CN211656539U - Vertical processing device and steering mechanism thereof - Google Patents
Vertical processing device and steering mechanism thereof Download PDFInfo
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- CN211656539U CN211656539U CN202020240451.3U CN202020240451U CN211656539U CN 211656539 U CN211656539 U CN 211656539U CN 202020240451 U CN202020240451 U CN 202020240451U CN 211656539 U CN211656539 U CN 211656539U
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- 239000000758 substrate Substances 0.000 claims abstract description 107
- 238000001514 detection method Methods 0.000 claims abstract description 18
- 238000007599 discharging Methods 0.000 claims abstract description 17
- 239000002184 metal Substances 0.000 claims description 12
- 229910052751 metal Inorganic materials 0.000 claims description 12
- 238000005452 bending Methods 0.000 claims description 10
- 238000009713 electroplating Methods 0.000 claims description 7
- 238000011144 upstream manufacturing Methods 0.000 claims description 3
- 238000000034 method Methods 0.000 abstract description 11
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 abstract description 8
- 239000011889 copper foil Substances 0.000 abstract description 8
- 238000007747 plating Methods 0.000 description 9
- 239000002313 adhesive film Substances 0.000 description 2
- 238000009795 derivation Methods 0.000 description 2
- 230000037303 wrinkles Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000012528 membrane Substances 0.000 description 1
- 238000006748 scratching Methods 0.000 description 1
- 230000002393 scratching effect Effects 0.000 description 1
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Abstract
The utility model relates to a technical field is transferred to the flexible circuit board, especially discloses a perpendicular processing procedure device and steering mechanism thereof, perpendicular processing procedure device includes feed cylinder, discharging roller, connects pallet, temporary storage mechanism, tension detecting element and steering mechanism etc.. A conveying path is formed between the feeding roller and the discharging roller and can be used for conveying a flexible substrate (such as a flexible copper foil substrate). The board receiving platform, the temporary storage mechanism, the tension detection unit and the steering mechanism are arranged on the conveying path. The steering mechanism comprises a leading-in roller, a steering assembly and a leading-out roller, wherein the steering assembly is arranged between the leading-in roller and the leading-out roller and is provided with a plurality of air holes for outputting air so that the flexible substrate is not contacted with the steering assembly.
Description
Technical Field
The utility model relates to a technical field is transferred to the flexible circuit board, especially discloses a perpendicular processing procedure device and steering mechanism thereof.
Background
In the process of manufacturing a flexible copper foil substrate (flexible substrate, also called flexible circuit board), there is a need to change the flexible copper foil substrate from horizontal to vertical, that is, to realize the vertical process conversion of the flexible copper foil substrate. Furthermore, the conventional vertical processing apparatus is also prone to cause wrinkles, tension or scratches on the flexible copper foil substrate due to problems such as tension during the transportation of the flexible copper foil substrate.
SUMMERY OF THE UTILITY MODEL
In order to overcome the disadvantages and deficiencies of the prior art, an object of the present invention is to provide a vertical processing device and a steering mechanism thereof, which can effectively avoid scratching a flexible substrate, so that the flexible substrate has proper tension during the transportation process, and the flexible substrate does not cause wrinkles, tension or scratch.
