CN204896009U - A automation equipment that is used for ceramic tile to select separately and pack - Google Patents

A automation equipment that is used for ceramic tile to select separately and pack Download PDF

Info

Publication number
CN204896009U
CN204896009U CN201520437948.3U CN201520437948U CN204896009U CN 204896009 U CN204896009 U CN 204896009U CN 201520437948 U CN201520437948 U CN 201520437948U CN 204896009 U CN204896009 U CN 204896009U
Authority
CN
China
Prior art keywords
ceramic tile
clamping
packaging box
packaging
automation equipment
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201520437948.3U
Other languages
Chinese (zh)
Inventor
王伟
程峰
张波
谭骏文
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sankyo Precision Huizhou Co Ltd
Original Assignee
Sankyo Precision Huizhou Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sankyo Precision Huizhou Co Ltd filed Critical Sankyo Precision Huizhou Co Ltd
Priority to CN201520437948.3U priority Critical patent/CN204896009U/en
Application granted granted Critical
Publication of CN204896009U publication Critical patent/CN204896009U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model discloses an automation equipment that is used for ceramic tile to select separately and pack, including setting gradually: a vision outward appearance detection mechanism for detecting ceramic tile type and design generate a feedback signal, it is regional to be equipped with a plurality of sortings to it flows into the same regional positioning mechanism that selects separately to carry the ceramic tile of same design according to feedback signal, select separately that regional ceramic tile takes out and according to the collating mechanism of fixed quantity and regulation positive and negative requirement stack with same in the positioning mechanism, the automatic packaging machine who goes on the ceramic tile behind the stack to pack constructs, and according to vision outward appearance detection mechanism's feedback signal, the packaged ceramic tile that constructs automatic packaging machine output takes out six manipulators putting at the different zone according to the design. The utility model discloses can realize carrying out classification, stack and packing in succession under the circumstances that the transport was not shut down, save the categorised time greatly, raise the efficiency to saving artifically and reducing intensity of labour, the structure of equipment is very simplified moreover, and the cost obtains further reduction.

