CN116676804B - Paper machine with multi-cylinder decorative paper for fourdrinier wire - Google Patents

Abstract

The invention discloses a fourdrinier multi-cylinder decorative paper making machine which is applied to the technical field of paper making, and the fourdrinier multi-cylinder decorative paper making machine body and a shaping mechanism are arranged, wherein the fourdrinier multi-cylinder decorative paper making machine body is a processing structure of the existing fourdrinier multi-cylinder decorative paper making machine, paper pulp can be processed, shaped, extruded and dried, a supporting component can support and limit a leveling component, a guiding component, a cooling component, a heat dissipation component and a winding mechanism, cooling liquid can be externally connected with a cooling liquid conveying device, the cooling liquid can be conveyed into the leveling component, the leveling component can level and shape decorative paper wound by the winding mechanism, the guiding component can guide cooling liquid conveyed by the supporting component into the leveling component, the leveling component can be supported and reinforced, the cooling component can further cool the cooling liquid in the leveling component, and the efficiency of the leveling component on shaping paper can be increased.

Description

Paper machine with multi-cylinder decorative paper for fourdrinier wire

Technical Field

The invention belongs to the technical field of papermaking, and particularly relates to a fourdrinier multi-cylinder decorative paper papermaking machine.

Background

The multi-cylinder fourdrinier paper machine has a belt-type forming section consisting of endless wire, a wet section (including headbox, former, press section) and a dry section (drying, calendering, reeling) for the production of processed paper, decor paper, etc.

Currently, the publication number is: the utility model of CN103669097B in China discloses a fourdrinier multi-cylinder paper machine for producing high-filler paper, the whole length of the fourdrinier multi-cylinder paper machine is increased by 8-25 m relative to the whole length of a traditional fourdrinier multi-cylinder paper machine with the same width and speed, the length of a net part is increased by 4-6 m relative to the traditional length, a front drying system part is increased by 5-15m relative to the traditional length, and the length of a rear drying system part is increased by 1-1.5m relative to the traditional length; the corresponding structure is changed, solves the problem that the traditional paper machine can not manufacture high-filler paper pulp into cultural paper meeting the standard, and has the advantages of long dehydration time, high dehydration efficiency, good dehydration quality, low investment, good drying effect and high quality of finished paper.

The existing fourdrinier multi-cylinder decorative paper papermaking machine has the following defects in use:

The lack of the winding paper shaping structure can lead to the paper falling off from the winding structure when not blocked by external force, which is inconvenient for the paper midway transportation.

Disclosure of Invention

The invention aims at the existing fourdrinier multi-cylinder decorative paper making machine, and has the advantages that:

The winding paper shaping structure is possessed, so that paper cannot fall off from the winding structure when not blocked by external force, and the paper is convenient to transport halfway.

The technical aim of the invention is realized by the following technical scheme: the utility model provides a fourdrinier wire multi-cylinder decorative paper machine, includes fourdrinier wire multi-cylinder decorative paper machine body, mould type mechanism and winding mechanism, mould type mechanism bolt in the rear side of fourdrinier wire multi-cylinder decorative paper machine body, winding mechanism swing joint is in mould type mechanism's inboard, mould type mechanism includes supporting component, flattening subassembly, guide assembly, cooling subassembly and heat dissipation subassembly, flattening subassembly rotates the inboard of connecting at supporting component, the guide assembly is bolted on two sides of the leveling assembly, the cooling assembly is bolted on the inner side of the guide assembly during conveying, the heat dissipation assembly is communicated on the right side of the cooling assembly, the winding mechanism comprises a drainage assembly, a heating assembly, a conveying assembly and an easy assembly, the drainage assembly is bolted on the right side of the supporting assembly, the heating assembly is bolted on the right side of the drainage assembly, the conveying assembly is bolted on the inner side of the supporting assembly, and the easy assembly is rotationally connected on the inner side of the supporting assembly.

By adopting the technical scheme, the long-net multi-cylinder decorative paper papermaking machine body is provided with the shaping mechanism and the winding mechanism, the long-net multi-cylinder decorative paper papermaking machine body is of a processing structure of the existing long-net multi-cylinder decorative paper papermaking machine, paper pulp can be processed, shaped, extruded and dried, the shaping mechanism can carry out shaping treatment on the wound paper, and the winding mechanism can carry out winding collection on the paper.

