CN213032861U - Coating device and coating machine - Google Patents

Coating device and coating machine Download PDF

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Publication number
CN213032861U
CN213032861U CN202021229473.6U CN202021229473U CN213032861U CN 213032861 U CN213032861 U CN 213032861U CN 202021229473 U CN202021229473 U CN 202021229473U CN 213032861 U CN213032861 U CN 213032861U
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coating
driving
assembly
seat
roller
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CN202021229473.6U
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王异玲
吴达文
刘玉亮
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Hitek Polymer Material Co ltd
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Hitek Polymer Material Co ltd
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Abstract

The utility model relates to the technical field of coating, in particular to a coating device and a coating machine, which comprises a frame, a coating roller component arranged on the frame, a rubber roller component arranged on the frame and positioned below the coating roller component, an adjusting component arranged on the frame and used for adjusting the lifting of the rubber roller component, a first driving component arranged on the frame and connected with the coating roller component in a driving way, and a second driving component arranged on the frame and used for driving the rubber roller component; the transmission speed ratio of the coating roller assembly is higher than that of the rubber roller assembly, and the transmission directions of the coating roller assembly and the rubber roller assembly are opposite; the utility model discloses a go up the lower roll structure and coat the product, adopted reverse speed ratio transmission, reliable and stable in coating process, the coating precision is high. And the adjusting component is used for adjusting the lower roll structure, so that the roller can be suitable for products with different thickness and size.