In order to achieve the above object, the present invention provides a vertical processing device, including: a plate placing mechanism, the plate placing mechanism comprising at least a feeding roller, a plate receiving table, a first tension detecting unit, a temporary storage mechanism and a first steering mechanism, the feeding roller, the plate receiving table, the first tension detecting unit, the temporary storage mechanism and the first steering mechanism being disposed on a conveying path, the flexible substrate being capable of being conveyed along the conveying path, the feeding roller being disposed in a first direction, the first direction being a horizontal direction, the feeding roller being configured to place the flexible substrate, the plate receiving table being disposed at a downstream position of the feeding roller, the plate receiving table being configured to engage the flexible substrate, the first tension detecting unit being disposed at a downstream position of the plate receiving table, the first tension detecting unit being configured to detect a tension of the flexible substrate, the temporary storage mechanism being disposed at a downstream position of the first tension detecting unit, the temporary storage mechanism is used for temporarily storing the soft substrate, the first steering mechanism is arranged at the downstream position of the temporary storage mechanism, the first steering mechanism is used for steering the soft substrate from the first direction to a second direction, the second direction is a vertical direction, the first steering mechanism comprises a first steering component, a first leading-in roller and a first leading-out roller, the first steering component is positioned between the first leading-in roller and the first leading-out roller, the first leading-in roller is arranged in the first direction, the first leading-out roller is arranged in the second direction, the first steering component is inclined, the first steering component is provided with a first hollow body, a plurality of first air holes are arranged on the first hollow body, and the soft substrate sequentially passes through the first leading-in roller, the first steering component and the first leading-out roller, the first air hole is used for outputting air, so that the flexible substrate is not in direct contact with the first steering assembly; and
a plate collecting mechanism, disposed at a downstream position of the plate placing mechanism, the plate collecting mechanism including a second steering mechanism, a guiding mechanism, a second tension detecting unit and at least one discharging roller, the second steering mechanism, the guiding mechanism, the second tension detecting unit and the discharging roller being disposed on the conveying path, the second steering mechanism being configured to steer the flexible substrate from the second direction to the first direction, the second steering mechanism including a second steering component, a second guiding-in roller and a second guiding-out roller, the second steering component being located between the second guiding-in roller and the second guiding-out roller, the second guiding-in roller being disposed in the second direction, the second guiding-out roller being disposed in the first direction, the second steering component being inclined, the second turning assembly is provided with a second hollow body, the second hollow body is provided with a plurality of second air holes, the flexible substrate sequentially passes through the second leading-in roller, the second turning assembly and the second leading-out roller, the second air holes are used for outputting air so that the flexible substrate is not in direct contact with the second turning assembly, the guide mechanism is arranged at the downstream position of the second turning mechanism and used for guiding the flexible substrate, the second tension detection unit is arranged at the downstream position of the guide mechanism and used for detecting the tension of the flexible substrate, the discharge roller is arranged at the downstream position of the second tension detection unit, the discharge roller is arranged in the first direction, and the discharge roller is used for placing the flexible substrate.
Furthermore, the temporary storage mechanism comprises a driving device and at least one temporary storage wheel, the temporary storage wheel is connected to the driving device, the soft substrate can be placed on the temporary storage wheel, and the driving device can drive the temporary storage wheel to ascend and descend.
Furthermore, the driving device comprises a servo motor, and the servo motor is connected with the temporary storage wheel through a belt pulley group and a lifting seat.
Further, the first hollow body has a first arc surface, and the first air holes are distributed on the first arc surface.
Further, the first steering assembly is formed by bending a metal plate body.
Further, the second hollow body has a second arc surface, and the second air holes are distributed on the second arc surface.
Further, the second steering assembly is formed by bending a metal plate body.
Furthermore, a plating bath is arranged between the plate placing mechanism and the plate collecting mechanism, the plate placing mechanism is arranged at the upstream position of the plating bath, and the plate collecting mechanism is arranged at the downstream position of the plating bath.
To achieve the above object, the present invention provides a steering mechanism for a vertical processing apparatus, the steering mechanism is applied to the vertical processing apparatus, the steering mechanism is disposed on a conveying path along which a flexible substrate can be conveyed, the steering mechanism is used to steer the flexible substrate from a first direction to a second direction, the first direction is a horizontal direction or a vertical direction, the second direction is a vertical direction or a horizontal direction, the steering mechanism comprises a steering component, a guiding roller and a guiding roller, the steering component is disposed between the guiding roller and the guiding roller, the guiding roller is disposed in the first direction, the guiding roller is disposed in the second direction, the steering component is inclined, the steering component has a hollow body, the hollow body is provided with a plurality of air holes, the flexible substrate sequentially passes through the guide-in roller, the steering assembly and the guide-out roller, and the air holes are used for outputting air so that the flexible substrate is not in direct contact with the steering assembly.
Furthermore, the first steering component is formed by bending a metal plate, the first hollow body is provided with a first arc-shaped surface, the first air holes are distributed on the first arc-shaped surface, the second steering component is formed by bending the metal plate, the second hollow body is provided with a second arc-shaped surface, and the second air holes are distributed on the second arc-shaped surface.