The invention is further provided with: the support assembly comprises a support base, a valve vertical plate and a servo motor, wherein the valve vertical plate is bolted to two sides of the top of the support base, and the servo motor is bolted to the top of the left side of the valve vertical plate.

By adopting the technical scheme, through setting up supporting component, the supporting base can support and spacing the valve riser, and be connected with the multi-cylinder decorative paper machine body of long mesh, stability when having increased the multi-cylinder decorative paper machine body of long mesh and being connected with the shaping mechanism, the valve riser can support and spacing servo motor and winding mechanism, servo motor can be after the circular telegram and start, with the electric energy standardization for rotatory mechanical energy, again with rotatory mechanical energy transfer for winding mechanism, be convenient for winding mechanism collects decorative paper, and the valve riser is from the business turn over liquid valve of providing, can external coolant conveying equipment, carry the coolant liquid to the flattening subassembly in.

The invention is further provided with: the leveling assembly comprises a liquid storage barrel, a supporting barrel and a rotating barrel, wherein the supporting barrel is rotationally connected to the inner side of the valve vertical plate, the liquid storage barrel is bolted to the inner wall of the supporting inner barrel, and the rotating barrel is rotationally connected to the surface of the supporting barrel.

Adopt above-mentioned technical scheme, through setting up the flattening subassembly, the liquid storage section of thick bamboo can store the coolant liquid, and the support section of thick bamboo can support and spacing liquid storage section of thick bamboo and rotatory section of thick bamboo, and rotatory section of thick bamboo can rotate along with the removal of paper at the surface of support section of thick bamboo to flatten the processing to the paper.

The invention is further provided with: the guide assembly comprises a connecting disc, liquid feeding holes and stabilizing rings, wherein the connecting disc is bolted on two sides of the liquid storage barrel, the liquid feeding holes are formed in the top and the bottom of two sides of the connecting disc, and the stabilizing rings are rotationally connected on two sides of the inner side of the connecting disc.

Adopt above-mentioned technical scheme, through setting up guide assembly, the connection pad can support and consolidate by the flattening subassembly, and the liquid feed hole can be convenient for the valve riser carry the liquid storage section of thick bamboo with the coolant liquid in, and the liquid storage section of thick bamboo of being convenient for is passed the rotatory section of thick bamboo surface with low temperature and is cooled down the design to the paper, and the stabilizer ring can support and consolidate cooling assembly.

The invention is further provided with: the cooling assembly comprises a gas-guiding pipe, cooling fins and a drainage groove, wherein the gas-guiding pipe is bolted to the inner side of the stabilizing ring, the cooling fins are bolted to the inner side of the gas-guiding pipe, and the drainage groove is formed in the inner side of the cooling assembly.

Adopt above-mentioned technical scheme, through setting up the cooling subassembly, the induced air pipe can guide the cooling gas that the radiator unit carried to can be connected with liquid collecting device, the fin can increase the area with cooling gas contact, improves the induced air pipe to the efficiency of coolant liquid cooling, and the drainage groove can drain the liquid of the accumulation of condensation water droplet in the cooling air, with liquid drainage to external liquid collecting device, is convenient for with liquid recycle.

The invention is further provided with: the cooling assembly comprises a cooling fan, a liquid extracting pump and an atomizing spray pipe, wherein the cooling fan is bolted to the right side of the valve vertical plate, the atomizing spray pipe is bolted to the front side of the cooling fan, and the liquid extracting pump is communicated to the front side of the atomizing spray pipe.

By adopting the technical scheme, through setting up the radiating component, cooling fan can be after the circular telegram and start, carries atomizing spray tube department with external air, and the drawing liquid pump can external liquid conveying equipment to in carrying the atomizing spray tube with the liquid in the liquid conveying equipment, the atomizing spray tube can spray the back with liquid atomizing, and in entering the bleed air pipe along with the air of flowing and carry out cooling treatment to the bleed air pipe.

