CN214140928U - Micro-needle eye adhesive attaching device - Google Patents

Abstract

The utility model belongs to the technical field of microneedle eye pad processing, a microneedle eye pad adhesive device is provided, which comprises a frame, wherein a first low-viscosity film waste collecting mechanism, a medical adhesive tape cutting mechanism, a medical adhesive tape feeding mechanism, a second low-viscosity film waste collecting mechanism and a sheet material product conveyor are sequentially arranged on the frame along the microneedle eye pad conveying direction, a first stripping cutter body is arranged at one side of the first low-viscosity film waste collecting mechanism facing the medical adhesive tape cutting mechanism, and a second stripping cutter body is arranged at one side of the second low-viscosity film waste collecting mechanism facing the sheet material product conveyor; the frame is also provided with a first low-viscosity film waste winding roller, a medical adhesive waste winding roller, a low-viscosity film material belt discharging roller, a medical adhesive belt discharging roller, a release film winding roller and a second low-viscosity film waste winding roller. The utility model discloses can realize in accurate, the orderly medical film of pasting in the micropin eye subsides back, the eye that obtains pastes the product, during the use, directly through attached on human skin of medical film can, not only convenient to use, and attached effectual.

Description

Micro-needle eye adhesive attaching device

Technical Field

The utility model relates to a micropin eye pastes processing technology field, especially relates to a micropin eye pastes mucilage binding and puts.

Background

The micro-needle eye patch is a micro-needle product which is obtained by cutting a micro-needle patch according to the required shape and size and is convenient to use, after the micro-needle eye patch is attached to the skin of a human body, the nano-scale micro-needles can pierce the skin to form micro-channels on the horny layer, and medicines or cosmetic active ingredients (such as hyaluronic acid or various added effective ingredients for wrinkle removal, whitening and the like) in the micro-needles reach the deep layer of the skin along the micro-channels and diffuse into the dermis to be quantitatively and continuously administrated.

At present, still there is not special equipment that is used for realizing micropin eye pastes the glue, cuts the micropin paster for slice eye pastes the product and directly uses more, because micropin eye pastes self and does not have viscidity, the emergence of the phenomenon that drops from the skin even of the attached effect difference of easy appearance in the use, influence the result of use and cause certain waste, though the finger is pressed and is made the effective attached skin of micropin eye subsides, but when occupying both hands, press for a long time and also can lead to hand fatigue. Therefore, the development of a micro-needle eye adhesive attaching device not only has urgent research value, but also has good economic benefit and industrial application potential, which is the basis and the place where the utility model can be completed.

Disclosure of Invention

In order to overcome the above-identified drawbacks of the prior art, the present inventors have conducted intensive studies and, after having paid a lot of creative efforts, have completed the present invention.

Particularly, the utility model discloses the technical problem that solve is: the utility model provides a micropin eye pastes mucilage binding and puts to realize pasting medical film in micropin eye subsides are automatic, realize effective attached on human skin of micropin eye subsides through medical film, and then improve the attached effect of micropin eye subsides when using.

In order to solve the technical problem, the technical scheme of the utility model is that:

a micro-needle eye adhesive attaching device comprises a rack, wherein a first low-viscosity film waste receiving mechanism, a medical adhesive tape cutting mechanism, a medical adhesive tape feeding mechanism, a second low-viscosity film waste receiving mechanism and a sheet material product conveyor are sequentially arranged on the rack along the conveying direction of a micro-needle eye adhesive, a first stripping cutter body is arranged on one side, facing the medical adhesive tape cutting mechanism, of the first low-viscosity film waste receiving mechanism, the first stripping cutter body is connected with the medical adhesive tape cutting mechanism, a second stripping cutter body is arranged on one side, facing the sheet material product conveyor, of the second low-viscosity film waste receiving mechanism, and the second stripping cutter body is connected with the sheet material product conveyor;

