CN212197521U

CN212197521U - Feeding device of automatic optical glass cutting equipment

Info

Publication number: CN212197521U
Application number: CN202020511300.7U
Authority: CN
Inventors: 文信
Original assignee: Hubei Laien Optoelectronics Technology Co ltd
Current assignee: Hubei Laien Optoelectronics Technology Co ltd
Priority date: 2020-04-09
Filing date: 2020-04-09
Publication date: 2020-12-22
Anticipated expiration: 2030-04-09

Abstract

The utility model provides a loading attachment of automatic cutting equipment of optical glass, it includes the frame, the top fixed mounting of frame has top rectangular frame, top rectangular frame's wherein two opposite side top fixed mounting have first slide rail, there is the crossbeam through sliding fit on the first slide rail, the crossbeam with be used for driving its gliding power unit that slides along first slide rail, install the lift post through the elevating system cooperation on the crossbeam, the bottom fixed mounting of lift post has the bottom plate, the sucking disc device that is used for absorbing glass is installed through upset power unit in the bottom of bottom plate. The device can be used for automatic feeding operation of glass in the optical glass processing process, so that the traditional manual feeding process is replaced, the processing efficiency is greatly improved, and the labor intensity of operators is reduced.

Description

Feeding device of automatic optical glass cutting equipment

Technical Field

The utility model belongs to optical glass processingequipment field especially relates to optical glass automatic cutout equipment's loading attachment.

Background

In the process of cutting and processing optical glass, optical glass plate raw materials stacked in a stacking mode need to be fed, and then the optical glass plate raw materials are fed to a cutting device to be cut or edge-ground.

SUMMERY OF THE UTILITY MODEL

For solving above technical problem, the utility model provides a loading attachment of automatic cutting equipment of optical glass, this device can be arranged in the optical glass course of working, and glass's automatic feeding operation, and then replace traditional artifical material loading process, great improvement machining efficiency, reduced operation personnel's intensity of labour.

In order to realize the technical characteristics, the purpose of the utility model is realized as follows: feeding device of automatic cutting equipment of optical glass, it includes the frame, the top fixed mounting of frame has top rectangular frame, wherein two opposite side top fixed mounting of top rectangular frame have first slide rail, there is the crossbeam through sliding fit on the first slide rail, the crossbeam with be used for driving its gliding power unit that slides along first slide rail, install the lift post through the elevating system cooperation on the crossbeam, the bottom fixed mounting of lift post has the bottom plate, the sucking disc device that is used for absorbing glass is installed through upset power unit in the bottom of bottom plate.

And a supporting foot pad is fixedly arranged at the bottom of the supporting leg of the frame.

The sliding power mechanism comprises a sliding motor fixed on the side wall of the top rectangular frame, a driving belt wheel is installed on an output shaft of the sliding motor, the driving belt wheel is in meshing transmission with a driven belt wheel through a belt, the driven belt wheel is installed on the inner side wall of the top rectangular frame, the belt is fixedly connected with the sliding plate through a clamping plate, a sliding block is communicated with the bottom of the sliding plate and forms sliding fit with a first sliding rail, and the cross beam is fixedly installed at the top of the sliding plate.

The lifting mechanism comprises an angle plate fixed in the middle of the top of the cross beam, a vertical sliding rail is arranged on the outer side wall of the angle plate in a sliding fit mode through a sliding groove plate, the vertical sliding rail is fixed on the side wall of the lifting column, a rack is fixed on the other side wall of the lifting column, the rack and a gear form gear-rack meshing transmission, the gear is fixedly installed on an output shaft of a lifting motor, and the lifting motor is fixedly installed on the side wall of the angle plate.

The overturning power mechanism comprises an upper hinging lug plate fixed on the end face of the bottom plate, the upper hinging lug plate is hinged and connected with a lower hinging lug plate through a pin shaft, the lower hinging lug plate is fixedly installed at the top of the connecting plate, an overturning motor is fixedly installed at the bottom of the bottom plate, a driving synchronous belt wheel is installed on an output shaft of the overturning motor, the driving synchronous belt wheel is in meshing transmission with a driven synchronous belt wheel through a synchronous belt, and the driven synchronous belt wheel is fixedly installed on the pin shaft and drives the whole connecting plate to rotate around the pin shaft.

The sucking disc device is including fixing the sucking disc mounting bracket in upset power unit's connecting plate bottom, the bottom fixed mounting of sucking disc mounting bracket has many sucking disc dead levers, the bottom fixed mounting of sucking disc dead lever has a plurality of sucking discs.