Description

A kind of automation equipment for ceramic tile sorting and packaging
Technical field
The utility model relates to tile packs field, specifically refers to a kind of automation equipment for ceramic tile sorting and packaging.
Background technology
At present, the demand of ceramic tile increases day by day, and productive output is also along with increasing sharply.After ceramic tile sinters out from kiln, by having multiple pattern, need to arrange a large amount of manpowers to go to distinguish sorting.And belong to fragile due to ceramic tile, after ceramic tile machines, for avoiding transporting and fragmentation in storage process and scuffing, all need to pack ceramic tile.Existing tile packs mainly produces manufacturing line by artificial or semi-automatic, needs manually to be put well by ceramic tile, artificial paper feeding, puts cornerite, flanging, piling etc.Owing to being manual work, labour intensity is large, and efficiency is low, and work under bad environment, and tile packs operation is many, long flow path, brings very large difficulty to mechanization production.
Utility model content
The purpose of this utility model overcomes weak point of the prior art, provides a kind of and reduce hand labor intensity, the automation equipment for ceramic tile sorting and packaging that the high and cost of efficiency is low.
The purpose of this utility model is achieved through the following technical solutions:
For an automation equipment for ceramic tile sorting and packaging, comprise and setting gradually:
For detecting tile type and pattern and generating the visual appearance testing agency of a feedback signal;
Be provided with multiple points of favored area, and the conveying of the ceramic tile of same pattern flowed into the detent mechanism of same point of favored area according to feedback signal;
The ceramic tile of same point of favored area in detent mechanism to be taken out and by the stacking mechanism of fixed qty and regulation pros and cons requirement stacking;
Ceramic tile after stacking is carried out the automatic packing mechanism packed;
And according to the feedback signal of visual appearance testing agency, the packaged ceramic tile exported by automatic packing mechanism takes out the six axis robot being placed in zones of different by pattern.
Improve as one of the present utility model, also be provided with between described visual appearance testing agency and detent mechanism according to computer vision checking system feedback signal, different pattern ceramic tile classified and the tiles edges flowed out in visual appearance testing agency carries out the bar code ink jet numbering machine of coding.
As another improvement of the present utility model, before described visual appearance testing agency, be also provided with the planeness testing agency for detecting ceramic tile deformed state.
Concrete, described detent mechanism comprises the first conveying mechanism, described stacking mechanism comprises second conveyor structure, the rear end of the first conveying mechanism be provided with for by ceramic tile piecewise interval stop and the ceramic tile blocking mechanism of locate, be provided with the ceramic tile of the first conveying mechanism rear end to clamp between described first conveying mechanism and second conveyor structure and rise and clamping the clamping rotating machine arm rising and drive ceramic tile rotation and translation afterwards; The front end of described second conveyor structure is provided with the ceramic tile for receiving clamping rotating machine arm translation input and waits for the material lift platform mechanism of stacking.
Concrete, described automatic packing mechanism is comprised and being connected successively by load-transfer device: for ceramic tile being input to the ceramic tile input mechanism of load-transfer device; For the Pai Zhuan mechanism of aliging that ceramic tile surrounding Angle Position and leatheroid flanging are overlapped; For corner brace being inserted the inferior horn mechanism of ceramic tile surrounding Angle Position; And the edge-folding mechanism for Packaging Box is turned up along broken line, described Pai Zhuan mechanism is also connected with the lower mechanism of paper for automatically inputting Packaging Box to Pai Zhuan mechanism.
The utility model has the following advantages and beneficial effect compared to existing technology:
The utility model carries out consecutive sort, stacking and packaging under can be implemented in the non-stop-machine situation of conveying, greatly saves the classification time, raises the efficiency, and saves artificial and reduce labour intensity, and the structure of equipment greatly simplifies, and cost is reduced further.
Accompanying drawing explanation
Fig. 1 is the perspective view of the utility model detent mechanism and stacking mechanism.
Fig. 2 is the structural representation of planeness testing agency, visual appearance testing agency, bar code ink jet numbering machine.
