CN114348657A - Circuit-interchangeable plate glass vertical conveying device and method - Google Patents
Circuit-interchangeable plate glass vertical conveying device and method Download PDFInfo
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- CN114348657A CN114348657A CN202111471213.9A CN202111471213A CN114348657A CN 114348657 A CN114348657 A CN 114348657A CN 202111471213 A CN202111471213 A CN 202111471213A CN 114348657 A CN114348657 A CN 114348657A
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Abstract
The invention relates to the technical field of glass sheet production and deep processing, in particular to a flat glass vertical conveying device with interchangeable lines and a method thereof, wherein the flat glass vertical conveying device with interchangeable lines comprises: the overpass steering device comprises a first overpass steering device and a second overpass steering device; a first three-dimensional conveying device and a second three-dimensional conveying device; the movable roller way is arranged between the first overpass steering device and the second overpass steering device; the vertical conveying device can effectively solve the problem of vertical conveying of multi-production line plate glass during maintenance of the three-dimensional conveying device, so that the vertical conveying stability can be improved, the glass yield can be improved, the production benefit can be improved, and the plate glass can be taken down from the air floatation sheet unloading table in a manual mode, so that the plate glass can be placed more stably and can be treated in more modes.
Description
Technical Field
The invention relates to the technical field of glass sheet production and deep processing, in particular to a device and a method for vertically conveying plate glass with interchangeable lines.
Background
The existing glass factory is generally provided with a cold end production line on the second floor of a production workshop, but glass produced from the second floor needs to be conveyed to a deep processing line on the first floor of the production workshop for subsequent production, or the glass needs to be conveyed to a finished product warehouse of the first floor for storage after being stacked, so that the conveying and the transferring of the glass in the continuous production process of the glass production line cause production inconvenience and easily influence the quality of the glass.
Therefore, patent CN112340450A proposes a stereoscopic conveying device and method for a flat glass production line, the stereoscopic conveying device in the scheme can effectively solve the problem of conveying glass when the original sheet production line and the deep processing production line are not on the same floor; meanwhile, the scheme reduces the civil engineering cost of enterprises, improves the space utilization rate of workshops of the enterprises, and reduces a series of procedures of glass stacking, transferring, loading and the like, thereby improving the production efficiency of the enterprises and bringing good economic benefits to the enterprises.
However, two or more glass production lines are usually produced simultaneously, and the glass production belongs to 24-hour all-day online production, so that when the three-dimensional conveying device or a part of the three-dimensional conveying device in the scheme needs to be replaced and maintained, the three-dimensional conveying device cannot be normally used, and the glass conveyed from the front end cannot pass through the three-dimensional conveying device, so that the glass conveyed from the front end can be completely crushed during the maintenance of the three-dimensional conveying device, the waste of the glass is caused, the yield of the glass is influenced, and certain economic loss is inevitably caused.
Disclosure of Invention
Aiming at the problems in the prior art, the invention aims to provide a flat glass vertical conveying device and method with interchangeable lines, which solve the problem of vertical conveying of glass when a three-dimensional conveying device is maintained in the continuous production process of a glass multi-production line and improve the yield of the glass.
The specific technical scheme is as follows:
a line-interchangeable sheet glass vertical conveyance device comprising:
the overpass steering device comprises a first overpass steering device and a second overpass steering device; the first and second overpass steering devices each include: the device comprises a plurality of parallel conveying roller ways, a first driving mechanism for driving the plurality of conveying roller ways, a plurality of steering belts arranged between the adjacent conveying roller ways, a second driving mechanism for driving the steering belts to rotate, and a steering belt lifting system for driving the steering belts to ascend or descend in the vertical direction;
the device comprises a first three-dimensional conveying device and a second three-dimensional conveying device, wherein the first three-dimensional conveying device and the second three-dimensional conveying device respectively comprise a sheet receiving device, a vertical conveying device and a sheet sending device which are sequentially connected; the sheet collecting device is arranged at the tail end of the original sheet production line; the piece sending device is arranged at the head end of the deep processing line or the head end of the stacker roller way;
and the movable roller way is arranged between the first interchange steering device and the second interchange steering device.
