CN113618814B - Cotton heat preservation surface fabric of pearl cuts stacking mechanism - Google Patents

Abstract

The application discloses cotton heat preservation surface fabric of pearl cuts stacking mechanism, including transmission guide roller subassembly, transmission guide roller subassembly is used for leading the cotton surface fabric of clamp pearl, still includes main roller, extrusion blade, main roller rotates the setting, and main roller is located transmission guide roller subassembly one side, the extrusion blade passes through spring and support and sets up in main roller one side, the cutting edge of extrusion blade is circular-arcly, the roller surface of tight main roller is pasted to the cutting edge of extrusion blade, be provided with the protruding strip of point awl on the roller surface of main roller, the protruding strip of point awl is on a parallel with the extrusion blade, it has the power cord to connect on the extrusion blade. The invention has the following beneficial effects: by removing part of the pearl cotton when the pearl cotton aluminum film is cut off and bonding the pearl cotton at the cut-off part with the aluminum film together, the condition that no naked pearl cotton exists at the cut-off part is ensured, and the heat insulation performance of the whole pearl cotton aluminum film is improved.

Description

Cotton heat preservation surface fabric of pearl cuts stacking mechanism

Technical Field

The invention relates to the field of pearl wool fabrics, in particular to a cutting and stacking mechanism for pearl wool heat-insulation fabrics.

Background

The pearl cotton heat-insulating fabric (comprising a pearl cotton layer and an aluminum film layer) is widely used for manufacturing products such as heat-insulating bags and heat-insulating boxes, the conventional pearl cotton heat-insulating fabric needs to be cut when manufacturing some larger heat-insulating bags, a reel-shaped film roll is cut into a piece of pearl cotton sheet, and then the pearl cotton sheet is manufactured into the heat-insulating bags (through bonding or hot melt bonding).

Disclosure of Invention

The invention provides a cutting and stacking mechanism for pearl wool heat-insulation fabric, aiming at the problems.

The technical scheme adopted by the invention is as follows:

the utility model provides a cotton heat preservation surface fabric of pearl cuts stacking mechanism, includes transmission guide roller subassembly, transmission guide roller subassembly is used for leading the cotton surface fabric of clamp pearl, still includes main round roller, extrusion blade, main round roller rotates the setting, and main round roller is located transmission guide roller subassembly one side, the extrusion blade passes through spring and support and sets up in main round roller one side, the cutting edge of extrusion blade is circular-arcly, the roller surface of tight main round roller is pasted to the cutting edge of extrusion blade, be provided with the protruding strip of point awl on the roller surface of main round roller, the protruding strip of point awl is on a parallel with the extrusion blade, it has the power cord to connect on the extrusion blade.

In the mechanism, a pointed cone bulge is arranged on a main round roller, the cutting edge of an extrusion blade is arc-shaped, the cutting edge of the extrusion blade is tightly attached to the main round roller, a pearl cotton aluminum film passes through the main round roller and the cutting edge of the extrusion blade, the extrusion blade is made of copper, after current is conducted, the extrusion blade is in a heating state, the temperature of the cutting edge of the extrusion blade is controlled to be about 105 ℃ through regulating the current, the cutting edge of the extrusion blade is contacted with the aluminum film, the main round roller is contacted with pearl cotton, during operation, the main round roller rotates and drives the pearl cotton aluminum film to continuously pass through the main round roller and the cutting edge of the extrusion blade head, when the main round roller rotates to the point cone bulge strip to be contacted with the pearl cotton, the point cone bulge strip can pin a part of the pearl cotton, when the point cone bulge strip is aligned with the cutting edge of the extrusion blade, the aluminum film can be cut off, and the aluminum film can be added with a part of length relative to the pearl cotton, the aluminium membrane of that partial length that exceeds compresses tightly together with the cotton with the pearl under the effect of the cutting edge of extrusion blade, because the temperature of the cutting edge of extrusion blade is about 105 degrees centigrade, this temperature can make the cotton softening of pearl, can bond aluminium membrane and cotton with the pearl together like this, so this kind of structure is through selling partial cotton with the pearl when cutting off the cotton aluminium membrane of pearl, and the cotton with the aluminium membrane bonding of pearl of cutting off department is in the same place, just so guaranteed that there is not naked cotton with the pearl in cutting off department, the thermal insulation performance of whole cotton aluminium membrane of pearl has been improved.

