second vertical guide shaft 355, the first vertical guide shaft 351 is disposed in the quadrangular frame 354, the horizontal guide shaft 353 is disposed in the supporting frame 356 in a horizontal manner, the guide shaft 352 inclined by 45 ° is fixed to the quadrangular frame 354, the supporting frame 356 and the second vertical guide shaft 355 through a pad 357, the first vertical guide shaft 351 has two guide shafts, the guide shaft 352 inclined by 45 ° has one guide shaft, the horizontal guide shaft 353 has four guide shafts, the first vertical guide shaft 351 and the guide shaft 352 inclined by 45 ° have a vertical second vertical guide shaft 355, the first vertical guide shaft 351 receives the nonwoven fabric transferred from the guide plate bracket combining mechanism 4, and sequentially transfers the nonwoven fabric to the horizontal guide shaft 353 through the second vertical guide shaft 355 and the guide shaft 352 inclined by 45 ° and then transfers the nonwoven fabric from the horizontal guide shaft 353 to the transversal cutter mechanism 6.

The fifth guide shaft support 35 mainly guides the nonwoven fabric in the vertical direction and in the horizontal direction, and guides the nonwoven fabric stretched in the vertical direction by 90 degrees through the guide shaft 352 inclined by 45 degrees, and changes the direction of the nonwoven fabric stretched in the horizontal direction to convey the nonwoven fabric.

As shown in fig. 7, fig. 8 and fig. 11, the first guide plate support 41, the second guide plate support 42 and the third guide plate support 43 are composed of rectangular frames and guide plates, the guide plates are arranged in the frames, hollowed-out openings are formed in the guide plates of the first guide plate support 41, the second guide plate support 42 and the third guide plate support 43, non-woven fabrics pass through the hollowed-out openings of the first guide plate support 41 first and then pass through the hollowed-out openings of the second guide plate support 42, hollowed-out openings are formed in the guide plates of the first guide plate support 41, hollowed-out openings are formed in the guide plates of the second guide plate support 42, so that the first guide plate support 41 and the second guide plate support 42 perform the effect of inwards folding non-woven fabrics for the 1 st time, and hollow-out grooves are formed in the guide plates of the third guide plate support 43, so that the non-woven fabrics enter the hollowed-out openings of the second guide plate support 42 and then inwards fold for the 2 nd time.

As shown in fig. 4 and 5, the elliptical hole roll cutting mechanism 2 comprises a first cutter roll 21, a first die-cutting bottom roll 22, a first bottom plate 23, a first wallboard 24, a first cover plate 25 and a first servo motor 26, wherein the first cutter roll 21 and the first die-cutting bottom roll 22 are respectively and adjustably arranged in a first U-shaped groove of the first wallboard 24 through bearings, the first cutter roll 21 and the first die-cutting bottom roll 22 are arranged on the first wallboard 24 in a manner of being parallel to each other up and down, an elliptical cutter 27 is arranged on the first cutter roll 21, the bottom end of the first wallboard 24 is arranged on the frame 1 through the first bottom plate 23, the same ends of the first cutter roll 21 and the first die-cutting bottom roll 22 are respectively provided with a first gear 28 and a second gear 29 which are meshed with each other, the end part of the first die-cutting bottom roll 22 is connected with the first servo motor 26, the first servo motor 26 is arranged on the first bottom plate 23 through the mounting seat 261, the first servo motor 26 drives the first die-cutting bottom roller 22 to rotate, the first die-cutting bottom roller 22 drives the second gear 29 arranged on the first knife roller 21 through the first gear 28 arranged on the first servo motor, the second gear 29 drives the first knife roller 21 to rotate, when the first knife roller 21 and the first die-cutting bottom roller 22 synchronously rotate in opposite directions, the elliptical cutter 27 on the first knife roller 21 rotates between the first knife roller 21 and the first die-cutting bottom roller 22, so that the effect of cutting elliptical holes on the non-woven fabric synchronously conveyed between the first knife roller 21 and the first die-cutting bottom roller 22 is realized, a sterile area can be formed on the non-woven fabric at a surgical position when a patient performs surgery, and the elliptical holes formed in the non-woven fabric are used for exposing a surgical field to facilitate operation.

