CN217376453U - Full-automatic basket inserting equipment for glass sheet production line - Google Patents
Full-automatic basket inserting equipment for glass sheet production line Download PDFInfo
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- CN217376453U CN217376453U CN202220658979.1U CN202220658979U CN217376453U CN 217376453 U CN217376453 U CN 217376453U CN 202220658979 U CN202220658979 U CN 202220658979U CN 217376453 U CN217376453 U CN 217376453U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P40/00—Technologies relating to the processing of minerals
- Y02P40/50—Glass production, e.g. reusing waste heat during processing or shaping
- Y02P40/57—Improving the yield, e-g- reduction of reject rates
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Abstract
The utility model provides a full-automatic basket equipment of inserting for glass piece production line, including automatic displacement formula transfer chain, two manipulator extracting device, transfer insert basket platform and basket transfer device, transfer insert the basket platform including transferring to ask feed mechanism and transfer to insert feed mechanism, the manipulator is arranged in transferring to the transfer to ask feed mechanism with terminal glass piece is carried to automatic displacement formula transfer chain, transfer to ask feed mechanism to be used for carrying out the centre gripping operation in order to fix a position the glass piece that shifts to it, transfer insert feed mechanism is arranged in carrying out to insert the basket operation in order to with the last glass piece propelling movement of fixing a position of transfer to the basket in the transfer ask feed mechanism, the basket is born by the basket transfer device that corresponds with this transfer insert basket platform, basket transfer device bears and drives the basket removal, so that the transfer insert the basket platform in order the different slots in the basket with the glass piece. The utility model discloses an automatic displacement formula transfer chain carries out automatic displacement to the glass of regulation scope size and adjusts, has saved the remodel time, has reduced the human cost.
Description
Technical Field
The utility model relates to a glass piece inserts basket equipment design field, concretely relates to full-automatic basket equipment of inserting for glass piece production line.
Background
Along with the progress of science and technology, the popularization of various intelligent electronic products, the glass display screen is widely applied to consumer electronic products and communication products, the updating frequency of the electronic products is high, and the demand of cover plate glass of the display screen is huge. At present, the mode of loading the basket by manual operation is usually adopted, and an operator manually picks up and arranges the cut cover glass for loading the basket, however, the glass has large volume, heavy weight and is fragile; the manual operation mode adopted at present is high in labor intensity and extremely low in production efficiency; moreover, manual handling requires time and labor consumption and is fragile, so that great potential safety hazards are brought to products.
SUMMERY OF THE UTILITY MODEL
Based on the technical scheme, the utility model provides full-automatic basket inserting equipment for a glass sheet production line, which solves the problems of high labor intensity and extremely low production efficiency of the manual operation mode in the prior art; moreover, the manual transportation is time-consuming and labor-consuming, and is fragile.
In order to achieve the above object, the present invention provides a full-automatic basket inserting apparatus for a glass sheet production line, comprising an automatic pitch-variable conveyor line, two manipulator taking devices, a transfer basket platform and a basket transferring device, wherein the transfer basket platform and the basket transferring device are provided in two sets, the transfer basket platform and the basket transferring device are respectively provided in two sets, the transfer basket platform is respectively provided in the left and right sides of the output end of the automatic pitch-variable conveyor line, the two sets of basket transferring device are respectively provided in the left and right sides of the transfer basket platform in two sets, the two manipulator taking devices are close to the two sets, the transfer basket platform is arranged above the output end of the automatic pitch-variable conveyor line in a crossing manner, the two manipulator taking devices are provided with two sets of manipulators, each set of transfer basket platform corresponds to one basket transferring device and one set of manipulator, the transfer basket platform comprises a transfer material supporting mechanism and a material inserting mechanism, the manipulator is used for transferring the glass sheets conveyed to the tail end by the automatic variable-pitch conveying line to a transfer material supporting mechanism, the transfer material supporting mechanism is used for executing clamping operation to position the glass sheets transferred to the transfer material supporting mechanism, the transfer material inserting mechanism is used for executing basket inserting operation to push the glass sheets positioned on the transfer material supporting mechanism to a material basket, the material basket is borne by a material basket transfer device corresponding to the transfer basket platform, and the material basket transfer device bears and drives the material basket to move so that the transfer basket platform can orderly insert the glass sheets into different slots in the material basket.
As a further preferred technical scheme of the utility model, automatic displacement formula transfer chain includes the transfer chain base, sets up runner fixed plate, runner fly leaf, displacement motor and transmission motor on the transfer chain base, wherein:
the runner fixing plate and the runner movable plate are oppositely arranged left and right, the runner fixing plate and the runner movable plate are oppositely provided with transmission belts with transmission surfaces arranged in parallel, an output shaft of the transmission motor is connected with a driving shaft through a coupler, the driving shaft is spliced with two flat belt rollers capable of synchronously rotating, the two flat belt rollers are respectively connected with one transmission belt transmission sleeve, so that when the transmission motor drives the driving shaft to rotate, the two flat belt rollers synchronously rotate, the two transmission belts synchronously rotate, the runner fixing plate and the runner movable plate are oppositely provided with wear-resistant strips arranged in parallel, the transmission surfaces of the two transmission belts are positioned between the two wear-resistant strips, the wear-resistant strips are parallel to the transmission direction of the transmission belts, and a transmission channel is formed between the two wear-resistant strips, the glass sheets to be conveyed are respectively placed on two conveying belts through two ends of the glass sheets in the conveying channel for conveying;
the runner fixed plate is relative the fixed setting of transfer chain base, the runner fly leaf is relative the activity of runner fixed plate sets up on the transfer chain base, the runner fly leaf by the displacement motor drives so that the runner fly leaf is relative the runner fixed plate is in move on the transfer chain base, the runner fly leaf is in moving direction perpendicular to on the transfer chain base the transmission direction of transmission belt, through the runner fixed plate with relative distance's change between the runner fly leaf to the width that realizes adjusting the transmission channel is in order to adapt to the not glass piece of carrying unidimensional.
As a further preferred technical scheme of the utility model, the output of transmission channel is equipped with and is located the flange limiting plate of wear-resisting strip tip, the flange limiting plate is used for will passing through the glass piece that the transmission channel was carried blocks, is close to the flange limiting plate still is equipped with the transmission inductor that targets in place, the transmission sensor that targets in place is used for detecting by the flange limiting plate blocks and carries the glass piece that targets in place.
