CN215113749U - Automatic gum dipping and drying system for glass fiber cloth - Google Patents

Abstract

The utility model relates to a fine cloth gumming stoving technical field of glass, especially relate to an automatic gumming drying system of fine cloth of glass, including fine cloth unwinding device of glass, at least two fine cloth gumming drying device of glass, the fine cloth of glass that are used for gumming and drying process to the fine cloth of glass send out the device, the fine cloth of glass that the fine cloth unwinding device of glass was put to roll is sent out by the fine cloth of glass send out device after winding through each fine cloth gumming drying device of glass in proper order, and each fine cloth gumming drying device of glass includes respectively one is used for carrying out the fine cloth drying device of glass that drying process and a plurality of is used for carrying out the fine cloth of glass that the glass soaks the drying device of glass, and the fine cloth winds into the fine cloth drying device of glass after winding through each cloth gumming device that is located same fine cloth of glass in proper order; the utility model discloses can carry out gumming stoving to the fine cloth of glass automatically, the fine bonding cloth of glass who makes does not exist the problem of leaking to soak, whole glue content comparatively even, have high adhesion force.

Description

Automatic gum dipping and drying system for glass fiber cloth

The technical field is as follows:

the utility model relates to a fine cloth gumming stoving technical field of glass especially relates to an automatic gumming drying system of fine cloth of glass.

Background art:

the copper-clad plate is mainly used for manufacturing printed circuit boards, is widely applied to products such as communication equipment, mobile communication, instruments and meters, satellites, radars and the like, and gradually becomes one of the most important basic materials in electronic information products. With the development of electronic information technology, the conventional copper clad laminate cannot meet the requirement of electronic installation high-density interconnection developed at high speed in recent years, and the copper clad laminate with high performance receives more and more attention.

The copper-clad plate is formed by using glass fiber cloth as a reinforcing material, soaking the glass fiber cloth with resin, covering copper foil on one side or two sides of the glass fiber cloth, and carrying out hot pressing, and the processes of soaking and drying the glass fiber cloth are involved in the process of manufacturing and producing the copper-clad plate.

The utility model has the following contents:

the utility model aims at providing an automatic gumming drying system of fine cloth of glass to the not enough of prior art existence, can carry out gumming stoving to the fine cloth of glass automatically, the fine bonding cloth of glass who makes does not exist the problem of leaking soaking, whole glue content comparatively even, have high adhesion force.

In order to realize the purpose, the utility model discloses a technical scheme is: the automatic glass fiber cloth dipping and drying system comprises a glass fiber cloth unwinding device for unwinding glass fiber cloth, at least two glass fiber cloth dipping and drying devices for dipping and drying the glass fiber cloth, and a glass fiber cloth delivery device for delivering the dipped and dried glass fiber cloth, wherein the glass fiber cloth is placed in a glass fiber cloth unwinding roll and is sequentially wound through the glass fiber cloth dipping and drying devices and then is delivered by the glass fiber cloth delivery device, each glass fiber cloth dipping and drying device respectively comprises a glass fiber cloth drying device for drying the glass fiber cloth and a plurality of glass fiber cloth dipping devices for dipping the glass fiber cloth, and the glass fiber cloth is sequentially wound into the glass fiber dipping and drying devices after being wound through the glass fiber cloth dipping devices in the same glass fiber cloth dipping and drying device.

The technical scheme is further improved in that each glass fiber cloth glue dipping device comprises a glue dipping box for containing a solution to be dipped, a glue dipping conveying mechanism for conveying glass fiber cloth into the glue dipping box and conveying the glass fiber cloth out of the glue dipping box, and each glass fiber cloth drying device comprises a drying box for heating and drying the glass fiber cloth and a drying conveying mechanism for conveying the glass fiber cloth into the drying box and conveying the glass fiber cloth out of the drying box.

The further improvement to the above scheme is that each glass fiber cloth drying device also comprises a cooling box for cooling the glass fiber cloth heated by the drying box, the drying and conveying mechanism is arranged in the cooling box, and the glass fiber cloth is delivered from the drying box and then passes through the cooling box.

The scheme is further improved in that the drying boxes are respectively arranged above the glue dipping boxes in the same glass fiber cloth glue dipping and drying device.

