CN111660665B

CN111660665B - Cooling orthotic devices behind inferior gram force board printing

Info

Publication number: CN111660665B
Application number: CN202010540199.2A
Authority: CN
Inventors: 蒙世创; 沈锋
Original assignee: Jiangsu Xifo Photoelectric Technology Co ltd
Current assignee: Wuxi Tiankun Optoelectronic Technology Co ltd
Priority date: 2020-06-15
Filing date: 2020-06-15
Publication date: 2021-12-24
Anticipated expiration: 2040-06-15
Also published as: CN111660665A

Abstract

The invention discloses a cooling and correcting device for an acrylic plate after printing, which comprises a rack, a plurality of conveyor belt assemblies arranged on the rack in parallel at intervals, an upper fan assembly arranged above a conveying surface and blowing downwards, and a lower fan assembly arranged below the conveying surface and blowing upwards, wherein the upper fan assembly and the lower fan assembly are arranged above the conveying surface, and a control device for controlling the air volume of the lower fan assembly of the upper fan assembly. The upper fan assembly and the lower fan assembly are arranged on the two downward sides of the conveying belt assembly, the upper cooling degree and the lower cooling degree of the acrylic plate are different by adjusting the cooling air quantity of the upper fan assembly and the lower fan assembly, the degree of opening the upper fan assembly and the lower fan assembly to the acrylic plate control device of a certain model can be determined in a multi-time test mode, deformation of the acrylic plate during cooling can be offset by deformation during printing and drying, and therefore the flatness of the acrylic display panel is guaranteed.

Description

Cooling orthotic devices behind inferior gram force board printing

Technical Field

The invention relates to the field of acrylic plate printing, in particular to a cooling and correcting device for an acrylic plate after printing.

Background

The panel of the display is usually made of tempered glass or a transparent acrylic plate after printing, the printing process needs to be finished in an environment with high cleanliness, and the panel quality is prevented from being influenced by the falling of dust on the surface.

The display panel needs high temperature stoving surface printing ink after the printing, therefore the display panel temperature that just prints the completion is higher to static is taken easily, adopts to set up one row at the printing exit and removes static fan and cool off it, but this kind of mode can't guarantee to get rid of the static on the panel totally, and the cooling effect is relatively poor, makes the panel static again probably in the follow-up cooling deformation process, has influenced the quality of product.

Especially when the display panel is the ya li ke material, can lead to printing ink face temperature to be higher than the another side during high temperature stoving printing ink, yakeli expend with heat and contract with cold's performance is better, the one side that is heated high can be hunch up usually, especially after the printing, the pattern of printing also can make the yakeli board more inhomogeneous to the absorption of temperature, if natural cooling, the change of internal stress causes partly plastic deformation, cause the deformation of yakeli board easily, the display that the yakeli board after the deformation was made brings multiple bad factors such as fracture easily. The existing solution is to use cooling air flow to cool quickly, so as to reduce the existence time of internal stress as much as possible, but the deformation is still difficult to eliminate.

Therefore, there is a need for a device that can cool and correct an acrylic plate after printing.

Disclosure of Invention

The invention aims to provide a cooling and correcting device for an acrylic plate after printing.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a cooling orthotic devices after inferior gram force board printing, includes that the frame, interval set up a plurality of parallel arrangement's in the frame conveyer belt subassembly, every the upper portion of conveyer belt subassembly has a conveying face, and is a plurality of the conveying face is on same horizontal plane, the device is still including setting up the last fan subassembly of blowing downwards above the conveying face and setting up and being in the lower fan subassembly of blowing upwards below the conveying face to control the controlling means of the amount of wind of fan subassembly under the last fan subassembly.

Preferably, the upper fan assembly comprises an upper fan support and a plurality of upper cooling fans arranged on the upper fan support, the lower fan assembly comprises a lower fan support and a plurality of lower cooling fans arranged on the lower fan support, and the control device is a switch assembly for controlling the start and stop of the upper cooling fans and the lower cooling fans.

Further preferably, the upper fan support is provided with a plurality of upper cooling fans, and each upper fan support is provided with a plurality of upper cooling fans along the length direction.

Further preferably, both ends of the bracket unit are rotatably connected with the frame, and a locking member for locking the bracket unit and the frame is further arranged between the bracket unit and the frame.

Further preferably, the upper cooling fan and the lower cooling fan are both static elimination fans.

Further preferably, the lower fan support is a support plate fixedly arranged on the rack, and the lower cooling fan is fixedly arranged on the support plate.

Further preferably, the lower cooling fan is disposed in a space between two adjacent conveyor belt assemblies.

Further preferably, the frame at least comprises a cross bar horizontally arranged below the conveyor belt assembly, and the support plate is fixedly connected with the cross bar.

Preferably, the conveying belt assembly includes an input shaft and an output shaft which are arranged in parallel, a plurality of input wheels which are arranged on the input shaft at intervals, a plurality of output wheels which are arranged on the output shaft at intervals and correspond to the input shaft, a plurality of conveying belts which are sleeved on the corresponding input wheels and the corresponding output wheels, a supporting assembly which is arranged between the input wheels and the output wheels and is used for supporting the conveying belts, an input supporting frame which is used for supporting the output shaft, and an output supporting frame which is used for supporting the output shaft, wherein the front end and the rear end of the supporting assembly are respectively fixedly connected with the input supporting frame and the output supporting frame, and the input supporting frame and the output supporting frame are both fixedly arranged on the rack.

