CN204955880U - Mosaic automatic typesetting production line - Google Patents
Mosaic automatic typesetting production line Download PDFInfo
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- CN204955880U CN204955880U CN201520577736.5U CN201520577736U CN204955880U CN 204955880 U CN204955880 U CN 204955880U CN 201520577736 U CN201520577736 U CN 201520577736U CN 204955880 U CN204955880 U CN 204955880U
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Abstract
The utility model discloses a mosaic automatic typesetting production line, including spread flitch transmission device, spread flitch deposit output device, mixer a set of at least constructs and controlling means, controlling means is used for control to spread flitch transmission device, spreads the work that flitch deposit output device and mixer construct, shop flitch deposit output device locate the one end of spreading flitch transmission device transmission link, spread flitch transmission device and will spread the flitch release from spreading flitch deposit output device to construct other end fishplate bar department through the mixer, the mixer constructs according to predetermined picture arragement shape, slide in the shop's flitch net on the transmission link with the mosaic piece in, the automatic typesetting shop that can realize A variety of colors's mosaic piece pastes, has not only saved manpower and time cost, but also has improved speed and rate of accuracy that the shop of mosaic piece pasted.
Description
Technical field
The utility model relates to type-setting equipment technical field, is specifically related to a kind of mosaic Automatic Typesetting production line.
Background technology
Mosaic is a kind of inlay art the earliest, with coloured dummy sliders such as handstone, shell, ceramic tile, glass, applies the one art having drawing a design on wall surface or floor to show; And modern mosaic has the feature of environmental protection, by force ornamental, life-span long, safety and the features such as personalization with it, the parent of people is enjoyed to look at.
Existing mosaic makes and comprises following processing procedure:
The making of mosaic sheet, first glass carried out cleaning, dry, silk-screen colouring, hyperthermia drying, protective coating on silk-screen, then after the operation such as hyperthermia drying, then the specification size of this glass by mosaic sheet is cut;
The paving note of mosaic sheet, manually mosaic sheet unified in front paving in paving expanded metals lattice, whether after paving is good, and it is intact to detect mosaic sheet, if intact, carries out artificial turn-over to the mosaic sheet in paving plate;
The sticky net of mosaic sheet, is undertaken the mosaic sheet of reverse side paving in paving expanded metals lattice spreading the net that one deck scribbles sticky glue, is clung fixing;
The oven dry of mosaic sheet, places the mosaic sheet gluing net in baker, dries it.
The laying method of existing mosaic paving machine: normally carry out paving by artificial paving plate of placing one by one, waste of manpower, paving machine vibrating disk lines up queue material loading, because the materials such as glass belong to fragile article, large because vibrating during material loading in vibrating disk, impinging one another between mosaic, easily cause and collapse angle, cracked phenomenon, produce waste material, need manually to carry out choosing except waste material, the recognition capability of color mark sensor to the mosaic sheet of the mosaic sheet of multiple color and positive and negative color similarity is poor, mosaic sheet can not be made to be that the same face paving is in paving expanded metals lattice, when the mosaic sheet that holds vacuum cup also moves and is taped against on paving plate, easy generation can not inhaled, can't suck the phenomenon dropped in solid mobile way, and cause scarce grain on paving plate, need manually to carry out benefit grain, mosaic sheet for some surface irregularities cannot carry out typesetting paving with machine.
Utility model content
The purpose of this utility model is to provide a kind of mosaic Automatic Typesetting production line, is intended to the paving cost reducing mosaic, and improves paving speed and the accuracy rate of mosaic.
