CN208882948U - A kind of glass charging/discharging device - Google Patents

Abstract

The utility model discloses a kind of glass charging/discharging device, including feeding line and stockline, the first preset quantity are greater than the second preset quantity, storing sucker are provided therebetween out；With feeding line and out stockline cooperation be respectively arranged with can first reclaimer robot and second reclaimer robot mobile with front-rear direction along the vertical direction, the first reclaimer robot has feeds sucker with glass each on feeding line respectively correspondingly；Second reclaimer robot has the discharging sucker with one-to-one second preset quantity of glass each on stockline out respectively；Storing sucker has multiple adsorption potentials of no less than the first preset quantity, and storing sucker can move left and right.The glass charging/discharging device can be automatically performed the glass input and output material conversion that upstream discharging is greater than fed downstream during glass continuous productive process, improve the degree of automation, and reliable and stable, high-efficient, at low cost.

Description

A kind of glass charging/discharging device

Technical field

The utility model relates to glass circulation technical fields, more specifically to a kind of glass charging/discharging device.

Background technique

In mobile phone glass industry, when technique circulation process is made in glass, glass is after upstream equipment completes process operation, just It is flowed into upstream device.In automation industry, typically entire roboticized work.However the amount of glass of upstream equipment discharging The charging quantity required with upstream device often will appear inconsistent situation, if upstream equipment requirement feeds 5 sheet glass side by side, out Expect 5 sheet glass.And the upstream device requirement being mated with feeds 4 sheet glass side by side, discharge 4 sheet glass.In automated job Become very big difficult point.

It is greater than the corresponding charging of upstream device in conclusion how to efficiently solve glass in upstream equipment discharging and is difficult to simultaneous The problems such as appearance is current those skilled in the art's problem to be solved.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of glass charging/discharging device, the glass charging/discharging device Structure design can efficiently solve glass and be greater than the corresponding charging of upstream device in upstream equipment discharging and be difficult to compatible ask Topic.

In order to achieve the above object, the utility model provides the following technical solutions:

A kind of glass charging/discharging device, including for by the feeding line of the glass of the first preset quantity inflow and being used for the The glass outflow of two preset quantities goes out stockline, and first preset quantity is greater than second preset quantity, the feeding line Storing sucker is provided between the stockline out；

It can be mobile with front-rear direction along the vertical direction with the feeding line and being respectively arranged with for the cooperation of stockline out The first reclaimer robot and the second reclaimer robot, first reclaimer robot have respectively with each glass on the feeding line Glass feeds sucker correspondingly；Second reclaimer robot has one-to-one with each glass on the stockline out respectively The discharging sucker of second preset quantity；

The storing sucker has multiple adsorption potentials of no less than first preset quantity, and the storing sucker can It moves left and right.

Preferably, in above-mentioned glass charging/discharging device, first reclaimer robot and second reclaimer robot are equal The Y-axis guide rail being arranged including the X-axis guide rail that is arranged along the longitudinal direction and along the vertical direction, the Y-axis guide rail can drive in X-axis X-axis guide rail described in the drive lower edge of component is mobile, and the slider connecting plate that is provided with Y axis rail cooperation, the sliding block connects Fishplate bar can the Y-axis guide rail described in the drive lower edge of Y-axis driving part it is mobile, the sliding block of first reclaimer robot connects It is fixed with the charging sucker of the first preset quantity on fishplate bar, consolidates on the slider connecting plate of second reclaimer robot Surely there is the discharging sucker of the second preset quantity.

Preferably, in above-mentioned glass charging/discharging device, the X-axis driving part includes X-axis servo motor, and the X-axis is watched Take motor driven X-axis synchronizing wheel drive X-axis synchronous belt movement, the Y-axis guide rail be fixedly connected with the X-axis synchronous belt with The X-axis synchronous belt synchronizing moving.

Preferably, in above-mentioned glass charging/discharging device, the Y-axis driving part includes Y-axis servo motor, and the Y-axis is watched The rotation of motor driven lead screw is taken, the slider connecting plate and the lead screw cooperate, to lead in lead screw rotation along the Y-axis Rail is mobile.