The invention is further provided with: the drainage assembly comprises a gas storage box, a rotating ring and a gas transmission hole, wherein the gas storage box is bolted to the top of the right side of the valve vertical plate, the rotating ring is rotationally connected to the left side of the inner side of the gas storage box, and the gas transmission hole is formed in the left side of the gas storage box.

By adopting the technical scheme, through setting up drainage subassembly, the gas storage box can temporarily store the warm air that the subassembly was carried to with warm air guide to the gas-supply downthehole and swivel becket department, swivel becket can be convenient for easy type subassembly rotate, and the gas-supply downthehole can carry warm air to carry in the conveying subassembly.

The invention is further provided with: the heating assembly comprises a heater, a heat conducting ring and an air supply fan, wherein the heater is bolted to the right side of the air storage box, the heat conducting ring is bolted to the bottom of the heater, the surface of the heat conducting ring is in contact with the inner side of the air storage box, the air supply fan is bolted to the right side of the air storage box, and the left side of the air supply fan is in contact with the right side of the heat conducting ring.

By adopting the technical scheme, through setting up the heating assembly, the heater can be after the circular telegram and start, with electric energy conversion heat energy to with heat energy transfer for the heat-conducting ring, the heat-conducting ring can be with in the air near the heat energy transfer, the fan of supplying air can be after circular telegram and start, with external air pumping to heat-conducting ring department, in the hot air of heat-conducting ring department carries interior gas storage box again.

The invention is further provided with: the conveying assembly comprises a limiting disc, a heat flow hole and an auxiliary swivel, wherein the limiting disc is bolted to the top of the inner side of the valve vertical plate, the heat flow hole is formed in the surface of the limiting disc and is communicated with the gas transmission hole, and the auxiliary swivel is rotationally connected to the inner side of the limiting disc.

By adopting the technical scheme, through setting up conveying component, spacing dish can carry out spacingly to the decorative paper of easy type subassembly rolling, increases the stability of collecting decorative paper, and the hot-flow hole can be convenient for the gas storage box to carry the surface of decorative paper with hot air to heat decorative paper and soften, be convenient for the device mould the type after meeting cold, auxiliary swivel can be convenient for easy type subassembly rotate.

The invention is further provided with: the easy type subassembly includes winding tube, main swivel and heat extraction hole, the right side and the gas storage box intercommunication of winding tube, the left side of winding tube and servo motor's output bolt, main swivel rotates the both sides of connecting at the winding tube, the surface of main swivel is rotated with the inboard of supplementary swivel and is connected, the surface at the winding tube is seted up to the heat extraction hole.

By adopting the technical scheme, through setting up easy type subassembly, the winding pipe can rotate along with servo motor, is convenient for carry out the rolling to the decorative paper of accomplishing the processing, and main swivel can rotate along with swivel ring and supplementary swivel, and the winding pipe of being convenient for rotates, and the warm air in the gas storage box can be carried to the decorative paper department on winding pipe surface to the heat release hole, is convenient for carry out further heating and softening to decorative paper.

In summary, the invention has the following beneficial effects:

1. the long-mesh multi-cylinder decorative paper papermaking machine body and the shaping mechanism are arranged, the long-mesh multi-cylinder decorative paper papermaking machine body is of a processing structure of an existing long-mesh multi-cylinder decorative paper papermaking machine, paper pulp can be processed, shaped, extruded and dried, the supporting component can support and limit the leveling component, the guiding component, the cooling component, the radiating component and the winding mechanism, cooling liquid conveying equipment can be externally connected to convey cooling liquid into the leveling component, the leveling component can level and shape decorative paper wound by the winding mechanism, the guiding component can guide the cooling liquid conveyed by the supporting component into the leveling component and support and strengthen the leveling component, the cooling component can further cool the cooling liquid in the leveling component, the efficiency of the leveling component in shaping paper is increased, the radiating component can cool the cooling component, the cooling efficiency of the leveling component is increased, the shaping treatment of the rolled paper can be carried out, and the stability of the paper in transportation is increased;

