CN113172955A

CN113172955A - Automatic aluminum foil and glass fiber cloth composite production line and production method

Info

Publication number: CN113172955A
Application number: CN202110457353.4A
Authority: CN
Inventors: 王国兴; 丁巧芬; 薛瑞方
Original assignee: Nanjing Suxia Design Group Co ltd
Current assignee: Nanjing Suxia Design Group Co ltd
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2021-07-27

Abstract

The invention discloses an automatic composite production line and a production method of aluminum foil glass fiber cloth, wherein the production line comprises a discharging roller pair, a guiding roller pair, a composite roller pair, a drying mechanism, a cooling mechanism and a receiving roller which are arranged in sequence, and a control console for automatically controlling the composite production process of the aluminum foil glass fiber cloth; the feeding roll pair comprises a glass fiber cloth feeding roll and an aluminum foil feeding roll which are oppositely arranged one on the other, the guiding roll pair comprises a glass fiber cloth guiding roll and an aluminum foil guiding roll which are oppositely arranged one on the other, the composite roll pair comprises a lower composite roll and an upper composite roll which is arranged above the lower composite roll in a height adjustable mode, the aluminum foil gluing mechanism comprises a glue conveying mechanism and a glue coating roll which is used for coating glue on the upper surface of an aluminum foil, and the control console comprises a controller and a touch liquid crystal display screen. The invention can effectively ensure the composite quality of the aluminum foil and the glass fiber cloth, and effectively avoids the problems of easy separation and peeling of the aluminum foil and the glass fiber cloth, unstable quality, high rejection rate and the like in the prior art.

Description

Automatic aluminum foil and glass fiber cloth composite production line and production method

Technical Field

The invention belongs to the technical field of aluminum foil glass fiber cloth, and particularly relates to an automatic composite production line and a production method of the aluminum foil glass fiber cloth.

Background

The aluminum foil glass fiber cloth is prepared by pressing an aluminum foil and glass fiber cloth, and the aluminum foil composite glass fiber cloth has the advantages of smooth and flat aluminum foil surface, high light reflectivity, high longitudinal and transverse tensile strength, air impermeability, water impermeability, good sealing performance and the like after being compounded.

In the production process of the aluminum foil glass fiber cloth production equipment in the prior art, the required glue amount is large, and the current production device scrapes glue from a liquid storage tank for storing the glue by using a scraping blade, so that the smearing work of the glue is realized, but after the glue in the liquid storage tank is scraped to a certain amount, the problem that the glue cannot be scraped exists, and the problems that the glue is not smeared uniformly, the aluminum foil and the glass fiber cloth are easily separated and peeled off, the quality is unstable, the rejection rate is high and the like are easily caused. In addition, the automation degree of the production of the aluminum foil glass fiber cloth in the prior art is not high enough, so that the production efficiency of the aluminum foil glass fiber cloth is low.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an automatic aluminum foil and glass fiber cloth composite production line aiming at the defects in the prior art, which can effectively ensure the composite quality of aluminum foil and glass fiber cloth and effectively avoid the problems of easy separation and peeling of the aluminum foil and the glass fiber cloth, unstable quality, high rejection rate and the like in the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that: an automatic composite production line of aluminum foil glass fiber cloth comprises a discharging roller pair, a guiding roller pair, a composite roller pair, a drying mechanism, a cooling mechanism, a material receiving roller and a control console for automatically controlling the composite production process of the aluminum foil glass fiber cloth, wherein the discharging roller pair, the guiding roller pair, the composite roller pair, the drying mechanism, the cooling mechanism and the material receiving roller are arranged in sequence;

the discharging pair rollers comprise a glass fiber cloth discharging roller and an aluminum foil discharging roller which are arranged oppositely from top to bottom, the glass fiber cloth discharging roller is connected with a glass fiber cloth discharging motor and is driven by the glass fiber cloth discharging motor to rotate, and the aluminum foil discharging roller is connected with an aluminum foil discharging motor and is driven by the aluminum foil discharging motor to rotate; the guide pair rollers comprise a glass fiber cloth guide roller and an aluminum foil guide roller which are arranged oppositely from top to bottom, the composite pair rollers comprise a lower composite roller and an upper composite roller which is arranged above the lower composite roller in a height-adjustable mode, the lower composite roller is connected with a lower composite motor and driven by the lower composite motor to rotate, and the upper composite roller is connected with an upper composite motor and driven by the upper composite motor to rotate; a glass fiber cloth heating dewaxing roller is arranged between the upper composite roller and the glass fiber cloth guide roller, and is connected with a glass fiber cloth heating dewaxing motor and driven to rotate by the glass fiber cloth heating dewaxing motor; an aluminum foil gluing mechanism is arranged between the lower composite roller and the aluminum foil guide roller; the material receiving roller is connected with a material receiving motor and is driven by the material receiving motor to rotate;

the aluminum foil gluing mechanism comprises a glue conveying mechanism and a glue spreading roller for spreading glue on the upper surface of an aluminum foil, the glue spreading roller is connected with a glue spreading roller motor and is driven to rotate by the glue spreading roller motor, a cavity is formed in the glue spreading roller, a glue outlet barrel is arranged in the cavity, a plurality of glue outlet pipes communicated with the inside of the glue outlet barrel are uniformly and fixedly connected to the surface of the glue outlet barrel, a plurality of glue outlet holes communicated with the cavity in the glue spreading roller are uniformly formed in the glue spreading roller, the positions of the plurality of glue outlet pipes and the positions of the plurality of glue outlet holes are in one-to-one correspondence, and the glue outlet pipes penetrate into the glue outlet holes and are connected with the inner walls of the glue outlet holes;

the utility model discloses a glass fiber cloth heating dewaxing machine, including the control cabinet, drying mechanism, cooling mechanism and glue conveying mechanism, the control cabinet includes the controller and the touch liquid crystal display who meets with the controller, drying mechanism, cooling mechanism and glue conveying mechanism all are connected with the controller, the output termination of controller has blowing motor drive, compound motor drive, heating dewaxing motor drive, rubber coating motor drive and receipts material motor drive, glass fiber cloth blowing motor and aluminium foil blowing motor all are connected with blowing motor drive's output, compound motor and last compound motor all are connected with compound motor drive's output down, glass fiber cloth heating dewaxing motor is connected with the output of heating dewaxing motor drive, the glue spreader motor is connected with the output of rubber coating motor drive, receive the material motor and receive the output of material motor drive and be connected.