The top of the first U-shaped groove of the first wallboard 24 is provided with a first cover plate 25, a first pressurizing screw 251 extending into the first U-shaped groove is arranged in the first cover plate 25, the first U-shaped groove is provided with a first pressurizing block 252 connected with the end part of the first pressurizing screw 251, and the first pressurizing screw 251 is pressurized on the first cutter roller 21 through the first pressurizing block 252, so that the tightness of the first cutter roller 21 and the first die-cutting bottom roller 22 can be adjusted, and the oval hole cut by the oval cutter 27 on the first cutter roller 21 has the characteristics of accuracy and attractive appearance.

As shown in fig. 13 and 14, the transverse cutter mechanism 6 comprises a second cutter roller 61, a second die-cutting bottom roller 62, a first traction rubber roller 63, a second traction rubber roller 64, a second wallboard 65 and a second bottom plate 66, wherein a second U-shaped groove and a third U-shaped groove are arranged on the second wallboard 65 in parallel, the left and right end rotating shafts of the second cutter roller 61 and the second die-cutting bottom roller 62 are respectively and adjustably mounted in the second U-shaped groove of the second wallboard 65 through bearings, a transverse cutter 611 is arranged on the second cutter roller 61, the left and right end shafts of the first traction rubber roller 63 and the second traction rubber roller 64 are respectively and adjustably mounted in the third U-shaped groove through bearings, a second cover plate 67 and a third cover plate 68 are respectively arranged at the top ends of the second U-shaped groove and the third U-shaped groove, a second pressurizing screw 671 and a third pressurizing screw 681 are respectively arranged on the second cover plate 67 and the third cover plate 68, the second pressurizing screw 671 and the third pressurizing screw 681 are respectively abutted on the second knife roller 61 and the first traction rubber roller 63 through the roller rotatability on the second pressurizing block 672 and the third pressurizing block 682, thereby realizing the adjustment of the interval tightness between the second knife roller 61 and the second die-cutting bottom roller 62, and between the first traction rubber roller 63 and the second traction rubber roller 64, the second wallboard 65 is fixed on the supporting plate wall 71 through the second bottom plate 66, the supporting plate wall 71 is arranged on the supporting frame 69, the second knife roller 61 is meshed with the fourth gear 623 of the second die-cutting bottom roller 62 through the third gear 612, the first traction rubber roller 63 is meshed with the sixth gear 643 of the second traction rubber roller 64 through the fifth gear 631, the second die-cutting bottom roller 62 and the second traction rubber roller 64 are respectively connected with the second servo motor 641 and the third servo motor 641, the second servo motor 621 and the third servo motor 641 are respectively connected to the supporting plate wall 71 through a first motor base 622 and a second motor base 642.

The nonwoven fabric enters between the first traction rubber roller 63 and the second traction rubber roller 64 from the fifth guide shaft bracket 35, is drawn between the second cutter roller 61 and the second die-cutting bottom roller 62 by the two, is cut and separated into sections by the transverse cutter 611 on the second cutter roller 61, and then enters the nonwoven fabric folding mechanism 7 for further folding.

