CN108297451A - A kind of graphene far-infrared ground heating printing big envelope method - Google Patents
A kind of graphene far-infrared ground heating printing big envelope method Download PDFInfo
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- CN108297451A CN108297451A CN201810084334.XA CN201810084334A CN108297451A CN 108297451 A CN108297451 A CN 108297451A CN 201810084334 A CN201810084334 A CN 201810084334A CN 108297451 A CN108297451 A CN 108297451A
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C69/00—Combinations of shaping techniques not provided for in a single one of main groups B29C39/00 - B29C67/00, e.g. associations of moulding and joining techniques; Apparatus therefore
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C63/00—Lining or sheathing, i.e. applying preformed layers or sheathings of plastics; Apparatus therefor
- B29C63/02—Lining or sheathing, i.e. applying preformed layers or sheathings of plastics; Apparatus therefor using sheet or web-like material
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C65/00—Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
- B29C65/74—Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by welding and severing, or by joining and severing, the severing being performed in the area to be joined, next to the area to be joined, in the joint area or next to the joint area
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M1/00—Inking and printing with a printer's forme
- B41M1/12—Stencil printing; Silk-screen printing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M1/00—Inking and printing with a printer's forme
- B41M1/26—Printing on other surfaces than ordinary paper
- B41M1/30—Printing on other surfaces than ordinary paper on organic plastics, horn or similar materials
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29K—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
- B29K2027/00—Use of polyvinylhalogenides or derivatives thereof as moulding material
- B29K2027/06—PVC, i.e. polyvinylchloride
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29L—INDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
- B29L2031/00—Other particular articles
- B29L2031/18—Heat-exchangers or parts thereof
Abstract
The present invention relates to graphene far-infrared ground heating technical field, especially a kind of graphene far-infrared ground heating prints big envelope method, includes the following steps:Face stock is launched, PCV rolls the printing of film surface layer, PCV rolls the drying of film surface layer, bottom raw material is launched, connect string holes punching, put graphene far-infrared electric diaphragm, welding big envelope semi-finished product head line mouth, welding big envelope semi-finished product both sides long side, welding big envelope semi-finished product head and tail portion, big envelope finished product exports, automatic assembly line technique is used in the present invention, products envelope is more efficient, save human cost, ensure that PCV calendering film surface layers keep synchronizing moving with transport mechanism in encapsulation process, avoid PCV calendering film surface layers in dry process because deforming under the action of heated and external force, ensure products envelope quality, edge-melting technique is separated using side, avoid graphene far-infrared electric diaphragm internal residual bubble during big envelope, the case where expanding.
Description
Technical field
The present invention relates to graphene far-infrared ground heating technical field more particularly to a kind of graphene far-infrared ground heating printing envelopes
Set method.
Background technology
The development of graphene far-infrared ground heating in recent years is increasingly paid attention to, and life of product is long, energy conservation and environmental protection is this
One spotlight of product, graphene far-infrared ground heating print big envelope technique and the appearance of the electrothermal film of band connection line are added one layer
Protective jacket, for protecting graphene far-infrared electric diaphragm to avoid receiving damage, existing graphene far-infrared ground heating printing envelope
Set technique easily occur during production PVC calendered films deformation, and traditional big envelope product in welding using disposably at
The problem of type, product easily expands, thus it is proposed that a kind of graphene far-infrared ground heating prints big envelope method.
Invention content
The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of graphene far infrared proposed
Warm printing big envelope method.
