CN202200130U - Novel automatic glass chamfering machine - Google Patents
Novel automatic glass chamfering machine Download PDFInfo
- Publication number
- CN202200130U CN202200130U CN2011202397154U CN201120239715U CN202200130U CN 202200130 U CN202200130 U CN 202200130U CN 2011202397154 U CN2011202397154 U CN 2011202397154U CN 201120239715 U CN201120239715 U CN 201120239715U CN 202200130 U CN202200130 U CN 202200130U
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- synchronously
- chamfering
- band
- electric machine
- electromagnetic clutch
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Abstract
The utility model relates to the technical field of chamfering machines, in particular to a novel automatic glass chamfering machine. The other end of a primary driving shaft (5) is connected with a worm and gear speed reducer (2) through a transmission gearbox (3); the worm and gear speed reducer (2) is connected with a primary synchronous belt driving motor (1); an electromagnetic clutch (18) is arranged on the worm and gear speed reducer (2); a secondary synchronous belt and synchronizing wheel (19) is arranged on the electromagnetic clutch (18) and is connected with a secondary synchronous belt tensioning base (21); a glass positioning mechanism (22) is arranged on an outer side of one end of the secondary synchronous belt tensioning base (21); and a return cylinder (23) is arranged in the middle of one side on the chamfering machine. Chamfering is synchronously operated through the electromagnetic clutch; therefore, the production efficiency of a production line is not influenced during chamfering, the chamfering quality problem is solved, and the labor cost of the chamfering machine is saved at the same time.
Description
Technical field:
The utility model relates to the beveler technical field, is specifically related to a kind of novel glass automatic chamfering machine.
Background technology:
At present, glass processing enterprise roughly uses three kinds of methods to the safe handling of glass acute angle in to the glass processing process.First method is that glass is handled the safety issue at limit and angle simultaneously in the method that edging adds direct usefulness machinery in man-hour.Though this method efficient is high, subject matter is that the quick-fried angle phenomenon that the processing at angle produces exists always.Yield rate is on the low side, and 4 safety angles of a glass tend to occur not of uniform size, influences the presentation quality of product.The second method production line is processed safety angle outward; The limit portion that is glass transfers to the processing of carrying out safety angle on another group angle lap machine as semi-finished product after edging is handled, it uses by manually-operated motor emery wheel method and handles the bight; Though this method has solved; The uneven problem in quick-fried angle and bight, but subject matter is the labor strength height, and production efficiency is low.Working environment is poor, and workers with long time influences the healthy of employee in the operation of the place of high humidity.The third method uses portable abrasive machine that the acute angle of glass is carried out safe handling.This method has solved the uneven problem of processing at quick-fried angle and angle to a certain extent.But this processing method is the dry method angle lap, and the big efficient of labour intensity is low.And in processing procedure, can produce a large amount of dust, and contaminated environment, the workman is operation in dust, can suck dust, suffers from pneumoconiosis easily.
The utility model content:
The purpose of the utility model provides a kind of novel glass automatic chamfering machine; It is chamfering in the synchronous operation through electromagnetic clutch; So do not influence the production efficiency of streamline during chamfering, solved the quality problems of chamfering, also practiced thrift the cost of labor in this post simultaneously.
In order to solve the existing problem of background technology, the utility model is to adopt following technical scheme: it comprise the main drive motors 1 of band synchronously, turbine and worm decelerator 2, uni-drive gear box 3, main band synchronously and synchronizing wheel 4, main drive shaft 5, substructure height regulate bolt 6, base 7, short spindle bearing holder 8, short pass moving axis 9, lateral frame 10, line slideway support 11, line slideway 12, synchronously be with hold-down mechanism 13, inlet casing 17, electromagnetic clutch 18, secondary band synchronously and synchronizing wheel 19, electric machine support drive connecting plate 20, secondary band synchronously backstand 21, glass detent mechanism 22 and return cylinder 23 before belt lifting mechanism 14, mill chamfering motor mechanism 15, electric machine support 16, the motor synchronously; Base 7 bottoms are provided with substructure height and regulate bolt 6, and base 7 is provided with line slideway support 11, and line slideway support 11 is provided with line slideway 12; A side is provided with lateral frame 10 on the base 7; Lateral frame is provided with main drive shaft 5 in 10 bottoms, and main drive shaft 5 one ends are fixing with base 7 through spindle bearing holder 8, are provided with short pass moving axis 9 between main drive shaft 5 tops and the lateral frame 10; The transport tape of short pass moving axis 9 is provided with synchronous band hold-down mechanism 13 and synchronous belt lifting mechanism 14; The transport tape arranged outside of short pass moving axis 9 has mill chamfering motor mechanism 15, and mill chamfering motor mechanism 15 is fixed on the electric machine support 16, and electric machine support 16 1 ends are provided with the preceding inlet casing 17 of motor; Electric machine support 16 other ends are provided with electric machine support and drive connecting plate 20; Main drive shaft 5 other ends are connected with turbine and worm decelerator 2 through uni-drive gear box 3, and turbine and worm decelerator 2 is connected with the main drive motors 1 of band synchronously, and turbine and worm decelerator 2 is provided with electromagnetic clutch 18; Electromagnetic clutch 18 is provided with secondary band and synchronizing wheel 19 synchronously; Secondary band synchronously is connected with the secondary backstand 21 of band synchronously with synchronizing wheel 19, and the secondary backstand of band synchronously 21 1 end arranged outside have glass detent mechanism 22, and a middle side part is provided with return cylinder 23 on the beveler.
