CN207890661U - Glass automatic turn-over device and glass production pipeline - Google Patents

Abstract

The utility model belongs to glass manufacturing apparatus technical field more particularly to a kind of glass automatic turn-over device and glass production pipeline.Glass automatic turn-over device includes rack, lifting gear, glass absorption and turnover device, glass absorption and turnover device includes upset motor, overturning crank, returning face plate and several overturning vacuum cups, lifting gear is in vertically to be installed in rack, the driving end of upset motor and lifting gear connects and the elevating movement under the driving of lifting gear, returning face plate is by overturning the output axis connection of crank and upset motor and making flip-flop movement under the driving of upset motor, and each overturning vacuum cup is mounted on returning face plate and arranged for interval is for absorption glass.The utility model can realize glass automation turn-over operation, be not necessarily to manual hand manipulation, not only can be with improving production efficiency；And it may also be ensured that avoiding breaking glass during the turn-over of glass, improve the turn-over reliability to glass.

Description

Glass automatic turn-over device and glass production pipeline

Technical field

The utility model belongs to glass manufacturing apparatus technical field more particularly to a kind of glass automatic turn-over device and glass Produce pipeline.

Background technology

Glass in deep processing, due in previous stage equipment glass air face or tin face processed with needed for rear stage equipment The positive and negative direction of glass on the contrary, need to be processed two face during glass post-processing, to upper surface After processing, its level is transported to overturning point by conveyer belt, in overturning point by manually being overturn 180 °, its lower surface is made to become Upper surface after overturning, then horizontal feed are processed the upper surface after it overturns to another processing stand.However, the prior art In for the turn-over operation of glass be mostly manual operation, it is artificial to overturn glass not only labor intensity is big, low production efficiency；And it is easy It breaks glass during overturning glass, causes glass to scrap, and then production cost is caused to greatly increase.

Utility model content

The purpose of this utility model is to provide a kind of glass automatic turn-over device and glass production pipelines, it is intended to solve In glass production process in the prior art for the turn-over of glass using manual operation labor intensity big, low production efficiency And the technical issues of fragile glass.

To achieve the above object, the technical solution adopted in the utility model is：A kind of glass automatic turn-over device, including machine Frame, lifting gear, glass absorption and turnover device, the glass absorption and turnover device include upset motor, overturning crank, returning face plate With several overturning vacuum cups, the lifting gear is in vertically to be installed in the rack, the upset motor and the lifting The driving end of device connects and the elevating movement under the driving of the lifting gear, the returning face plate by the overturning crank and The output axis connection of the upset motor and make flip-flop movement under the driving of the upset motor, each overturning vacuum cup It is mounted on the returning face plate and arranged for interval is for absorption glass.

Preferably, the glass absorption and turnover device further includes overturning reduction box, the overturning reduction box and the lifting The driving end of device connects, and the output axis connection of the input terminal and the upset motor of the overturning reduction box, the overturning Crank is connect with the output end of the overturning reduction box.

Preferably, the rack is equipped with vertical supporting rod, and the top of the vertical supporting rod is equipped with mounting base, the liter Falling unit is fixedly installed in the mounting base and the driving end of the lifting gear is arranged downward.

Preferably, the lifting gear includes lifting cylinder, and the cylinder body of the lifting cylinder is fixedly installed in the installation On seat, the piston rod of the lifting cylinder is fixedly connected with the overturning reduction box.

Preferably, the lifting gear further includes guide rail and sliding block, and the guide rail is described vertical in being vertically fixedly installed in The side of supporting rod, the sliding block are slidably matched with the guide rail, and the sliding block is fixedly connected with the overturning reduction box.

Preferably, the glass automatic turn-over device further includes belt conveyor, and the belt conveyor includes defeated The quantity of power transmission machine, drive pulley, driven pulley and belt conveyor, the driven pulley is two and in the rack The installation of length direction arranged for interval, the feeder motor is installed in the rack, the drive pulley and the conveying The output axis connection of motor, the belt conveyor be set around between the drive pulley and two driven pulleies and along The length direction of the rack is arranged conveys glass for carrying.