The utility model solves the technical scheme that its technical problem adopts: a kind of mosaic Automatic Typesetting production line, it is characterized in that: comprise paving plate transmitting device, paving plate deposit output device, the arrange anode machine structure of at least one group and control device, control device is for controlling paving plate transmitting device, the work of paving plate deposit output device and arrange anode machine structure, described paving plate deposit output device is located at one end of paving plate transmitting device chain, described arrange anode machine structure comprises the feed bin connected successively, mosaic sheet transmission filtering device, mosaic sheet collating unit, mosaic sheet turn-over rig and mosaic sheet composing device, arrange anode machine structure is located on paving plate transmitting device, paving plate is released from paving plate deposit output device by paving plate transmitting device, and through Automatic Typesetting mechanism to other end fishplate bar place, Automatic Typesetting mechanism is according to the jigsaw puzzle shape preset, mosaic sheet is slipped in the paving expanded metals lattice on chain.
As preferably, described paving plate deposit output device comprises paving plate deposit output bracket, lowering cage, paving plate chain driven pulley drive speed change commutation dynamical system, paving plate sliding support; Described lowering cage has multilayer circulation supporting plate post can place multiple paving plates, immediately below be provided with plate outlet; Described speed change commutation dynamical system drives the circulation of lowering cage supporting plate post to decline, and makes paving plate fall on paving plate sliding support, and paving plate chain block promotes the reach of bottom paving plate.
Preferably, described paving plate transmitting device comprises paving plate transmission support, the mair motor of the paving plate chain be arranged on paving plate transmission support, driving paving plate chain; Described paving plate chain is provided with the parallel ring chain of two rows, fixed range cross-over connection is provided with block, dog height is equal with paving plate thickness, make a block can only promote a paving plate, paving plate is forced through Automatic Typesetting mechanism to the artificial fishplate bar place of the other end from paving plate deposit output device, and described mair motor is electrically connected with control device.
Preferably, described feed bin is for placing mosaic sheet, and the below of feed bin is provided with discharging opening, and mosaic sheet slips into mosaic sheet transmission filtering device place by discharging opening.
Preferably, described mosaic sheet transmission filtering device comprises mosaic sheet transmission filtering support, the first left feed belt, the first right feed belt, drives the first left motor of the first left feed belt, drives the first right motor, the slippery filter element of the first right feed belt; Described first left feed belt, the first right feed belt are arranged on immediately below discharging opening, and the mosaic sheet slipping into the first feed belt is moved to described slippery filter element, have multirow filter bores, for filter glass particle impurity in the middle of this slippery filter element; The mosaic sheet moving to slippery filter element is slided into mosaic sheet collating unit; Described first left motor, the first right motor is all electrically connected with control device.
Preferably, described mosaic sheet collating unit comprise mosaic sheet line timber, the second feed belt, rubber roller, drive the second motor of rubber roller, bar is put down in left and right, be arranged on left and right put down bar both sides slide rail, drive left and right to put down the 3rd motor of bar, limit for height swing arm, drive the 4th motor of limit for height swing arm; Described second feed belt is installed many stainless steel uranium, form multiple first grid, for mosaic sheet is lined up queue successively, and separated; The mosaic sheet slipping into the second feed belt from slippery filter element is moved forward; Bar is put down, rubber roller in left and right, and limit for height swing arm is all only the thickness of one piece of mosaic sheet with the space of the second feed belt, will sweep about the mosaic sheet higher than one piece of thickness, roll backward, makes it drop in first grid in space; Limit for height swing arm by while across on stainless steel shaft mosaic sheet swing be slipped in grid space; Be provided with limit for height grille cover after limit for height swing arm, make can only form the queue of one deck in the first grid by the mosaic sheet of limit for height swing arm; Limit for height grille cover is provided with the first detection architecture, whether the first detection architecture is booked for the mosaic sheet detected in the first grid, and testing result is sent to control device, and to make control device control the first left feed belt, the work of the first right feed belt; Described second motor, the 3rd motor, the 4th motor, is all electrically connected with control device.