The further improvement of the proposal is that a drying box is arranged between the glass fiber cloth drying device and the delivery device in the glass fiber cloth dipping and drying device close to the glass fiber cloth delivery device.

The further improvement of the scheme is that each drying box comprises a box body, a drying channel for allowing the glass fiber cloth to pass through, and two heating zones symmetrically arranged on two sides of the drying channel respectively.

The further improvement to the above scheme is that each the glass fiber cloth drying device also comprises a glass fiber cloth exhaust device for collecting and discharging waste gas, the glass fiber cloth exhaust device comprises an air collecting port, an exhaust pipeline, an exhaust port and an exhaust fan arranged in the exhaust pipeline, and the exhaust port is communicated with the air collecting port through the exhaust pipeline.

The scheme is further improved in that the exhaust ports in the glass fiber cloth exhaust devices are arranged together in a centralized mode.

The further improvement to above-mentioned scheme does, the utility model discloses still including being used for showing the temperature monitor of each stoving case temperature value size, being used for adjusting the temperature regulation button of each stoving case temperature value size, each the stoving incasement is equipped with temperature sensor respectively.

The glass fiber cloth unwinding device and the glass fiber cloth gumming drying device are further improved in that a glass fiber cloth caching device is arranged between the glass fiber cloth unwinding device and the glass fiber cloth gumming drying device, the glass fiber cloth caching device comprises a glass fiber cloth caching frame, a glass fiber cloth caching guide rail arranged on the glass fiber cloth caching frame along the vertical direction, a glass fiber cloth caching slide block connected to the glass fiber cloth caching guide rail in a sliding mode, a glass fiber cloth caching roller arranged on the glass fiber cloth caching slide block, a detected piece arranged on the glass fiber cloth caching roller, an upper limiting sensor arranged at the top of the glass fiber cloth caching frame and used for detecting the detected piece, and a lower limiting sensor arranged at the bottom of the glass fiber cloth caching frame and used for detecting the detected piece, and the glass fiber cloth unwound from the glass fiber cloth unwinding device is wound into the glass fiber cloth gumming drying device after passing through the glass fiber cloth caching roller.

The utility model has the advantages that: the utility model provides an automatic gumming drying system of glass fiber cloth, including the glass fiber cloth unwinding device that is used for unreeling glass fiber cloth, at least two glass fiber cloth gumming drying device that are used for gumming and drying treatment to glass fiber cloth, be used for the glass fiber cloth that sends out the gumming dried glass fiber cloth send out the device, glass fiber cloth unwinding package is put the glass fiber cloth that rolls out and is sent out by glass fiber cloth send out device after winding through each glass fiber cloth gumming drying device in proper order, and each glass fiber cloth gumming drying device includes respectively one glass fiber cloth drying device that is used for drying treatment to glass fiber cloth and a plurality of glass fiber cloth drying device that is used for carrying out gumming treatment to glass fiber cloth, and glass fiber cloth winds into glass fiber cloth drying device after winding through each glass fiber cloth gumming device that is located in same glass fiber cloth gumming drying device in proper order;

compare in current fine cloth gumming drying system of glass, the utility model discloses whole degree of automation is higher, can realize automatically carrying out gumming drying process and forming the fine bonding cloth of glass to the fine cloth of glass through the fine cloth unwinding device of glass, each fine cloth gumming drying device of glass, the fine cloth of glass see-off device's cooperation, can reduce staff's a large amount of work and improve production efficiency, the utility model discloses a two at least fine cloth gumming drying device that are used for gumming and drying process to the fine cloth of glass carries out twice gumming drying process at least to the fine cloth of glass and forms at least two-layer glue film, can make the fine bonding cloth of glass of making not have the problem of leaking and soaking, whole glue content is comparatively even, have high cohesive force to can guarantee the performance of the copper-clad plate of follow-up making.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Description of reference numerals: the device comprises a glass fiber cloth unwinding device 1, a glass fiber cloth dipping and drying device 2, a glass fiber cloth drying device 21, a drying box 211, a box 2111, a drying channel 2112, a heating zone 2113, a drying and conveying mechanism 212, a cooling box 213, a glass fiber cloth dipping device 22, a dipping box 221, a dipping and conveying mechanism 222, a glass fiber cloth delivery device 3, a glass fiber cloth exhaust device 4, a gas collection port 41, an exhaust pipeline 42, an exhaust port 43, an exhaust fan 44, a temperature display 5, a temperature adjusting button 6, a temperature sensor 7, a glass fiber cloth buffer device 8, a glass fiber cloth buffer frame 81, a glass fiber cloth buffer guide rail 82, a glass fiber cloth buffer slide block 83, a glass fiber cloth buffer roller 84, a detected piece 85, an upper limit sensor 86 and a lower limit sensor 87.

