CN115893863A

CN115893863A - Glass processing pretreatment roller machine and processing method

Info

Publication number: CN115893863A
Application number: CN202211666445.4A
Authority: CN
Inventors: 陈立; 潘新利; 吴兴兵; 陈鸿瑜
Original assignee: Guiyang Huaxi Davos Optoelectronics Co ltd
Current assignee: Guiyang Huaxi Davos Optoelectronics Co ltd
Priority date: 2022-12-23
Filing date: 2022-12-23
Publication date: 2023-04-04

Abstract

The utility model relates to a glass processing equipment technical field specifically discloses a glass processing preliminary treatment roller machine and processing method, including the coating station, locate the coating roll on the coating station and be used for the transmission assembly of horizontal reciprocating motion coating roll, be equipped with feed mechanism on the coating roll, feed mechanism includes ink box and rotation and gets the material structure, rotates and gets the rotation case that the material structure includes and communicates with ink box, rotates and gets the workbin internal rotation and be connected with the pay-off fan, and the pivot of pay-off fan extends and rotates case external connection drive assembly, and drive assembly drives the pay-off flabellum and rotates, and the coating roll is opened there is the chute feeder that extends to the coating roll bottom from the top, and the discharge end that rotates the case is located and chute feeder top. The purpose of this patent is that ink receives the problem that pollutes easily and influence the coating effect when solving current glass processing coating.

Description

Glass processing pretreatment roller machine and processing method

Technical Field

The invention relates to the technical field of glass processing equipment, in particular to a glass processing pretreatment roller machine and a processing method.

Background

With the technical updating iteration of intelligent electronic products, the demand for the display screen matched with the electronic products is increasing day by day; the existing display screen uses a large amount of glass as a component material of the display screen to ensure the use touch and the display effect. In order to improve the wear resistance of glass in the glass production process and protect the glass from being easily scratched, a layer of curing film is coated on the surface of the glass for protection.

The existing coating process usually pours ink into an ink tank, dips the ink from the ink tank through a material taking roller, and transfers the ink to a coating roller; the coating roller coats the ink on the surface of the coated object, thereby obtaining a continuous coating film. Coating in this way has the following problems: 1. because the material taking roller needs to open an ink groove for taking materials, impurities such as dust and the like are easily mixed in the ink in the groove, so that the texture of a curing film is disordered and the coating is uneven; 2. because the ink in the groove is mixed with more dust, the ink groove needs to be regularly washed or the glue needs to be changed, and the ink waste is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a glass processing pretreatment roller machine and a processing method, and solves the problems that the coating effect is easily influenced by the pollution of ink and the ink needs to be replaced regularly during the existing glass processing coating, so that the waste is caused.

In order to solve the problems, the technical scheme includes that the glass processing pretreatment roller machine comprises a coating table, a coating roller arranged on the coating table and a transmission assembly used for horizontally and reciprocally moving the coating roller, wherein a feeding mechanism is arranged on the coating roller and comprises an ink tank and a rotary material taking structure, the rotary material taking structure comprises a rotary material taking tank communicated with the ink tank, a feeding fan is rotatably connected in the rotary material taking tank, a rotating shaft of the feeding fan extends out of the rotary tank and is externally connected with a driving assembly, the driving assembly drives a feeding fan blade to rotate, the coating roller is provided with a feeding groove extending from the top to the bottom of the coating roller, and the discharging end of the rotary material taking tank is located above the feeding groove.

The beneficial effect that this scheme produced is: 1. the ink box is arranged on the coating roller in a closed mode, the ink is transmitted to the feeding groove of the coating roller in a rotating mode through the rotating material taking structure, the ink is transmitted to the bottom of the coating roller through the feeding groove to be subjected to ink taking, the material taking roller is not needed to take the material, and the upper portion of the ink box can be arranged in a closed mode, so that the ink in the ink box is prevented from being polluted; 2. intermittent feeding is carried out to the feeding groove through the rotation of the feeding fan, so that the consistent amount of ink added each time is ensured, and the uniform coating of the glass ink is ensured; meanwhile, the required amount of ink is placed in an ink tank according to coating requirements, a large amount of ink does not need to be added in an ink box during coating, and the using amount of the ink can be saved.

