CN113263773A

CN113263773A - Packaging material for hot compress, wormwood bag and processing device thereof

Info

Publication number: CN113263773A
Application number: CN202110563312.3A
Authority: CN
Inventors: 毛兵; 毛兵建; 王海丽; 李森林; 余哲颖; 顾秋萍; 高正
Original assignee: Jiaxing Xingyue Packaging Materials Co ltd
Current assignee: Jiaxing Xingyue Packaging Materials Co ltd
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2021-08-17
Anticipated expiration: 2041-05-24
Also published as: CN113263773B

Abstract

The utility model discloses a packing material for hot compress, a moxa bag and a processing device thereof, belonging to the production field of the moxa bag and comprising a packing film bag, wherein one side of the packing film bag is provided with a first cutting module, one side of the first cutting module is provided with a transportation module, and a first gluing module is arranged between the transportation module and the first cutting module; guarantee the even of being heated of chinese mugwort grass package through set up first iron pipe in the packaging film bag, utilize the magnetism of first iron pipe to adopt the electro-magnet to accomplish the transportation to chinese mugwort grass package wrapping bag simultaneously, avoid the sealed harmfulness of heat-seal through carrying out the rubber coating to the heat-seal in the transportation.

Description

Packaging material for hot compress, wormwood bag and processing device thereof

Technical Field

The utility model belongs to chinese mugwort grass package production field, concretely relates to packaging material, chinese mugwort grass package and processingequipment for the hot compress.

Background

The wormwood bag (also called wormwood paste) can be pasted on the skin for hot compress, generates heat and adheres to the human body for hot compress, so that the use comfort is high, and the generation of cold feeling during use is avoided. The moxa powder is a part of the folium artemisiae argyi, and has the effects of bacteriostasis, itching relieving and allergy resistance of the folium artemisiae argyi, the moxa powder is arranged on the heating layer on the moxa stick, the breathable cloth is arranged on the moxa powder, the structure is attached to the body to carry out hot compress, and the effect of improving the comfort level of a user is achieved through the hot compress.

There are a lot of chinese mugwort grass package and steam eye-shade to adopt oneself to generate heat and heat, but because the local of the chemical reaction that generates heat is unified can lead to appearing heating uneven problem, this disclosure guarantees the chinese mugwort grass package through set up first iron pipe in the packaging film bag be heated equally, but first iron pipe can lead to the heat-seal of chinese mugwort grass package to be that the position of iron pipe leads to the leakproofness poor easily and the problem that the material flows from first iron pipe centre bore.

Disclosure of Invention

To the not enough of prior art, this disclosed aim at provides a packaging material, chinese mugwort grass package and processingequipment for the hot compress, has solved among the prior art the heat sealability of chinese mugwort grass package poor, makes the product after the heat-seal, the easy problem that the seepage appears.

The purpose of the disclosure can be realized by the following technical scheme:

a processing device for a wormwood bag for hot compress comprises a packaging film bag, wherein a first cutting module is arranged on one side of the packaging film bag, a transportation module is arranged on one side of the first cutting module, and a first gluing module is arranged between the transportation module and the first cutting module;

the packaging film bag is formed by sealing two sides of a high-permeability film, the section of the packaging film bag is cylindrical, first iron pipes are uniformly distributed in the high-permeability film, and a plurality of through holes are formed in the side wall of each first iron pipe; the first cutting module is used for cutting the packaging film bag and sealing the cut opening of the packaging film bag; the transportation module comprises an installation bracket, a first installation plate and a first transportation plate are movably installed on the installation bracket, a second transportation plate is movably installed on the first installation plate, the first transportation plate and the second transportation plate are parallel to each other, first clamping blocks are arranged on the first transportation plate and the second transportation plate, and electromagnets are arranged on the first clamping blocks;

first rubber coating module includes the second mounting panel, has seted up first mounting groove on the second mounting panel, and first mounting groove below is equipped with first coating pond, installs first paint roller in the first mounting groove, and first guide way has been seted up to the side of first mounting groove.

Further, be equipped with deckle edge remove device between first rubber coating module and the transportation module, deckle edge remove device includes the third installation piece, has seted up the second guide way on the third installation piece, and first guiding groove has been seted up to second guide way one end, has seted up first cutting blade on the second guide way.

Further, a rack module is arranged on the second conveying plate and comprises a first guide rail, the first guide rail is mounted on the lower end face of the second conveying plate, a first movable block is movably mounted on the first guide rail, a first rack is arranged on the first movable block, a spring mounting block is arranged on the side face of the first movable block, the spring mounting block is mounted on the second conveying plate, a first spring is arranged between the spring mounting block and the first movable block, and an L-shaped first abutting block is arranged at one end, close to the first gluing module, of the first movable block;

a rotating shaft mounting groove is formed in the first gluing module and is communicated with the first guide groove, a first rotating shaft is arranged in the rotating shaft mounting groove, a second rotating shaft is arranged on one side of the first rotating shaft, a first belt is arranged between the second rotating shaft and the first rotating shaft, a third rotating shaft is arranged on one side of the second rotating shaft, a first gear is arranged on the third rotating shaft, a second gear is arranged on the second rotating shaft, the first gear is meshed with the second gear, and a third gear is arranged on the first rotating shaft;

a second mounting groove is formed in the first gluing module and is communicated with the first guide groove, a fourth rotating shaft is arranged in the second mounting groove, a third mounting groove is formed below the second mounting groove and is communicated with the rotating shaft mounting groove, a fourth gear and a first guide wheel are arranged on the third rotating shaft and the fourth rotating shaft, and the third rotating shaft is meshed with a fourth gear on the fourth rotating shaft;

the first gluing module is provided with a first touch bar, the first touch bar is provided with a fourth mounting groove, the fourth mounting groove is provided with a first touch inclined plane, the fourth mounting groove is provided with a first mounting shaft, the first mounting shaft is provided with a first guide block, a second return spring is arranged between the first guide block and the side face of the fourth mounting groove, and the first rack and the third gear are not completely meshed.