Fig. 3 is the perspective view of detent mechanism, stacking mechanism.
Fig. 4 is the front view of detent mechanism, stacking mechanism.
Fig. 5 is the perspective view of the first clamping device.
Fig. 6 be automatic packing mechanism overlook direction structure schematic diagram.
Fig. 7 is the structural representation of Pai Zhuan mechanism.
Fig. 8 is the structural representation of lower mechanism of paper.
Fig. 9 is the structural representation of inferior horn mechanism.
Figure 10 is the structural representation of the first pushing mechanism, splicing assembly and the second pushing mechanism.
Figure 11 is the perspective view of edge-folding mechanism.
Figure 12 is the partial enlarged drawing of part A in Figure 11.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.
Embodiment
As shown in Figure 1, the present embodiment provides a kind of automation equipment for ceramic tile sorting and packaging, comprises setting gradually:
For detecting tile type and pattern and generating the visual appearance testing agency 1 of a feedback signal;
Be provided with multiple points of favored area 201, and the conveying of the ceramic tile of same pattern flowed into the detent mechanism 2 of same point of favored area according to feedback signal;
The ceramic tile of same point of favored area in detent mechanism 2 to be taken out and by the stacking mechanism 3 of fixed qty and regulation pros and cons requirement stacking;
Ceramic tile after stacking is carried out the automatic packing mechanism 4 packed;
And according to the feedback signal of visual appearance testing agency, the packaged ceramic tile exported by automatic packing mechanism takes out the six axis robot 5 being placed in zones of different by pattern.By said structure, after ceramic tile has sintered, the automation equipment of the sorting of this ceramic tile and packaging can be entered, carry out intelligentized pattern differentiation and stacking successively, after stacking completes, automatically pack, after packaging, be placed in Different Package region by six axis robot by pattern taking-up.
Composition graphs 1 and Fig. 2, also be provided with between described visual appearance testing agency 1 and detent mechanism 4 according to computer vision checking system feedback signal, different pattern ceramic tile classified and the tiles edges flowed out in visual appearance testing agency carries out the bar code ink jet numbering machine 6 of coding.On ceramic tile, spray bar code by bar code ink jet numbering machine, many information such as the manufacturing firm of this ceramic tile, trademark, date manufactured can be marked, thus realize false proof and product design and review effect.
The planeness testing agency 7 for detecting ceramic tile deformed state is also provided with before described visual appearance testing agency 1.Described planeness testing agency adopts technical products well known in the art.During work, the ceramic tile of pattern is not divided to flow into, ceramic tile is through drum belt horizontal positioned, the surveyed area of steady inflow planeness testing agency, in-built five the infrared ray height testing instruments of planeness testing agency 7, detect difference of height on the horizon in ceramic tile glaze paint, the plane camber detecting ceramic tile (comprises diagonal line, the recessed maximum difference of limit chimb), judge whether product exceeds standard, judge the grade of high-class product, and allow exceed standard value and the value that definitely exceeds standard that regulate degree of deformation, the tile product not reaching requirement can flow directly into sorting mechanism (not shown), final inflow defective products region.
As Fig. 3, described detent mechanism 2 comprises the first conveying mechanism 201, described stacking mechanism 3 comprises second conveyor structure 301, the rear end of the first conveying mechanism 201 be provided with for by ceramic tile piecewise interval stop and the ceramic tile blocking mechanism 202 of locate, be provided with the ceramic tile of the first conveying mechanism rear end to clamp between described first conveying mechanism 201 and second conveyor structure 301 and rise and clamping the clamping rotating machine arm 8 rising and drive ceramic tile rotation and translation afterwards; The front end of described second conveyor structure 301 is provided with the ceramic tile for receiving clamping rotating machine arm 6 translation input and waits for the material lift platform mechanism 302 of stacking.By ceramic tile blocking mechanism, the ceramic tile of the first conveying mechanism is stopped location, by clamping rotating machine arm, ceramic tile clamping is risen behind location, simultaneously in clamping rise process, on request adjustments replacing is carried out to the front of ceramic tile or the back side, Final Translation is stacked on material lift platform mechanism, whole process participates in without the need to personnel, reduce the labour intensity of workman, whole switching process continuously and mechanization automatically complete, and reduce cost of labor and enhance productivity.
