CN116493182A - Coating roller equipment convenient to switch - Google Patents

Abstract

The application relates to a coating roller equipment convenient to switch, it includes the frame, is provided with coating mechanism in the frame, the frame is located the below of coating mechanism and is provided with reserve coating mechanism, reserve coating mechanism and coating mechanism all include the coating groove, the both ends fixedly connected with locating rack of coating groove, rotate on the locating rack and be connected with the dip-condiment roll, the axial level of dip-condiment roll sets up, dip-condiment roll extends to in the coating groove and is used for dipping in the coating, the roller of dip-condiment roll one end extends to in the locating rack, is provided with power component in the frame; the top of locating rack rotates and is connected with the coating roller, and the axial level setting of coating roller, and the lateral wall and the dip-condiment roller butt of coating roller are provided with the pushing components who releases coating mechanism level in the frame, and the bottom of frame is provided with the vertical drive assembly who promotes reserve coating mechanism vertical motion. The application has the effect that the coating roller and the trough are replaced without stopping the machine, and the processing efficiency of the coating machine is not affected.

Description

Coating roller equipment convenient to switch

Technical Field

The application relates to the field of steel plate roller coating, in particular to coating roller equipment convenient to switch.

Background

The steel plate is a flat plate steel material which is formed by pouring molten steel, cooling and pressing. The steel sheet is divided into hot rolled and cold rolled according to rolling.

In the field of household appliances, in order to improve the decorative effect, a decorative steel plate is generally added to the household appliance; nowadays, with the development of the age, the decorative steel plates are also diversified, and color is usually coated on the decorative steel plates to form color steel plates, namely color steel plates for short, and the color steel plates have light weight, attractive appearance and good corrosion resistance.

In the process of color steel processing, a roll coating method is one of the most widely used technological methods. The roller coating is to use a roller as a carrier of the coating, the coating forms a wet film with a certain thickness on the surface of the roller, and then the roller contacts with a coated object in the rotating process to coat the coating on the surface of the steel plate. The roll coater is a roll coater, a coating roll and a trough are arranged on the roll coater, and when the coating with other colors needs to be replaced, the roll coater and the trough need to be stopped for cleaning, so that the processing efficiency of the roll coater is affected.

Disclosure of Invention

In order to replace a coating roller and a trough without stopping, the processing efficiency of a coating machine is not affected, and the application provides coating roller equipment convenient to switch.

The application provides a coating roller equipment convenient to switch adopts following technical scheme:

the utility model provides a coating roller equipment convenient to switch, includes the frame, is provided with coating mechanism in the frame, the frame is located the below of coating mechanism and is provided with reserve coating mechanism, reserve coating mechanism and coating mechanism all include the coating groove, the both ends fixedly connected with locating rack of coating groove, rotate on the locating rack and be connected with the dip-in roller, the axial level of dip-in roller sets up, dip-in roller extends to in the coating groove and is used for dipping in the coating, the roller of dip-in roller one end extends to in the locating rack, be provided with in the frame with dip-in roller's roller detachable connection and be used for driving dip-in roller pivoted power component; the top rotation of locating rack is connected with the coating roller, and the axial level setting of coating roller, and the lateral wall of coating roller and dip-condiment sauce roller butt, and the steel sheet is followed the surface transmission of coating roller, is provided with the pushing component who releases coating mechanism level in the frame, and the bottom of frame is provided with the vertical drive assembly who promotes reserve coating mechanism vertical motion.

Through adopting above-mentioned technical scheme, the steel sheet passes from the surface of coating roller, power pack drive dip roller rotates, the dip roller dips in the coating groove and call the even coating of coating on the coating roller, the coating roller is with the coating on the surface of steel sheet, when needing to renew the new coating, power pack breaks away from with the roller of dip roller, push away the material subassembly and release coating mechanism level, afterwards, vertical drive assembly promotes reserve coating mechanism to coating mechanism's position, be equipped with new coating and new coating roller in the reserve coating mechanism, can continue to roll-coat the steel sheet, thereby accomplish the change of coating mechanism automatically, need not shut down and wash and change coating mechanism, do not influence the machining efficiency of coating machine.