To achieve the goals above, present invention employs following technical solutions:
A kind of graphene far-infrared ground heating printing big envelope method is designed, is included the following steps:
S1:Face stock is launched, and PCV calendering film surface layer coiled materials, which are fixed on first, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film surface layer coiled material is 1040mm thickness 280um;
S2:PCV rolls the printing of film surface layer, and the PCV calendering film surface layer coiled materials on the first discharge mechanism are connected through knock-out mechanism
To the transport mechanism surface of printing machine, printing machine is screen type continuous printing, halftone pattern designed, designed, and space of a whole page size is
400mm × 400mm, two spaces of a whole page are arranged side by side, gap 100mm between the space of a whole page, are also 100mm with next space of a whole page gap arranged side by side;
S3:PCV rolls the drying of film surface layer, and the communicated mechanism of PCV calendering film surface layers after printing is sent to drying mechanism
It is dried, drying mechanism includes drying box drying and wind turbine air-dries two ways, and the temperature of drying box is 60-80 DEG C, drying
The speed of service of transfer structure within the organization is 6-10 meters/min, and the wind speed of wind turbine is that 800-1400 turns/min, the quantity of wind turbine
It is 10-16;
S4:Bottom raw material is launched, and PCV calendering film bottom coiled materials, which are fixed on second, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film bottom coiled material is 1040mm thickness 280um, the PCV pressures on the second discharge mechanism
Prolong film bottom coiled material and be connected to transport mechanism surface through knock-out mechanism, PCV rolls film bottom and is in same with PCV calendering film surface layers
In vertical direction, and between the transport mechanism residing for PCV calendering film bottoms and the transport mechanism presence residing for PCV calendering film surface layers
The height of gap, gap is 50-70cm;
S5:String holes punching is connected, is punched into PCV calendered film facing surfaces using punch mechanism remote for placing graphene
The string holes of infrared electric heating diaphragm connecting line, string holes diameter are corresponding with the diameter of connecting line;
S6:Graphene far-infrared electric diaphragm is put, the transport mechanism residing for PCV calendering film bottoms and PCV calendered films
Graphene far-infrared electric diaphragm is put in the gap between transport mechanism residing for the layer of face, graphene far-infrared electric diaphragm is put
It is placed in the upside of PCV calendering film bottoms, positioning device, PCV calendered films are put and be arranged to graphene far-infrared electric diaphragm between two parties
The tail portion of transport mechanism residing for the layer of face is pressed on graphene Far infrared electric by guiding the structure of roll shaft to cover PCV calendering film surface layers
The upside of film and PCV calendering film bottoms forms big envelope semi-finished product, and the connecting line of graphene far-infrared electric diaphragm passes through
PCV roll film surface layer there are string holes on the outside of;
S7:Welding big envelope semi-finished product head line mouth melts the head line mouth of big envelope semi-finished product using high-frequency seal machine
It connects, a length of 20mm of welded edge;
S8:Welding big envelope semi-finished product both sides long side carries out the both sides long side of big envelope semi-finished product using high-frequency seal machine
Welding, a length of 1000mm of welded edge;
S9:The head of big envelope semi-finished product is melted using high-frequency seal machine in welding big envelope semi-finished product head and tail portion
It connects, a length of 1000mm of welded edge, big envelope semi-finished product are under the drive of transport mechanism, the distance of a mobile big envelope semi-finished product length
Afterwards, high-frequency seal machine carries out welding to the tail portion of big envelope semi-finished product again, and a length of 1000mm of welded edge, the tail portion of bonding die is set
There is slicer to carry out trimming to the big envelope semi-finished product after edge-melting to handle to obtain big envelope finished product;
S10:Big envelope finished product exports, and obtained big envelope finished product is transferred to rear end packaging line by automatic pulling-on piece mechanism.
Preferably, in " S3 ", PCV rolls film surface layer in drying mechanism drying course, and PCV rolls the movement of film surface layer
Power provides for transport mechanism, and the movement speed that PCV rolls film surface layer is synchronous with the holding of the speed of service of transport mechanism.
Preferably, the connecting line surface insulation layer of graphene far-infrared electric diaphragm is made of heat-resisting material.
Preferably, in " S3 ", drying mechanism is equipped with ink exhaust gas recovery system.