The specific implementation mode is as follows:

the utility model will be further explained with reference to the drawings, as shown in fig. 1, the utility model comprises a glass fiber cloth unwinding device 1 for unwinding glass fiber cloth, at least two glass fiber cloth dipping and drying devices 2 for dipping and drying the glass fiber cloth, a glass fiber cloth feeding device 3 for feeding out the dipped and dried glass fiber cloth, the glass fiber cloth unreeled by the glass fiber cloth unreeling device 1 is sequentially wound through the glass fiber cloth dipping drying devices 2 and then is sent out by the glass fiber cloth sending device 3, each glass fiber cloth dipping drying device 2 comprises a glass fiber cloth drying device 21 used for drying glass fiber cloth and a plurality of glass fiber cloth dipping devices 22 used for dipping the glass fiber cloth, and the glass fiber cloth is sequentially wound into the glass fiber cloth drying device 21 after being wound through the glass fiber cloth dipping devices 22 in the same glass fiber cloth dipping drying device 2; compare in current fine cloth gumming drying system of glass, the utility model discloses whole degree of automation is higher, through fine cloth unwinding device 1 of glass, each fine cloth gumming drying device 2 of glass, the fine cloth cooperation of seeing off device 3 of glass can realize carrying out gumming drying process and forming the fine bonding cloth of glass automatically to the fine cloth of glass, can reduce staff's a large amount of work and improve production efficiency, the utility model discloses a two at least fine cloth gumming drying device 2 that are used for gumming and drying process to the fine cloth of glass carries out gumming twice at least to the fine cloth of glass, through carrying out twice gumming drying process and forming at least two-layer glue film to the fine bonding cloth of glass, can make the fine bonding cloth of glass of making not have the problem of leaking and soaking, whole glue content comparatively even, have high cohesive force to can guarantee the performance of the subsequent copper-clad plate that makes.

Each of the glass fiber cloth impregnation devices 22 includes an impregnation tank 221 for containing a solution to be impregnated, an impregnation conveying mechanism 222 for conveying the glass fiber cloth into the impregnation tank 221 and conveying the glass fiber cloth out of the impregnation tank 221, and each of the glass fiber cloth drying devices 21 includes a drying tank 211 for heating and drying the glass fiber cloth, and a drying conveying mechanism 212 for conveying the glass fiber cloth into the drying tank 211 and conveying the glass fiber cloth out of the drying tank 211.

Each glass fiber cloth drying device 21 further includes a cooling box 213 for cooling the glass fiber cloth heated by the drying box 211, the drying and conveying mechanism 212 is disposed in the cooling box 213, and the glass fiber cloth is sent out from the drying box 211 and then passes through the cooling box 213; because the fine cloth of glass is after the stoving case 211 heating, the higher and great stickness that has of surface glue film temperature, through set up cooling box 213 in stoving case 211 top position department, can enough prevent the hot-blast of stoving case 211 interior from scurrying outward, can also cool off the fine cloth of glass after the stoving case 211 heating, and guarantee that the glue film on the fine cloth surface of glass can not take place to bond with each transfer roller of stoving conveying mechanism 212, thereby can guarantee that the fine cloth of glass smoothly carries.

Each drying box 211 is respectively arranged above the dipping boxes 221 in the same glass fiber cloth dipping and drying device 2, when the glass fiber cloth is just sent out from the dipping boxes 221, a part of glue solution is inevitably dropped, and the drying boxes 211 are arranged above the dipping boxes 221, so that the glue solution can be prevented from dropping everywhere, the whole body can be kept cleaner, the dropped glue solution can be reused, and waste is avoided.

A drying box 211 is arranged between the glass fiber cloth drying device 21 and the delivering device in the glass fiber cloth dipping drying device 2 close to the glass fiber cloth delivering device 3, and the glass fiber cloth is further dried and heated before being delivered, so that the whole drying effect is better, and the quality of the prepared glass fiber bonding cloth is better.

