CN110665691B

CN110665691B - Adjusting device for coating machine

Info

Publication number: CN110665691B
Application number: CN201911074369.6A
Authority: CN
Inventors: 张建新; 刘船行; 刘永根; 李娜; 敖火平; 宋立华; 沈平
Original assignee: Jiangxi New Steel South New Materials Co ltd
Current assignee: Jiangxi New Steel South New Materials Co ltd
Priority date: 2019-11-06
Filing date: 2019-11-06
Publication date: 2024-08-30
Anticipated expiration: 2039-11-06
Also published as: CN110665691A

Abstract

The invention relates to an adjusting device for a coating machine. The utility model provides a coating machine adjusting device includes two conveying rollers, receipts material cover and adjustment mechanism, form the conveying clearance between two conveying rollers, the conveying clearance is used for carrying panel, receive the material cover with two conveying rollers interval each other sets up, receive the material cover on seted up and received the silo, receive the silo alignment the conveying clearance, adjustment mechanism includes cage and knife coating board, the cage set up in conveying clearance with receive between the silo, knife coating board rotationally set up in on the cage, knife coating board's edge is formed with knife coating edge. The adjusting device for the coating machine can enable the thickness of the coating to be uniform.

Description

Adjusting device for coating machine

Technical Field

The invention relates to an adjusting device for a coating machine.

Background

The coating is a solid continuous film obtained by application, and is a plastic thin layer coated on a metal, fabric, plastic and other substrates for the purposes of protection, insulation, decoration and the like. The paint can be gaseous, liquid or solid, and the type and state of the paint is generally determined according to the substrate to be sprayed. The coater is a mechanism for performing a coating operation. However, the coating machine is liable to make the thickness of the coating layer on the plate uneven when the coating operation is performed.

Disclosure of Invention

Based on this, it is necessary to provide an adjusting device for a coating machine which can make the coating thickness relatively uniform.

The utility model provides a coating machine adjusting device, includes two conveying rollers, receipts material cover and adjustment mechanism, form the conveying clearance between two conveying rollers, the conveying clearance is used for carrying panel, receive the material cover with two conveying rollers interval each other sets up, receive the material cover on seted up and received the silo, receive the silo alignment the conveying clearance, adjustment mechanism includes cage and knife coating board, the cage set up in conveying clearance with receive between the silo, knife coating board rotationally set up in on the cage, knife coating board's edge is formed with knife coating edge.

In one embodiment, the sheet material in the conveying gap extends into the receiving trough, with a middle portion of the sheet material adjacent to the blade.

In one embodiment, a spraying mechanism is arranged above the middle of the plate, the scraping plate is adjacent to the spraying mechanism, and a scraping gap is formed between the scraping plate and the plate.

In one embodiment, the spray mechanism includes a spray cartridge mounted on the cage and a nozzle mounted on the spray cartridge and directed toward the sheet material.

In one embodiment, the two conveying rollers are a first conveying roller and a second conveying roller, the first conveying roller is arranged adjacent to the second conveying roller, and the diameter of the first conveying roller is smaller than that of the second conveying roller.

In one embodiment, the first conveying roller has a height greater than a height of the second conveying roller, and the inner side of the second conveying roller is disposed at the heating source.

In one embodiment, the periphery of the first conveying roller is a smooth surface, and the periphery of the second conveying roller is a rough surface.

In one embodiment, the cage is formed with a through channel, the plate is inserted into the through channel, and the doctor blade extends to the upper side of the through channel.

In one embodiment, the bottom of the cage is provided with a stand, which is supported on the ground.

In one embodiment, the bottom of the bracket is provided with a gravity disk, and the gravity disk is supported on the ground.

When the adjusting device for the coating machine is used, the plate is conveyed into the material receiving groove of the material receiving cover by utilizing the conveying gap between the two conveying rollers, the coating is sprayed on the plate in a polar mode by utilizing the spraying mechanism, and then the doctor-blade plate is rotated to adjust the distance between the doctor-blade edge and the surface of the plate, so that the thickness of the coating on the surface of the plate is adjusted. By arranging the blade coating plate, the thickness of the coating can be ensured to be uniform.