Optionally, the support is fixedly arranged on one side of the main round roller, the extrusion blade is mounted on the support through a spring and a bolt assembly, the bolt assembly is made of an insulating material, and the spring is not in contact with the extrusion blade.

The bolt assembly is made of engineering plastics, and the melting temperature of the bolt assembly is up to more than 300 ℃. The spring is a metal spring, and the surface of the metal spring is coated with insulating paint, so that the current for extruding the blade can be prevented from being transmitted to the bracket.

Optionally, the pearl cotton fabric drying machine further comprises a frame, a plurality of lead screw guide rails, an ink gun and air pipes, wherein the plurality of groups of transfer guide roller assemblies are arranged, the frame is arranged between the two groups of transfer guide roller assemblies, the lead screw guide rail assemblies are movably arranged on the frame, the ink gun and the air pipes are respectively arranged on the lead screw guide rail assemblies, and the ink gun and the air pipes are respectively positioned on two sides of the pearl cotton fabric.

In this mesostructure, can vertically remove and lateral shifting's lead screw guide rail through the frame setting to the ink jet head is installed on the lead screw guide rail separately with the tuber pipe, and the ink jet head is located the both sides of cotton aluminium membrane of pearl with the tuber pipe respectively, and the ink jet head is located aluminium membrane one side, and the tuber pipe is located cotton one side of pearl.

The effect of above-mentioned ink jet head is to spout the seal pattern on the aluminium membrane, because often need print the pattern on the aluminium membrane at production insulated bag, so earlier print the pattern on the aluminium membrane in this structure, utilize the ink jet head to carry out the pattern to the aluminium membrane and spout the seal, simultaneously because the ink jet head can produce an impact pressure to cotton-based pearl membrane department when spouting the seal, the existence of this impact pressure can make the aluminium membrane become the unevenness, it is incomplete to lead to spouting the pattern that the seal obtained, so set up the tuber pipe at cotton-based pearl membrane's opposite side, utilize the tuber pipe to blow to cotton-based pearl membrane, utilize the air current to play the supporting role to the aluminium membrane, thereby avoid the aluminium membrane unevenness, ensure that the pattern that the spraying obtained is clear complete, the mode of traditional cotton-based pearl aluminium membrane spraying pattern is for putting whole membrane static on the platform, then carry out the spraying, but the spraying efficiency is poor like this.

Optionally, the frame further comprises a leveling guide roller assembly, and the leveling guide roller assembly is arranged on one side of the frame.

The leveling guide roller assembly is used for extruding and leveling the whole pearl cotton fabric before spraying pigment on the aluminum film.

Optionally, still include first steel roller and second steel roller, a plurality of rings of annular have been seted up on the roll surface of first steel roller, the cover is equipped with the rubber cylinder on the second steel roller, first steel roller all rotates the setting with the second steel roller, and first steel roller keeps parallel with the second steel roller, distance between first steel roller and the rubber cylinder is less than the thickness of pearl cotton surface fabric.

Set up first steel roller and second steel roller, first steel roller keeps parallel with the second steel roller, a plurality of rings of annulars have been seted up on the roll surface of first steel roller, the cover is equipped with the rubber tube on the second steel roller, it is wrong the turn-round in order to extrude the cotton aluminium membrane of pearl after the spraying like this, ensure that the pattern after the spraying has good three-dimensional stereovision, the in-process of first steel roller and second steel roller extrusion cotton aluminium membrane of pearl has also played the gentle and agreeable effect of extrusion to the cotton aluminium membrane of pearl in other words simultaneously, it is more convenient when making into the packing bag to make whole cotton aluminium membrane of pearl.

Optionally, the device further comprises a brush plate and a brush holder, wherein the brush holder is arranged between the transfer guide roller assembly and the frame, and the brush plate is arranged on the brush holder.

The aluminum film is required to be sprayed with the pigment, so that the brush holder and the brush plate are arranged, the aluminum film is scraped by the brush plate, impurities attached to the aluminum film are scraped, and the aluminum film is ensured not to have impurities when patterns are sprayed and printed.

Optionally, the brush board includes first brush board and second brush board, first brush board is the rigidity brush board, the second brush board is flexible brush board, first brush board is on a parallel with the second brush board, and is provided with the brush head of point taper shape on the first brush board, is provided with circular-arc brush head on the second brush board.

