CN207405084U - A kind of glass toughening production line automatic upper and lower film system - Google Patents
A kind of glass toughening production line automatic upper and lower film system Download PDFInfo
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- CN207405084U CN207405084U CN201721367826.7U CN201721367826U CN207405084U CN 207405084 U CN207405084 U CN 207405084U CN 201721367826 U CN201721367826 U CN 201721367826U CN 207405084 U CN207405084 U CN 207405084U
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Abstract
The utility model discloses a kind of glass toughening production line automatic upper and lower film systems to include:Upper piece system and bottom sheet system, wherein, the upper piece system includes:Splicer, pre- pieces of cloth sensor, pre- pieces of cloth platform and upper piece sensor, longitudinal conveyor and at least two cross drive devices being transversely set up in parallel are provided on pre- pieces of cloth platform, each cross drive device can independent operating, the splicer with transmission device is arranged on the transverse ends of pre- pieces of cloth platform.This patent is when into piece, glass plate is sent to pieces of cloth on pre- pieces of cloth platform using splicer, upper piece platform is sent to by pre- pieces of cloth platform again and enters glass toughening production line, during slice, glass plate is sent to pre- bottom sheet platform by bottom sheet platform, is sent glass plate to sheet feeding table by pre- bottom sheet platform, realize glass plate automatic sheet-feeding and processing step of automatic bottom sheet on toughened glass production line, meanwhile perfect toughened glass production line is docked with the automation of upstream and downstream equipment, reduces the labor intensity of worker.
Description
Technical field
The utility model is related to glass processing field, especially a kind of glass toughening production line automatic upper and lower film system.
Background technology
Glass toughening production line includes:Upper piece platform, heating furnace, tempering cooling section and bottom sheet platform.At present, glass tempering produces
Line be all by manually carry out glass plate upper piece and bottom sheet, when needing to process the smaller glass plate of book size, it is also necessary to
Pieces of cloth are manually carried out, seriously affect production efficiency, there are production safety hidden danger.In addition, existing glass toughening production line with
Upstream equipment such as glass cutting equipment or edger unit, it is necessary to manually carry out when upstream device such as production line of hollow glasses connects,
Labor intensity is big, lacks the transition apparatus for realizing and coordinating and connect between production line.
Utility model content
For the problem of the degree of automation is low when glass toughening production line upper piece is with bottom sheet in the prior art, sheet
A kind of automation journey for being designed to provide glass toughening production line automatic upper and lower film system, improving fluctuating plate of utility model
Degree, convenient for the connection between tempering line and upstream and downstream production line.
To achieve the above object, the technical solution of the utility model is as follows:
A kind of glass toughening production line automatic upper and lower film system, including:Upper piece system and bottom sheet system, wherein,
The upper piece system includes:Splicer, pre- pieces of cloth sensor, pre- pieces of cloth platform, upper piece sensor and upper piece platform, it is described
Pre- pieces of cloth platform is arranged on the glass plate input terminal of a platform, and longitudinal conveyor and at least two is provided on pre- pieces of cloth platform along horizontal stroke
To the cross drive device being set up in parallel, each cross drive device can independent operating, the upper piece sensor is arranged on pre-
It between pieces of cloth platform and upper piece platform, and is connected with the starter of upper piece platform, the splicer with transmission device is set
In the transverse ends of pre- pieces of cloth platform, the pre- pieces of cloth sensor is arranged between splicer and pre- pieces of cloth platform, and with pre- pieces of cloth platform
Starter connection.
Further, the bottom sheet system includes:Bottom sheet platform, pre- bottom sheet sensor, send piece sensor and send piece pre- bottom sheet platform
Platform, the pre- bottom sheet platform are arranged on the glass plate output terminal of bottom sheet platform, and longitudinal conveyor and at least is provided on pre- bottom sheet platform
Two cross drive devices being transversely set up in parallel, each cross drive device can independent operating, the pre- bottom sheet sensing
Device is arranged between the bottom sheet platform and pre- bottom sheet platform, and is connected with the starter of pre- bottom sheet platform, and the sheet feeding table is arranged on
The transverse ends of pre- bottom sheet platform are provided with transmission device in sheet feeding table, described that piece sensor is sent to be arranged on sheet feeding table and pre- bottom sheet
Between platform, and it is connected with the starter of sheet feeding table.