The utility model has the advantages that: the vertical processing device comprises a plate placing mechanism and a plate collecting mechanism, wherein the plate placing mechanism and the plate collecting mechanism respectively comprise a first steering mechanism and a second steering mechanism, the first steering mechanism comprises a first steering component, a first leading-in roller and a first leading-out roller, the first steering component is provided with a first hollow body, the first hollow body is provided with a plurality of first air holes, the soft substrate sequentially passes through the first leading-in roller, the first steering component and the first leading-out roller, and the first air holes are used for outputting air so that the soft substrate is not in direct contact with the first steering component. The second steering mechanism comprises a second steering assembly, a second leading-in roller and a second leading-out roller, the second steering assembly is provided with a second hollow body, a plurality of second air holes are formed in the second hollow body, the soft substrate sequentially passes through the second leading-in roller, the second steering assembly and the second leading-out roller, the first leading-in roller, the first leading-out roller, the second leading-in roller and the second leading-out roller are used for guiding the soft substrate to smoothly pass through, and the second air holes are used for outputting air, so that the soft substrate is not in direct contact with the second steering assembly, and the scratch of the soft substrate can be effectively avoided.
Drawings
Fig. 1 is a perspective view of a plate placing mechanism of the vertical processing device of the present invention.
Fig. 2 is a plan view of the plate placing mechanism of the vertical processing device of the present invention.
Fig. 3 is a perspective view of the plate retracting mechanism of the vertical processing device of the present invention.
Fig. 4 is a plan view of the plate collecting mechanism of the vertical processing device of the present invention.
Fig. 5 is a perspective view of the temporary storage mechanism of the present invention.
Fig. 6 is a perspective view of another angle of the temporary storage mechanism of the present invention.
Fig. 7 is a perspective view of the first steering mechanism of the present invention.
Fig. 8 is a perspective view of the first steering mechanism of the present invention in use.
Fig. 9 is a perspective view of a second steering mechanism according to the present invention.
Fig. 10 is a perspective view of a second steering mechanism according to the present invention in use.
FIG. 11 is a block diagram of a vertical processing apparatus according to the present invention.
The reference numerals include:
15-first steering mechanism 151-first steering assembly 152-first lead-in roller
153-first lead-out roller 154-first hollow body 155-first air hole
156-first arcuate surface A-conveying path B-second direction
C-second direction
1-plate placing mechanism 11-feeding roller 12-plate receiving platform
13-first tension detecting unit 14-temporary storage mechanism 141-driving device
142-temporary storage wheel 143-servo motor 144-pulley group
145-lifting seat 15-first steering mechanism 151-first steering component
152-first lead-in roller 153-first lead-out roller 154-first hollow body
155-first air hole 156-first arc surface 16-first film shaft
2-plate receiving mechanism 21-second steering mechanism 211-second steering assembly
212-second lead-in roller 213-second lead-out roller 214-second hollow body
215-second air hole 216-second arc surface 22-guiding mechanism
221-guide wheel 23-second tension detection unit 24-discharge roller
25-second membrane shaft 3-electroplating bath.
Detailed Description
In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.
Referring to fig. 1 to 4 and fig. 11, the present invention provides a vertical processing apparatus suitable for an electroplating apparatus such as a flexible copper foil substrate, including a plate placing mechanism 1 and a plate collecting mechanism 2, wherein the plate collecting mechanism 2 is disposed at a downstream position of the plate placing mechanism 1. Specifically, a plating tank 3 (as shown in fig. 11) may be disposed between the plate placing mechanism 1 and the plate collecting mechanism 2, the plate placing mechanism 1 may be disposed at an upstream position of the plating tank 3, the plate collecting mechanism 2 may be disposed at a downstream position of the plating tank 3, a conveying path a is formed between the plate placing mechanism 1 and the plate collecting mechanism 2, the flexible substrate (e.g., a flexible copper foil substrate) may be conveyed along the conveying path a, the plate placing mechanism 1 may convey the flexible substrate to the plating tank 3 along the conveying path a for a plating process, and after the plating is completed, the flexible substrate may be conveyed to the plate collecting mechanism 2 along the conveying path a for storage.
The plate placing mechanism 1 includes at least one feeding roller 11, a plate receiving table 12, a first tension detecting unit 13, a temporary storage mechanism 14 and a first steering mechanism 15. The feeding roller 11 is disposed on the conveying path a, and one or more feeding rollers 11 may be disposed on the feeding roller 11, and two feeding rollers 11 are disposed in this embodiment, so as to be ready for use. The feeding roller 11 is used for placing the flexible substrate, and the feeding roller 11 is disposed in a first direction B, which may be a horizontal direction or a vertical direction. A first film shaft 16 may be further disposed on one side (lower side) of the feeding roller 11 to roll up the film peeled from the flexible substrate.