The beneficial effects of the utility model：The glass automatic turn-over device of the utility model, when work, by being mounted on machine Lifting gear driving on frame drives the upset motor that end connect to rise with it, up to passing through the defeated of overturning crank and upset motor The returning face plate for going out axis connection rises to the top for the glass for needing to carry out turn-over, and then lifting gear drives under upset motor again Drop then drives upset motor until several overturning vacuum cups being arranged on returning face plate are adsorbed on glass, upset motor Output shaft rotates and crank connected to it is driven to rotate, and crank handle turns returning face plate rotates certain angle, at this point, due to overturning Several overturning vacuum cups being arranged on plate have adsorbed glass, then returning face plate can drive glass turning when overturning, such as This realizes the automation turn-over to glass, entirely realizes and is automatically brought into operation to the turn-over process of glass, without manually Operation, not only can be with improving production efficiency；And it may also be ensured that avoiding breaking glass during the turn-over of glass, improve To the turn-over reliability of glass.

The utility model use another technical solution be：A kind of glass production pipeline comprising above-mentioned glass is certainly Dynamic turn-over rig.

Preferably, the glass production pipeline further includes lower sheet devices, and the lower sheet devices include bottom sheet motor, bottom sheet Crank, lower sheet and several bottom sheet vacuum cups, the bottom sheet motor are installed in the rack far from the upset motor One end, the lower sheet is by the output axis connection of the bottom sheet crank and the bottom sheet motor and in the drive of the bottom sheet motor Make flip-flop movement under dynamic, each bottom sheet vacuum cup is installed in the lower sheet and arranged for interval is turned over for adsorbing to pass through The glass in face.

Preferably, the lower sheet devices further include bottom sheet reduction box, input terminal and the bottom sheet of the bottom sheet reduction box The output axis connection of motor, the overturning crank are connect with the output end of the bottom sheet reduction box.

Preferably, the glass production pipeline further includes plug into frame and conveying device of plugging into, the conveying device of plugging into It is set up in the side of the rack including motor of plugging into, driving wheel of plugging into, plug into driven wheel and belt of plugging into, described plug into and leans on It is bordering on the upset motor, the quantity of the driven wheel of plugging into is two and pacifies in the length direction arranged for interval of the frame of plugging into Dress, the motor of plugging into be installed on it is described plug into frame, the output axis connection of the plug into driving wheel and the motor of plugging into, institute State belt of plugging into be set around it is described plug into driven wheel is plugged into described in driving wheel and two between and along the length side of the frame of plugging into To arrangement for carrying conveying glass for each overturning vacuum cup absorption.

The glass production pipeline of the utility model, due to the use of there is above-mentioned glass automatic turn-over device, then right It in the production process of glass, may be implemented to the automation turn-over to glass, i.e., entirely the turn-over process of glass realized certainly Dynamic operation, is not necessarily to manual hand manipulation, not only can be with improving production efficiency；And it may also be ensured that in the turn-over process to glass In avoid breaking glass, improve to the turn-over reliability of glass.

Description of the drawings

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this practicality is new Some embodiments of type for those of ordinary skill in the art without having to pay creative labor, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram one for the glass production pipeline that the utility model embodiment provides.

Fig. 2 is the structural schematic diagram two for the glass production pipeline that the utility model embodiment provides.

Fig. 3 is the structural schematic diagram three for the glass production pipeline that the utility model embodiment provides.

Fig. 4 is the structural schematic diagram four for the glass production pipeline that the utility model embodiment provides.

Fig. 5 is the lifting gear and glass absorption overturning dress for the glass automatic turn-over device that the utility model embodiment provides Set the structural schematic diagram of connection.

