CN107139572A - A kind of gluing stoving process of glass-fiber-fabric - Google Patents
A kind of gluing stoving process of glass-fiber-fabric Download PDFInfo
- Publication number
- CN107139572A CN107139572A CN201710401212.4A CN201710401212A CN107139572A CN 107139572 A CN107139572 A CN 107139572A CN 201710401212 A CN201710401212 A CN 201710401212A CN 107139572 A CN107139572 A CN 107139572A
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- glass
- fabric
- hot
- fiber
- gluing
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/12—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/16—Drying; Softening; Cleaning
- B32B38/164—Drying
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- Treatment Of Fiber Materials (AREA)
- Drying Of Solid Materials (AREA)
Abstract
The invention provides a kind of gluing stoving process of glass-fiber-fabric, belong to field of mechanical technique.It solves existing glass-fiber-fabric the problem of degumming is also easy to produce after compound.The gluing stoving process of this glass-fiber-fabric, it is characterised in that comprise the following steps:A, charging:Glass fibre base fabric and non-woven fabrics are carried out drawing charging simultaneously;B, preheating:Glass fibre base fabric and non-woven fabrics are preheated by preheating device;C, gluing:Gluing is carried out to glass fibre base fabric and non-woven fabrics;It is D, compound:The glass fibre base fabric and non-woven fabrics after gluing are combined by compound roller group;E, drying:Glass-fiber-fabric after being combined in drying baker is dried;F, discharging:Glass-fiber-fabric after drying is furled.It is preheated before gluing is compound to the raw material of glass-fiber-fabric, so as in gluing, enable to glue to completely penetrate on glass-fiber-fabric raw material, it is ensured that the bonding fastness in glass-fiber-fabric production, improves the quality of glass-fiber-fabric.
Description
Technical field
The invention belongs to field of mechanical technique, it is related to a kind of gluing stoving process of glass-fiber-fabric.
Background technology
Glass-fiber-fabric is divided into high-alkali cloth, neutral-alkaline cloth, alkali-free cloth according to alkalinity height.The more low anti-folding stretching resistance of alkalinity is more
Good, this several cloth can be distinguished by conductive capability, and high-alkali cloth is conductor, can work as electric wire use, neutral-alkaline cloth is semiconductor, alkali-free cloth
It is insulator.Present signal transmission is exactly that glass fibre is transmitted with optical fiber, belongs to high-alkali cloth, is built at present suitable for magnesia cement
Material is neutral-alkaline cloth, and alkali-free cloth is applied to circuit plate, electron level.Glass-fiber-fabric is general also known as glass geotextiles.It is widely used in soil
A kind of geosynthetics of wood engineering.It is mainly synthesized by glass fibre with chopped fiber needle-punched non-woven fabric compounded geotechnique
Material.Glass-fiber-fabric is mainly composited by glass fibre and short-term needle punched non-woven fabrics, often using glue by glass fibre and
Short-term needle punched non-woven fabrics are bonded together, and the glass-fiber-fabric being composited carries out needing drying, but existing drying unit is to glass
Fine cloth drying effect is bad, often results in glass-fiber-fabric bonding insecure, it is impossible to improve the quality of glass-fiber-fabric.
The content of the invention
The purpose of the present invention is there is above mentioned problem for existing technology, it is proposed that a kind of gluing drying work of glass-fiber-fabric
Skill, its problem to be solved is how to improve the bonding strength of glass-fiber-fabric.
The purpose of the present invention can be realized by following technical proposal:A kind of gluing stoving process of glass-fiber-fabric, its feature
It is, comprises the following steps:
A, charging:Glass fibre base fabric and non-woven fabrics are carried out drawing charging simultaneously;
B, preheating:Glass fibre base fabric and non-woven fabrics are preheated by preheating device;
C, gluing:Gluing is carried out to glass fibre base fabric and non-woven fabrics;
It is D, compound:The glass fibre base fabric and non-woven fabrics after gluing are combined by compound roller group;
E, drying:Glass-fiber-fabric after being combined in drying baker is dried;
F, discharging:Glass-fiber-fabric after drying is furled.