As shown in fig. 15, 16 and 17, the non-woven fabric folding mechanism 7 comprises a supporting plate wall 71, a first transverse folding plugboard 72, a second transverse folding plugboard 73, a traction roller mechanism and a synchronous belt transmission mechanism, wherein the supporting plate wall 71 is connected with a supporting frame 69, the front side of the supporting plate wall 71 is provided with the first transverse folding plugboard 72, the second transverse folding plugboard 73 and the traction roller mechanism, the traction roller mechanism comprises a first traction roller group 74, a second traction roller group 75, a third traction roller group 76 and a fourth traction roller group 77, the first traction roller group 74 and the second traction roller group 75 are arranged in the discharging direction of the transverse cutter mechanism 6, the discharging direction of the first traction roller group 74 and the second traction roller group 75 is provided with a third traction roller group 76 and a fourth traction roller group 77, the first traction roller group 74 is positioned at the lower side of the second traction roller group 75, the third traction roller set 76 is positioned at the top side of the fourth traction roller set 77, the first traction roller set 74, the second traction roller set 75, the third traction roller set 76 and the fourth traction roller set 77 are driven by a synchronous belt transmission mechanism to synchronously operate, the synchronous belt transmission mechanism is arranged at the back side of the supporting plate wall 71, the non-woven fabric output from the transverse cutter mechanism 6 enters between the first traction roller set 74 and the second traction roller set 75, the non-woven fabric is clamped and pressed by the first traction roller set 74 and the second traction roller set 75 and is conveyed between the third traction roller set 76 and the fourth traction roller set 77, the non-woven fabric is clamped and pressed by the third traction roller set 76 and the fourth traction roller set 77 and is conveyed into the stacking and collecting mechanism 8, the first transverse folding inserting plate 72 is arranged at the top side of the abutting position of the first traction roller set 74 and the third traction roller set 76, the second transverse folding plugboard 73 is arranged on the feeding side of the abutting position of the third traction roller set 76 and the fourth traction roller set 77, the transverse folding of the non-woven fabric is completed by being matched with the traction roller mechanism, the conveying length and the conveying position of the cut non-woven fabric are calculated through the control system, when the cut non-woven fabric is conveyed to the position just half of the length, the first transverse folding plugboard 72 rapidly pushes the non-woven fabric to be folded from the middle position of the cut non-woven fabric to the position between the first traction roller set 74 and the third traction roller set 76 for conveying and folding, and when the folded non-woven fabric is conveyed to the position of the second transverse folding plugboard 73, the second transverse folding plugboard 73 rapidly pushes and folds the non-woven fabric again from the middle position of the non-woven fabric and enters the position between the third traction roller set 76 and the fourth traction roller set 77 for conveying the non-woven fabric to the stacking and collecting mechanism 8.

The first traction roller set 74 includes a first conveying belt 741, a first driving roller 742 and a plurality of first driven roller axles 743, the first conveying belt 741 is wound on the first driving roller 742 and the plurality of first driven roller axles 743, a first conveying frame 744 is disposed between the first driving roller 742 and the first driven roller axles 743, the first driving roller axle 742 is fixed on the supporting plate wall 71 through a bearing, the first driven roller axles 743 are fixed on the supporting plate wall 71 through a driven shaft mounting seat (or a first conveying frame), the first driving roller axle 742 drives the first conveying belt 741, and the first conveying belt 741 drives the first driven roller axles 743 to rotate.

The second traction roller set 75 comprises a second conveying belt 751, a second driving roller shaft 752 and a second driven roller shaft 753, the second conveying belt 751 is wound on the second driving roller shaft 752 and the second driven roller shaft 753, the second driving roller shaft 752 and the second driven roller shaft are both arranged on a second conveying frame 754, the second conveying frame 754 is connected to the supporting plate wall 71 through a lifting cylinder 755, the second conveying belt 751 is driven by the second driving roller shaft 752, the second conveying belt 751 drives the second driven roller shaft 753 to rotate, the lifting cylinder 755 can control the lifting of the second traction roller set 75, and therefore the distance between the second traction roller set 75 and the first traction roller set 74 can be adjusted, and the distance between the second conveying belt 751 and the first conveying belt 741 is more suitable for pressing and conveying cut non-woven fabrics.

The third pull roll set 76 includes a third conveying belt 761, a third driving roll shaft 762 and a plurality of third driven roll shafts 763, the third conveying belt 761 is wound on the third driving roll shaft 762 and the third driven roll shaft 763, the third driving roll shaft 762 and the third driven roll shaft 763 are respectively arranged on the supporting plate wall 71 through bearings or driven shaft mounting seats, and the third driving roll shaft 762 drives the third driven roll shaft 763 to rotate through the third conveying belt 761.