Composition graphs 3 and Fig. 4, described ceramic tile blocking mechanism 202 comprises baffle plate 2021 and registration device 2022, described baffle plate 2021 is arranged on the middle part of the first conveying mechanism 2022, and the bottom of described baffle plate 2022 is connected with the first lift cylinder 2023 driving baffle plate up-and-down movement; Described registration device 2022 comprises the material lift landing slab 20221 be arranged on perpendicular to the dual-side in the first conveying mechanism transmission direction, and the bottom of described material lift landing slab 20221 is connected with the second lift cylinder 20222 driving material lift landing slab up-and-down movement.By said structure, enter the station of the first conveying mechanism 201, rear end at ceramic tile after, baffle ceramic tile, spacing to ceramic tile, the material lift landing slab 4021 on both sides lifts ceramic tile, ceramic tile clamping is risen for clamping rotating machine arm.
Described clamping rotating machine arm 8 comprises clamping frame 801, first swing arm 802, second swing arm 803, first clamping device 804 and the second clamping device 805, described first swing arm 802, second swing arm 803 is hinged with clamping frame 801, described first swing arm 802, also be provided with for driving the first swing arm 802 between second swing arm 803 and clamping frame 801, second swing arm 803 clamps the swing driving mechanism 810 that frame 801 synchronously swings relatively, described first clamping device 804, second clamping device 805 is separately positioned on the first swing arm 802, the top of the second swing arm 803, described first clamping device 804, second clamping device 805 is respectively equipped with the first synchronizing wheel 806, second synchronizing wheel 807, described first synchronizing wheel 806, second synchronizing wheel 807 is connected with for driving the first clamping device by belt 808, the rotary drive mechanism 809 of the second clamping device synchronous rotary.
As Fig. 5, described first clamping device 804 comprises chuck 8041, rotating shaft 8042, axle sleeve 8043, bearing 8044, air cylinder fixed plate 8045 and gripper cylinder 8046, described air cylinder fixed plate 8045 is fixed on the first swing arm 802, described cylinder 8046 is arranged in air cylinder fixed plate 8045, the piston rod of described gripper cylinder 8046 is coaxially fixedly connected with rotating shaft 8042, described bearing 8044 is fixedly installed in air cylinder fixed plate 8045, bearing 8044 is socketed in rotating shaft 8042, described axle sleeve 8043 is socketed in rotating shaft 8042, described first synchronizing wheel 806 is socketed on axle sleeve 8043, described chuck 8041 is fixedly mounted on the front end of axle sleeve 8043.Second clamping device 805 and the first clamping device 804 adopt same mechanical to construct and configure, pass through said structure, gripper cylinder 8046 drive chuck 8041 to seesaw to realize to the clamping of ceramic tile with unclamp, and when rotary drive mechanism 809 action, drive rotating shaft 8042 to rotate by synchronizing wheel again, realize in clamping rise process, carrying out adjustments replacing to the front of ceramic tile or the back side to ceramic tile on request.
In the present embodiment, described material lift platform mechanism 6 be arranged on the first conveying mechanism 2 and the theory of machines of ceramic tile blocking mechanism consistent, its course of action is just contrary, repeats no more herein.
As Fig. 6, described automatic packing mechanism 4 is comprised and being connected successively by load-transfer device: for ceramic tile being input to the ceramic tile input mechanism 401 of load-transfer device; For the Pai Zhuan mechanism 402 of aliging that ceramic tile surrounding Angle Position and leatheroid flanging are overlapped; For packaging corner brace being inserted the inferior horn mechanism 403 of ceramic tile surrounding Angle Position; And the edge-folding mechanism 404 for Packaging Box is turned up along broken line, described Pai Zhuan mechanism is also connected with the lower mechanism of paper 405 for automatically inputting Packaging Box to Pai Zhuan mechanism.
In the present embodiment, described ceramic tile input mechanism 1 can adopt Power Drive Unit to drive belt conveyor to realize, and described Power Drive Unit can adopt motor and power wheel to realize, and it is the common load transfer device in this area, repeats no more herein.