The lifting mechanism is provided with a height stroke sensor, the height stroke sensor comprises a first magnetic in-place sensor fixed on the cross beam, and the first magnetic in-place sensor is matched with a first induction magnet arranged on the lifting column.

The overturning power mechanism further comprises an overturning angle control device, the overturning angle control device comprises a rotating plate installed on the pin shaft, second induction magnets are respectively arranged at two ends of the rotating plate, and the second induction magnets are matched with a second magnetic in-place sensor fixed on the side wall of the upper hinged lug plate.

The utility model discloses there is following beneficial effect:

1. the device can be used for automatic feeding operation of glass in the optical glass processing process, so that the traditional manual feeding process is replaced, the processing efficiency is greatly improved, and the labor intensity of operators is reduced.

2. The transverse movement can be realized through the sliding power mechanism.

3. The lifting mechanism can realize lifting action.

4. The turnover power mechanism can realize turnover action, and further adjust the placing angle and position of the glass.

5. Can be used for absorbing glass through foretell sucking disc device, in the course of the work, contact through sucking disc and glass, and then carry out vacuum adsorption to glass.

6. The height stroke sensor can be used to control the elevation height of the elevating mechanism.

7. The turnover angle can be controlled through the turnover angle control device, so that the requirements of different cutting machines on the placement angles can be met.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a first perspective three-dimensional view of the present invention.

Fig. 2 is a second perspective three-dimensional view of the present invention.

Fig. 3 is a third perspective three-dimensional view of the present invention.

In the figure: the device comprises a supporting foot pad 1, a rack 2, a top rectangular frame 3, a cross beam 4, a lifting column 5, an angle plate 6, a vertical sliding rail 7, a rack 8, a three-color indicator lamp 9, a driven belt wheel 10, a lifting motor 11, a clamping plate 12, a sliding plate 13, a sliding block 14, a belt 15, a first sliding rail 16, a driving belt wheel 17, a sliding motor 18, a bottom plate 19, a turnover motor 20, a lower hinged lug plate 21, a connecting plate 22, a suction cup mounting rack 23, a suction cup fixing rod 24, a suction cup 25, an upper hinged lug plate 26, a synchronous belt 27, a driving synchronous belt wheel 28, a driven synchronous belt wheel 29, a gear 30, a first magnetic in-place sensor 31, a first induction magnet 32, a rotating plate 33 and a second magnetic in.

Detailed Description

The following describes embodiments of the present invention with reference to the accompanying drawings.

Referring to fig. 1-3, a feeding device of an automatic optical glass cutting device comprises a frame 2, a top rectangular frame 3 is fixedly installed at the top of the frame 2, first slide rails 16 are fixedly installed at the tops of two opposite sides of the top rectangular frame 3, a cross beam 4 is arranged on each first slide rail 16 in a sliding fit manner, the cross beam 4 and a sliding power mechanism used for driving the cross beam to slide along the first slide rails 16 are installed on the cross beam 4 in a matched manner through a lifting mechanism, a lifting column 5 is installed on the cross beam 4 in a matched manner through a lifting mechanism, a bottom plate 19 is fixedly installed at the bottom end of the lifting column 5, and a suction cup device used for sucking glass is installed at the bottom of the bottom plate 19. The device can be used for automatic feeding operation of glass in the optical glass processing process, so that the traditional manual feeding process is replaced, the processing efficiency is greatly improved, and the labor intensity of operators is reduced. In specific use, can absorb the glass after putting things in good order through foretell sucking disc device, after absorbing through upset power unit carry out angle modulation to it, rethread elevating system is used for adjusting the hoisting height, treats to reach after the appointed height, adjusts transverse position through the power unit that slides, finally makes it place the cutting machine on, and then the convenience is cut it.

Furthermore, the bottom of the supporting leg of the frame 2 is fixedly provided with a supporting foot pad 1. The stability of the whole frame 2 support can be enhanced by the support foot pad 1.

Furthermore, the sliding power mechanism comprises a sliding motor 18 fixed on the side wall of the top rectangular frame 3, an output shaft of the sliding motor 18 is provided with a driving belt wheel 17, the driving belt wheel 17 is in meshing transmission with a driven belt wheel 10 through a belt 15, the driven belt wheel 10 is installed on the inner side wall of the top rectangular frame 3, the belt 15 is fixedly connected with the sliding plate 13 through a clamping plate 12, the bottom of the sliding plate 13 is communicated with a sliding block 14 to form sliding fit with a first sliding rail 16, and the cross beam 4 is fixedly installed at the top of the sliding plate 13. The transverse movement can be realized through the sliding power mechanism. In the working process, the driving belt wheel 17 can be driven by the sliding motor 18, the belt 15 is driven by the driving belt wheel 17, the sliding plate 13 is driven by the belt 15 and the sliding block 14 to slide along the first sliding rail 16, and the whole cross beam 4 is driven to transversely slide.