Further, a fifth mounting groove is formed in the third mounting block, the fifth mounting groove is communicated with the second guide groove, a fifth rotating shaft is arranged in the fifth mounting groove, a sixth rotating shaft is arranged on one side of the fifth rotating shaft, a second belt is arranged between the fifth rotating shaft and the sixth rotating shaft, a seventh rotating shaft is arranged on one side of the sixth rotating shaft, a fifth gear is arranged on the seventh rotating shaft, a sixth gear is arranged on the sixth rotating shaft, the fifth gear is meshed with the sixth gear, a seventh gear is arranged on the fifth rotating shaft, a second guide wheel is arranged on the seventh rotating shaft, and the seventh gear is incompletely meshed with the first rack.

Further, fifth mounting groove below is equipped with the sixth mounting groove, is equipped with the eighth gear in the fifth pivot, and the eighth gear is located the sixth mounting groove, the side of sixth mounting groove is equipped with the seventh mounting groove, and movable mounting has first washing rack in the seventh mounting groove, is equipped with the second spring between the bottom surface of first washing rack and seventh mounting groove, and first washing rack has seted up first washing tank near the one end of first cutting piece, and first washing rack and the incomplete meshing of eighth gear, the eighth gear is the tooth-lacking gear, is equipped with the eighth mounting groove on the third installation piece, and the axis center of eighth mounting groove and seventh mounting groove is the same, and is located the both sides of second guide way respectively, and first washing rack one end is located the eighth mounting groove when the second spring is in normal condition.

Furthermore, movable mounting has first washing piece in the eighth mounting groove, is equipped with the third spring between the bottom surface of first washing piece and eighth mounting groove, and one side that the eighth mounting groove is close to the second guide way is equipped with first flute, and first flute communicates with each other with the second guide way.

Furthermore, a ninth mounting groove is formed in the side surface of the first mounting groove, a ninth gear is arranged on a main shaft of the first paint roller, a tenth gear is arranged above the ninth gear, the tenth gear is meshed with the ninth gear, and the tenth gear and the ninth gear are located in the ninth mounting groove;

a second rack is arranged below the first movable block, a fourth spring is arranged between the first movable block and the second rack, a first mounting hole is formed in the first movable block, a first guide post is arranged on the second rack, the first guide post is movably mounted in the first mounting hole, and a second contact block is arranged on the second rack;

the side of first conflict pole is equipped with the second and supports the feeler lever, is equipped with first step on the second conflict pole, and is excessive through first inclined plane between first step and the second conflict pole.

Furthermore, the end face of the second contact rod, which is located on one side of the first gluing module, is provided with a second inclined plane, and the end face of the first contact rod, which is located on one side of the first gluing module, is provided with a third inclined plane.

Further, a third guide groove is formed in one side, close to the second contact rod, of the first contact rod, the third guide groove is divided into two sections of high and low sections, the middle of the third guide groove is excessive through an inclined plane, and one section, close to the first gluing module, of the third guide groove is higher than one section, close to the burr removing device.

Furthermore, a first sealing block and a first trimming block are arranged on one side of the transportation module, a second sealing block and a second trimming block which correspond to the first sealing block and the first trimming block respectively are arranged on the other side of the transportation module, a movable spraying head is arranged on the first sealing block, a cutting head is arranged on the second trimming block, a push rod is arranged above the cutting head, and a cutting debris collecting tank is arranged on the first trimming block.

Furthermore, a feeding clamping jaw is arranged above the transportation module, and a first suction disc is arranged on each of the second transportation plate and the first transportation plate

The beneficial effect of this disclosure:

1. guarantee the equal and with of being heated of chinese mugwort grass package through set up first iron pipe in the packaging film bag, utilize the magnetism of first iron pipe to adopt the electro-magnet to accomplish the transportation to chinese mugwort grass package wrapping bag simultaneously, avoid the sealed bad of heat-seal through carrying out the rubber coating to the heat-seal in the transportation.

2. Contradict in first guide block side through first conflict piece one side, make the first conflict piece card of L shape go into first conflict pole, so can make the second transport plate not avoid first leading wheel reverse rotation with third gear engagement when motion to first disconnected module, guarantee that first leading wheel can not reverse rotation lead to remaining glue flow direction change so can increase the resistance of wrapping bag transportation in first guide way.