Description

Coating device and coating machine
Technical Field
The utility model relates to a coating technology field especially relates to a coating device and coating machine.
Background
The paper coating means that a protective coating is coated on the surface of the paperboard to protect the surface of the paperboard. The coating process generally comprises the steps of feeding, coating and receiving in sequence. The traditional coating structure is that a coating roller is arranged below and matched with a rubber roller above to coat paper. For example, Chinese patent publication numbers are: CN202830641U discloses a rubber coating device for release paper coating equipment, and its practical novel purpose is: because part of the cylinder wall of the gluing roller is immersed in the glue tank, when the gluing roller rotates, the cylinder wall of the gluing roller is full of the glue; when the rubber coating machine works, the rubber coating penetrates through the space between the rubber coating roller and the main roller, so that the rubber coating is coated with glue. The device ensures the uniformity of glue coating and the production quality of products. Therefore, the glue spreader is arranged below the paper coating device and used for coating paper, the material coating precision is difficult to master in the mode, the coating precision is poor, the distance between the two rollers cannot be finely adjusted, the position is fixed, and the applicable product range is small.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides an adopted upper and lower roller structure to carry out the coating to the product, adopted reverse velocity ratio transmission, reliable and stable in coating process, the coating precision is high. And the coating device and the coating machine are provided with the adjusting component for adjusting the lower roll structure, and can be suitable for products with different thicknesses and sizes.
The utility model adopts the technical proposal that: a coating device comprises a frame, a coating roller assembly, a rubber roller assembly, an adjusting assembly, a first driving assembly and a second driving assembly, wherein the coating roller assembly is arranged on the frame;
the further improvement of the scheme is that the transmission speed ratio of the coating roller assembly is faster than that of the rubber roller assembly, and the shaft transmission directions of the coating roller assembly and the rubber roller assembly are opposite.
The scheme is further improved in that the rack comprises a bottom plate and two groups of supporting plates which are vertically arranged on the bottom plate and correspond to each other, and a plurality of cross beams are arranged between the two groups of supporting plates for connection;
the scheme is further improved in that the two supporting plates are provided with heat insulation plates close to the coating roller assembly.
The further improvement of the scheme is that the coating roller assembly and the rubber roller assembly are both arranged between the two supporting plates, and the adjusting assembly is arranged on the bottom plate and connected with the rubber roller assembly.
The coating roller assembly comprises a coating round roller and a material guide module which is positioned on one side of the coating round roller and used for guiding the coating material into the outer diameter of the coating round roller;
the coating round roller comprises a roller coating part and coating connecting parts arranged at two ends of the roller coating part, and the coating connecting parts at one end are connected with a first driving assembly.
The technical scheme is further improved in that the material guide module comprises a swinging shaft which can be arranged on the rack in a swinging mode, a swinging seat connected with the swinging shaft and a guide-in seat connected with the swinging seat, wherein the guide-in seat is provided with two groups of material guide pieces which are symmetrically and obliquely arranged;
the technical scheme is further improved in that the swing seat is provided with an inlet and an outlet, the inlet and the outlet are connected with a water pipe and a water pump, and the inlet and the outlet are communicated to the inlet seat;
in a further improvement of the above scheme, the guide sheet is a metal elastic sheet.
The rubber roller component comprises a transmission plate, a circular rubber roller arranged on the transmission plate, a brush roller tangent with the outer diameter of the circular rubber roller, a water tank positioned on the lower side of the circular rubber roller and a scraper module positioned on one side of the circular rubber roller;
the scheme is further improved in that the supporting plate is provided with a transmission groove, and the transmission plate can move in the transmission groove;
the further improvement to above-mentioned scheme does, the scraper module includes the scraper axle, install in the scraper axle and corresponding to the scraper blade of circular rubber roll and be used for adjusting the regulating block who scrapes the scraper axle.
The scheme is further improved in that one end of the round rubber roller is connected with the second driving assembly, the other end of the round rubber roller is connected with a linkage module, and the linkage module is in driving connection with the brush roller;
the further improvement of the scheme is that the linkage module is driven by a synchronous wheel matched with a synchronous belt.