Wherein, each reference numeral in figure：

10-lifting gear 11-lifting cylinder, 12-guide rails

13-sliding block 20-glass, 21-upset motors of absorption and turnover device

22-overturning crank 23-returning face plate, 24-overturning vacuum cups

25-overturning reduction box 30-belt conveyor, 31-feeder motors

32-drive pulley 33-driven pulley, 34-belt conveyors

40-lower 41-bottom sheet of sheet devices motor, 42-bottom sheet cranks

43-lower 44-bottom sheet of sheet vacuum cup, 45-bottom sheet reduction boxes

50-plug into conveying device 51-motor 52 of plugging into-driving wheel of plugging into

53-driven wheels 54-of plugging into are plugged into 100-rack of belt

101-vertical supporting rod 102-mounting base, 200-framves of plugging into

300-glass.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining the description of attached drawing 1~5 is exemplary, it is intended to for explaining the utility model, and should not be understood as to this practicality Novel limitation.

In the description of the present invention, it should be understood that term " length ", " width ", "upper", "lower", " preceding ", The orientation or positional relationship of the instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached Orientation or positional relationship shown in figure, is merely for convenience of describing the present invention and simplifying the description, rather than indicates or imply Signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as to this The limitation of utility model.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；Can be Mechanical connection can also be electrical connection；It can be directly connected, can also can be indirectly connected through an intermediary two The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

As shown in Fig. 1~5, a kind of glass automatic turn-over device that the utility model embodiment provides, including rack 100, Lifting gear 10, glass absorption and turnover device 20, the glass absorption and turnover device 20 include upset motor 21, overturning crank 22, returning face plate 23 and several overturning vacuum cups 24, the lifting gear 10 is in vertically to be installed in the rack 100, described Upset motor 21 is connect with the driving end of the lifting gear 10 and the elevating movement under the driving of the lifting gear 10, described Returning face plate 23 is by the output axis connection of the overturning crank 22 and the upset motor 21 and in the drive of the upset motor 21 Make flip-flop movement under dynamic, each overturning vacuum cup 24 is mounted on the returning face plate 23 and arranged for interval is for absorption Glass 300.

Specifically, the glass automatic turn-over device of the utility model embodiment, when work, by being mounted in rack 100 The driving of lifting gear 10 drive the upset motor 21 that end connect to rise with it, until passing through overturning crank 22 and upset motor 21 Output axis connection returning face plate 23 rise to need carry out turn-over glass 300 top, then lifting gear 10 drive again Dynamic upset motor 21 declines, until several overturning vacuum cups 24 being arranged on returning face plate 23 are adsorbed on glass 300, then drives Dynamic upset motor 21, the output shaft of upset motor 21 rotate and crank connected to it are driven to rotate, crank handle turns returning face plate 23 Certain angle is rotated, at this point, since several overturning vacuum cups 24 being arranged on returning face plate 23 have adsorbed glass 300, Glass 300 can be driven to overturn when so returning face plate 23 is overturn, so realize the automation turn-over to glass 300, entirely The turn-over process of glass 300 is realized and is automatically brought into operation, manual hand manipulation is not necessarily to, it not only can be with improving production efficiency；And It may also be ensured that avoiding breaking glass 300 during the turn-over of glass 300, the turn-over reliability to glass 300 is improved.

In the present embodiment, as shown in Fig. 1~5, the glass absorption and turnover device 20 further includes overturning reduction box 25, described Overturning reduction box 25 is connect with the driving end of the lifting gear 10, and the input terminal of the overturning reduction box 25 and the overturning The output axis connection of motor 21, the overturning crank 22 are connect with the output end of the overturning reduction box 25.Specifically, overturning subtracts The setting of fast case 25 can slow down to the rotating speed of the output shaft of upset motor 21, avoid the output shaft because of upset motor 21 Rotating speed it is too fast and because the glass 300 that centrifugal force leads to be adsorbed on overturning vacuum cup 24 is thrown away.That is, by turning over The setting for turning reduction box 25 may insure will to be speed appropriate to the reversal rate reduction of speed of glass 300, with ensure can to stabilization Turn-over is carried out by ground glass 300.

In the present embodiment, as shown in figures 1-4, the rack 100 is equipped with vertical supporting rod 101, the vertical supporting rod 101 top is equipped with mounting base 102, and the lifting gear 10 is fixedly installed in the mounting base 102 and the lifting gear 10 driving end is arranged downward.Specifically, the setting of vertical supporting rod 101 is installed mainly for mounting base 102, may be implemented in this way Mounting base 102 is mounted on higher position, in higher when so as to ensure that lifting gear 10 is mounted in mounting base 102 Position, then lifting gear 10, which can be driven upset motor 21, rises to higher position, so that returning face plate 23 can be with Higher position is risen to, then the glass that several overturning vacuum cups 24 being arranged on returning face plate 23 can will be disposed below Glass 300 adsorbs, so as in next step to 300 progress of glass in terms of work.