3. The moxa roll has poor heat sealing performance, and the problem of leakage is easy to occur after the moxa roll is heat-sealed to be made into a product.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic cross-sectional view of a packaging film pouch according to an embodiment of the disclosure;

FIG. 2 is a schematic view of the interior of a high permeability membrane according to an embodiment of the disclosure;

FIG. 3 is a schematic overall structure diagram of an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of a first truncation module of an embodiment of the present disclosure;

FIG. 5 is a schematic view of a first glue module of an embodiment of the disclosure;

FIG. 6 is a schematic view of the interior of a first glue module in accordance with an embodiment of the disclosure;

FIG. 7 is a schematic view of a flash removal device according to an embodiment of the disclosure;

FIG. 8 is a schematic view of the interior of a flash removal device according to an embodiment of the disclosure;

FIG. 9 is a schematic view of a transport module according to an embodiment of the present disclosure;

FIG. 10 is a schematic view of the installation of a first seal block in accordance with an embodiment of the present disclosure;

FIG. 11 is a schematic view of a first striker bar in accordance with an embodiment of the present disclosure;

FIG. 12 is a side view of a first interference bar of an embodiment of the present disclosure;

fig. 13 is a schematic view of a rack module according to an embodiment of the present disclosure;

fig. 14 is a schematic view of the installation of a rack module according to an embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

As shown in fig. 1-14, a device for processing a wormwood bag for hot compress comprises a packaging film bag 1, wherein a first cutting module 2 is arranged on one side of the packaging film bag 1, a transportation module 5 is arranged on one side of the first cutting module 2, and a first gluing module 3 is arranged between the transportation module 5 and the first cutting module 2;

the packaging film bag 1 is formed by sealing two sides of a high-permeability film, the section of the packaging film bag is cylindrical, first iron pipes 11 are uniformly distributed in the high-permeability film, and a plurality of through holes are formed in the side walls of the first iron pipes 11;

further, the high-permeability film comprises a material layer and a heat sealing layer, wherein the material layer comprises a first non-woven fabric layer, a delustering OPP film layer, a second non-woven fabric layer and a breathable film layer which are compositely bonded through an adhesive; the heat sealing layer comprises a first surface layer, a core layer and a second surface layer which are sequentially overlapped and co-extruded; the peripheral edge of the first surface layer and the peripheral edge of the breathable film layer are compounded through heat sealing;

furthermore, the material layer and the heat-sealing layer in the structure have good heat-sealing performance and high heat-sealing strength, and the single material layer has poor heat-sealing performance and is easy to leak after being heat-sealed into a product; meanwhile, the problem of large thickness fluctuation during heat sealing is solved, and the defects of unevenness and the like of the seal are eliminated.

Further, the first non-woven fabric layer is a PET non-woven fabric with a thickness of 130-.

Furthermore, the first non-woven fabric layer and the second non-woven fabric layer of the structure meet the use requirements of mechanical properties and the like of products, save raw materials and achieve the best cost performance of the products.

Further, as a further preferable technical scheme of the above technical scheme, the extinction OPP film is provided with air holes distributed in a rectangular array, the aperture of each air hole is 0.38mm, and the distance between every two adjacent air holes is 3 mm.

Furthermore, the extinction OPP film is provided with air holes, has good water vapor permeability, can have good separation effect on liquid water by matching with the air permeable film layer, enables the water resistance and the high permeability of the product to reach the optimal balance, and increases the heating time of the product.

Further, as a further preferable embodiment of the above technical solution, the first surface layer is configured by a metallocene polyethylene material, and the sealing temperature of the first surface layer is 110 ℃.

Through such design, the seal-off temperature of the first surface layer is relatively high, so that the heat sealing performance is good, the heat sealing laminating with the breathable film layer is facilitated, and the sealing effect is achieved without extra coating glue.

Further, as a further preferable embodiment of the above technical solution, the second surface layer is configured by metallocene polyethylene and ultrahigh molecular weight polyethylene, and the seal initiation temperature of the second surface layer is 85 ℃, and the seal initiation temperature of the second surface layer having the above structure is low, and the second surface layer can be heat-sealed with various materials such as PP films and spunlaced fabrics.

Further, as a further preferable technical solution of the above technical solution, the core layer is configured by linear low density polyethylene and high density polyethylene, and the core layer of the above structure has good high temperature resistance to play a role in thermal insulation, and protects the first surface layer and the second surface layer from being melted off in the using process.

Through the design, the material layer comprises a first non-woven fabric layer, a delustering OPP film layer, a second non-woven fabric layer and a breathable film layer which are compositely bonded through an adhesive; the first non-woven fabric layer and the second non-woven fabric layer are good in mechanical strength and not easy to damage, the service life is prolonged, the extinction OPP film is provided with the air vents, the air vents have good water vapor permeability, and the heat sealing layer is matched with the air permeable film layer and can have a good barrier effect on liquid water, so that the water resistance and the high permeability of a product are optimally balanced, and the heating time of the product is prolonged; the second surface layer has low seal-opening temperature and can be thermally sealed with various materials such as PP films, spunlaced fabrics and the like; the core layer has good high temperature resistance, plays a role in heat insulation, and protects the first surface layer and the second surface layer from being melted in the using process, so that the heat sealing performance is good, the heat sealing strength is high, and the problem of leakage is not easy to occur after the product is made by heat sealing; meanwhile, the problem of large thickness fluctuation during heat sealing is solved, and the defects of unevenness and the like of the seal are eliminated.