A kind of graphene far-infrared ground heating proposed by the present invention prints big envelope method, and advantageous effect is:It is adopted in the present invention
With automatic assembly line technique, products envelope is more efficient, saves human cost, ensures that PCV rolls film surface in encapsulation process
Layer keeps synchronizing moving with transport mechanism, avoids PCV calendering film surface layers in dry process because being sent out under the action of heated and external force
Change shape, ensures products envelope quality, separates edge-melting technique using side, avoid graphene far-infrared electric diaphragm in big envelope
Internal residual bubble in the process, the case where expanding.
Specific implementation mode
Below in conjunction with the bright embodiment of this hair, technical solution in the embodiment of the present invention is clearly and completely retouched,
Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.
Embodiment 1
A kind of graphene far-infrared ground heating printing big envelope method, includes the following steps:
S1:Face stock is launched, and PCV calendering film surface layer coiled materials, which are fixed on first, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film surface layer coiled material is 1040mm thickness 280um;
S2:PCV rolls the printing of film surface layer, and the PCV calendering film surface layer coiled materials on the first discharge mechanism are connected through knock-out mechanism
To the transport mechanism surface of printing machine, printing machine is screen type continuous printing, the printing figure that halftone pattern is provided according to buyer
Case designs, and space of a whole page size is 400mm × 400mm, and two spaces of a whole page are arranged side by side, gap 100mm between the space of a whole page, between the next space of a whole page arranged side by side
Gap is also 100mm;
S3:PCV rolls the drying of film surface layer, and the communicated mechanism of PCV calendering film surface layers after printing is sent to drying mechanism
It is dried, drying mechanism includes drying box drying and wind turbine air-dries two ways, and the temperature of drying box is 65 DEG C, drying mechanism
The speed of service of interior transfer structure is 8 meters/min, and the wind speed of wind turbine is 1000 turns/min, and the quantity of wind turbine is 12, PCV pressures
Prolong film surface layer in drying mechanism drying course, the mobile power of PCV calendering film surface layers provides for transport mechanism, PCV calendered films
The movement speed of face layer is synchronous with the holding of the speed of service of transport mechanism, and drying mechanism is equipped with ink exhaust gas recovery system;
S4:Bottom raw material is launched, and PCV calendering film bottom coiled materials, which are fixed on second, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film bottom coiled material is 1040mm thickness 280um, the PCV pressures on the second discharge mechanism
Prolong film bottom coiled material and be connected to transport mechanism surface through knock-out mechanism, PCV rolls film bottom and is in same with PCV calendering film surface layers
In vertical direction, and between the transport mechanism residing for PCV calendering film bottoms and the transport mechanism presence residing for PCV calendering film surface layers
The height of gap, gap is 60cm;
S5:String holes punching is connected, is punched into PCV calendered film facing surfaces using punch mechanism remote for placing graphene
The string holes of infrared electric heating diaphragm connecting line, string holes diameter are corresponding with the diameter of connecting line;
S6:Graphene far-infrared electric diaphragm is put, the transport mechanism residing for PCV calendering film bottoms and PCV calendered films
Graphene far-infrared electric diaphragm is put in the gap between transport mechanism residing for the layer of face, graphene far-infrared electric diaphragm is put
It is placed in the upside of PCV calendering film bottoms, positioning device, PCV calendered films are put and be arranged to graphene far-infrared electric diaphragm between two parties
The tail portion of transport mechanism residing for the layer of face is pressed on graphene Far infrared electric by guiding the structure of roll shaft to cover PCV calendering film surface layers
The upside of film and PCV calendering film bottoms forms big envelope semi-finished product, and the connecting line of graphene far-infrared electric diaphragm passes through
PCV roll film surface layer there are string holes on the outside of, the connecting line surface insulation layer of graphene far-infrared electric diaphragm is high temperature resistant material
Material is made;
S7:Welding big envelope semi-finished product head line mouth melts the head line mouth of big envelope semi-finished product using high-frequency seal machine
It connects, a length of 20mm of welded edge;
S8:Welding big envelope semi-finished product both sides long side carries out the both sides long side of big envelope semi-finished product using high-frequency seal machine
Welding, a length of 1000mm of welded edge;
S9:The head of big envelope semi-finished product is melted using high-frequency seal machine in welding big envelope semi-finished product head and tail portion
It connects, a length of 1000mm of welded edge, big envelope semi-finished product are under the drive of transport mechanism, the distance of a mobile big envelope semi-finished product length
Afterwards, high-frequency seal machine carries out welding to the tail portion of big envelope semi-finished product again, and a length of 1000mm of welded edge, the tail portion of bonding die is set
There is slicer to carry out trimming to the big envelope semi-finished product after edge-melting to handle to obtain big envelope finished product;
S10:Big envelope finished product exports, and obtained big envelope finished product is transferred to rear end packaging line by automatic pulling-on piece mechanism.