Optionally, the slot that is the polygon setting is offered to the roller tip of dipping material roller, power pack includes the locating plate of fixed connection in the lateral wall of frame, and the top of locating plate slides and is connected with driving motor, and driving motor's output shaft is for the polygon with draw-in groove shape matched with, and driving motor's output shaft is pegged graft in the slot, and the bottom fixedly connected with driving cylinder of locating plate, driving cylinder level sets up, and driving cylinder's piston rod tip fixedly connected with connecting block, and the middle position of locating plate has been offered and has been stepped down the groove, and the connecting block passes the bottom of stepped down the groove back fixedly connected with driving motor.

Through adopting above-mentioned technical scheme, driving motor's output shaft is pegged graft in the slot for the drive dip roll rotates, and the connecting block can slide in the groove of stepping down under driving cylinder's drive, and then drives driving motor's output shaft and break away from or peg graft in dip roll's slot, does not influence the change of coating mechanism and reserve coating mechanism, can normally drive dip roll and coating roller work simultaneously.

Optionally, the draw-in groove has been seted up at the top of locating rack, and the coating roller rotates to be connected in the draw-in groove, and the roller top of coating roller is provided with the apron, and the arc wall has been seted up to the bottom of apron, and the arc wall is used for the joint at the roller top of coating roller, and the both ends threaded connection of apron has the bolt with apron and locating rack fixed.

Through adopting above-mentioned technical scheme, can be convenient for dismantle and install the coating roller, not only be convenient for dismantle the coating roller and wash, still be convenient for change the coating roller.

Optionally, the pushing component comprises two pushing hydraulic cylinders fixedly connected in the frame, the two pushing hydraulic cylinders are horizontally arranged, a cylinder body of the pushing hydraulic cylinder is fixedly connected to the inner wall of the frame, a pushing block is fixedly connected to the end part of a piston rod of the pushing hydraulic cylinder, and a receiving component for receiving the coating mechanism is arranged on one side, far away from the pushing hydraulic cylinder, in the frame.

Through adopting above-mentioned technical scheme, connect the piston rod extension of material pneumatic cylinder, the kickoff promotes the direction of coating groove to receiving the material subassembly to automatic with coating mechanism promotion to receiving on the material subassembly.

Optionally, vertical drive assembly includes the fixed plate of fixed connection in the bottom in the frame, and the bottom fixedly connected with fixed block of fixed plate, fixed block butt support in the intermediate position of fixed plate, and the notch groove has been seted up to the position that the fixed plate is close to both ends, and the below in notch groove is provided with the drive pneumatic cylinder, and the vertical setting of drive pneumatic cylinder, the piston rod of pneumatic cylinder is vertical upwards and tip fixedly connected with roof, and the roof extends to the notch inslot.

Through adopting above-mentioned technical scheme, the piston rod of pneumatic cylinder extends, can promote the roof upward movement and jack-up the coating groove, and then can upwards jack-up the reserve coating mechanism that is located on the locating plate.

Optionally, fixedly connected with supports the pneumatic cylinder in the frame, the level that supports the pneumatic cylinder sets up, and the cylinder body that supports the pneumatic cylinder is fixedly connected with in the frame inner wall, and is located the below that pushes away the pneumatic cylinder, and the piston rod tip fixedly connected with level that supports the pneumatic cylinder sets up the backup pad, and the backup pad is used for the butt and supports in the bottom of coating groove and locating rack, and the width of backup pad is less than the distance between two roof.

Through adopting above-mentioned technical scheme, when needing to change coating roller and coating groove, the piston rod of pushing away the hydraulic cylinder extends, pushes away coating groove and locating rack from the backup pad down, then, the piston rod of supporting the hydraulic cylinder withdraws, drive the backup pad and slide to the direction of supporting the hydraulic cylinder, reserve the space that rises for reserve coating mechanism, afterwards, the piston rod of driving the hydraulic cylinder extends, the roof jack-up reserve coating mechanism, finally, support the bottom of hydraulic cylinder drive backup pad slip to the coating groove, thereby can play the effect of supporting to the coating groove, also do not interfere reserve coating mechanism vertical motion.

Optionally, connect the material subassembly to include and connect the work or material rest, connect two corners rotation of work or material rest to be connected with the lead screw, two other corner fixedly connected with guide posts, the equal vertical setting of axial of lead screw and guide post, common threaded connection has the material receiving board on two lead screws, and the material receiving board slides and connects on the guide post, and the position fixedly connected with that connects the work or material rest to correspond the lead screw connects the material motor, and the output shaft and the lead screw of material receiving motor are fixed.