Preferably, described mosaic sheet turn-over rig comprises turn-over support, Breake Electromagnet, brake assembly, discharge door, stainless steel shaft fixed head, upper frictional force recognition component assembly, lower frictional force recognition component plate, synchrome conveying belt, turn-over door, diving board, slippery buffer board, power distribution assembly, drives power to distribute the turn-over motor of assembly; Multiple second grid is provided with above described synchrome conveying belt, slippery buffer board, for mosaic sheet is separated, on described synchrome conveying belt, fixed range is pasted with block, for by mosaic sheet synchronous driving to lower frictional force recognition component plate, from the mosaic sheet that described second feed belt moves into, through Breake Electromagnet in the first grid, brake assembly, on discharge door, is blocked motionless by stainless steel shaft fixed head; Described upper frictional force recognition component assembly comprises the lifting sliding rail that in cross bar, upper frictional force recognition component assembly bracket, driving, frictional force recognition component assembly bracket moves up and down, these cross bar two ends are slidably connected with front and back slide rail respectively, front and back slide rail is fixed on frictional force recognition component assembly bracket, multiple upper frictional force recognition component this cross bar is equipped with, be connected with cross bar axle sleeve, between upper frictional force recognition component and lower frictional force recognition component plate, gap is less than the thickness of one piece of mosaic sheet, and stressed upper frictional force recognition component moves up with axle sleeve; Axle one end of described turn-over door and slippery buffer board recessed bond ing, pivot when rising to top, the other end is micro-lower than plane on lower frictional force recognition component plate, in ramped shaped, be in one end higher than axle, pivot when dropping to top, plane on the other end and lower frictional force recognition component plate, drop is greater than the length of one piece of mosaic sheet, is in one end lower than axle; Brake assembly, discharge door, upper frictional force recognition component assembly, synchrome conveying belt, turn-over door, diving board all distribute assembly drived control by power, and Breake Electromagnet, turn-over motor are all electrically connected with control device.
When upper frictional force recognition component assembly is moved down by upper summit, power distributes assembly driving brake assembly and moves down, and the mosaic sheet below brake assembly is checked motionless, drives discharge door to pivot 45 degree simultaneously, makes mosaic sheet slip into synchrome conveying belt; Synchrome conveying belt block promotes on mosaic sheet synchronizing moving to lower frictional force recognition component plate, when described cross bar drops to top, upper frictional force recognition component moves with on axle sleeve by mosaic sheet reaction force, keep compressing the state of mosaic sheet under gravity constant, turn-over door pivots rising; Cross bar continues reach on lower summit, if when in mosaic sheet, frictional force is greater than lower frictional force, mosaic sheet moves forward with upper frictional force recognition component, and turn-over door pivots and rises to top, and mosaic sheet slips into described mosaic sheet composing device place through turn-over door, slippery buffer board; If when in mosaic sheet, frictional force is less than lower frictional force, mosaic sheet keeps motionless, and turn-over door pivots and rises to top; When cross bar rises to top retrogressing, turn-over door pivots and drops to top, synchrome conveying belt block promotes rear one piece of mosaic sheet and moves on lower frictional force recognition component plate, on turn-over door immediately below mosaic sheet promotion is above dropped to, automatic turnover in the larger situation of drop, diving board ejects, and by non-for part turn-over success, the mosaic sheet being in erectility pushes over turn-over; When cross bar moves down into the end by upper summit, turn-over door also rises to upper summit by lower summit, by the mosaic sheet of turn-over on turn-over door, described mosaic sheet composing device place is slipped into through slippery buffer board, and compress the mosaic sheet of new in-migration, circulate successively, make the unified setting in the same face of mosaic sheet through mosaic sheet turn-over rig.