Foretell fine cloth automatic composite production line of aluminium foil glass, stoving mechanism includes the stoving frame and rotates the stoving roller of connection at stoving frame top through stoving roller axis of rotation, be provided with heating resistor silk and be used for carrying out real-time detection's heating temperature sensor to heating temperature in the top inner chamber of stoving mechanism, heating temperature sensor's output is connected with the input of controller, the output termination of controller has the heating contactor who is used for switching on or breaking off the power supply circuit of heating resistor silk.

Foretell fine cloth automatic composite production line of aluminium foil glass, cooling body includes cooling frame, coolant tank and rotates the chill roll of connection at cooling frame top through the chill roll axis of rotation, be provided with the cooling water in cooling body's the top inner chamber and be used for carrying out real-time detection's cooling temperature sensor to the temperature of cooling water, coolant tank's delivery port is connected with the cooling water conveyer pipe of being connected with cooling body's top inner chamber, be connected with the cooling water delivery pump on the cooling water conveyer pipe, the output of cooling temperature sensor is connected with the input of controller, the output termination of controller has the cooling contactor who is used for putting through or breaking off the power supply circuit of cooling water delivery pump.

Foretell fine cloth automatic composite production line of aluminium foil glass, glue conveying mechanism includes the glue conveyer pipe of being connected with a glue section of thick bamboo and connects the point glue pump on the glue conveyer pipe, the top fixedly connected with of point glue pump input end stores up a glue section of thick bamboo, top one side fixedly connected with that stores up a glue section of thick bamboo adds the rubber tube, the output termination of controller has the point glue contactor that is used for putting through or breaks the power supply loop of some glue pumps.

Foretell fine cloth automatic composite production line of aluminium foil glass, aluminium foil rubber coating mechanism still includes the support, rotate through the bearing on the support and be connected with the bull stick, glue spreader fixed connection is on the bull stick, one side of bull stick is passed through belt drive mechanism and is connected with the glue spreader motor, the perforation has been seted up to the opposite side inside of bull stick, the glue conveyer pipe passes the perforation and is connected with a gluey section of thick bamboo of play.

In the automatic composite production line for the aluminum foil and glass fiber cloth, the glue outlet cylinder and the glue outlet pipe are both made of POM plastic.

The automatic composite production line for the aluminum foil and glass fiber cloth is characterized in that the controller is a PLC (programmable logic controller).

The invention also discloses an automatic composite production method of the aluminum foil and glass fiber cloth, which can effectively ensure the composite quality of the aluminum foil and the glass fiber cloth and effectively avoid the problems of easy separation and peeling of the aluminum foil and the glass fiber cloth, unstable quality, high rejection rate and the like in the prior art, and comprises the following steps:

step one, starting operation is carried out on a touch liquid crystal display screen;

the controller drives a glass fiber cloth discharging motor and an aluminum foil discharging motor to synchronously rotate through a discharging motor driver, the glass fiber cloth discharging motor drives a glass fiber cloth discharging roller to rotate, and the glass fiber cloth discharging roller and a glass fiber cloth guide roller conduct glass fiber cloth; the aluminum foil discharging motor drives the aluminum foil discharging roller to rotate, and the aluminum foil discharging roller and the aluminum foil guide roller conduct the aluminum foil;

driving a glass fiber cloth heating and dewaxing motor to rotate by a heating and dewaxing motor driver through a controller, driving a glass fiber cloth heating and dewaxing roller to rotate by the glass fiber cloth heating and dewaxing motor, and heating and dewaxing the glass fiber cloth;

meanwhile, the controller controls the glue conveying mechanism to convey glue into the glue outlet cylinder, and the glue is sprayed out from the liquid outlet pipe to coat the glue on the surface of the aluminum foil; meanwhile, the controller drives a glue spreader motor to rotate through a glue spreading motor driver, and the glue spreader motor drives a glue spreader to rotate, so that glue is uniformly spread on the surface of the aluminum foil;

driving a lower compound motor and an upper compound motor to synchronously rotate by a controller through a compound motor driver, driving a lower compound roller to rotate by the lower compound motor, driving an upper compound roller to rotate by the upper compound motor, and pressing and compounding the aluminum foil and the glass fiber cloth;

fifthly, the controller controls the drying mechanism to dry the glue on the aluminum foil glass fiber cloth;

step six, the controller controls the cooling mechanism to cool the aluminum foil glass fiber cloth;

and seventhly, the controller drives the material receiving motor to rotate through the material receiving motor driver, and the material receiving motor drives the material receiving roller to rotate so as to wind the aluminum foil glass fiber cloth.

The automatic composite production line for the aluminum foil and glass fiber cloth comprises a drying rack and a drying roller which is rotatably connected to the top of the drying rack through a rotating shaft of the drying roller, wherein a heating resistance wire and a heating temperature sensor for detecting the heating temperature in real time are arranged in an inner cavity at the top of the drying mechanism, the output end of the heating temperature sensor is connected with the input end of a controller, and the output end of the controller is connected with a heating contactor for switching on or off a power supply loop of the heating resistance wire;

in the fifth step, the controller controls the drying mechanism to perform glue drying on the aluminum foil glass fiber cloth in a specific process that: the controller controls the heating contactor to be connected with a power supply loop of the heating resistance wire, the heating resistance wire starts to heat and conducts heat to the drying roller to dry glue on the aluminum foil glass fiber cloth passing through the drying roller, the heating temperature sensor detects the heating temperature of the heating resistance wire in real time and outputs a detected signal to the controller in the drying process, the controller compares the received detected temperature with a preset temperature range, when the detected temperature is higher than the upper limit value of the preset temperature range, the heating contactor is controlled to disconnect the power supply loop of the heating resistance wire, and the heating resistance wire stops heating; and when the detected temperature is lower than the lower limit value of the preset temperature range, controlling the heating contactor to be connected with a power supply loop of the heating resistance wire, and starting heating the heating resistance wire.