Preferably, in above-mentioned glass charging/discharging device, the feeding line and it is described go out stockline include be set side by side it is more Roller shaft is arranged, multiple idler wheels are installed, one end of each roller shaft is connected separately with helical gear, described oblique on the roller shaft Gear can rotate under the drive of feeding driving part.

Preferably, in above-mentioned glass charging/discharging device, the storing sucker includes the linear guide being arranged in left-right direction With the vacuum platform with the adsorption potential, the vacuum platform can the straight line described in the drive lower edge of storing driving part lead Rail is mobile.

Preferably, in above-mentioned glass charging/discharging device, the storing driving part includes storing servo motor, the storing Servo motor drives storing synchronizing wheel to drive the movement of storing synchronous belt, and the vacuum platform is fixedly connected with the storing synchronous belt With the storing synchronous belt synchronizing moving.

Preferably, in above-mentioned glass charging/discharging device, second preset quantity adds one to be equal to first preset quantity, The number of the adsorption potential is the integral multiple of second preset quantity.

Glass charging/discharging device provided by the utility model includes feeding line, goes out stockline, storing sucker, the first feeding machinery Hand and the second reclaimer robot.Wherein, feeding line is used to flow into the glass of the first preset quantity, and stockline is used for pre- by second out If the glass of quantity flows out, the first preset quantity is greater than the second preset quantity.Storing sucker be set to feeding line and stockline out it Between, multiple adsorption potentials with no less than the first preset quantity, and storing sucker can move left and right.First reclaimer robot and Stockline cooperates second reclaimer robot with feeding line and out respectively, and can be mobile with front-rear direction along the vertical direction, and first Reclaimer robot has feeds sucker with glass each on feeding line respectively correspondingly；Second reclaimer robot have respectively with Out on stockline each one-to-one second preset quantity of glass discharging sucker.

Using glass charging/discharging device provided by the utility model, storing sucker is acted to the suction for keeping right end vacant first Attached position is corresponding with the glass of feeding line right end；Then the first reclaimer robot is mobile, makes to feed each glass on sucker and feeding line Glass is opposite one by one, and each glass is transferred on the corresponding adsorption potential of storing sucker；Then storing sucker moves right, so that inhaling The adsorption potential of left end with glass is corresponding with the glass position of the left end of stockline out；Then the second reclaimer robot moves It is dynamic, each glass corresponding with discharging sucker is transferred to out on stockline.It, can during glass continuous productive process by the device It is automatically performed the glass input and output material conversion that upstream discharging is greater than fed downstream, improves the degree of automation, and reliable and stable, efficiency Height, it is at low cost, it is easy to maintain.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the three dimensional structure diagram of the glass charging/discharging device of one specific embodiment of the utility model；

Fig. 2 is the front view of Fig. 1；

Fig. 3 is the top view of Fig. 1；

Fig. 4 is the three dimensional structure diagram of the first reclaimer robot；

Fig. 5 is the three dimensional structure diagram of the second reclaimer robot；

Fig. 6 three dimensional structure diagram of stockline for feeding line and out；

Fig. 7 is the three dimensional structure diagram of storing sucker.

It is marked in attached drawing as follows:

First reclaimer robot 1, the second reclaimer robot 2, storing sucker 3, feeding line 4, out stockline 5, glass 6；

X-axis guide rail 11, Y-axis guide rail 12, slider connecting plate 13 feed sucker 14, and discharge sucker 15, X-axis servo motor 16, X-axis synchronizing wheel 17, X-axis synchronous belt 18, Y-axis servo motor 19, lead screw 20；

Linear guide 31, vacuum platform 32, adsorption potential 33, storing servo motor 34, storing synchronizing wheel 35, storing are synchronous Band 36；

Idler wheel 41, helical gear 42, helical gear shaft 43, stepper motor 44, sensor 45.

Specific embodiment

The utility model embodiment discloses a kind of glass charging/discharging device, to reach glass continuous productive process in the process for glass The function that the glass quantity amount of progress subtracts.