Preferably, described mosaic sheet composing device comprises mosaic sheet typesetting support, paving groove, typesetting output assembly, drives typesetting to export the typesetting electromagnet of assembly; Described paving groove forms by sliding skateboard being installed multiple 3rd grid, in ramped shaped, high one end and described slippery buffer board recessed bond ing, and align with the second grid, low one end is fixed on described mosaic sheet typesetting support, paving expanded metals snap to grid on one end that 3rd grid is low and paving plate chain, and the 3rd grid is reduced to low one end gradually by high one end; 3rd grid is equipped with the second detection architecture, the 3rd detection architecture and typesetting and exports assembly, whether this second detection architecture is booked for the mosaic sheet detected in the 3rd grid, and testing result is sent to control device, with the work making control device control described turn-over rig Breake Electromagnet; Whether the 3rd detection architecture lacks material for the mosaic sheet detected in the 3rd grid, and testing result is sent to control device, with the work making control device control described paving plate transmitting device mair motor; Described paving plate every a line grid both sides have row detect aperture, paving plate is through mosaic sheet composing device, row detection architecture is used for the line number of detect lines detect aperture, on off state, and testing result is sent to control device, to make control device control corresponding typesetting work of electromagnet by the jigsaw puzzle shape preset, drive typesetting to export assembly and mention catch, mosaic sheet is slipped in corresponding paving expanded metals lattice line by line.
Preferably, described typesetting exports assembly and comprises brake and catch, and this catch is fixed on typesetting electromagnet active iron stamen, and brake is connected with catch lever, lever two ends, office; Typesetting electromagnet is in power failure state at ordinary times, and catch declines, and brake is mentioned; Slip into the mosaic sheet of mosaic sheet composing device, under paving groove the 3rd grid guide effect, through brake, blocked by catch, in the 3rd grid, line up queue successively; When obtaining electric work, catch is mentioned, and second piece of mosaic sheet is pinned in brake decline, and under gravity, first piece of mosaic sheet slides in paving expanded metals lattice.
The number of described feed bin, mosaic sheet transmission filtering device, mosaic sheet collating unit, mosaic sheet turn-over rig, mosaic sheet composing device is equal, and is more than one, and described feed bin is used for the mosaic sheet of placing different colours respectively; Every utilize description of the present invention and accompanying drawing content to do equivalent structure or the conversion of equivalent flow process, be directly or indirectly used in the technical field that other are relevant, be all in like manner included in scope of patent protection of the present invention.
The beneficial effects of the utility model are: compared with existing Mosaic-laying apparatus, have automaticity high, collapse angle, cracked phenomenon is few, decrease percent defective, turn-over rig positive and negative discrimination is high, and composing device requires low to mosaic sheet, applied widely, paving effect is better; Achieve the Automatic Typesetting paving of the mosaic sheet of multiple color, not only save manpower and time cost, but also improve speed and the accuracy rate of the paving of mosaic sheet.
Accompanying drawing explanation
Fig. 1 is the structural representation of mosaic Automatic Typesetting production line.
The structural representation of Tu2Shi Automatic Typesetting mechanism;
Fig. 3 is the combining structure schematic diagram of paving plate deposit output device and paving plate transmitting device.
Fig. 4 is the structural representation of paving plate deposit output device.
Fig. 5 is the combining structure schematic diagram of feed bin and mosaic sheet transmission filtering device.
Fig. 6 is the structural representation of mosaic sheet collating unit.
Fig. 7 is the cross-sectional view of mosaic sheet turn-over rig.
Fig. 8 is the structural representation of another angle of mosaic sheet turn-over rig.
Fig. 9 is the combining structure schematic diagram of mosaic sheet composing device and paving plate transmitting device.
Detailed description of the invention
The technical problem solved to make the utility model, technical scheme and beneficial effect are clearly understood, below in conjunction with accompanying drawing and embodiment, are further described the utility model.Should be appreciated that embodiment described herein only for explaining the utility model, and be not used in restriction the utility model.