In another preferred embodiment, the steering belt lifting system drives the steering belt to ascend or descend so that the upper surface of the steering belt is operable to be in the first position or the second position; wherein the content of the first and second substances,
the height of the upper surface of the steering belt is the same as that of the movable roller bed when the upper surface of the steering belt is at the first position;
and when the upper surface of the steering belt is at the second position, the upper surface of the steering belt is positioned below a bus on the conveying roller way.
In another preferred embodiment, the other side of the first overpass steering device relative to the movable roller way and/or the other side of the second overpass steering device relative to the movable roller way are/is arranged on the air-floatation piece-dropping platform.
In another preferred embodiment, the height of the air-floating lower piece table is the same as that of the movable roller table.
In another preferred embodiment, both the rollgang and the movable rollgang can be belt rollgang or roller rollgang.
A line-interchangeable sheet glass vertical conveyance method which is adapted to any one of the line-interchangeable sheet glass vertical conveyance devices, wherein the working method comprises:
the method comprises the following steps that firstly, a first three-dimensional conveying device works, and the plate glass is conveyed to a first deep processing line or a stacker roller way through a first original sheet production line, a conveying roller way of a first interchange steering device, a sheet collecting device, a vertical conveying device and a sheet sending device in sequence; wherein, the first original sheet production line and the first deep processing line/or the stacker roller bed are positioned on different floors;
the second three-dimensional conveying device works, and the plate glass is conveyed to a second deep processing line or a stacker roller way through a second original sheet production line, a conveying roller way of a second interchange steering device, a sheet collecting device, a vertical conveying device and a sheet sending device in sequence; wherein the second original sheet production line and the second deep processing line/or the stacker roller bed are positioned on different floors.
And secondly, maintaining or maintaining the first three-dimensional conveying device, wherein the plate glass on the first original sheet production line enters a conveying roller way of the first interchange steering device, a steering belt lifting system of the first interchange steering device drives a steering belt of the first interchange steering device to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the first interchange steering device, and a second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the plate glass enters an air floatation sheet discharging platform.
The third method comprises the maintenance or the maintenance of a second three-dimensional conveying device, wherein the plate glass on a second original sheet production line enters a conveying roller way of a second interchange steering device, a steering belt lifting system of the second interchange steering device drives a steering belt of the second interchange steering device to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the second interchange steering device, and a second driving system of the second interchange steering device drives the steering belt to rotate so that the plate glass enters a movable roller way;
the steering belt lifting system of the first interchange steering device drives the steering belt of the first interchange steering device to ascend, the plate glass on the movable roller way enters the steering belt of the first interchange steering device, and the second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the plate glass enters the air-floatation sheet discharging platform.
The method comprises the steps that the first three-dimensional conveying device and the second three-dimensional conveying device are maintained or maintained at the same time, the plate glass on the second original sheet production line enters a conveying roller way of the second interchange steering device, a steering belt lifting system of the second interchange steering device drives a steering belt of the second interchange steering device to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the second interchange steering device, and a second driving system of the second interchange steering device drives the steering belt to rotate so that the plate glass enters a movable roller way;
the flat glass on the first original sheet production line enters a conveying roller way of a first interchange steering device, a steering belt lifting system of the first interchange steering device drives a steering belt of the first interchange steering device to ascend so that the lower surface of the flat glass is separated from the conveying roller way of the first interchange steering device, a second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the flat glass enters an air-floatation sheet discharging platform, the flat glass on the movable roller way enters the steering belt of the first interchange steering device, and a second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the flat glass enters the air-floatation sheet discharging platform.
Compared with the prior art, the technical scheme has the positive effects that:
(1) the line-interchangeable plate glass vertical conveying device and method provided by the invention can effectively solve the problem of vertical conveying of multi-production line plate glass during maintenance of the three-dimensional conveying device, so that the vertical conveying stability can be improved, the glass yield can be further improved, and the production benefit can be improved.
(2) According to the invention, the plate glass is taken down from the air floatation piece unloading table in a manual mode, so that the plate glass can be placed more stably and can be treated in more modes.
Drawings
FIG. 1 is a schematic configuration view showing an embodiment of a line-interchangeable sheet glass vertical conveyance device according to the present invention;
fig. 2 is a schematic structural diagram of the three-dimensional conveying device in the invention.