The scheme is further improved in that the adjusting assembly comprises an adjusting motor and a linkage seat in driving connection with the adjusting motor, driving shafts extend towards two sides of the linkage seat, the driving shafts on the two sides are connected with jacking seats, the jacking seats are connected with jacking screws, the jacking screws are connected with jacking plates, and the jacking plates are connected with the transmission plate;
the scheme is further improved in that the adjusting motor is a servo motor;
the further improvement of the scheme is that a coupler is arranged between the driving shaft and the jacking seat for synchronous transmission connection.
The further improvement of the scheme is that the first driving component comprises a first connecting frame arranged on the frame, a first transmission seat arranged on the first connecting frame and a first driving motor connected with the first transmission seat, and the first transmission seat is connected with the coating roller component;
the further improvement of the above scheme is that the second driving assembly comprises a second connecting frame arranged on the driving plate, a second driving seat arranged on the second connecting frame, and a second driving motor connected with the second driving seat, and the second driving seat is connected with the rubber roller assembly.
A coating machine comprises the coating device.
The further improvement of the scheme is that the coating device further comprises a feeding device, a powder removing device, a plurality of groups of drying devices, a cooling device and a material receiving device which are arranged in sequence, and the coating device is arranged between the drying device and the powder removing device.
The utility model has the advantages that:
compare traditional coating machine, the utility model discloses a go up the lower roll structure and coat the product, adopted reverse speed ratio transmission, reliable and stable in the coating process, the coating precision is high. And the adjusting component is used for adjusting the lower roll structure, so that the roller can be suitable for products with different thickness and size. Two sets of roller structures adopt independent drive structure, conveniently adjust control in the aspect of transmission direction and speed. The two roller sets are arranged in a reverse transmission mode, namely the coating roller assembly is driven clockwise while the rubber roller assembly is driven anticlockwise, and vice versa, so that the aim of better forward conveying of products in the coating process is realized, and the coating of the products is completed in the conveying process. The device comprises a frame, a coating roller assembly, a rubber roller assembly, an adjusting assembly, a first driving assembly and a second driving assembly, wherein the coating roller assembly is arranged on the frame; the transmission speed ratio of the coating roller component is faster than that of the rubber roller component, and the transmission directions of the coating roller component and the rubber roller component are opposite. The speed ratio of the two can be adjusted through different drives, so that the stability and the reliability of transmission are ensured, and meanwhile, the adjustment and the control are convenient.
Drawings
Fig. 1 is a schematic structural view of a coating machine of the present invention;
FIG. 2 is a schematic perspective view of a coating device of the coater of FIG. 1;
FIG. 3 is a perspective view of the coating apparatus of the coater of FIG. 1 from another perspective;
FIG. 4 is a schematic front view of a coating device of the coating machine of FIG. 1;
FIG. 5 is a schematic cross-sectional view taken along line A-A in FIG. 4;
FIG. 6 is a schematic structural view of the applicator roll assembly of FIG. 5;
fig. 7 is a schematic structural view of the glue roller assembly of fig. 5.
Description of reference numerals: the coating machine 10, the feeding device 100, the powder removing device 200, the coating device 300, a frame 310, a bottom plate 311, a support plate 312, a transmission groove 312a, a beam 313, a heat insulation plate 314, a coating roller assembly 320, a coating round roller 321, a roller coating part 321a, a coating connection part 321b, a material guide module 322, a swing shaft 322a, a swing seat 322b, a guide seat 322c, a material guide sheet 322d, a rubber roller assembly 330, a transmission plate 331, a round rubber roller 332, a linkage module 332a, a brush roller 333, a water tank 334, a scraper module 335, a scraper shaft 335a, a scraper 335b, an adjusting block 335c, an adjusting assembly 340, an adjusting motor 341, a linkage seat 342, a drive shaft 343, a coupling 343a, a jacking seat 344, a jacking screw 345, a jacking plate 346, a first drive assembly 350, a first connecting frame 351, a first drive seat 352, a first drive motor 353, a second drive assembly 360, a second connecting frame 361, a second seat 362, A second driving motor 363, a drying device 400, a cooling device 500 and a material receiving device 600.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
As shown in fig. 1 to 7, a coater 10 includes a feeding device 100, a powder removing device 200, a coating device 300, a plurality of sets of drying devices 400, a cooling device 500, and a receiving device 600, which are sequentially disposed. The device is also provided with a quick wheel transmission device, so that the product can be quickly transported.