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-Fig. 7 is please referred to, Fig. 1 is the three-dimensional structure of the glass charging/discharging device of one specific embodiment of the utility model Schematic diagram；Fig. 2 is the front view of Fig. 1；Fig. 3 is the top view of Fig. 1；Fig. 4 is the three dimensional structure diagram of the first reclaimer robot； Fig. 5-figure is respectively the second reclaimer robot, feeding line and the three dimensional structure diagram of stockline, storing sucker out.

In a specific embodiment, glass charging/discharging device provided by the utility model includes feeding line 4, goes out stockline 5, storing sucker 3, the first reclaimer robot 1 and the second reclaimer robot 2.

Wherein, feeding line 4 is for flowing into the glass 6 of the first preset quantity, and stockline 5 is used for the second preset quantity out Glass 6 flows out, and the first preset quantity is greater than the second preset quantity.Namely feeding line 4 and stockline 5 out are conveying glass 6 Conveying equipment, specific structure can refer to 6 transmission device of glass conventional in the prior art, be not especially limited herein.First Preset quantity be greater than the second preset quantity, that is, in the glass charging/discharging device glass 6 be mostly into less go out, with realize by It is corresponding after 6 quantity of the glass decrement of upstream equipment discharging to be delivered to upstream device charging.

Stockline 5 cooperates with feeding line 4 and out respectively for first reclaimer robot 1 and the second reclaimer robot 2, and being capable of edge Vertical direction and front-rear direction are mobile, the first reclaimer robot 1 have respectively with glass 6 each on feeding line 4 correspondingly into Expect sucker 14；Second reclaimer robot 2 have respectively with one-to-one second preset quantity of glass 6 each on stockline 5 out go out Expect sucker 15.The structure of first reclaimer robot 1 and the second reclaimer robot 2 can be not especially limited, can be divided It is not mobile with front-rear direction along the vertical direction.

There is on feeding line 4 the charging sucker 14 correspondingly of each glass 6 on first reclaimer robot 1, that is, respectively into It is extremely corresponding with each glass 6 on feeding line 4 to expect that sucker 14 can be moved forward and backward with the first reclaimer robot 1, then each charging is inhaled Disk 14 picks up each charging sucker 14 by each glass 6 on feeding line 4 respectively with 1 vertical shift of the first reclaimer robot, then Each charging sucker 14 is moved forward and backward with the first reclaimer robot 1 to storing sucker 3, and 1 vertical shift of the first reclaimer robot makes Glass 6 on each charging sucker 14 is placed in correspondingly on each adsorption potential 33 of storing sucker 3.

Have on second reclaimer robot 2 with the discharging sucker 15 correspondingly of glass each on stockline 5 out 6, that is, respectively The sucker 15 that discharges can be moved forward and backward with the second reclaimer robot 2 to storing sucker 3, and the sucker 15 that then discharges is with the second feeding 2 vertical shift of manipulator is to pick up the glass 6 with 3 corresponding position of storing sucker and quantity, and the sucker 15 that then respectively discharges is with second The back-and-forth motion of reclaimer robot 2 is extremely corresponding with each glass 6 on stockline 5 out, and discharging sucker 15 is perpendicular with the second reclaimer robot 2 Translation is dynamic each glass 6 to be placed in out on stockline 5 correspondingly.

Storing sucker 3 is set between feeding line 4 and out stockline 5, multiple absorption with no less than the first preset quantity Position 33, and storing sucker 3 can move left and right.Namely 33 quantity of adsorption potential of storing sucker 3 is greater than the first preset quantity, After the glass 6 of the first preset quantity is placed in storing sucker 3, storing sucker 3 is moved left and right, by corresponding first present count It measures to be moved to the adsorption potential 33 of the difference number of the second preset quantity and be staggered with discharging sucker 15, glass 6 is stored.Each absorption Position 33 is evenly distributed, and corresponding with the position of charging sucker 14 and the sucker 15 that discharges, and glass 6 is inhaled in feeding line 4, storing Transhipment between disk 3 and out stockline 5.