The first cutting module 2 is used for cutting the packaging film bag 1 and sealing the cut opening of the packaging film bag 1; the transportation module 5 comprises a mounting bracket 51, wherein a first mounting plate 52 and a first transportation plate 53 are movably mounted on the mounting bracket 51, a second transportation plate 54 is movably mounted on the first mounting plate 52, the first transportation plate 53 and the second transportation plate 54 are parallel to each other, first clamping blocks 55 are arranged on the first transportation plate 53 and the second transportation plate 54, and electromagnets 56 are arranged on the first clamping blocks 55;

the first gluing module 3 comprises a second mounting plate 31, a first mounting groove 314 is formed in the second mounting plate 31, a first coating pool 315 is arranged below the first mounting groove 314, a first coating roller 36 is mounted in the first mounting groove 314, and a first guide groove 313 is formed in the side surface of the first mounting groove 314; the first cutting module 2 comprises a first cutting block 22 and a second cutting block 23, a first cutting knife 21 is arranged on the first cutting block 22, a first rotary cylinder 24 is arranged on one side of the first cutting block 22, a first clamping jaw cylinder 25 is arranged on the first rotary cylinder 24, and a first clamping jaw 26 is arranged on the first clamping jaw cylinder 25; by such design, the packaging film bag 1 passes through the first cutting block 22 and the second cutting block 23, the first clamping jaw 26 is horizontal to the packaging film bag 1, when the length of the packaging film bag 1 close to the first rotary air cylinder 24 reaches a set value, the first clamping jaw 26 clamps the packaging film bag 1, the first cutting block 22 and the second cutting block 23 close the first cutting knife 21 to cut off the packaging film bag 1, meanwhile, the cut of the packaging film bag 1 body is heat-sealed, and the position of the packaging film bag 1 after the cutting is clamped by the first clamping jaw 26 is the last heat-sealed opening, so that the packaging film bag 1 cut from the packaging film bag 1 body forms a three-edge sealed packaging bag, the first rotary air cylinder 24 rotates to transport the packaging bag from a horizontal state to a vertical state, the second transport plate 54 slides along the self axis in the direction of the first rotary air cylinder 24, when the second transport plate 54 is closest to the first clamping block 55 of the first rotary air cylinder 24 and is positioned on the side of the packaging bag, the electromagnet 56 works to generate magnetism, the first iron pipe 11 is uniformly distributed in the high-transparency film, so that the packaging bag can be adsorbed on the electromagnet 56, the second conveying plate 54 returns to finish the transportation of the packaging bag after the first clamping jaw 26 is loosened, meanwhile, when the second conveying plate 54 returns to drive the packaging bag to move towards the transportation module 5, the heat-sealed edge positioned below the packaging bag passes through the first coating roller 36 and then passes through the first guide groove 313, the first coating roller 36 rotates to coat the glue in the first coating pool 315 on the heat-sealed edge of the packaging bag to carry out secondary sealing on the heat-sealed edge, the first guide groove 313 can avoid the stability of the transportation of the packaging bag, so that the problems of poor sealing performance and outflow of materials from the center hole of the first iron pipe 11 caused by the first iron pipe 11 can be avoided, the transportation module 5 can adsorb the packaging bag by sequentially generating magnetism through the second conveying plate 54 and the electromagnet 56 on the first conveying plate 53, the transportation is completed in cooperation with the movements of the second transportation plate 54 and the first transportation plate 53;

further, the first iron pipes 11 are uniformly distributed in the high-permeability film, so that the moxa bag is uniformly heated by utilizing the heat conductivity of the iron pipes, and the side wall of the first iron pipe 11 is provided with a plurality of through holes for ensuring the air permeability of the moxa bag and ensuring the use effect of the moxa bag by passing moisture and air;

further, the transportation process of the transportation module 5 is specifically as follows;

in the first step, the electromagnet 56 on the first transport plate 53 is energized to generate magnetism, the packaging bag is attracted to the electromagnet 56, the electromagnet 56 on the second transport plate 54 slides along the self axis direction towards the first rotary cylinder 24 after being de-energized, when the first clamping block 55 of the second transport plate 54 closest to the first rotary cylinder 24 is positioned at the side of the package, the electromagnet 56 works to generate magnetism, the packaging bag is adsorbed on the electromagnet 56, the second conveying plate 54 returns to finish the conveying of the packaging bag after the first clamping jaw 26 is loosened, when a bag on the second transport plate 54 is in position on the empty first clamp 55 on the first transport plate 53, when the second transport plate 54 slides towards the first transport plate 53 until the packaging bag contacts the first clamping block 55 unloaded by the first transport plate 53, the electromagnet on the first clamping block 55 works to ensure that the belt is attracted, meanwhile, the electromagnets 56 on the second conveying plate 54, which are abutted against the original packaging bags on the first conveying plate 53, generate magnetism;

secondly, the second conveying plate 54 slides away from the first conveying plate 53, the upper opening of the packaging bag is opened by the action of the electromagnet 56, the second conveying plate 54 and the first conveying plate 53 slide together in the direction away from the first gluing module 3, the packaging bag is conveyed, and the electromagnet on the first clamping block 55 at the outermost side of the second conveying plate 54 and the first conveying plate 53 is powered off to enable the packaged product to fall down to finish the conveyance;

in the third step, the second transport plate 54 and the first transport plate 53 are sequentially powered off, moved one position, and then powered on, so that the packing bags on the second transport plate 54 and the first transport plate 53 are moved one position forward.

In some disclosures, a burr removing device 4 is disposed between the first gluing module 3 and the transportation module 5, the burr removing device 4 includes a third mounting block 41, a second guide slot 411 is disposed on the third mounting block 41, a first guide slot 412 is disposed at one end of the second guide slot 411, and a first cutting blade 45 is disposed on the second guide slot 411; through such design, the heat-seal limit that is located the wrapping bag below passes through first guide way 313 after first paint roller 36, first paint roller 36 is rotatory to carry out the secondary seal at the heat-seal limit with the glue coating in first coating pond 315 on the heat-seal limit of wrapping bag, back entering second guide way 411, first cutting piece 45 of seting up on the second guide way 411 carries out getting rid of unnecessary glue to the terminal surface that glue was coated, so can guarantee product packaging's uniformity and pleasing to the eye, first guide way 412 can lead in heat conduction banding gets into second guide way 411 simultaneously.