The board receiving table 12 is disposed at a downstream position of the feeding roller 11, the board receiving table 12 is disposed on the conveying path a, and the board receiving table 12 is used for bonding the flexible substrate, that is, the front end of the new flexible substrate is bonded to the rear end of the old flexible substrate, so that the flexible substrate can be continuously fed.
The first tension detection unit 13 is disposed at a downstream position of the board receiving table 12, the first tension detection unit 13 is disposed on the conveying path a, the first tension detection unit 13 may be an electronic tension detection device, and the first tension detection unit 13 contacts the flexible substrate to detect the tension of the flexible substrate, so as to adjust the tension of the flexible substrate at a proper time. The configuration of the first tension detection unit 13 is not limited, and other forms of tension detection means are also possible.
The temporary storage mechanism 14 is disposed at a downstream position of the first tension detection unit 13, the temporary storage mechanism 14 is disposed on the conveying path a, and when a new and an old flexible substrate are joined, the temporary storage mechanism 14 can be used to temporarily store the flexible substrate, so that the flexible substrate can maintain a proper tension. Referring to fig. 5 and 6, the temporary storage mechanism 14 includes a driving device 141 and at least one temporary storage wheel 142, in this embodiment, two temporary storage wheels 142 are disposed, the two temporary storage wheels 142 are disposed horizontally and at intervals, the two temporary storage wheels 142 are connected to the driving device 141, the flexible substrate can be placed on the two temporary storage wheels 142, and the driving device 141 can drive the two temporary storage wheels 142 to move up and down, so that the flexible substrate can maintain a proper tension.
In this embodiment, the driving device 141 includes a servo motor 143, the servo motor 143 is connected to the two temporary storage wheels 142 through a pulley set 144 and a lifting base 145, that is, the two temporary storage wheels 142 are pivotally installed on the lifting base 145, and the pulley set 144 is connected between the servo motor 143 and the lifting base 145. When the servo motor 143 rotates, the belt pulley set 144 drives the lifting seat 145 and the two temporary storage wheels 142 to ascend and descend, so that the flexible substrate can maintain a proper tension.
The first turning mechanism 15 is disposed at a downstream position of the temporary storage mechanism 14, and the first turning mechanism 15 is disposed on the conveying path a to turn the flexible substrate from the first direction B to the second direction C, i.e., to turn the horizontally conveyed flexible substrate to a vertical conveying, so that the flexible substrate is vertically conveyed into the electroplating tank 3.
As shown in fig. 7 and 8, the first steering mechanism 15 includes a first steering component (steering component) 151, a first guiding-in roller (guiding-in roller) 152 and a first guiding-out roller (guiding-out roller) 153, and the first steering component 151 is located between the first guiding-in roller 152 and the first guiding-out roller 153. The first introducing roller 152 and the first exporting roller 153 are disposed in different directions, the first introducing roller 152 is disposed in a first direction B, the first exporting roller 153 is disposed in a second direction C, the second direction C is perpendicular to the first direction B, in this embodiment, the first direction B is a horizontal direction, the second direction C is a vertical direction, the flexible substrate sequentially passes through the first introducing roller 152, the first turning assembly 151 and the first exporting roller 153, the flexible substrate passes through the first introducing roller 152, is horizontal, and is transferred to the first exporting roller 153 to be vertical through the first turning assembly 151. In another embodiment, the first direction B may be a vertical direction, and the second direction C may be a horizontal direction.
The first steering assembly 151 may be a sheet metal part, and is formed by bending a sheet metal body. The first turning assembly 151 is inclined, the first turning assembly 151 has a first hollow body (hollow body) 154, the first hollow body 154 is provided with a plurality of first air holes (air holes) 155, the first air holes 155 are used for outputting air, the first turning assembly 151 is arranged on the conveying path a, can change the direction by guiding the flexible substrate, and prevents the flexible substrate from directly contacting the first turning assembly 151, so as to prevent the flexible substrate from being scratched. The shape of the first air hole 155 is not limited, and may be various shapes such as a circle, a square, a polygon, or a bar. In this embodiment, the first hollow body 154 has a first arc surface (arc surface) 156, and the first air holes 155 are distributed on the first arc surface 156. The first turning module 151 is connected to an existing gas supply device, and is configured to supply gas into the first turning module 151 and output the gas through the first gas hole 155.