As shown in Figure 1, the utility model is a kind of mosaic Automatic Typesetting production line, comprise paving plate transmitting device 70, paving plate deposit output device 60, the Automatic Typesetting mechanism 100 of at least one group and control device 80, control device is for controlling paving plate transmitting device 70, the work of paving plate deposit output device 60 and Automatic Typesetting mechanism 100, paving plate deposit output device 60 is located at one end of paving plate transmitting device 70 chain, Automatic Typesetting mechanism 100 comprises the feed bin 10 connected successively, mosaic sheet transmission filtering device 20, mosaic sheet collating unit 30, mosaic sheet turn-over rig 40 and mosaic sheet composing device 50, automatic arrange anode machine structure is located at directly over paving plate transmitting device 70, paving plate is released from paving plate deposit output device 60 by paving plate transmitting device 70, and through Automatic Typesetting mechanism 100 to other end fishplate bar place, Automatic Typesetting mechanism 100 is according to the jigsaw puzzle shape preset, mosaic sheet is slipped in the paving expanded metals lattice on chain.
As shown in Figure 2 and Figure 5, described feed bin 10 is for placing mosaic sheet, and bottom is provided with discharging opening 11, and described mosaic sheet slips into mosaic sheet transmission filtering device 20 by this discharging opening 11.
Concrete, in conjunction with reference Fig. 5, the first right motor 25, slippery filter element 26 that mosaic sheet transmission filtering device 20 comprises the right feed belt 23 of mosaic sheet transmission filtering support the 21, first left feed belt 22, first, drives the first left motor 24 of the first left feed belt, drives the first right feed belt; The right feed belt 23 of described first left feed belt 22, first is arranged on immediately below described discharging opening 11, the mosaic sheet slipping into belt is moved to described slippery filter element 26, large number of rows filter bores is had in the middle of this slippery filter element 26, for impurity such as filter glass particles, place in ramped shaped, and high one end and the first left feed belt 22, first right feed belt 23 connects, low one end is then connected with the second feed belt 302, and the mosaic sheet moving to slippery filter element 26 is slided into mosaic sheet collating unit 30.The right motor 25 of described first left motor 24, first is all electrically connected with control device 80.
Concrete, in conjunction with reference to Fig. 6, above-mentioned mosaic sheet collating unit 30 comprise mosaic sheet line timber 301, second feed belt 302, rubber roller 303, drive the second motor 304 of rubber roller, bar assembly 305 is put down in left and right, be arranged on left and right put down bar assembly both sides slide rail 306, drive left and right to put down the 3rd motor 307 of bar, limit for height swing arm 308, drive the 4th motor 309 of limit for height swing arm, described second feed belt is provided with many stainless steel uranium, forms multiple first grid 311, for mosaic sheet is lined up queue successively, and separated, left and right is put down bar assembly 305, rubber roller 303, limit for height swing arm 308 and is all only the thickness of one piece of mosaic sheet with the vertical open space of the second feed belt 302, second feed belt driving shaft drives rotation by the turn-over motor 413 of described mosaic sheet turn-over rig 40, the mosaic sheet slipping into the second feed belt 302 from slippery filter element 26 is moved forward, put down bar assembly 305 about this to be made up of the vertical plastic bar of three rows, two ends are slidably connected with described slide rail 306 respectively, move left and right along slide rail 306, sweep about the mosaic sheet higher than one piece of thickness, in left and right first grid 311 making it drop on space, described mosaic sheet moves to rubber roller 303 place, mosaic sheet higher than one piece of thickness is rolled by rubber roller 303 backward, in the grid space making it lag behind or in mosaic sheet, limit for height swing arm 308 will while across on stainless steel shaft, the mosaic sheet pushing through film roller 303 swings and is slipped in grid space, limit for height grille cover is provided with after this limit for height swing arm 308, make the mosaic sheet through limit for height swing arm 308 can only form the queue of one deck in the first grid 311, this limit for height grille cover is provided with the first detection architecture 310, whether this first detection architecture 310 is booked for the mosaic sheet detected in the first grid 311, and testing result is sent to control device 80, described first left feed belt 22 is controlled to make control device 80, the work of the first right feed belt 23, described second motor 304, the 3rd motor 307, the 4th motor 309 are all electrically connected in control device 80.