As a further preferred technical scheme of the utility model, the double-manipulator taking mechanism comprises a vertically arranged mounting plate, two sets of first lead screws distributed up and down are transversely installed on the front surface of the mounting plate, both ends of the first lead screws are fixedly connected with the mounting plate through lead screw support assemblies, each set of the first lead screws respectively has one set of manipulator and one taking traversing motor, the taking traversing motors are in transmission connection with the corresponding first lead screws so as to drive the corresponding manipulators to transversely move when driving the first lead screws to rotate, and the taking traversing motors are servo motors; the manipulator is including connecting the cylinder mounting panel that is to erect the setting on the first lead screw slider that corresponds first lead screw, the lower part of cylinder mounting panel is installed and is got material slip table cylinder, the output shaft who gets material slip table cylinder has the cylinder fly leaf that the drive goes up and down, the lower extreme of cylinder fly leaf is connected with revolving cylinder, revolving cylinder's rotatory output shaft is connected with the suction nozzle mounting panel downwards and through the chain piece, the suction nozzle mounting panel is connected with the suction nozzle subassembly towards down.
As a further preferred technical scheme of the utility model, every set in the basket platform is inserted in the transfer:
the transfer material supporting mechanism comprises a lower mounting plate, a second screw rod, a first motor and two supporting plates, two ends of the second screw rod are respectively mounted on the lower mounting plate through screw rod supporting components, two second screw rod sliding blocks are arranged on the second screw rod in a matched mode, the two second screw rod sliding blocks are respectively connected with one supporting plate support, the two supporting plates are respectively connected above the two supporting plate supports and are oppositely arranged at the same height, the first motor is in transmission connection with the second screw rod, the second screw rod is used for driving the two second screw rod sliding blocks to move oppositely or reversely on the second screw rod under the transmission of the first motor so as to drive the two supporting plates to fold or separate, and the two supporting plates during folding are used for supporting glass sheets;
the transfer plug-in mechanism comprises an upper mounting plate, a third lead screw, a second motor, a lifting sliding table cylinder, a suction plate and a camera, wherein the upper mounting plate is arranged above the lower mounting plate at intervals, two ends of the third lead screw are respectively mounted on the upper mounting plate through lead screw supporting components and are vertical to the axial direction of the second lead screw, a third lead screw slider is arranged on the third lead screw in a matching manner, the third lead screw slider is connected with the lifting sliding table cylinder through a cylinder fixing plate, an output shaft of the lifting sliding table cylinder is connected with the suction plate through a suction plate fixing plate and a horizontal arrangement, the suction plate is driven to move up and down, the second motor is connected with the third lead screw in a transmission manner, the third lead screw drives the lifting sliding table cylinder to move back and forth under the transmission of the second motor so as to drive the suction plate to move back and forth, the camera is fixedly mounted on the upper mounting plate towards a material basket and through a camera support, the suction plate sucks the glass sheets supported by the two supporting plates under the coordination of the front and back movement and the lifting movement, moves forwards and is inserted into the material basket, and the material basket is photographed and positioned by the camera.
As a further preferable technical solution of the present invention, a third linear rail parallel to the second lead screws is provided on the lower mounting plate, and two of the second lead screw sliders are respectively connected to linear rail sliders slidably disposed on the third linear rail through slider mounting members; be equipped with on the mounting panel of upper portion with the parallel second line rail of third lead screw, third lead screw slider is connected with the slip through slider installed part and sets the line rail slider on the second line rail, the second line rail is two, two divide about the second line rail to locate the both sides of third lead screw.
As a further preferable technical scheme of the utility model, guiding limit plates are arranged above the ends of the two support plates close to each other, and when the two support plates are folded, a clamping groove is formed between the two guiding limit plates for clamping and guiding and limiting the glass sheet; the guide limiting plates are arranged on the guide limiting sides and are provided with a plurality of rolling shafts arranged along the length direction of the guide limiting plates, and the clamping grooves formed between the two guide limiting plates are used for clamping the glass sheets to realize guide limiting.
As a further preferred technical scheme of the present invention, the material basket transfer device includes an installation back plate vertically arranged along the Z direction, an X-axis module is installed on the front surface of the installation back plate, a Z-axis module is installed on the X-axis module, a material basket fixing mechanism is installed on the Z-axis module, the X-axis module and the Z-axis module are both servo-driven linear motion modules, the X-axis module is used for driving the Z-axis module to move along the X direction, and the Z-axis module is used for driving the material basket fixing mechanism to move along the Z direction; the material basket fixing mechanism comprises a material basket back plate and an upper and lower air cylinder, the material basket back plate and the upper and lower air cylinder are vertically arranged along the Z direction, a holding area used for attaching and placing a material basket is arranged on the front side of the material basket back plate, a supporting block connected to the bottom edge of the material basket back plate is arranged below the holding area, a clamping block is arranged above the holding area, the upper and lower air cylinder are fixedly installed above the material basket back plate through an upper and lower air cylinder fixing plate, an output shaft of the upper and lower air cylinder is connected with the clamping block to drive the clamping block to move up and down, and therefore the clamping block is matched with the supporting block to clamp or loosen the upper end and the lower end of the material basket located in the holding area.
As a further preferred technical scheme of the utility model, still install the branch on the basket backplate and locate shelve the stopper and the back of the body cylinder in the left and right sides in district, the stopper with basket backplate fixed connection, back of the body cylinder fixed mounting is in the lateral part border department of basket backplate, the output shaft of the back of the body cylinder is connected with the clamp splice through the clamp splice mounting panel, the back of the body cylinder is used for the drive the clamp splice is movable about the clamp splice to make clamp splice and stopper cooperation in order to be located shelve the left and right ends of basket in district and press from both sides tightly or loosen.