Drawings

Fig. 1 is a schematic perspective view of an adjusting device for a coating machine according to an embodiment.

Fig. 2 is a schematic perspective view of an adjusting mechanism according to an embodiment.

Fig. 3 is a perspective view of another view of the adjustment mechanism of fig. 2.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" 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," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The invention relates to an adjusting device for a coating machine. For example, the coating machine adjusting device comprises two conveying rollers, a receiving cover and an adjusting mechanism. For example, a conveying gap is formed between the two conveying rollers, the conveying gap is used for conveying a plate, the material receiving cover and the two conveying rollers are arranged at intervals, and a material receiving groove is formed in the material receiving cover. For example, the receiving trough is aligned with the conveying gap and the adjustment mechanism includes a cage and a blade. For example, the cage is disposed between the conveying gap and the material collecting groove, the blade-coating plate is rotatably disposed on the cage, and a blade-coating edge is formed at an edge of the blade-coating plate.

Referring to fig. 1, an adjusting device for a coating machine includes two conveying rollers, a receiving cover 20 and an adjusting mechanism 50, a conveying gap 11 is formed between the two conveying rollers, the conveying gap 11 is used for conveying a plate 55, the receiving cover 20 and the two conveying rollers are arranged at intervals, a receiving groove 21 is formed in the receiving cover 20, the receiving groove 21 is aligned to the conveying gap 11, the adjusting mechanism 50 includes a cage frame 51 and a scraping plate 53, the cage frame 51 is arranged between the conveying gap 11 and the receiving groove 21, the scraping plate 53 is rotationally arranged on the cage frame 51, and a scraping edge 531 is formed at the edge of the scraping plate 53.

When the adjusting device for the coating machine is used, the plate 55 is conveyed into the material receiving groove 21 of the material receiving cover 20 by utilizing the conveying gap 11 between the two conveying rollers, the coating is sprayed on the plate 55 in a polar manner by utilizing the spraying mechanism, and then the doctor blade 53 is rotated to adjust the distance between the doctor blade edge 531 and the surface of the plate 55, so that the thickness of the coating on the surface of the plate 55 is adjusted. By providing the blade coating plate 53, it is possible to ensure that the thickness of the coating layer is relatively uniform.

For example, in order to achieve spraying of the coating, the sheet material 55 in the conveying gap 11 extends into the receiving trough 21, the middle of the sheet material 55 being adjacent to the blade-coating plate 53. A spraying mechanism (not shown) is disposed above the middle of the plate 55, the blade 53 is adjacent to the spraying mechanism, and a scraping gap 535 is formed between the blade 53 and the plate 55. The spraying mechanism comprises a spraying cylinder mounted on the cage 51 and a nozzle mounted on the spraying cylinder and directed towards the sheet 55. By providing the spraying mechanism, it is convenient to spray the sheet material 55 with the nozzle and scrape the coating in a fluid state with the blade coating plate 53.

For example, in order to facilitate the conveyance of the sheet material 55, the two conveying rollers are a first conveying roller 13 and a second conveying roller 15, respectively, the first conveying roller 13 is disposed adjacent to the second conveying roller 15, and the diameter of the first conveying roller 13 is smaller than the diameter of the second conveying roller 15. The first conveying roller 13 has a height greater than that of the second conveying roller 15, and the inner side of the second conveying roller 15 is disposed at the heating source. The periphery of the first conveying roller 13 is a smooth surface 131, and the periphery of the second conveying roller 15 is a rough surface 151. The cage frame 51 is formed with a penetrating channel 501, the plate 55 is penetrated in the penetrating channel 501, and the doctor blade 53 extends to the upper side of the penetrating channel 501. By using the rough surface 151 of the first conveying roller 13, the plate 55 can be driven to move by using a larger friction force, so that the conveying efficiency is improved.