It is preheated before gluing is compound to the raw material of glass-fiber-fabric, so as in gluing, enable to glue can
Completely penetrate on glass-fiber-fabric raw material, it is ensured that the bonding fastness in glass-fiber-fabric production, improve the quality of glass-fiber-fabric.
Heat is carried out to glass fibre base fabric and non-woven fabrics in the gluing stoving process of above-mentioned glass-fiber-fabric, in step B empty
Gas jet is heated.The dust and impurity of glass fibre base fabric and nonwoven surface can also be removed while heating, it is ensured that glass-fiber-fabric
Bonding quality.
In the gluing stoving process of above-mentioned glass-fiber-fabric, the preheating device in step B includes being made as hollow tubular knot
Several burners are provided with the first pre- hot-rolling and the second pre- hot-rolling of structure, the drying baker, the top of drying baker, which has, to be dissipated
Hot mouth, the bottom of drying baker is provided with gas returning port, and the preheating device includes the first pre- hot-rolling for being made as hollow tubular structure
With the second pre- hot-rolling, one end, one end of the second pre- hot-rolling of the first pre- hot-rolling are connected with thermovent, and described first is pre-
The other end of hot-rolling, the other end of the second pre- hot-rolling are connected with gas returning port.
In the gluing stoving process of above-mentioned glass-fiber-fabric, have on the roll surface of the first pre- hot-rolling and the second pre- hot-rolling
There are several preheating gates, and the air intake of the first pre- hot-rolling and the second pre- hot-rolling is provided with the first screen pack.Screen pack is used for
Remove the magazine that hot-air is taken out of in drying baker.
In the gluing stoving process of above-mentioned glass-fiber-fabric, the inside of the first pre- hot-rolling and the second pre- hot-rolling is equipped with
Heating wire, the heating wire is electrically connected with controller.Built-in heating wire can be carried out to the first pre- hot-rolling and the second pre- hot-rolling
Preheating, at the same can also as hot air supplement, it is ensured that pre-warmed efficiency.
In the gluing stoving process of above-mentioned glass-fiber-fabric, one end, one end of the second pre- hot-rolling of the first pre- hot-rolling
It is connected with the first connecting tube by the first four-way pipe, intake valve is connected with the 4th mouth of pipe of first four-way pipe.
In the gluing stoving process of above-mentioned glass-fiber-fabric, the other end of the first pre- hot-rolling, the second pre- hot-rolling it is another
One end is connected with the second connecting tube by the second four-way pipe, and outlet is connected with the 4th mouth of pipe of second four-way pipe
Valve.
In the gluing stoving process of above-mentioned glass-fiber-fabric, bottom surface simultaneously to glass fibre base fabric and nonwoven in step B
The top surface of cloth is heated, and the top surface of bottom surface and non-woven fabrics in step C simultaneously to glass fibre base fabric carries out gluing.Heating and
Gluing directly acts on composite surface, and combined efficiency is higher, bonds more firm.
In the gluing stoving process of above-mentioned glass-fiber-fabric, the drying baker bottom in step E has heat dissipation cavity, the radiating
Chamber includes several first heat dissipation cavities and several second heat dissipation cavities, and each first heat dissipation cavity and each second heat dissipation cavity are spaced set successively
Put and be interconnected, each first heat dissipation cavity and the second heat dissipation cavity are each positioned at the top of a burner, and the first heat dissipation cavity
Bottom surface and the bottom surface of the second heat dissipation cavity are obliquely installed, the inclined bottom surface direction of the first heat dissipation cavity bottom surface and the second heat dissipation cavity
Conversely.Glass-fiber-fabric raw material is relatively large sized in processing, so that drying baker is relatively large sized, heat dissipation cavity is separated
Bottom surface into multiple and spaced small heat dissipation cavities has different incline directions, ensure that the heat that burner is produced is empty
Bottom surface of the gas along heat dissipation cavity sufficiently activity in drying baker, it is ensured that drying effect.