2. Through setting up winding mechanism, the drainage subassembly can guide the hot air that the heating up subassembly was carried, carry the hot air to in the transport subassembly, the heating up subassembly can be with external air heating and pump to in the drainage subassembly, transport subassembly can carry the decorative paper surface of easy type subassembly rolling with the hot air, carry out heating treatment to decorative paper, be convenient for let paper after the heating and easy type subassembly contact, be moulded because of expend with heat and contract with cold, easy type subassembly can carry out the rolling with decorative paper and heat treatment, make decorative paper be convenient for meet cold mould because of the heat, decorative paper after moulding will with easy type subassembly in close contact, be difficult to take place secondary deformation, the stability to the decorative paper rolling has been increased.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the molding mechanism of the present invention;

FIG. 3 is a schematic view of the support assembly structure of the present invention;

FIG. 4 is a schematic view of the construction of the flattening and guiding assembly of the present invention;

FIG. 5 is a schematic view of a cooling assembly according to the present invention;

FIG. 6 is a schematic view of a heat dissipating assembly according to the present invention;

FIG. 7 is a schematic view of a winding mechanism of the present invention;

FIG. 8 is a schematic view of the drainage assembly of the present invention;

FIG. 9 is a schematic view of the temperature raising assembly of the present invention;

FIG. 10 is a schematic view of the transport assembly of the present invention;

FIG. 11 is a schematic illustration of the structure of the easy-to-use assembly of the present invention.

Reference numerals: 1. a fourdrinier multi-cylinder decorative paper machine body; 2. a shaping mechanism; 201. a support assembly; 2011. a support base; 2012. a valve vertical plate; 2013. a servo motor; 202. leveling the assembly; 2021. a liquid storage cylinder; 2022. a support cylinder; 2023. a rotary drum; 203. a guide assembly; 2031. a connecting disc; 2032. a liquid feeding hole; 2033. a stabilizing ring; 204. a cooling component; 2041. an air-introducing pipe; 2042. a heat sink; 2043. drainage grooves; 205. a heat dissipation assembly; 2051. a cooling fan; 2052. a liquid pump; 2053. an atomizing spray pipe; 3. a winding mechanism; 301. a drainage assembly; 3011. a gas storage box; 3012. a rotating ring; 3013. a gas delivery hole; 302. a temperature raising component; 3021. a heater; 3022. a heat conducting ring; 3023. an air supply fan; 303. a transport assembly; 3031. a limiting disc; 3032. a heat flow aperture; 3033. an auxiliary swivel; 304. an easy-to-mold assembly; 3041. a winding pipe; 3042. a main swivel; 3043. and a heat discharging hole.

Detailed Description

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

Example 1:

Referring to fig. 1-6, a fourdrinier multi-cylinder decorative paper making machine comprises a fourdrinier multi-cylinder decorative paper making machine body 1, a shaping mechanism 2, wherein the shaping mechanism 2 is bolted on the rear side of the fourdrinier multi-cylinder decorative paper making machine body 1, a winding mechanism 3 is movably connected on the inner side of the shaping mechanism 2, the shaping mechanism 2 comprises a supporting component 201, a leveling component 202, a guiding component 203, a cooling component 204 and a heat dissipation component 205, the leveling component 202 is rotatably connected on the inner side of the supporting component 201, the guiding component 203 is bolted on two sides of the leveling component 202, the cooling component 204 is bolted on the inner side of the guiding component 203 during conveying, the heat dissipation component 205 is communicated on the right side of the cooling component 204, and the fourdrinier multi-cylinder decorative paper making machine body 1 and the shaping mechanism 2 are arranged, the fourdrinier multi-cylinder decorative paper making machine body 1 is the processing structure of the existing fourdrinier multi-cylinder decorative paper making machine, the paper pulp can be processed, molded, extruded and dried, the supporting component 201 can support and limit the leveling component 202, the guiding component 203, the cooling component 204, the heat dissipation component 205 and the winding mechanism 3, and can be externally connected with a cooling liquid conveying device to convey cooling liquid into the leveling component 202, the leveling component 202 can level and mold the decorative paper wound by the winding mechanism 3, the guiding component 203 can guide the cooling liquid conveyed by the supporting component 201 into the leveling component 202 and support and strengthen the leveling component 202, the cooling component 204 can further cool the cooling liquid in the leveling component 202, the efficiency of the leveling component 202 for molding paper is increased, the heat dissipation component 205 can cool the cooling component 204, the cooling efficiency of the cooling component 204 for cooling the leveling component 202 is increased, thus molding the rolled paper, the stability of the paper during transportation is increased.