In the present embodiment, be also provided with after described edge-folding mechanism 404 for leatheroid being turned up rear the first automatic strapping machine 406 carrying out laterally fetter laterally across packing rope to ceramic tile and leatheroid successively, leatheroid turned up by the slewing 407 at ceramic tile and leatheroid 90-degree rotation angle and being used for rear the second automatic strapping machine 408 that the longitudinal direction of ceramic tile and leatheroid is fettered by packing rope.Wherein, described first automatic strapping machine, slewing, the second automatic strapping machine can adopt technical products well known in the art.By said structure, realize ceramic tile and automatically play band after leatheroid is turned up, save manpower further, reduce packing cost.
As Fig. 7, described Pai Zhuan mechanism 402 comprises claps brick support 4021, described bat brick support 4021 be provided with for by ceramic tile and Packaging Box from the material lift assembly 4022 clapped brick support 4021 and lift, and after ceramic tile lifts with Packaging Box, promote ceramic tile surrounding and leatheroid flanging to overlap the pushing material component 4023 alignd, described material lift assembly 4022 is arranged on the middle part of clapping brick support 4021, described pushing material component 4023 is around the periphery being arranged on material lift assembly 4022, and described lower mechanism of paper 405 is disposed adjacent with bat brick support about 4021.
Wherein, the pushing block that material lift assembly 4022, pushing material component 4023 include pusher cylinder and be connected with pusher cylinder, described pushing block is plane, and the front portion of described pushing block is also provided with runner, and described runner is provided with cushion compound.
As Fig. 8, described lower mechanism of paper 405 comprises lower paper support 4051, described lower paper riding is arranged, described lower paper support 4051 is provided with Packaging Box belt conveyor 4052, be positioned at Packaging Box belt conveyor 4052 both sides baffle plate 4053 and for providing the driver train (not shown) of propulsive effort to Packaging Box belt conveyor, described lower paper support 4051 is also provided with the air draft mechanism of fitting to make Packaging Box and Packaging Box belt conveyor for draw package carton, described air draft mechanism is furnished with the suction opeing 4054 towards Packaging Box belt conveyor 4052, the bottom of described lower paper support 4051 be provided with one at Packaging Box belt-driven bottom Packaging Box to the carton blocking mechanism 4055 stopping the bottom above level Packaging Box during underdrive.Pass through said structure, by after the Packaging Box belt conveyor of lower paper support places Packaging Box, if when ceramic tile enters in advance and claps brick support, suction opeing draw package carton and the Packaging Box belt conveyor of air draft mechanism are fitted, by carton blocking mechanism, the above level Packaging Box of the bottom is stopped simultaneously, accurately the Packaging Box of the bottom is sent into and clap in brick support.
In the present embodiment, described air draft mechanism comprises blower fan (not shown), airduct (not shown) and exhausting support 4056, the ventilation inlet of described blower fan is connected with exhausting support by airduct, described suction opeing 4054 is arranged on exhausting support, and the two ends of described exhausting support to be fixed on lower paper support 501 and to be arranged in the middle of belt conveyor 4052.
As a kind of embodiment, described carton blocking mechanism 4055 comprises platen 40551 and the gear paper support 40552 that two ends are connected to lower paper support, described platen 40551 center is fixed with rotating shaft, the end of rotating shaft is connected with Rolling motor (not shown), and the outer surface of described platen 40551 is furnished with mechanism of paper holding 40553; Described gear paper support 40552 is equipped with the gear paper stopper 40554 for stopping the above level Packaging Box of bottom Packaging Box.When the suction opeing draw package carton of air draft mechanism and Packaging Box belt conveyor are fitted, this Rolling motor drives axis of rotation, thus make mechanism of paper holding avoid the Packaging Box of the bottom, after this Packaging Box falls completely, Rolling motor drives axis of rotation again, the Packaging Box of mechanism of paper holding and the bottom is offseted, stops its landing immediately, until rear process operations completes repeat above action again.
In order to make operation smooth and easy, reduce resistance, the top of described lower paper support 4051 is provided with the tray paper cylinder 4057 for holding corner, Packaging Box top, and the two ends of described tray paper cylinder 4057 are arranged on lower paper support 4051 by bearing.
As Fig. 9, Figure 10, described inferior horn mechanism 403 comprises inferior horn support 4035, described inferior horn support is provided with the dress angle box 4031 of the corner brace for holding and load unified direction, discharging opening is provided with bottom described dress angle box 4031, described discharging opening is provided with for by first pushing mechanism 4032 of corner brace from dress angle box 4031 single release, the below of described pushing mechanism is provided with the splicing assembly 4033 for connecing corner brace, described splicing assembly 4033 is provided with the accommodation space similar to corner brace " V " type contour shape, described splicing assembly 4033 is connected with the second pushing mechanism 4034 for the corner brace in splicing assembly being pushed tile corner.