Through adopting above-mentioned technical scheme, when needing to change coating roller and coating groove, connect the material motor corotation, drive connect the flitch vertical motion to with backup pad equal height, push away the hydraulic cylinder with the coating groove propelling movement to the wash on the board, connect the material motor reversal, can drive and put the flitch downward movement that connects of coating mechanism, accomplish the switching of coating mechanism.

Optionally, T type spout has been seted up at the top of receiving the flitch, and the roll-off direction of T type spout perpendicular to coating groove, the top of receiving the flitch slides and is connected with the wash board, and the bottom fixedly connected with two T type sliders of wash board, and T type slider slides and is connected in T type spout.

Through adopting above-mentioned technical scheme, T type slider slides and connects in T type spout, can follow the one end roll-off of receiving the work or material rest with the wash board, is convenient for wash the coating groove and the coating roller on the wash board.

Optionally, fixedly connected with corner pneumatic cylinder in the frame, the cylinder body of corner pneumatic cylinder fixedly connected with frame inner wall, corner pneumatic cylinder level sets up, and the piston rod tip fixedly connected with trip of corner pneumatic cylinder, the lateral wall fixedly connected with two limiting plates of coating groove, offered the cooperation groove that supplies the trip to peg graft on the limiting plate.

Through adopting above-mentioned technical scheme, after paint groove and coating roller wash the completion, make receiving plate and backup pad equiheight setting, the piston rod of corner pneumatic cylinder extends, and the trip of the tip of corner pneumatic cylinder rotates to the breach inslot of limiting plate, and the piston rod of corner pneumatic cylinder withdraws, can pull coating mechanism to the fixed plate on as reserve coating mechanism to circulate so, reach the incessant change to coating mechanism, thereby do not influence the efficiency of steel sheet coating.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the embodiment.

Fig. 2 is a cross-sectional view of an embodiment.

Fig. 3 is an exploded view for highlighting the coating mechanism.

Fig. 4 is a schematic structural view for highlighting the positional relationship of the standby coating mechanism and the coating mechanism.

Figure 5 is a schematic view of the overall structure of the receiving assembly,

fig. 6 is a schematic view of a structure for highlighting the corner hydraulic cylinder.

Reference numerals illustrate: 1. a frame; 2. a transmission mechanism; 21. a conveying roller; 3. a coating mechanism; 31. a coating groove; 311. a limiting plate; 32. a positioning frame; 321. a clamping groove; 3221. an arc-shaped groove; 322. a cover plate; 33. a dip roll; 331. a slot; 34. a coating roller; 35. a positioning plate; 351. a driving motor; 352. a driving cylinder; 353. a relief groove; 354. a connecting block; 4. a standby coating mechanism; 41. a vertical drive assembly; 411. a fixing plate; 412. a fixed block; 413. a notch groove; 414. driving a hydraulic cylinder; 415. a top plate; 42. a pushing component; 421. pushing a hydraulic cylinder; 422. a pushing block; 423. supporting a hydraulic cylinder; 424. a support plate; 43. a receiving assembly; 431. a receiving rack; 432. a screw rod; 433. a guide post; 434. a material receiving motor; 435. a receiving plate; 436. a T-shaped chute; 437. cleaning the plate; 438. a T-shaped slider; 44. a corner hydraulic cylinder; 441. a hook.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a coating roller device convenient to switch. Referring to fig. 1, a coating roller device convenient to switch includes a frame 1, one end at the top of the frame 1 is provided with a transmission mechanism 2, the transmission mechanism 2 is used for driving a steel plate to be transmitted forward, a coating mechanism 3 is arranged at a position in the frame 1 close to the top, and the coating mechanism 3 coats a coating on the steel plate.

Referring to fig. 2, the transfer mechanism 2 includes a plurality of transfer rollers 21, the transfer rollers 21 being horizontally disposed in an axial direction, the transfer rollers 21 being rotatably coupled to the top of the frame 1, the transfer rollers 21 being for transferring the steel sheet forward.