Further, the bottom sheet system includes:Piece sensor and sheet feeding table are sent, the sheet feeding table is arranged on the bottom sheet platform
Glass output terminal, it is described that piece sensor is sent to be arranged between sheet feeding table and bottom sheet platform, and be connected with the starter of sheet feeding table.
Further, the transmission device in the splicer and/or the sheet feeding table is:Cross drive device or
It is the combination of cross drive device and longitudinal conveyor.
Further, the longitudinal conveyor is rollgang.
Further, the cross drive device is arranged in the roller gap of the longitudinal conveyor, cross drive dress
It puts and is connected with lifting gear.
Further, the cross drive device is tape transport or idler wheel transport mechanism.
Further, the splicer is connected with upstream glass processing device, and the upstream glass processing device includes:Cutting
Equipment, edger unit and/or cleaning equipment.
Further, the input terminal of the transmission device on the splicer is provided with the mistake being connected with upstream glass processing device
Connected unit is crossed, the upstream glass processing device includes:Cutting equipment, edger unit and/or cleaning equipment.
Further, the sheet feeding table is connected with downstream tempered glass process equipment, the downstream tempered glass process equipment
Including:Production line of hollow glasses, laminated glass production line or vacuum glass production line.
For the ease of understanding and illustrating, the utility model definition:Longitudinal direction:The conveying direction of glass toughening production line;Laterally:
Perpendicular to the conveying direction of glass toughening production line in horizontal plane.
The utility model provides a kind of glass toughening production line automatic upper and lower film system, during into piece, utilizes splicer will
Glass plate is sent to pieces of cloth on pre- pieces of cloth platform, then is sent to upper piece platform by pre- pieces of cloth platform and enters glass toughening production line, during slice,
Glass plate is sent to pre- bottom sheet platform by bottom sheet platform, is sent glass plate to sheet feeding table by pre- bottom sheet platform, is made by the signal of sensor
Pre- pieces of cloth platform, upper piece platform, pre- bottom sheet platform and sheet feeding table are carried out automatically controlling for trigger signal, realize glass plate in tempering glass
Automatic sheet-feeding and the processing step of automatic bottom sheet on glass production line, meanwhile, perfect toughened glass production line and upstream and downstream equipment
Automation docking, reduce the labor intensity of worker.
When cross drive device is carried on splicer, splicer is located at the transverse end of pre- pieces of cloth platform, can be according to live empty
Between situation, splicer is arranged on to the transverse end or longitudinal end of pre- pieces of cloth platform, meanwhile, according to the processing feelings of glass plate upstream
Splicer can be arranged on horizontal one end of pre- pieces of cloth platform by condition, and glass plate is inputted from a lateral pre- pieces of cloth platform, can also,
The transverse ends of pre- pieces of cloth platform are respectively provided with splicer, and glass plate is from two lateral pre- pieces of cloth platforms, to be flexibly adapted to the peace at scene
Fill environment;
Segmentation on pre- pieces of cloth platform and pre- bottom sheet platform lays cross drive device convenient for cloth of the glass plate on pre- pieces of cloth platform
Piece and pre- bottom sheet platform upper glass plates are sent to sheet feeding table one by one.
Description of the drawings
Fig. 1 is the first exemplary schematic diagram of upper piece system in the utility model;
Fig. 2 is second of exemplary schematic diagram of upper piece system in the utility model;
Fig. 3 is the third exemplary schematic diagram of upper piece system in the utility model;
Fig. 4 is the schematic diagram of pre- pieces of cloth platform in the utility model;
Fig. 5 is one of schematic diagram of fluctuating plate system in the utility model;
Fig. 6 is two of the schematic diagram of fluctuating plate system in the utility model;
Wherein, 1 upper piece platform, 2 upper piece sensors, 3 pre- pieces of cloth platforms, 4 pre- pieces of cloth sensors, 5 splicers, 6 transition connected units,
7 bottom sheet platforms, 8 pre- bottom sheet sensors, 9 pre- bottom sheet platforms, 10 send piece sensor, 11 sheet feeding tables, 31 cross drive devices, 32 longitudinal directions to pass
Send device, 33 lifting gears, 51 cross drive devices, 52 longitudinal conveyors, 91 cross drive devices, 92 longitudinal direction transmission dresses
It puts, 100 glass toughening production lines, 111 cross drive devices, 200 glass plates.