In some disclosures, a rack module 9 is arranged on the second transport plate 54, the rack module 9 includes a first guide rail 91, the first guide rail 91 is mounted on a lower end surface of the second transport plate 54, a first movable block 92 is movably mounted on the first guide rail 91, a first rack 921 is arranged on the first movable block 92, a spring mounting block 93 is arranged on a side surface of the first movable block 92, the spring mounting block 93 is mounted on the second transport plate 54, a first spring 94 is arranged between the spring mounting block 93 and the first movable block 92, and an L-shaped first contact block 923 is arranged at one end of the first movable block 92 close to the first glue spreading module 3;

a rotating shaft mounting groove 311 is formed in the first gluing module 3, the rotating shaft mounting groove 311 is communicated with a first guide groove 313, a first rotating shaft 32 is arranged in the rotating shaft mounting groove 311, a second rotating shaft 33 is arranged on one side of the first rotating shaft 32, a first belt 322 is arranged between the second rotating shaft 33 and the first rotating shaft 32, a third rotating shaft 34 is arranged on one side of the second rotating shaft 33, a first gear 341 is arranged on the third rotating shaft 34, a second gear 331 is arranged on the second rotating shaft 33, the first gear 341 is meshed with the second gear 331, and a third gear 321 is arranged on the first rotating shaft 32;

the first gluing module 3 is provided with a second mounting groove 312, the second mounting groove 312 is communicated with a first guide groove 313, a fourth rotating shaft 35 is arranged in the second mounting groove 312, a third mounting groove 317 is arranged below the second mounting groove 312, the third mounting groove 317 is communicated with a rotating shaft mounting groove 311, a fourth gear 343 and a first guide wheel 342 are arranged on the third rotating shaft 34 and the fourth rotating shaft 35, and the third rotating shaft 34 is meshed with the fourth gear 343 on the fourth rotating shaft 35;

the first gluing module 3 is provided with a first contact rod 8, the first contact rod 8 is provided with a fourth mounting groove 82, the fourth mounting groove 82 is provided with a first contact inclined plane 86, the fourth mounting groove 82 is provided with a first mounting shaft 83, the first mounting shaft 83 is provided with a first guide block 85, a second return spring 84 is arranged between the first guide block 85 and the side surface of the fourth mounting groove 82, and the first rack 921 is incompletely meshed with the third gear 321; through the design, when the second transport plate 54 moves upward, one side of the L-shaped first abutting block 923 abuts against the side of the first guide block 85, the first abutting block 923 is prevented from rotating when abutted by the first abutting inclined surface 86, the first abutting block 923 pushes the first movable block 92 to compress the first spring 94 through the guidance of the side of the first guide block 85, so that the first movable block 92 slides along the first guide rail, the L-shaped first abutting block 923 is clamped into the first abutting rod 8, so that the first rack 921 is not engaged with the third gear 321 when the second transport plate 54 moves toward the first blocking module 2, so that the first guide wheel 342 rotates reversely, so that the change of the flow direction of the glue remaining in the first guide groove 313 due to the reverse rotation of the first guide wheel 342 can be prevented, so that the transport resistance of the packaging bag in the first guide groove 313 is increased, when the first movable block 92 moves in place, first conflict piece 923 moves the terminal surface position of first conflict pole 8, first conflict piece 923 breaks away from and contradicts first conflict pole 8, first rack 921 and the meshing of third gear 321 this moment of first movable block 92 return under the elastic force effect of first spring 94, so it is rotatory to drive third gear 321 at first rack 921 in second transport plate 54 motion process, it is rotatory to drive first leading wheel 342 of both sides through gear and belt drive back third gear 321, the first leading wheel 342 direction of rotation of both sides is opposite, so can accomplish the motion assurance stability to the wrapping bag through the first leading wheel 342 of both sides.

In some disclosures, a fifth mounting groove 413 is formed in the third mounting block 41, the fifth mounting groove 413 is communicated with the second guide groove 411, a fifth rotating shaft 42 is arranged in the fifth mounting groove 413, a sixth rotating shaft 43 is arranged on one side of the fifth rotating shaft 42, a second belt 46 is arranged between the fifth rotating shaft 42 and the sixth rotating shaft 43, a seventh rotating shaft 44 is arranged on one side of the sixth rotating shaft 43, a fifth gear 441 is arranged on the seventh rotating shaft 44, a sixth gear 431 is arranged on the sixth rotating shaft 43, the fifth gear 441 is meshed with the sixth gear 431, a seventh gear 421 is arranged on the fifth rotating shaft 42, a second guide wheel 442 is arranged on the seventh rotating shaft 44, and the seventh gear 421 is incompletely meshed with the first rack 921; through such design, can drive second leading wheel 442 rotatory through first rack 921, so can accomplish the motion assurance stability to the wrapping bag through the second leading wheel 442 of both sides.