Referring to fig. 3, the coating mechanism 3 includes a coating tank 31 disposed in the frame 1, two ends of the coating tank 31 are fixedly connected with positioning frames 32, a dip roller 33 is rotatably connected to the positioning frames 32, the dip roller 33 is axially and horizontally disposed, the dip roller 33 extends into the coating tank 31 for dipping the coating, a roll shaft at one end of the dip roller 33 extends into the positioning frames 32, and a polygonal slot 331 is formed at the end of the roll shaft of the dip roller 33, which is shown as a regular hexagon in the figure, but not limited to the regular hexagon; the lateral wall fixedly connected with locating plate 35 of frame 1, the top of locating plate 35 slides and is connected with driving motor 351, driving motor 351's output shaft is the polygon with draw-in groove 321 shape matched with, the picture shows as regular hexagon in the drawing, driving motor 351's output shaft is pegged graft in slot 331, be used for driving dip roll 33 rotation, the bottom fixedly connected with actuating cylinder 352 of locating plate 35, actuating cylinder 352 level sets up, actuating cylinder 352's piston rod tip fixedly connected with connecting block 354, the intermediate position of locating plate 35 has seted up the groove 353 that gives way, connecting block 354 passes the bottom of giving way the groove 353 after fixedly connected with driving motor 351, connecting block 354 can be in the groove 353 that gives way under driving of actuating cylinder 352 internal sliding, and then drive driving motor 351's output shaft breaks away from or peg graft in dip roll 33's slot 331.

The draw-in groove 321 has been seted up at the top of locating rack 32, draw-in groove 321 internal rotation is connected with coating roller 34, coating roller 34's roller top lid box has apron 322, arc groove 3221 that is the arc setting has been seted up to the bottom of apron 322, arc groove 3221 is used for the joint at coating roller 34's roller top, the both ends bolt fixed connection of apron 322 is on locating rack 32, thereby be fixed in coating roller 34 on locating rack 32, the axial level of coating roller 34 sets up, and coating roller 34's lateral wall and dip-in roller 33 butt, dip-in roller 33 rotates and dips in the coating in the lateral wall of dip-in roller 33 with the coating in coating groove 31, dip-in roller 33 coats the coating on coating roller 34, coating roller 34 and the surface butt of steel sheet, thereby coat the coating on the steel sheet surface with the coating.

Referring to fig. 2 and 4, when the coating materials with different colors need to be replaced, the coating roller 34 and the coating tank 31 can be replaced quickly, the stand 1 is internally provided with the standby coating mechanism 4, the standby coating mechanism 4 is located below the coating mechanism 3, the standby coating mechanism 4 also comprises a positioning frame 32, the coating tank 31, the dip roll 33 and the coating roller 34, and the structures of the standby coating mechanism 4 and the coating mechanism 3 are identical and are not repeated here. The inside bottom of the frame 1 is provided with a vertical driving component 41, a pushing component 42 is arranged in the frame 1, the pushing mechanism is located below the transmission roller 21, one end of the frame 1, which is close to the coating groove 31, is provided with a receiving component 43, the vertical driving component 41 is used for pushing the standby coating mechanism 4 upwards to the position of the coating mechanism 3 to replace the coating mechanism 3, the pushing component 42 pushes the coating mechanism 3 out to one end of the frame 1, and the receiving component 43 is used for receiving the pushing component 42 to push the coating mechanism 3 of the frame 1 out.

The vertical driving assembly 41 comprises a fixed plate 411 fixedly connected to the bottom in the frame 1, the fixed plate 411 is horizontally arranged, two ends of the fixed plate 411 are fixedly connected to the inner wall of the frame 1, a fixed block 412 is fixedly connected to the bottom of the fixed plate 411, the fixed block 412 is supported in the middle of the fixed plate 411 in an abutting mode, and the fixed block 412 is placed on the ground; the fixed plate 411 is close to the position at both ends and has seted up breach groove 413, and the below in breach groove 413 is provided with drive pneumatic cylinder 414, and drive pneumatic cylinder 414 vertical setting, the piston rod of pneumatic cylinder is vertical upwards and tip fixed connection have roof 415, and roof 415 extends to in the breach groove 413, and the piston rod of pneumatic cylinder extends, can promote roof 415 upward movement, and then can upwards jack-up the reserve coating mechanism 4 that is located on the locating plate 35.