The utility model discloses a full-automatic basket equipment of inserting for glass piece production line through adopting above-mentioned technical scheme, can reach following beneficial effect:
1) the continuity is good: the full-automatic basket inserting equipment for the glass sheet production line has the advantages of high precision, high speed and high yield, can effectively help manufacturers to improve productivity, has less manual intervention in the whole production process and high automation degree, and greatly reduces the failure rate;
2) the automation degree is high: the utility model discloses an automatic displacement formula transfer chain carries out automatic displacement to the glass of regulation scope size and adjusts, has not only saved the remodelling time, the human cost that significantly reduces, and wholeness degree is high moreover.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic structural view of an example of a fully automatic basket insertion apparatus for a glass sheet production line;
FIG. 2 is a perspective view of a perspective of a fully automatic basket insertion apparatus for a glass sheet production line;
FIG. 3 is a perspective view of another perspective of a fully automatic basket insertion apparatus for a glass sheet production line;
FIG. 4 is a perspective view of an automatic pitch change conveyor line;
FIG. 5 is a perspective view of another perspective of the automated pitch change conveyor line;
FIG. 6 is a schematic front view of a platform of the transfer basket;
FIG. 7 is a schematic view of a rear side of the platform of the transfer basket;
FIG. 8 is a schematic view of a transfer insert mechanism of the transfer basket platform;
FIG. 9 is a schematic structural view of a transfer material supporting mechanism of the transfer basket platform;
fig. 10 is a front view of the dual-manipulator material taking device;
fig. 11 is a schematic back structure view of the dual-manipulator material taking device;
FIG. 12 is a schematic structural view of a basket transfer device;
fig. 13 is a schematic structural view of the basket transfer device after the loading basket is installed;
in the figure: 01-01, a material basket transfer device; 01-02, a transfer basket platform; 01-03, a double-manipulator material taking device; 01-04, an automatic variable pitch conveying line;
02-01, a sliding block connecting plate, 02-02, a bushing, 02-03, a guide shaft, 02-04, a flat belt roller, 02-05, a transmission motor, 02-06, a second supporting plate, 02-07, a first line rail, 02-08, a wear-resistant strip, 02-09, a flow channel fixing plate, 02-10, a transmission in-place sensor, 02-11, a flange limiting plate, 02-12, a flow channel moving plate, 0213, a first supporting plate, 02-14, a variable-pitch motor, 02-15, a driving shaft, 0216, a fixed side plate, 02-17, a conveying line base, 0218 and a transmission belt;
03-01, a lifting sliding table cylinder; 03-02 and a cylinder fixing plate; 03-03, and a suction plate fixing plate; 03-04 and a suction plate; 03-05 and a guide limit plate; 03-06, a second wire track; 03-07, a roller; 03-08, an upper mounting plate; 03-09, link block; 03-10, a screw rod supporting component; 03-11 and a third screw rod; 03-12 and a second screw rod sliding block; 03-14 and a second screw rod; 03-16, supporting side plates; 03-17, fixing a supporting plate; 03-23, a first motor; 03-25 and a lower mounting plate; 03-26, connecting the vertical rod; 03-27, an upper adjusting fixing plate; 03-28, adjusting the fixing plate; 03-29, fixing the locking block; 03-30, a second motor; 03-34, a light source; 03-35, a camera support plate; 03-36 and a supporting plate; 03-38, a telescopic sliding table cylinder; 03-40, a camera; 03-41, a third linear rail;
04-01, motor mounting plate; 04-02, a screw support assembly; 04-03 and a second line rail; 04-04 and a cylinder mounting plate; 04-05, cylinder movable plate; 04-06, rotating the cylinder mounting plate; 04-07, rotating cylinder; 04-08, a suction nozzle assembly; 04-09, link; 04-10, a suction nozzle mounting plate; 04-11, a first screw rod slide block mounting block; 04-12, a first screw rod slide block; 04-13, mounting a base; 04-14, a support rod; 04-15, a first screw rod; 0416. a material taking sliding table cylinder; 04-17, a synchronizing wheel; 0418. mounting a plate; 04-19, a material taking transverse moving motor; 04-20 parts of a sensor;
05-01, a line rail mounting plate; 05-02, a third line rail; 05-03 and a limiting block; 05-04, adjustable pressing block; 05-05, movable blocks; 05-06, fixing strips; 05-07, a support block; 05-08, a material basket back plate; 05-09, clamping blocks; 05-10, mounting a clamping block; 05-11, a back cylinder; 05-12, a clamping block; 05-13, upper and lower cylinders; 05-14, upper and lower cylinder fixing plates; 05-15, mounting a back plate; 05-16, Z-axis module; 05-17, mounting a module; 05-18, an X-axis module; 05-19 and a material basket.
The purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and the detailed description. In the preferred embodiments, the terms "upper", "lower", "left", "right", "middle" and "a" are used for the sake of clarity only, and are not intended to limit the scope of the invention, its relative relationship between the terms and their derivatives, and the scope of the invention should be understood as being limited by the claims.
As shown in fig. 1-3, the utility model provides a full-automatic basket inserting device for a glass sheet production line, which comprises an automatic variable pitch type conveying line 01-04, a double manipulator material taking device 01-03, a middle basket inserting platform 01-02 and a basket transferring device 01-01, wherein the middle basket inserting platform 01-02 and the basket transferring device are respectively provided with two sets, the two sets of middle basket inserting platform 01-02 are respectively arranged at two sides of the output end of the automatic variable pitch type conveying line 01-04 from left to right, the two sets of basket transferring device are respectively arranged at two sides of the two sets of middle basket inserting platform 01-02 from left to right, the double manipulator material taking device 01-03 is close to the two sets of middle basket inserting platform 01-02 which is arranged above the output end of the automatic variable pitch type conveying line 01-04 in a crossing manner, the double manipulator material taking device 01-03 is provided with two sets of manipulators, wherein each set of the transfer basket platform 01-02 corresponds to one set of the material basket transfer device and one set of the manipulator, the transfer basket platform 01-02 comprises a transfer supporting mechanism and a transfer inserting mechanism, the manipulator is used for transferring the glass sheets conveyed to the tail end by the automatic variable pitch conveying line 01-04 to the transfer supporting mechanism, the transfer material supporting mechanism is used for executing clamping operation to position the glass sheet transferred to the transfer material supporting mechanism, the transfer insertion mechanism is used for executing basket insertion operation to push the positioned glass sheet on the transfer supporting mechanism into the material baskets 05-19, the material basket is carried by the material basket transfer device 01-01 corresponding to the middle transfer basket platform 01-02, the material basket transfer device 01-01 carries and drives the material basket to move, so that the intermediate basket platform 01-02 can orderly insert the glass sheets into different slots in the material basket.