Specific embodiment
The principle and feature of the utility model are more fully illustrated below with reference to attached drawing and example.This practicality
It is new to be presented as a variety of various forms, it is not construed as being confined to the exemplary embodiment described here.
For ease of explanation, the spatially relative terms such as " on ", " under ", "left", "right" can be used herein, are used for
The element or feature shown in definition graph is compared with another element or the relation of feature.It should be understood that except figure
In outside the orientation that shows, spatial terminology is intended to include the different azimuth of device in use or operation.If for example, in figure
Device be squeezed, be stated as being located at other elements or feature " under " element will be located into other elements or feature " on ".
Therefore, exemplary term " under " both upper and lower orientation can be included.Device can be positioned otherwise(It is rotated by 90 ° or position
In other orientation), can correspondingly be explained used herein of the opposite explanation in space.
As Figure 1 and Figure 4 for the utility model a kind of glass toughening production line automatic upper and lower film system in upper piece be
The first embodiment of system, including:Transition connected unit 6, splicer 5, pre- pieces of cloth sensor 4, pre- pieces of cloth platform 3, upper piece sensing
Device 2 and upper piece platform 1, wherein, pre- pieces of cloth platform 3 is arranged on the glass plate input terminal of a platform 1, and transverse direction is provided on pre- pieces of cloth platform 3
Transmission device 31 and longitudinal conveyor 32, longitudinal direction(Arrow a in reference chart):Glass toughening production line 100(See Fig. 5)Conveying
Direction;Laterally(Arrow b in reference chart):Perpendicular to the conveying direction of glass toughening production line 100 in horizontal plane.Upper piece sensor
2 are arranged between pre- pieces of cloth platform 3 and upper piece platform 1, and are connected with the starter of upper piece platform 1.Splicer 5 is arranged on pre- pieces of cloth platform
3 horizontal one end is provided with cross drive device 51 and longitudinal conveyor 52 on splicer 5.Pre- pieces of cloth sensor 4 is arranged on
Between splicer 5 and pre- pieces of cloth platform 3, and it is connected with the starter of pre- pieces of cloth platform 3.Transition connected unit 6 is arranged on splicer 5
Longitudinal input terminal is provided with longitudinal conveyor 61, transition connected unit 6 and the upstream glass processing of upstream in transition connected unit 6
Equipment connects, and upstream glass processing device includes:The pretreatment of the glass plates such as cutting equipment, edger unit and/or cleaning equipment is set
It is standby.The concrete structure of longitudinal conveyor 32,52,62 and cross drive device 31,51 is illustrated with pre- pieces of cloth platform 3,
It is placed with the rollgang as longitudinal conveyor 32 along longitudinal direction on pre- pieces of cloth platform 3, rollgang is set by several intervals
The roller composition of set a distance arrangement.Lifting gear 33 fixed with rack is provided with below the roller gap of rollgang,
Lifting gear 33 can be cylinder, hydraulic cylinder or electric pushrod etc., and cross drive device 31 is provided on lifting gear 33, horizontal
It is specially tape transport either idler wheel transport mechanism to transmission device 31, lifting gear 33 drives cross drive device 31
Supporting surface is higher than the supporting surface of longitudinal conveyor 32, so as to fulfill the lateral transfer of glass plate 200.
In use, the glass plate 200 of upstream equipment processing is entered by transition connected unit 6 on splicer 5, default position is reached
It postpones, the longitudinal conveyor 52 on splicer 5 stops, 51 lifting of cross drive device, and glass plate 200 is placed in cross drive dress
It puts on 51, glass plate 200 senses glass to pre- 3 transverse shifting of pieces of cloth platform, pre- pieces of cloth sensor 4 after starting cross drive device 51
Start pre- pieces of cloth platform 3 after glass plate 200, the cooperation of cross drive device 31 on pre- pieces of cloth platform 3 starts, and glass plate 200 enters pre- cloth
Behind the setting position of piece platform 3, cross drive device 31 declines, and glass plate 200 is fallen on longitudinal conveyor 32, by longitudinally transmitting
Device 32 drives 200 upward piece platform 1 of glass plate to move, and after upper piece sensor 2 senses glass plate 200, starts upper piece platform 1 and completes
Glass plate 200 upper piece action.