The plate collecting mechanism 2 includes a second steering mechanism 21, a guiding mechanism 22, a second tension detecting unit 23 and at least one discharging roller 24. The second turning mechanism 21 is disposed at a downstream position of the electroplating tank 3, and the second turning mechanism 21 is disposed on the conveying path a to turn the flexible substrate from the second direction C to the first direction B, i.e., to turn the vertically conveyed flexible substrate to a horizontal conveying, so that the flexible substrate can be conveyed to the guide mechanism 22, the second tension detecting unit 23, and the discharging roller 24 in a horizontal state in sequence.
As shown in fig. 9 and 10, the second steering mechanism 21 includes a second steering component (steering component) 211, a second guiding-in roller (guiding-in roller) 212 and a second guiding-out roller (guiding-out roller) 213, and the second steering component 211 is located between the second guiding-in roller 212 and the second guiding-out roller 213. The second introducing roller 212 and the second guiding roller 213 are disposed in different directions, the second introducing roller 212 is disposed in a second direction C, the second guiding roller 213 is disposed in a first direction B, in this embodiment, the first direction B is a horizontal direction, the second direction C is a vertical direction, the flexible substrate sequentially passes through the second introducing roller 212, the second turning assembly 211 and the second guiding roller 213, the flexible substrate passes through the second introducing roller 212, is vertical, and is turned by the second turning assembly 211 and conveyed to the second guiding roller 213 to be horizontal. In another embodiment, the first direction B may be a vertical direction, and the second direction C may be a horizontal direction.
The second steering component 211 can be a sheet metal part and is formed by bending a sheet metal body. The second turning component 211 is inclined, the second turning component 211 has a second hollow body (hollow body) 214, and the second hollow body 214 is provided with a plurality of second air holes (air holes) 215, the second air holes 215 are used for outputting air, the second turning component 211 is arranged on the conveying path a, can change the direction by guiding the soft substrate, and prevents the soft substrate from directly contacting with the second turning component 211, so as to avoid the soft substrate from being scratched. The shape of the second air hole 215 is not limited, and may be various shapes such as a circle, a square, a polygon, or a bar. In this embodiment, the second hollow body 214 has a second curved surface (curved surface) 216, and the second air holes 215 are distributed on the second curved surface 216. The second turning member 211 is connected to an existing gas supply device, and can be used to supply gas into the second turning member 211 and output the gas through the second gas hole 215.
The guiding mechanism 22 is disposed at a downstream position of the second steering mechanism 21, and the guiding mechanism 22 is disposed on the conveying path a for guiding the flexible substrate to prevent the flexible substrate from deviating, so that the conveying process can be performed smoothly. The structure of the guiding mechanism 22 is not limited, and in the embodiment, the guiding mechanism 22 has a plurality of guiding wheels 221, so as to guide the oblique flexible substrate.
The second tension detecting unit 23 is disposed at a downstream position of the guiding mechanism 22, the second tension detecting unit 23 is disposed on the conveying path a, the second tension detecting unit 23 may be an electronic tension detecting device, and the second tension detecting unit 23 contacts the flexible substrate and may be configured to detect a tension of the flexible substrate, so as to adjust the tension of the flexible substrate at a proper time. The configuration of the second tension detecting unit 23 is not limited, and other forms of tension detecting means may be used.
The discharging roller 24 is disposed at a downstream position of the second tension detecting unit 23, the discharging roller 24 is disposed on a conveying path a, the conveying path a is located between the feeding roller 11 and the discharging roller 24, one or more discharging rollers 24 may be disposed, and two discharging rollers 24 are disposed for standby in this embodiment. The flexible substrate can be placed on the discharging roller 24, and the discharging roller 24 can be disposed in a first direction B, which can be a horizontal direction or a vertical direction, in this embodiment, the first direction B is a horizontal direction, so that the flexible substrate can be conveyed to the discharging roller 24 along the horizontal direction. A second film shaft 25 may be further disposed on one side (lower side) of the discharging roller 24, and an adhesive film may be disposed on the second film shaft 25 so as to attach the adhesive film to the flexible substrate for protecting the flexible substrate.