In the drawings:
1. a first original sheet production line; 2. a first flyover steering device; 3. a first stereoscopic conveying device; 31. a sheet collecting device; 32. a vertical conveying device; 33. a hair piece device; 4. a second original sheet production line; 5. a second flyover steering device; 6. a second stereoscopic conveying device; 7. the roller way can be moved; 8. an air floatation piece discharging platform; A. a glass advancing direction; B. producing a wire layer by using the original sheet; C. deep processing production line or stacker roller bed layer.
Detailed Description
In order to make the technical means, the creation features, the achievement objects and the effects of the present invention easy to understand, the following embodiments will be made in detail with reference to fig. 1 to describe the device and the method for vertically conveying flat glass with interchangeable circuits according to the present invention.
The numbering of the components themselves, such as "first", "second", etc., is used herein only to distinguish between the objects depicted and not to have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in fig. 1, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.
In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
The vertical conveying device for the plate glass with interchangeable lines comprises an interchange steering device, a first three-dimensional conveying device 3, a second three-dimensional conveying device 6 and a movable roller way 7;
the first three-dimensional conveying device 3 and the second three-dimensional conveying device 6, the first three-dimensional conveying device 3 and the second interchange turning device 5 respectively comprise a sheet collecting device 31, a vertical conveying device 32 and a sheet sending device 33 which are sequentially connected; the sheet collecting device 31 is arranged at the tail end of the original sheet production line; the piece sending device 33 is arranged at the head end of the deep processing line or the head end of the stacker roller way; the first three-dimensional conveying device 3 can convey the glass on the first original sheet production line 1 to a first processing line or a stacking roller way in a floor-crossing manner under the normal working condition, and the second three-dimensional conveying device 6 can convey the glass on the second original sheet production line 4 to a second processing line or a stacking roller way in a floor-crossing manner under the normal working condition, so that the moving and the transportation of the flat glass between floors in the vertical direction can be realized, the civil engineering cost of an enterprise is reduced, the arrangement of a production line on each floor can be reasonably arranged, and the space utilization rate of an enterprise workshop is improved;
an overpass steering device comprising a first overpass steering device 2 and a second overpass steering device 5; the first and second overpass steering devices 2 and 5 each include: the glass conveying device comprises a plurality of conveying roller ways arranged in parallel, a first driving mechanism for driving the plurality of conveying roller ways, a plurality of steering belts arranged between the adjacent conveying roller ways, a second driving mechanism for driving the steering belts to rotate, and a steering belt lifting system for driving the steering belts to ascend or descend in the vertical direction, wherein a first interchange steering device 2 can steer and convey glass on a first original sheet production line 1 during maintenance of a first three-dimensional conveying device 3, and a second interchange steering device 5 can steer and convey flat glass on a second original sheet production line 4 during maintenance of a second three-dimensional conveying device 6, so that the situation that the glass is broken when entering the three-dimensional conveying device can be effectively avoided, and the yield of the glass is improved;
the movable roller way 7 can be replaced according to actual needs, and the movable roller way 7 is generally arranged between the first original sheet production line 1 and the second original sheet production line 4, so that the movable roller way 7 can receive the glass conveyed by the second interchange steering device 5 to the first original sheet production line 1; mainly plays a role in transition conveying.
In a preferred embodiment, the steering belt lifting system drives the steering belt to ascend or descend so that the upper surface of the steering belt is operable to be in the first position or the second position; wherein, the upper surface of the steering belt is at the same height as the movable roller table 7 when at the first position; and when the upper surface of the steering belt is at the second position, the upper surface of the steering belt is positioned below a bus on the conveying roller way.
In a preferred embodiment, the other side of the first overpass turning device 2 relative to the movable roller way 7 and/or the other side of the second overpass turning device 5 relative to the movable roller way 7 is arranged on the air-float lower sheet table 8.
In a preferred embodiment, the height of the air-floating lower sheet table 8 is the same as the height of the movable roller table 7.