As shown in Fig. 2, for second of embodiment of upper piece system, the difference compared with the first embodiment in Fig. 1
It is, eliminates transition connected unit 6, and cross drive device 51 is only provided on splicer 5.
As shown in figure 3, for the third embodiment of upper piece system, the difference compared with second of embodiment in Fig. 2
It is, is all provided with splicer 5 in the transverse ends of pre- pieces of cloth platform 3, glass plate can be sent into from both direction to pre- pieces of cloth platform 3
200.At least two cross drive devices being transversely set up in parallel, each cross drive device energy are provided on pre- pieces of cloth platform 3
Enough independent operatings are sent into pieces of cloth operation during glass plate 200 convenient for both direction simultaneously.
As shown in figure 5, a kind of embodiment of the fluctuating plate system entirety for the utility model, glass toughening production line
100 upper piece platform 1 is connected with upper piece system shown in Fig. 2, and known bottom sheet platform may be employed in bottom sheet system, it is preferable that bottom sheet
System includes:Bottom sheet platform 7, pre- bottom sheet sensor 8, send piece sensor 10 and sheet feeding table 11 at pre- bottom sheet platform 9, and pre- bottom sheet platform 9 is set
Cross drive device 91 and longitudinal conveyor 92 are provided on the glass plate output terminal of bottom sheet platform 7, pre- bottom sheet platform 9, under pre-
Piece sensor 8 is arranged between bottom sheet platform 7 and pre- bottom sheet platform 9, and is connected with the starter of pre- bottom sheet platform 9, and sheet feeding table 11 is set
It puts and is provided with cross drive device 111 on horizontal one end of pre- bottom sheet platform 9, sheet feeding table 11, piece sensor 10 is sent to be arranged on and is sent
It between piece platform 11 and pre- bottom sheet platform 9, and is connected with the starter of sheet feeding table 11, sheet feeding table 11 is set with the processing of downstream tempered glass
Standby connection, downstream tempered glass process equipment include:Production line of hollow glasses, laminated glass production line or vacuum glass production
Line.Cross drive device 91,111 and longitudinal conveyor 92 may be referred to cross drive device 31 and longitudinal direction transmission in Fig. 4
Device 32.
As shown in fig. 6, the another embodiment of the fluctuating plate system entirety for the utility model, glass toughening production line
100 upper piece platform 1 is connected with upper piece system shown in Fig. 3, and known bottom sheet platform may be employed in bottom sheet system, it is preferable that is adopted
Compared with the bottom sheet system in Fig. 5, difference lies in the transverse ends of pre- bottom sheet platform 9 be both provided with and send piece bottom sheet system
Platform 11 is provided at least two cross drive devices being transversely set up in parallel, each cross drive device energy on pre- bottom sheet platform 9
Enough independent operatings convey convenient for the glass plate 200 on pre- bottom sheet platform 9 to two sheet feeding tables simultaneously.
Certainly, bottom sheet system may be employed with lower structure:Pre- bottom sheet platform 9 and pre- bottom sheet sensor 8 are saved, by bottom sheet platform 7
Directly it is connected with sheet feeding table 11.
Several preferred embodiments of the application are only described above in association with attached drawing, but the application is without being limited thereto, every ability
Domain those of ordinary skill is not in the case where departing from spirit herein, any improvement and/or deformation made, belongs to the guarantor of the application
Protect scope.
Claims (10)
1. a kind of glass toughening production line automatic upper and lower film system, which is characterized in that including:Upper piece system and bottom sheet system,
In,
The upper piece system includes:Splicer, pre- pieces of cloth sensor, pre- pieces of cloth platform, upper piece sensor and upper piece platform, the pre- cloth
Piece platform is arranged on the glass plate input terminal of a platform, and longitudinal conveyor and at least two is provided on pre- pieces of cloth platform transversely simultaneously
Arrange the cross drive device set, each cross drive device can independent operating, the upper piece sensor is arranged on pre- pieces of cloth
It between platform and upper piece platform, and is connected with the starter of upper piece platform, the splicer with transmission device is arranged on pre-
The transverse ends of pieces of cloth platform, the pre- pieces of cloth sensor be arranged between splicer and pre- pieces of cloth platform, and is opened with pre- pieces of cloth platform
Dynamic device connection.
