CN115431538A

CN115431538A - Adhesive layer laminating production line for conveying belt

Info

Publication number: CN115431538A
Application number: CN202210957390.6A
Authority: CN
Inventors: 张之华; 顾金华; 陈剑深; 曾文伟
Original assignee: Guangdong Boshun Belt Industry Co ltd
Current assignee: Guangdong Boshun Belt Industry Co ltd
Priority date: 2022-08-10
Filing date: 2022-08-10
Publication date: 2022-12-06
Anticipated expiration: 2042-08-10
Also published as: CN115431538B

Abstract

The invention discloses a conveying belt glue layer laminating production line, which comprises: the fiber cloth winding device comprises an uncoiling module, a polishing module, a coating module, a drying module, a forming module, a laminating module, a cutting module, a winding module and a base, wherein the uncoiling module, the polishing module, the coating module, the drying module, the laminating module, the cutting module and the winding module are sequentially arranged, communicated and installed on the top side of the base, and the fiber cloth is sequentially wound and transmitted to the modules; the output end of the forming module is arranged on the top side of the laminating module, and the glue layer plate output by the forming module covers the top surface of the fiber cloth at the laminating module and is laminated through the laminating module. According to the conveying belt glue layer laminating equipment, the laminating module is additionally arranged behind the drying module, and the forming module is additionally arranged on the top side of the laminating module, so that the conveying belt does not need to be coated with glue layers for many times in the production process.

Description

Adhesive layer laminating production line for conveying belt

Technical Field

The invention relates to the technical field of conveyer belt production equipment, in particular to a conveyer belt glue layer laminating production line.

Background

Its gluey surface material of PVC conveyer belt is polyvinyl chloride, and it constitutes to glue with polyvinyl chloride for polyester fiber cloth and constitutes, to the higher use of transportation intensity, in order to guarantee conveyer belt intensity, then need guarantee that conveyer belt itself has certain thickness.

However, due to the flowability of polyvinyl chloride, the thickness of the coated layer cannot be guaranteed, multiple times of coating, multiple times of drying, rolling and laminating are needed to guarantee the thickness, or multiple layers of skeleton fabric layers are added, three-cloth three-glue, four-cloth three-glue and the like are usually adopted to increase the laminating thickness of the conveyer belt, the multiple coating in the production process needs a longer coating period, the multiple addition of the skeleton fabric layers needs higher production cost, and the production process is complex.

Disclosure of Invention

Therefore, a conveying belt glue layer laminating production line is needed to be provided for solving the technical problem that multiple coating is needed for the lamination of fiber cloth and PVC in the existing PVC conveying belt production process.

A conveying belt glue layer laminating production line comprises an uncoiling module, a polishing module, a coating module, a drying module, a forming module, a laminating module, a cutting module, a winding module and a base, wherein the uncoiling module, the polishing module, the coating module, the drying module, the laminating module, the cutting module and the winding module are sequentially arranged, communicated and installed on the top side of the base, and a fiber cloth is sequentially wound and transmitted to the modules; the output end of the forming module is arranged on the top side of the covering module, the glue layer plate output by the forming module covers the top surface of the fiber cloth at the covering module, the covering is carried out through the conforming module, and finally the winding is finished through the winding module after the cutting module carries out fixed-length cutting.

In one embodiment, the lamination module includes a first pressing roller, a second pressing roller, and a third pressing roller, wherein the first pressing roller, the second pressing roller, and the third pressing roller are parallel to each other, and the first pressing roller, the second pressing roller, and the third pressing roller are sequentially spaced by a predetermined distance and are correspondingly arranged.

In one embodiment, the output end of the forming module is disposed on the top side between the first pressing roller and the second pressing roller, the fiber cloth is sequentially and alternately wound on the side surfaces of the first pressing roller, the second pressing roller and the third pressing roller, meanwhile, the adhesive layer plates output by the forming module are intersected with the top side surface of the fiber cloth at the position between the first pressing roller and the second pressing roller, and the fiber cloth and the adhesive layer plates on the top side surface thereof are sequentially and continuously rolled and laminated by the first pressing roller, the second pressing roller and the third pressing roller, and then are wound by the winding module.

