CN209997865U - coating roller mechanism with coating thickness adjusting component - Google Patents

Abstract

The utility model relates to a take coating thickness adjustment assembly's coating roller mechanism, coating roller shaft supporting mechanism includes two sets of symmetrical arrangement's backup pad, the array is provided with a plurality of longitudinal sliding grooves in the backup pad, longitudinal sliding groove arranges to the coating platform slope relatively, wherein the interval between the tip of longitudinal sliding groove top is greater than the interval between the tip of longitudinal sliding groove bottom, sliding connection has vertical slider in longitudinal sliding groove, be connected with the lifter plate in the backup pad, be provided with the lateral sliding groove in the lifter plate, be provided with horizontal slider in the lateral sliding groove, the coating roller includes the coating roller, horizontal slider, vertical slider is passed respectively in proper order at the both ends of coating roller, the coating roller in proper order with horizontal slider, rotate between the longitudinal slider and be connected, coating roller actuating mechanism includes the crane, the crane includes the support base, be connected with the revolving stage on the support base, coating roller actuating mechanism still includes the rotation drive axle of installing on the revolving.

Description

coating roller mechanism with coating thickness adjusting component

Technical Field

The utility model relates to a coating roll mechanism of area coating thickness adjusting part belongs to panel coating equipment field.

Background

like the patch soil and waterproof layer on the surface of the plate are coated by coating rollers, because different coating materials have different requirements on the coating thickness, the traditional coating equipment can only change the distance between the coating rollers relative to the surface of the plate, but cannot adjust the distance between the coating rollers, so if the coating distance is too small, the coating materials are accumulated between the coating rollers, and the coating quality is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the distance between the coating roll and the surface of a plate can only be changed and the distance between the coating rolls can not be changed in the existing equipment, and provides coating roll mechanisms with coating thickness adjusting components.

The utility model provides a technical scheme that its technical problem adopted is:

the coating roller mechanism with the coating thickness adjusting assembly comprises a coating roller, a coating roller shaft supporting mechanism, a coating platform and a coating roller driving mechanism, wherein the coating roller shaft supporting mechanism comprises two groups of symmetrically arranged supporting plates, the coating platform is arranged between the two groups of supporting plates, a plurality of longitudinal sliding grooves are formed in the supporting plates in an array mode, the longitudinal sliding grooves are obliquely arranged relative to the coating platform, the distance between the top end portions of the longitudinal sliding grooves is larger than the distance between the bottom end portions of the longitudinal sliding grooves, longitudinal sliding blocks are connected in the longitudinal sliding grooves in a sliding mode, bottom supporting tables are installed at the bottoms of the supporting plates, lifting plates are connected to the bottom supporting tables through two groups of symmetrically arranged lifting cylinders A, the lifting plates are located between the lifting cylinders A, transverse sliding grooves are formed in the lifting plates, a plurality of transverse sliding blocks corresponding to the longitudinal sliding grooves are arranged in the transverse sliding grooves, the coating roller comprises coating roller shafts, the coating roller shafts sequentially penetrate through the transverse sliding blocks and the longitudinal sliding blocks, the coating roller shafts are sequentially connected with the transverse sliding blocks and the rotary driving rollers through driving shafts, the driving shafts are connected with rotating bases through driving wheels, the driving shafts, the driving wheels, the driving shafts are connected with rotating bases, the driving wheels are connected with rotating bases, the driving shafts, the driving wheels are connected with rotating bases, the driving wheels, the rotating bases, the driving wheels are connected with rotating bases, the driving wheels are connected with rotating bases, the.

As the improvement of the utility model of , a supporting spring is connected between the adjacent transverse sliding blocks.

As the utility model discloses a go into step improvement still be provided with on the revolving stage and connect the platform, still the array is provided with a plurality of tension pulley mechanisms on connecting the platform, tension pulley mechanism includes tension pulley and tension pulley base, and the tension pulley base is connected to the revolving stage through lift cylinder D, and the tension pulley rotates with the tension pulley base to be connected, and the tension pulley contacts with the belt, adjusts the packing force of tension pulley to the belt through lift cylinder D.

As the utility model discloses a go into step improvements, the revolving stage still array is provided with a plurality of rotatory support ears, and rotatory support ear is located between the drive wheel, and the rotation drive axle rotates with rotatory support ear to be connected.