2. fluctuating plate system as described in claim 1, which is characterized in that the bottom sheet system includes:Bottom sheet platform, pre- bottom sheet pass
Sensor, pre- bottom sheet platform send piece sensor and sheet feeding table, and the pre- bottom sheet platform is arranged on the glass plate output terminal of bottom sheet platform, under pre-
Longitudinal conveyor and at least two cross drive devices being transversely set up in parallel, each cross drive dress are provided on piece platform
Put can independent operating, the pre- bottom sheet sensor is arranged between the bottom sheet platform and pre- bottom sheet platform, and with pre- bottom sheet platform
Starter connects, and the sheet feeding table is arranged on the transverse ends of pre- bottom sheet platform, transmission device is provided in sheet feeding table, described to send
Piece sensor is arranged between sheet feeding table and pre- bottom sheet platform, and is connected with the starter of sheet feeding table.
3. fluctuating plate system as described in claim 1, which is characterized in that the bottom sheet system includes:It send piece sensor and send
Piece platform, the sheet feeding table is arranged on the glass output terminal of the bottom sheet platform, described that piece sensor is sent to be arranged on sheet feeding table and bottom sheet
Between platform, and it is connected with the starter of sheet feeding table.
4. fluctuating plate system as claimed in claim 2, which is characterized in that the institute on the splicer and/or the sheet feeding table
Stating transmission device is:Cross drive device, either, the combination of cross drive device and longitudinal conveyor.
5. such as claim 1,2 or 3 any one of them fluctuating plate systems, which is characterized in that the longitudinal conveyor is defeated
Send roller-way.
6. fluctuating plate system as claimed in claim 5, which is characterized in that the cross drive device is arranged on the longitudinal direction and passes
It send in the roller gap of device, cross drive device is connected with lifting gear.
7. fluctuating plate system as claimed in claim 6, which is characterized in that the cross drive device is tape transport or rolling
Take turns transport mechanism.
8. fluctuating plate system as described in claim 1, which is characterized in that the splicer connects with upstream glass processing device
It connects, the upstream glass processing device includes:Cutting equipment, edger unit and/or cleaning equipment.
9. fluctuating plate system as described in claim 1, which is characterized in that the input terminal of the transmission device on the splicer is set
The transition connected unit being connected with upstream glass processing device is equipped with, the upstream glass processing device includes:Cutting equipment, edging
Equipment and/or cleaning equipment.
10. fluctuating plate system as claimed in claim 2, which is characterized in that the sheet feeding table is set with the processing of downstream tempered glass
Standby connection, the downstream tempered glass process equipment include:Production line of hollow glasses, laminated glass production line or vacuum glass life
Producing line.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721367826.7U CN207405084U (en) | 2017-10-23 | 2017-10-23 | A kind of glass toughening production line automatic upper and lower film system |
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CN201721367826.7U CN207405084U (en) | 2017-10-23 | 2017-10-23 | A kind of glass toughening production line automatic upper and lower film system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110240416A (en) * | 2019-05-17 | 2019-09-17 | 中建材轻工业自动化研究所有限公司 | A kind of glass post-processing workshop line |
CN114538095A (en) * | 2020-11-19 | 2022-05-27 | 洛阳兰迪玻璃机器股份有限公司 | Glass unloading system, tempered glass production line and unloading method |
-
2017
- 2017-10-23 CN CN201721367826.7U patent/CN207405084U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110240416A (en) * | 2019-05-17 | 2019-09-17 | 中建材轻工业自动化研究所有限公司 | A kind of glass post-processing workshop line |
CN114538095A (en) * | 2020-11-19 | 2022-05-27 | 洛阳兰迪玻璃机器股份有限公司 | Glass unloading system, tempered glass production line and unloading method |
CN114538095B (en) * | 2020-11-19 | 2024-01-26 | 洛阳兰迪玻璃机器股份有限公司 | Glass blanking system, toughened glass production line and blanking method |
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