In the gluing stoving process of above-mentioned glass-fiber-fabric, the higher one end in the first heat dissipation cavity bottom surface has spacious downwards
First air inlet of mouth, higher one end in the second heat dissipation cavity bottom surface offers the second air inlet to lower open mouth, and described first enters
It is provided with air port on first switch door-plate, second air inlet and is provided with second switch door-plate, the inside of the drying baker
Several temperature inductors are provided with, the temperature inductor is electrically connected with controller, the first switch door-plate and second
Door-plate is switched to be electrically connected with controller.First switch door-plate and second switch door-plate are separate, are opened by adjustment first
Close the door the switch of plate and second switch door-plate, Temperature Distribution that can be in heat dissipation cavity is adjusted to the air output of heat dissipation cavity
It is whole, i.e., when a certain sidepiece temperature is relatively low in drying baker, the air inlet of the sidepiece is closed, you can accordingly improve the baking of the sidepiece
Dry temperature.
Compared with prior art, the gluing stoving process of this glass-fiber-fabric has the following advantages that:
1st, it can be utilized to the waste heat produced in glass-fiber-fabric drying course, reduce hot air discharge, and environment protecting is good;
2nd, it can be preheated before gluing is compound to the raw material of glass-fiber-fabric, so that glue can permeate completely
Onto glass-fiber-fabric raw material, it is ensured that the bonding fastness in glass-fiber-fabric production, the composite quality of glass-fiber-fabric is improved.
Brief description of the drawings
Fig. 1 is the structural representation of the present invention.
Fig. 2 is the recycling schematic diagram of hot-air in the present invention.
Fig. 3 is the structural representation of compound roller group in the present invention.
In figure, 1, frame;2nd, controller;3rd, feed arrangement;31st, the first feed roller;32nd, the second feed roller;4th, pre- hot charging
Put;41st, the first pre- hot-rolling;42nd, the second pre- hot-rolling;5th, sizer;51st, gluing case;52nd, the first upper glue roller;53rd, the second gluing
Roller;6th, it is combined drying unit;61st, drying baker;611st, gas returning port;62nd, burner;63rd, it is combined roller group;631st, the first press bonding roller;
632nd, the second press bonding roller;633rd, support frame;634th, cantilever is adjusted;635th, hydraulic cylinder;636th, spring supporting bar;64th, drying transmission
Roller;7th, heat abstractor;71st, heat dissipation cavity;711st, the first heat dissipation cavity;7111st, the first air inlet;7112nd, first switch door-plate;712、
Second heat dissipation cavity;7121st, the second air inlet;7122nd, second switch door-plate;72nd, cooling fan;73rd, thermovent;8th, rolling frame;
9th, the first screen pack;10th, preheating gate;11st, heating wire;12nd, glue melting box;13rd, the second screen pack;14th, support roller;15th, the one four
Siphunculus;16th, the second four-way pipe;17th, intake valve;18th, air outlet valve;19th, the first connecting tube;20th, the second connecting tube;21st, temperature sense
Answer device.
Embodiment
The following is specific embodiment of the invention and with reference to accompanying drawing, technical scheme is further described,
But the present invention is not limited to these embodiments.
Reference picture 1, the present embodiment is a kind of gluing dryer of glass-fiber-fabric, includes the frame 1 of horizontal cross setting, frame
1 bottom surface is provided with controller 2, and the direction of transfer of the top surface of frame 1 along glass-fiber-fabric is disposed with feed arrangement 3, pre- hot charging
Put 4, sizer 5, compound drying unit 6, heat abstractor 7 and rolling frame 8.Feed arrangement 3 enters including separate first
Expect the feed roller 32 of roller 31 and second, sizer 5 includes gluing case 51 and the glue melting box 12 positioned at the top of gluing case 51, gluing case
It is provided with the first upper glue roller 52 and the second upper glue roller 53 in 51, is respectively provided with the roll surface of the first upper glue roller 52 and the second upper glue roller 53
Several plastic holes being connected with glue melting box 12.Preheating device 4 includes the first pre- hot-rolling 42 of pre- hot-rolling 41 and second, and first is pre-
Hot-rolling 41 is located between the first feed roller 31 and the first upper glue roller 52, and the second pre- hot-rolling 42 is located on the second feed roller 32 and second
Between rubber roll 53, support roller 14 is additionally provided between the second upper glue roller 53 and the second pre- hot-rolling 42.First feed roller 31, first is pre-
The upper glue roller 52 of hot-rolling 41 and first is used to draw glass fibre base fabric, and the first upper glue roller 52 is used for the bottom to glass fibre base fabric
Face carries out gluing operation, and the second feed roller 32, the second pre- upper glue roller 53 of hot-rolling 42 and second are used to draw non-woven fabrics, and non-woven fabrics
Top surface carries out gluing operation at the second upper glue roller 53 in the presence of support roller 14.This gluing dries composite integrated machine in glass
Fiber base cloth does not carry out compound tense, and the first feed roller 31, the first pre- upper glue roller 52 of hot-rolling 41 and first are respectively positioned on sustained height,
Glass fibre base fabric can be avoided to be broken in transmit process.Compound drying unit 6 is included in drying baker 61, drying baker 61
It is provided with several burners 62, for the compound roller group 63 pressed to the glass-fiber-fabric after gluing and several drying transmission
Roller 64, each drying transfer roller 64 is spaced high low setting, and burner 62 is arranged on the bottom of drying baker 61 and positioned at each drying
The lower section of transfer roller 64 and compound roller group 63.