The automatic composite production line for the aluminum foil and glass fiber cloth comprises a cooling rack, a cooling water tank and a cooling roller which is rotatably connected to the top of the cooling rack through a rotating shaft of the cooling roller, wherein a cooling water pipe and a cooling temperature sensor for detecting the temperature of the cooling water in real time are arranged in an inner cavity at the top of the cooling mechanism, a water outlet of the cooling water tank is connected with a cooling water conveying pipe connected with the inner cavity at the top of the cooling mechanism, the cooling water conveying pipe is connected with a cooling water conveying pump, the output end of the cooling temperature sensor is connected with the input end of a controller, and the output end of the controller is connected with a cooling contactor for switching on or off a power supply loop of the cooling water conveying pump;

the specific process that the controller controls the cooling mechanism to cool the aluminum foil glass fiber cloth in the sixth step is as follows: the controller controls the cooling contactor to be connected with a power supply loop of the cooling water delivery pump, the cooling water delivery pump starts to pump cooling water in the cooling water tank into a top inner cavity of the cooling mechanism through the cooling water delivery pipe, the cooling water is conducted onto the cooling roller in a cooling mode, glue is cooled on aluminum foil glass fiber cloth passing through the cooling roller, in the cooling process, the cooling temperature sensor detects the temperature of the cooling water in the top inner cavity of the cooling mechanism in real time and outputs a detected signal to the controller, the controller compares the received detected temperature with a preset temperature range, when the detected temperature is lower than the lower limit value of the preset temperature range, the cooling contactor is controlled to be disconnected from the power supply loop of the cooling water delivery pump, the cooling water delivery pump stops pumping the cooling water in the cooling water tank into the top inner cavity of the cooling mechanism through the cooling water delivery pipe, and when the detected temperature is higher than the upper limit value of the preset temperature range, and controlling the cooling contactor to be connected with a power supply loop of a cooling water delivery pump, and pumping the cooling water in the cooling water tank into the top inner cavity of the cooling mechanism by the cooling water delivery pump.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the aluminum foil gluing mechanism is matched with the composite double-roller and the material receiving roller, so that the effect of coating glue on the surface of the aluminum foil can be achieved, meanwhile, the glue dispensing pump is arranged, so that the effect of supplementing glue on the surface of the gluing roller at any time can be achieved, then, the composite double-roller is matched, so that the aluminum foil and the glass fiber cloth can be conveniently compounded and pressed, and finally, the material receiving roller is arranged, so that the aluminum foil and glass fiber cloth after being compounded can be rolled.

2. According to the invention, through the matching use of the structures such as the cavity, the glue outlet cylinder, the glue outlet pipe and the like, the glue can be ensured to be smoothly sprayed out from the interior of the glue spreader so as to finish the gluing effect on the aluminum foil, and through the arrangement of the rotating rod and the belt transmission mechanism, the glue spreader can be ensured to normally rotate, so that the glue can be uniformly spread.

3. The glue outlet tube and the glue outlet pipe made of POM plastic can avoid the problem that glue is adhered to the inner wall of the glue outlet tube.

4. According to the invention, the glass fiber cloth heating wax removing roller is arranged, so that wax on the surface of the glass fiber cloth can be removed, the using amount of glue can be reduced, and the composite quality can be effectively ensured.

5. The discharging double-roll, the guiding double-roll, the composite double-roll, the drying mechanism, the cooling mechanism and the receiving roll are matched, so that the composite quality of the aluminum foil and the glass fiber cloth can be effectively ensured, and the problems of easy separation and peeling of the aluminum foil and the glass fiber cloth, unstable quality, high rejection rate and the like in the prior art are effectively avoided.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

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

FIG. 2 is a schematic structural view of an aluminum foil glue spreading mechanism according to the present invention;

FIG. 3 is a schematic side cross-sectional view of a glue roll of the present invention;

FIG. 4 is a schematic structural diagram of a drying mechanism according to the present invention;

FIG. 5 is a schematic view of the cooling mechanism of the present invention;

FIG. 6 is a schematic diagram of the connection relationship between the controller and other components according to the present invention.

Description of reference numerals:

1-glass fiber cloth discharging roller; 2-aluminum foil discharging roller; 3, a fiberglass cloth guide roller;

4-aluminum foil guide roll; 5, a composite roller; 6-lower compound roller;

7-glass fiber cloth heating dewaxing roller; 8-aluminum foil gluing mechanism; 8-1-glue spreader;

8-2, discharging the rubber cylinder; 8-3-rubber outlet pipe; 8-4-glue outlet;

8-5-glue spreader motor; 8-6-belt drive mechanism; 8-7-glue conveying pipe;

8-glue dispensing pump; 8-9-glue storage cylinder; 8-10-adding a rubber tube;

8-11-scaffold; 8-12-bearing; 8-13-rotating rod;

8-14-dispensing contactor; 9-a glass fiber cloth discharging motor; 10-an aluminum foil discharging motor;

11-lower compound motor; 12-upper compound motor; 13-a glass fiber cloth heating dewaxing motor;

14-a console; 14-1 — a controller; 14-2-touch liquid crystal display;

14-3-a discharge motor driver; 14-4-compound motor drive;

14-5-heating dewaxing motor driver; 14-6-gluing motor driver;

14-7-a material receiving motor driver; 15-a material receiving motor; 16-a receiving roller;

17-a drying mechanism; 17-1-drying the rack; 17-2-rotating shaft of drying roller;

17-3-drying roller; 17-4-heating resistance wire; 17-5-heating temperature sensor;

17-6-heating the contactor; 18-a cooling mechanism; 18-1 — a cooling rack;

18-2-cooling roller rotation axis; 18-3-chill roll; 18-4-cooling water;

18-5-cooling the temperature sensor; 18-6-cooling water tank; 18-7-cooling water delivery pipe;

18-8-a cooling water delivery pump; 18-9 — cooling the contactor.