Embodiment 2
A kind of graphene far-infrared ground heating printing big envelope method, includes the following steps:
S1:Face stock is launched, and PCV calendering film surface layer coiled materials, which are fixed on first, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film surface layer coiled material is 1040mm thickness 280um;
S2:PCV rolls the printing of film surface layer, and the PCV calendering film surface layer coiled materials on the first discharge mechanism are connected through knock-out mechanism
To the transport mechanism surface of printing machine, printing machine is screen type continuous printing, the printing figure that halftone pattern is provided according to buyer
Case designs, and space of a whole page size is 400mm × 400mm, and two spaces of a whole page are arranged side by side, gap 100mm between the space of a whole page, between the next space of a whole page arranged side by side
Gap is also 100mm;
S3:PCV rolls the drying of film surface layer, and the communicated mechanism of PCV calendering film surface layers after printing is sent to drying mechanism
It is dried, drying mechanism includes drying box drying and wind turbine air-dries two ways, and the temperature of drying box is 75 DEG C, drying mechanism
The speed of service of interior transfer structure is 8 meters/min, and the wind speed of wind turbine is 900 turns/min, and the quantity of wind turbine is 10, PCV pressures
Prolong film surface layer in drying mechanism drying course, the mobile power of PCV calendering film surface layers provides for transport mechanism, PCV calendered films
The movement speed of face layer is synchronous with the holding of the speed of service of transport mechanism, and drying mechanism is equipped with ink exhaust gas recovery system;
S4:Bottom raw material is launched, and PCV calendering film bottom coiled materials, which are fixed on second, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film bottom coiled material is 1040mm thickness 280um, the PCV pressures on the second discharge mechanism
Prolong film bottom coiled material and be connected to transport mechanism surface through knock-out mechanism, PCV rolls film bottom and is in same with PCV calendering film surface layers
In vertical direction, and between the transport mechanism residing for PCV calendering film bottoms and the transport mechanism presence residing for PCV calendering film surface layers
The height of gap, gap is 65cm;
S5:String holes punching is connected, is punched into PCV calendered film facing surfaces using punch mechanism remote for placing graphene
The string holes of infrared electric heating diaphragm connecting line, string holes diameter are corresponding with the diameter of connecting line;
S6:Graphene far-infrared electric diaphragm is put, the transport mechanism residing for PCV calendering film bottoms and PCV calendered films
Graphene far-infrared electric diaphragm is put in the gap between transport mechanism residing for the layer of face, graphene far-infrared electric diaphragm is put
It is placed in the upside of PCV calendering film bottoms, positioning device, PCV calendered films are put and be arranged to graphene far-infrared electric diaphragm between two parties
The tail portion of transport mechanism residing for the layer of face is pressed on graphene Far infrared electric by guiding the structure of roll shaft to cover PCV calendering film surface layers
The upside of film and PCV calendering film bottoms forms big envelope semi-finished product, and the connecting line of graphene far-infrared electric diaphragm passes through
PCV roll film surface layer there are string holes on the outside of, the connecting line surface insulation layer of graphene far-infrared electric diaphragm is high temperature resistant material
Material is made;
S7:Welding big envelope semi-finished product head line mouth melts the head line mouth of big envelope semi-finished product using high-frequency seal machine
It connects, a length of 20mm of welded edge;
S8:Welding big envelope semi-finished product both sides long side carries out the both sides long side of big envelope semi-finished product using high-frequency seal machine
Welding, a length of 1000mm of welded edge;
S9:The head of big envelope semi-finished product is melted using high-frequency seal machine in welding big envelope semi-finished product head and tail portion
It connects, a length of 1000mm of welded edge, big envelope semi-finished product are under the drive of transport mechanism, the distance of a mobile big envelope semi-finished product length
Afterwards, high-frequency seal machine carries out welding to the tail portion of big envelope semi-finished product again, and a length of 1000mm of welded edge, the tail portion of bonding die is set
There is slicer to carry out trimming to the big envelope semi-finished product after edge-melting to handle to obtain big envelope finished product;
S10:Big envelope finished product exports, and obtained big envelope finished product is transferred to rear end packaging line by automatic pulling-on piece mechanism.