The first brush plate is a rigid brush plate, the second brush plate is a flexible brush plate, the pearl wool aluminum film is firstly contacted with the rigid brush plate and then contacted with the flexible brush plate, the rigid brush plate scrapes off the viscous garbage adhered on the aluminum film through self-pointed cone-shaped attachments, and the flexible brush plate is used for sweeping off part of the garbage adhered on the aluminum film

Optionally, the brush further comprises an absorption tube, the absorption tube is arranged on one side of the brush plate, and a through hole is formed in the tube wall of the absorption tube.

The specific absorption tube is connected with an air pump, the air pump continuously vacuumizes the absorption tube, the absorption tube is used for sucking air, and particles scraped by the scraper are sucked into the absorption tube through the self air suction effect.

In summary, the rigid printing plate, the flexible printing plate and the absorption tube are used in combination, so that impurities do not exist on the aluminum film before spray printing, and the quality of the pattern after spray printing is ensured.

Optionally, the device further comprises a rotating frame, and the rotating frame is arranged on one side of the transfer guide roller assembly.

The rotating frame is used for placing the reel-shaped pearl cotton aluminum film.

Optionally, the roller assembly further comprises a guide-off roller, and the guide-off roller is rotatably arranged on one side of the main round roller.

The guide roller is used for guiding and stacking the cut pearl cotton aluminum film sheets.

The invention has the beneficial effects that: by removing part of the pearl cotton when the pearl cotton aluminum film is cut off and bonding the pearl cotton at the cut-off part with the aluminum film together, the condition that no naked pearl cotton exists at the cut-off part is ensured, and the heat insulation performance of the whole pearl cotton aluminum film is improved.

Description of the drawings:

FIG. 1 is a schematic diagram of the structure of the pearl cotton sheet cut by the cutter,

FIG. 2 is a schematic diagram of a cutting and stacking mechanism for pearl wool heat-insulating fabric,

figure 3 is an enlarged schematic sketch at a in figure 2,

figure 4 is an enlarged schematic diagram at B in figure 2,

figure 5 is an enlarged schematic sketch at C in figure 2,

figure 6 is a schematic view of the positional relationship between the main round roller and the pressing blade,

figure 7 is an enlarged schematic sketch at D in figure 6,

figure 8 is a schematic view of the working principle of the main round roller and the extrusion blade,

FIG. 9 is a schematic diagram of a mechanism for cutting the pearl wool aluminum membrane by the mechanism

The figures are numbered: 1. a pearl cotton aluminum film; 101. aluminum film; 102. pearl wool; 2. a rotating frame; 3. a transfer guide roller assembly; 4. a brush holder; 5. an absorber tube; 6. a frame; 7. an ink jet head; 8. a lead screw guide rail; 9. an air duct; 10. a first brush plate; 11. a second brush plate; 12. a first steel roll; 1201. a ring groove; 13. a second steel roll; 14. a support; 15. a lead-off roller; 16. a main round roller; 1601. a pointed conical protruding strip; 17. extruding the cutter head; 18. a bolt assembly; 19. spring, 20, leveling guide roller assembly.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 2, 3, 4, 5, 6, 7 and 8, the cutting and stacking mechanism for the pearl wool heat-insulating fabric comprises a transmission guide roller assembly 3, wherein the transmission guide roller assembly 3 is used for guiding and clamping the pearl wool 102 fabric, the cutting mechanism further comprises a main round roller 16 and an extrusion blade, the main round roller 16 is rotatably arranged, the main round roller 16 is positioned on one side of the transmission guide roller assembly 3, the extrusion blade is arranged on one side of the main round roller 16 through a spring 19 and a bracket 14, the cutting edge of the extrusion blade is arc-shaped, the cutting edge of the extrusion blade is tightly attached to the roller surface of the main round roller 16, a pointed cone protruding strip is arranged on the roller surface of the main round roller 16, the pointed cone protruding strip is parallel to the extrusion blade, and the extrusion blade is connected with a power line.