Detailed Description

As shown in fig. 1-6, the automatic aluminum foil and glass fiber cloth composite production line of the present embodiment includes a feeding roller, a guiding roller, a composite roller, a drying mechanism 17, a cooling mechanism 18, and a receiving roller 16, which are sequentially arranged, and a console 14 for automatically controlling the composite production process of the aluminum foil and glass fiber cloth;

the discharging pair rollers comprise a glass fiber cloth discharging roller 1 and an aluminum foil discharging roller 2 which are arranged oppositely from top to bottom, the glass fiber cloth discharging roller 1 is connected with a glass fiber cloth discharging motor 9 and is driven by the glass fiber cloth discharging motor 9 to rotate, and the aluminum foil discharging roller 2 is connected with an aluminum foil discharging motor 10 and is driven by the aluminum foil discharging motor 10 to rotate; the guide double-roll comprises a glass fiber cloth guide roll 3 and an aluminum foil guide roll 4 which are oppositely arranged up and down, the composite double-roll comprises a lower composite roll 6 and an upper composite roll 5 which is arranged above the lower composite roll 6 in a height-adjustable mode, the lower composite roll 6 is connected with a lower composite motor 11 and is driven by the lower composite motor 11 to rotate, and the upper composite roll 5 is connected with an upper composite motor 12 and is driven by the upper composite motor 12 to rotate; a glass fiber cloth heating dewaxing roller 7 is arranged between the upper composite roller 5 and the glass fiber cloth guide roller 3, and the glass fiber cloth heating dewaxing roller 7 is connected with a glass fiber cloth heating dewaxing motor 13 and is driven to rotate by the glass fiber cloth heating dewaxing motor 13; an aluminum foil gluing mechanism 8 is arranged between the lower composite roller 6 and the aluminum foil guide roller 4; the material receiving roller 16 is connected with the material receiving motor 15 and is driven by the material receiving motor 15 to rotate;

the aluminum foil gluing mechanism 8 comprises a glue conveying mechanism and a glue spreading roller 8-1 for spreading glue on the upper surface of the aluminum foil, the glue spreader 8-1 is connected with a glue spreader motor 8-5 and is driven to rotate by the glue spreader motor 8-5, a cavity is arranged in the glue spreader 8-1, a glue outlet cylinder 8-2 is arranged in the cavity, the surface of the glue outlet cylinder 8-2 is uniformly and fixedly connected with a plurality of glue outlet pipes 8-3 communicated with the inside of the glue outlet cylinder 8-2, a plurality of glue outlet holes 8-4 communicated with the inner cavity of the glue spreader 8-1 are uniformly arranged on the glue spreader, a plurality of glue outlet pipes 8-3 are in one-to-one correspondence with the positions of the glue outlet holes 8-4, the glue outlet pipe 8-3 penetrates into the glue outlet hole 8-4 and is connected with the inner wall of the glue outlet hole 8-4;

the control console 14 comprises a controller 14-1 and a touch liquid crystal display 14-2 connected with the controller 14-1, the drying mechanism 17, the cooling mechanism 18 and the glue conveying mechanism are all connected with the controller 14-1, the output end of the controller 14-1 is connected with a discharging motor driver 14-3, a composite motor driver 14-4, a heating and dewaxing motor driver 14-5, a gluing motor driver 14-6 and a receiving motor driver 14-7, the glass fiber cloth discharging motor 9 and the aluminum foil discharging motor 10 are all connected with the output end of the discharging motor driver 14-3, the lower composite motor 11 and the upper composite motor 12 are both connected with the output end of the composite motor driver 14-4, the glass fiber cloth heating and dewaxing motor 13 is connected with the output end of the heating and dewaxing motor driver 14-5, the glue spreader motor 8-5 is connected with the output end of the glue spreading motor driver 14-6, and the material receiving motor 15 is connected with the output end of the material receiving motor driver 14-7.

In specific implementation, the height of the upper composite roller 5 is adjusted by a manually controlled or automatically controlled lifting mechanism, and when the automatic control is adopted, the lifting can be controlled by the controller 14-1.

In this embodiment, the drying mechanism 17 includes a drying rack 17-1 and a drying roller 17-3 rotatably connected to the top of the drying rack 17-1 through a drying roller rotating shaft 17-2, a heating resistance wire 17-4 and a heating temperature sensor 17-5 for detecting the heating temperature in real time are arranged in an inner cavity of the top of the drying mechanism 17, an output end of the heating temperature sensor 17-5 is connected with an input end of a controller 14-1, and an output end of the controller 14-1 is connected with a heating contactor 17-6 for switching on or off a power supply loop of the heating resistance wire 17-4.

In this embodiment, the cooling mechanism 18 includes a cooling rack 18-1, a cooling water tank 18-6 and a cooling roller 18-3 rotatably connected to the top of the cooling rack 18-1 through a cooling roller rotating shaft 18-2, a cooling water 18-4 and a cooling temperature sensor 18-5 for detecting the temperature of the cooling water 18-4 in real time are disposed in an inner cavity at the top of the cooling mechanism 18, a cooling water delivery pipe 18-7 connected to the inner cavity at the top of the cooling mechanism 18 is connected to a water outlet of the cooling water tank 18-6, a cooling water delivery pump 18-8 is connected to the cooling water delivery pipe 18-7, an output end of the cooling temperature sensor 18-5 is connected to an input end of the controller 14-1, and an output end of the controller 14-1 is connected to a cooling contactor 18 for connecting or disconnecting a power supply circuit of the cooling water delivery pump 18-8 9.