Further preferably, the width of the conveyor belt is smaller than the distance between two adjacent conveyor belt assemblies.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

according to the invention, the upper fan assembly and the lower fan assembly are arranged on the two downward surfaces of the conveying belt assembly, and the upper cooling degree and the lower cooling degree of the acrylic plate are different by adjusting the cooling air volume of the upper fan assembly and the lower fan assembly, so that the degree of opening the upper fan assembly and the lower fan assembly which are opposite to an acrylic plate control device of a certain model can be determined in a multi-test mode, the deformation of the acrylic plate during cooling can offset the deformation of the acrylic plate during printing and drying, and the flatness of the acrylic display panel is ensured.

Drawings

FIG. 1 is a schematic top view of an embodiment;

FIG. 2 is a schematic top view of the upper fan assembly removed;

FIG. 3 is a side view of the input shaft end of the embodiment.

In the above drawings: 1. a cross bar; 21. an input shaft; 22. an output shaft; 23. an input wheel; 24. an output wheel; 25. a conveyor belt; 26. a support assembly; 27. inputting a support frame; 28. outputting a support frame; 31. an upper fan bracket; 32. an upper cooling fan; 41. a lower fan bracket; 42. a lower cooling fan.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which:

referring to fig. 1-3, the cooling and correcting device after printing of the acrylic plate comprises a frame (not shown in the figures), four conveyor belt assemblies arranged in parallel on the frame at intervals, an upper portion of each conveyor belt assembly is provided with a conveying surface, the four conveying surfaces are on the same horizontal plane, the device further comprises an upper fan assembly arranged above the conveying surface and used for blowing downwards and a lower fan assembly arranged below the conveying surface and used for blowing upwards, and a control device (not shown in the figures) used for controlling the air volume of the lower fan assembly of the upper fan assembly.

The machine frame is used for fixing the device, and in addition, the device can be butted with printing equipment, and a conveying surface formed by the four conveying belt assemblies can convey the printed acrylic plate in the horizontal direction. The upper fan assembly comprises three upper fan supports 31 and a plurality of upper cooling fans 32 arranged on the upper fan supports 31, the lower fan assembly comprises a lower fan support 41 and a plurality of lower cooling fans 42 arranged on the lower fan support 41, and the control device is a switch assembly for controlling the start and stop of each upper cooling fan 32 and each lower cooling fan 42. The operating personnel of this device can adjust every opening and closing of going up cooling blower 32 or cooling blower 42 down according to the inferior gram force board of different models, can obtain after many times of experiments to be fit for correcting the most suitable condition of opening and stopping of this model inferior gram force board.

In other embodiments, the number of conveyor belt assemblies and the number of upper fan brackets 31 may be modified according to actual needs.

The upper fan assembly and the lower fan assembly are arranged on the two downward sides of the conveying belt assembly, the upper cooling degree and the lower cooling degree of the acrylic plate are different by adjusting the cooling air quantity of the upper fan assembly and the lower fan assembly, the opening degree of the upper fan assembly and the lower fan assembly is adjusted through the control device, deformation of the acrylic plate during cooling can be offset by deformation of the acrylic plate during printing and drying, and accordingly the flatness of the acrylic display panel is guaranteed.

In this embodiment, the upper cooling fan 32 and the lower cooling fan 42 are both static electricity removing fans, and the static electricity removing fans are common devices in the field, and can be used for cooling, and can also remove static electricity on the acrylic plates, so that the adsorption effect of the acrylic plates on dust is reduced, and the quality of products is improved.

In this embodiment, the upper fan support 31 includes a plurality of support units disposed on the rack, and each support unit is provided with a plurality of upper cooling fans 32 along the length direction. Specifically, two ends of the support unit are rotatably connected with the rack, and a locking piece for locking the support unit and the rack is further arranged between the support unit and the rack. The wind direction that can adjust can make things convenient for operating personnel to carry out whole row's adjustment to the fan of equipment more, makes its ya keli board that can be fit for different specifications.

The lower fan support 41 is a horizontal support plate fixedly arranged on the support, and the lower cooling fan 42 is fixedly arranged on the support plate. Specifically, the lower cooling fan 42 is disposed in the space between two adjacent conveyor belt assemblies. The best way is to arrange the lower cooling fans 42 evenly on the support plate so that the cooling of the lower part of the acrylic plate is more even. The number of the lower cooling fans 42 in this embodiment is 9, and in other embodiments, the specific position of the lower cooling fan 42 may be adjusted more practically.

The frame includes the horizontal pole 1 of level setting below the conveyer belt subassembly at least, backup pad and horizontal pole 1 fixed connection.