Embodiment 3
A kind of graphene far-infrared ground heating printing big envelope method, includes the following steps:
S1:Face stock is launched, and PCV calendering film surface layer coiled materials, which are fixed on first, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film surface layer coiled material is 1040mm thickness 280um;
S2:PCV rolls the printing of film surface layer, and the PCV calendering film surface layer coiled materials on the first discharge mechanism are connected through knock-out mechanism
To the transport mechanism surface of printing machine, printing machine is screen type continuous printing, the printing figure that halftone pattern is provided according to buyer
Case designs, and space of a whole page size is 400mm × 400mm, and two spaces of a whole page are arranged side by side, gap 100mm between the space of a whole page, between the next space of a whole page arranged side by side
Gap is also 100mm;
S3:PCV rolls the drying of film surface layer, and the communicated mechanism of PCV calendering film surface layers after printing is sent to drying mechanism
It is dried, drying mechanism includes drying box drying and wind turbine air-dries two ways, and the temperature of drying box is 70 DEG C, drying mechanism
The speed of service of interior transfer structure is 9 meters/min, and the wind speed of wind turbine is 1200 turns/min, and the quantity of wind turbine is 14, PCV pressures
Prolong film surface layer in drying mechanism drying course, the mobile power of PCV calendering film surface layers provides for transport mechanism, PCV calendered films
The movement speed of face layer is synchronous with the holding of the speed of service of transport mechanism, and drying mechanism is equipped with ink exhaust gas recovery system;
S4:Bottom raw material is launched, and PCV calendering film bottom coiled materials, which are fixed on second, using manually or mechanically supplementary mode puts
Expect in mechanism, the coiled material that the width that PCV rolls film bottom coiled material is 1040mm thickness 280um, the PCV pressures on the second discharge mechanism
Prolong film bottom coiled material and be connected to transport mechanism surface through knock-out mechanism, PCV rolls film bottom and is in same with PCV calendering film surface layers
In vertical direction, and between the transport mechanism residing for PCV calendering film bottoms and the transport mechanism presence residing for PCV calendering film surface layers
The height of gap, gap is 55cm;
S5:String holes punching is connected, is punched into PCV calendered film facing surfaces using punch mechanism remote for placing graphene
The string holes of infrared electric heating diaphragm connecting line, string holes diameter are corresponding with the diameter of connecting line;
S6:Graphene far-infrared electric diaphragm is put, the transport mechanism residing for PCV calendering film bottoms and PCV calendered films
Graphene far-infrared electric diaphragm is put in the gap between transport mechanism residing for the layer of face, graphene far-infrared electric diaphragm is put
It is placed in the upside of PCV calendering film bottoms, positioning device, PCV calendered films are put and be arranged to graphene far-infrared electric diaphragm between two parties
The tail portion of transport mechanism residing for the layer of face is pressed on graphene Far infrared electric by guiding the structure of roll shaft to cover PCV calendering film surface layers
The upside of film and PCV calendering film bottoms forms big envelope semi-finished product, and the connecting line of graphene far-infrared electric diaphragm passes through
PCV roll film surface layer there are string holes on the outside of, the connecting line surface insulation layer of graphene far-infrared electric diaphragm is high temperature resistant material
Material is made;
S7:Welding big envelope semi-finished product head line mouth melts the head line mouth of big envelope semi-finished product using high-frequency seal machine
It connects, a length of 20mm of welded edge;
S8:Welding big envelope semi-finished product both sides long side carries out the both sides long side of big envelope semi-finished product using high-frequency seal machine