With reference to Fig. 2, heat abstractor 7 includes being located at the heat dissipation cavity 71 on the top of drying baker 61 and is arranged on dissipating in heat dissipation cavity 71
Air-heater 72, the top of heat dissipation cavity 71 has thermovent 73.Heat dissipation cavity 71 include several first heat dissipation cavities 711 and several the
Two heat dissipation cavities 712, each first heat dissipation cavity 711 and each second heat dissipation cavity 712 are arranged at intervals and are interconnected successively, and each first dissipates
The hot heat dissipation cavity 712 of chamber 711 and second is each positioned at the top of a burner 62, and the bottom surface of the first heat dissipation cavity 711 and second dissipates
The bottom surface of hot chamber 712 is obliquely installed, and the inclined bottom surface of the bottom surface of the first heat dissipation cavity 711 and the second heat dissipation cavity 712 is in opposite direction, the
The higher one end in the bottom surface of one heat dissipation cavity 711 has the first air inlet 7111 to lower open mouth, and the bottom surface of the second heat dissipation cavity 712 is higher
One end offers and is provided with first switch door-plate 7112 on the second air inlet 7121 to lower open mouth, the first air inlet 7111, the
Second switch door-plate 7122 is provided with two air inlets 7121.
The first pre- hot-rolling 42 of pre- hot-rolling 41 and second is hollow tubular structure, the first pre- hot-rolling of pre- hot-rolling 41 and second
42 inside is equipped with heating wire 11, and heating wire 11 is electrically connected with controller 2, the first pre- hot-rolling 42 of pre- hot-rolling 41 and second
Several preheating gates 10 are respectively provided with roll surface, and the air intake of the first pre- hot-rolling 42 of pre- hot-rolling 41 and second is provided with the first mistake
Filter screen 9.The inner chamber of first pre- hot-rolling 41, the inner chamber of the second pre- hot-rolling 42 are by the first four-way pipe 15 and the first connecting tube 19 with dissipating
Hot mouth 73 is connected, and is connected with intake valve 17 on the 4th mouth of pipe of the first four-way pipe 15, intake valve 17 can be in drying baker 61
Completely start working when or drying hot air temperature it is too high when directly absorb outside air neutralized.
The bottom of drying baker 61 is provided with gas returning port 611, and the inner chamber of the first pre- hot-rolling 42 of pre- hot-rolling 41 and second passes through
Two four-way pipes 16 and the second connecting tube 20 are connected with back-steam mouthful 611, are connected with out on the 4th mouth of pipe of the second four-way pipe 16
Air valve 18, air outlet valve 18 is used to outwardly discharge unnecessary waste gas.