Referring to fig. 8, an arrow is a rotating direction of the main circular roller, in the mechanism, a pointed cone protrusion is arranged on the main circular roller 16, a cutting edge of the extrusion blade is arc-shaped, the cutting edge of the extrusion blade is tightly attached to the main circular roller 16, the pearl wool 102 aluminum film 101 penetrates through the space between the main circular roller 16 and the cutting edge of the extrusion blade, the extrusion blade is made of copper, after current is conducted, the extrusion blade is in a heating state, the temperature of the cutting edge of the extrusion blade is controlled to be about 105 ℃ through regulating the current, the cutting edge of the extrusion blade is contacted with the aluminum film 101, the main circular roller 16 is contacted with the pearl wool 102, when the mechanism works, the main circular roller 16 rotates, the pearl wool 102 aluminum film 101 is driven by the rotation of the main circular roller 16 to continuously pass through the space between the main circular roller 16 and the cutting edge of the extrusion cutter head 17, when the main circular roller 16 rotates until the pointed cone protrusion contacts with the pearl wool 102, the pointed cone protrusion pins a part of the pearl wool 102, when the pointed cone protruding strip is aligned with the cutting edge of the extrusion blade, the aluminum film 101 is cut off, so that the aluminum film 101 has a part of length longer than the pearl cotton 102, the aluminum film 101 with the part of length longer is pressed with the pearl cotton 102 under the action of the cutting edge of the extrusion blade, the pearl cotton 102 is softened at the temperature of about 105 ℃, so that the aluminum film 101 and the pearl cotton 102 can be adhered together, therefore, in the structure, part of the pearl cotton 102 is pinned when the aluminum film 101 of the pearl cotton 102 is cut off, the pearl cotton 102 at the cut-off part is adhered with the aluminum film 101 (the structure is shown in figure 9), compared with the pearl cotton aluminum diaphragm shown in figure 1, the pearl cotton in the pearl cotton diaphragm shown in figure 9 has no leakage point at the cut-off part, so that the cut-off part has no bare pearl cotton 102, the heat preservation performance of the whole piece of the pearl cotton 102 aluminum film 101 is improved.

As shown in fig. 6, 7 and 8, a bracket 14 is fixedly arranged at one side of a main round roller 16, the extrusion blade is arranged on the bracket 14 through a spring 19 and a bolt assembly 18, the bolt assembly 18 is made of an insulating material, and the spring 19 is not contacted with the extrusion blade.

The bolt assembly 18 is made of engineering plastics, and the melting temperature of the bolt assembly 18 is up to more than 300 ℃. The spring 19 is a metal spring 19, and the surface of the metal spring 19 is coated with an insulating varnish, so that the current pressing the blade is prevented from being transmitted to the bracket 14.

As shown in fig. 2, 3, 4, 5 and 6, the fabric further comprises a frame 6, a plurality of lead screw guide rails 8, an ink jet head 7 and air ducts 9, the plurality of sets of transfer guide roller assemblies 3 are provided, the frame 6 is disposed between the two sets of transfer guide roller assemblies 3, the lead screw guide rails 8 are movably disposed on the frame 6, the ink jet head 7 and the air ducts 9 are respectively mounted on the lead screw guide rails 8, and the ink jet head 7 and the air ducts 9 are respectively located on two sides of the pearl wool 102 fabric.

In the structure, a lead screw guide rail 8 capable of moving longitudinally and transversely is arranged through a frame 6, an ink gun 7 and an air pipe 9 are respectively arranged on the lead screw guide rail 8, the ink gun 7 and the air pipe 9 are respectively positioned on two sides of an aluminum film 101 of pearl wool 102, the ink gun 7 is positioned on one side of the aluminum film 101, and the air pipe 9 is positioned on one side of the pearl wool 102.

The ink jet head 7 is used for spraying and printing patterns on the aluminum film 101, because the patterns are usually printed on the aluminum film 101 when producing the thermal insulation bag, therefore, in this structure, the aluminum film 101 is first printed with a pattern, the aluminum film 101 is subjected to pattern printing by the ink jet head 7, meanwhile, because the ink jet head 7 generates an impact pressure to the aluminum film 101 of the pearl wool 102 during the jet printing, the presence of this impact pressure can cause the aluminum film 101 to become uneven, resulting in an incomplete pattern resulting from the jet printing, therefore, the air pipe 9 is arranged on the other side of the pearl cotton 102 aluminum film 101, the air pipe 9 is used for blowing air to the pearl cotton 102 aluminum film 101, the air flow is used for supporting the aluminum film 101, thereby avoid aluminium membrane 101 unevenness, ensure that the pattern that the spraying obtained is clear complete, the mode of traditional cotton 102 aluminium membrane 101 spraying pattern of pearl is for resting the whole membrane on the platform, and then carry out the spraying, but spraying efficiency is poor like this. The air pipe is connected with an air pump for blowing air.