As shown in fig. 3, the supporting component 201 includes a supporting base 2011, a valve riser 2012 and a servo motor 2013, the valve riser 2012 is bolted on two sides of the top of the supporting base 2011, the servo motor 2013 is bolted on the top of the left side of the valve riser 2012, by setting the supporting component 201, the supporting base 2011 can support and limit the valve riser 2012 and is connected with the long-net multi-cylinder decorative paper making machine body 1, stability of the long-net multi-cylinder decorative paper making machine body 1 when being connected with the molding mechanism 2 is increased, the valve riser 2012 can support and limit the servo motor 2013 and the winding mechanism 3, the servo motor 2013 can calibrate electric energy into rotary mechanical energy after being electrified and started, then transmit the rotary mechanical energy to the winding mechanism 3, so that the winding mechanism 3 collects decorative paper, and the valve riser 2012 is provided with a liquid inlet and outlet valve, and a cooling liquid conveying device can be externally connected to the leveling component 202.

As shown in fig. 4, the leveling component 202 includes a liquid storage barrel 2021, a supporting barrel 2022 and a rotating barrel 2023, the supporting barrel 2022 is rotatably connected to the inner side of the valve vertical plate 2012, the liquid storage barrel 2021 is bolted to the inner wall of the supporting barrel, the rotating barrel 2023 is rotatably connected to the surface of the supporting barrel 2022, by setting the leveling component 202, the liquid storage barrel 2021 can store cooling liquid, the supporting barrel 2022 can support and limit the liquid storage barrel 2021 and the rotating barrel 2023, and the rotating barrel 2023 can rotate along with the movement of paper on the surface of the supporting barrel 2022 and flatten the paper.

As shown in fig. 4, the guiding assembly 203 includes a connection disc 2031, a liquid feeding hole 2032 and a stabilizing ring 2033, the connection disc 2031 is bolted to two sides of the liquid storage cylinder 2021, the liquid feeding hole 2032 is opened at the top and the bottom of two sides of the connection disc 2031, the stabilizing ring 2033 is rotatably connected to two sides of the inner side of the connection disc 2031, the liquid feeding hole 2032 is communicated with the valve riser 2012 by the guiding assembly 203, the connection disc 2031 can support and strengthen the leveling assembly 202, the liquid feeding hole 2032 can facilitate the valve riser 2012 to convey cooling liquid into the liquid storage cylinder 2021, the liquid storage cylinder 2021 is convenient to transfer low temperature to the surface of the rotary cylinder 2023 to cool and fix the paper, and the stabilizing ring 2033 can support and strengthen the cooling assembly 204.

As shown in fig. 5, the cooling component 204 includes a bleed air pipe 2041, a heat sink 2042 and a drainage groove 2043, the bleed air pipe 2041 is bolted to the inner side of the stabilizing ring 2033, the heat sink 2042 is bolted to the inner side of the bleed air pipe 2041, the drainage groove 2043 is opened at the inner side of the cooling component 204, the bleed air pipe 2041 can guide cooling gas conveyed by the heat sink component 205 and can be connected with a liquid collecting device, the area of the heat sink 2042 in contact with the cooling gas can be increased, the cooling efficiency of the cooling liquid by the bleed air pipe 2041 is improved, the drainage groove 2043 can drain liquid accumulated by condensed water drops in the cooling air, and the liquid is drained to the external liquid collecting device, so that the liquid can be recycled.

As shown in fig. 6, the heat dissipation assembly 205 includes a cooling fan 2051, a liquid pump 2052 and an atomizing nozzle 2053, the cooling fan 2051 is bolted to the right side of the valve riser 2012, the atomizing nozzle 2053 is bolted to the front side of the cooling fan 2051, the liquid pump 2052 is connected to the front side of the atomizing nozzle 2053, by setting the heat dissipation assembly 205, the cooling fan 2051 can deliver external air to the atomizing nozzle 2053 after being electrified and started, the liquid pump 2052 can be externally connected with a liquid delivery device and deliver liquid in the liquid delivery device into the atomizing nozzle 2053, the atomizing nozzle 2053 can spray the liquid after atomizing, and the air-entraining tube 2041 is cooled as the flowing air enters the air-entraining tube 2041.