With reference to Fig. 3, being combined roller group 63 includes the first press bonding roller 631, the second press bonding roller 632 and is pressed for adjusting first
The roller spacing regulating mechanism of the spacing of 631 and second press bonding roller of roller 632 is closed, the second press bonding roller 632 is connected in frame 1, roll spacing adjustment
Mechanism includes support frame 633 and two adjustment cantilevers 634 for being respectively used to connect the end of the first press bonding roller 631, and support frame 633 is erected
Directly it is arranged in frame 1, one end end of adjustment cantilever 634 is hinged on support frame 633, one of adjustment He of cantilever 634
Hydraulic cylinder 635 is provided between frame 1, the cylinder body of hydraulic cylinder 635 is hinged on adjustment cantilever 634, the piston rod of hydraulic cylinder 635
It is hinged in frame 1, hydraulic cylinder 635 is electrically connected with controller 2, is also set between the adjustment other end end of cantilever 634 and frame 1
Spring supporting bar 636 is equipped with, spring supporting bar 636 is located at the outside of hydraulic cylinder 635, and the bottom of spring supporting bar 636 is hinged
In frame 1, the top of spring supporting bar 636 is hinged on adjustment cantilever 634.
The production technology of the gluing dryer of this glass-fiber-fabric is as follows:
A, charging:Glass fibre base fabric and non-woven fabrics draw simultaneously by feed arrangement 3 and fed;
B, preheating:Glass fibre base fabric and non-woven fabrics are preheated by preheating device 4;
C, gluing:Gluing is carried out to glass fibre base fabric and non-woven fabrics by sizer 5;
It is D, compound:The glass fibre base fabric and non-woven fabrics after gluing are combined by compound roller group 63;
E, drying:Glass-fiber-fabric after being combined in drying baker 61 is dried, and the hot-air that band is had surplus heat back to
Preheating device 4;
F, discharging:Glass-fiber-fabric after drying is furled in rolling frame 8.
Specific embodiment described herein is only to spirit explanation for example of the invention.Technology neck belonging to of the invention
The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode
Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.
Claims (10)
1. the gluing stoving process of a kind of glass-fiber-fabric, it is characterised in that comprise the following steps:
A, charging:Glass fibre base fabric and non-woven fabrics are carried out drawing charging simultaneously;
B, preheating:Glass fibre base fabric and non-woven fabrics are preheated by preheating device (4);
C, gluing:Gluing is carried out to glass fibre base fabric and non-woven fabrics;
It is D, compound:The glass fibre base fabric and non-woven fabrics after gluing are combined by compound roller group (63);
E, drying:Glass-fiber-fabric after being combined in drying baker (61) is dried;
F, discharging:Glass-fiber-fabric after drying is furled.
2. the gluing stoving process of glass-fiber-fabric according to claim 1, it is characterised in that to fiberglass-based in step B
Cloth and non-woven fabrics carry out hot-air injection heating.
3. the gluing stoving process of glass-fiber-fabric according to claim 2, it is characterised in that the preheating device (4) in step B
It is provided with the first pre- hot-rolling (41) and the second pre- hot-rolling (42) including being made as hollow tubular structure, the drying baker (61)
Several burners (62), the top of drying baker (61) has thermovent (73), and the bottom of drying baker (61) is provided with gas returning port
(61), the preheating device (4) includes the first pre- hot-rolling (41) and the second pre- hot-rolling (42) for being made as hollow tubular structure, institute
State one end of the first pre- hot-rolling (41), one end of the second pre- hot-rolling (42) with thermovent (73) to be connected, first preheating
The other end of roller (41), the other end of the second pre- hot-rolling (42) are connected with gas returning port (61).
4. the gluing stoving process of glass-fiber-fabric according to claim 3, it is characterised in that the first pre- hot-rolling (41) and
Several preheating gates (10), and the first pre- hot-rolling (41) and the second pre- hot-rolling (42) are respectively provided with the roll surface of second pre- hot-rolling (42)
Air intake be provided with the first screen pack (9).
5. the gluing stoving process of glass-fiber-fabric according to claim 4, it is characterised in that the first pre- hot-rolling (41) and
The inside of second pre- hot-rolling (42) is equipped with heating wire (11), and the heating wire (11) is electrically connected with controller (2).
6. the gluing stoving process of the glass-fiber-fabric according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that described first
One end of pre- hot-rolling (41), one end of the second pre- hot-rolling (42) are connected with the first connecting tube (19) by the first four-way pipe (15)
It is logical, it is connected with intake valve (17) on the 4th mouth of pipe of first four-way pipe (15).