As shown in fig. 2, further comprises a leveling guide roller assembly 20, and the leveling guide roller assembly 20 is disposed at one side of the frame 6.

The leveling guide roller assembly is used for extruding and leveling the whole pearl cotton 102 fabric before the aluminum film 101 is sprayed with pigment.

As shown in the attached fig. 2, 5 and 6, the pearl wool fabric further comprises a first steel roller 12 and a second steel roller 13, wherein a plurality of ring grooves 1201 are formed in the roller surface of the first steel roller, a rubber cylinder is sleeved on the second steel roller 13, the first steel roller 12 and the second steel roller 13 are both rotatably arranged, the first steel roller 12 and the second steel roller are parallel, and the distance between the first steel roller 12 and the rubber cylinder is smaller than the thickness of the pearl wool 102 fabric.

Set up first steel roller 12 and second steel roller 13, first steel roller 12 keeps parallel with second steel roller 13, a plurality of rings of ring grooves 1201 have been seted up on the roll surface of first steel roller, the cover is equipped with the rubber tube on the second steel roller 13, it is wrong the turning round so as to extrude cotton 102 aluminium membrane 101 of pearl after the spraying, ensure that the pattern after the spraying has good three-dimensional stereovision, the in-process of first steel roller 12 and second steel roller 13 extrusion cotton 102 aluminium membrane 101 of pearl has also played extrusion compliance effect to cotton 102 aluminium membrane 101 of pearl in other words simultaneously, it is more convenient when making the bagging-off to make whole cotton 102 aluminium membrane 101 of pearl.

As shown in fig. 2, 3, 4 and 5, the device further comprises a brush plate and a brush holder 4, wherein the brush holder 4 is arranged between the transfer guide roller assembly 3 and the frame 6, and the brush plate is arranged on the brush holder 4.

Since the aluminum film 101 is required to be painted with the paint, the brush holder 4 and the brush plate are provided, and the aluminum film 101 is scraped by the brush plate to scrape off the foreign matter attached to the aluminum film 101, thereby ensuring that the aluminum film 101 does not have the foreign matter when the pattern is printed.

As shown in the accompanying drawings, the brush plate includes a first brush plate 10 and a second brush plate 11, the first brush plate is a rigid brush plate, the second brush plate is a flexible brush plate, the first brush plate is parallel to the second brush plate, and the first brush plate is provided with a pointed cone-shaped brush head, and the second brush plate is provided with an arc-shaped brush head.

The first brush plate is a rigid brush plate, the second brush plate is a flexible brush plate, the EPE 102 aluminum film 101 is firstly contacted with the rigid brush plate and then contacted with the flexible brush plate, the rigid brush plate scrapes off viscous garbage adhered on the aluminum film 101 through self-pointed conical attachments, and the flexible brush plate is used for sweeping off part of the garbage adhered on the aluminum film 101

As shown in fig. 2 and 4, the toothbrush further comprises an absorption tube 5, the absorption tube 5 is disposed on one side of the brush plate, and a through hole is formed in a tube wall of the absorption tube 5.

The specific absorption tube 5 is connected with an air pump, the air pump continuously vacuumizes the absorption tube 5, the absorption tube 5 is used for sucking air, and particles scraped by the scraper are sucked into the absorption tube 5 through the self air suction effect.

In summary, the rigid printing plate, the flexible printing plate and the absorption tube 5 are used in combination, so that impurities do not exist on the aluminum film 101 before the spray printing, and the quality of the pattern after the spray printing is ensured. The rigid brush plate is an iron brush plate, and the flexible brush plate is a plastic brush plate.

As shown in fig. 2, it further comprises a rotating frame 2, and the rotating frame 2 is disposed on one side of the transfer guide roller assembly 3.

The rotating frame 2 is used for placing the reel-shaped pearl cotton aluminum film 1.

As shown in fig. 6 and 7, the device further comprises a guide-off roller 15, and the guide-off roller 15 is rotatably arranged on one side of the main round roller 16.

The guide roller 15 is used for guiding and stacking the cut pearl cotton 102 aluminum film 101 pieces.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, which is defined by the claims, and all the modifications and equivalents of the claims, which can be directly or indirectly applied to other related fields, are also included in the scope of the present invention.