Concrete, in conjunction with reference Fig. 7 and Fig. 8, above-mentioned mosaic sheet turn-over rig 40 comprises turn-over support 401, Breake Electromagnet 402, brake assembly 403, discharge door 404, stainless steel shaft fixed head 405, upper frictional force recognition component assembly 406, lower frictional force recognition component plate 407, synchrome conveying belt 408, turn-over door 409, diving board 410, slippery buffer board 411, power distributes assembly 412, power is driven to distribute the turn-over motor 413 of assembly, described synchrome conveying belt 408, slippery buffer board 411 is provided with multiple second grid 414 above, for mosaic sheet is separated, on described synchrome conveying belt 408, fixed range is pasted with block 415, for by mosaic sheet synchronous driving to lower frictional force recognition component plate 407, from the mosaic sheet that described second feed belt 302 moves into, through Breake Electromagnet 402 in the first grid 311, brake assembly 403 is on discharge door 404, blocked motionless by stainless steel shaft fixed head 405, described upper frictional force recognition component assembly 406 comprises cross bar 417, upper frictional force recognition component assembly bracket 418, the lifting sliding rail 419 that in driving, frictional force recognition component assembly bracket moves up and down, these cross bar two ends are slidably connected with front and back slide rail 420 respectively, front and back slide rail 420 is fixed on frictional force recognition component assembly bracket 418, multiple upper frictional force recognition component 416 this cross bar 417 is equipped with, be connected with cross bar 417 axle sleeve, between upper frictional force recognition component 416 and lower frictional force recognition component plate 407, gap is less than the thickness of one piece of mosaic sheet, stressed upper frictional force recognition component 416 moves up with axle sleeve, axle one end of described turn-over door 409 and slippery buffer board 411 recessed bond ing, pivot when rising to top, the other end is micro-lower than plane on lower frictional force recognition component plate 407, in ramped shaped, be in one end higher than axle, pivot when dropping to top, plane on the other end and lower frictional force recognition component plate 407, drop is greater than the length of one piece of mosaic sheet, is in one end lower than axle, brake assembly 403, discharge door 404, upper frictional force recognition component assembly 406, synchrome conveying belt 408, turn-over door 409, diving board 410 all distribute assembly 412 drived control by power, and Breake Electromagnet 402, turn-over motor 413 are all electrically connected with control device 80.
Described cross bar 417 by summit move down time, power distributes assembly 412 driving brake assembly 403 and moves down, mosaic sheet below brake assembly 403 is checked motionless, drive discharge door 404 to pivot 45 degree simultaneously, mosaic sheet is made to slip into synchrome conveying belt 408, cross bar 417 continues reach and rises, when drawing back again, synchrome conveying belt block 415 promotes on mosaic sheet synchronizing moving to lower frictional force recognition component plate 407, described turn-over door 409 pivots to drop to push up and keeps motionless, cross bar 417 moves on to top decline after continuing time, turn-over door 409 pivots rising, when cross bar drops to top, upper frictional force recognition component 416 moves with on axle sleeve by mosaic sheet reaction force, keep the state compressing mosaic sheet constant under gravity, it is constant that turn-over door 409 drops to dome-shaped state, cross bar 417 continues reach on lower summit, if when in mosaic sheet, frictional force is greater than lower frictional force, mosaic sheet moves forward with upper frictional force recognition component 416, turn-over door 409 pivots and rises to top, and mosaic sheet slips into described mosaic sheet composing device 50 place through turn-over door 409, slippery buffer board 411, if when in mosaic sheet, frictional force is less than lower frictional force, mosaic sheet keeps motionless, turn-over door 409 pivots and rises to top, when cross bar 417 rises to top retrogressing, turn-over door 409 pivots and drops to top, synchrome conveying belt block 415 promotes rear one piece of mosaic sheet and moves on lower frictional force recognition component plate 407, mosaic sheet is above promoted on the turn-over door 409 immediately below dropping to, the automatic turnover when drop is larger, diving board 410 ejects, and by non-for part turn-over success, the mosaic sheet being in erectility pushes over turn-over.When cross bar 417 moves down into the end by upper summit, turn-over door 409 also rises to upper summit by lower summit, by the mosaic sheet of turn-over on turn-over door 409, slips into described mosaic sheet composing device 50 place through slippery buffer board 411; And compressing the mosaic sheet of new in-migration, circulation makes the unified setting in the same face of mosaic sheet through mosaic sheet turn-over rig 40 successively, and is sent to mosaic sheet composing device 50 place.