7. the gluing stoving process of the glass-fiber-fabric according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that described first
The other end of pre- hot-rolling (41), the other end of the second pre- hot-rolling (42) and the second connecting tube (20) pass through the second four-way pipe (16) phase
Air outlet valve (18) is connected with connection, the 4th mouth of pipe of second four-way pipe (16).
8. the gluing stoving process of the glass-fiber-fabric according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that in step B
The bottom surface of glass fibre base fabric and the top surface of non-woven fabrics are heated simultaneously, the bottom in step C simultaneously to glass fibre base fabric
The top surface of face and non-woven fabrics carries out gluing.
9. the glass-fiber-fabric gluing dryer that the hot gas cycle according to claim 1 or 2 or 3 or 4 or 5 is utilized, its feature exists
In with heat dissipation cavity (71) at the top of the drying baker (61) in step E, the heat dissipation cavity (71) includes several first heat dissipation cavities
(711) and several second heat dissipation cavities (712), each first heat dissipation cavity (711) and each second heat dissipation cavity (712) are arranged at intervals successively
And be interconnected, each first heat dissipation cavity (711) and the second heat dissipation cavity (712) are each positioned at the top of a burner (62), and
The bottom surface of first heat dissipation cavity (711) and the bottom surface of the second heat dissipation cavity (712) are obliquely installed, the first heat dissipation cavity (711) bottom
The inclined bottom surface of face and the second heat dissipation cavity (712) is in opposite direction.
10. the glass-fiber-fabric gluing dryer that hot gas cycle according to claim 6 is utilized, it is characterised in that described first
The higher one end in heat dissipation cavity (711) bottom surface have to lower open mouth the first air inlet (7111), the second heat dissipation cavity (712) bottom surface compared with
High one end offers and is provided with first switch on the second air inlet (7121) to lower open mouth, first air inlet (7111)
Be provided with second switch door-plate (7122) on door-plate (7112), second air inlet (7121), the drying baker (61) it is interior
Portion is provided with several temperature inductors (21), and the temperature inductor (21) is electrically connected with controller (2), and described first opens
Close the door plate (7112) and second switch door-plate (7122) is electrically connected with controller (2).
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CN107638998A (en) * | 2017-11-21 | 2018-01-30 | 山东天睿玻纤复合材料有限公司 | A kind of coiled process units of glass fabric |
CN112356553A (en) * | 2020-11-04 | 2021-02-12 | 南通金鹏玻纤制品有限公司 | Glass fiber cloth gluing and drying integrated machine and using method thereof |
CN112659716A (en) * | 2020-12-22 | 2021-04-16 | 深圳市世格赛思医疗科技有限公司 | Preparation method and production device of cloth |
CN112809974A (en) * | 2020-12-22 | 2021-05-18 | 芜湖市爱三迪电子科技有限公司 | Waste treatment device for 3D printer |
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CN204674155U (en) * | 2015-05-26 | 2015-09-30 | 嘉兴市明跃包装材料有限公司 | A kind of Novel compounding machine |
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US20090173427A1 (en) * | 2008-01-04 | 2009-07-09 | Primax Electronics Ltd. | Method for controlling heating rollers and laminator using such method |
US20140363645A1 (en) * | 2011-12-08 | 2014-12-11 | Jáger Invest Kereskedelmi, Szolgáltató És Ingatlanhasznosító Kft. | Multilayered product for joint utilization of smc, bmc and pet waste |
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CN107638998A (en) * | 2017-11-21 | 2018-01-30 | 山东天睿玻纤复合材料有限公司 | A kind of coiled process units of glass fabric |
CN112356553A (en) * | 2020-11-04 | 2021-02-12 | 南通金鹏玻纤制品有限公司 | Glass fiber cloth gluing and drying integrated machine and using method thereof |
CN112659716A (en) * | 2020-12-22 | 2021-04-16 | 深圳市世格赛思医疗科技有限公司 | Preparation method and production device of cloth |
CN112809974A (en) * | 2020-12-22 | 2021-05-18 | 芜湖市爱三迪电子科技有限公司 | Waste treatment device for 3D printer |
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