the frame is further provided with a first low-viscosity film waste winding roller, a medical adhesive waste winding roller, a low-viscosity film waste belt unwinding roller, a medical adhesive belt unwinding roller, a release film winding roller and a second low-viscosity film waste winding roller, the first low-viscosity film waste winding roller is arranged corresponding to the first low-viscosity film waste collecting mechanism, the medical adhesive waste winding roller is arranged corresponding to the medical adhesive belt cutting mechanism, the low-viscosity film waste belt unwinding roller, the medical adhesive belt unwinding roller and the release film winding roller are arranged corresponding to the medical adhesive belt feeding mechanism, and the second low-viscosity film waste winding roller is arranged corresponding to the second low-viscosity film waste collecting mechanism.

As an improved technical scheme, the first low-viscosity film waste collecting mechanism comprises a first conveying tool apron arranged on the rack, a first traction smooth roller and a first conveying rubber roller driven by a first driving device are rotatably arranged on the first conveying tool apron, and the first conveying rubber roller is arranged by being attached to the roller surface of the first traction smooth roller;

the cutting mechanism for the medical adhesive tape comprises a cutting tool apron arranged on the rack, a die cutting knife roller and a die cutting smooth roller which are driven by a second driving device are rotatably arranged on the cutting tool apron, and the die cutting smooth roller is arranged by being attached to the roller surface of the die cutting knife roller;

the medical rubber belt feeding mechanism comprises a second conveying tool apron arranged on the rack, a second traction smooth roller and a second conveying rubber roller driven by a third driving device are rotatably arranged on the second conveying tool apron, and the second conveying rubber roller is arranged by being attached to the roller surface of the second traction smooth roller;

the second low-mucosa waste collecting mechanism comprises a third conveying tool apron arranged on the rack, a third traction smooth roller and a third conveying rubber roller driven by a fourth driving device are rotatably arranged on the third conveying tool apron, and the third conveying rubber roller is arranged by being attached to the roller surface of the third traction smooth roller.

As an improved technical scheme, the roller surfaces of the first conveying rubber roller, the die cutting smooth roller, the second conveying rubber roller and the third conveying rubber roller are arranged at the same height.

As an improved technical scheme, the first stripping knife body is fixedly arranged on the first conveying knife seat, and the first stripping knife body is arranged by being attached to the roll surface of the die-cutting smooth roll;

the second stripping knife body is fixedly arranged on the third conveying knife seat, and the second stripping knife body is arranged close to one end of the conveying belt of the sheet material product conveyor.

As an improved technical scheme, a first guide rail is arranged on the rack, first sliding blocks are fixedly mounted at the bottoms of the first conveying cutter holder, the cutting cutter holder, the second conveying cutter holder and the third conveying cutter holder, and are slidably mounted on the rack through the first guide rail and the first sliding blocks, and positioning bolts are used for positioning and fixing the first sliding blocks on the rack.

As an improved technical scheme, a second guide rail is further arranged on the rack, a plurality of second sliding blocks are slidably mounted on the second guide rail, a plurality of sliding mounting plates are slidably mounted on the rack through the second guide rail and the second sliding blocks, the sliding mounting plates are positioned and mounted on the rack through positioning bolts, the first low-viscosity film waste winding roller, the medical adhesive waste winding roller, the low-viscosity film material belt discharging roller, the medical adhesive material belt discharging roller and the release film winding roller are rotatably mounted on the sliding mounting plates respectively and are driven by a fifth driving device respectively, and the second low-viscosity film waste winding roller is rotatably mounted on the rack and is driven by a sixth driving device.