The fourth pull roll set 77 includes a fourth conveying belt 771, a fourth driving roll shaft 772 and a plurality of fourth driven roll shafts 773, the fourth conveying belt 771 is wound on the fourth driving roll shaft 772 and the fourth driven roll shaft 773, a third conveying frame 774 is disposed between the fourth driving roll shaft 772 and the fourth driven roll shaft, the fourth driving roll shaft 772 and the fourth driven roll shaft are respectively disposed on the third conveying frame through bearings, the third conveying frame is fixed on the supporting plate wall 71, and the fourth driving roll shaft 772 drives the fourth driven roll shaft 773 to rotate through the fourth conveying belt 771.

As shown in fig. 17, the synchronous belt transmission mechanism comprises a first transmission synchronous belt 781, a second transmission synchronous belt 782, a first synchronous wheel 783, a second synchronous wheel 784, a fourth servo motor 785 and a fifth servo motor 786, wherein an output shaft of the fifth servo motor 786 is connected with a third driving roller shaft 762, the first synchronous wheel 783 is arranged on the first driving roller shaft 742, the second synchronous wheel 784 is arranged on the fourth driving roller shaft 772, the fifth servo motor 786 is respectively connected with the first transmission synchronous belt 781 and the second transmission belt 782 through pulleys on the output shaft, the first transmission belt 781 is connected with the first driving roller shaft 742 through the first synchronous wheel 783, the second transmission belt 782 is connected with the fourth driving roller shaft 775 through the second synchronous wheel 784, and the fourth servo motor 785 drives the second transmission belt 751 of the second traction roller set 75 to be connected with the first traction roller set 74, the third traction roller set 76, the fourth transmission belt 781 and the fourth transmission belt 771, which are driven by the fourth servo motor 786.

As shown in fig. 15, the first transverse folding plugboard 72 and the second transverse folding plugboard 73 are respectively composed of air cylinder connecting plugboards, the air cylinders are connected to the supporting plate wall 71 through the fixing seats, and the air cylinders drive the plugboards to do telescopic motion.

As shown in fig. 18, the stacking and collecting mechanism 8 comprises a receiving groove 81, a pushing cylinder 82, a pushing plate 83 and a collecting groove 84, the collecting groove 84 is connected to the rear end of the receiving groove 81, the receiving groove 81 and the collecting groove 84 are connected with each other and are arranged on a collecting frame 85, the pushing plate 83 is arranged in the receiving groove 81, the pushing plate 83 is connected with the pushing cylinder 82, the pushing cylinder 82 is arranged on one side of the receiving groove 81, when the non-woven fabric falls into the receiving groove 81 from the non-woven fabric folding mechanism 7, the pushing cylinder 82 is started through an inductive switch arranged at the bottom of the receiving groove 81, and the pushing cylinder 82 drives the pushing plate 83 to push the folded non-woven fabric to be arranged and collected in the collecting groove 84.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. Equipment suitable for non-woven fabrics punches a hole, pastes double faced adhesive tape and folding, its characterized in that: the automatic labeling machine comprises an elliptical hole roll cutting mechanism (2), a guide shaft support combination mechanism (3) and a guide plate support combination mechanism (4) which are arranged on a machine frame (1), wherein the front end of the machine frame (1) is connected with an unreeling mechanism (5), the rear end of the machine frame is sequentially connected with a transverse cutter mechanism (6), a non-woven fabric folding mechanism (7) and a stacking and collecting mechanism (8), the guide shaft support combination mechanism (3) comprises a first guide shaft support (31), a second guide shaft support (32), a third guide shaft support (33), a fourth guide shaft support (34) and a fifth guide shaft support (35), the guide plate support combination mechanism (4) comprises a first guide plate support (41), a second guide plate support (42) and a third guide plate support (43), the top side of the machine frame (1) is sequentially provided with the first guide shaft support (31), the elliptical hole roll cutting mechanism (2), the second guide shaft support (32), the first guide plate support (41), the second guide plate support (42), the third guide shaft support (33), the fourth guide shaft support (34) and the fifth guide shaft support (35), and the fourth guide shaft support (9) is arranged on the machine frame;