In the present embodiment, as shown in Fig. 1~5, the lifting gear 10 includes lifting cylinder 11, the lifting cylinder 11 Cylinder body is fixedly installed in the mounting base 102, and the piston rod of the lifting cylinder 11 is fixed with the overturning reduction box 25 to be connected It connects.Specifically, lifting cylinder 11 is simple in structure, and controls speed, then may be implemented quickly to drive by lifting cylinder 11 Dynamic control is connected thereto overturning 25 oscilaltion of reduction box, i.e., is realized in a manner of overturning 25 oscilaltion of reduction box by driving 21 oscilaltion of upset motor is driven, and then realizes that the subsequent turn-over to glass 300 works.

In the present embodiment, as shown in Fig. 1~5, the lifting gear 10 further includes guide rail 12 and sliding block 13, the guide rail 12 In the side for being vertically fixedly installed in the vertical supporting rod 101, the sliding block 13 is slidably matched with the guide rail 12, and described Sliding block 13 is fixedly connected with the overturning reduction box 25.Specifically, the setting of guide rail 12 and sliding block 13 primarily serves guiding overturning The oscilaltion of reduction box 25, since it is considered that overturning 25 total quality of reduction box is slightly larger, then in order to ensure overturning reduction box 25 do not deviate during oscilaltion, so by the way that sliding block 13 to be fixedly connected with overturning reduction box 25, and simultaneously Sliding block 13 and guide rail 12 are slidably matched, and since guide rail 12 is integrally fixed at the side of vertical supporting bar, then sliding block 13 begins It is sliding up and down along 12 vertical direction of guide rail eventually, and then ensures to overturn reduction box 25 always along the vertical of vertical supporting bar Direction oscilaltion, it is reasonable in design, it is highly practical.

In the present embodiment, as shown in figures 1-4, the glass automatic turn-over device further includes belt conveyor 30, described Belt conveyor 30 includes feeder motor 31, drive pulley 32, driven pulley 33 and belt conveyor 34, the driven skin The quantity of belt wheel 33 is two and is installed in the length direction arranged for interval of the rack 100 that the feeder motor 31 is installed on In the rack 100, the output axis connection of the drive pulley 32 and the feeder motor 31,34 winding of the belt conveyor Between the drive pulley 32 and two driven pulleies 33 and along the length direction of the rack 100 arrange with Glass 300 is conveyed in carrying.Specifically, the effect of belt conveyor 30 is conveyed to the glass 300 for completing turn-over, is gone Vacateing position ensures that glass absorption and turnover device 20 can carry out turn-over work to next sheet glass 300.Belt conveyor 30 When work, the output shaft of feeder motor 31 drives drive pulley 32 to rotate, since belt conveyor 34 is around being located at drive pulley 32 and driven pulley 33 of two arranged for interval in rack 100, then control belt conveyor 34 can be realized around active skin Belt wheel 32 and two driven pulleies 33 rotate, and since belt conveyor 34 is along the length direction arrangement of rack 100, so work as When the glass 300 for the completion turn-over that overturning vacuum cup 24 adsorbs is placed on belt conveyor 34, by belt conveyor 34 to glass Glass 300 carry and conveyed along rotation direction, and then realizes the glass 300 for completing turn-over being delivered to specified position, Such as next 300 processing stations of glass.

As shown in Fig. 1~5, the utility model embodiment also provides a kind of glass production pipeline comprising above-mentioned glass Glass automatic turn-over device.Specifically, the glass production pipeline of the utility model embodiment, due to the use of having above-mentioned glass certainly To the automation turn-over to glass 300, i.e., entirely dynamic turn-over rig may be implemented then in the production process to glass 300 The turn-over process of glass 300 is realized and is automatically brought into operation, manual hand manipulation is not necessarily to, it not only can be with improving production efficiency；And It may also be ensured that avoiding breaking glass 300 during the turn-over of glass 300, the turn-over reliability to glass 300 is improved.