Described first pushing mechanism 4032 comprises the first cylinder 40321 and the first air cylinder fixed plate 40322, described first cylinder 40321 is fixedly mounted in the first air cylinder fixed plate 40322, the piston rod of described first cylinder 40321 is connected with pressing plate fixed block 40323, described pressing plate fixed block 40323 is provided with inferior horn pressing plate 40324, described inferior horn pressing plate 40324 is processed with the V-shaped groove similar to corner brace shape, described first cylinder 40322 is vertically arranged, and described inferior horn pressing plate 40324 is arranged on discharging opening middle and upper part.By said structure, when corner brace arrives discharging opening position under gravity, the first cylinder drives inferior horn pressing plate to decline, and inferior horn pressing plate drives a corner brace to drop on splicing assembly, realizes automatic material taking in the box of dress angle.
In this enforcement, described second pushing mechanism 4034 comprises the second cylinder 40341 be connected with splicing assembly 4033, and described second cylinder 40341 is horizontally disposed with.By said structure, the second cylinder drives splicing assembly to four Angle Position motions of ceramic tile, promotes corner brace and resets behind tile corner position.
In the present embodiment, described dress angle box 4031 is provided with 4, described 4 dress angle boxes corresponding four Angle Position being arranged on the corresponding ceramic tile of inferior horn support 4035 respectively.
As Figure 11 and Figure 12, described edge-folding mechanism 404 comprises paper folding support 4041 and is positioned at one group of guide rail 4042 inside paper folding support 4041, be provided with for by ceramic tile and treat the conveying mechanism 4043 that the Packaging Box of flanging drives forwards in described paper folding support 4041, described ceramic tile to be positioned on Packaging Box and to be positioned over center, described Packaging Box comprises base plate and is positioned at the left and right flanging of the base plate left and right sides and is positioned at the front and back flanging of both sides, front and back, described guide rail 4042 is provided with the orienting lug 4044 for being folded into center position by Packaging Box left and right flanging, described paper folding support 1 is also provided with the flanging apparatus for bending 4045 for being folded into center position by front and back flanging.
Described flanging apparatus for bending 4045 comprises flanging cylinder 40451, air cylinder support 40452, pole socket 40453, bending guide rod assembly, described air cylinder support 40451, pole socket 40453 is fixed on paper folding support 4041, described flanging cylinder 40451 is connected with bending guide rod assembly by cylinder connection piece, bending guide rod assembly comprises end casing 40454, connecting rod 40455 and major axis roller 40456, end casing 40454 bolt is connected to the two ends of described connecting rod 40455, described end casing 40454 is arc, described end casing 40454 one end to be nested with on pole socket 40453 and to be formed hinged with pole socket 40453, described end casing 40454 other end is fixedly connected with by the two ends of bolt with major axis roller 40456.Because described end casing is arc, when the assembly action of air cylinder driven bending guide rod, before and after major axis roller promotes, flanging completes turning up to center position of flanging.
Concrete, described orienting lug 4044 comprise be arranged on guide rail two inside the first orienting lug 40441 and the second orienting lug 40442 of arranging in opposite directions, first orienting lug 40441, second orienting lug 40442 includes leading portion, stage casing and back segment, wherein, described leading portion is from the oblique extension in the front end in stage casing and be attached thereto, and the first orienting lug and the second orienting lug less gradually at the angle of leading portion, described back segment is connected with the rear end in described stage casing, and described stage casing, back segment are provided with L-shaped arc guide groove.
Above-described embodiment is the utility model preferably embodiment; but embodiment of the present utility model is not restricted to the described embodiments; change, the modification done under other any does not deviate from Spirit Essence of the present utility model and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection domain of the present utility model.