The use process is briefly described: firstly, the long mesh multi-cylinder decorative paper making machine body 1 and the molding mechanism 2 are electrified and started, the long mesh multi-cylinder decorative paper making machine body 1 can process, mold, extrude and dry paper pulp, the paper is conveyed into the winding mechanism 3 to be collected, the cooling liquid conveying equipment is externally connected to the valve riser 2012, the cooling liquid conveying equipment is externally connected to the liquid pumping pump 2052, the servo motor 2013 drives the winding mechanism 3 to rotate and wind the decorative paper, the valve riser 2012 pumps cooling liquid to the position of the liquid feeding hole 2032, the liquid feeding hole 2032 guides the cooling liquid into the liquid storage cylinder 2021 until the liquid storage cylinder 2021 is filled with the cooling liquid, the cooling liquid is transmitted to the rotary cylinder 2023 at low temperature, the rotary cylinder 2023 rotates along with the winding of the decorative paper, the decorative paper is flattened, the liquid pumping pump 2052 pumps the cooling liquid into the atomizing nozzle 2053, the atomized cooling liquid is sprayed out after the cooling liquid, the atomized cooling liquid enters the air guiding pipe 2032 along with the air guiding pipe 2032, and the cooling liquid guiding pipe 2041 is cooled until the cooling sheet 2041 is cooled down, and the cooling sheet 2041 is cooled down.

Example 2:

Referring to fig. 7-11, a long-mesh multi-cylinder decorative paper making machine comprises a winding mechanism 3, wherein a molding mechanism 2 is bolted to the rear side of a long-mesh multi-cylinder decorative paper making machine body 1, the winding mechanism 3 is movably connected to the inner side of the molding mechanism 2, the winding mechanism 3 comprises a drainage component 301, a heating component 302, a conveying component 303 and a shaping component 304, the drainage component 301 is bolted to the right side of a supporting component 201, the heating component 302 is bolted to the right side of the drainage component 301, the conveying component 303 is bolted to the inner side of the supporting component 201, an shaping component 304 is rotatably connected to the inner side of the supporting component 201, the hot air conveyed by the heating component 302 can be guided by the winding mechanism 3, the hot air can be conveyed into the conveying component 303, the hot air can be heated and pumped into the drainage component 301, the conveying component 303 can convey the hot air to the surface of decorative paper of the shaping component 304, the heated paper is conveniently contacted with the shaping component 304, the shaping component 304 is easily heated, the heated paper is easily shaped, the shaping component 304 is easily swelled, the shaping component 304 is easily heated, the shaping component 304 is easily deforms and the decorative paper is easily deformed due to the fact that the shaping component is closely contacted with the shaping component, the shaping component is closely deformed due to the shaping and the shaping component is difficult to the shaping and the shaping paper, the shaping component is deformed due to the shaping and the shaping.

As shown in fig. 8, the drainage assembly 301 includes a gas storage box 3011, a rotating ring 3012 and a gas transmission hole 3013, the gas storage box 3011 is bolted on the top of the right side of the valve riser 2012, the rotating ring 3012 is rotatably connected to the left side of the inner side of the gas storage box 3011, the gas transmission hole 3013 is formed on the left side of the gas storage box 3011, by setting the drainage assembly 301, the gas storage box 3011 can temporarily store warm air conveyed by the heating assembly 302, and guide the warm air into the gas transmission hole 3013 and at the rotating ring 3012, the rotating ring 3012 can facilitate the rotation of the easy-type assembly 304, and the gas transmission hole 3013 can convey the warm air into the conveying assembly 303.