Referring to fig. 1, the coating machine 10 with the above structure is adopted to receive the product after sequentially carrying out feeding, powder removal, coating, drying and cooling, so as to realize full-automatic coating.
Referring to fig. 3, a coating apparatus 300 includes a frame 310, a coating roller assembly 320 mounted to the frame 310, a glue roller assembly 330 mounted to the frame 310 and located below the coating roller assembly 320, an adjusting assembly 340 mounted to the frame 310 for adjusting the lifting of the glue roller assembly 330, a first driving assembly 350 mounted to the frame 310 and drivingly connected to the coating roller assembly 320, and a second driving assembly 360 mounted to the frame 310 for driving the glue roller assembly 330; the coating roller assembly 320 is driven at a faster speed than the rubber roller assembly 330 and the coating roller assembly 320 is driven in the opposite direction to the rubber roller assembly 330.
Referring to fig. 5, the frame 310 includes a bottom plate 311, two sets of supporting plates 312 vertically disposed on the bottom plate 311 and corresponding to each other, and a plurality of cross beams 313 are disposed between the two sets of supporting plates 312 for connection; the bottom support is acted by the bottom plate 311, two groups of support plates 312 with symmetrical structures are vertically arranged, the coating roller assembly 320 and the rubber roller assembly 330 are both arranged between the two support plates 312, and the adjusting assembly 340 is arranged on the bottom plate 311 and connected with the rubber roller assembly 330, so that the structure installation is more convenient and reliable.
The two supporting plates 312 are provided with a heat insulation plate 314 near the coating roller assembly 320, the heat insulation plate 314 is arranged between the two supporting plates 312, the coating roller assembly 320 can be isolated from the drying part through the heat insulation plate 314, the coating material is prevented from being dried in advance, and the coating stability is improved. The insulation 314 is made of sheet metal plus insulation cotton.
Referring to fig. 3 to 7, the coating roller assembly 320 includes a coating roller 321 and a material guide module 322 located at one side of the coating roller 321 for guiding the coating material to the outer diameter of the coating roller 321, where the coating roller 321 includes a roller coating portion 321a and coating connection portions 321b disposed at two ends of the roller coating portion 321a, one end of the coating connection portion 321b is connected to the first driving assembly 350, specifically, the roller coating portion 321a is used for coating the material, and the coating connection portion 321b is used for connecting the first driving assembly 350, so that under the driving action of the motor of the first driving assembly 350, the driving effect and the coating effect are improved.
The material guiding module 322 comprises a swinging shaft 322a which can be arranged on the rack 310 in a swinging mode, a swinging seat 322b connected with the swinging shaft 322a, and a guiding seat 322c connected with the swinging seat 322b, wherein a material guiding sheet 322d is arranged on the guiding seat 322c, the material guiding sheet 322d is symmetrically and obliquely arranged in two groups, specifically, the swinging seat 322b can be connected through the swinging shaft 322a to swing, the internal structure can be cleaned in the swinging process, the guiding seat 322c is also used for guiding materials to the material guiding sheet 322d, the material guiding sheet 322d is arranged in two groups by adopting a symmetrical structure, the material guiding and the scraper can be used for respectively acting on the material guiding and the scraper, and the material guiding and the scraper cleaning can be simultaneously carried out on the outer diameter of the coating round roller 321.
The swing seat 322b is provided with an inlet and an outlet, the inlet and the outlet are connected with a water pipe and a water pump, and the inlet and the outlet are communicated to the inlet seat 322 c.
The guide piece 322d is a metal elastic sheet, and the sheet with elasticity is adopted, so that the material guiding and cleaning are more stable and reliable.
The rubber roller assembly 330 comprises a transmission plate 331, a circular rubber roller 332 arranged on the transmission plate 331, a brush roller 333 tangent to the outer diameter of the circular rubber roller 332, a water tank 334 positioned on the lower side of the circular rubber roller 332, and a scraper module 335 positioned on one side of the circular rubber roller 332, wherein the water tank 334 is used for containing cleaning water, so that the circular rubber roller 332 plays a cleaning role in the auxiliary process, and the scraper is used for scraping the cleaned water and preventing the water from being coated on a product.
The supporting plate 312 is provided with a transmission groove 312a, the transmission plate 331 can move in the transmission groove 312a, and the circular rubber roller 332 can be lifted and lowered through the matching of the transmission plate 331 and the transmission groove 312a so as to adapt to products with different thicknesses and ensure the lifting stability in use.