In some disclosures, a sixth mounting groove 416 is arranged below the fifth mounting groove 413, an eighth gear 422 is arranged on the fifth rotating shaft 42, the eighth gear 422 is positioned in the sixth mounting groove 416, a seventh mounting groove 415 is arranged on the side surface of the sixth mounting groove 416, a first cleaning rack 48 is movably mounted in the seventh mounting groove 415, a second spring 481 is arranged between the first cleaning rack 48 and the bottom surface of the seventh mounting groove 415, a first cleaning groove 482 is formed at one end of the first cleaning rack 48 close to the first cutting blade 45, the first cleaning rack 48 is incompletely meshed with the eighth gear 422, the eighth gear 422 is a gear with missing teeth, an eighth mounting groove 414 is arranged on the third mounting block 41, the axial centers of the eighth mounting groove 414 and the seventh mounting groove 415 are the same and are respectively positioned at two sides of the second guide groove 411, one end of the first cleaning rack 48 is positioned in the eighth mounting groove 414 when the second spring 481 is in a normal state, through the design, can drive the eighth gear 422 rotation through the fifth pivot 42, so can drive first washing rack 48 compression spring through eighth gear 422, when the wrapping bag was accomplished the cutting through first cutting piece 45 completely, the partly rotation of scarce tooth of eighth gear 422 was to one side of first washing rack 48, eighth gear 422 and first washing rack 48 mesh that drops, second spring 481 is in elasticity release like this and is located eighth mounting groove 414 with first washing rack 48 one end, so first washing rack 48 can accomplish the washing through first washing tank 482 to first cutting piece 45 in the motion process, first cutting piece 45 was located first washing tank 482 this moment.

In some disclosures, the first cleaning block 47 is movably installed in the eighth installation groove 414, a third spring 471 is installed between the first cleaning block 47 and the bottom surface of the eighth installation groove 414, a first chip groove 417 is installed on a side of the eighth installation groove 414 close to the second guide groove 411, the first chip groove 417 is communicated with the second guide groove 411, and an elastic force of the third spring 471 is smaller than that of the second spring 481, through the design, under the condition of no external force, one end of the first cleaning rack 48 abuts against and compresses the third spring 471 and then is inserted into the eighth installation groove 414, when the third spring 471 is not subjected to the external force, the first cleaning block 47 abuts against the side surface of the first cutting blade 45, so that when the second spring 481 is compressed, the first cleaning block 47 moves outwards under the action of the third spring 471 and abuts against the side surface of the first cutting blade 45, so that the first cleaning rack 48 remains on the side of the first cutting blade 45 and the push debris remained in the eighth installation groove 414 when the first cleaning rack 45 is far away from the first cleaning rack 48 and the first cutting blade 45 The discharge is discharged from the first chip groove 417, so that the cleaning effect can be secured.

In some disclosures, a ninth mounting groove 136 is formed in the side surface of the first mounting groove 314, a ninth gear 38 is arranged on the main shaft of the first paint roller 36, a tenth gear 37 is arranged above the ninth gear 38, the tenth gear 37 and the ninth gear 38 are engaged with each other, and the tenth gear 37 and the ninth gear 38 are located in the ninth mounting groove 136;

a second rack 95 is arranged below the first movable block 92, a fourth spring 591 is arranged between the first movable block 92 and the second rack 95, a first mounting hole 922 is formed in the first movable block 92, a first guide column 952 is arranged on the second rack 95, the first guide column 952 is movably mounted in the first mounting hole 922, and a second contact block 953 is arranged on the second rack 95;

a second contact rod 801 is arranged on the side surface of the first contact rod 8, a first step 802 is arranged on the second contact rod 801, the first step 802 and the second contact rod 801 are in transition through a first inclined surface 803, and the second rack 95 is not completely meshed with the tenth gear 37; through the design, the height distance between the second contact block 953 and the second contact rod 801 is smaller than the end face distance between the second contact rod 801 and the second rack 95, so that when the first movable block 92 moves towards the first gluing module 3, the second rack 95 is not meshed with the tenth gear 37, the second contact block 953 is dislocated with the second contact rod 801, when the first movable block 92 moves back towards the transportation module 5, the second contact block 953 abuts against the second contact rod 801, the second rack 95 is meshed with the tenth gear 37, the tenth gear 37 is driven to rotate, then the first paint roller 36 is driven to rotate, when the heat-sealing hole below the packaging bag is completely glued along with the movement of the first movable block 92, the second contact block 953 abuts against the first step 802, and at this time, the second rack 95 is disengaged from the tenth gear 37; through such design, it is unanimous with wrapping bag direction of transportation to have guaranteed first paint roller 36 direction of rotation, guarantees simultaneously that first paint roller 36's rotation is unanimous with the motion of wrapping bag, avoids first paint roller 36 empty rotatory, also avoids first paint roller 36 counter-rotation to lead to glue to spill and destroy the glue flow direction on first paint roller 36 and lead to the wrapping bag moving resistance to increase simultaneously, and the high position that can guarantee second gear 95 through second touch pole 801 certainly avoids the operation card to die.

In some disclosures, the end surface of the second contact rod 801 on the side of the first gluing module 3 is provided with a second inclined surface 804, and the end surface of the first contact rod 8 on the side of the first gluing module 3 is provided with a third inclined surface 81, so that the second rack 95 and the first movable block 92 can be moved along the inclined surfaces by the inclined surfaces to ensure stable movement and reduce impact.

In some disclosures, a third guide groove 87 is formed in one side, close to the second contact bar 801, of the first contact bar 8, the third guide groove 87 is divided into a high section and a low section, the middle of the high section and the low section is transited through an inclined plane, and a section, close to the first gluing module 3, of the third guide groove 87 is higher than a section, close to the burr removing device 4, of the third guide groove 87; by such a design, the third guide groove 87 can be clamped by using the side surface of the second contact block 953, so that the second contact block 953 can directly fall onto the second contact rod 801 when being separated from the third guide groove 87, and the stability of the second rack 95 can be ensured and the end of the second contact rod 801 can be prevented from being clamped.