Specifically, the steering belt can be lifted to the same height as the movable roller way 7 through the steering belt lifting system, and the height of the air-floatation sheet-discharging platform 8 is the same as that of the movable roller way 7, so that when the second three-dimensional conveying device 6 is maintained, the flat glass on the second production line can sequentially pass through the second interchange steering device 5, the movable roller way 7 and the first interchange steering device 2 to enter the air-floatation sheet-discharging platform 8, normal conveying of the flat glass on the first original sheet production line 1 cannot be influenced in the process, and the steering belt lifting system can lower the steering belt to a position below a bus on the roller way, so that the normal conveying of the flat glass on the first original sheet production line 1 cannot be influenced when the first three-dimensional conveying device 3 works.
In a preferred embodiment, both the rollerway and the movable rollerway 7 can be a belt rollerway or a roller rollerway.
Specifically, the belt type conveying roller way comprises a conveying support, conveying rollers, conveying belts and a driving device, wherein the general conveying support is a rectangular frame, the directions of two long sides of the rectangular frame are set as the moving directions of the plate glass on the sheet collecting roller way, the conveying rollers are divided into two groups which are respectively arranged on the inner sides of the two long sides of the rectangular frame, the conveying belts are sleeved on the circumferential sides of the conveying rollers on the same side, the driving device is in driving connection with one or more conveying rollers, the conveying belts are driven to move through the rotation of the conveying rollers, when the glass is conveyed, the bottoms of the plate glass are in contact with the conveying belts on the two sides, the specific conveying belts are made of softer materials to avoid scratching the plate glass, in addition, the conveying speed is relatively slow, and the relative movement between the plate glass and the conveying belts is avoided;
the roller type conveying roller way comprises a conveying support, a conveying roller and a driving device, a general conveying support is a rectangular frame, the moving direction of the plate glass on a sheet collecting roller way is set to be the moving direction of the plate glass in the long edge direction of the rectangular frame, two ends of the conveying roller are respectively connected with two long edge movable connections of the rectangular frame, the driving device is connected with the conveying roller in a driving mode, when the plate glass is conveyed, the bottom of the plate glass is in contact with the side face of the circumference of the conveying roller, the circumferential outer wall of the specific conveying roller is wrapped by a soft material to avoid scratching the plate glass, in addition, the conveying speed is relatively slow, and relative sliding between the plate glass and the conveying roller is avoided.
A line-interchangeable sheet glass vertical conveyance method which is adapted to any one of the line-interchangeable sheet glass vertical conveyance devices, wherein the working method comprises:
in the first method, when the first three-dimensional conveying device 3 works, the plate glass is conveyed to a first deep processing line or a stacker roller way through the first original sheet production line 1, the conveying roller way of the first interchange steering device 2, the sheet collecting device 31, the vertical conveying device 32 and the sheet sending device 33 in sequence; wherein, the first original sheet production line 1 and the first deep processing line/or the stacker roller bed are positioned on different floors;
when the second three-dimensional conveying device 6 works, the plate glass is conveyed to a second deep processing line or a stacker roller way through the second original sheet production line 4, the conveying roller way of the second interchange steering device 5, the sheet receiving device 31, the vertical conveying device 32 and the sheet sending device 33 in sequence; wherein the second original sheet production line 4 and the second deep processing line/or the stacker roller bed are positioned on different floors.
Second, when the first three-dimensional conveying device 3 is maintained, firstly, the plate glass on the first original sheet production line 1 enters a conveying roller way of the first overpass steering device 2, then a steering belt lifting system of the first overpass steering device 2 drives a steering belt of the first overpass steering device 2 to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the first overpass steering device 2, and finally, a second driving system of the first overpass steering device 2 drives the steering belt of the first overpass steering device 2 to rotate so that the plate glass enters an air-floatation sheet discharging table 8, and the glass conveyed to the air-floatation sheet discharging table 8 is manually discharged onto a glass storage frame.