For example, in order to facilitate the fixation of the cage 51, the bottom of the cage 51 is provided with a bracket (not shown) which is supported on the ground. The bottom of the bracket is provided with a gravity disc, and the gravity disc is supported on the ground. The gravity disk is supported on the ground, so that the cage 51 can be supported, and the support stability is improved.

For example, referring to fig. 2 and 3 together, it is particularly important that, in order to facilitate adjusting the thickness of the coating, the cage 51 includes a bottom plate 511, two side plates 513 and two supporting frames 515, the bottom plate 511 is fixed on the top of the bracket, the two side plates 513 are respectively disposed on opposite sides of the bottom plate 511, the through-hole 501 penetrates the two side plates 513, the two supporting frames 515 are respectively fixed on opposite ends of the bottom plate 511, and opposite sides of each supporting frame 515 are respectively connected to ends of the two side plates 513. The blade coating plate 53 includes a rotating plate portion 534 and an adjusting plate portion 539, one side of the rotating plate portion 534 extends toward the material receiving cover 20, and the other side of the rotating plate portion 534 is fixedly connected to the adjusting plate portion 539, so that the adjusting plate portion 539 is parallel to the plate 55. The blade coating edge 531 is formed on a side of the adjustment plate portion 539 remote from the rotation plate portion 534. The scraping gap 535 is formed between the sheet material 55 and the doctor blade edge 531. The adjusting mechanism 50 further includes a pivot shaft 56, a floating shaft 57, and two elastic adjusting assemblies 58, opposite ends of the pivot shaft 56 are respectively rotatably connected to the two supporting frames 515, a middle portion of the pivot shaft 56 is disposed through the rotating plate portion 534, and the doctor blade 53 is configured to rotate around the pivot shaft 56 to adjust a size of the doctor blade gap, thereby adjusting a thickness of the coating.

For example, a mounting plate 516 is disposed on a side plate 513 adjacent to the receiving cover 20, the mounting plate 516 is parallel to the plate 55, the mounting plate 516 is located below the through channel 501, and the width of the doctor blade 53 is greater than the width of the through channel 501, so that opposite sides of the doctor blade 53 are respectively disposed on opposite sides of the through channel 501. The side plate 513 far away from one side of the receiving cover 20 is provided with a supporting plate 517 in a protruding manner, the supporting plate 517 extends along a direction away from the receiving cover 20, the height of the supporting plate 517 is greater than that of the mounting plate 516, the edge of one side of the supporting plate 517 far away from the receiving cover 20 is provided with a fixing plate 518 in a protruding manner, and the penetrating channel 501 penetrates through the fixing plate 518. The floating shaft 57 is disposed adjacent to the fixed plate 518 and rotatably supported on the upper surface of the plate body. The two elastic adjusting assemblies 58 are respectively disposed at opposite ends of the floating shaft 57, and are used for implementing linkage between the floating shaft 57 and the blade coating plate 53. Each elastic adjusting assembly 58 includes a tension spring 581, a collar 582 and a force-applying rod 585, wherein opposite ends of the tension spring 581 are respectively connected to the mounting plate 516 and the rotating plate portion 534 of the blade 53, so as to pull the blade 53 to rotate around the pivot shaft 56. When the tension spring 581 is in the original state, the adjustment plate portion 539 can be kept parallel to the plate 55. The collar 582 is rotatably sleeved at the end of the floating shaft 57 and spaced from the side wall of the plate 55, and opposite ends of the force applying rod 585 are respectively fixed to the middle part of the tension spring 581 and the collar 582. The end position of the apply rod 585 adjacent the spring is higher than the end position of the apply rod 585 adjacent the collar 582. The middle part of the force applying rod 585 is rotatably connected to the supporting frame 515 through a rotating shaft 586.