In some disclosures, a first sealing block 71 and a first trimming block 73 are arranged on one side of the transportation module 5, a second sealing block 72 and a second trimming block 74 which correspond to the first sealing block 71 and the first trimming block 73 respectively are arranged on the other side of the transportation module 5, a movable spray head is arranged on the first sealing block 71, a cutting head is arranged on the second trimming block 74, a push rod is arranged above the cutting head, and a cutting debris collecting groove is arranged on the first trimming block 73; through the design, can carry out the heat-seal to the wrapping bag of accomplishing the blowing earlier through first sealed piece 71 and second sealed piece 72, simultaneously after the heat-seal, the sprinkler head on first sealed piece 71 moves along first sealed piece 71 and sprays glue simultaneously to the heat-seal mouth, so can carry out secondary seal to the seal mouth through glue and avoid the material to spill, the wrapping bag that spouts the glue simultaneously moves to between first repairment piece 73 and the second repairment piece 74, first repairment piece 73 and the closed completion of second repairment piece 74 are cut the sealed hole after spouting the glue and are got rid of unnecessary burr and guarantee the pleasing to the eye of seal mouth, the cutting head top is equipped with the push rod simultaneously and pushes into the piece collecting vat of cutting, so can avoid useless bits of broken glass to influence the cutting effect on the cutting head, equipment cleanness has also been guaranteed simultaneously.

In some disclosures, transportation module 5 top is equipped with feeding clamping jaw 6, all is equipped with first sucking disc 61 on second transportation board 54 and the first transportation board 53, through so design, can make the wrapping bag both sides open through the both sides of the wrapping bag that first sucking disc 61 absorption packaging film bag 1 of both sides is constituteed, so make things convenient for feeding clamping jaw 6 to say the material and put into the wrapping bag, avoid the wrapping bag opening size to lead to the unrestrained problem of material inadequately.

Principle of operation

Guarantee the even and with of being heated of chinese mugwort grass package through set up first iron pipe 11 in packaging film bag 1, utilize the magnetism of first iron pipe 11 to adopt electro-magnet 56 to accomplish the transportation to chinese mugwort grass package wrapping bag simultaneously, avoid the sealed bad of heat-seal through carrying out the rubber coating to the heat-seal in the transportation.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the disclosure. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing illustrates and describes the general principles, principal features, and advantages of the present disclosure. It will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, which are presented solely for purposes of illustrating the principles of the disclosure, and that various changes and modifications may be made to the disclosure without departing from the spirit and scope of the disclosure, which is intended to be covered by the claims.

Claims

1. A moxa bag processing device for hot compress comprises a packaging film bag (1), and is characterized in that a first cut-off module (2) is arranged on one side of the packaging film bag (1), a transportation module (5) is arranged on one side of the first cut-off module (2), and a first gluing module (3) is arranged between the transportation module (5) and the first cut-off module (2);

the packaging film bag (1) is formed by sealing two sides of a high-permeability film, the section of the packaging film bag is cylindrical, first iron pipes (11) are uniformly distributed in the high-permeability film, and a plurality of through holes are formed in the side wall of each first iron pipe (11); the first cutting module (2) is used for cutting the packaging film bag (1) and sealing the cut opening of the packaging film bag (1); the transportation module (5) comprises a mounting bracket (51), a first mounting plate (52) and a first transportation plate (53) are movably mounted on the mounting bracket (51), a second transportation plate (54) is movably mounted on the first mounting plate (52), the first transportation plate (53) and the second transportation plate (54) are parallel to each other, first clamping blocks (55) are arranged on the first transportation plate (53) and the second transportation plate (54), and electromagnets (56) are arranged on the first clamping blocks (55);

first rubber coating module (3) have been seted up first mounting groove (314) including second mounting panel (31) on second mounting panel (31), and first mounting groove (314) below is equipped with first coating pond (315), installs first paint roller (36) in first mounting groove (314), and first guide way (313) have been seted up to the side of first mounting groove (314).

2. The moxa cone processing device for hot compress according to claim 1, wherein a burr removing device (4) is disposed between the first gluing module (3) and the transportation module (5), the burr removing device (4) comprises a third mounting block (41), a second guide groove (411) is formed in the third mounting block (41), a first guide groove (412) is formed in one end of the second guide groove (411), and a first cutting blade (45) is formed in the second guide groove (411).

3. The moxa cone processing device for hot compress as claimed in claim 1, wherein the second transport plate (54) is provided with a rack module (9), the rack module (9) comprises a first guide rail (91), the first guide rail (91) is installed on the lower end surface of the second transport plate (54), the first guide rail (91) is movably provided with a first movable block (92), the first movable block (92) is provided with a first rack (921), the side surface of the first movable block (92) is provided with a spring installation block (93), the spring installation block (93) is installed on the second transport plate (54), a first spring (94) is arranged between the spring installation block (93) and the first movable block (92), and one end of the first movable block (92) close to the first gluing module (3) is provided with an L-shaped first abutting block (923);

a rotating shaft mounting groove (311) is formed in the first gluing module (3), the rotating shaft mounting groove (311) is communicated with the first guide groove (313), a first rotating shaft (32) is arranged in the rotating shaft mounting groove (311), a second rotating shaft (33) is arranged on one side of the first rotating shaft (32), a first belt (322) is arranged between the second rotating shaft (33) and the first rotating shaft (32), a third rotating shaft (34) is arranged on one side of the second rotating shaft (33), a first gear (341) is arranged on the third rotating shaft (34), a second gear (331) is arranged on the second rotating shaft (33), the first gear (341) is meshed with the second gear (331), and a third gear (321) is arranged on the first rotating shaft (32);