The utility model has the advantages that:

1. the utility model discloses a be connected to the link of variable interval with the axostylus axostyle of coating roll, when realizing the high adjustment of coating roll, adjust the interval of coating roll in step.

2. The utility model discloses a supporting spring has reduced the unsteady in sliding connection clearance between horizontal slider, the relative horizontal sliding groove of vertical slider, the vertical sliding groove.

3. The tension wheel mechanism can ensure that the belt is under good tension and is not easy to loosen or tighten.

Drawings

The present invention will be further described in with reference to the following drawings and examples.

FIG. 1 is a schematic view of a coating platform;

FIG. 2 is a schematic view of a coating roll shaft support mechanism;

fig. 3 is a schematic diagram of the coating roll drive mechanism.

In the figure: 1. a support plate; 2. a bottom support table; 3. a lifting cylinder A; 4. a lifting plate; 5. a longitudinal sliding groove; 6. a transverse sliding groove; 7. a longitudinal slide block; 8. a transverse slide block; 9. a support spring; 10. a coating roller shaft; 11. a lifting base; 12. a lifting cylinder C; 13. a support table; 14. a support roller; 15. a wood board; 16. a support base; 17. a lifting cylinder B; 18. a rotating table; 19. a rotating electric machine; 20. a rotary drive shaft; 21. a drive wheel; 22. a rotary support ear; 23. a connecting table; 24. A lifting cylinder D; 25. a tension pulley base; 26. a tension wheel.

Detailed Description

The invention will now be described in greater detail with reference to the accompanying drawings, which are simplified schematic drawings that illustrate, by way of illustration only, the basic structure of the invention and, therefore, only show the elements that are relevant to the invention.

coating roller mechanism with coating thickness adjusting component, which comprises a coating roller, a coating roller shaft supporting mechanism, a coating platform, and a coating roller driving mechanism;

as shown in FIG. 2, the coating roller shaft supporting mechanism comprises two groups of supporting plates which are symmetrically arranged, a coating platform is arranged between the two groups of supporting plates, a plurality of longitudinal sliding grooves are arranged on the supporting plates in an array mode, the longitudinal sliding grooves are obliquely arranged relative to the coating platform, the distance between the top end parts of the longitudinal sliding grooves is larger than the distance between the bottom end parts of the longitudinal sliding grooves, longitudinal sliding blocks are connected in the longitudinal sliding grooves in a sliding mode, bottom supporting tables are installed at the bottoms of the supporting plates, lifting plates are connected to the bottom supporting tables through two groups of symmetrically arranged lifting cylinders A, the lifting plates are located between the lifting cylinders A, transverse sliding grooves are formed in the lifting plates, a plurality of transverse sliding blocks corresponding to the longitudinal sliding grooves are arranged in the transverse sliding grooves, supporting springs are connected between the adjacent transverse sliding blocks, each coating roller comprises coating roller shafts, two ends of each coating roller shaft sequentially penetrate through the transverse sliding blocks and the longitudinal sliding blocks, and the coating roller shafts are;

as shown in fig. 3, the coating roll driving mechanism comprises lifting frames, each lifting frame comprises supporting bases, each supporting base is connected with rotating tables through a lifting cylinder B, each coating roll driving mechanism further comprises rotating motors arranged on the rotating tables, each rotating motor comprises rotating driving shafts, two ends of each rotating driving shaft are rotatably connected with the corresponding rotating table, each rotating driving shaft is fixedly connected with a plurality of driving wheels in an array mode, each rotating table is further provided with a plurality of rotating supporting lugs in an array mode, each rotating supporting lug is located between the corresponding driving wheels, each rotating driving shaft is rotatably connected with the corresponding rotating supporting lug, each coating roll shaft is provided with a driven wheel, each driving wheel is connected with the corresponding driven wheel through a belt in a transmission mode, each rotating table is further provided with connecting tables, each connecting table is further provided with a plurality of tension wheel mechanisms in an array mode, each tension wheel mechanism comprises tension wheels and tension wheel bases, each tension wheel base is connected to the corresponding rotating table through a lifting cylinder D, each tension wheel is rotatably connected with each;

as shown in fig. 1, the coating platform comprises lifting platforms, each lifting platform comprises lifting bases, a supporting platform is connected to each lifting base through a lifting cylinder C, a plurality of supporting rollers are arranged on each supporting platform in an array mode, the supporting rollers synchronously rotate through a motor, and the upper surfaces of the supporting rollers form driving surfaces.