The utility model is chamfering in the synchronous operation through electromagnetic clutch, so do not influence the production efficiency of streamline during chamfering, has solved the quality problems of chamfering, has also practiced thrift the cost of labor in this post simultaneously.
Description of drawings:
Fig. 1 is the structural representation of the utility model.
The specific embodiment:
Referring to Fig. 1, this specific embodiment is to adopt following technical scheme: it comprise the main drive motors 1 of band synchronously, turbine and worm decelerator 2, uni-drive gear box 3, main band synchronously and synchronizing wheel 4, main drive shaft 5, substructure height regulate bolt 6, base 7, short spindle bearing holder 8, short pass moving axis 9, lateral frame 10, line slideway support 11, line slideway 12, synchronously be with hold-down mechanism 13, inlet casing 17, electromagnetic clutch 18, secondary band synchronously and synchronizing wheel 19, electric machine support drive connecting plate 20, secondary band synchronously backstand 21, glass detent mechanism 22 and return cylinder 23 before belt lifting mechanism 14, mill chamfering motor mechanism 15, electric machine support 16, the motor synchronously; Base 7 bottoms are provided with substructure height and regulate bolt 6, and base 7 is provided with line slideway support 11, and line slideway support 11 is provided with line slideway 12; A side is provided with lateral frame 10 on the base 7; Lateral frame is provided with main drive shaft 5 in 10 bottoms, and main drive shaft 5 one ends are fixing with base 7 through spindle bearing holder 8, are provided with short pass moving axis 9 between main drive shaft 5 tops and the lateral frame 10; The transport tape of short pass moving axis 9 is provided with synchronous band hold-down mechanism 13 and synchronous belt lifting mechanism 14; The transport tape arranged outside of short pass moving axis 9 has mill chamfering motor mechanism 15, and mill chamfering motor mechanism 15 is fixed on the electric machine support 16, and electric machine support 16 1 ends are provided with the preceding inlet casing 17 of motor; Electric machine support 16 other ends are provided with electric machine support and drive connecting plate 20; Main drive shaft 5 other ends are connected with turbine and worm decelerator 2 through uni-drive gear box 3, and turbine and worm decelerator 2 is connected with the main drive motors 1 of band synchronously, and turbine and worm decelerator 2 is provided with electromagnetic clutch 18; Electromagnetic clutch 18 is provided with secondary band and synchronizing wheel 19 synchronously; Secondary band synchronously is connected with the secondary backstand 21 of band synchronously with synchronizing wheel 19, and the secondary backstand of band synchronously 21 1 end arranged outside have glass detent mechanism 22, and a middle side part is provided with return cylinder 23 on the beveler.
After glass comes out from bilateral fluffing face; Synchronous band through beveler gets into automatic chamfering machine; After the beveler optoelectronic switch is sensed glass; Positioning cylinder advances glass accurate location on beveler is with synchronously, and the execution of the cylinder of this step connects optoelectronic switch control through two-position five-way valve, and glass walking position, the left and right sides in synchronous being with is certain like this.Because be to go up band centre-to-centre spacing weak point synchronously, band centre-to-centre spacing is long synchronously down, and glass walks on, and goes up synchronous band glass is compressed simultaneously walking forward.