Concrete, in conjunction with reference Fig. 9, above-mentioned mosaic sheet composing device 50 comprises mosaic sheet typesetting support 51, paving groove 52, typesetting exports assembly 53, typesetting is driven to export the typesetting electromagnet 54 of assembly, paving groove 52 forms by sliding skateboard being installed multiple 3rd grid 521, in ramped shaped, high one end and described slippery buffer board 411 recessed bond ing, and the 3rd grid 521 aligns with the second grid 414, low one end is fixed on described mosaic sheet typesetting support 51, align with paving plate 90 grid lines on paving plate chain 72 in one end that 3rd grid 521 is low, and the 3rd grid 521 is reduced to low one end gradually by high one end.3rd grid 521 is equipped with the second detection architecture 55, the 3rd detection architecture 56 and typesetting and exports assembly 53, whether this second detection architecture 55 is booked for the mosaic sheet detected in the 3rd grid 521, and testing result is sent to control device 80, with the work making control device 80 control described mosaic sheet turn-over rig Breake Electromagnet 402; Whether the 3rd detection architecture 56 lacks material for the mosaic sheet detected in the 3rd grid 521, and testing result is sent to control device 80, with the work making control device 80 control described paving plate transmitting device mair motor 73; The every a line grid both sides of described paving plate 90 have row detect aperture 91, paving plate 90 is when mosaic sheet composing device 50, row detection architecture 57 is for line number, the on off state of detect lines detect aperture 91, and testing result is sent to control device 80, control corresponding typesetting electromagnet 54 to make control device 80 by the jigsaw puzzle shape preset and work; Drive typesetting to export assembly 53 and mention catch 531, mosaic sheet is slipped in corresponding paving plate 90 grid line by line.
Described typesetting exports assembly 53 and comprises brake 532 and catch 531, and this catch 531 is fixed on typesetting electromagnet 54 active iron stamen, and brake 532 is connected with catch 531 lever, lever two ends, office, typesetting electromagnet 54 is in power failure state at ordinary times, and catch 531 declines, and brake 532 is mentioned; The mosaic sheet slipping into mosaic sheet composing device 50, under the guide effect of paving groove the 3rd grid 521, through braking 532, being blocked by catch 531, in the 3rd grid 521, being lined up queue successively; When typesetting electromagnet 54 obtains electric work, catch 531 is mentioned, and brake 532 declines and pins second piece of mosaic sheet, and under gravity, first piece of mosaic sheet slides in paving plate 90 grid.
Concrete, in conjunction with reference Fig. 3 and Fig. 4, above-mentioned paving plate deposit output device 60 comprises the speed change commutation dynamical system 63 of paving plate deposit output bracket 61, lowering cage 62, the driving of paving plate chain driven pulley, paving plate sliding support 64, this lowering cage 62 comprises the contrary circulation supporting plate chain 621 of lowering cage support 620, two direction of rotation, and circulation supporting plate chain arranges parallel ring chain 622 by two, and fixed range cross-over connection is provided with supporting plate post 623, and paving plate prerotation vane 624 is housed between supporting plate post 623, supporting plate post 623, higher than paving plate prerotation vane 624, can place seven paving plates between every layer of supporting plate post 623, be provided with plate outlet 65 immediately below described lowering cage 62, and the space between plate outlet 65 and paving plate sliding support 64 only has the thickness by a paving plate, described speed change commutation dynamical system 63 drives lowering cage both sides supporting plate post 623 synchronous circulating to decline, seven of every one deck paving plates are moved down simultaneously, seven paving plates of the bottom are first fallen on paving plate sliding support 64, paving plate chain block 722 promotes the reach of bottom paving plate, plate outlet 65 limit for height makes six paving plates above keep off in lowering cage, after the paving plate of the bottom leaves lowering cage 62, a upper paving plate falls and becomes bottom paving plate, after seven, supporting plate post seven paving plates of last layer have also dropped on paving plate sliding support 64, the rest may be inferred, circulation is more than.