Claims (10)

1. for an automation equipment for ceramic tile sorting and packaging, to it is characterized in that, comprise and setting gradually:
For detecting tile type and pattern and generating the visual appearance testing agency of a feedback signal;
Be provided with multiple points of favored area, and the conveying of the ceramic tile of same pattern flowed into the detent mechanism of same point of favored area according to feedback signal;
The ceramic tile of same point of favored area in detent mechanism to be taken out and by the stacking mechanism of fixed qty and regulation pros and cons requirement stacking;
Ceramic tile after stacking is carried out the automatic packing mechanism packed;
And according to the feedback signal of visual appearance testing agency, the packaged ceramic tile exported by automatic packing mechanism takes out the six axis robot being placed in zones of different by pattern.
2. the automation equipment for ceramic tile sorting and packaging according to claim 1, it is characterized in that: be also provided with according to computer vision checking system feedback signal between described visual appearance testing agency and detent mechanism, different pattern ceramic tile to be classified and the tiles edges flowed out in visual appearance testing agency carries out the bar code ink jet numbering machine of coding.
3. the automation equipment for ceramic tile sorting and packaging according to claim 1, is characterized in that: be also provided with the planeness testing agency for detecting ceramic tile deformed state before described visual appearance testing agency.
4. the automation equipment for ceramic tile sorting and packaging according to claim 1, it is characterized in that: described detent mechanism comprises the first conveying mechanism, described stacking mechanism comprises second conveyor structure, the rear end of the first conveying mechanism be provided with for by ceramic tile piecewise interval stop and the ceramic tile blocking mechanism of locate, be provided with the ceramic tile of the first conveying mechanism rear end to clamp between described first conveying mechanism and second conveyor structure and rise and clamping the clamping rotating machine arm rising and drive ceramic tile rotation and translation afterwards; The front end of described second conveyor structure is provided with the ceramic tile for receiving clamping rotating machine arm translation input and waits for the material lift platform mechanism of stacking.
5. the automation equipment for ceramic tile sorting and packaging according to claim 4, it is characterized in that: described ceramic tile blocking mechanism comprises baffle plate and registration device, described baffle plate is arranged on the middle part of the first conveying mechanism, and the bottom of described baffle plate is connected with the first lift cylinder driving baffle plate up-and-down movement; Described registration device comprises the material lift landing slab be arranged on perpendicular to the dual-side in the first conveying mechanism transmission direction, and the bottom of described material lift landing slab 20221 is connected with the second lift cylinder driving material lift landing slab up-and-down movement.
6. the automation equipment for ceramic tile sorting and packaging according to claim 5, it is characterized in that: described clamping rotating machine arm comprises clamping frame, first swing arm, second swing arm, first clamping device and the second clamping device, described first swing arm, second swing arm is hinged with clamping frame, described first swing arm, also be provided with for driving the first swing arm between second swing arm and clamping frame, second swing arm clamps the swing driving mechanism that frame synchronously swings relatively, described first clamping device, second clamping device is separately positioned on the first swing arm, the top of the second swing arm, described first clamping device, second clamping device is respectively equipped with the first synchronizing wheel, second synchronizing wheel, described first synchronizing wheel, second synchronizing wheel is connected with for driving the first clamping device by belt, the rotary drive mechanism of the second clamping device synchronous rotary.
7. the automation equipment for ceramic tile sorting and packaging according to claim 1, is characterized in that: described automatic packing mechanism is comprised and being connected successively by load-transfer device: for ceramic tile being input to the ceramic tile input mechanism of load-transfer device; For the Pai Zhuan mechanism of aliging that ceramic tile surrounding Angle Position and leatheroid flanging are overlapped; For corner brace being inserted the inferior horn mechanism of ceramic tile surrounding Angle Position; And the edge-folding mechanism for Packaging Box is turned up along broken line, described Pai Zhuan mechanism is also connected with the lower mechanism of paper for automatically inputting Packaging Box to Pai Zhuan mechanism.
8. the automation equipment for ceramic tile sorting and packaging according to claim 7, it is characterized in that: described Pai Zhuan mechanism comprises claps brick support, described bat brick support be provided with for by ceramic tile and Packaging Box from the material lift assembly clapped brick support and lift, and after ceramic tile lifts with Packaging Box, promote ceramic tile surrounding and leatheroid flanging to overlap the pushing material component alignd, described material lift assembly is arranged on the middle part of clapping brick support, described pushing material component is around the periphery being arranged on material lift assembly, and described lower mechanism of paper is disposed adjacent with about bat brick support.
9. the automation equipment for ceramic tile sorting and packaging according to claim 8, it is characterized in that: described lower mechanism of paper comprises lower paper support, described lower paper riding is arranged, described lower paper support is provided with Packaging Box belt conveyor, be positioned at Packaging Box belt conveyor both sides baffle plate and for providing the driver train of propulsive effort to Packaging Box belt conveyor, described lower paper support is also provided with the air draft mechanism of fitting to make Packaging Box and Packaging Box belt conveyor for draw package carton, described air draft mechanism is furnished with the suction opeing towards Packaging Box belt conveyor, the bottom of described lower paper support be provided with one at Packaging Box belt-driven bottom Packaging Box to the carton blocking mechanism stopping the bottom above level Packaging Box during underdrive.
10. the automation equipment for ceramic tile sorting and packaging according to claim 9, it is characterized in that: described carton blocking mechanism comprises platen and the gear paper support that two ends are connected to lower paper support, described platen center is fixed with rotating shaft, the end of rotating shaft is connected with Rolling motor, and the outer surface of described platen is furnished with mechanism of paper holding; Described gear paper support is equipped with the gear paper stopper for stopping the above level Packaging Box of bottom Packaging Box.
CN201520437948.3U 2015-06-23 2015-06-23 A automation equipment that is used for ceramic tile to select separately and pack Withdrawn - After Issue CN204896009U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520437948.3U CN204896009U (en) 2015-06-23 2015-06-23 A automation equipment that is used for ceramic tile to select separately and pack