The non-woven fabric folding mechanism (7) comprises a supporting plate wall (71), a first transverse folding inserting plate (72), a second transverse folding inserting plate (73), a traction roller mechanism and a belt transmission mechanism, wherein the supporting plate wall (71) is connected with a supporting frame (69), the first transverse folding inserting plate (72), the second transverse folding inserting plate (73) and the traction roller mechanism are arranged on the front side of the supporting plate wall (71), the traction roller mechanism comprises a first traction roller group (74), a second traction roller group (75), a third traction roller group (76) and a fourth traction roller group (77), the first traction roller group (74) and the second traction roller group (75) are arranged in the discharging direction of the transverse cutter mechanism (6), the third traction roller group (76) and the fourth traction roller group (77) are arranged in the discharging direction of the first traction roller group (74) and the second traction roller group (75), the first traction roller group (74) is positioned on the lower side of the second traction roller group (75), the third traction roller group (76) is positioned on the back side of the fourth traction roller group (77), the third traction roller group (76) is positioned on the side of the fourth traction roller group (77), the synchronous belt transmission mechanism is arranged on the back side of the supporting plate (77), the synchronous belt transmission mechanism is arranged on the third traction roller group (77), the first transverse folding plugboard (72) is arranged on the top side of the abutting position of the first traction roller group (74) and the third traction roller group (76), and the second transverse folding plugboard (73) is arranged on the feeding side of the abutting position of the third traction roller group (76) and the fourth traction roller group (77);

The stacking and collecting mechanism (8) comprises a receiving groove (81), a pushing cylinder (82), a pushing plate (83) and a collecting groove (84), wherein the collecting groove (84) is connected to the rear end of the receiving groove (81), the receiving groove (81) and the collecting groove (84) are mutually connected and are arranged on a collecting frame (85), the pushing plate (83) is arranged in the receiving groove (81), the pushing plate (83) is connected with the pushing cylinder (82), and the pushing cylinder (82) is arranged on one side of the receiving groove (81).

2. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: unreeling mechanism (5), including air-expanding shaft (51) and control cylinder (52), air-expanding shaft (51) one end is held tightly by control cylinder (52), and air-expanding shaft (51) are installed on fixed plate (53) through the bearing, and control cylinder (52) are installed on fixed plate (53) through the connecting plate, fixed plate (53) and frame (1) fixed connection.

3. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: the first guide shaft support (31), the second guide shaft support (32), the third guide shaft support (33) and the fourth guide shaft support (34) are composed of rectangular frames and rotating shafts, and the rotating shafts are at least provided with two, are respectively transversely arranged in parallel in the frames and can be used for adjusting the height.

4. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: the fifth guide shaft support (35) comprises a first vertical guide shaft (351), guide shafts (352) inclined by 45 degrees, horizontal guide shafts (353) and second vertical guide shafts (355), wherein the first vertical guide shafts (351) are arranged in a quadrangular frame (354), the horizontal guide shafts (353) are horizontally arranged in a supporting frame (356), the guide shafts (352) inclined by 45 degrees are fixed on the quadrangular frame (354), the supporting frame (356) and the second vertical guide shafts (355) through base plates (357), the first vertical guide shafts (351) are provided with two guide shafts inclined by 45 degrees, one guide shaft (352) is arranged, the horizontal guide shafts (353) are provided with four guide shafts, and the second vertical guide shafts (355) are further arranged between the first vertical guide shafts (351) and the guide shafts (352) inclined by 45 degrees.

5. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: the first guide plate support (41), the second guide plate support (42) and the third guide plate support (43) are composed of rectangular frames and guide plates, the guide plates are arranged in the frames, and hollowed-out openings in the shape of V-shaped bodies are formed in the guide plates of the third guide plate support (43).

6. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: the elliptical hole roller cutting mechanism (2) comprises a first cutter roller (21), a first die-cutting bottom roller (22), a first bottom plate (23), a first wallboard (24), a first cover plate (25) and a first servo motor (26), wherein the first cutter roller (21) and the first die-cutting bottom roller (22) are respectively arranged in a first U-shaped groove of the first wallboard (24) through bearing adjustability, the first cutter roller (21) and the first die-cutting bottom roller (22) are arranged on the first wallboard (24) in an upper and lower parallel mode, an elliptical cutter (27) is arranged on the first cutter roller (21), the bottom end of the first wallboard (24) is arranged on a frame (1) through the first bottom plate (23), a first gear (28) and a second gear (29) which are meshed with each other are respectively arranged at the same end of the first cutter roller (21) and the first die-cutting bottom roller (22), the first servo motor (26) is connected with the end of the first die-cutting bottom roller (22) through a first gear (28), the first servo motor (26) is arranged on the first roller (22) through the first bottom roller (23) in a driving mode that the first servo motor (28) is arranged on the first bottom roller (22), the second gear (29) drives the first knife roller (21) to rotate, a first cover plate (25) is arranged at the top end of a first U-shaped groove of the first wallboard (24), a first pressurizing screw (251) extending into the first U-shaped groove is arranged in the first cover plate (25), a first pressurizing block (252) connected with the end part of the first pressurizing screw (251) is arranged in the first U-shaped groove, and the first pressurizing screw (251) is pressurized on the first knife roller (21) through the first pressurizing block (252).

7. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: the transverse cutter mechanism (6) comprises a second cutter roller (61), a second die-cutting bottom roller (62), a first traction rubber roller (63), a second traction rubber roller (64), a second wallboard (65) and a second bottom plate (66), wherein the second wallboard (65) is symmetrically arranged left and right, a second U-shaped groove and a third U-shaped groove are arranged on the second wallboard (65) in parallel, rotating shafts at the left and right ends of the second cutter roller (61) and the second die-cutting bottom roller (62) are respectively and adjustably arranged in a second U-shaped groove of the second wallboard (65) through bearings, a transverse cutter (611) is arranged on the second cutter roller (61), shafts at the left and right ends of the first traction rubber roller (63) and the second traction rubber roller (64) are respectively arranged in a third U-shaped groove through bearings, a second cover plate (67) and a third cover plate (68) are respectively arranged at the top ends of the second U-shaped groove and the third U-shaped groove, a second pressing block (67) and a third pressing block (681) can be respectively arranged on the second cover plate (67) and the third cover plate (67) through a second pressing screw (671) and a third pressing block (671), the second wallboard (65) is fixed on a supporting plate wall (71) through a supporting triangle seat at the bottom side of a second bottom plate (66), the supporting plate wall (71) is arranged on a supporting frame (69), a second knife roller (61) is meshed with a fourth gear (623) of a second die-cutting bottom roller (62) through a third gear (612), a first traction rubber roller (63) is meshed with a sixth gear (643) of a second traction rubber roller (64) through a fifth gear (631), the second die-cutting bottom roller (62) and the second traction rubber roller (64) are respectively connected with a second servo motor (621) and a third servo motor (641), and the second servo motor (621) and the third servo motor (641) are respectively connected with the supporting plate wall (71) through a first motor seat (622) and a second motor seat (642).

8. An apparatus for punching, laminating and folding nonwoven fabrics as defined in claim 1, wherein: the synchronous belt transmission mechanism comprises a first transmission synchronous belt (781), a second transmission synchronous belt (782), a first synchronous wheel (783), a second synchronous wheel (784), a fourth servo motor (785) and a fifth servo motor (786), an output shaft of the fifth servo motor (786) is connected with a third driving roll shaft (762), the first synchronous wheel (783) is arranged on the first driving roll shaft (742), the second synchronous wheel (784) is arranged on a fourth driving roll shaft (772), the fifth servo motor (786) is connected with the first transmission synchronous belt (781) and the second transmission synchronous belt (782) through synchronous wheels on the output shaft respectively, the first transmission synchronous belt (781) is connected with the first driving roll shaft (742) through the first synchronous wheel (783), the second transmission synchronous belt (782) is connected with the fourth driving roll shaft (772) through the second synchronous wheel (784), the fourth servo motor (785) is arranged on the fourth driving roll shaft (742) through the output shaft and the second driving motor (785), the fourth driving roll shaft (7875) is connected with a fourth driving roll set (741), a fourth driving roll set (76), a fourth driving roll set (75), a fourth driving roll set (751), and a fifth driving set (76) The third conveyor belt (761) and the fourth conveyor belt (771) run synchronously.