When the thick plate 55 is glued or coated, the floating shaft 57 is supported by the upper surface of the plate 55, so that the height of the floating shaft 57 rises, the force application rod 585 is forced to drive the middle part of the spring to descend, and then the rotating plate 534 is pulled to rotate downwards, so that the scraping edge 531 of the adjusting plate 539 rises, the size of the scraping gap 535 is increased, and the thickness of the coating on the thick plate 55 is not reduced. And the spring is elastically operated so that the spring can be bent left and right, thereby facilitating the rotation of the rotation plate 534 to accommodate the change of position in the lateral direction when the rotation plate 534 rotates.

For example, when the coating material sprayed from the spraying mechanism is more, the coating material is easily accumulated and overflowed to one side of the floating shaft 57 by the scraping action of the scraping edge, and at this time, in order to facilitate the removal of the overflowed coating material, the opposite ends of the floating shaft 57 are respectively and rotatably coaxially connected with the conveying hoses, which are bent and extended to the bottom of the receiving hopper mounted on the top of the fixing plate 518. The inner side of the floating shaft 57 forms a material receiving channel, the material receiving channel extends along the length direction of the floating shaft 57, a plurality of material receiving holes are formed in the peripheral surface of the floating shaft 57, each material receiving hole is internally provided with a turnover arc-shaped cover 575, the floating shaft 57 faces to the plurality of turnover arc-shaped covers 575 on one side of the fixed plate 518 and is sagged by gravity to seal the plurality of material receiving holes, and the plurality of turnover arc-shaped covers 575 on one side of the floating shaft 57, which is away from the fixed plate 518, are outwards turned by gravity to open the plurality of material receiving holes. During operation, the plate 55 drives the floating shaft 57 to rotate by using its own upper surface, and then the plurality of outwards turned-open turned arc covers 575 are used to scrape the redundant coating material into the material receiving channel. The plurality of overturning arc covers 575 are provided with first magnetic materials, the fixed plate 518 is also provided with second magnetic materials, and magnetic poles of the second magnetic materials are arranged differently from those of the plurality of first magnetic materials. The second magnetic material forces the plurality of overturning arc covers 575 facing the fixed plate 518 to cover the plurality of receiving holes by magnetic force so as to prevent the plurality of overturning arc covers 575 from affecting the rotation of the floating shaft 57, and the second magnetic material forces the plurality of overturning arc covers 575 facing away from the fixed plate 518 to overturn outwards by magnetic force. The rotation of the floating shaft 57 can cause the excess coating material to move along the receiving channel and pass through the two delivery hoses into the receiving hopper for temporary storage. By the arrangement of the floating shaft 57, the excessive paint on the plate 55 is absorbed and temporarily stored, so as not to influence the coating operation.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above embodiments represent only a few embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the present invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The utility model provides a coating machine adjusting device, its characterized in that includes two conveying rollers, receipts material cover and adjustment mechanism, form the transportation clearance between two conveying rollers, the transportation clearance is used for carrying panel, receipts material cover with two conveying rollers interval each other sets up, receive the material cover on seted up receipts silo, receive the silo alignment the transportation clearance, adjustment mechanism includes cage and knife coating board, the cage is arranged in between transportation clearance and the receipts silo, the knife coating board rotationally set up in on the cage, the edge of knife coating board is formed with the knife coating edge, be formed with the knife coating clearance between knife coating board and the panel, The coating device comprises a cage frame, wherein a penetrating channel is formed on the cage frame, the plate is penetrated in the penetrating channel, the doctor-bar extends to the upper side of the penetrating channel, and a bracket is arranged at the bottom of the cage frame; The cage comprises a bottom plate, two side plates and two supporting frames, wherein the bottom plate is fixed at the top of the bracket, the two side plates are respectively arranged at the opposite sides of the bottom plate, the penetrating channel penetrates through the two side plates, the two supporting frames are respectively fixed at the opposite ends of the bottom plate, and