Furthermore, the transmission assembly comprises a screw rod and a sliding block sleeved on the screw rod, the sliding block is rotatably connected with the coating table, and the coating roller is detachably connected with the sliding block. The slide block is driven by the screw rod to drive the coating roller to move for coating, and the coating distance and the coating speed can be accurately controlled by driving the screw rod.

Further, the coating platform is provided with a coating recovery mechanism, the coating recovery mechanism comprises a storage box, a transmission box and a recovery box which are sequentially arranged along the coating direction of the coating roll, and the recovery box is arranged at the movement limit position of the coating roll; a sliding plate is arranged in the transmission box and can move along with the sliding block, a first one-way valve is arranged on the side wall between the recovery box and the transmission box, a second one-way valve is arranged on the sliding plate, and a third one-way valve is arranged on the side wall between the transmission box and the storage box; the recycling box is provided with an electric door, and the bottom of the transmission box is provided with an electric door switch; first check valve only supplies the fluid to get into the transmission case from the collection box, and the second check valve only supplies the fluid to get into near storage case one side from being close to collection box one side.

When the coating roller is used for coating, namely the sliding block moves towards the direction of the recovery box, the sliding block drives the sliding plate to move towards the recovery box, the sliding plate extrudes the space of the transmission box close to one side of the recovery box, fluid in the space can enter the space of the transmission box close to one side of the storage box through the second one-way valve, and the sliding plate presses down the electric door switch to open the electric door on the recovery box when moving towards one side of the recovery box; when the sliding block moves to the limit position, coating is finished, and redundant ink is pushed into the recovery box; after coating is finished, the screw rod reverse rotation sliding block returns to the initial position, the sliding plate is driven to move to one side close to the material storage box when the sliding block returns, and the sliding plate presses the electric door switch again to close the electric door; when the sliding plate moves towards one side of the storage box, the space between the sliding plate and one side of the transmission box, which is close to the recovery box, is enlarged to generate negative pressure, and the ink in the recovery box is sucked into the transmission box through the first one-way valve under the action of the negative pressure; meanwhile, the sliding plate and the transmission box are extruded in the space close to one side of the storage box, so that the ink in the space is pressed into the storage box through the third one-way valve to be recycled.

Through the setting of coating recovery mechanism, realize accomplishing the recovery to printing ink in step in the coating process, reduce the printing ink use of coating.

Furthermore, the driving assembly comprises a gear and a rack meshed with the gear, the gear is fixedly connected with a rotating shaft of the feeding fan, and the rack is fixedly connected with the coating table. Through rack and pinion transmission, when the coating roll removed when the slider removed, the gear rotated and then drove the pay-off fan and rotate under the gear action, and when the coating roll stopped to remove, the rack was spacing to the gear, thereby the gear no longer rotated pay-off fan and no longer rotated, and then blocked ink groove and the junction of rotating the case for printing ink no longer leaks down.

Further, the bottom of the ink tank is a slope inclined toward the rotation tank. The inclined bottom facilitates the guiding of a small amount of ink to the rotating box to flow down.

Further, a glass coating processing method using the glass processing pretreatment roller machine comprises the following steps; step 1: pumping the ink from the material storage tank into an ink tank, and placing the glass to be processed on a coating table; and 2, step: adjusting the distance between the coating roller and the glass to be processed, namely determining the coating thickness of the glass to be processed; and step 3: starting the transmission assembly, and moving a sliding block of the transmission assembly along the screw rod to drive the coating roller to move to coat the glass; finishing coating after the coating roller moves to a limit position; and 4, step 4: and heating or irradiating ultraviolet rays on the glass after coating to finish the curing of the coating.

This scheme of adoption is coated, and single coating uses printing ink volume to be few, through on evenly adding printing ink coating roll in the coating process, guarantees that the curing film coating after the glass coating is even.

Drawings

FIG. 1 is a front cross-sectional view of the roll mill of the present invention.