In one embodiment, the above-mentioned laminating module further includes a first mounting base and two lead screw lifting motors, the first mounting base is disposed on the top side of the base corresponding to the laminating module, the two lead screw lifting motors are disposed on the bottom sides of the two ends of the first mounting base corresponding to the laminating module, and the output end of each lead screw lifting motor is connected to the bottom side of the corresponding end of the first mounting base.

In one embodiment, the first pressing roller, the second pressing roller and the third pressing roller are installed in the first installation seat.

In one embodiment, the molding module includes an extruder, a pouring pipe, a rubber sheet mold, and a discharge port, wherein the extruder is disposed on the top side of the base, the output end of the extruder is connected to the rubber sheet mold through the pouring pipe, the rubber sheet mold is connected to the discharge port, and the discharge port corresponds to the top side disposed between the first pressing roller and the second pressing roller.

In one embodiment, the decoiling module includes a second mounting seat, a decoiling roller and a first leveling component, wherein the second mounting seat and the first leveling component are disposed on the top surface of the base, the decoiling roller is rotatably mounted on the second mounting seat, and the first leveling component is disposed between the decoiling roller and the polishing module.

In one embodiment, the first leveling assembly has a plurality of rollers.

In one embodiment, the polishing module includes a third mounting seat, a polishing component, a cleaning component and a transmission component, wherein the third mounting seat is disposed on the top side of the base, the polishing component, the cleaning component and the transmission component are all mounted on the third mounting seat, the polishing component and the cleaning component are sequentially disposed along the transmission direction of the fiber cloth, and the transmission component is respectively disposed in cooperation with the polishing component and the cleaning component, so that the surface on the top side of the fiber cloth abuts against the polishing end of the polishing component and the cleaning end of the cleaning component.

In one embodiment, the polishing assembly includes a first driving motor and a polishing roller, wherein the first driving motor is disposed on the top side of the base, the polishing roller is rotatably mounted on the third mounting base, and an output end of the first driving motor is in transmission connection with the polishing roller so as to drive the polishing roller to rotate.

In one embodiment, the cleaning assembly includes a second driving motor and a cleaning roller, wherein the second driving motor is disposed on the top side of the base, the cleaning roller is rotatably mounted on the third mounting base in parallel with the polishing roller, and an output end of the second driving motor is connected to the cleaning roller in a transmission manner, so as to drive the cleaning roller to rotate.

In one embodiment, the conveying assembly comprises two conveying rollers and a nip roller, wherein the two conveying rollers and the nip roller are arranged on the bottom sides of the polishing roller and the cleaning roller and are respectively rotatably arranged on the third mounting seats, and when the fiber cloth passes through the polishing module, the two conveying rollers and the nip roller are abutted against the bottom side surface of the fiber cloth; the two transmission rollers are respectively arranged on two sides of the third mounting seat; the material pressing roller is arranged between the grinding roller and the cleaning roller.

In one embodiment, the coating module comprises a PVC coating apparatus disposed on a top side of the base plate.

In one embodiment, the drying module includes a conveyor belt drying device, the conveyor belt drying device is disposed on the top side of the base, and the fiber cloth coated by the coating module is conveyed to the conveyor belt drying device.

In one embodiment, the cutting module includes a second leveling component, a fourth mounting base and a cutting component, wherein the fourth mounting base is disposed on the top side of the base, and the second leveling component is disposed between the fourth mounting base and the covering module; the cutting assembly is mounted on the fourth mounting seat.

In one embodiment, the cutting assembly comprises four conveying rollers for conveying the conveyer belt, a cutter head and a cutting plate, wherein the two conveying rollers are respectively arranged at two sides of the fourth mounting seat, and the two conveying rollers are respectively arranged at two ends of the top surface of the fourth mounting seat and respectively convey the conveyer belt; the cutting plate is arranged on the surface of the top side of the fourth mounting seat and is used for supporting the conveying belt in transmission; the tool bit is correspondingly arranged on the top surface of the cutting board.