Each stoving case 211 all includes box 2111, is used for supplying the stoving passageway 2112 that the fine cloth of glass passes through, respectively the symmetry set up in two heating zones 2113 of stoving passageway 2112 both sides, can carry out drying process to the two-sided of fine cloth of glass simultaneously through two heating zones 2113, not only can improve drying efficiency, can guarantee that two-sided stoving effect is comparatively unanimous moreover.

Each glass fiber cloth drying device 21 further comprises a glass fiber cloth exhaust device 4 for collecting and exhausting waste gas, each glass fiber cloth exhaust device 4 comprises a gas collecting port 41, an exhaust pipeline 42, an exhaust port 43 and an exhaust fan 44 arranged in the exhaust pipeline 42, the exhaust port 43 is communicated with the gas collecting port 41 through the exhaust pipeline 42, waste gas can be generated in the drying process of glass fiber cloth, the waste gas generated in the drying process of the glass fiber cloth can be well collected and exhausted through the glass fiber cloth exhaust device 4, and air turbidity in a workshop is prevented; the exhaust ports 43 in the glass fiber cloth exhaust devices 4 are arranged together in a centralized manner, so that the exhaust gas generated in the drying process of each glass fiber cloth drying device 21 can be discharged and treated in a centralized manner, and the overall layout is more reasonable.

The utility model also comprises a temperature display 5 for displaying the temperature value of each drying box 211 and a temperature adjusting button 6 for adjusting the temperature value of each drying box 211, wherein a temperature sensor 7 is respectively arranged in each drying box 211; the temperature value that can know in current each stoving case 211 in real time is used in cooperation through temperature sensor 7 and temperature monitor 5, uses the temperature value size that can adjust in each stoving case 211 through the cooperation of temperature sensor 7 and temperature regulation button 6, and it is more convenient to use.

A glass fiber cloth cache device 8 is arranged between the glass fiber cloth unwinding device 1 and the glass fiber cloth dipping drying device 2, the glass fiber cloth cache device 8 comprises a glass fiber cloth cache frame 81, a glass fiber cloth cache guide rail 82 arranged on the glass fiber cloth cache frame 81 along the vertical direction, a glass fiber cloth cache sliding block 83 connected to the glass fiber cloth cache guide rail 82 in a sliding manner, a glass fiber cloth cache roller 84 arranged on the glass fiber cloth cache sliding block 83, a detected piece 85 arranged on the glass fiber cloth cache roller 84, an upper limit sensor 86 arranged at the top of the glass fiber cloth cache frame 81 and used for detecting the detected piece 85, and a lower limit sensor 87 arranged at the bottom of the glass fiber cloth cache frame 81 and used for detecting the detected piece 85, wherein the glass fiber cloth unwound by the glass fiber cloth unwinding device 1 is wound into the glass fiber cloth dipping drying device 2 after passing through the glass fiber cloth cache roller 84; when the glass fiber cloth unwinding speed is higher than the glass fiber cloth unwinding speed, the glass fiber cloth can be gradually tightened and drives the glass fiber cloth buffer sliding block 83 to slide upwards, until the upper limiting sensor 86 detects the detected piece 85 on the glass fiber cloth buffer roller 84, the glass fiber cloth stops being unwound, when the glass fiber cloth unwinding speed is higher than the glass fiber cloth unwinding speed, the glass fiber cloth can be gradually loosened, the glass fiber cloth buffer sliding block 83 can slide downwards, until the lower limiting sensor 87 detects the detected piece 85 on the glass fiber cloth buffer roller 84, the glass fiber cloth unwinding device 1 stops unwinding the glass fiber cloth, the glass fiber cloth can be automatically adjusted in the tensioning force of the glass fiber cloth well through the glass fiber cloth buffer device 8, the glass fiber cloth is prevented from being excessively tensioned or loosened, and therefore the glass fiber cloth can be better conveyed and processed.