Fig. 2 is a right side view of fig. 1.

FIG. 3 is a top view of the transfer and recovery tank sections.

FIG. 4 is a schematic view of a feeding fan in the rotary material taking box.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the coating machine comprises a coating table 1, a coating roller 2, a feeding groove 21, an ink tank 3, a rotary material taking box 31, a feeding fan 32, a closed room 321, a feeding room 322, a gear 33, a rack 34, a screw rod 4, a sliding block 41, a second magnet 411, a recovery box 5, an electric door 501, a first one-way valve 502, an electric door switch 503, a transmission box 51, a sliding plate 511, a first magnet 512, a second one-way valve 513, a material storage box 52, a third one-way valve 521, an ultraviolet lamp 6 and glass to be processed 7.

Example 1 is shown in figure 1: the curing ink is generally selected from thermosetting ink or ultraviolet curing ink when the glass surface is coated; in this embodiment, an ultraviolet curable ink is used.

The utility model provides a glass processing preliminary treatment roller machine, including scribbling the coating station 1, locate coating roll 2 on the coating station 1 and the transmission assembly who is used for horizontal reciprocating motion coating roll 2, be equipped with feed mechanism on the coating roll 2, feed mechanism includes ink tank 3 and rotates and gets the material structure, it includes and gets workbin 31 with the rotation of ink tank 3 intercommunication to rotate to get the material structure, it is connected with pay-off fan 32 to rotate the rotation of workbin 31 internal rotation, the pivot of pay-off fan 32 extends and rotates case external connection drive assembly, drive assembly drives 32 leaf rotations of pay-off fan, coating roll 2 opens has the chute feeder 21 that extends to coating roll 2 bottoms from coating roll 2 tops, the discharge end that the workbin 31 was got in the rotation is located and chute feeder 21 top, coating station 1 has the coating recovery mechanism who is used for retrieving printing ink. The ink is transported from the ink tank 3 to the feeding groove 21 by the rotation of the feeding fan 32, and is transported to the bottom of the coating roller 2 through the feeding groove 21, so that the glass 7 to be processed can be coated through the bottom of the coating roller 2. In order to ensure even coating, the feed chute 21 can be provided with a plurality of channels according to the length of the coating roller way, so that the feed chute 21 is ensured to extend to the lower part of the coating roller 2 and is uniformly and equidistantly arranged, and the contact surface of the coating roller 2 and the glass is a flat surface.

As shown in fig. 1 and 2, the transmission assembly includes a screw rod 4, a slider 41 sleeved on the screw rod 4, and a motor driving the screw rod 4 to rotate, the slider 41 is slidably connected with the coating table 1, the coating roll 2 and the slider 41 are fixed by bolts, and the slider 41 is provided with a plurality of fixing holes, so that the height of the coating roll 2 can be conveniently adjusted. The driving component comprises a gear 33 and a rack 34 meshed with the gear 33, the gear 33 is fixedly connected with the rotating shaft of the feeding fan 32, and the rack 34 is fixedly connected with the coating table 1. The gear 33 can rotate along the rack 34 when the coating roll 2 moves, and the rack 34 plays a role of limiting the gear 33 when the coating roll 2 stops.

As shown in fig. 1, the paint recovery mechanism comprises a storage box 52, a transmission box 51 and a recovery box 5 which are sequentially arranged from left to right, the recovery box 5 is arranged at the movement limit position of the coating roller 2, a feeding pipe is detachably connected between the storage box 52 and the ink box 3, and the feeding pipe is connected with a feeding pump; a sliding plate 511 is connected to the inside of the transmission box 51 in a horizontal sliding manner, a first magnet 512 is arranged at the top of the sliding plate 511, a second magnet 411 capable of being adsorbed by the first magnet 512 is arranged at the bottom of the sliding block 41, the sliding plate 511 moves along with the sliding block 41 under the action of magnetic force, a first check valve 502 is arranged on the side wall between the recovery box 5 and the transmission box 51, a second check valve 513 is arranged on the sliding plate 511, and a third check valve 521 is arranged on the side wall between the transmission box 51 and the storage box 52; the first check valve 502 only supplies fluid from the recovery tank 5 to the transfer tank 51, the second check valve 513 only supplies fluid from the side close to the recovery tank 5 to the side close to the storage tank 52, and the third check valve 521 supplies fluid from the transfer tank 51 to the storage tank 52; the recycling box 5 is provided with an electric door 501 capable of closing or opening the recycling box 5, the bottom of the transmission box 51 is provided with an electric door switch 503, the electric door switch 503 is electrically connected with the electric door 501, and the sliding plate 511 can control the opening and closing of the electric door 501 by pressing the electric door switch 503.