In one embodiment, the winding module includes a fifth mounting bracket and a winding roller, the fifth mounting bracket is disposed on the top side of the base, and the winding roller is rotatably mounted on the fifth mounting seat.

In one embodiment, the conveyer belt glue layer laminating device further includes a plurality of roller driving motors, and the plurality of roller driving motors are respectively disposed in the uncoiling module, the polishing module, the coating module, the laminating module, the cutting module and the coiling module, and respectively can drive the first pressing roller, the second pressing roller, the third pressing roller, the uncoiling roller, the plurality of transmission rollers, the nip roller and the coiling roller to rotate.

In conclusion, the conveyer belt glue layer laminating equipment disclosed by the invention has the advantages that the laminating module is additionally arranged behind the drying module, and the forming module is additionally arranged on the top side of the laminating module, so that the conveyer belt does not need to be coated with glue layers for multiple times in the production process, the glue layers are formed at one time through the forming module, and then the laminating module is used for laminating at one time, so that the production time of the conveyer belt is greatly saved, and the production cost is greatly reduced.

Drawings

FIG. 1 is a schematic view of a glue layer laminating line of a conveyor belt according to an embodiment;

FIG. 2 is a schematic view of a laminating module of the adhesive layer laminating line of the conveyor belt in one embodiment;

FIG. 3 is a schematic view of a polishing module of the adhesive layer laminating production line of the conveyor belt according to one embodiment;

FIG. 4 is a schematic view of an uncoiling module of the conveyor laminating line according to one embodiment;

FIG. 5 is a schematic diagram of a cutting module of the conveyor belt glue layer lamination line in one embodiment;

fig. 6 is a schematic view of a rolling module of the conveyor belt glue layer laminating production line in one embodiment.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature "under," "beneath," and "under" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1 to 6, the invention discloses a conveying belt glue layer laminating production line, which comprises an uncoiling module 1, a polishing module 2, a coating module 3, a drying module 4, a forming module 5, a laminating module 6, a cutting module 7, a winding module 8 and a base 100, wherein the uncoiling module 1, the polishing module 2, the coating module 3, the drying module 4, the laminating module 6, the cutting module 7 and the winding module 8 are sequentially arranged, communicated and installed on the top side of the base 100, and a fiber cloth 101 is sequentially wound and transmitted to the modules; the output end of the forming module 5 is arranged on the top side of the covering module 6, the glue layer plate output by the forming module 5 covers the top surface of the fiber cloth 101 at the covering module 6, covering is carried out through the covering module, and finally winding is completed through the winding module 8 after fixed-length cutting is carried out through the cutting module 7.

Further, the laminating module 6 includes a first pressing roller 61, a second pressing roller 62 and a third pressing roller 63, wherein the first pressing roller 61, the second pressing roller 62 and the third pressing roller 63 are parallel to each other, and the first pressing roller 61, the second pressing roller 62 and the third pressing roller 63 are sequentially spaced by a preset distance and are correspondingly arranged. Specifically, the output end of the forming module 5 is arranged on the top side between the first pressing roller 61 and the second pressing roller 62, the fiber cloth 101 is sequentially and alternately wound on the side surfaces of the first pressing roller 61, the second pressing roller 62 and the third pressing roller 63, and meanwhile, the adhesive layer plate output by the forming module 5 is intersected with the top side surface of the fiber cloth 101 at the position between the first pressing roller 61 and the second pressing roller 62 and is wound between the first pressing roller 61 and the second pressing roller 62 along with the driving of the fiber cloth 101 for pressing; the fiber cloth 101 and the glue layer plate on the top surface thereof are rolled and laminated continuously by the first press roller 61, the second press roller 62 and the third press roller 63 in sequence and then are rolled by the rolling module 8.