As an improved technical scheme, the sliding mounting plate is also rotatably provided with a material guide shaft.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

the micro-needle eye adhesive attaching device comprises a medical adhesive tape unwinding roller, a low-viscosity film material roll is arranged on a low-viscosity film material tape unwinding roller, when the micro-needle eye adhesive attaching device works, the medical adhesive tape and a second low-viscosity film material tape are drawn and compounded under the action of a medical adhesive tape winding mechanism, a release film on the medical adhesive tape is separated and wound on a release film winding roller to realize waste recovery of the release film, the compounded medical adhesive tape and the second low-viscosity film material tape are conveyed to a medical adhesive tape cutting mechanism together, the medical adhesive tape is subjected to die cutting under the action of the medical adhesive tape cutting mechanism, a medical adhesive film subjected to die cutting is conveyed along with the second low-viscosity film material tape together, the medical adhesive waste subjected to die cutting is wound on a medical adhesive waste winding roller to realize waste recovery of the medical adhesive tape, meanwhile, the cut micro-needle eyes are adhered to the first low-viscosity film material tape to be conveyed through a first peeling cutter body, under the action of a first stripping cutter body, the micro-needle eye patch is stripped from the first low-viscosity film material belt, the stripped micro-needle eye patch is just orderly stuck to the medical film, the eye patch product is formed with the medical film and is conveyed along with the second low-viscosity film material belt, the first low-viscosity film waste material belt with the micro-needle eye patch stripped off is wound on the first low-viscosity film waste material winding roller after being drawn and conveyed by the first low-viscosity film waste collecting mechanism, so that the waste collection of the first low-viscosity film waste material belt is realized, when the eye patch product conveyed along with the second low-viscosity film material belt is conveyed by the second stripping cutter body, and under the action of a second stripping cutter body, stripping the eye patch product from the second low-viscosity film material belt, dropping the stripped eye patch product onto a sheet material product conveyor to convey the eye patch product to the next processing procedure, and winding the second low-viscosity film waste material belt of the stripped eye patch product onto a second low-viscosity film waste material winding roller to realize waste collection of the second low-viscosity film waste material belt.

Through this micropin eye pastes and attaches mucilage binding device, can realize pasting medical film in micropin eye pastes the back accuracy, orderly, the eye that obtains pastes the product, during the use, directly through medical film attached on human skin can, not only convenient to use, and attached effectual, ensure that the absorption effect of eye subsides is better.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the winding direction of each material belt of the present invention;

fig. 3 is a schematic structural view of the microneedle patch of the present invention being transported on a first low-viscosity film web;

FIG. 4 is a schematic illustration of the delivery of an eye patch product of the present invention on a second low-tack film web;

reference numerals: 1-a frame; 2-a first conveying tool apron; 3-a first drive roll; 4-a first pulling smooth roll; 5-a first conveying rubber roller; 6-cutting the cutter holder; 7-a second driving roller; 8-die cutting knife roll; 9-die cutting smooth roll; 10-a second transport knife holder; 11-a third driving roller; 12-a second pulling smooth roll; 13-second conveying rubber roller; 14-a third transport blade seat; 15-a fourth driving roller; 16-a third pulling smooth roll; 17-a third conveying rubber roller; 18-a sheet product conveyor; 19-a first stripping blade body; 20-a second stripping blade body; 21-a slide mounting plate; 22-a first low-tack film waste take-up roll; 23-a medical adhesive waste material winding roller; 24-low tack film tape draw off roll; 25-medical sizing material belt discharging roller; 26-a release film winding roller; 27-a second low-tack film waste take-up roll; 28-a guide shaft; 29-a first low-tack adhesive tape; 30-a first low tack film waste tape; 31-medical adhesive tape; 32-a second low-tack adhesive tape; 33-a release film; 34-medical adhesive waste; 35-a second low tack film waste tape; 36-microneedle eye patches; 37-medical film.

Detailed Description

The invention will be further described with reference to specific examples. The use and purpose of these exemplary embodiments are to illustrate the invention, not to limit the scope of the invention in any way, and not to limit the scope of the invention in any way.