It should be noted that left and right and front-rear direction here and below refers both to opposite both direction, do not limit Absolute orientation.The adsorption potential 33 of charging sucker 14, discharging sucker 15 and storing sucker 3 is preferably all made of vacuum suction.

Using glass charging/discharging device provided by the utility model, keep right end vacant the movement of storing sucker 3 first Adsorption potential 33 is corresponding with the glass 6 of 4 right end of feeding line；Then the first reclaimer robot 1 is mobile, makes to feed sucker 14 and charging Each glass 6 is opposite one by one on line 4, and each glass 6 is transferred on the corresponding adsorption potential 33 of storing sucker 3；Then storing sucker 3 It moves right, so that the adsorption potential 33 for being adsorbed with the left end of glass 6 is corresponding with 6 position of glass of the left end of stockline 5 out；And The second reclaimer robot 2 is mobile afterwards, and each glass 6 corresponding with discharging sucker 15 is transferred to out on stockline 5.By the device, It can be automatically performed 6 input and output material of the glass conversion that upstream discharging is greater than fed downstream during 6 continuous productive process of glass, improve The degree of automation, and it is reliable and stable, it is high-efficient, it is at low cost, it is easy to maintain.

Specifically, the first reclaimer robot 1 and the second reclaimer robot 2 include the X-axis guide rail being arranged along the longitudinal direction 11 and the Y-axis guide rail 12 that is arranged along the vertical direction, Y-axis guide rail 12 can be under the drive of X-axis driving part before X-axis guide rail 11 After move, with Y-axis guide rail 12 cooperate be provided with slider connecting plate 13, slider connecting plate 13 can be in the band of Y-axis driving part Along 12 vertical shift of Y-axis guide rail under dynamic.The position of first reclaimer robot 1 is corresponding with feeding line 4, makes to feed sucker 14 and charging Each glass 6 on line 4 corresponds, and being located at for the second reclaimer robot 2 is corresponding with stockline 5 out, makes discharge sucker 15 and discharging The seat of each glass 6 corresponds on line 5.Preferably, the first reclaimer robot 1 is set to the right side of feeding line 4, and second takes The left side that material manipulator 2 is set to out stockline 5 facilitates layout to avoid movement interference.

The charging sucker 14 of the first preset quantity is fixed on the slider connecting plate 13 of first reclaimer robot 1, second takes Expect the discharging sucker 15 that the second preset quantity is fixed on the slider connecting plate 13 of manipulator 2.Slider connecting plate 13 specifically can be with Including the sliding block cooperated with Y-axis guide rail 12 and the supporting element being fixedly connected with a slide block, each sucker 14 and discharging sucker 15 of feeding divides It is not fixedly installed on corresponding supporting element.Certainly, supporting element should extend in left-right direction, and each sucker 14 that feeds is in the first feeding The position arrangement of each glass 6 on feeding line 4 is corresponded on the supporting element of manipulator 1, each sucker 15 that discharges is in the second reclaimer robot 2 Supporting element on it is corresponding go out stockline 5 on each glass 6 position arrangement.The first feeding is realized by X-axis guide rail 11 and Y-axis guide rail 12 The front and back and vertical direction of manipulator 1 and the second reclaimer robot 2 are mobile, simple and reliable for structure.

Further, X-axis driving part includes X-axis servo motor 16, and X-axis servo motor 16 drives 17 band of X axis synchronizing wheel Dynamic X-axis synchronous belt 18 moves, and Y-axis guide rail 12 is fixedly connected with 18 synchronizing moving of X-axis synchronous belt with X-axis synchronous belt 18.Also It is that X-axis servo motor 16 is moved forward and backward by the transmission drive Y-axis guide rail 12 of synchronous belt and synchronizing wheel along X-axis guide rail 11, closed loop Control, it is precisely reliable.