Further, the combining module 6 further includes a first mounting seat 64 and two lead screw lifting motors 65, the first mounting seat 64 is disposed on the top side of the base 100 corresponding to the combining module 6, the two lead screw lifting motors 65 are disposed on the bottom sides of the two ends of the first mounting seat 64 corresponding to each other, and the output end of each lead screw lifting motor 65 is connected to the bottom side of the corresponding end of the first mounting seat 64, so that the two lead screw lifting motors 65 can control the lifting of the first mounting seat 64. Specifically, the first pressing roller 61, the second pressing roller 62, and the third pressing roller 63 are installed in the first installation seat 64.

Further, the molding module 5 includes an extruder 51, a pouring pipe 52, a glue film mold 53 and a discharge port 54, wherein the extruder 51 is disposed on the top side of the base 100, the output end of the extruder 51 is connected to the glue film mold 53 through the pouring pipe 52, the glue film mold 53 is connected to the discharge port 54, and the discharge port 54 is correspondingly disposed on the top side between the first pressing roller 61 and the second pressing roller 62. The raw material particles of the glue layer plate are converted into a molten state through an extruder 51 and extruded, are transmitted to a glue layer plate mold 53 through a pouring pipeline 52 for pouring and cooling, and are output to a position between a first pressing roller 61 and a second pressing roller 62 through a discharge port 54, so that the glue layer plate is covered with the fiber cloth 101.

Further, the decoiling module 1 includes a second mounting seat 11, a decoiling roller 12 and a first leveling component 13, wherein the second mounting seat 11 and the first leveling component 13 are disposed on the top surface of the base 100, the decoiling roller 12 is rotatably mounted on the second mounting seat 11, and the first leveling component 13 is disposed between the decoiling roller 12 and the polishing module 2. The side surface of unwinding roller 12 is located to the cover is rolled up to fibre cloth 101 to the one end that outer surface was rolled up to fibre cloth 101 is transmitted to the module 2 of polishing after the flattening of a plurality of running rollers of first flattening subassembly 13 and is carried out the polishing on fibre cloth 101 surface.

Further, module 2 of polishing includes third mount pad 21, the subassembly 22 of polishing, clean subassembly 23 and transmission assembly 24, wherein, third mount pad 21 sets up in the top side of base 100, the subassembly 22 of polishing, clean subassembly 23 and transmission assembly 24 and all install in third mount pad 21, the subassembly 22 of polishing and clean subassembly 23 along the transmission direction of fibre cloth 101 set up according to the preface, transmission assembly 24 sets up with the subassembly 22 of polishing and the cooperation of cleaning subassembly 23 respectively, so that fibre cloth 101 top side surface and the end of polishing of the subassembly 22 of polishing and the end of cleaning subassembly 23 butt each other, thereby accomplish polishing and the process of cleaning of fibre cloth 101 top side surface in order.

Specifically, the grinding assembly 22 comprises a first driving motor 221 and a grinding roller 222, wherein the first driving motor 221 is disposed on the top side of the base 100, the grinding roller 222 is rotatably mounted on the third mounting seat 21, and an output end of the first driving motor 221 is in transmission connection with the grinding roller 222 so as to drive the grinding roller 222 to rotate, so that the top surface of the fiber cloth 101 is ground through a side surface of the grinding roller 222, and further, the surface roughness of the top surface of the fiber cloth 101 is improved, and the surface PVC adhesion of the surface of the fiber cloth 101 is improved.

Specifically, the cleaning assembly 23 comprises a second driving motor 231 and a cleaning roller 232, wherein the second driving motor 231 is arranged on the top side of the base 100, the cleaning roller 232 is rotatably mounted on the third mounting seat 21 in parallel to the polishing roller 222, and the output end of the second driving motor 231 is in transmission connection with the cleaning roller 232 so as to drive the cleaning roller 232 to rotate, so that the top side surface of the fiber cloth 101 polished by the polishing roller 222 is cleaned, thereby cleaning and removing debris generated by polishing the top side surface of the fiber cloth 101, and further better coating the bonding PVC.