The pushing assembly 42 comprises two pushing hydraulic cylinders 421 fixedly connected in the frame 1, the two pushing hydraulic cylinders 421 are horizontally arranged, the cylinder body of the pushing hydraulic cylinder 421 is fixedly connected to the inner wall of the frame 1 and is positioned below the transmission roller 21, the end part of a piston rod of the pushing hydraulic cylinder 421 is fixedly connected with a pushing block 422, and the pushing block 422 is made of rubber materials; the frame 1 is internally and fixedly connected with a supporting hydraulic cylinder 423, the supporting hydraulic cylinder 423 is horizontally arranged, the cylinder body of the supporting hydraulic cylinder 423 is fixedly connected to the inner wall of the frame 1 and is positioned below the pushing hydraulic cylinder 421, the end part of a piston rod of the supporting hydraulic cylinder 423 is fixedly connected with a supporting plate 424, the supporting plate 424 is horizontally arranged, the supporting plate 424 is used for being abutted and supported at the bottoms of the coating groove 31 and the positioning frame 32, and the width of the supporting plate 424 is smaller than the distance between two top plates 415; when the coating roller 34 and the coating tank 31 need to be replaced, the piston rod of the pushing hydraulic cylinder 421 extends to push down the coating tank 31 and the positioning frame 32 from the supporting plate 424, then the piston rod of the supporting hydraulic cylinder 423 is retracted to drive the supporting plate 424 to slide towards the direction of the supporting hydraulic cylinder 423, a rising space is reserved for the standby coating mechanism 4, then the piston rod of the driving hydraulic cylinder 414 extends to jack up the standby coating mechanism 4, and finally the supporting hydraulic cylinder 423 drives the supporting plate 424 to slide to the bottom of the coating tank 31, so that the effect of supporting the coating tank 31 can be achieved, and the vertical movement of the standby coating mechanism 4 is not interfered.

Referring to fig. 5, the material receiving assembly 43 includes a material receiving frame 431, two symmetrical corners of the material receiving frame 431 are rotationally connected with a lead screw 432, the other two symmetrical corners are fixedly connected with a guide post 433, the axial directions of the lead screw 432 and the guide post 433 are vertically arranged, a material receiving plate 435 is connected on the two lead screws 432 in a threaded manner, the material receiving plate 435 is slidingly connected on the guide post 433, a material receiving motor 434 is fixedly connected at the position of the material receiving frame 431 corresponding to the lead screw 432, and an output shaft of the material receiving motor 434 is fixed with the lead screw 432; t-shaped sliding grooves 436 are formed in the top of the material receiving plate 435, the T-shaped sliding grooves 436 are perpendicular to the sliding-out direction of the coating groove 31, a cleaning plate 437 is connected to the top of the material receiving plate 435 in a sliding mode, two T-shaped sliding blocks 438 are fixedly connected to the bottom of the cleaning plate 437, the T-shaped sliding blocks 438 are connected to the T-shaped sliding grooves 436 in a sliding mode, the cleaning plate 437 can slide out from one end of the material receiving frame 431, and the coating groove 31 and the coating roller 34 on the cleaning plate 437 can be cleaned conveniently. When the coating roller 34 and the coating tank 31 need to be replaced, the material receiving motor 434 rotates forward, the material receiving plate 435 is driven to move vertically to the same height as the supporting plate 424, the material pushing hydraulic cylinder 421 pushes the coating tank 31 to the cleaning plate 437, the material receiving motor 434 rotates reversely, and the material receiving plate 435 with the coating mechanism 3 can be driven to move downwards, so that the switching of the coating mechanism 3 is completed.

Referring to fig. 6, two corner hydraulic cylinders 44 are fixedly connected in the frame 1, the cylinder body of each corner hydraulic cylinder 44 is fixedly connected to the inner wall of the frame 1, each corner hydraulic cylinder 44 is horizontally arranged, a clamping hook 441 is fixedly connected to the end part of a piston rod of each corner hydraulic cylinder 44, the height of each corner hydraulic cylinder 44 is slightly higher than that of a fixed plate 411, two limiting plates 311 are fixedly connected to the side wall of each paint groove 31, and the limiting plates 311 are arranged in an L shape; after the coating groove 31 and the coating roller 34 are cleaned, the material receiving plate 435 and the supporting plate 424 are arranged at equal height, the piston rod of the corner hydraulic cylinder 44 extends, the clamping hook 441 at the end part of the corner hydraulic cylinder 44 rotates into the limiting plate 311, the piston rod of the corner hydraulic cylinder 44 is retracted, and the coating mechanism 3 can be pulled onto the fixing plate 411 to serve as a standby coating mechanism 4, so that the circulation is realized, the non-stop replacement of the coating mechanism 3 is realized, and the coating efficiency of the steel plate is not affected.