In a specific implementation, as shown in fig. 4 to 5, an automatic variable pitch conveyor line 01 to 04 comprises a conveyor line base 02 to 17, a flow channel fixing plate 02 to 09, a flow channel movable plate 02 to 12, a variable pitch motor 02 to 14 and a conveying motor 02 to 05, which are arranged on the conveyor line base 02 to 17, wherein:
the runner fixing plates 02-09 and the runner movable plates 02-12 are arranged in a left-right opposite manner, the runner fixing plates 02-09 and the runner moving plates 02-12 are relatively provided with transmission belts 0218 which are arranged in parallel, the output shaft of the transmission motor 02-05 is connected with a driving shaft 02-15 through a coupling, two flat belt rollers 02-04 capable of synchronously rotating are inserted into the driving shafts 02-15, the two flat belt rollers 02-04 are respectively connected with one transmission belt 0218 in a transmission sleeved mode, so that when the transmission motor 02-05 drives the driving shaft 02-15 to rotate, the two flat belt rollers 02-04 rotate synchronously, further enabling the two conveying belts 02-18 to synchronously rotate, and respectively placing the glass sheets to be conveyed on the two conveying belts 02-18 through the two ends of the glass sheets to be conveyed for conveying;
the runner fixing plate 02-09 is fixedly arranged relative to the conveyor line base 02-17, the runner movable plate 02-12 is movably arranged on the conveyor line base 02-17 relative to the runner fixing plate 02-09, a group of parallel first linear rails 02-07 are arranged on the conveyor line base 02-17, each sliding block on the two parallel first linear rails 02-07 is fixedly connected with a first supporting plate 02-13 through a sliding block connecting plate 02-01, the runner movable plate 02-12 is fixedly connected to the first supporting plate 02-13, the runner movable plate 02-12 is moved on the conveyor line base 02-17 relative to the runner fixing plate 02-09 through the first linear rails 02-07, and the moving direction of the runner movable plate 02-12 on the conveyor line base 02-17 is perpendicular to the conveying direction of the conveying belt 0218;
the runner fixing plate 02-09 and the runner movable plate 02-12 are relatively provided with parallel wear-resistant strips 02-08, the transmission surfaces of the two transmission belts 02-18 are positioned between the two wear-resistant strips 02-08, the wear-resistant strips 02-08 are parallel to the transmission direction of the transmission belts 02-18, a transmission channel driven by the transmission belts 02-18 is formed between the two wear-resistant strips 02-08, and the width of the transmission channel is the size specification of a glass sheet to be transmitted;
an output shaft of the variable pitch motor 02-14 is connected with a ball screw through a coupler, a screw nut of the ball screw is fixedly arranged on the runner movable plate 02-12 in a penetrating mode, the runner movable plate 02-12 is driven by the variable pitch motor 02-14 through the ball screw to move on the conveying line base 02-17 relative to the runner fixing plate 02-09, and the distance between the two conveying belts 02-18 is adjusted to be suitable for conveying glass sheets of different sizes through changing of the relative distance between the runner fixing plate 02-09 and the runner movable plate 02-12.
The runner fixing plate 02-09 is fixedly installed on the conveying line base 02-17 through a second supporting plate 02-06, a fixing side plate 02-16 is further fixedly arranged on the conveying line base 02-17, the fixing side plate 02-16 is located on the outer side of the runner movable plate 02-12, and two ends of the ball screw are rotatably supported by the fixing side plate 02-16 and the second supporting plate 02-06 respectively. The transmission motors 02-05 are fixed on the outer sides of the second supporting plates 02-06 through motor mounting plates, bearings are connected to two ends of the driving shafts 02-15 respectively, and the bearings at two ends of the driving shafts 02-15 are mounted on the fixed side plates 02-16 and the second supporting plates 02-06 respectively.
Preferably, the automatic variable pitch conveyor line 01-04 further comprises a guide mechanism, the guide mechanism comprises a guide shaft 02-03 and a bushing 02-02 which are connected and matched with each other in a sliding sleeve mode, the bushing 02-02 is fixedly arranged on the first supporting plate 02-13 in a penetrating mode, two ends of the guide shaft 02-03 are fixedly connected with the fixed side plate 02-16 and the second supporting plate 02-06 respectively, and the axial direction of the guide shaft 02-03 is consistent with the sliding direction of the first line rail 02-07.
The two flat belt rollers 02-04 are symmetrically arranged on opposite side surfaces of the flow channel fixing plate 02-09 and the flow channel movable plate 02-12, and when the variable pitch motor 02-14 drives the flow channel fixing plate 02-09 to move, the two flat belt rollers 02-04 can slide on the main shaft along the axial direction of the main shaft, so that the transmission belt 02-18 and the flat belt rollers 02-04 can be matched with the flow channel movable plate 02-12 to adjust the pitch.
And the output end of the transmission channel is provided with flange limiting plates 02-11 positioned at the end parts of the wear-resistant strips 02-08, the flange limiting plates 02-11 are used for blocking the glass sheets conveyed by the transmission channel so as to prevent the glass sheets conveyed to the tail end by the transmission channel from falling, and meanwhile, the glass sheets in transmission are supported through mechanical limiting so that a manipulator of subsequent processing equipment can grasp materials. In order to detect the glass sheets transmitted to the tail end of the transmission channel, a transmission in-place sensor 02-10 is further arranged close to the flange limiting plate 02-11 so as to send information to inform the following two mechanical arm material taking devices 01-03 to take materials.
In one embodiment, as shown in fig. 6-9, the intermediate transfer basket platform 01-02 comprises an intermediate transfer material supporting mechanism and an intermediate transfer material inserting mechanism, wherein the intermediate transfer material supporting mechanism is used for supporting the glass sheet input by the automatic variable pitch conveying line 01-04, the glass sheet at the output end of the automatic variable pitch conveying line 01-04 is transferred to the intermediate transfer material supporting mechanism by the manipulator of the two manipulator material taking device 01-03 in the next process, and the intermediate transfer material inserting mechanism is used for executing an inserting operation to insert the glass sheet supported on the intermediate transfer material supporting mechanism into the material basket of the material basket transferring device 01-01, wherein:
the material transferring and supporting mechanism comprises a lower mounting plate 03-25, a second screw rod 03-14, a first motor 03-23 and two supporting plates 03-36, two ends of the second screw rod 03-14 are respectively mounted on the lower mounting plate 0-325 through screw rod supporting components 03-10, two second screw rod sliding blocks 03-12 are arranged on the second screw rod 03-14 in a matching mode, the two second screw rod sliding blocks 03-12 are respectively connected with one supporting plate 03-36 support, the two supporting plates 03-36 are respectively connected above the two supporting plates 03-36 and are oppositely arranged at the same height, the first motor 03-23 is in transmission connection with the second screw rod 03-14, and the second screw rod 03-14 is used for driving the two second screw rod sliding blocks 03-12 to be on the second screw rod 03-14 under the transmission of the first motor 03-23 The two supporting plates 03-36 are driven to move towards or away from each other, so that the two supporting plates 03-36 are driven to move towards or away from each other, the two supporting plates 03-36 are used for supporting a glass sheet during folding, guiding limit plates 03-05 are arranged above the connected ends of the two supporting plates 03-36, when the two supporting plates 03-36 are folded, a clamping groove is formed between the two guiding limit plates 03-05 and used for clamping and guiding and limiting the glass sheet, a plurality of rolling shafts 03-07 are arranged along the length direction of the guiding limit plates 03-05 on the guiding limit sides, and the clamping groove formed between the two guiding limit plates 03-05 clamps the glass sheet through the plurality of rolling shafts 03-07 to realize guiding and limiting;
the middle transfer material inserting mechanism comprises an upper mounting plate 03-08, a third screw rod 03-11, a second motor 03-30, a lifting sliding table cylinder 03-01, a suction plate 03-04 and a camera 03-40, wherein the upper mounting plate 03-08 is arranged above the lower mounting plate 03-25 at intervals, two ends of the third screw rod 03-11 are respectively mounted on the upper mounting plate 03-08 through screw rod supporting components 03-10 and are axially vertical to the second screw rod 03-14, a third screw rod 03-11 sliding block is arranged on the third screw rod 03-11 in a matched mode, the third screw rod 03-11 sliding block is connected with the lifting sliding table cylinder 03-01 through a cylinder fixing plate 03-02, and an output shaft of the lifting sliding table cylinder 03-01 is connected with the horizontally arranged suction plate 03-04 through the suction plate fixing plate 03-03 for driving the suction plate 03-04 The suction plate 03-04 moves up and down, the second motor 03-30 is in transmission connection with the third screw rod 03-11, the third screw rod 03-11 drives the lifting sliding table cylinder 03-01 to move back and forth under the transmission of the second motor 03-30 so as to drive the suction plate 03-04 to move back and forth, the camera 03-40 faces the material basket and is fixedly mounted on the upper mounting plate 03-08 through a camera 03-40 support, and the suction plate 03-04 sucks the glass sheets supported by the two support plates 03-36 under the matching of back and forth movement and up and down movement and moves forwards and is inserted into the material basket, and the material basket is photographed by the camera 03-40.