In the embodiment, the glue conveying mechanism comprises a glue conveying pipe 8-7 connected with a glue outlet cylinder 8-2 and a glue dispensing pump 8-8 connected to the glue conveying pipe 8-7, the top of the input end of the glue dispensing pump 8-8 is fixedly connected with a glue storage cylinder 8-9, one side of the top of the glue storage cylinder 8-9 is fixedly connected with a glue adding pipe 8-10, and the output end of the controller 14-1 is connected with a glue dispensing contactor 8-14 used for connecting or disconnecting a power supply loop of the glue dispensing pump 8-8.

During specific implementation, the glue adding pipes 8-10 on the glue storage cylinders 8-9 can be used for supplementing glue inside the glue storage cylinders 8-9, so that the glue content inside the glue storage cylinders 8-9 is sufficient.

In this embodiment, the aluminum foil gluing mechanism 8 further comprises a support 8-11, a rotating rod 8-13 is rotatably connected to the support 8-11 through a bearing 8-12, the glue spreader 8-1 is fixedly connected to the rotating rod 8-13, one side of the rotating rod 8-13 is connected with a glue spreader motor 8-5 through a belt transmission mechanism 8-6, a perforation is formed in the other side of the rotating rod 8-13, and the glue conveying pipe 8-7 penetrates through the perforation and is connected with the glue outlet barrel 8-2.

The aluminum foil gluing mechanism 8 can ensure that glue can be smoothly sprayed out from the inside of the glue spreader 8-1 to finish the gluing effect on the aluminum foil by matching the structures such as the cavity, the glue outlet barrel 8-2, the glue outlet pipe 8-3 and the like, and can ensure that the glue spreader 8-1 can normally rotate and the glue can be uniformly coated by arranging the rotating rod 8-13 and the belt transmission mechanism 8-6.

In this embodiment, the glue outlet tube 8-2 and the glue outlet tube 8-3 are both made of POM plastic. The glue outlet tube 8-2 and the glue outlet tube 8-3 made of POM plastic can avoid the problem that glue is adhered to the inner wall of the glue outlet tube 8-2.

In this embodiment, the controller 14-1 is a PLC controller.

The automatic composite production method of the aluminum foil glass fiber cloth comprises the following steps:

step one, starting operation is carried out on a touch type liquid crystal display screen 14-2;

step two, the controller 14-1 drives the glass fiber cloth discharging motor 9 and the aluminum foil discharging motor 10 to synchronously rotate through the discharging motor driver 14-3, the glass fiber cloth discharging motor 9 drives the glass fiber cloth discharging roller 1 to rotate, and the glass fiber cloth discharging roller 1 and the glass fiber cloth guide roller 3 conduct the glass fiber cloth; the aluminum foil discharging motor 10 drives the aluminum foil discharging roller 2 to rotate, and the aluminum foil discharging roller 2 and the aluminum foil guide roller 4 conduct aluminum foils;

step three, the controller 14-1 drives the glass fiber cloth heating and dewaxing motor 13 to rotate through the heating and dewaxing motor driver 14-5, and the glass fiber cloth heating and dewaxing motor 13 drives the glass fiber cloth heating and dewaxing roller 7 to rotate so as to heat and dewax the glass fiber cloth;

in specific implementation, a heating element such as a heating resistance wire, a semiconductor heating sheet and the like is arranged in an inner cavity of the fiberglass cloth heating dewaxing roller 7, so that the heating function of the fiberglass cloth heating dewaxing roller 7 is realized;

meanwhile, the controller 14-1 controls the glue conveying mechanism to convey glue into the glue outlet cylinder 8-2, and the glue is sprayed out from the liquid outlet pipe 13 to coat the glue on the surface of the aluminum foil; meanwhile, the controller 14-1 drives the glue spreader motor 8-5 to rotate through the glue spreader motor driver 14-6, and the glue spreader motor 8-5 drives the glue spreader 8-1 to rotate, so that the glue is uniformly spread on the surface of the aluminum foil;

when glue is needed to be coated, the controller 14-1 is connected with a power supply loop of the glue dispensing pump 8-8 through the glue dispensing contactor 8-14, so that the glue dispensing pump 8-8 starts to work, the glue dispensing pump 8-8 pumps glue in the glue storage cylinder 8-9 into the glue outlet cylinder 8-2, and the function that the controller 14-1 controls the glue conveying mechanism to convey the glue into the glue outlet cylinder 8-2 is realized;

driving a lower compound motor 11 and an upper compound motor 12 to synchronously rotate by a controller 14-1 through a compound motor driver 14-4, driving a lower compound roller 6 to rotate by the lower compound motor 11, driving an upper compound roller 5 to rotate by the upper compound motor 12, and pressing and compounding the aluminum foil and the glass fiber cloth;

step five, the controller 14-1 controls the drying mechanism 17 to dry the glue on the aluminum foil glass fiber cloth;

step six, the controller 14-1 controls the cooling mechanism 18 to cool the aluminum foil glass fiber cloth;

and seventhly, the controller 14-1 drives the material receiving motor 15 to rotate through the material receiving motor driver 14-7, and the material receiving motor 15 drives the material receiving roller 16 to rotate so as to wind the aluminum foil glass fiber cloth.

During specific implementation, the height of the upper composite roller 5 is adjusted, the distance between the upper composite roller 5 and the lower composite roller 6 is adjusted, and then the pressure of the upper composite roller 5 and the lower composite roller 6 for pressing the composite aluminum foil and the glass fiber cloth is adjusted, so that the aluminum foil and the glass fiber cloth are tightly attached, the aluminum foil and the glass fiber cloth are not easy to separate and pull apart in the later period, and the glue is uniformly and smoothly coated.