As shown in fig. 1 to 4, the present embodiment provides a micro needle eye adhesive applying apparatus, which includes a frame 1, wherein a first low-adhesive film waste receiving mechanism, a medical adhesive tape cutting mechanism, a medical adhesive tape feeding mechanism, a second low-adhesive film waste receiving mechanism and a sheet material product conveyor 18 are sequentially disposed on the frame 1 along a micro needle eye adhesive conveying direction, a first peeling cutter body 19 is disposed on a side of the first low-adhesive film waste receiving mechanism facing the medical adhesive tape cutting mechanism, the first peeling cutter body 19 is connected to the medical adhesive tape cutting mechanism, a second peeling cutter body 20 is disposed on a side of the second low-adhesive film waste receiving mechanism facing the sheet material product conveyor 18, and the second peeling cutter body 20 is connected to the sheet material product conveyor 18.

The frame 1 is further provided with a first low-mucosa waste winding roller 22, a medical adhesive waste winding roller 23, a low-mucosa waste discharging roller 24, a medical adhesive tape discharging roller 25, a release film winding roller 26 and a second low-mucosa waste winding roller 27, the first low-mucosa waste winding roller 22 is arranged corresponding to the first low-mucosa waste collecting mechanism, the medical adhesive waste winding roller 23 is arranged corresponding to the medical adhesive tape cutting mechanism, the low-mucosa waste discharging roller 24, the medical adhesive tape discharging roller 25 and the release film winding roller 26 are arranged corresponding to the medical adhesive tape feeding mechanism, and the second low-mucosa waste winding roller 27 is arranged corresponding to the second low-mucosa waste collecting mechanism.

The first low-viscosity film waste collecting mechanism comprises a first conveying tool apron 2 arranged on the rack 1, a first traction smooth roller 4 and a first conveying rubber roller 5 driven by a first driving device are rotatably arranged on the first conveying tool apron 2, and the first conveying rubber roller 5 is arranged by being attached to the roller surface of the first traction smooth roller 4; in the embodiment, the first driving device comprises a first driving motor, a first driving roller 3 is rotatably mounted on the first conveying tool apron 2, the first driving motor is in transmission connection with the first driving roller 3 through a speed reducer and a coupler, the first driving roller 3, a first traction smooth roller 4 and a first conveying rubber roll 5 are sequentially and rotatably mounted on the first conveying tool apron 2 from bottom to top and are in transmission connection with each other through two transmission gears, the first driving motor works, further driving the first traction smooth roller 4 and the first conveying rubber roller 5 to rotate, conveying the cut micro-needle eye patch 36 on the first low-adhesive film material belt 29, the first low-viscosity film waste belt 29 is supported and conveyed through the first conveying rubber roller 5, the first low-viscosity film waste belt 30 with the micro-needle eye patch 36 peeled off passes through the space between the first traction smooth roller 4 and the first conveying rubber roller 5, and traction and conveyance are realized through the first traction smooth roller 4 and the first conveying rubber roller 5.

The cutting mechanism for the medical adhesive tape comprises a cutting tool apron 6 arranged on the rack 1, a die cutting knife roller 8 and a die cutting smooth roller 9 which are driven by a second driving device are rotatably arranged on the cutting tool apron 6, and the die cutting smooth roller 9 is arranged by being attached to the roller surface of the die cutting knife roller 8; in this embodiment, the second driving device includes a second driving motor, a second driving roller 7 is rotatably installed on the cutting blade seat 6, the second driving motor is connected with the second driving roller 7 through a speed reducer and a coupler in a transmission manner, the second driving roller 7, the die cutting knife roller 8 and the die cutting smooth roller 9 are sequentially installed on the cutting blade seat 6 from bottom to top in a rotating manner, and are connected in a transmission manner through two transmission gears, the second driving motor works to drive the die cutting knife roller 8 and the die cutting smooth roller 9 to rotate, a plurality of die cutting knives are arranged on the die cutting knife roller 8, the medical adhesive tape 31 and the second low-adhesive tape 32 are conveyed between the die cutting knife roller 8 and the die cutting smooth roller 9 after being compounded, the die cutting of the medical adhesive tape 31 is realized under the cooperation effect of the die cutting knife roller 8 and the die cutting smooth roller 9, and the medical adhesive tape 31 is a medical adhesive film 37 with a plurality of required sizes and shapes.