The transfer basket platform 01-02 further comprises two sets of light sources 03-34 used for being matched with the cameras 03-40, the number of the light sources 0334 is two, the two sets of light sources 03-34 are arranged at the front ends of the upper mounting plates 03-08 in a left-right mode, the light emitting direction faces the material basket, and the light sources 03-34 emit light to irradiate the material basket, so that the photographing effect of the cameras 03-40 is improved.
Preferably, the second motors 03-30 and 03-30 both adopt servo motors, and the control precision is high.
Preferably, the lower mounting plate 03-25 is provided with a third linear rail 03-41 parallel to the second lead screw 03-14, the two second lead screw sliders 03-12 are respectively connected with linear rail sliders which are slidably arranged on the third linear rail 03-41 through slider mounting parts, and under the guiding action provided by the third linear rail 03-41, the second lead screw sliders 03-12 are more stable in the process of moving left and right, so that the two support plates 03-36 can be stably folded or separated.
The upper mounting plate 03-08 is provided with second linear rails 03-06 parallel to the third screw rods 03-11, the third screw rods 03-11 are connected with linear rail sliders arranged on the second linear rails 03-06 in a sliding mode through slider mounting parts, the number of the second linear rails 03-06 is two, the two second linear rails 03-06 are arranged on the two sides of the third screw rods 03-11 in a left-right mode, and under the guiding effect provided by the second linear rails 03-06, the third screw rods 03-11 sliders are enabled to be more stable in the front-back moving process, and therefore the suction plates 03-04 can operate stably.
The upper mounting plate 03-08 is of a frame structure, the two second wire rails 03-06 are mounted below left and right frames of the upper mounting plate 03-08, the third screw rods 03-11 are arranged below the upper mounting plate 0308, screw rod supporting assemblies 03-10 at two ends of the third screw rods 03-11 are mounted below front and rear frames of the upper mounting plate 03-08, and the lifting sliding table cylinder 03-01 is located in the frame of the upper mounting plate 03-08 and is driven by the third screw rods 03-11 to move back and forth.
The supporting frame 03-36 comprises a linking block 03-09, a supporting side plate 03-16 and a fixing supporting plate 03-17, the linking block 03-09 is arranged on the second screw rod slide block 03-12, the supporting side plate 03-16 and the fixing supporting plate 03-17 are vertically arranged on the linking block 03-09, and the supporting plate 03-36 is horizontally connected to the top of the supporting side plate 03-16 and the fixing supporting plate 03-17.
The camera 03-40 support comprises camera 03-40 support plates 03-35 and telescopic sliding table air cylinders 03-38, the camera 03-40 support plates 03-35 are vertically arranged on the upper portion mounting plates 03-08, the telescopic sliding table air cylinders 03-38 are mounted on the upper portions of the camera 03-40 support plates 03-35 through air cylinder mounting plates in a vertically adjustable mode, and the axial direction of output shafts of the telescopic sliding table air cylinders 03-38 is connected with the camera 03-40 through the camera 03-40 mounting plates to drive the camera 03-40 to stretch back and forth to achieve adjustment so that the positions of the camera 03-40 can be adjusted according to requirements.
The light sources 03-34 are installed through adjusting brackets, each adjusting bracket comprises a lower adjusting fixing plate 03-28, an upper adjusting fixing plate 03-27, connecting upright posts 03-26 and fixing locking blocks 03-29, the lower adjusting fixing plate 03-28 is fixedly installed on the upper installing plate 03-08 and extends towards the outer side of the upper installing plate, the upper adjusting fixing plate 03-27 is adjustably installed on the lower adjusting fixing plate 03-28 along the length direction of the lower adjusting fixing plate 03-28, the connecting upright posts 03-26 are fixedly and vertically arranged on the upper adjusting fixing plate 03-27, the fixing locking blocks 03-29 are horizontally rotatably and adjustably locked at the tops of the connecting upright posts 03-26, the light sources 03-34 are installed on the fixing locking blocks 03-29, so that the irradiation direction of the light sources 03-34 can be adjusted left or right or horizontally according to the requirements.
In another embodiment, as shown in fig. 10 to 11, the dual-manipulator material taking mechanism includes a vertically-arranged mounting plate 04-18, the mounting plate 04-18 is connected with a supporting rod 04-14 for supporting the mounting plate 04-18, the lower end of the supporting rod 04-14 is connected with a mounting base 04-13, and the mounting plate 04-18 is a base plate of the entire dual-manipulator material taking mechanism.