The space between the left side of the sliding plate 511 and the transfer box 51 is defined as a first space, and the space between the right side of the sliding plate 511 and the transfer box 51 is defined as a second space.

When the glass coating machine is used, firstly, glass 7 to be processed is placed below the coating roller 2, when the coating roller 2 is coated, ultraviolet curing ink is pumped into the ink tank 3 from the material storage tank 52, and the motor is started to drive the screw rod 4 to rotate, so that the sliding block 41 moves rightwards; at the moment, the gear 33 rotates along the rack 34, so that the feeding fan 32 is driven to rotate to transmit the ink to the feeding groove 21 of the coating roller 2 in a rotating manner, and the ink is transmitted to the bottom of the coating roller 2 through the feeding groove 21 to be printed;

when coating, the slide block 41 drives the sliding plate 511 to move rightwards, the sliding plate 511 extrudes the first space, fluid in the second space can enter the first space through the second one-way valve 513, and the sliding plate 511 presses the lower electric door switch 503 to open the electric door 501 on the recovery box 5 when moving to one side of the recovery box 5; when the slide block 41 moves to the limit position, the coating is finished, and the redundant ink is pushed into the recovery box 5 from the surface of the coating table 1 by the coating roller 2; after coating is finished, the screw rod 4 is reversely rotated, the slide block 41 returns to the initial position, the slide plate 511 is driven to move towards one side close to the material storage box 52 when the slide block 41 returns, at the moment, the slide plate 511 presses the electric door switch 503 again, and the electric door 501 is closed; when the sliding plate 511 moves towards the material storage box 52, the space between the sliding plate 511 and the side of the transmission box 51 close to the recovery box 5 is enlarged to generate negative pressure, and the ink in the recovery box 5 is sucked into the first space of the transmission box 51 through the first one-way valve 502 under the action of the negative pressure; at the same time, the sliding plate 511 and the space of the transportation tank 51 near the storage tank 52 are pressed, and the ink in the space is pressed into the storage tank 52 through the third check valve 521 to be recovered.

A glass coating processing method applying the glass processing pretreatment roller machine comprises the following steps;

step 1: pumping the ink from the material storage tank into an ink tank, and placing the glass to be processed on a coating table;

and 2, step: adjusting the distance between the coating roll and the glass to be processed to 100-600 mu m, namely determining the coating thickness of the glass to be processed;

and step 3: starting the transmission assembly, and moving a sliding block of the transmission assembly along the screw rod to drive the coating roller to move to coat the glass; the coating speed is 5-50 mm/s, and the coating is finished after the coating roller moves to the extreme position;

and 4, step 4: and irradiating the coated glass with strong ultraviolet rays for 1-3S to finish the curing of the coating.

This scheme of adoption is coated, and single coating uses printing ink volume to be few, through evenly adding printing ink between coating roll and glass at the coating in-process, guarantees that the curing film coating after the glass coating is even.

Example 2 as shown in fig. 1 basically, the difference from example 1 is that an ultraviolet lamp 6 is installed on the left side of the coating roll 2, and the coated glass is cured by irradiating ultraviolet rays while the coating roll 2 is moving for coating.