As shown in fig. 9, the temperature increasing assembly 302 includes a heater 3021, a heat conducting ring 3022 and an air feeding fan 3023, the heater 3021 is bolted to the right side of the air storage box 3011, the heat conducting ring 3022 is bolted to the bottom of the heater 3021, the surface of the heat conducting ring 3022 is in contact with the inner side of the air storage box 3011, the air feeding fan 3023 is bolted to the right side of the air storage box 3011, the left side of the air feeding fan 3023 is in contact with the right side of the heat conducting ring 3022, by providing the temperature increasing assembly 302, the heater 3021 can convert electric energy into heat energy after being electrified and started, and transfer the heat energy to the heat conducting ring 3022, the heat conducting ring 3022 can transfer the heat energy into the nearby air, the air feeding fan 3023 can draw the outside air to the heat conducting ring 3022 after being electrified and start, and then the hot air at the heat conducting ring 3022 is transferred into the inner air storage box 3011.

As shown in fig. 10, the conveying component 303 includes a limiting plate 3031, a heat flow hole 3032 and an auxiliary rotating ring 3033, the limiting plate 3031 is bolted to the top of the inner side of the valve vertical plate 2012, the heat flow hole 3032 is formed on the surface of the limiting plate 3031, the heat flow hole 3032 is communicated with the air conveying hole 3013, the auxiliary rotating ring 3033 is rotationally connected to the inner side of the limiting plate 3031, the limiting plate 3031 can limit decorating paper wound by the easy-type component 304 by arranging the conveying component 303, the stability of collecting the decorating paper is improved, the heat flow hole 3032 can facilitate the hot air to be conveyed to the surface of the decorating paper by the air storage box 3011, thereby heating and softening the decorating paper, facilitating molding after cooling, and the auxiliary rotating ring 3033 can facilitate the rotation of the easy-type component 304.

As shown in fig. 11, the easy-type component 304 includes a winding tube 3041, a main rotating ring 3042 and a heat exhausting hole 3043, the right side of the winding tube 3041 is communicated with the air storage box 3011, the left side of the winding tube 3041 is bolted with the output end of the servo motor 2013, the main rotating ring 3042 is rotationally connected to two sides of the winding tube 3041, the surface of the main rotating ring 3042 is rotationally connected with the inner side of the auxiliary rotating ring 3033, the heat exhausting hole 3043 is formed in the surface of the winding tube 3041, the winding tube 3041 can rotate along with the servo motor 2013 to facilitate winding of the finished decorative paper, the main rotating ring 3042 can rotate along with the rotating ring 3012 and the auxiliary rotating ring 3033 to facilitate the rotation of the winding tube 3041, and the heat exhausting hole 3043 can convey warm air in the air storage box 3011 to the decorative paper on the surface of the winding tube 3041 to facilitate further heating and softening of the decorative paper.

The use process is briefly described: firstly, the winding mechanism 3 is electrified and started, the winding pipe 3041 rotates along with the molding mechanism 2 and collects decoration paper, then the air supply fan 3023 pumps outside air to the heat conducting ring 3022, the heater 3021 heats the heat conducting ring 3022, the heat conducting ring 3022 transfers heat to surrounding air, flowing air drives the heat to enter the air storage box 3011, the air storage box 3011 can temporarily store hot air, the hot air is conveyed into the air conveying hole 3013 and the winding pipe 3041, the hot air enters the heat flow hole 3032 along the air conveying hole 3013 and finally is conveyed to the surface of the decoration paper from the heat flow hole 3032 to heat the decoration paper, and the hot air is conveyed to the surface of the decoration paper from the heat exhaust hole 3043 to further heat the decoration paper until the decoration paper contacts with the molding mechanism 2 and completes collection.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims (1)

1. The utility model provides a fourdrinier wire multi-cylinder decorative paper machine, includes fourdrinier wire multi-cylinder decorative paper machine body (1), mould type mechanism (2) and winding mechanism (3), its characterized in that: the shaping mechanism (2) is bolted on the rear side of the long-mesh multi-cylinder decorative paper papermaking machine body (1), the winding mechanism (3) is movably connected on the inner side of the shaping mechanism (2), the shaping mechanism (2) comprises a supporting component (201), a leveling component (202), a guiding component (203), a cooling component (204) and a heat dissipation component (205), the leveling component (202) is rotationally connected on the inner side of the supporting component (201), the guiding component (203) is bolted on two sides of the leveling component (202), the cooling component (204) is bolted on the inner side of the guiding component (203) during conveying, the heat dissipation component (205) is communicated on the right side of the cooling component (204), the winding mechanism (3) comprises a drainage component (301), a heating component (302), a conveying component (303) and a peaceful component (304), the drainage component (301) is bolted on the right side of the supporting component (201), the heating component (302) is bolted on the right side of the supporting component (301), the conveying component (303) is easily bolted on the inner side of the supporting component (201), and the cooling component (201) is rotationally connected on the inner side of the supporting component (201).