The conveyor belt assembly of the embodiment can be used for conveying acrylic plates and can also facilitate cooling air flow to cool the acrylic plates from below, and specifically, the conveyor belt assembly comprises an input shaft 21 and an output shaft 22 which are arranged in parallel, a plurality of input wheels 23 arranged on the input shaft 21 at intervals, a plurality of output wheels 24 arranged on the output shaft 22 at intervals and corresponding to the input shaft 21, a plurality of conveyor belts 25 sleeved on the corresponding input wheels 23 and output wheels 24, a support assembly 26 arranged between the input wheels 23 and the output wheels 24 and used for supporting the conveyor belts 25, an input support frame 27 used for supporting the output shaft 22, and an output support frame 28 used for supporting the output shaft 22, wherein the front end and the rear end of the support assembly 26 are fixedly connected with the input support frame 27 and the output support frame 28 respectively, and the input support frame 27 and the output support frame 28 are both fixedly arranged on the cross rod 1.

The width of the conveyor belt 25 is less than the spacing between two adjacent conveyor belt assemblies.

In addition, the conveyor belt 25 of the present embodiment is made of conductive rubber having a small thickness (less than 2 mm), and heat of a portion in contact with the conveyor belt 25 can be transferred to the conveyor belt 25

The frame and the supporting component 26 are made of metal and are grounded, so that static electricity can be well discharged. In this embodiment, supporting component 26 is the aluminium alloy of I shape for the cross-section, terminal surface and horizontal pole 1 fixed connection, the inner wall of conveyer belt 25 is evenly laminated to upper surface and lower surface, and the upper surface is used for supporting conveyer belt 25 to ensure conveyer belt 25's roughness, lower surface laminating conveyer belt 25 can further help conveyer belt 25's heat dissipation.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a cooling orthotic devices after inferior gram force board printing, includes:

a frame;

a plurality of parallel conveyor belt assemblies arranged on the rack at intervals, wherein the upper part of each conveyor belt assembly is provided with a conveying surface, and the plurality of conveying surfaces are on the same horizontal plane;

the upper fan assembly is arranged above the conveying surface and blows air downwards, the upper fan assembly comprises an upper fan bracket and a plurality of upper cooling fans arranged on the upper fan bracket, and the number of the upper fan brackets is multiple;

the lower fan assembly is arranged below the conveying surface and blows air upwards, and comprises a lower fan bracket and a plurality of lower cooling fans arranged on the lower fan bracket;

the control device is used for controlling the air quantity of the lower fan assembly of the upper fan assembly;

the method is characterized in that:

the upper fan support comprises a plurality of support units arranged on the rack, two ends of each support unit are rotatably connected with the rack, and a plurality of upper cooling fans are arranged on each upper fan support along the length direction;

the lower fan support is a supporting plate fixedly arranged on the rack, the rack at least comprises a cross rod horizontally arranged below the conveying belt assemblies, the supporting plate is fixedly connected with the cross rod, the lower cooling fans are fixedly arranged on the supporting plate and are uniformly distributed, and the lower cooling fans are arranged in a spacing space between every two adjacent conveying belt assemblies;

a locking piece for locking the bracket unit and the rack mutually is also arranged between the bracket unit and the rack;

the control device is a switch assembly for controlling the start and stop of the upper cooling fan and the lower cooling fan;

through the adjustment go up the fan subassembly with the cooling amount of wind of fan subassembly makes the upper and lower cooling degree of ya keli board different down, makes deformation when the ya keli board cools off can offset the deformation when printing is dried to guarantee the roughness.

2. The cooling and correcting device for the acrylic plate after printing as claimed in claim 1, wherein: the upper cooling fan and the lower cooling fan are both static electricity removing fans.

3. The cooling and correcting device for the acrylic plate after printing as claimed in claim 1, wherein: the conveying belt assembly comprises an input shaft and an output shaft which are arranged in parallel, a plurality of input wheels which are arranged on the input shaft at intervals, a plurality of output wheels which are arranged on the output shaft at intervals and correspond to the input shaft, a plurality of conveying belts which are sleeved on the corresponding input wheels and the corresponding output wheels, a supporting assembly which is arranged between the input wheels and the output wheels and is used for supporting the conveying belts, an input supporting frame which is used for supporting the output shaft and an output supporting frame which is used for supporting the output shaft, wherein the front end and the rear end of the supporting assembly are fixedly connected with the input supporting frame and the output supporting frame respectively, and the input supporting frame and the output supporting frame are fixedly arranged on the rack.

4. The cooling and correcting device for acrylic plate after printing as claimed in claim 3, wherein: the width of the conveyor belt is smaller than the distance between two adjacent conveyor belt assemblies.

5. The cooling and correcting device for acrylic plate after printing as claimed in claim 3, wherein: the conveying belt is made of conductive rubber with the thickness smaller than 2 mm.

6. The cooling and correcting device for acrylic plate after printing as claimed in claim 3, wherein: the frame with the supporting component all adopts metal material and ground connection.

7. The cooling and correcting device for the acrylic plate after printing as claimed in claim 6, wherein: the supporting component is an aluminum profile with an I-shaped section, the end face of the supporting component is fixedly connected with the cross rod, and the upper surface and the lower surface of the supporting component are uniformly attached to the inner wall of the conveying belt.