Two sets of first screw rods 04-15 which are distributed up and down are transversely arranged on the front surface of the mounting plate 04-18, two ends of each first screw rod 04-15 are fixedly connected with the mounting plate 04-18 through screw rod support assemblies 04-02, each set of first screw rod 04-15 is respectively provided with a set of manipulator and a material taking transverse moving motor 04-19, each material taking transverse moving motor 04-19 is fixedly arranged on the back surface of the mounting plate 04-18 through a motor mounting plate 04-01, and the material taking transverse moving motor 0419 is in transmission connection with the corresponding first screw rod 04-15 so as to drive the corresponding manipulator to transversely move when the first screw rod 04-15 rotates; a first screw rod sliding block is arranged on the first screw rod 04-15 through a first screw rod sliding block mounting block 04-11, the manipulator comprises a vertically arranged cylinder mounting plate 04-04 connected to a first screw rod sliding block 04-12 corresponding to a first screw rod 04-15, a material taking sliding table cylinder 04-16 is arranged at the lower part of the cylinder mounting plate 04-04, an output shaft of the material taking sliding table cylinder 04-16 is connected with a cylinder movable plate 04-05 for driving the lifting, the lower end of the cylinder movable plate 04-05 is connected with a rotary cylinder 04-07 through a rotary cylinder mounting plate 04-06, the rotary output shaft of the rotary cylinder 04-07 faces downwards and is connected with a suction nozzle mounting plate 04-10 through a link 04-09, the suction nozzle mounting plate 04-10 is connected with a suction nozzle assembly 04-08 facing downward.
Preferably, the material taking and moving motors 04 to 19 adopt servo motors, so that the control precision is high, and accurate material taking and discharging can be realized.
In specific implementation, two sets of first screw rods 04-15 which are distributed up and down are arranged in parallel, a second linear rail 04-03 is further arranged between the two sets of first screw rods 04-15, the second linear rail 04-03 is parallel to the first screw rods 04-15, two sliding blocks are arranged on the second linear rail 04-03, each sliding block is fixedly connected with a cylinder mounting plate 04-04 of one set of manipulator, and the second linear rail 04-03 is used for guiding the manipulator in the transmission of the first screw rods 04-15 so as to ensure that the manipulator can move stably.
One end of the first screw rod 04-15 is sleeved with a synchronizing wheel 04-17, the material taking transverse moving motor 04-19 corresponding to the first screw rod 04-15 is also connected with the synchronizing wheel 04-17, and the synchronizing wheel 04-17 on the first screw rod 04-15 is sleeved with the synchronizing wheel 04-17 on the corresponding material taking transverse moving motor 04-19 through a synchronizing belt so as to realize the transmission of the material taking transverse moving motor 04-19 and the first screw rod 04-15.
A plurality of sensors 04-20 are respectively arranged above and below the mounting plate 04-18, the sensors 04-20 above the mounting plate 04-18 are used for detecting the position of the manipulator on the first screw rod 04-15 above the mounting plate 04-18, the sensors 04-20 below the mounting plate 04-18 are used for detecting the position of the manipulator on the first screw rod 04-15 below the mounting plate 04-18, and the sensors 04-20 can be proximity switches or travel switches for detecting the original position of the movement of the manipulator and limiting the travel of the movement of the manipulator.
A material taking station and two material placing stations are arranged below the mounting plate 04-18, the two sets of manipulators can be independently controlled, the two sets of manipulators can pick up materials from the same material taking station and then respectively move to the material placing stations, and the two sets of manipulators take and place materials in turn, so that the production and processing efficiency of the production line is improved, and the production and processing device is specifically operated as follows:
when the motor drives the first screw rod 04-15 to rotate, the first screw rod sliding block 04-12 drives the manipulator to move transversely, and the position during movement is accurately controlled by the servo motor 04-19; when the glass sheet feeding device moves to a material taking station, the material taking sliding table air cylinder 04-16 drives the rotary air cylinder 04-07 to descend through the table air cylinder movable plate, the rotary air cylinder 04-07 is attached to a glass sheet after the direction of the suction nozzle assembly 04-08 is adjusted through rotation, the glass sheet is sucked by the suction nozzle assembly 04-08, then the material taking sliding table air cylinder 04-16 and the rotary air cylinder 04-07 reset, in the process, the first screw rod 04-15 drives the mechanical arm to move to the material placing station, the material taking sliding table air cylinder 04-16 controls descending, the rotary air cylinder 04-07 controls the discharge direction of the rotary glass sheet, then the glass sheet is placed to the material placing station, and after material placing, the material taking sliding table air cylinder 04-16 and the rotary air cylinder 04-07 reset again to prepare for next material taking and placing for circulation.
In yet another embodiment, the basket transfer device 01-01 is used for matching with the transfer basket platform 01-02 to insert the glass sheet materials into the basket 05-19 in a piece and orderly manner, a plurality of material grooves for placing the glass sheet are respectively arranged in the basket 05-19 along the X direction and the Z direction, the basket transfer device 01-01 adjusts the empty material grooves to be always aligned with the material inserting mechanism by driving the basket 05-19 to move along the X direction or the Z direction, so that the material inserting mechanism inserts the glass sheet into the basket 05-19 in a piece and orderly manner, and each transfer basket platform 01-02 corresponds to one basket transfer device 01-01.
As shown in fig. 12-13, the basket transfer device 01-01 includes a mounting back plate 05-15 vertically arranged along the Z direction, an X-axis module 05-18 is mounted on the front surface of the mounting back plate 05-15 through a module mounting plate 05-17, a Z-axis module 05-16 is mounted on the X-axis module 05-18, a basket fixing mechanism is mounted on the Z-axis module 05-16, the X-axis module 05-18 and the Z-axis module 05-16 are both servo-driven linear motion modules, the X-axis module 05-18 is used for driving the Z-axis module 05-16 to move along the X direction, the Z-axis module 05-16 is used for driving the basket fixing mechanism to move along the Z direction, the X-axis module 05-18 and the Z-axis module 05-16 are both servo-driven, the control precision is high, and the high speed, the speed, and the speed of the material are controlled by the X-axis module 05-18, and the Z-axis module 05-16 are both servo-16 High-efficiency production.
The material basket fixing mechanism comprises a material basket back plate 05-08 and an upper cylinder 05-13 which are vertically arranged along the Z direction, the front surface of the basket back plate 05-08 is provided with a laying area for attaching and placing the basket 05-19, a supporting block 05-07 connected to the bottom edge of the material basket back plate 05-08 is arranged below the laying-up area, clamping blocks 05-12 are arranged above the resting area, the upper and lower air cylinders 05-13 are fixedly arranged above the material basket back plate 05-08 through upper and lower air cylinder fixing plates 05-14, the output shaft of the upper and lower air cylinders 05-13 is connected with the clamping blocks 05-12 to drive the clamping blocks 05-12 to move up and down, so that the clamping block 0512 is matched with the supporting blocks 05-07 to clamp or release the upper and lower ends of the baskets 05-19 positioned at the laying area.