The medical rubber belt feeding mechanism comprises a second conveying tool apron 10 arranged on the rack 1, a second traction smooth roller 12 and a second conveying rubber roller 13 driven by a third driving device are rotatably arranged on the second conveying tool apron 10, and the second conveying rubber roller 13 is arranged by being attached to the roller surface of the second traction smooth roller 12; in this embodiment, the third driving device includes a third driving motor, a third driving roller 11 is rotatably installed on the second conveying tool apron 10, the third driving motor is connected with the third driving roller 11 through a speed reducer and a coupler in a transmission manner, and is connected through transmission gears in a transmission manner, the third driving motor works to drive the second traction smooth roller 12 and the second conveying rubber roller 13 to rotate, the medical rubber belt 31 and the second low-viscosity rubber belt 32 pass through the second traction smooth roller 12 and the second conveying rubber roller 13, and traction and compounding of the two rubber belts are realized through the second traction smooth roller 12 and the second conveying rubber roller 13.

The second low-viscosity film waste collecting mechanism comprises a third conveying tool apron 14 arranged on the rack 1, a third traction smooth roller 16 and a third conveying rubber roller 17 driven by a fourth driving device are rotatably arranged on the third conveying tool apron 14, and the third conveying rubber roller 17 is arranged by being attached to the roller surface of the third traction smooth roller 16; in this embodiment, the fourth driving device includes a fourth driving motor, a fourth driving roller 15 is rotatably installed on the third conveying tool apron 14, the fourth driving motor is connected with the fourth driving roller 15 through a speed reducer and a coupler in a transmission manner, and is connected in a transmission manner pairwise through transmission gears, the fourth driving motor works to further drive the third traction smooth roller 16 and the third conveying rubber roller 17 to rotate, the second low-viscosity-film waste tape 35 for peeling off the eye patch product passes through the third traction smooth roller 16 and the third conveying rubber roller 17, and the traction conveying of the second low-viscosity-film waste tape 35 is realized through the third traction smooth roller 16 and the third conveying rubber roller 17.

In this embodiment, the roller surfaces of the first conveying rubber roller 5, the die-cutting smooth roller 9, the second conveying rubber roller 13 and the third conveying rubber roller 17 are arranged at the same height, so that stable bearing and conveying of the low-adhesive-film material belt are ensured.

In this embodiment, the first peeling knife body 19 is fixedly mounted on the first conveying knife seat 2, and the first peeling knife body 19 is disposed close to the roll surface of the die cutting smooth roll 9, so as to ensure that the microneedle patches 36 peeled off from the first low adhesive film tape 29 are sequentially transferred to the second low adhesive film tape 32.

In this embodiment, the second stripping blade body 20 is fixedly mounted on the third conveyor blade seat 14, and the second stripping blade body 20 is disposed against one end of the conveyor belt of the sheet material conveyor 18, so as to ensure that the eye patch products peeled off fall onto the conveyor belt of the sheet material conveyor 18 in order while achieving the peeling of the eye patch products from the second low-adhesive material tape 32.

In order to realize the installation of each mechanism on the frame 1, a first guide rail is arranged on the frame 1, a first sliding block is fixedly installed at the bottoms of the first conveying tool apron 2, the cutting tool apron 6, the second conveying tool apron 10 and the third conveying tool apron 14, the first sliding block is slidably installed on the frame 1 through the first guide rail, and the first sliding block is fixedly positioned on the frame 1 through a positioning bolt, so that the matching adjustment of the installation position among the mechanisms is realized conveniently.

In order to realize the installation of the discharging rollers and the winding rollers on the rack 1, a second guide rail is further arranged on the rack 1, a plurality of second sliding blocks are slidably arranged on the second guide rail, a plurality of sliding mounting plates 21 are slidably arranged on the rack 1 through the second guide rail and the second sliding blocks, the sliding mounting plates 21 are positioned and installed on the rack 1 through positioning bolts, the first low-viscosity film waste winding roller 22, the medical glue waste winding roller 23, the low-viscosity film material belt discharging roller 24, the medical glue belt discharging roller 25 and the release film winding roller 26 are respectively rotatably installed on the sliding mounting plates 21 and are respectively driven by a fifth driving device, and the second low-viscosity film waste winding roller 27 is rotatably installed on the rack 1 and is driven by a sixth driving device.