In the present embodiment, as shown in figures 1-4, the glass production pipeline further includes lower sheet devices 40, on chip under described It includes bottom sheet motor 41, bottom sheet crank 42, lower sheet 43 and several bottom sheet vacuum cups 44 to set 40, and the bottom sheet motor 41 is installed In one end far from the upset motor 21 in the rack 100, the lower sheet 43 by the bottom sheet crank 42 with it is described The output axis connection of bottom sheet motor 41 and make flip-flop movement under the driving of the bottom sheet motor 41, each bottom sheet vacuum cup 44 are installed in the lower sheet 43 simultaneously glass 300 of the arranged for interval for absorption by turn-over.Specifically, lower sheet devices 40 Effect be in terms of completion glass 300 carry out blanking.When lower sheet devices 40 work, the output shaft rotation of bottom sheet motor 41, It is rotated with the bottom sheet crank 42 of the output axis connection of bottom sheet motor 41 to drive, and then lower sheet is driven by bottom sheet crank 42 43 overturnings, until the bottom sheet vacuum cup 44 that is arranged adsorbs and completes the glass 300 of turn-over operation to specified in lower sheet 43 The bottom sheet to glass 300 is so realized in position.

In the present embodiment, as shown in figures 1-4, the lower sheet devices 40 further include bottom sheet reduction box 45, and the bottom sheet is slowed down The output axis connection of the input terminal of case 45 and the bottom sheet motor 41, the overturning crank 22 are defeated with the bottom sheet reduction box 45 Outlet connects.Specifically, the setting of bottom sheet reduction box 45 can slow down to the rotating speed of the output shaft of bottom sheet motor 41, avoid Lead to the glass being adsorbed on bottom sheet vacuum cup 44 because of centrifugal force because the rotating speed of the output shaft of bottom sheet motor 41 is too fast 300 throw away.That is, may insure will to be suitable to the bottom sheet speed reduction of speed of glass 300 by the setting of bottom sheet reduction box 45 When speed, with ensure to reliablely and stablely glass 300 carry out bottom sheet.

In the present embodiment, as shown in figures 1-4, the glass production pipeline further includes plug into frame 200 and conveying dress of plugging into Set 50, the conveying device 50 of plugging into include plug into motor 51, driving wheel 52 of plugging into, plug into driven wheel 53 and belt 54 of plugging into, The frame 200 of plugging into is set on the side of the rack 100 and close to the upset motor 21, the number of the driven wheel 53 of plugging into Amount is installed for two and in the length direction arranged for interval of the frame 200 of plugging into, and the motor 51 of plugging into is installed on described plug into In frame 200, the output axis connection of the plug into driving wheel 52 and the motor 51 of plugging into, the belt 54 of plugging into is set around described It plugs between plugging into driven wheel 53 described in driving wheel 52 and two and is arranged along the length direction of the frame 200 of plugging into for holding Conveying glass 300 is carried to adsorb for each overturning vacuum cup 24.Specifically, the effect of conveying device of plugging into 50 is glass of plugging into Glass 300 on other stations is delivered to progress turn-over operation on glass automatic turn-over device by automatic turn-over device.It plugs into When conveying device 50 works, the output shaft drive of motor 51 of plugging into is plugged into the rotation of driving wheel 52, since belt 54 of plugging into is around being located at Driving wheel 52 and two arranged for interval plug into the driven wheel 53 of plugging on frame 200 of plugging into, plugs into skin then control can be realized Band 54 around plugging into driving wheel 52 and two driven wheels 53 of plugging into rotate, and due to plug into belt 54 along frame 200 of plugging into length Direction arrange, and frame 200 of plugging into have be proximate to rack 100 setting, glass 300 can be conveyed by belt 54 of plugging into this way To the lower section of overturning vacuum cup 24, and then overturning vacuum cup 24 can be allowed to be adsorbed to glass 300 to carry out in next step 300 turn-over of glass work.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.