Glass advances to desired location under the drive that beveler is with synchronously, when the optoelectronic switch of execution chamfering is sensed glass, and the electromagnetic clutch adhesive; The synchronous band of outside will drive the glass synchronous walking of glass chamfering electric machine support and the inside; The relative position of chamfering motor and glass is exactly static like this, and cylinder advances the chamfering motor to begin chamfering work, and chamfering finishes after 4 seconds; Chamfering cylinder return, chamfering finishes.The control of whole process realizes through PLC.PLC connects optoelectronic switch; When optoelectronic switch is sensed glass, the electromagnetic clutch adhesive that is connected with PLC, the two-position five-way valve of controlling the chamfering cylinder in addition that is connected with PLC is simultaneously started working; Carry out cylinder and advance the chamfering action; It is 4S that PLC sets the cylinder chamfering time, and PLC control two-position five-way valve is regained the original position chamfering with cylinder and finished behind the 4S.
After chamfering finished, the chamfering electric machine support moved on, touch limit switch after, the electromagnetic clutch dead electricity is with ineffective power synchronously, the action of two-position five-way valve control return cylinder advances the chamfering electric machine support to return the origin-location, waits for the chamfering of next piece glass.
This specific embodiment is chamfering in the synchronous operation through electromagnetic clutch, so do not influence the production efficiency of streamline during chamfering, has solved the quality problems of chamfering, has also practiced thrift the cost of labor in this post simultaneously.
Claims (1)
1. novel glass automatic chamfering machine, it is characterized in that it comprise the main drive motors (1) of band synchronously, turbine and worm decelerator (2), uni-drive gear box (3), main band synchronously and synchronizing wheel (4), main drive shaft (5), substructure height regulate bolt (6), base (7), short spindle bearing holder (8), short pass moving axis (9), lateral frame (10), line slideway support (11), line slideway (12), synchronously be with hold-down mechanism (13), inlet casing (17), electromagnetic clutch (18), secondary band synchronously and synchronizing wheel (19), electric machine support drive connecting plate (20), secondary band synchronously backstand (21), glass detent mechanism (22) and return cylinder (23) before belt lifting mechanism (14), mill chamfering motor mechanism (15), electric machine support (16), the motor synchronously; Base (7) bottom is provided with substructure height and regulates bolt (6); Base (7) is provided with line slideway support (11); Line slideway support (11) is provided with line slideway (12), and the last side of base (7) is provided with lateral frame (10), and lateral frame (10) is provided with main drive shaft (5) in the bottom; Main drive shaft (5) one ends are fixing through spindle bearing holder (8) and base (7); Be provided with short pass moving axis (9) between main drive shaft (5) top and the lateral frame (10), the transport tape of short pass moving axis (9) is provided with synchronous band hold-down mechanism (13) and synchronous belt lifting mechanism (14), and the transport tape arranged outside of short pass moving axis (9) has mill chamfering motor mechanism (15); Mill chamfering motor mechanism (15) is fixed on the electric machine support (16); Electric machine support (16) one ends are provided with the preceding inlet casing (17) of motor, and electric machine support (16) other end is provided with electric machine support and drives connecting plate (20), and main drive shaft (5) other end is connected with turbine and worm decelerator (2) through uni-drive gear box (3); Turbine and worm decelerator (2) is connected with main band drive motors (1) synchronously; Turbine and worm decelerator (2) is provided with electromagnetic clutch, and (18, electromagnetic clutch (18) is provided with secondary band and synchronizing wheel (19) synchronously, and secondary band synchronously is connected with secondary band backstand (21) synchronously with synchronizing wheel (19); The secondary backstand of band synchronously (21) one end arranged outside have glass detent mechanism (22), and a middle side part is provided with return cylinder (23) on the beveler.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011202397154U CN202200130U (en) | 2011-07-08 | 2011-07-08 | Novel automatic glass chamfering machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011202397154U CN202200130U (en) | 2011-07-08 | 2011-07-08 | Novel automatic glass chamfering machine |
Publications (1)
Publication Number | Publication Date |
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CN202200130U true CN202200130U (en) | 2012-04-25 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2011202397154U Expired - Fee Related CN202200130U (en) | 2011-07-08 | 2011-07-08 | Novel automatic glass chamfering machine |
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CN (1) | CN202200130U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102862106A (en) * | 2011-07-08 | 2013-01-09 | 上海春戈玻璃有限公司 | Novel automatic glass chamfering machine |
-
2011
- 2011-07-08 CN CN2011202397154U patent/CN202200130U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102862106A (en) * | 2011-07-08 | 2013-01-09 | 上海春戈玻璃有限公司 | Novel automatic glass chamfering machine |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120425 Termination date: 20160708 |