In this embodiment, the sliding mounting plate 21 is further rotatably mounted with a material guiding shaft 28, and the material belt is guided and conveyed by the material guiding shaft 28.

Based on the micro needle eye adhesive attaching device with the structure, a medical adhesive material roll is placed on a medical adhesive material strip discharging roller 25, a low-viscosity film material roll is placed on a low-viscosity film material strip discharging roller 24, when the micro needle eye adhesive attaching device works, the medical adhesive material strip 31 and a second low-viscosity film material strip 32 are drawn and compounded under the action of the medical adhesive material strip charging mechanism, a release film 33 on the medical adhesive material strip 31 is separated and wound on a release film winding roller 26, waste recycling of the release film 33 is realized, the compounded medical adhesive material strip 31 and the second low-viscosity film material strip 32 are conveyed to a medical adhesive material strip cutting mechanism together, the medical adhesive material strip 31 is subjected to die cutting under the action of the medical adhesive material strip cutting mechanism, a medical adhesive film 37 subjected to die cutting is conveyed along with the second low-viscosity film material strip 32, the medical adhesive waste 34 subjected to die cutting is wound on a medical adhesive waste winding roller 23 to realize waste recycling of the medical adhesive tape, meanwhile, the cut micro needle eye adhesive tape 36 is conveyed on a first low-viscosity film 29, when the eye patch product passes through the first stripping cutter body 19, the micro needle eye patch 36 is stripped from the first low-viscosity film material belt 29 under the action of the first stripping cutter body 19, the stripped micro needle eye patch 36 is just orderly adhered to a medical film 37 to form an eye patch product together with the medical film 37 and is conveyed together with the second low-viscosity film material belt 32, the first low-viscosity film waste material belt 30 with the micro needle eye patch 36 stripped off is wound on the first low-viscosity film waste material winding roller 22 after being drawn and conveyed by the first low-viscosity film waste collecting mechanism, the waste collection of the first low-viscosity film waste material belt 30 is realized, the eye patch product conveyed together on the second low-viscosity film material belt 32 is conveyed through the second stripping cutter body 20, the eye patch product is stripped from the second low-viscosity film material belt 32 under the action of the second stripping cutter body 20, the stripped eye patch product falls on the sheet material conveyor 18 to be conveyed to the next processing procedure, the second low-viscosity film waste material belt 35 with the eye patch product stripped off is wound on the second low-viscosity film waste material belt 27, the second low-viscosity film waste tape 35 is recycled.

Through this micropin eye pastes and glues device, can realize pasting medical film 37 in micropin eye pastes 36 back accuracy, orderly, the eye that obtains pastes the product, during the use, directly through medical film 37 attached on human skin can, not only convenient to use, and attached effectual, ensure that the absorption effect of eye subsides is better.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes, modifications and/or alterations to the present invention may be made by those skilled in the art after reading the technical disclosure of the present invention, and all such equivalents may fall within the scope of the present invention as defined by the appended claims.

Claims (7)

1. A micro-needle eye adhesive attaching device is characterized in that: the micro-needle eye patch cutting device comprises a rack, wherein a first low-mucosa waste collecting mechanism, a medical adhesive tape cutting mechanism, a medical adhesive tape feeding mechanism, a second low-mucosa waste collecting mechanism and a sheet material product conveyor are sequentially arranged on the rack along the micro-needle eye patch conveying direction, a first stripping cutter body is arranged on one side, facing the medical adhesive tape cutting mechanism, of the first low-mucosa waste collecting mechanism, the first stripping cutter body is connected with the medical adhesive tape cutting mechanism, a second stripping cutter body is arranged on one side, facing the sheet material product conveyor, of the second low-mucosa waste collecting mechanism, and the second stripping cutter body is connected with the sheet material product conveyor;