In the embodiment, the drying mechanism 17 comprises a drying rack 17-1 and a drying roller 17-3 rotatably connected to the top of the drying rack 17-1 through a drying roller rotating shaft 17-2, a heating resistance wire 17-4 and a heating temperature sensor 17-5 for detecting the heating temperature in real time are arranged in an inner cavity of the top of the drying mechanism 17, the output end of the heating temperature sensor 17-5 is connected with the input end of a controller 14-1, and the output end of the controller 14-1 is connected with a heating contactor 17-6 for switching on or off a power supply loop of the heating resistance wire 17-4;

in the fifth step, the controller 14-1 controls the drying mechanism 17 to dry the glue to the aluminum foil glass fiber cloth in a specific process that: the controller 14-1 controls the heating contactor 17-6 to be connected with a power supply loop of the heating resistance wire 17-4, the heating resistance wire 17-4 starts to be heated, heat is conducted to the drying roller 17-3, glue drying is carried out on the aluminum foil glass fiber cloth passing through the drying roller 17-3, in the drying process, the heating temperature sensor 17-5 carries out real-time detection on the heating temperature of the heating resistance wire 17-4 and outputs a detected signal to the controller 14-1, the controller 14-1 compares the received detected temperature with a preset temperature range, when the detected temperature is higher than the upper limit value of the preset temperature range, the heating contactor 17-6 is controlled to be disconnected with the power supply loop of the heating resistance wire 17-4, and the heating resistance wire 17-4 stops heating; when the detected temperature is lower than the lower limit value of the preset temperature range, the heating contactor 17-6 is controlled to be connected with a power supply loop of the heating resistance wire 17-4, and the heating resistance wire 17-4 starts to heat. Therefore, the drying temperature can be always kept in a reasonable temperature range.

In this embodiment, the cooling mechanism 18 comprises a cooling rack 18-1, a cooling water tank 18-6 and a cooling roller 18-3 rotatably connected to the top of the cooling rack 18-1 through a cooling roller rotating shaft 18-2, a cooling water 18-4 and a cooling temperature sensor 18-5 for detecting the temperature of the cooling water in real time are arranged in the top inner cavity of the cooling mechanism 18, the water outlet of the cooling water tank 18-6 is connected with a cooling water delivery pipe 18-7 connected with the top inner cavity of the cooling mechanism 18, the cooling water delivery pipe 18-7 is connected with a cooling water delivery pump 18-8, the output end of the cooling temperature sensor 18-5 is connected with the input end of the controller 14-1, the output end of the controller 14-1 is connected with a cooling contactor 18-9 for switching on or off a power supply loop of a cooling water delivery pump 18-8;

in specific implementation, a top inner cavity of the cooling mechanism 18 is connected with a drain pipe for discharging cooling water which does not meet the temperature.

In the sixth step, the specific process of controlling the cooling mechanism 18 to cool the aluminum foil glass fiber cloth by the controller 14-1 is as follows: the controller 14-1 controls the cooling contactor 18-9 to be connected with a power supply loop of the cooling water delivery pump 18-8, the cooling water delivery pump 18-8 starts to pump cooling water in the cooling water tank 18-6 into a top inner cavity of the cooling mechanism 18 through the cooling water delivery pipe 18-7, the cooling water is conducted onto the cooling roller 18-3 in a cold mode, glue cooling is conducted on aluminum foil glass fiber cloth passing through the cooling roller 18-3, in the cooling process, the cooling temperature sensor 18-5 conducts real-time detection on the temperature of the cooling water 18-4 in the top inner cavity of the cooling mechanism 18 and outputs a detected signal to the controller 14-1, the controller 14-1 compares the received detected temperature with a preset temperature range, and when the detected temperature is lower than the lower limit value of the preset temperature range, the cooling contactor 18-9 is controlled to be disconnected with the power supply loop of the cooling water delivery pump 18-8, the cooling water delivery pump 18-8 stops pumping the cooling water in the cooling water tank 18-6 into the top inner cavity of the cooling mechanism 18 through the cooling water delivery pipe 18-7, when the detected temperature is higher than the upper limit value of the preset temperature range, the cooling contactor 18-9 is controlled to be connected with a power supply circuit of the cooling water delivery pump 18-8, and the cooling water delivery pump 18-8 starts pumping the cooling water in the cooling water tank 18-6 into the top inner cavity of the cooling mechanism 18 through the cooling water delivery pipe 18-7. In this way, the cooling temperature can be kept within a reasonable temperature range at all times.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, changes and equivalent structural changes made to the above embodiment according to the technical spirit of the present invention still fall within the protection scope of the technical solution of the present invention.

Claims

1. The utility model provides an automatic compound production line of aluminium foil glass fiber cloth which characterized in that: comprises a discharging roller pair, a guiding roller pair, a composite roller pair, a drying mechanism (17), a cooling mechanism (18) and a material receiving roller (16) which are arranged in sequence, and a control console (14) for automatically controlling the composite production process of the aluminum foil and glass fiber cloth;

the discharging pair rollers comprise a glass fiber cloth discharging roller (1) and an aluminum foil discharging roller (2) which are arranged oppositely from top to bottom, the glass fiber cloth discharging roller (1) is connected with a glass fiber cloth discharging motor (9) and is driven by the glass fiber cloth discharging motor (9) to rotate, and the aluminum foil discharging roller (2) is connected with an aluminum foil discharging motor (10) and is driven by the aluminum foil discharging motor (10) to rotate; the guide double-roll comprises a glass fiber cloth guide roll (3) and an aluminum foil guide roll (4) which are arranged oppositely from top to bottom, the composite double-roll comprises a lower composite roll (6) and an upper composite roll (5) which is arranged above the lower composite roll (6) in a height-adjustable mode, the lower composite roll (6) is connected with a lower composite motor (11) and driven by the lower composite motor (11) to rotate, and the upper composite roll (5) is connected with an upper composite motor (12) and driven by the upper composite motor (12) to rotate; a glass fiber cloth heating and dewaxing roller (7) is arranged between the upper composite roller (5) and the glass fiber cloth guide roller (3), and the glass fiber cloth heating and dewaxing roller (7) is connected with a glass fiber cloth heating and dewaxing motor (13) and is driven to rotate by the glass fiber cloth heating and dewaxing motor (13); an aluminum foil gluing mechanism (8) is arranged between the lower composite roller (6) and the aluminum foil guide roller (4); the material receiving roller (16) is connected with the material receiving motor (15) and is driven by the material receiving motor (15) to rotate;