Claims (10)

1. a kind of glass automatic turn-over device, it is characterised in that：It is described including rack, lifting gear, glass absorption and turnover device Glass absorption and turnover device includes that upset motor, overturning crank, returning face plate and several overturning vacuum cups, the lifting gear are in It is vertically installed in the rack, the upset motor is connect and with the driving end of the lifting gear in the lifting gear The lower elevating movement of driving, the returning face plate are turned over by the output axis connection for overturning crank and the upset motor and described Make flip-flop movement under the driving of rotating motor, each overturning vacuum cup be mounted on the returning face plate and arranged for interval with In absorption glass.

2. glass automatic turn-over device according to claim 1, it is characterised in that：The glass absorption and turnover device also wraps Overturning reduction box is included, the overturning reduction box is connect with the driving end of the lifting gear, and the input of the overturning reduction box The output axis connection at end and the upset motor, the overturning crank are connect with the output end of the overturning reduction box.

3. glass automatic turn-over device according to claim 2, it is characterised in that：The rack is equipped with vertical support The top of bar, the vertical supporting rod is equipped with mounting base, and the lifting gear is fixedly installed in the mounting base and the liter The driving end of falling unit is arranged downward.

4. glass automatic turn-over device according to claim 3, it is characterised in that：The lifting gear includes lifting air The cylinder body of cylinder, the lifting cylinder is fixedly installed in the mounting base, and the piston rod of the lifting cylinder subtracts with the overturning Fast case is fixedly connected.

5. glass automatic turn-over device according to claim 4, it is characterised in that：The lifting gear further include guide rail and Sliding block, the guide rail are in the side for being vertically fixedly installed in the vertical supporting rod, and the sliding block is slidably matched with the guide rail, And the sliding block is fixedly connected with the overturning reduction box.

6. according to Claims 1 to 4 any one of them glass automatic turn-over device, it is characterised in that：The glass automatic turning Face device further includes belt conveyor, the belt conveyor include feeder motor, drive pulley, driven pulley and The quantity of belt conveyor, the driven pulley is two and is installed in the length direction arranged for interval of the rack, described defeated Power transmission machine is installed in the rack, the output axis connection of the drive pulley and the feeder motor, the belt conveyor Be set around between the drive pulley and two driven pulleies and along the length direction of the rack arrange for Carrying conveying glass.

7. a kind of glass production pipeline, it is characterised in that：Including claim 1~6 any one of them glass automatic turnover Device.

8. glass production pipeline according to claim 7, it is characterised in that：Under the glass production pipeline further includes Sheet devices, the lower sheet devices include bottom sheet motor, bottom sheet crank, lower sheet and several bottom sheet vacuum cups, the bottom sheet electricity Machine is installed on one end far from the upset motor, the lower sheet in the rack and passes through the bottom sheet crank and the bottom sheet The output axis connection of motor and make flip-flop movement under the driving of the bottom sheet motor, each bottom sheet vacuum cup is installed on institute It states in lower sheet and arranged for interval passes through the glass of turn-over for absorption.

9. glass production pipeline according to claim 8, it is characterised in that：The lower sheet devices further include that bottom sheet is slowed down Case, the output axis connection of the input terminal of the bottom sheet reduction box and the bottom sheet motor, the overturning crank subtract with the bottom sheet The output end of fast case connects.

10. according to claim 7~9 any one of them glass production pipeline, it is characterised in that：The glass production conveying Line further includes plugging into frame and to plug into conveying device, the conveying device of plugging into include plug into motor, driving wheel of plugging into, plug into it is driven Take turns and plug into belt, described plug into is set up in the side of the rack and close to the upset motor, the driven wheel of plugging into Quantity be two and installed in the length direction arranged for interval of the frame of plugging into that the motor of plugging into is installed on the frame of plugging into Interior, the output axis connection of the plug into driving wheel and the motor of plugging into, the belt of plugging into is set around the driving wheel of plugging into It arranges between driven wheel of plugging into described in two and along the length direction of the frame of plugging into and supplies each institute for carrying conveying glass State overturning vacuum cup absorption.