the frame is further provided with a first low-viscosity film waste winding roller, a medical adhesive waste winding roller, a low-viscosity film waste belt unwinding roller, a medical adhesive belt unwinding roller, a release film winding roller and a second low-viscosity film waste winding roller, the first low-viscosity film waste winding roller is arranged corresponding to the first low-viscosity film waste collecting mechanism, the medical adhesive waste winding roller is arranged corresponding to the medical adhesive belt cutting mechanism, the low-viscosity film waste belt unwinding roller, the medical adhesive belt unwinding roller and the release film winding roller are arranged corresponding to the medical adhesive belt feeding mechanism, and the second low-viscosity film waste winding roller is arranged corresponding to the second low-viscosity film waste collecting mechanism.

2. The microneedle eye patch device according to claim 1, wherein: the first low-viscosity film waste collecting mechanism comprises a first conveying tool apron arranged on the rack, a first traction smooth roller and a first conveying rubber roller driven by a first driving device are rotatably arranged on the first conveying tool apron, and the first conveying rubber roller is arranged by being attached to the roller surface of the first traction smooth roller;

the cutting mechanism for the medical adhesive tape comprises a cutting tool apron arranged on the rack, a die cutting knife roller and a die cutting smooth roller which are driven by a second driving device are rotatably arranged on the cutting tool apron, and the die cutting smooth roller is arranged by being attached to the roller surface of the die cutting knife roller;

the medical rubber belt feeding mechanism comprises a second conveying tool apron arranged on the rack, a second traction smooth roller and a second conveying rubber roller driven by a third driving device are rotatably arranged on the second conveying tool apron, and the second conveying rubber roller is arranged by being attached to the roller surface of the second traction smooth roller;

the second low-mucosa waste collecting mechanism comprises a third conveying tool apron arranged on the rack, a third traction smooth roller and a third conveying rubber roller driven by a fourth driving device are rotatably arranged on the third conveying tool apron, and the third conveying rubber roller is arranged by being attached to the roller surface of the third traction smooth roller.

3. The microneedle eye patch device according to claim 2, wherein: the roller surfaces of the first conveying rubber roller, the die cutting smooth roller, the second conveying rubber roller and the third conveying rubber roller are arranged at the same height.

4. A microneedle eye patch device according to claim 3, wherein: the first stripping cutter body is fixedly arranged on the first conveying cutter seat, and the first stripping cutter body is arranged by being attached to the roll surface of the die cutting smooth roll;

the second stripping knife body is fixedly arranged on the third conveying knife seat, and the second stripping knife body is arranged close to one end of the conveying belt of the sheet material product conveyor.

5. The microneedle eye patch device according to claim 4, wherein: the cutting machine is characterized in that a first guide rail is arranged on the frame, first sliding blocks are fixedly mounted at the bottoms of the first conveying cutter holder, the cutting cutter holder, the second conveying cutter holder and the third conveying cutter holder, and are slidably mounted on the frame through the first guide rail, and positioning bolts are used for positioning and fixing the first sliding blocks on the frame.

6. The microneedle eye patch device according to claim 5, wherein: the frame is further provided with a second guide rail, a plurality of second sliding blocks are slidably mounted on the second guide rail, a plurality of sliding mounting plates are slidably mounted on the frame through the second guide rail and the second sliding blocks, the sliding mounting plates are positioned and mounted on the frame through positioning bolts, the first low-viscosity film waste winding roller, the medical adhesive waste winding roller, the low-viscosity film material belt discharging roller, the medical adhesive material belt discharging roller and the release film winding roller are rotatably mounted on the sliding mounting plates respectively and are driven by a fifth driving device respectively, and the second low-viscosity film waste winding roller is rotatably mounted on the frame and is driven by a sixth driving device.

7. The microneedle eye patch device according to claim 6, wherein: and the sliding mounting plate is also rotatably provided with a material guide shaft.

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