Welding, a length of 1000mm of welded edge;
S9:The head of big envelope semi-finished product is melted using high-frequency seal machine in welding big envelope semi-finished product head and tail portion
It connects, a length of 1000mm of welded edge, big envelope semi-finished product are under the drive of transport mechanism, the distance of a mobile big envelope semi-finished product length
Afterwards, high-frequency seal machine carries out welding to the tail portion of big envelope semi-finished product again, and a length of 1000mm of welded edge, the tail portion of bonding die is set
There is slicer to carry out trimming to the big envelope semi-finished product after edge-melting to handle to obtain big envelope finished product;
S10:Big envelope finished product exports, and obtained big envelope finished product is transferred to rear end packaging line by automatic pulling-on piece mechanism.
More than, it is merely preferred embodiments of the present invention, but scope of protection of the present invention is not limited thereto, it is any
Those familiar with the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its invents
Design is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.
Claims (4)
1. a kind of graphene far-infrared ground heating prints big envelope method, which is characterized in that include the following steps:
S1:Face stock is launched, and PCV calendering film surface layer coiled materials are fixed on the first feeding machine using manually or mechanically supplementary mode
On structure, the width that PCV rolls film surface layer coiled material is the coiled material of 1040mm thickness 280um;
S2:PCV rolls the printing of film surface layer, and the PCV calendering film surface layer coiled materials on the first discharge mechanism are connected to print through knock-out mechanism
The transport mechanism surface of brush machine, printing machine are screen type continuous printing, and halftone pattern designed, designed, space of a whole page size is 400mm
× 400mm, two spaces of a whole page are arranged side by side, gap 100mm between the space of a whole page, are also 100mm with next space of a whole page gap arranged side by side;
S3:PCV rolls the drying of film surface layer, and the communicated mechanism of PCV calendering film surface layers after printing, which is sent to drying mechanism, to be carried out
Drying, drying mechanism includes drying box drying and wind turbine air-dries two ways, and the temperature of drying box is 60-80 DEG C, drying mechanism
The speed of service of interior transfer structure is 6-10 meters/min, and the wind speed of wind turbine is that 800-1400 turns/min, and the quantity of wind turbine is 10-
16;
S4:Bottom raw material is launched, and PCV calendering film bottom coiled materials are fixed on the second feeding machine using manually or mechanically supplementary mode
On structure, the width that PCV rolls film bottom coiled material is the coiled material of 1040mm thickness 280um, the PCV calendered films on the second discharge mechanism
Bottom coiled material is connected to transport mechanism surface through knock-out mechanism, and PCV rolls film bottom and is in same vertical with PCV calendering film surface layers
The transport mechanism residing for transport mechanism and PCV calendering film surface layer on direction, and residing for PCV calendering film bottoms there are gap,
The height of gap is 50-70cm;
S5:String holes punching is connected, is punched into PCV calendered film facing surfaces for placing graphene far infrared using punch mechanism
The string holes of electrothermal film connecting line, string holes diameter are corresponding with the diameter of connecting line;
S6:Graphene far-infrared electric diaphragm is put, the transport mechanism residing for PCV calendering film bottoms rolls film surface layer with PCV
Graphene far-infrared electric diaphragm is put in gap between residing transport mechanism, graphene far-infrared electric diaphragm is positioned over
PCV rolls the upside of film bottom, and positioning device is put and be arranged to graphene far-infrared electric diaphragm between two parties, and PCV rolls film surface layer