the aluminum foil gluing mechanism (8) comprises a glue conveying mechanism and a glue spreader (8-1) used for spreading glue on the upper surface of an aluminum foil, the glue spreader (8-1) is connected with a glue spreader motor (8-5) and is driven to rotate by the glue spreader motor (8-5), a cavity is formed in the glue spreader (8-1), a glue outlet barrel (8-2) is arranged in the cavity, a plurality of glue outlet pipes (8-3) communicated with the inside of the glue outlet barrel (8-2) are uniformly and fixedly connected to the surface of the glue outlet barrel (8-2), a plurality of glue outlet holes (8-4) communicated with the inner cavity of the glue outlet barrel are uniformly formed in the glue spreader (8-1), and the positions of the glue outlet pipes (8-3) and the glue outlet holes (8-4) correspond one to one, the glue outlet pipe (8-3) penetrates into the glue outlet hole (8-4) and is connected with the inner wall of the glue outlet hole (8-4);

the control console (14) comprises a controller (14-1) and a touch liquid crystal display screen (14-2) connected with the controller (14-1), the drying mechanism (17), the cooling mechanism (18) and the glue conveying mechanism are all connected with the controller (14-1), the output end of the controller (14-1) is connected with a discharging motor driver (14-3), a composite motor driver (14-4), a heating and dewaxing motor driver (14-5), a gluing motor driver (14-6) and a receiving motor driver (14-7), the glass fiber cloth discharging motor (9) and the discharging motor (10) are all connected with the output end of an aluminum foil motor driver (14-3), the lower composite motor (11) and the upper composite motor (12) are all connected with the output end of the composite motor driver (14-4), the glass fiber cloth heating and dewaxing motor (13) is connected with the output end of the heating and dewaxing motor driver (14-5), the glue spreader motor (8-5) is connected with the output end of the glue spreading motor driver (14-6), and the material receiving motor (15) is connected with the output end of the material receiving motor driver (14-7).

2. The automatic composite production line of the aluminum foil glass fiber cloth according to claim 1, characterized in that: the drying mechanism (17) comprises a drying rack (17-1) and a drying roller (17-3) rotatably connected to the top of the drying rack (17-1) through a drying roller rotating shaft (17-2), a heating resistance wire (17-4) and a heating temperature sensor (17-5) for detecting the heating temperature in real time are arranged in an inner cavity of the top of the drying mechanism (17), the output end of the heating temperature sensor (17-5) is connected with the input end of a controller (14-1), and the output end of the controller (14-1) is connected with a heating contactor (17-6) for switching on or off a power supply loop of the heating resistance wire (17-4).

3. The automatic composite production line of the aluminum foil glass fiber cloth according to claim 1, characterized in that: the cooling mechanism (18) comprises a cooling rack (18-1), a cooling water tank (18-6) and a cooling roller (18-3) which is rotatably connected to the top of the cooling rack (18-1) through a cooling roller rotating shaft (18-2), cooling water (18-4) and a cooling temperature sensor (18-5) for detecting the temperature of the cooling water (18-4) in real time are arranged in an inner cavity at the top of the cooling mechanism (18), a cooling water delivery pipe (18-7) connected with the inner cavity at the top of the cooling mechanism (18) is connected to a water outlet of the cooling water tank (18-6), a cooling water delivery pump (18-8) is connected to the cooling water delivery pipe (18-7), and an output end of the cooling temperature sensor (18-5) is connected with an input end of a controller (14-1), the output end of the controller (14-1) is connected with a cooling contactor (18-9) for connecting or disconnecting a power supply loop of a cooling water delivery pump (18-8).

4. The automatic composite production line of the aluminum foil glass fiber cloth according to the claim 1, 2 or 3, characterized in that: glue conveying mechanism includes glue conveyer pipe (8-7) and the point gum pump (8-8) of connection on glue conveyer pipe (8-7) of being connected with a gluey section of thick bamboo (8-2) of going out, the top fixedly connected with of point gum pump (8-8) input stores up a gluey section of thick bamboo (8-9), the top one side fixedly connected with of storing up a gluey section of thick bamboo (8-9) adds rubber tube (8-10), the output termination of controller (14-1) has a point gum contactor (8-14) that is used for putting through or breaking the power supply circuit of some gum pump (8-8).

5. The automatic composite production line of the aluminum foil glass fiber cloth according to claim 4 is characterized in that: aluminium foil rubber coating mechanism (8) still include support (8-11), it is connected with bull stick (8-13) to rotate through bearing (8-12) on support (8-11), glue spreader (8-1) fixed connection is on bull stick (8-13), one side of bull stick (8-13) is passed through belt drive mechanism (8-6) and is connected with glue spreader motor (8-5), the perforation has been seted up to the opposite side inside of bull stick (8-13), glue conveyer pipe (8-7) pass the perforation and are connected with a gluey section of thick bamboo (8-2).

6. The automatic composite production line of the aluminum foil glass fiber cloth according to the claim 1, 2 or 3, characterized in that: the glue outlet cylinder (8-2) and the glue outlet pipe (8-3) are both made of POM plastic.

7. The automatic composite production line of the aluminum foil glass fiber cloth according to the claim 1, 2 or 3, characterized in that: the controller (14-1) is a PLC controller.