The support assembly (201) comprises a support base (2011), a valve riser (2012) and a servo motor (2013), wherein the valve riser (2012) is bolted to two sides of the top of the support base (2011), and the servo motor (2013) is bolted to the top of the left side of the valve riser (2012);

The leveling assembly (202) comprises a liquid storage barrel (2021), a supporting barrel (2022) and a rotating barrel (2023), wherein the supporting barrel (2022) is rotatably connected to the inner side of the valve vertical plate (2012), the liquid storage barrel (2021) is bolted to the inner wall of the supporting barrel, and the rotating barrel (2023) is rotatably connected to the surface of the supporting barrel (2022);

The guide assembly (203) comprises a connecting disc (2031), a liquid feeding hole (2032) and a stabilizing ring (2033), wherein the connecting disc (2031) is bolted on two sides of the liquid storage barrel (2021), the liquid feeding hole (2032) is formed in the top and the bottom of two sides of the connecting disc (2031), the stabilizing ring (2033) is rotationally connected on two sides of the inner side of the connecting disc (2031), and the liquid feeding hole (2032) is communicated with the valve vertical plate (2012);

the cooling component (204) comprises a gas-guiding pipe (2041), cooling fins (2042) and a drainage groove (2043), wherein the gas-guiding pipe (2041) is bolted to the inner side of the stabilizing ring (2033), the cooling fins (2042) are bolted to the inner side of the gas-guiding pipe (2041), and the drainage groove (2043) is formed in the inner side of the cooling component (204);

the heat dissipation assembly (205) comprises a cooling fan (2051), a liquid extraction pump (2052) and an atomizing spray pipe (2053), wherein the cooling fan (2051) is bolted to the right side of a valve riser (2012), the atomizing spray pipe (2053) is bolted to the front side of the cooling fan (2051), and the liquid extraction pump (2052) is communicated to the front side of the atomizing spray pipe (2053);

the drainage assembly (301) comprises a gas storage box (3011), a rotating ring (3012) and a gas transmission hole (3013), wherein the gas storage box (3011) is bolted to the top of the right side of a valve vertical plate (2012), the rotating ring (3012) is rotationally connected to the left side of the inner side of the gas storage box (3011), and the gas transmission hole (3013) is formed in the left side of the gas storage box (3011);

the heating assembly (302) comprises a heater (3021), a heat conducting ring (3022) and an air supply fan (3023), wherein the heater (3021) is bolted to the right side of the air storage box (3011), the heat conducting ring (3022) is bolted to the bottom of the heater (3021), the surface of the heat conducting ring (3022) is in contact with the inner side of the air storage box (3011), the air supply fan (3023) is bolted to the right side of the air storage box (3011), and the left side of the air supply fan (3023) is in contact with the right side of the heat conducting ring (3022);

The conveying assembly (303) comprises a limiting disc (3031), a heat flow hole (3032) and an auxiliary swivel (3033), wherein the limiting disc (3031) is bolted to the top of the inner side of the valve vertical plate (2012), the heat flow hole (3032) is formed in the surface of the limiting disc (3031), the heat flow hole (3032) is communicated with the gas transmission hole (3013), and the auxiliary swivel (3033) is rotationally connected to the inner side of the limiting disc (3031);

The easy-type assembly (304) comprises a winding pipe (3041), a main rotating ring (3042) and heat exhausting holes (3043), wherein the right side of the winding pipe (3041) is communicated with a gas storage box (3011), the left side of the winding pipe (3041) is connected with the output end of a servo motor (2013) in a bolt mode, the main rotating ring (3042) is rotationally connected to two sides of the winding pipe (3041), the surface of the main rotating ring (3042) is rotationally connected with the inner side of an auxiliary rotating ring (3033), and the heat exhausting holes (3043) are formed in the surface of the winding pipe (3041).