the opposite sides of each supporting frame are respectively connected with the end parts of the two side plates; the scraping plate comprises a rotating plate part and an adjusting plate part, one side of the rotating plate part extends towards the material receiving cover, and the other side of the rotating plate part is fixedly connected to the adjusting plate part so that the adjusting plate part is parallel to the plate; the blade coating edge is formed on one side of the adjusting plate part far away from the rotating plate part; The scraping gap is formed between the plate and the scraping edge; the adjusting mechanism further comprises a pivot shaft, a floating shaft and two elastic adjusting components, wherein two opposite ends of the pivot shaft are respectively and rotatably connected to the two supporting frames, the middle part of the pivot shaft is arranged on the rotating plate in a penetrating mode, and the scraping plate is used for rotating around the pivot shaft to adjust the size of the scraping gap and further adjust the thickness of the coating; a mounting plate is convexly arranged on the side plate adjacent to the material receiving cover; a supporting plate is convexly arranged on a side plate far away from one side of the material receiving cover, the supporting plate extends along the direction away from the material receiving cover, the height of the supporting plate is larger than that of the mounting plate, a fixing plate is vertically convexly arranged on the edge of one side of the supporting plate far away from the material receiving cover, and the penetrating channel penetrates through the fixing plate; Each elastic adjusting component comprises a tension spring, a lantern ring and a force application rod, and the opposite ends of the tension springs are respectively connected to the mounting plate and the rotating plate part of the blade coating plate so as to pull the blade coating plate to rotate around the pivot shaft; when the tension spring is positioned in the original state, the adjusting plate part can be kept parallel to the plate; the sleeve ring is rotationally sleeved at the end part of the floating shaft and is arranged at intervals with the side wall of the plate, and the opposite two ends of the force application rod are respectively fixed on the middle part of the tension spring and the sleeve ring; the end position of the force application rod, which is adjacent to the tension spring, is higher than the end position of the force application rod, which is adjacent to the lantern ring; the middle part of the force application rod is rotationally connected to the supporting frame through a rotating shaft; The two opposite ends of the floating shaft are respectively and rotatably connected with conveying hoses coaxially, the two conveying hoses are bent and extend to the bottom of a receiving hopper, and the receiving hopper is arranged at the top of the fixed plate; the inner side of the floating shaft forms a material receiving channel, the material receiving channel extends along the length direction of the floating shaft, a plurality of material receiving holes are formed in the peripheral surface of the floating shaft, each material receiving hole is internally provided with a turnover arc cover, the floating shaft faces to the plurality of turnover arc covers on one side of the fixed plate and sags under gravity to close the plurality of material receiving holes, and the plurality of turnover arc covers on one side of the floating shaft deviate from the fixed plate and outwards turn over under gravity to open the plurality of material receiving holes.

2. The adjustment device for a coating machine according to claim 1, wherein the sheet material in the conveying gap extends into the receiving trough, the middle portion of the sheet material being adjacent to the blade.

3. The adjusting device for a coating machine according to claim 2, wherein a spraying mechanism is provided above a middle portion of the plate material, the blade plate is adjacent to the spraying mechanism, and a scraping gap is formed between the blade plate and the plate material.

4. A coating machine adjustment device according to claim 3, wherein the spray mechanism comprises a spray cartridge mounted on the cage and a nozzle mounted on the spray cartridge and directed towards the sheet material.

5. The apparatus according to claim 4, wherein the two conveying rollers are a first conveying roller and a second conveying roller, the first conveying roller and the second conveying roller are disposed adjacently, and a diameter of the first conveying roller is smaller than a diameter of the second conveying roller.

6. The apparatus according to claim 5, wherein the first conveyor roller has a height greater than a height of the second conveyor roller, and wherein an inner side of the second conveyor roller is provided to the heating source.

7. The apparatus according to claim 6, wherein the first conveyor roller has a smooth surface at its periphery and the second conveyor roller has a rough surface at its periphery.