The scraper module 335 comprises a scraper shaft 335a, a scraper 335b mounted on the scraper shaft 335a and corresponding to the circular rubber roll 332, and an adjusting block 335c for adjusting the scraper shaft 335a, wherein the adjusting block 335c can adjust the position of the scraper 335b by matching with the scraper shaft 335a, so as to ensure that the cleaning degree of the outer diameter of the circular rubber roll 332 is adjusted.
One end of the circular rubber roll 332 is connected with the second driving component 360, the other end of the circular rubber roll 332 is connected with a linkage module 332a, the linkage module 332a is in driving connection with the brush roll 333, the linkage module 332a is synchronous wheel matched synchronous belt transmission and connects the circular rubber roll 332 with the brush roll 333 in synchronous transmission, and the brush roll 333 can clean the surface of the circular rubber roll 332 in the transmission process.
The adjusting assembly 340 comprises an adjusting motor 341 and a linkage seat 342 in driving connection with the adjusting motor 341, the linkage seat 342 extends towards two sides to form a driving shaft 343, the driving shafts 343 on two sides are connected with jacking seats 344, the jacking seats 344 are connected with jacking screws 345, the jacking screws 345 are connected with jacking plates 346, the jacking plates 346 are connected with a transmission plate 331, specifically, the linkage seat 342 is driven by the adjusting motor 341, the linkage seat 342 drives the driving shafts 343 to realize transmission, the jacking seats 344 on two sides are driven in the transmission process, the jacking seats 344 and the jacking screws 345 are in synchronous transmission, and the transmission screws drive the jacking plates 346 to drive the transmission plate 331 to lift and transmit.
The adjusting motor 341 is a servo motor, a coupler 343a is arranged between the driving shaft 343 and the jacking seat 344 for synchronous transmission connection, the servo motor is adopted to improve the adjusting driving precision, and meanwhile, the transmission of the coupler 343a is also provided, so that the transmission synchronism is good, and the transmission precision is high.
The first driving assembly 350 comprises a first connecting frame 351 installed on the machine frame 310, a first driving seat 352 installed on the first connecting frame 351, and a first driving motor 353 connected with the first driving seat 352, wherein the first driving seat 352 is connected with the coating roller assembly 320, the improvement is that the second driving assembly 360 comprises a second connecting frame 361 installed on a driving plate 331, a second driving seat 362 installed on the second connecting frame 361, and a second driving motor 363 connected with the second driving seat 362, the second driving seat 362 is connected with the rubber roller assembly 330, the two groups of driving assemblies are similar in structure and are driven by motors, and the connecting frame and the driving seat are combined for driving, so that the driving effect is good, and the structural reliability is strong.
The utility model discloses a go up the lower roll structure and coat the product, adopted reverse speed ratio transmission, reliable and stable in coating process, the coating precision is high. And an adjusting component 340 is provided for adjusting the structure of the lower roller, so that the roller can be suitable for products with different thickness and size. Two sets of roller structures adopt independent drive structure, conveniently adjust control in the aspect of transmission direction and speed. The two roller sets are driven in opposite directions, i.e. the coating roller assembly 320 is driven clockwise while the glue roller assembly 330 is driven counterclockwise, and vice versa, so as to better convey the product forward during the coating process and finish the coating of the product during the conveying process. Specifically, the device is provided with a frame 310, a coating roller assembly 320 mounted on the frame 310, a glue roller assembly 330 mounted on the frame 310 and located below the coating roller assembly, an adjusting assembly 340 mounted on the frame 310 for adjusting the lifting of the glue roller assembly 330, a first driving assembly 350 mounted on the frame 310 and in driving connection with the coating roller assembly 320, and a second driving assembly 360 mounted on the frame 310 for driving the glue roller assembly 330; the coating roller assembly 320 is driven at a faster speed ratio than the glue roller assembly 330 and the coating roller assembly 320 is driven in the opposite direction to the glue roller assembly 330. The speed ratio of the two can be adjusted through different drives, so that the stability and the reliability of transmission are ensured, and meanwhile, the adjustment and the control are convenient.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A coating apparatus, characterized in that: the coating device comprises a rack, a coating roller assembly arranged on the rack, a rubber roller assembly arranged on the rack and positioned below the coating roller assembly, an adjusting assembly arranged on the rack and used for adjusting the rubber roller assembly to lift, a first driving assembly arranged on the rack and connected with the coating roller assembly in a driving way, and a second driving assembly arranged on the rack and used for driving the rubber roller assembly;