Specifically, the conveying assembly 24 comprises two conveying rollers 103 and a nip roller 241, wherein the two conveying rollers 103 and the nip roller 241 are both arranged at the bottom sides of the grinding roller 222 and the cleaning roller 232 and are respectively rotatably mounted on the third mounting seat 21, and when the fiber cloth 101 passes through the grinding module 2, the two conveying rollers 103 and the nip roller 241 are both abutted against the bottom side surface of the fiber cloth 101; the two transmission rollers 103 are respectively arranged at two sides of the third mounting seat 21, so as to respectively support and transmit an input point and an output point of the fiber cloth 101 at the polishing module 2; the nip roll 241 is disposed between the polishing roll 222 and the cleaning roll 232, and an operator can adjust the contact area and the interaction force between the top surface of the fiber cloth 101 and the polishing roll 222 and the cleaning roll 232 by adjusting the relative position between the nip roll 241 and the polishing roll 222, so as to control the polishing layer degree and the cleaning cleanliness of the top surface of the fiber cloth 101.

Further, the coating module 3 includes a PVC coating apparatus 31, the PVC coating apparatus 31 is disposed on the top side of the base 100, and the fiber cloth 101 polished by the polishing module 2 is transferred to the PVC coating apparatus 31 for PVC coating. Specifically, the PVC coating apparatus 31 coats PVC on the top surface of the fiber cloth 101, thereby forming a PVC layer of a predetermined thickness on the top surface of the fiber cloth 101.

Further, drying module 4 includes conveyer belt drying equipment 41, conveyer belt drying equipment 41 sets up in the top side of base 100, and, fibre cloth 101 after coating module 3 coating transmits to conveyer belt drying equipment 41, and conveyer belt drying equipment 41 carries out the drying to the PVC layer on fibre cloth 101 top surface, thereby makes the PVC layer dry to predetermineeing the degree and transmit to combining module 6 and glue film board and carry out the laminating process, with this promotion glue film board and the bonding firmness on fibre cloth 101 top surface.

Further, the cutting module 7 includes a second leveling component 71, a fourth mounting seat 72 and a cutting component 73, wherein the fourth mounting seat 72 is disposed on the top side of the base 100, and the second leveling component 71 is disposed between the fourth mounting seat 72 and the combining module 6; cutting assembly 73 is mounted to fourth mount 72. Specifically, the cutting assembly 73 includes four conveying rollers 103 for conveying the conveyor belt, a cutter head 731 and a cutting plate 732, wherein the two conveying rollers 103 are respectively disposed at two sides of the fourth mounting seat 72, and the two conveying rollers 103 are respectively disposed at two ends of the top surface of the fourth mounting seat 72 and respectively convey the conveyor belt; the cutting plate 732 is disposed on the top surface of the fourth mounting seat 72 and supports the conveying belt during conveying; the cutting head 731 is correspondingly arranged on the top surface of the cutting plate 732, and the conveyer belt after the laminating process is flattened by a plurality of rollers of the second flattening component 71 and then is conveyed between the cutting head 731 and the cutting plate 732 for fixed-length cutting of the conveyer belt.

Further, the winding module 8 includes a fifth mounting bracket 81 and a winding roller 82, the fifth mounting bracket 81 is disposed on the top side of the base 100, and the winding roller 82 is rotatably mounted on the fifth mounting seat and winds the conveyor belt product after the cutting process is completed.

Further, conveyer belt glue film laminating equipment still includes a plurality of roll body driving motor, a plurality of roll body driving motor set up respectively in opening a book module 1, the module 2 of polishing, coating module 3, laminating module 6, cutting module 7 and rolling module 8, and can drive first compression roller 61 respectively, second compression roller 62, third compression roller 63, decoiler 12, a plurality of transmission roller 103, nip roller 241 and wind-up roll 82 rotate, unreel, transmission and the rolling of conveyer belt product after with the glue film to this realization conveyer belt glue film laminating equipment to fibre cloth 101 and cover.