As shown in fig. 4, 8 feeding fans 32 are provided, and arc-shaped closing plates are provided between the fan blades at intervals, so that a closed space 321 is formed by the fan blades, the inner wall of the rotary feeding box and the closing plates, a feeding space 322 is formed by the two fan blades without the arc-shaped closing plates and the inner wall of the rotary feeding box, and the closed space 321 and the feeding space 322 are provided at intervals, so that the amount of rotary feeding can be controlled, and the fan blades can be adjusted and replaced according to requirements.

As shown in fig. 2 and 3, the recycling box 5 is arranged along the transverse direction, the transmission boxes 51 are arranged vertically to the recycling box 5 along the longitudinal direction, and two transmission boxes 51 are symmetrically arranged along the motion track of the sliding block 41; the middle bottom plate of the recovery box 5 is higher than the bottom plates close to the two sides of the transmission box 51, and the two sides of the middle bottom plate of the recovery box 5 incline towards the transmission box, so that the unused ink can be conveniently gathered towards the two sides in the inclined flow direction, and the transmission box 51 can be conveniently adsorbed and recovered. Since the amount of ink that is not used up after application is generally small, a small amount of ink recovery is facilitated by reducing the internal spaces of the recovery tank 5 and the transfer tank and causing the ink in the recovery tank 5 to gather to both sides.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several variations and modifications can be made, which should also be considered as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the utility of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The utility model provides a glass processing preliminary treatment roller machine, includes the coating table, locates the coating roll on the coating table and is used for the horizontal reciprocating motion coating roll's transmission subassembly which characterized in that: be equipped with feed mechanism on the coating roll, feed mechanism includes ink tank and rotation and gets the material structure, rotates to get the material structure and includes to get the workbin with the rotation of ink tank intercommunication, rotates to get the workbin internal rotation and is connected with the pay-off fan, and the pivot of pay-off fan extends to rotate case external connection drive assembly, and drive assembly drives the pay-off flabellum and rotates, and the coating roll is opened there is the chute feeder that extends to the coating roll bottom from the coating roll top, rotates the discharge end that gets the workbin and is located with the chute feeder top.

2. The glass processing pretreatment roller machine according to claim 1, characterized in that: the transmission assembly comprises a screw rod and a sliding block sleeved on the screw rod, the sliding block is rotatably connected with the coating table, and the coating roller is detachably connected with the sliding block.

3. The glass processing pretreatment roller machine of claim 2, wherein: the coating platform is provided with a coating recovery mechanism, the coating recovery mechanism comprises a storage box, a transmission box and a recovery box which are sequentially arranged along the coating direction of the coating roll, and the recovery box is arranged at the movement limit position of the coating roll; a sliding plate is arranged in the transmission box and can move along with the sliding block, a first one-way valve is arranged on the side wall between the recovery box and the transmission box, a second one-way valve is arranged on the sliding plate, and a third one-way valve is arranged on the side wall between the transmission box and the storage box; the recycling box is provided with an electric door, and the bottom of the transmission box is provided with an electric door switch; the first check valve only supplies fluid to get into the transmission case from the recovery case, and the second check valve only supplies fluid to get into and be close to storage case one side from being close to recovery case one side, and the third check valve supplies fluid to get into in the storage case from the transmission case.

4. The glass processing pretreatment roller machine of claim 1, wherein: the driving assembly comprises a gear and a rack meshed with the gear, the gear is fixedly connected with a rotating shaft of the feeding fan, and the rack is fixedly connected with the coating table.

5. The glass processing pretreatment roller machine of claim 1, wherein: the bottom of the ink tank is an inclined plane inclined towards the rotating tank.

6. A glass coating process using the glass processing pretreatment roller machine according to claim 1, characterized in that: comprises the following steps; step 1: pumping the ink from the material storage tank into an ink tank, and placing the glass to be processed on a coating platform; step 2: adjusting the distance between the coating roller and the glass to be processed, namely determining the coating thickness of the glass to be processed; and step 3: starting the transmission assembly, and moving a sliding block of the transmission assembly along the screw rod to drive the coating roller to move to coat the glass; finishing coating after the coating roller moves to a limit position; and 4, step 4: and heating or irradiating ultraviolet rays on the glass after coating to finish the curing of the coating.