8. A method for producing aluminum foil glass fiber cloth by using the automatic aluminum foil glass fiber cloth composite production line of claim 1, 2 or 3, which is characterized by comprising the following steps:

step one, starting operation is carried out on a touch type liquid crystal display screen (14-2);

step two, the controller (14-1) drives a glass fiber cloth discharging motor (9) and an aluminum foil discharging motor (10) to synchronously rotate through a discharging motor driver (14-3), the glass fiber cloth discharging motor (9) drives a glass fiber cloth discharging roller (1) to rotate, and the glass fiber cloth discharging roller (1) and a glass fiber cloth guide roller (3) conduct glass fiber cloth; an aluminum foil discharging motor (10) drives an aluminum foil discharging roller (2) to rotate, and the aluminum foil discharging roller (2) and an aluminum foil guide roller (4) conduct aluminum foils;

thirdly, the controller (14-1) drives the glass fiber cloth heating and dewaxing motor (13) to rotate through the heating and dewaxing motor driver (14-5), and the glass fiber cloth heating and dewaxing motor (13) drives the glass fiber cloth heating and dewaxing roller (7) to rotate so as to heat and dewax the glass fiber cloth;

meanwhile, the controller (14-1) controls the glue conveying mechanism to convey glue into the glue outlet cylinder (8-2), and the glue is sprayed out from the liquid outlet pipe (13) to coat the glue on the surface of the aluminum foil; meanwhile, the controller (14-1) drives a glue spreader motor (8-5) to rotate through a glue spreader motor driver (14-6), and the glue spreader motor (8-5) drives a glue spreader (8-1) to rotate, so that glue is uniformly spread on the surface of the aluminum foil;

driving a lower composite motor (11) and an upper composite motor (12) to synchronously rotate by a controller (14-1) through a composite motor driver (14-4), driving a lower composite roller (6) to rotate by the lower composite motor (11), driving an upper composite roller (5) to rotate by the upper composite motor (12), and pressing and compounding the aluminum foil and the glass fiber cloth;

fifthly, the controller (14-1) controls the drying mechanism (17) to dry the glue on the aluminum foil glass fiber cloth;

step six, the controller (14-1) controls the cooling mechanism (18) to cool the aluminum foil glass fiber cloth;

and seventhly, the controller (14-1) drives the material receiving motor (15) to rotate through the material receiving motor driver (14-7), and the material receiving motor (15) drives the material receiving roller (16) to rotate so as to roll the aluminum foil glass fiber cloth.

9. The automatic composite production line of the aluminum foil glass fiber cloth according to claim 8, characterized in that: the drying mechanism (17) comprises a drying rack (17-1) and a drying roller (17-3) which is rotatably connected to the top of the drying rack (17-1) through a drying roller rotating shaft (17-2), a heating resistance wire (17-4) and a heating temperature sensor (17-5) for detecting the heating temperature in real time are arranged in an inner cavity of the top of the drying mechanism (17), the output end of the heating temperature sensor (17-5) is connected with the input end of a controller (14-1), and the output end of the controller (14-1) is connected with a heating contactor (17-6) for switching on or off a power supply loop of the heating resistance wire (17-4);

in the fifth step, the controller (14-1) controls the drying mechanism (17) to dry the glue on the aluminum foil glass fiber cloth in a concrete process that: the controller (14-1) controls the heating contactor (17-6) to be connected with a power supply loop of the heating resistance wire (17-4), the heating resistance wire (17-4) starts to heat, the heat is conducted to the drying roller (17-3), glue drying is carried out on the aluminum foil glass fiber cloth passing through the drying roller (17-3), in the drying process, the heating temperature sensor (17-5) carries out real-time detection on the heating temperature of the heating resistance wire (17-4) and outputs the detected signal to the controller (14-1), the controller (14-1) compares the received detection temperature with a preset temperature range, when the detected temperature is higher than the upper limit value of the preset temperature range, controlling the heating contactor (17-6) to cut off a power supply loop of the heating resistance wire (17-4), and stopping heating the heating resistance wire (17-4); when the detected temperature is lower than the lower limit value of the preset temperature range, the heating contactor (17-6) is controlled to be connected with a power supply loop of the heating resistance wire (17-4), and the heating resistance wire (17-4) starts to heat.

10. The automatic composite production line of the aluminum foil glass fiber cloth according to claim 8, characterized in that: the cooling mechanism (18) comprises a cooling rack (18-1), a cooling water tank (18-6) and a cooling roller (18-3) which is rotatably connected to the top of the cooling rack (18-1) through a cooling roller rotating shaft (18-2), cooling water (18-4) and a cooling temperature sensor (18-5) for detecting the temperature of the cooling water in real time are arranged in an inner cavity at the top of the cooling mechanism (18), a water outlet of the cooling water tank (18-6) is connected with a cooling water conveying pipe (18-7) connected with the inner cavity at the top of the cooling mechanism (18), the cooling water conveying pipe (18-7) is connected with a cooling water conveying pump (18-8), an output end of the cooling temperature sensor (18-5) is connected with an input end of a controller (14-1), the output end of the controller (14-1) is connected with a cooling contactor (18-9) for connecting or disconnecting a power supply loop of a cooling water delivery pump (18-8);

in the sixth step, the specific process that the controller (14-1) controls the cooling mechanism (18) to cool the aluminum foil glass fiber cloth comprises the following steps: the controller (14-1) controls the cooling contactor (18-9) to be connected with a power supply loop of the cooling water delivery pump (18-8), the cooling water delivery pump (18-8) starts to pump cooling water in the cooling water tank (18-6) into a top inner cavity of the cooling mechanism (18) through the cooling water delivery pipe (18-7), the cooling water is conducted onto the cooling roller (18-3) in a cold mode and cools aluminum foil glass fiber cloth passing through the cooling roller (18-3) through glue, in the cooling process, the cooling temperature sensor (18-5) conducts real-time detection on the temperature of the cooling water (18-4) in the top inner cavity of the cooling mechanism (18) and outputs detected signals to the controller (14-1), and the controller (14-1) compares the received detected temperature with a preset temperature range, when the detected temperature is lower than the lower limit value of the preset temperature range, the cooling contactor (18-9) is controlled to disconnect the power supply loop of the cooling water delivery pump (18-8), the cooling water delivery pump (18-8) stops pumping the cooling water in the cooling water tank (18-6) into the top inner cavity of the cooling mechanism (18) through the cooling water delivery pipe (18-7), when the detected temperature is higher than the upper limit value of the preset temperature range, the cooling contactor (18-9) is controlled to connect the power supply loop of the cooling water delivery pump (18-8), and the cooling water delivery pump (18-8) starts pumping the cooling water in the cooling water tank (18-6) into the top inner cavity of the cooling mechanism (18) through the cooling water delivery pipe (18-7).