The front surface of the mounting back plate 05-15 is further provided with a third linear rail 05-02 parallel to the transmission direction of the X-axis module 05-18 through a linear rail mounting plate 05-01, a sliding block arranged on the third linear rail 05-02 is further connected with the Z-axis module 05-16, so that when the X-axis module 05-18 drives the Z-axis module 05-16 to move, the Z-axis module 05-16 is guided by the third linear rail 05-02, the X-direction movement is ensured to be stable, and the precision of the material basket transfer device 01-01 in adjusting the position of the material basket 05-19 is ensured.
The material basket back plate 05-08 is further provided with a limiting block 05-03 and a back air cylinder 05-11 which are respectively arranged on the left side and the right side of the shelving area, the limiting block 05-03 is fixedly connected with the material basket back plate 05-08, the back air cylinder 05-11 is fixedly arranged on the side edge of the material basket back plate 05-08, an output shaft of the back air cylinder 05-11 is connected with a clamping block 05-09 through a clamping block mounting plate 05-10, and the back air cylinder 05-11 is used for driving the clamping block 05-09 to move left and right so that the clamping block 05-09 is matched with the limiting block 05-03 to clamp or release the left end and the right end of the material basket 05-19 in the shelving area.
Preferably, the limiting blocks 05-03 are provided with adjustable pressing blocks 05-04 connected with the frames of the material baskets 05-19 in an alignment mode, and the back faces of the material baskets 05-19 are in clamping fit with the adjustable pressing blocks 05-04, so that the material baskets 05-19 can be conveniently mounted on the material basket back plate 05-08, and the positioning is accurate.
And a fixing strip 05-06 connected to the bottom edge of the basket back plate 05-08 is further arranged below the holding area, the fixing strip 05-06 is flush with the support block 05-07, a movable block 05-05 is arranged at the front end of the fixing strip 05-06, and the movable block 05-05 is used for being matched with the frame of the basket 05-19 to fix the basket 05-19.
The installation back plate 05-15 is provided with two sets of X-axis modules 05-18, the two sets of X-axis modules 05-18 are arranged at intervals up and down, each set of X-axis module 05-18 is connected with one set of Z-axis module 05-16, the two sets of Z-axis modules 05-16 are respectively connected with one set of material basket fixing mechanism, and the two sets of material basket fixing mechanisms are distributed left and right relative to the installation back plate 05-15. Two sets of independently controllable material basket fixing mechanisms are arranged, when one material basket 05-19 is fully loaded, the material basket 05-19 can be directly loaded to the other material basket 05-19, at the moment, the fully loaded material basket 05-19 can be unloaded to be replaced by the empty material basket 05-19, so that the intermediate transfer basket platform 01-02 does not need to wait, and continuous and stable production of a production line is ensured.
Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many changes and modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.
Claims (9)
1. A full-automatic basket inserting device for a glass sheet production line is characterized by comprising an automatic variable pitch type conveying line, two sets of manipulator material taking devices, a transfer basket platform and a material basket transferring device, wherein the transfer basket platform and the material basket transferring device are respectively provided with two sets, the transfer basket platform is respectively arranged on the left side and the right side of the output end of the automatic variable pitch type conveying line, the two sets of material basket transferring device are respectively arranged on the left side and the right side of the two sets of transfer basket platform, the two sets of manipulator material taking devices are close to the two sets of transfer basket platforms, the transfer basket platforms stretch over the output end of the automatic variable pitch type conveying line, the two manipulator material taking devices are provided with two sets of manipulators, each set of transfer basket platform respectively corresponds to one set of material basket transferring device and one set of manipulator, the transfer basket platform comprises a material transferring mechanism and a transfer material inserting mechanism, the manipulator is used for transferring the glass sheets conveyed to the tail end by the automatic variable-pitch conveying line to a transfer material supporting mechanism, the transfer material supporting mechanism is used for executing clamping operation to position the glass sheets transferred to the transfer material supporting mechanism, the transfer material inserting mechanism is used for executing basket inserting operation to push the glass sheets positioned on the transfer material supporting mechanism to a material basket, the material basket is borne by a material basket transfer device corresponding to the transfer basket platform, and the material basket transfer device bears and drives the material basket to move so that the transfer basket platform can orderly insert the glass sheets into different slots in the material basket.
2. The fully-automatic basket inserting apparatus for a glass sheet production line as recited in claim 1, wherein the automatic variable pitch conveyor line includes a conveyor line base, a flow channel fixing plate, a flow channel moving plate, a variable pitch motor and a conveyor motor disposed on the conveyor line base, wherein:
the runner fixing plate and the runner movable plate are oppositely arranged left and right, the runner fixing plate and the runner movable plate are oppositely provided with transmission belts with transmission surfaces arranged in parallel, an output shaft of the transmission motor is connected with a driving shaft through a coupler, the driving shaft is spliced with two flat belt rollers capable of synchronously rotating, the two flat belt rollers are respectively connected with one transmission belt transmission sleeve, so that when the transmission motor drives the driving shaft to rotate, the two flat belt rollers synchronously rotate, the two transmission belts synchronously rotate, the runner fixing plate and the runner movable plate are oppositely provided with wear-resistant strips arranged in parallel, the transmission surfaces of the two transmission belts are positioned between the two wear-resistant strips, the wear-resistant strips are parallel to the transmission direction of the transmission belts, and a transmission channel is formed between the two wear-resistant strips, the glass sheets to be conveyed are respectively placed on two conveying belts through two ends of the glass sheets in the conveying channel for conveying;
the runner fixed plate is relative the fixed setting of transfer chain base, the runner fly leaf is relative the activity of runner fixed plate sets up on the transfer chain base, the runner fly leaf by the displacement motor drives so that the runner fly leaf is relative the runner fixed plate is in move on the transfer chain base, the runner fly leaf is in moving direction perpendicular to on the transfer chain base the transmission direction of transmission belt, through the runner fixed plate with relative distance's change between the runner fly leaf to the width that realizes adjusting the transmission channel is in order to adapt to the not glass piece of carrying unidimensional.
3. The full-automatic basket inserting equipment for the glass sheet production line according to claim 2, wherein a flange limiting plate is arranged at the end of the wear-resistant strip at the output end of the conveying channel, the flange limiting plate is used for blocking the glass sheets conveyed through the conveying channel, a conveying-in-place sensor is further arranged close to the flange limiting plate, and the conveying-in-place sensor is used for detecting the glass sheets blocked by the flange limiting plate and conveyed in place.