Further, the lifting mechanism comprises an angle plate 6 fixed in the middle of the top of the cross beam 4, a vertical slide rail 7 is slidably matched on the outer side wall of the angle plate 6 through a slide groove plate 35, the vertical slide rail 7 is fixed on the side wall of the lifting column 5, a rack 8 is fixed on the other side wall of the lifting column 5, the rack 8 and a gear 30 form gear-rack meshing transmission, the gear 30 is fixedly installed on an output shaft of the lifting motor 11, and the lifting motor 11 is fixedly installed on the side wall of the angle plate 6. The lifting mechanism can realize lifting action. In the working process, the gear 30 is driven by the lifting motor 11, the whole lifting column 5 is driven to lift along the sliding groove plate 35 through the transmission fit between the gear 30 and the rack 8, so that the lifting action is realized, and in the lifting process, the sliding fit is formed by the sliding groove plate 35 and the vertical sliding rail 7.

Further, upset power unit is including fixing at the last articulated otic placode 26 of bottom plate 19 bottom terminal surface, go up articulated otic placode 26 and articulate otic placode 21 through the round pin axle and link to each other down, articulated otic placode 21 fixed mounting is at the top of connecting plate 22 down, the bottom fixed mounting of bottom plate 19 has upset motor 20, initiative synchronous pulley 28 is installed to the output shaft of upset motor 20, initiative synchronous pulley 28 passes through synchronous belt 27 and driven synchronous pulley 29 meshing transmission, driven synchronous pulley 29 fixed mounting is on the round pin axle to drive whole connecting plate 22 and rotate around the round pin axle. The turnover power mechanism can realize turnover action, and further adjust the placing angle and position of the glass. In the specific working process, the turning motor 20 drives the driving synchronous pulley 28, the driving synchronous pulley 28 drives the synchronous belt 27, the synchronous belt 27 drives the driven synchronous pulley 29, the driven synchronous pulley 29 drives the pin shaft to rotate, and the pin shaft drives the connecting plate 22 to rotate.

Further, the sucking disc device is including fixing the sucking disc mounting bracket 23 in upset power unit's connecting plate 22 bottom, the bottom fixed mounting of sucking disc mounting bracket 23 has many sucking disc dead levers 24, the bottom fixed mounting of sucking disc dead lever 24 has a plurality of sucking discs 25. Can be used for absorbing glass through foretell sucking disc device, in the course of the work, contact through sucking disc 25 and glass, and then carry out vacuum adsorption to glass.

Further, a height stroke sensor is arranged on the lifting mechanism, the height stroke sensor comprises a first magnetic in-place sensor 31 fixed on the cross beam 4, and the first magnetic in-place sensor 31 is matched with a first induction magnet 32 arranged on the lifting column 5. The height stroke sensor can be used to control the elevation height of the elevating mechanism. In the lifting process, the lifting column 5 drives the first induction magnet 32, and then the first induction magnet 32 is matched with the first magnetic in-place sensor 31, so that the lifting can be automatically stopped after the first induction magnet reaches the set height.

Further, the overturning power mechanism further comprises an overturning angle control device, the overturning angle control device comprises a rotating plate 33 installed on the pin shaft, second induction magnets are respectively arranged at two ends of the rotating plate 33, and the second induction magnets are matched with a second magnetic in-place sensor 34 fixed on the side wall of the upper hinged ear plate 26. The turnover angle can be controlled through the turnover angle control device, so that the requirements of different cutting machines on the placement angle are met, in the specific use process, the rotating plate 33 is driven through the pin shaft, and the control of the rotation angle of the pin shaft is realized through the matching between the second induction magnet on the rotating plate 33 and the second magnetic in-place sensor 34.