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520437948.3U CN204896009U (en) 2015-06-23 2015-06-23 A automation equipment that is used for ceramic tile to select separately and pack

Publications (1)

Publication Number Publication Date
CN204896009U true CN204896009U (en) 2015-12-23

Family

ID=54918207

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520437948.3U Withdrawn - After Issue CN204896009U (en) 2015-06-23 2015-06-23 A automation equipment that is used for ceramic tile to select separately and pack

Country Status (1)

Country Link
CN (1) CN204896009U (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105035428A (en) * 2015-06-23 2015-11-11 惠州市三协精密有限公司 Automation equipment for sorting and packaging of ceramic tiles
CN105819015A (en) * 2016-06-02 2016-08-03 佛山市鼎航智能装备有限公司 Device for edge protection and corner protection and packaging machine
CN107140251A (en) * 2017-06-09 2017-09-08 郭善财 A kind of automation equipment sorted for ceramic tile with packing
CN111409917A (en) * 2020-04-08 2020-07-14 长沙宁湖机械设备有限公司 Plate-shaped steel packaging winder

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105035428A (en) * 2015-06-23 2015-11-11 惠州市三协精密有限公司 Automation equipment for sorting and packaging of ceramic tiles
CN105819015A (en) * 2016-06-02 2016-08-03 佛山市鼎航智能装备有限公司 Device for edge protection and corner protection and packaging machine
CN105819015B (en) * 2016-06-02 2018-01-12 佛山市鼎航智能装备有限公司 A kind of safe edge corner protector and packing machine
CN107140251A (en) * 2017-06-09 2017-09-08 郭善财 A kind of automation equipment sorted for ceramic tile with packing
CN111409917A (en) * 2020-04-08 2020-07-14 长沙宁湖机械设备有限公司 Plate-shaped steel packaging winder

Similar Documents

Publication Publication Date Title
CN105035428A (en) Automation equipment for sorting and packaging of ceramic tiles
CN204896009U (en) A automation equipment that is used for ceramic tile to select separately and pack
CN203793672U (en) Semi-automatic encasement device
CN107140251A (en) A kind of automation equipment sorted for ceramic tile with packing
CN105129358A (en) Double-layer belt line provided with jacking module and operating method thereof
CN203032001U (en) Automatic lattice inserting machine
CN103818570A (en) Novel automatic case packer
CN105173764A (en) Device used for automatically stacking mineral wool products
CN204872922U (en) Ceramic tile automatic positioning and bunching device
CN102371251A (en) Battery product detection machine
CN205522674U (en) Corrugated box linkage production line
CN205023384U (en) Double layer belt line with jacking module
CN204297164U (en) A kind of ceramic automatic packing machine
CN203612640U (en) Elevator door board welding and stacking work station
CN205060980U (en) A device that is used for automatic pile up neatly of mineral wool goods
CN206187388U (en) Soft -packing punch -out equipment
CN104526828B (en) Automatic plate machining device for customizing furniture
CN106742206A (en) Envelope automatic feed dividing counting boxing streamline
CN204895933U (en) Ceramic tile automatic packaging machine constructs
CN106742248B (en) Self-service ATM automatic packaging production line and the technology of the package for using the production line
CN203727669U (en) Novel automatic packing apparatus
CN208761533U (en) A kind of full-automatic remanufacture line of magazine
CN203993066U (en) A kind of Full-automatic screw locking machine
CN208394121U (en) Charging type intelligent identification calculates sequence stacking counter handling facilities
CN203150530U (en) Transporting and screening device for battery packs

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned
AV01 Patent right actively abandoned

Granted publication date: 20151223

Effective date of abandoning: 20171010