a second mounting groove (312) is formed in the first gluing module (3), the second mounting groove (312) is communicated with the first guide groove (313), a fourth rotating shaft (35) is arranged in the second mounting groove (312), a third mounting groove (317) is formed below the second mounting groove (312), the third mounting groove (317) is communicated with the rotating shaft mounting groove (311), a fourth gear (343) and a first guide wheel (342) are arranged on the third rotating shaft (34) and the fourth rotating shaft (35), and the third rotating shaft (34) is meshed with the fourth gear (343) on the fourth rotating shaft (35);

be equipped with first conflict pole (8) on first rubber coating module (3), fourth mounting groove (82) have been seted up on first conflict pole (8), be equipped with first conflict inclined plane (86) on fourth mounting groove (82), be equipped with first installation axle (83) on fourth mounting groove (82), be equipped with first guide block (85) on first installation axle (83), be equipped with second return spring (84) between the side of first guide block (85) and fourth mounting groove (82), first rack (921) and third gear (321) incomplete meshing.

4. The device for processing moxa roll for hot compress according to claim 3, be equipped with fifth mounting groove (413) on third installation piece (41), fifth mounting groove (413) and second guide way (411) communicate with each other, be equipped with fifth pivot (42) in fifth mounting groove (413), fifth pivot (42) one side is equipped with sixth pivot (43), be equipped with second belt (46) between fifth pivot (42) and sixth pivot (43), one side of sixth pivot (43) is equipped with seventh pivot (44), be equipped with fifth gear (441) on seventh pivot (44), be equipped with sixth gear (431) on sixth pivot (43), fifth gear (441) and sixth gear (431) meshing, be equipped with seventh gear (421) on fifth pivot (42), be equipped with second leading wheel (442) on seventh pivot (44), seventh gear (421) and first rack (921) incomplete meshing.

5. The moxa cone processing device for hot compress according to claim 4, wherein a sixth mounting groove (416) is provided below the fifth mounting groove (413), an eighth gear (422) is provided on the fifth rotating shaft (42), the eighth gear (422) is located in the sixth mounting groove (416), a seventh mounting groove (415) is provided on the side surface of the sixth mounting groove (416), a first cleaning rack (48) is movably mounted in the seventh mounting groove (415), a second spring (481) is provided between the first cleaning rack (48) and the bottom surface of the seventh mounting groove (415), a first cleaning groove (482) is provided at one end of the first cleaning rack (48) close to the first cutting blade (45), the first cleaning rack (48) is incompletely engaged with the eighth gear (422), the eighth gear (422) is a gear with teeth lacking, an eighth mounting groove (414) is provided on the third mounting block (41), the axial centers of the eighth installation groove (414) and the seventh installation groove (415) are the same and are respectively positioned at two sides of the second guide groove (411), and one end of the first cleaning rack (48) is positioned in the eighth installation groove (414) when the second spring (481) is in a normal state.

6. The device for processing the moxa roll for hot compress according to claim 5, wherein the eighth installation groove (414) is movably installed with the first cleaning block (47), a third spring (471) is arranged between the first cleaning block (47) and the bottom surface of the eighth installation groove (414), a first chip groove (417) is arranged on one side of the eighth installation groove (414) close to the second guide groove (411), and the first chip groove (417) and the second guide groove (411) are communicated with each other.

7. The moxa pack for hot compress according to claim 5, wherein a ninth mounting groove (136) is formed at a side of the first mounting groove (314), a ninth gear (38) is formed on the main shaft of the first paint roller (36), a tenth gear (37) is formed above the ninth gear (38), the tenth gear (37) and the ninth gear (38) are engaged with each other, and the tenth gear (37) and the ninth gear (38) are located in the ninth mounting groove (136);

a second rack (95) is arranged below the first movable block (92), a fourth spring (591) is arranged between the first movable block (92) and the second rack (95), a first mounting hole (922) is formed in the first movable block (92), a first guide column (952) is arranged on the second rack (95), the first guide column (952) is movably mounted in the first mounting hole (922), and a second contact block (953) is arranged on the second rack (95);

the side of the first touch bar (8) is provided with a second touch bar (801), the second touch bar (801) is provided with a first step (802), and the first step (802) and the second touch bar (801) are in transition through a first inclined plane (803).

8. The device for processing the moxa roll for hot compress as claimed in claim 7, wherein the end surface of the second contact rod (801) on the side of the first gluing module (3) is provided with a second inclined surface (804), and the end surface of the first contact rod (8) on the side of the first gluing module (3) is provided with a third inclined surface (81).

9. The device for processing the moxa cone for hot compress as claimed in claim 8, wherein a third guiding groove (87) is formed on one side of the first contact rod (8) close to the second contact rod (801), the third guiding groove (87) is divided into a high section and a low section, the middle of the high section and the low section is transited through an inclined plane, and a section of the third guiding groove (87) close to the first gluing module (3) is higher than a section close to the burr removing device (4).

10. The device for processing the moxa roll for hot compress according to claim 1, wherein a first sealing block (71) and a first trimming block (73) are provided on one side of the transportation module (5), a second sealing block (72) and a second trimming block (74) corresponding to the first sealing block (71) and the first trimming block (73) respectively are provided on the other side of the transportation module (5), a movable sprinkler is provided on the first sealing block (71), a cutting head is provided on the second trimming block (74), a push rod is provided above the cutting head, and a collecting groove for cutting debris is provided on the first trimming block (73).