When the wood plank supporting device is used, firstly, the wood plank is prevented from being placed on the driving surface of the upper part of the supporting roller, and the wood plank is driven by the rotation of the supporting roller; meanwhile, the placing height of the wood board is controlled by a lifting cylinder C;

then the lifting of the lifting plate is controlled through the lifting cylinder A, the lifting plate can drive the longitudinal sliding block to slide relative to the longitudinal sliding groove in the lifting process, the transverse sliding block can slide relative to the transverse sliding groove in the sliding process of the longitudinal sliding block relative to the longitudinal sliding groove, the distance between the longitudinal sliding grooves is of a gradual change structure, the change of the distance between the coating rollers can be realized in the sliding process of the longitudinal sliding block relative to the longitudinal sliding groove, and the change of the distance between the coating rollers relative to the driving surface is also accompanied, so that the paint accumulation process caused by the fact that the distance between the coating rollers is too small is prevented while the change of the distance between the coating rollers relative to the driving surface is reduced; simultaneously, when the position of the coating roller is changed, the position of the tension wheel can be controlled through the lifting cylinder D, so that the tension force of the belt is adjusted, the driving wheel on the driving shaft is driven to rotate through the rotating motor, the belt is linked through the driving wheel, and the driven wheel is driven to rotate through the belt, so that the rotation of the coating roller shaft is realized, and coating is realized.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (4)

1. The coating roller mechanism with the coating thickness adjusting assembly is characterized by comprising a coating roller, a coating roller shaft supporting mechanism, a coating platform and a coating roller driving mechanism, wherein the coating roller shaft supporting mechanism comprises two groups of symmetrically arranged supporting plates, the coating platform is arranged between the two groups of supporting plates, a plurality of longitudinal sliding grooves are arranged on the supporting plates in an array mode, the longitudinal sliding grooves are obliquely arranged relative to the coating platform, the distance between the top end parts of the longitudinal sliding grooves is larger than the distance between the bottom end parts of the longitudinal sliding grooves, longitudinal sliding blocks are connected in the longitudinal sliding grooves in a sliding mode, bottom supporting tables are installed at the bottoms of the supporting plates, lifting plates are connected to the bottom supporting tables through two groups of symmetrically arranged lifting cylinders A, the lifting plates are located between the lifting cylinders A, transverse sliding grooves are formed in the lifting plates, a plurality of transverse sliding blocks corresponding to the longitudinal sliding grooves are arranged in the transverse sliding grooves, the coating roller comprises coating roller shafts, two ends of the coating roller shafts sequentially penetrate through the transverse sliding blocks and the longitudinal sliding blocks, the coating roller shafts are sequentially connected with the transverse sliding blocks and the longitudinal sliding blocks in a rotating driving wheel, the coating roller shafts are connected with rotating driving wheels through rotating shafts, the driving wheels lifting rollers, the lifting rollers are connected with rotating base shafts, the rotating driving wheels, the rotating base shafts of the rotating driving wheels, the rotating base shafts of the coating roller shafts, the rotating base, the rotating driving wheels are connected with rotating base of rotating base shafts of the rotating base, the rotating base of the rotating base, the rotating.
2. 2. The applicator roll mechanism with an applicator thickness adjustment module, as recited in claim 1, wherein a support spring is connected between adjacent lateral sliders.
3. 3. The coating roller mechanism with coating thickness adjusting module as claimed in claim 1, wherein a plurality of tension pulley mechanisms are further arranged on the rotary table in an array, each tension pulley mechanism comprises tension pulleys and tension pulley bases, each tension pulley base is connected to the rotary table through a lifting cylinder D, each tension pulley is rotatably connected with each tension pulley base, each tension pulley is in contact with the corresponding belt, and the pressing force of each tension pulley on the corresponding belt is adjusted through the lifting cylinder D.
4. 4. The coating roller mechanism with coating thickness adjusting module as set forth in claim 1, wherein the rotary table further comprises a plurality of rotary support lugs arranged in an array, the rotary support lugs being disposed between the drive wheels, the rotary drive shaft being rotatably connected to the rotary support lugs.

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