Claims (10)

1. A cutting and stacking mechanism for a pearl cotton heat-insulation fabric comprises a transmission guide roller assembly, and is characterized by further comprising a main round roller and an extrusion blade, wherein the main round roller is rotatably arranged and located on one side of the transmission guide roller assembly, the extrusion blade is arranged on one side of the main round roller through a spring and a support, the cutting edge of the extrusion blade is arc-shaped and clings to the roller surface of the main round roller, pointed cone protruding strips are arranged on the roller surface of the main round roller and are parallel to the extrusion blade, and a power line is connected to the extrusion blade; the pearl cotton aluminum film passes through the space between the main round roller and the cutting edge of the extrusion blade, the extrusion blade is made of copper, after current is conducted, the extrusion blade is in a heating state, the temperature of the cutting edge of the extrusion blade is controlled at 105 ℃ through regulating the current, the cutting edge of the extrusion blade is contacted with the aluminum film, the main round roller is contacted with the pearl cotton, when the pearl cotton extruding machine works, the main round roller rotates to drive the pearl cotton aluminum film to continuously pass through the space between the main round roller and the cutting edge of the extrusion cutter head, when the main round roller rotates until the pointed cone protruding strip is contacted with the pearl cotton, the pointed cone protruding strip can pin off a part of the pearl cotton, when the pointed cone protruding strip is aligned with the cutting edge of the extrusion blade, the aluminum film is cut off, so that the aluminum film has a part of length relative to the pearl cotton, the aluminum film with the part of the length which is excessive length is tightly pressed with the pearl cotton under the action of the cutting edge of the extrusion blade, and the pearl cotton can be softened by the cutting edge of the extrusion blade, the aluminum film and the pearl cotton are bonded together, and no naked pearl cotton exists at the cut part.

2. The cutting and stacking mechanism for the pearl wool thermal insulation fabric as claimed in claim 1, wherein the bracket is fixedly arranged at one side of the main round roller, the extrusion blade is arranged on the bracket through a spring and a bolt assembly, the bolt assembly is made of an insulating material, and the spring is not in contact with the extrusion blade.

3. The cutting and stacking mechanism for pearl wool thermal insulation fabric according to claim 1, further comprising a frame, a plurality of lead screw guide rails, an ink jet head and air ducts, wherein the plurality of sets of transfer guide roller assemblies are arranged, the frame is arranged between the two sets of transfer guide roller assemblies, the lead screw guide rail assemblies are movably arranged on the frame, the ink jet head and the air ducts are respectively arranged on the lead screw guide rail assemblies, and the ink jet head and the air ducts are respectively arranged at two sides of the pearl wool fabric.

4. The pearl wool thermal insulation fabric cutting and stacking mechanism as claimed in claim 3, further comprising a leveling guide roller assembly, wherein the leveling guide roller assembly is arranged on one side of the frame.

5. The cutting and stacking mechanism for the pearl cotton thermal insulation fabric according to claim 3, further comprising a first steel roller and a second steel roller, wherein a plurality of ring grooves are formed in the surface of the first steel roller, a rubber cylinder is sleeved on the second steel roller, the first steel roller and the second steel roller are rotatably arranged, the first steel roller and the second steel roller are kept parallel, and the distance between the first steel roller and the rubber cylinder is smaller than the thickness of the pearl cotton fabric.

6. The cutting and stacking mechanism for pearl wool thermal insulation fabric as claimed in claim 3, further comprising a brush plate and a brush holder, wherein the brush holder is arranged between the transfer guide roller assembly and the frame, and the brush plate is arranged on the brush holder.

7. The cutting and stacking mechanism for pearl wool thermal insulation fabric as claimed in claim 6, wherein the brush plate comprises a first brush plate and a second brush plate, the first brush plate is a rigid brush plate, the second brush plate is a flexible brush plate, the first brush plate is parallel to the second brush plate, the first brush plate is provided with a pointed cone-shaped brush head, and the second brush plate is provided with a circular arc-shaped brush head.

8. The cutting and stacking mechanism for pearl wool thermal insulation fabric as claimed in claim 3, further comprising an absorption tube, wherein the absorption tube is arranged at one side of the brush plate, and a through hole is arranged on the wall of the absorption tube.

9. The cutting and stacking mechanism for the pearl wool thermal insulation fabric as claimed in claim 1, further comprising a rotating frame, wherein the rotating frame is arranged on one side of the transfer guide roller assembly.

10. The cutting and stacking mechanism for the pearl wool heat-preservation fabric as claimed in claim 1, further comprising a guide-off roller, wherein the guide-off roller is rotatably arranged on one side of the main round roller.

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