Further, Y-axis driving part includes Y-axis servo motor 19, and Y-axis servo motor 19 drives lead screw 20 to rotate, Slider connecting plate 13 and lead screw 20 cooperate, to move when lead screw 20 is rotated along Y-axis guide rail 12.Namely Y-axis servo motor 19 By 20 transmission belt movable slider connecting plate 13 of lead screw along 12 vertical shift of Y-axis guide rail, servo motor carries out closed-loop control, precisely Reliably.Lead screw 20 can specifically use ball-screw 20.

Specifically, feeding line 4 includes the multiple rows of roller shaft being set side by side with stockline 5 out, it is equipped on roller shaft multiple Idler wheel 41, one end of each roller bearing are connected separately with helical gear 42, and each helical gear 42 can turn under the drive of feeding driving part It is dynamic.The namely driving part bevel gear set that drives each helical gear 42 to form, bevel gear set respectively roll power transmission to every On wheel shaft, and then idler wheel 41 is driven to roll, glass 6 is flowed in and out.

Preferably, driving part uses stepper motor 44, i.e. stepper motor 44 is used as power source, engages with each helical gear 42 Be provided with helical gear shaft 43, stepper motor 44 is driven in and out material synchronizing wheel synchronous belt to drive helical gear shaft 43 to rotate, in turn Helical gear 42 is driven to rotate.For the ease of detecting position and the disengaging state of glass 6, it is respectively set on feeding line 4 and stockline 5 out There is sensor 45, to detect position and the disengaging state of glass 6.

In the above embodiments, storing sucker 3 includes the linear guide 31 that is arranged in left-right direction and has an adsorption potential 33 vacuum platform 32, vacuum platform 32 can move under the drive of storing driving part along linear guide 31.It is namely true There is the adsorption potential 33 greater than the first preset quantity, driving part drives vacuum platform 32 left along linear guide 31 on hollow panel 32 It moves right, the glass 6 by supplied materials more than discharging is kept in.

Further, storing driving part includes storing servo motor 34, and storing servo motor 34 drives storing synchronizing wheel 35 drive storing synchronous belt 36 to move, and vacuum platform 32 is fixedly connected with storing synchronous belt 36 to move with storing synchronous belt 36 is synchronous It is dynamic.Vacuum platform 32 is driven to move along a straight line by discharging servo motor, closed-loop control is precisely reliable.It should be noted that above-mentioned Each driving equipment servo motor or stepper motor 44 has been respectively adopted and be driven by synchronous belt synchronizing wheel or lead screw 20 be driven, control Precision height processed.As needed, the movement of each component, such as ordinary motor can also be driven using other driving equipments, or are stretched Cylinder etc..It can also be driven by chain.

On the basis of the various embodiments described above, the second preset quantity adds one to be equal to the first preset quantity, of adsorption potential 33 Number is the integral multiple of the second preset quantity.Namely the first preset quantity is bigger than the second preset quantity by one, on this basis, will store up The number of material 3 adsorption potential 33 of sucker is set as the integral multiple of the second preset quantity, then when working, storing movement first makes right end Vacant adsorption potential 33 is corresponding with the glass 6 of 4 right end of feeding line；Then the first reclaimer robot 1 is mobile, makes to feed sucker 14 It is opposite one by one with glass 6 each on feeding line 4, and each glass 6 is transferred on the corresponding adsorption potential 33 of storing sucker 3；Subsequently Storing sucker 3 moves right, so that being adsorbed with 6, glass of the adsorption potential 33 of the left end of glass 6 and the left end of stockline 5 out Set correspondence；Then the second reclaimer robot 2 is mobile, and each glass 6 corresponding with discharging sucker 15 is transferred to out on stockline 5；And After repeat the above steps, until when the adsorption potential 33 of second preset quantity from right to left is adsorbed with glass 6 on storing sucker 3, storing Sucker 3 moves to left, so that the adsorption potential 33 for being adsorbed with the right end of glass 6 is corresponding with 6 position of glass of the right end of stockline 5 out； Then the second reclaimer robot 2 is mobile, and each glass 6 corresponding with discharging sucker 15 is transferred to out on stockline 5.It is set by above-mentioned It sets, the glass 6 kept on storing sucker 3 can be completed into discharging automatically.