In summary, the conveyer belt glue layer laminating device disclosed by the invention is characterized in that the laminating module is additionally arranged behind the drying module, and the forming module is additionally arranged on the top side of the laminating module, so that the conveyer belt does not need to be coated with the glue layer for multiple times in the production process, the glue layer is formed by the forming module for one time, and then the laminating module is used for one-time laminating, so that the production time of the conveyer belt is greatly saved, and the production cost is greatly reduced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The utility model provides a conveyer belt glue film laminating production line which characterized in that includes: the device comprises an uncoiling module, a polishing module, a coating module, a drying module, a forming module, a laminating module, a cutting module, a coiling module and a base, wherein the uncoiling module, the polishing module, the coating module, the drying module, the laminating module, the cutting module and the coiling module are sequentially arranged, communicated and installed on the top side of the base; the output end of the forming module is arranged on the top side of the combining module.

2. The conveying belt glue layer laminating production line of claim 1, wherein the laminating module comprises a first press roller, a second press roller and a third press roller, wherein the first press roller, the second press roller and the third press roller are parallel to each other, and the first press roller, the second press roller and the third press roller are sequentially spaced by a preset distance and are correspondingly arranged.

3. The conveying belt glue layer laminating production line of claim 2, wherein the output end of the forming module is arranged at the top side between the first pressing roller and the second pressing roller, the fiber cloth is sequentially and alternately wound on the side surfaces of the first pressing roller, the second pressing roller and the third pressing roller, and meanwhile, the glue layer plate output by the forming module meets the top side surface of the fiber cloth at the position between the first pressing roller and the second pressing roller.

4. The conveying belt glue layer laminating production line of claim 3, wherein the molding module comprises an extruder, a pouring pipeline, a glue layer plate mold and a discharge port, wherein the extruder is arranged on the top side of the base, the output end of the extruder is connected with the glue layer plate mold through the pouring pipeline, the glue layer plate mold is connected with the discharge port, and the discharge port is correspondingly arranged on the top side between the first compression roller and the second compression roller.

5. The conveying belt glue layer covering production line of claim 1, wherein the polishing module comprises a third mounting seat, a polishing assembly, a cleaning assembly and a conveying assembly, the third mounting seat is arranged on the top side of the base, the polishing assembly, the cleaning assembly and the conveying assembly are all arranged on the third mounting seat, the polishing assembly and the cleaning assembly are sequentially arranged along the conveying direction of the fiber cloth, and the conveying assembly is respectively matched with the polishing assembly and the cleaning assembly.

6. The conveyor belt glue line laminating production line of claim 5, wherein the grinding assembly comprises a first driving motor and a grinding roller, wherein the first driving motor is arranged on the top side of the base, the grinding roller is rotatably mounted on the third mounting seat, and an output end of the first driving motor is in transmission connection with the grinding roller.

7. The conveyor belt glue layer laminating production line of claim 6, wherein the cleaning assembly comprises a second driving motor and a cleaning roller, wherein the second driving motor is arranged on the top side of the base, the cleaning roller is rotatably mounted on the third mounting seat in parallel and correspondingly to the grinding roller, and an output end of the second driving motor is in transmission connection with the cleaning roller.

8. The conveyor belt glue line laminating production line of claim 1, wherein the coating module comprises a PVC coating apparatus disposed on a top side of the base.

9. The conveyor belt glue line coating production line of claim 1, wherein the drying module comprises a conveyor belt drying apparatus disposed on a top side of the base.

10. The conveying belt glue layer laminating production line of claim 1, wherein the cutting module comprises a second leveling component, a fourth mounting seat and a cutting component, wherein the fourth mounting seat is arranged on the top side of the base, and the second leveling component is arranged between the fourth mounting seat and the laminating module; the cutting assembly is mounted to the fourth mounting base.