The application principle of the coating roller equipment convenient for cutting is as follows: the steel plate is conveyed to the top of the coating roller 34 by the conveying roller 21, the dip-coating roller 33 is driven by the driving motor 351 to rotate and dip the paint in the paint tank 31, the dip-coating roller 33 coats the paint on the coating roller 34, and the coating roller 34 is abutted against the surface of the steel plate, so that the paint is coated on the surface of the steel plate; when the coating roller 34 and the coating tank 31 need to be replaced, firstly, the material receiving motor 434 rotates positively to drive the material receiving plate 435 to move vertically to the same height as the supporting plate 424, and then the piston rod of the hydraulic cylinder 421 is pushed to extend to push the coating tank 31 and the positioning frame 32 from the supporting plate 424 to the material receiving plate 435; then, the piston rod of the supporting hydraulic cylinder 423 is retracted to drive the supporting plate 424 to slide towards the direction of the supporting hydraulic cylinder 423, so as to reserve a rising space for the standby coating mechanism 4; after the support plate 424 is retracted, the piston rod of the driving hydraulic cylinder 414 is extended, the top plate 415 jacks up the standby coating mechanism 4, and finally, the support hydraulic cylinder 423 drives the support plate 424 to slide to the bottom of the coating tank 31, so that the coating tank 31 is supported, and the standby coating mechanism 4 can be automatically replaced with the coating mechanism 3. After the coating groove 31 and the coating roller 34 are cleaned, the material receiving plate 435 and the supporting plate 424 are arranged at equal height, the piston rod of the corner hydraulic cylinder 44 extends, the clamping hook 441 at the end part of the corner hydraulic cylinder 44 rotates into the limiting plate 311, the piston rod of the corner hydraulic cylinder 44 is retracted, and the coating mechanism 3 can be pulled onto the fixing plate 411 to serve as a standby coating mechanism 4, so that the circulation is realized, the non-stop replacement of the coating mechanism 3 is realized, and the coating efficiency of the steel plate is not affected.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. Coating roller equipment convenient to switch, including frame (1), be provided with coating mechanism (3), its characterized in that on frame (1): the coating machine comprises a frame (1), a coating mechanism (3) and a stand-by coating mechanism (4) are arranged below the coating mechanism (3), the stand-by coating mechanism (4) and the coating mechanism both comprise a coating groove (31), two ends of the coating groove (31) are fixedly connected with a positioning frame (32), a dipping roller (33) is rotationally connected to the positioning frame (32), the axial direction of the dipping roller (33) is horizontally arranged, the dipping roller (33) extends into the coating groove (31) and is used for dipping coating, a roll shaft at one end of the dipping roller (33) extends into the positioning frame (32), and a power assembly which is detachably connected with the roll shaft of the dipping roller (33) and is used for driving the dipping roller (33) to rotate is arranged on the frame (1);

the top rotation of locating rack (32) is connected with coating roller (34), and the axial level setting of coating roller (34), and the lateral wall and the dip-coating roller (33) butt of coating roller (34), and the surface transmission of steel sheet from coating roller (34) is provided with in frame (1) and pushes out pushing away material subassembly (42) of coating mechanism (3) level, and the bottom of frame (1) is provided with vertical drive assembly (41) of promotion reserve coating mechanism (3) vertical motion.

2. A switch-facilitating applicator roll apparatus as defined in claim 1, wherein: the utility model provides a dip-condiment sauce roller (33) roll shaft tip has been seted up and has been set up slot (331) that are the polygon, power pack includes locating plate (35) of fixed connection in the lateral wall of frame (1), the top of locating plate (35) slides and is connected with driving motor (351), the output shaft of driving motor (351) is the polygon with draw-in groove (321) shape matched with, the output shaft of driving motor (351) is pegged graft in slot (331), the bottom fixedly connected with actuating cylinder (352) of locating plate (35), actuating cylinder (352) level sets up, piston rod tip fixedly connected with connecting block (354) of actuating cylinder (352), the middle position of locating plate (35) has been seted up and has been stepped down groove (353), fixedly connected with in the bottom of driving motor (351) after connecting block (354) pass step down groove (353).