Using any one glass charging/discharging device in above-described embodiment, when work, includes the following steps:

S1: the adsorption potential 33 that the movement of storing sucker 3 keeps right end vacant is corresponding with the glass 6 of 4 right end of feeding line；

It should be noted that right end herein only refers to opposite one end of storing sucker 3, absolute position is not limited.It is first It is first that the adsorption potential 33 of right end in the vacant adsorption potential 33 of storing sucker 3 is corresponding with the sucker of 4 right end of feeding line, so as to In feeding.

S2: the first reclaimer robot 1 is mobile, keeps each glass 6 on charging sucker 14 and feeding line 4 opposite one by one, and will be each Glass 6 is transferred on the corresponding adsorption potential 33 of storing sucker 3；

S3: storing sucker 3 moves right, so that being adsorbed with the most left of the adsorption potential 33 of the left end of glass 6 and stockline 5 out 6 position of glass at end is corresponding；

Storing sucker 3 moves to right certain amount of adsorption potential 33, which is the first preset quantity and the second present count The difference of amount, so that the glass 6 on corresponding adsorption potential 33 be kept in.And the glass on the adsorption potential 33 of corresponding second preset quantity 6 are transferred to out on stockline 5 and are transported to upstream device by the taking-up of discharging sucker 15.With 6 position of glass of the left end of stockline 5 out Correspondence that is to say corresponding with the discharging sucker 15 of left end.

S4: the second reclaimer robot 2 is mobile, and each glass 6 corresponding with discharging sucker 15 is transferred to out on stockline 5.

Further, the second preset quantity adds one to be equal to the first preset quantity, and the number of adsorption potential 33 is the second present count The integral multiple of amount then further includes after above-mentioned steps S4,

S5: return step S2, until the adsorption potential 33 of the second preset quantity is adsorbed with glass 6 from right to left on storing sucker 3 When, storing sucker 3 moves to left, so that being adsorbed with 6, glass of the adsorption potential 33 of the right end of glass 6 and the right end of stockline 5 out Set correspondence；

S6: the second reclaimer robot 2 is mobile, and each glass 6 corresponding with discharging sucker 15 is transferred to out on stockline 5.

The 6 input and output material method of glass, by using above-mentioned glass charging/discharging device, energy during 6 continuous productive process of glass It is enough automatically performed 6 input and output material of the glass conversion that upstream discharging is greater than fed downstream, improves the degree of automation, and reliable and stable, It is high-efficient, it is at low cost.

Below to have five sheet glass 6 on feeding line 4 with explanation for stockline 5 needs four sheet glass 6 out.

First reclaimer robot 1 has five groups of charging suckers 14, and position just with 5 sheet glass, 6 position pair of carrying out stockline It answers, the second reclaimer robot 2 has four groups of discharging suckers 15, but just corresponding with 4 sheet glass, 6 position of discharging.Storing sucker 3 Initial position when, first vacuum suction position 33 of rightmost is aligned with the rightmost first piece 6 of supplied materials glass 6.When When upstream equipment 5 sheet glass 6 of supplied materials, 5 sheet glass 6 are taken away from feeding line 4 and are put into storing by the movement of the first reclaimer robot 1 5 positions of rightmost of sucker 3, then storing sucker 3 acts, the station for 6 spacing of glass that moves right, and then second Reclaimer robot 2 acts, and leftmost 4 sheet glass 6 corresponding on storing sucker 3 is taken away, is put into out on stockline 5 and flows out to Upstream device.When carrying out the second discharge, the first equally movement of reclaimer robot 1, crawl 5 is put into storing sucker 3, and storing is inhaled at this time Disk 3 moves right the station of 6 spacing of glass again, and then the second reclaimer robot 2 continues to act, will be right on storing sucker 3 Leftmost 4 sheet glass 6 answered is taken away, is put into out on stockline 5 and flows out to upstream device.And so on, when the first reclaimer After tool hand 1 acts 4 times, storing sucker 3 has just moved right 4 stations, and the rightmost on storing sucker 3 is just filled at this time 4 sheet stocks, then storing sucker 3 is moved to left to initial position, i.e., the first of rightmost vacuum suction position 33 is with supplied materials glass 6 Rightmost first piece 6 is aligned, at this point, the second reclaimer robot 2 takes this 4 sheet glass 6 away, it is upper to be put into out stockline 5 Upstream device is arrived out, thus dexterously realizes changeable few conversion.