In another embodiment of the present invention, the steering mechanism includes a steering component (such as the aforementioned first steering component 151 and second steering component 211), a guiding roller (such as the aforementioned first guiding roller 152 and second guiding roller 212) and a guiding roller (such as the aforementioned first guiding roller 153 and second guiding roller 213), the steering component is located between the guiding roller and the guiding roller, the guiding roller is disposed in a first direction, the first direction can be a horizontal direction or a vertical direction, the guiding roller is disposed in a second direction, and the second direction can be a vertical direction or a horizontal direction. The turning component is inclined, and the turning component is provided with a hollow body (such as the first hollow body 154 and the second hollow body 214), a plurality of air holes (such as the first air hole 155 and the second air hole 215) are arranged on the hollow body, the soft substrate sequentially passes through the leading-in roller, the turning component and the leading-out roller, and the air holes are used for outputting air, so that the soft substrate is not in direct contact with the turning component.
The beneficial effects of the utility model reside in that, the utility model discloses a perpendicular processing procedure device is including putting board mechanism and board receiving mechanism, puts board mechanism and board receiving mechanism and contains first steering mechanism and second steering mechanism respectively, and first steering mechanism contains first steering component, first leading-in cylinder and first derivation cylinder, and first steering component has first ducted body, sets up a plurality of first vents on the first ducted body, and soft base plate is according to the preface through first leading-in cylinder, first steering component and first derivation cylinder, first vent is used for export gas, makes soft base plate not with first steering component direct contact. The second steering mechanism comprises a second steering assembly, a second leading-in roller and a second leading-out roller, the second steering assembly is provided with a second hollow body, a plurality of second air holes are formed in the second hollow body, the soft substrate sequentially passes through the second leading-in roller, the second steering assembly and the second leading-out roller, the first leading-in roller, the first leading-out roller, the second leading-in roller and the second leading-out roller are used for guiding the soft substrate to smoothly pass through, and the second air holes are used for outputting air so that the soft substrate is not in direct contact with the second steering assembly. The utility model discloses can effectually avoid causing the scratch of soft base plate.
The utility model discloses a perpendicular processing procedure device, it includes first tension detecting element and temporary storage mechanism to put the board mechanism, receive the board mechanism and include second tension detecting element, temporary storage mechanism is used for keeping in soft base plate, and first tension detecting element and second tension detecting element are used for detecting the tension of soft base plate to in good time carry out the tension adjustment of soft base plate, make soft base plate have appropriate tension in transportation process, make soft base plate can not cause the problem of fold, tension or scratch.
The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.
Claims (10)
1. A vertical processing device is characterized in that: the device comprises a plate placing mechanism, wherein the plate placing mechanism comprises at least one feeding roller, a plate receiving table, a first tension detection unit, a temporary storage mechanism and a first steering mechanism, the feeding roller, the plate receiving table, the first tension detection unit, the temporary storage mechanism and the first steering mechanism are arranged on a conveying path, a soft substrate can be conveyed along the conveying path, the feeding roller is arranged in a first direction, the first direction is a horizontal direction, the feeding roller is used for placing the soft substrate, the plate receiving table is arranged at the downstream position of the feeding roller and used for jointing the soft substrate, the first tension detection unit is arranged at the downstream position of the plate receiving table and used for detecting the tension of the soft substrate, and the temporary storage mechanism is arranged at the downstream position of the first tension detection unit, the temporary storage mechanism is used for temporarily storing the soft substrate, the first steering mechanism is arranged at the downstream position of the temporary storage mechanism, the first steering mechanism is used for steering the soft substrate from the first direction to a second direction, the second direction is a vertical direction, the first steering mechanism comprises a first steering component, a first leading-in roller and a first leading-out roller, the first steering component is positioned between the first leading-in roller and the first leading-out roller, the first leading-in roller is arranged in the first direction, the first leading-out roller is arranged in the second direction, the first steering component is inclined, the first steering component is provided with a first hollow body, a plurality of first air holes are arranged on the first hollow body, and the soft substrate sequentially passes through the first leading-in roller, the first steering component and the first leading-out roller, the first air hole is used for outputting air, so that the flexible substrate is not in direct contact with the first steering assembly; and a plate collecting mechanism, the plate collecting mechanism is arranged at the downstream position of the plate placing mechanism, the plate collecting mechanism comprises a second steering mechanism, a guiding mechanism, a second tension detecting unit and at least one discharging roller, the second steering mechanism, the guiding mechanism, the second tension detecting unit and the discharging roller are arranged on the conveying path, the second steering mechanism is used for steering the soft substrate from the second direction to the first direction, the second steering mechanism comprises a second steering component, a second leading-in roller and a second leading-out roller, the second steering component is positioned between the second leading-in roller and the second leading-out roller, the second leading-in roller is arranged in the second direction, the second leading-out roller is arranged in the first direction, and the second steering component is inclined, the second turning assembly is provided with a second hollow body, the second hollow body is provided with a plurality of second air holes, the flexible substrate sequentially passes through the second leading-in roller, the second turning assembly and the second leading-out roller, the second air holes are used for outputting air so that the flexible substrate is not in direct contact with the second turning assembly, the guide mechanism is arranged at the downstream position of the second turning mechanism and used for guiding the flexible substrate, the second tension detection unit is arranged at the downstream position of the guide mechanism and used for detecting the tension of the flexible substrate, the discharge roller is arranged at the downstream position of the second tension detection unit, the discharge roller is arranged in the first direction, and the discharge roller is used for placing the flexible substrate.