The tail portion of residing transport mechanism is pressed on graphene far-infrared electrothermal film by guiding the structure of roll shaft to cover PCV calendering film surface layers
The upside of piece and PCV calendering film bottoms forms big envelope semi-finished product, and the connecting line of graphene far-infrared electric diaphragm is pressed across PCV
Prolong film surface layer there are string holes on the outside of;
S7:Welding big envelope semi-finished product head line mouth carries out welding to the head line mouth of big envelope semi-finished product using high-frequency seal machine, melts
The a length of 20mm of edge fit;
S8:Welding big envelope semi-finished product both sides long side carries out welding using high-frequency seal machine for the both sides long side of big envelope semi-finished product,
The a length of 1000mm of welded edge;
S9:Welding big envelope semi-finished product head and tail portion carry out welding for the head of big envelope semi-finished product using high-frequency seal machine, melt
The a length of 1000mm of edge fit, big envelope semi-finished product are high after the distance of a mobile big envelope semi-finished product length under the drive of transport mechanism
Frequency heat sealing machine carries out welding to the tail portion of big envelope semi-finished product again, and a length of 1000mm of welded edge, the tail portion of bonding die, which is equipped with, cuts
Piece knife carries out trimming to the big envelope semi-finished product after edge-melting and handles to obtain big envelope finished product;
S10:Big envelope finished product exports, and obtained big envelope finished product is transferred to rear end packaging line by automatic pulling-on piece mechanism.
2. a kind of graphene far-infrared ground heating according to claim 1 prints big envelope method, which is characterized in that at " S3 "
In, PCV rolls film surface layer in drying mechanism drying course, and the mobile power of PCV calendering film surface layers provides for transport mechanism,
The movement speed that PCV rolls film surface layer is synchronous with the holding of the speed of service of transport mechanism.
3. a kind of graphene far-infrared ground heating according to claim 1 prints big envelope method, which is characterized in that graphene is remote
The connecting line surface insulation layer of infrared electric heating diaphragm is made of heat-resisting material.
4. a kind of graphene far-infrared ground heating according to claim 1 prints big envelope method, which is characterized in that at " S3 "
In, drying mechanism is equipped with ink exhaust gas recovery system.
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CN201810084334.XA CN108297451B (en) | 2018-01-29 | 2018-01-29 | Graphene far infrared floor heating printing envelope method |
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CN108297451B CN108297451B (en) | 2020-04-14 |
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Cited By (3)
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CN109049667A (en) * | 2018-08-21 | 2018-12-21 | 成都金洹科科技有限公司 | The automatic fixed device of the thermally conductive feeding for smearing laminator |
CN110745276A (en) * | 2019-09-04 | 2020-02-04 | 江苏大爱地暖科技有限公司 | Automatic electric heating film PVC packaging process |
CN111136919A (en) * | 2019-09-04 | 2020-05-12 | 江苏大爱地暖科技有限公司 | Automatic assembly line for graphene floor heating printing envelope |
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KR20040099829A (en) * | 2003-05-20 | 2004-12-02 | 주식회사 진흥공업 | Method for coating insulating film on plane heater |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109049667A (en) * | 2018-08-21 | 2018-12-21 | 成都金洹科科技有限公司 | The automatic fixed device of the thermally conductive feeding for smearing laminator |
CN110745276A (en) * | 2019-09-04 | 2020-02-04 | 江苏大爱地暖科技有限公司 | Automatic electric heating film PVC packaging process |
CN111136919A (en) * | 2019-09-04 | 2020-05-12 | 江苏大爱地暖科技有限公司 | Automatic assembly line for graphene floor heating printing envelope |
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