When the second three-dimensional conveying device 6 is maintained, firstly, the plate glass on the second original sheet production line 4 enters a conveying roller way of the second interchange steering device 5, then a steering belt lifting system of the second interchange steering device 5 drives a steering belt of the second interchange steering device 5 to ascend so as to enable the lower surface of the plate glass to be separated from the conveying roller way of the second interchange steering device 5, and then a second driving system of the second interchange steering device 5 drives the steering belt to rotate so as to enable the plate glass to enter a movable roller way 7;
then a steering belt lifting system of the first overpass steering device 2 drives a steering belt of the first overpass steering device 2 to ascend, so that the plate glass on the movable roller way 7 enters the steering belt of the first overpass steering device 2, finally a second driving system of the first overpass steering device 2 drives the steering belt of the first overpass steering device 2 to rotate, so that the plate glass enters an air-flotation sheet-discharging platform 8, and the glass conveyed to the air-flotation sheet-discharging platform 8 is manually discharged onto a glass storage rack.
When the first three-dimensional conveying device 3 and the second three-dimensional conveying device 6 are maintained or maintained simultaneously, firstly, the plate glass on the second original sheet production line 4 enters a conveying roller way of the second interchange steering device 5, then a steering belt lifting system of the second interchange steering device 5 drives a steering belt of the second interchange steering device 5 to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the second interchange steering device 5, and then a second driving system of the second interchange steering device 5 drives the steering belt to rotate so that the plate glass enters a movable roller way 7;
simultaneously, the plate glass on the first original sheet production line 1 enters a conveying roller way of a first interchange steering device 2, then the steering belt lifting system of the first interchange steering device 2 drives the steering belt of the first interchange steering device 2 to rise so as to separate the lower surface of the plate glass from the conveying roller way of the first interchange steering device 2, at the moment, the second driving system of the first interchange steering device 2 drives the steering belt of the first interchange steering device 2 to rotate so as to enable the plate glass to enter the air-floatation sheet unloading platform 8, and then the plate glass on the movable roller table 7 enters a steering belt of the first interchange steering device 2, and finally a second driving system of the first interchange steering device 2 drives the steering belt of the first interchange steering device 2 to rotate so as to enable the plate glass to enter an air-floatation sheet-discharging table 8, and the glass conveyed to the air-floatation sheet-discharging table 8 in sequence is manually discharged onto a glass storage rack.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.
Claims (9)
1. A line-interchangeable sheet glass vertical conveyance apparatus, comprising:
an overpass steering device comprising a first overpass steering device and a second overpass steering device; the first and second overpass steering devices each include: the conveying device comprises a plurality of conveying roller ways arranged in parallel, a first driving mechanism for driving the plurality of conveying roller ways, a plurality of steering belts arranged between the adjacent conveying roller ways, a second driving mechanism for driving the steering belts to rotate, and a steering belt lifting system for driving the steering belts to ascend or descend in the vertical direction;
the device comprises a first three-dimensional conveying device and a second three-dimensional conveying device, wherein the first three-dimensional conveying device and the second three-dimensional conveying device respectively comprise a sheet receiving device, a vertical lifting device and a sheet sending device which are sequentially connected; the sheet collecting device is arranged at the tail end of the original sheet production line; the piece sending device is arranged at the head end of the deep processing line or the head end of the stacker roller way;
and the movable roller way is arranged between the first interchange steering device and the second interchange steering device.
2. The apparatus for vertically conveying sheet glass with interchangeable route according to claim 1, wherein: the steering belt lifting system drives the steering belt to ascend or descend so that the upper surface of the steering belt can be operated to be in a first position or a second position; wherein the content of the first and second substances,
the height of the upper surface of the steering belt is the same as that of the movable roller way when the upper surface of the steering belt is at the first position;
and when the upper surface of the steering belt is at the second position, the upper surface of the steering belt is positioned below a bus on the conveying roller way.
3. The apparatus for vertically conveying sheet glass with interchangeable route according to claim 1, wherein: the other side of the first interchange steering device relative to the movable roller way and/or the other side of the second interchange steering device relative to the movable roller way are/is arranged on an air floatation piece-dropping platform.
4. The apparatus for vertically conveying sheet glass with interchangeable route according to claim 3, wherein: the height of the air floatation piece falling table is the same as that of the movable roller way.
5. The apparatus for vertically conveying sheet glass with interchangeable route according to claim 1, wherein: the rollgang and the movable rollgang can adopt a belt rollgang or a roller rollgang.