To sum up, which is combined by simple mould group, 41 transmission of idler wheel, vacuum suction etc. is mating makes With reaching a kind of function of subtracting the 6 quantity amount of progress of glass during 6 continuous productive process of glass, reliable and stable, high-efficient, cost It is low, it is easy to maintain.

Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, the same or similar parts in each embodiment may refer to each other.

The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (8)

1. a kind of glass charging/discharging device, which is characterized in that including the feeding line for flowing into the glass of the first preset quantity With for the glass outflow of the second preset quantity to be gone out stockline, first preset quantity is greater than second preset quantity, Storing sucker is provided between the feeding line and the stockline out；

With the feeding line and it is described go out being respectively arranged with for stockline cooperation can along the vertical direction mobile with front-rear direction the One reclaimer robot and the second reclaimer robot, first reclaimer robot have respectively with glass one each on the feeding line One corresponding charging sucker；Second reclaimer robot has described correspondingly with each glass on the stockline out respectively The discharging sucker of second preset quantity；

The storing sucker has multiple adsorption potentials of no less than first preset quantity, and the storing sucker can control It is mobile.

2. glass charging/discharging device according to claim 1, which is characterized in that first reclaimer robot and described Two reclaimer robots include the X-axis guide rail being arranged along the longitudinal direction and the Y-axis guide rail being arranged along the vertical direction, and the Y-axis is led Rail can the X-axis guide rail described in the drive lower edge of X-axis driving part it is mobile, connect with the sliding block that is provided with of Y-axis guide rail cooperation Fishplate bar, the slider connecting plate can the Y-axis guide rail described in the drive lower edge of Y-axis driving part it is mobile, first reclaimer The charging sucker of the first preset quantity, the institute of second reclaimer robot are fixed on the slider connecting plate of tool hand State the discharging sucker that the second preset quantity is fixed on slider connecting plate.

3. glass charging/discharging device according to claim 2, which is characterized in that the X-axis driving part includes X-axis servo Motor, the X-axis servo motor driving X-axis synchronizing wheel drive the movement of X-axis synchronous belt, the Y-axis guide rail and the X-axis synchronous belt It is fixedly connected with the X-axis synchronous belt synchronizing moving.

4. glass charging/discharging device according to claim 2, which is characterized in that the Y-axis driving part includes Y-axis servo Motor, the Y-axis servo motor driving lead screw rotation, the slider connecting plate and the lead screw cooperate, to turn in the lead screw It is moved when dynamic along the Y-axis guide rail.

5. glass charging/discharging device according to claim 1, which is characterized in that the feeding line is wrapped with the stockline out The multiple rows of roller shaft being set side by side is included, multiple idler wheels are installed on the roller shaft, one end of each roller shaft is separately connected There is helical gear, the helical gear can rotate under the drive of feeding driving part.

6. glass charging/discharging device according to claim 1, which is characterized in that the storing sucker includes in left-right direction The linear guide of setting and vacuum platform with the adsorption potential, the vacuum platform can be in the drive of storing driving part Linear guide described in lower edge is mobile.

7. glass charging/discharging device according to claim 6, which is characterized in that the storing driving part includes that storing is watched Motor is taken, the storing servo motor driving storing synchronizing wheel drives the movement of storing synchronous belt, the vacuum platform and the storage Material synchronous belt is fixedly connected with the storing synchronous belt synchronizing moving.

8. glass charging/discharging device according to claim 1-7, which is characterized in that second preset quantity adds One is equal to first preset quantity, and the number of the adsorption potential is the integral multiple of second preset quantity.