the transmission speed ratio of the coating roller assembly is faster than that of the rubber roller assembly, and the transmission directions of the coating roller assembly and the rubber roller assembly are opposite.
2. The coating apparatus of claim 1, wherein: the rack comprises a bottom plate and two groups of supporting plates which are vertically arranged on the bottom plate and correspond to each other, and a plurality of cross beams are arranged between the two groups of supporting plates for connection;
the coating roller assembly and the rubber roller assembly are both arranged between the two supporting plates, and the adjusting assembly is arranged on the bottom plate and connected with the rubber roller assembly.
3. The coating apparatus of claim 2, wherein: the coating roller component comprises a coating round roller and a material guide module which is positioned on one side of the coating round roller and is used for guiding the coating to the outer diameter of the coating round roller;
the coating round roller comprises a roller coating part and coating connecting parts arranged at two ends of the roller coating part, wherein one end of each coating connecting part is connected with a first driving assembly.
4. A coating apparatus as in claim 3, wherein: the material guide module comprises a swing shaft which can be arranged on the rack in a swinging mode, a swing seat connected with the swing shaft and a guide seat connected with the swing seat, and material guide pieces are arranged on the guide seat and are symmetrically and obliquely arranged in two groups;
the swing seat is provided with a guide-in port and a guide-out port, the guide-in port and the guide-out port are connected with a water pipe and a water pump, and the guide-in port and the guide-out port are communicated to the guide-in seat;
the guide piece is arranged by a metal elastic sheet.
5. The coating apparatus of claim 4, wherein: the rubber roller assembly comprises a transmission plate, a circular rubber roller arranged on the transmission plate, a brush roller tangent to the outer diameter of the circular rubber roller, a water tank positioned on the lower side of the circular rubber roller and a scraper module positioned on one side of the circular rubber roller;
the supporting plate is provided with a transmission groove, and the transmission plate can be movably arranged in the transmission groove;
the scraper module comprises a scraper shaft, a scraper which is arranged on the scraper shaft and corresponds to the circular rubber roll, and an adjusting block for adjusting the scraper shaft.
6. The coating apparatus of claim 5, wherein: one end of the round rubber roll is connected with the second driving assembly, the other end of the round rubber roll is connected with a linkage module, and the linkage module is in driving connection with the brush roll;
the linkage module is driven by a synchronous wheel matched with a synchronous belt.
7. The coating apparatus of claim 6, wherein: the adjusting assembly comprises an adjusting motor and a linkage seat in driving connection with the adjusting motor, driving shafts extend towards two sides of the linkage seat, the driving shafts on the two sides are connected with jacking seats, the jacking seats are connected with jacking screws, the jacking screws are connected with jacking plates, and the jacking plates are connected with the transmission plate;
the adjusting motor is a servo motor;
and a coupler is arranged between the driving shaft and the jacking seat and is in synchronous transmission connection.
8. The coating apparatus of claim 7, wherein: the first driving assembly comprises a first connecting frame arranged on the rack, a first transmission seat arranged on the first connecting frame and a first driving motor connected with the first transmission seat, and the first transmission seat is connected with the coating roller assembly;
the second driving assembly comprises a second connecting frame arranged on the driving plate, a second driving seat arranged on the second connecting frame, and a second driving motor connected with the second driving seat, and the second driving seat is connected with the rubber roller assembly.
9. A coater, characterized in that: a coating apparatus comprising the coating apparatus as claimed in any one of claims 1 to 8.
10. A coater according to claim 9, wherein: the coating device is arranged between the drying device and the powder removing device.
CN202021229473.6U 2020-06-29 2020-06-29 Coating device and coating machine Active CN213032861U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021229473.6U CN213032861U (en) 2020-06-29 2020-06-29 Coating device and coating machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021229473.6U CN213032861U (en) 2020-06-29 2020-06-29 Coating device and coating machine

Publications (1)

Publication Number Publication Date
CN213032861U true CN213032861U (en) 2021-04-23

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021229473.6U Active CN213032861U (en) 2020-06-29 2020-06-29 Coating device and coating machine

Country Status (1)

Country Link
CN (1) CN213032861U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111744721A (en) * 2020-06-29 2020-10-09 东莞市凯迪克高分子材料有限公司 Coating device and coating machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111744721A (en) * 2020-06-29 2020-10-09 东莞市凯迪克高分子材料有限公司 Coating device and coating machine

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