6. A method for operating an interchangeable line type vertical sheet glass conveying apparatus, which is applied to the interchangeable line type vertical sheet glass conveying apparatus according to any one of claims 1 to 5, wherein the method comprises:
when the first three-dimensional conveying device works, the plate glass is conveyed to a first deep processing line or a stacker roller way through a first original sheet production line, the conveying roller way of the first interchange steering device, the sheet receiving device, the vertical lifting device and the sheet sending device in sequence; wherein the first original sheet production line and the first deep processing line/or the stacker roller bed are positioned on different floors;
the second three-dimensional conveying device works, and the plate glass is conveyed to a second deep processing line or a stacker roller way through a second original sheet production line, the conveying roller way of the second interchange steering device, the sheet receiving device, the vertical lifting device and the sheet sending device in sequence; wherein the second original sheet production line and the second deep processing line/or the stacker roller bed are positioned on different floors.
7. A method for operating an interchangeable line type vertical sheet glass conveying apparatus, which is applied to the interchangeable line type vertical sheet glass conveying apparatus according to any one of claims 1 to 5, wherein the method comprises:
the first three-dimensional conveying device is maintained, plate glass on the first original sheet production line enters the conveying roller way of the first interchange steering device, the steering belt lifting system of the first interchange steering device drives the steering belt of the first interchange steering device to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the first interchange steering device, and the second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the plate glass enters the air-floatation sheet discharging platform.
8. A method for operating an interchangeable line type vertical sheet glass conveying apparatus, which is applied to the interchangeable line type vertical sheet glass conveying apparatus according to any one of claims 1 to 5, wherein the method comprises:
maintaining or maintaining the second three-dimensional conveying device, wherein the plate glass on the second original sheet production line enters the conveying roller way of the second interchange steering device, the steering belt lifting system of the second interchange steering device drives the steering belt of the second interchange steering device to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the second interchange steering device, and the second driving system of the second interchange steering device drives the steering belt to rotate so that the plate glass enters the movable roller way;
the steering belt lifting system of the first interchange steering device drives the steering belt of the first interchange steering device to ascend, the plate glass on the movable roller way enters the steering belt of the first interchange steering device, and the second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the plate glass enters the air-floatation sheet discharging table.
9. A method for operating an interchangeable line type vertical sheet glass conveying apparatus, which is applied to the interchangeable line type vertical sheet glass conveying apparatus according to any one of claims 1 to 5, wherein the method comprises:
the first three-dimensional conveying device and the second three-dimensional conveying device are maintained or maintained at the same time, the plate glass on the second original sheet production line enters the conveying roller way of the second interchange steering device, the steering belt lifting system of the second interchange steering device drives the steering belt of the second interchange steering device to ascend so that the lower surface of the plate glass is separated from the conveying roller way of the second interchange steering device, and the second driving system of the second interchange steering device drives the steering belt to rotate so that the plate glass enters the movable roller way;
the flat glass on the first original sheet production line enters the conveying roller way of the first interchange steering device, the steering belt lifting system of the first interchange steering device drives the steering belt of the first interchange steering device to ascend so that the lower surface of the flat glass is separated from the conveying roller way of the first interchange steering device, the second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the flat glass enters the air-floatation sheet discharging platform, the flat glass on the movable roller way enters the steering belt of the first interchange steering device, and the second driving system of the first interchange steering device drives the steering belt of the first interchange steering device to rotate so that the flat glass enters the air-floatation sheet discharging platform.
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| CN202111471213.9A CN114348657A (en) | 2021-12-03 | 2021-12-03 | Circuit-interchangeable plate glass vertical conveying device and method |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115180403A (en) * | 2022-06-21 | 2022-10-14 | 中国建材国际工程集团有限公司 | Glass production line avoiding and conveying device and method |
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| CN112374155A (en) * | 2020-10-14 | 2021-02-19 | 刘伟 | Glass processing transmission line, glass production line and glass processing transmission method |
| CN112340450A (en) * | 2020-10-27 | 2021-02-09 | 中国建材国际工程集团有限公司 | Three-dimensional conveying device and method for plate glass production line |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN115180403A (en) * | 2022-06-21 | 2022-10-14 | 中国建材国际工程集团有限公司 | Glass production line avoiding and conveying device and method |
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