2. The vertical processing apparatus of claim 1, wherein: the temporary storage mechanism comprises a driving device and at least one temporary storage wheel, the temporary storage wheel is connected to the driving device, the flexible substrate can be placed on the temporary storage wheel, and the driving device can drive the temporary storage wheel to lift.
3. The vertical processing apparatus of claim 2, wherein: the driving device comprises a servo motor, and the servo motor is connected with the temporary storage wheel through a belt pulley group and a lifting seat.
4. The vertical processing apparatus of claim 1, wherein: the first hollow body has a first arcuate surface, and the first air holes are distributed on the first arcuate surface.
5. The vertical processing apparatus of claim 1, wherein: the first steering assembly is formed by bending a metal plate body.
6. The vertical processing apparatus of claim 1, wherein: the second hollow body is provided with a second arc surface, and the second air holes are distributed on the second arc surface.
7. The vertical processing apparatus of claim 1, wherein: the second steering assembly is formed by bending a metal plate body.
8. The vertical processing apparatus of claim 1, wherein: an electroplating bath is arranged between the plate placing mechanism and the plate collecting mechanism, the plate placing mechanism is arranged at the upstream position of the electroplating bath, and the plate collecting mechanism is arranged at the downstream position of the electroplating bath.
9. The vertical processing apparatus of claim 1, wherein: the first steering assembly is formed by bending a metal plate body, the first hollow body is provided with a first arc-shaped surface, the first air holes are distributed on the first arc-shaped surface, the second steering assembly is formed by bending the metal plate body, the second hollow body is provided with a second arc-shaped surface, and the second air holes are distributed on the second arc-shaped surface.
10. A steering mechanism of a vertical processing device is characterized in that: the turning mechanism is applied to the vertical processing apparatus as claimed in any one of claims 1 to 9, the turning mechanism is disposed on a conveying path along which the flexible substrate can be conveyed, the turning mechanism is configured to turn the flexible substrate from a first direction to a second direction, the first direction is a horizontal direction or a vertical direction, the second direction is a vertical direction or a horizontal direction, the turning mechanism comprises a turning component, an introducing roller and a leading-out roller, the turning component is disposed between the introducing roller and the leading-out roller, the introducing roller is disposed in the first direction, the leading-out roller is disposed in the second direction, the turning component is inclined, the turning component has a hollow body with a plurality of air holes, and the flexible substrate sequentially passes through the leading-in roller, The air hole is used for outputting air, so that the flexible substrate is not in direct contact with the steering assembly.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW108212960U TWM591094U (en) | 2019-10-01 | 2019-10-01 | Vertical process device and steering mechanism thereof |
| TW108212960 | 2019-10-01 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN211656539U true CN211656539U (en) | 2020-10-09 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202020240451.3U Active CN211656539U (en) | 2019-10-01 | 2020-03-02 | Vertical processing device and steering mechanism thereof |
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| Country | Link |
|---|---|
| CN (1) | CN211656539U (en) |
| TW (1) | TWM591094U (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI706905B (en) * | 2019-10-01 | 2020-10-11 | 迅得機械股份有限公司 | Vertical process device |
-
2019
- 2019-10-01 TW TW108212960U patent/TWM591094U/en unknown
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2020
- 2020-03-02 CN CN202020240451.3U patent/CN211656539U/en active Active
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| TWM591094U (en) | 2020-02-21 |
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