4. The full-automatic basket inserting equipment for the glass sheet production line as claimed in claim 1, wherein the double-manipulator taking mechanism comprises a vertically arranged mounting plate, two sets of first lead screws which are distributed up and down are transversely mounted on the front surface of the mounting plate, two ends of each first lead screw are fixedly connected with the mounting plate through lead screw support assemblies, each set of manipulator on the double-manipulator taking mechanism is provided with one set of first lead screw and one taking traversing motor, each taking traversing motor is in transmission connection with the corresponding first lead screw to drive the corresponding manipulator to transversely move when the corresponding first lead screw rotates, and each taking traversing motor is a servo motor; the manipulator is including connecting the cylinder mounting panel that is to erect the setting on the first lead screw slider that corresponds first lead screw, the lower part of cylinder mounting panel is installed and is got material slip table cylinder, the output shaft who gets material slip table cylinder has the cylinder fly leaf that the drive goes up and down, the lower extreme of cylinder fly leaf is connected with revolving cylinder, revolving cylinder's rotatory output shaft is connected with the suction nozzle mounting panel downwards and through the chain piece, the suction nozzle mounting panel is connected with the suction nozzle subassembly towards down.
5. The fully automatic insert basket apparatus for a glass sheet production line of claim 4 wherein in each set of the mid insert basket platform:
the transfer material supporting mechanism comprises a lower mounting plate, a second screw rod, a first motor and two supporting plates, two ends of the second screw rod are respectively mounted on the lower mounting plate through screw rod supporting components, two second screw rod sliding blocks are arranged on the second screw rod in a matching mode, the two second screw rod sliding blocks are respectively connected with one supporting plate support, the two supporting plates are respectively connected above the two supporting plate supports and are oppositely arranged at the same height, the first motor is in transmission connection with the second screw rod, the second screw rod is used for driving the two second screw rod sliding blocks to move oppositely or reversely on the second screw rod under the transmission of the first motor, so that the two supporting plates are driven to fold or separate, and the two supporting plates during folding are used for supporting glass sheets;
the transfer plug-in mechanism comprises an upper mounting plate, a third lead screw, a second motor, a lifting sliding table cylinder, a suction plate and a camera, wherein the upper mounting plate is arranged above the lower mounting plate at intervals, two ends of the third lead screw are respectively mounted on the upper mounting plate through lead screw supporting components and are vertical to the axial direction of the second lead screw, a third lead screw slider is arranged on the third lead screw in a matching manner, the third lead screw slider is connected with the lifting sliding table cylinder through a cylinder fixing plate, an output shaft of the lifting sliding table cylinder is connected with the suction plate through a suction plate fixing plate and a horizontal arrangement, the suction plate is driven to move up and down, the second motor is connected with the third lead screw in a transmission manner, the third lead screw drives the lifting sliding table cylinder to move back and forth under the transmission of the second motor so as to drive the suction plate to move back and forth, the camera is fixedly mounted on the upper mounting plate towards a material basket and through a camera support, the suction plate sucks the glass sheets supported by the two supporting plates under the coordination of the front and back movement and the lifting movement, moves forwards and is inserted into the material basket, and the material basket is photographed and positioned by the camera.
6. The full-automatic basket inserting equipment for the glass sheet production line as claimed in claim 5, wherein a third wire rail parallel to the second screw rod is arranged on the lower mounting plate, and two second screw rod sliding blocks are respectively connected with wire rail sliding blocks arranged on the third wire rail in a sliding mode through sliding block mounting pieces; be equipped with on the mounting panel of upper portion with the parallel second line rail of third lead screw, third lead screw slider is connected with the slip through slider installed part and sets the line rail slider on the second line rail, the second line rail is two, two divide about the second line rail to locate the both sides of third lead screw.
7. The full-automatic basket inserting equipment for the glass sheet production line as claimed in claim 6, wherein a guiding limit plate is arranged above one end of each of the two support plates close to each other, and when the two support plates are folded, a clamping groove is formed between the two guiding limit plates for clamping and guiding and limiting the glass sheet; the guide limiting plates are arranged on the guide limiting sides and are provided with a plurality of rolling shafts arranged along the length direction of the guide limiting plates, and the clamping grooves formed between the two guide limiting plates are used for clamping the glass sheets to realize guide limiting.
8. The full-automatic basket inserting equipment for the glass sheet production line according to claim 1, wherein the basket transferring device comprises a mounting back plate vertically arranged along the Z direction, an X-axis module is mounted on the front surface of the mounting back plate, a Z-axis module is mounted on the X-axis module, a basket fixing mechanism is mounted on the Z-axis module, the X-axis module and the Z-axis module are both servo-driven linear motion modules, the X-axis module is used for driving the Z-axis module to move along the X direction, and the Z-axis module is used for driving the basket fixing mechanism to move along the Z direction; the material basket fixing mechanism comprises a material basket back plate and an upper and lower air cylinder, the material basket back plate and the upper and lower air cylinder are vertically arranged along the Z direction, a holding area used for attaching and placing a material basket is arranged on the front side of the material basket back plate, a supporting block connected to the bottom edge of the material basket back plate is arranged below the holding area, a clamping block is arranged above the holding area, the upper and lower air cylinder are fixedly installed above the material basket back plate through an upper and lower air cylinder fixing plate, an output shaft of the upper and lower air cylinder is connected with the clamping block to drive the clamping block to move up and down, and therefore the clamping block is matched with the supporting block to clamp or loosen the upper end and the lower end of the material basket located in the holding area.
9. The full-automatic basket inserting device for the glass sheet production line as claimed in claim 8, wherein the material basket back plate is further provided with a limiting block and a back cylinder, the limiting block and the material basket back plate are respectively arranged at the left side and the right side of the placement area and are fixedly connected, the back cylinder is fixedly arranged at the edge of the side portion of the material basket back plate, an output shaft of the back cylinder is connected with a clamping block through a clamping block mounting plate, and the back cylinder is used for driving the clamping block to move left and right so as to enable the clamping block to be matched with the limiting block to clamp or loosen the left end and the right end of the material basket in the placement area.
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CN202220658979.1U CN217376453U (en) | 2022-03-24 | 2022-03-24 | Full-automatic basket inserting equipment for glass sheet production line |
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CN202220658979.1U CN217376453U (en) | 2022-03-24 | 2022-03-24 | Full-automatic basket inserting equipment for glass sheet production line |
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CN202220658979.1U Active CN217376453U (en) | 2022-03-24 | 2022-03-24 | Full-automatic basket inserting equipment for glass sheet production line |
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