The utility model discloses a use as follows:

firstly, stacking optical glass to be cut at the bottom of a rack, starting the lifting mechanism, driving the gear 30 through the lifting motor 11, driving the whole lifting column 5 to lift along the sliding chute plate 35 through the transmission fit between the gear 30 and the rack 8, and further realizing the lifting action, wherein in the lifting process, the sliding chute plate 35 and the vertical sliding rail 7 form sliding fit to further drive the sucker device to lift; after the height of the sliding beam rises to a specified height, a sliding power mechanism is started, a driving belt wheel 17 can be driven through a sliding motor 18, a belt 15 is driven through the driving belt wheel 17, the sliding plate 13 is driven to slide along a first sliding rail 16 through the belt 15 and a sliding block 14, and the whole beam 4 is driven to slide transversely; and then, the overturning power mechanism is started, the overturning motor 20 drives the driving synchronous belt pulley 28, the driving synchronous belt pulley 28 drives the synchronous belt 27, the synchronous belt 27 drives the driven synchronous belt pulley 29, the driven synchronous belt pulley 29 drives the pin shaft to rotate, the pin shaft drives the connecting plate 22 to rotate, and finally the sucker device is driven to rotate, so that the placing angle of the glass is changed.

Claims

1. Automatic cutting equipment's of optical glass loading attachment which characterized in that: it includes frame (2), the top fixed mounting of frame (2) has top rectangular frame (3), wherein two opposite side top fixed mounting of top rectangular frame (3) have first slide rail (16), there are crossbeam (4) through sliding fit on first slide rail (16), crossbeam (4) with be used for driving its gliding power unit that slides along first slide rail (16), install lift post (5) through the elevating system cooperation on crossbeam (4), the bottom fixed mounting of lift post (5) has bottom plate (19), the sucking disc device that is used for absorbing glass is installed through upset power unit in the bottom of bottom plate (19).

2. The feeding device of the automatic optical glass cutting equipment according to claim 1, wherein: the bottom of the supporting leg of the frame (2) is fixedly provided with a supporting foot pad (1).

3. The feeding device of the automatic optical glass cutting equipment according to claim 1, wherein: slip power unit is including fixing slip motor (18) on top rectangular frame (3) lateral wall, driving pulley (17) are installed to the output shaft of slip motor (18), driving pulley (17) pass through belt (15) and driven pulley (10) meshing transmission, driven pulley (10) are installed on the inside wall of top rectangular frame (3), belt (15) pass through splint (12) and slide board (13) fixed the linking to each other, slide block (14) and first slide rail (16) constitute sliding fit are led to the bottom of slide board (13), crossbeam (4) fixed mounting is at the top of slide board (13).

4. The feeding device of the automatic optical glass cutting equipment according to claim 1, wherein: elevating system is including fixing scute (6) at crossbeam (4) top middle part, there is vertical slide rail (7) through chute board (35) sliding fit on the lateral wall of scute (6), vertical slide rail (7) are fixed on the lateral wall of lift post (5), be fixed with rack (8) on another lateral wall of lift post (5), rack (8) constitute rack and pinion meshing transmission with gear (30), gear (30) fixed mounting is on the output shaft of elevator motor (11), elevator motor (11) fixed mounting is on the lateral wall of scute (6).

5. The feeding device of the automatic optical glass cutting equipment according to claim 1, wherein: upset power unit is including fixing last articulated otic placode (26) at bottom plate (19) bottom terminal surface, go up articulated otic placode (26) and articulate otic placode (21) articulated linking to each other down through the round pin axle, articulated otic placode (21) fixed mounting is at the top of connecting plate (22) down, the bottom fixed mounting of bottom plate (19) has upset motor (20), initiative synchronous pulley (28) are installed to the output shaft of upset motor (20), initiative synchronous pulley (28) are through hold-in range (27) and driven synchronous pulley (29) meshing transmission, driven synchronous pulley (29) fixed mounting is on the round pin axle to drive whole connecting plate (22) and rotate around the round pin axle.

6. The feeding device of the automatic optical glass cutting equipment according to claim 1, wherein: the sucking disc device is including fixing sucking disc mounting bracket (23) in upset power unit's connecting plate (22) bottom, the bottom fixed mounting of sucking disc mounting bracket (23) has many sucking disc dead levers (24), the bottom fixed mounting of sucking disc dead lever (24) has a plurality of sucking discs (25).

7. The feeding device of the automatic optical glass cutting equipment according to claim 4, wherein: the lifting mechanism is provided with a height stroke sensor, the height stroke sensor comprises a first magnetic in-place sensor (31) fixed on the cross beam (4), and the first magnetic in-place sensor (31) is matched with a first induction magnet (32) arranged on the lifting column (5).

8. The feeding device of the automatic optical glass cutting equipment according to claim 5, wherein: the overturning power mechanism further comprises an overturning angle control device, the overturning angle control device comprises a rotating plate (33) installed on the pin shaft, second induction magnets are arranged at two ends of the rotating plate (33) respectively, and the second induction magnets are matched with a second magnetic in-place sensor (34) fixed on the side wall of the upper hinged lug plate (26).