The embodiment includes two fiberglass cloth dipping and drying devices 2 for dipping and drying fiberglass cloth, the two fiberglass cloth dipping and drying devices 2 respectively include a fiberglass cloth drying device 21 for drying fiberglass cloth and a fiberglass cloth dipping device 22 for dipping the fiberglass cloth, a dipping tank 221 in the fiberglass cloth dipping device 22 close to the fiberglass cloth unwinding device 1 is filled with a dipping solution a, and the dipping solution a includes the following raw materials in parts by weight: 80 parts of epoxy modified PPO resin, 15 parts of hydrocarbon resin, 20 parts of modified cyanate ester resin, 10 parts of diallyl bisphenol A type benzoxazine resin, 5 parts of triallyl isocyanurate, 2 parts of curing agent, 1 part of initiator and 0.2 part of accelerator; a dipping tank 221211 in the other fiberglass cloth dipping device 2221 is filled with a dipping solution B, which comprises the following raw materials in parts by weight: 80 parts of epoxy modified PPO resin, 15 parts of hydrocarbon resin, 20 parts of modified cyanate ester resin, 10 parts of diallyl bisphenol A type benzoxazine resin, 10 parts of organic silicon resin, 5 parts of triallyl isocyanurate, 2 parts of curing agent, 1 part of initiator, 0.2 part of accelerator, 80 parts of filler and 80 parts of organic silicon powder; sending the glass fiber cloth sent by the glass fiber cloth unwinding device 1 into a dipping tank 221 filled with a dipping solution A for dipping treatment, sending the glass fiber cloth soaked with the dipping solution A into a drying tank 211 positioned above the dipping tank 221 filled with the dipping solution A for primary drying treatment, wherein the drying temperature of the primary drying treatment is 150 ℃, and a semi-cured adhesive layer with the thickness of 110 mu m is formed on the surface of the glass fiber cloth; the glass fiber cloth after the first drying treatment is sent into a dipping box 221 filled with a dipping solution B for dipping treatment, the glass fiber cloth soaked with the dipping solution B is sent into a drying box 211 positioned above the dipping box 221 filled with the dipping solution B for second drying treatment, the drying temperature of the second drying treatment is 155 ℃, a resin glue layer with the thickness of 300 mu m is formed on the surface of a semi-solidified glue layer, the dipping solution A is used for dipping treatment before the first drying treatment, the dipping solution A does not contain or contains a small amount of filler, the resin fluidity is good, the wettability and the permeability of the glass fiber cloth can be improved, the glue layer is formed, the dipping solution B is used for wrapping treatment before the second drying treatment, the dipping solution B contains a large amount of filler, the fluidity of the resin can be reduced, and the resin glue layer tightly wrapped on the semi-solidified glue layer can be formed, by combining the impregnation treatment with the impregnation solution A and the impregnation solution B and performing the drying treatment for two times, the prepared glass fiber adhesive cloth has the excellent characteristics of high adhesion, high toughness, high hardness, wear resistance, cold and heat shock resistance, high temperature aging resistance and the like, and can be suitable for severe use environments such as a high temperature environment and the like, so that the performance of a subsequent prepared copper-clad plate can be improved.

The working principle is as follows:

the glass fiber cloth unreeled by the glass fiber cloth unreeling device 1 is sequentially wound by a glass fiber cloth caching roller 84 in a glass fiber cloth caching device 8, a gumming box 221 in each glass fiber cloth gumming and drying device 2 and a drying box 211 and then is sent out from a glass fiber cloth sending-out device 3, when the glass fiber cloth is sent into the gumming box 221, glue solution adheres to the surface of the glass fiber cloth, and when the glass fiber cloth is sent into the drying box 211, the glue solution adhered to the surface of the glass fiber cloth is baked;

the utility model discloses can carry out the gumming stoving to the fine cloth of glass automatically, the fine bonding cloth of glass of making does not exist the problem of leaking to soak, whole glue content comparatively even, have high adhesion force, and the fine bonding cloth of glass of making can be applicable to the preparation of copper-clad plate well.

Of course, the above description is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (10)

1. Automatic gumming drying system of fine cloth of glass, its characterized in that: the glass fiber cloth winding and drying device comprises a glass fiber cloth unwinding device (1) for unwinding glass fiber cloth, at least two glass fiber cloth dipping and drying devices (2) for dipping and drying the glass fiber cloth, and a glass fiber cloth delivery device (3) for delivering the dipped and dried glass fiber cloth, wherein the glass fiber cloth unwound from the glass fiber cloth unwinding device (1) is sequentially wound through the glass fiber cloth dipping and drying devices (2) and then delivered out by the glass fiber cloth delivery device (3), each glass fiber cloth dipping and drying device (2) respectively comprises a glass fiber cloth drying device (21) for drying the glass fiber cloth and a plurality of glass fiber cloth dipping and glue devices (22) for dipping the glass fiber cloth, and the glass fiber cloth is sequentially wound into the glass fiber cloth drying device (21) after being wound through the glass fiber cloth dipping and glue devices (22) in the same glass fiber cloth dipping and drying device (2).