3. A switch-facilitating applicator roll apparatus as defined in claim 1, wherein: clamping grooves (321) are formed in the tops of the positioning frames (32), the coating rollers (34) are rotationally connected in the clamping grooves (321), cover plates (322) are arranged above roller shafts of the coating rollers (34), arc-shaped grooves (3221) are formed in the bottoms of the cover plates (322), the arc-shaped grooves (3221) are used for being clamped at the tops of the roller shafts of the coating rollers (34), and bolts for fixing the cover plates (322) with the positioning frames (32) are connected at two ends of each of the cover plates in a threaded mode.

4. A switch-facilitating applicator roll apparatus as defined in claim 1, wherein: the pushing assembly (42) comprises two pushing hydraulic cylinders (421) fixedly connected in the frame (1), the two pushing hydraulic cylinders (421) are horizontally arranged, a cylinder body of each pushing hydraulic cylinder (421) is fixedly connected to the inner wall of the frame (1), a pushing block (422) is fixedly connected to the end portion of a piston rod of each pushing hydraulic cylinder (421), and one side, far away from each pushing hydraulic cylinder (421), in the frame (1) is provided with a receiving assembly (43) for receiving the coating mechanism (3).

5. A switch-facilitating applicator roll apparatus as defined in claim 1, wherein: vertical drive assembly (41) are including fixed connection fixed plate (411) in the bottom in frame (1), the bottom fixedly connected with fixed block (412) of fixed plate (411), fixed block (412) butt support in the intermediate position of fixed plate (411), notch groove (413) have been seted up in the position that fixed plate (411) is close to both ends, the below in notch groove (413) is provided with drive pneumatic cylinder (414), drive pneumatic cylinder (414) vertical setting, the piston rod of pneumatic cylinder is vertical upwards and tip fixedly connected with roof (415), roof (415) extend to in notch groove (413).

6. A switch-facilitating applicator roll apparatus as defined in claim 4, wherein: the utility model discloses a coating machine, including frame (1), frame (1) internal fixation has support pneumatic cylinder (423), the level setting of support pneumatic cylinder (423), the cylinder body fixed connection of support pneumatic cylinder (423) is in frame (1) inner wall, and be located the below that pushes away feed pneumatic cylinder (421), the piston rod tip fixedly connected with of support pneumatic cylinder (423) level setting backup pad (424), backup pad (424) are used for the butt and support in the bottom of coating groove (31) and locating rack (32), the width of backup pad (424) is less than the distance between two roof (415).

7. A switch-facilitating applicator roll apparatus as defined in claim 4, wherein: the material receiving assembly (43) comprises a material receiving frame (431), two corners of the material receiving frame (431) are rotationally connected with lead screws (432), the other two corners are fixedly connected with guide posts (433), the axial directions of the lead screws (432) and the guide posts (433) are vertically arranged, material receiving plates (435) are connected to the two lead screws (432) in a threaded mode, the material receiving plates (435) are connected to the guide posts (433) in a sliding mode, material receiving motors (434) are fixedly connected to the positions, corresponding to the lead screws (432), of the material receiving frame (431), and output shafts of the material receiving motors (434) are fixed to the lead screws (432).

8. A switch-facilitating applicator roll apparatus as defined in claim 7, wherein: t-shaped sliding grooves (436) are formed in the tops of the receiving plates (435), the T-shaped sliding grooves (436) are perpendicular to the sliding-out direction of the coating grooves (31), cleaning plates (437) are connected to the tops of the receiving plates (435) in a sliding mode, two T-shaped sliding blocks (438) are fixedly connected to the bottoms of the cleaning plates (437), and the T-shaped sliding blocks (438) are connected to the T-shaped sliding grooves (436) in a sliding mode.

9. A switch-facilitating applicator roll apparatus as defined in claim 1, wherein: the device is characterized in that a corner hydraulic cylinder (44) is fixedly connected in the frame (1), a cylinder body of the corner hydraulic cylinder (44) is fixedly connected to the inner wall of the frame (1), the corner hydraulic cylinder (44) is horizontally arranged, a clamping hook (441) is fixedly connected to the end portion of a piston rod of the corner hydraulic cylinder (44), two limiting plates (311) are fixedly connected to the side wall of the coating groove (31), and a matching groove for the clamping hook (441) to be inserted is formed in the limiting plates (311).