2. The automatic dipping and drying system for glass fiber cloth according to claim 1, which is characterized in that: each glass fiber cloth dipping device (22) comprises a dipping box (221) used for containing a solution to be dipped, a dipping conveying mechanism (222) used for conveying glass fiber cloth into the dipping box (221) and conveying the glass fiber cloth out of the dipping box (221), and each glass fiber cloth drying device (21) comprises a drying box (211) used for heating and drying the glass fiber cloth and a drying conveying mechanism (212) used for conveying the glass fiber cloth into the drying box (211) and conveying the glass fiber cloth out of the drying box (211).

3. The automatic dipping and drying system for glass fiber cloth according to claim 2, characterized in that: each glass fiber cloth drying device (21) further comprises a cooling box (213) used for cooling the glass fiber cloth heated by the drying box (211), the drying and conveying mechanism (212) is arranged in the cooling box (213), and the glass fiber cloth is sent out from the drying box (211) and then passes through the cooling box (213).

4. The automatic dipping and drying system for glass fiber cloth according to claim 2, characterized in that: and each drying box (211) is respectively arranged above the dipping boxes (221) in the same glass fiber cloth dipping and drying device (2).

5. The automatic dipping and drying system for glass fiber cloth according to claim 2, characterized in that: a drying box (211) is arranged between the glass fiber cloth drying device (21) and the delivery device in the glass fiber cloth dipping and drying device (2) close to the glass fiber cloth delivery device (3).

6. The automatic dipping and drying system for glass fiber cloth according to claim 2, characterized in that: each drying box (211) comprises a box body (2111), a drying channel (2112) for allowing the glass fiber cloth to pass through, and two heating zones (2113) which are respectively and symmetrically arranged at two sides of the drying channel (2112).

7. The automatic dipping and drying system for glass fiber cloth according to claim 2, characterized in that: each fine cloth drying device (21) of glass all still includes fine cloth exhaust apparatus (4) of glass who is used for collecting and discharging waste gas, fine cloth exhaust apparatus of glass (4) including collection gas mouth (41), exhaust duct (42), gas vent (43), set up air exhauster (44) in exhaust duct (42), gas vent (43) are linked together through exhaust duct (42) and collection gas mouth (41).

8. The automatic dipping and drying system for glass fiber cloth according to claim 7, characterized in that: the exhaust ports (43) in the glass fiber cloth exhaust devices (4) are arranged together in a centralized way.

9. The automatic dipping and drying system for glass fiber cloth according to claim 2, characterized in that: the temperature control device is characterized by further comprising a temperature display (5) for displaying the temperature value of each drying box (211), and temperature adjusting buttons (6) for adjusting the temperature value of each drying box (211), wherein the drying boxes (211) are respectively provided with a temperature sensor (7).

10. The automatic dipping and drying system for glass fiber cloth according to any one of claims 1 to 9, which is characterized in that: a glass fiber cloth cache device (8) is arranged between the glass fiber cloth unwinding device (1) and the glass fiber cloth dipping and drying device (2), the glass fiber cloth cache device (8) comprises a glass fiber cloth cache frame (81), a glass fiber cloth cache guide rail (82) arranged on the glass fiber cloth cache frame (81) along the vertical direction, a glass fiber cloth cache sliding block (83) connected to the glass fiber cloth cache guide rail (82) in a sliding way, and a glass fiber cloth cache roller (84) arranged on the glass fiber cloth cache sliding block (83), the device comprises a detected piece (85) arranged on a glass fiber cloth cache roller (84), an upper limit sensor (86) arranged at the top of a glass fiber cloth cache frame (81) and used for detecting the detected piece (85), and a lower limit sensor (87) arranged at the bottom of the glass fiber cloth cache frame (81) and used for detecting the detected piece (85), wherein the glass fiber cloth unwound by a glass fiber cloth unwinding device (1) is wound into a glass fiber cloth impregnation drying device (2) after being wound by the glass fiber cloth cache roller (84).

Images