Concrete, in conjunction with reference Fig. 3, above-mentioned paving plate transmitting device 70 comprises paving plate transmission support 71, be arranged on the paving plate chain 72 on paving plate transmission support, drive the mair motor 73 of paving plate chain, described paving plate chain 72 arranges parallel ring chain 721 by two, fixed range cross-over connection is provided with block 722 and forms, block 722 height is equal with paving plate thickness, make a block 722 can only promote a paving plate, paving plate is forced through multiple stage mosaic sheet Automatic Typesetting equipment to the artificial fishplate bar place of the other end from paving plate deposit output device 60, described mair motor 73 is electrically connected with control device 80.
Concrete, in conjunction with reference Fig. 1, the number of above-mentioned feed bin 10, mosaic sheet transmission filtering device 20, mosaic sheet collating unit 30, mosaic sheet turn-over rig 40, mosaic sheet composing device 50 is equal, and being more than one, described feed bin 10 is for placing the mosaic sheet of different colours respectively.
Further, above-mentioned control device can be divided into multiple control unit, and each control unit controls each device accordingly.And this control device can also provide display interface, user is allowed to carry out more simply, quickly operating; User can carry out the paving pattern setting of mosaic sheet and checking of paving process; Such as log in, report to the police, pure paving, mixed paving, picture mosaic, storage being set and checking of atlas.
The number of described feed bin 10, mosaic sheet transmission filtering device 20, mosaic sheet collating unit 30, mosaic sheet turn-over rig 40, mosaic sheet composing device 50 is equal, and being more than one, described feed bin 10 is for placing the mosaic sheet of different colours respectively; Every utilize description of the present invention and accompanying drawing content to do equivalent structure or the conversion of equivalent flow process, be directly or indirectly used in the technical field that other are relevant, be all in like manner included in scope of patent protection of the present invention.
Claims (10)
1. a mosaic Automatic Typesetting production line, it is characterized in that: comprise paving plate transmitting device, paving plate deposit output device, the Automatic Typesetting mechanism of at least one group and control device, control device is for controlling paving plate transmitting device, the work of paving plate deposit output device and Automatic Typesetting mechanism, described paving plate deposit output device is located at one end of paving plate transmitting device chain, described Automatic Typesetting mechanism comprises the feed bin connected successively, mosaic sheet transmission filtering device, mosaic sheet collating unit, mosaic sheet turn-over rig and mosaic sheet composing device, arrange anode machine structure is located on paving plate transmitting device, paving plate is released from paving plate deposit output device by paving plate transmitting device, and through Automatic Typesetting mechanism to other end fishplate bar place, Automatic Typesetting mechanism is according to the jigsaw puzzle shape preset, mosaic sheet is slipped in the paving expanded metals lattice on chain.
2. mosaic Automatic Typesetting production line according to claim 1, is characterized in that: described paving plate deposit output device comprises speed change commutation dynamical system, the paving plate sliding support of paving plate deposit output bracket, lowering cage, the driving of paving plate chain driven pulley; Described lowering cage has multilayer circulation supporting plate post can place multiple paving plates, immediately below be provided with plate outlet; Described speed change commutation dynamical system drives the circulation of lowering cage supporting plate post to decline, and makes paving plate fall on paving plate sliding support, and paving plate chain block promotes the reach of bottom paving plate.
3. mosaic Automatic Typesetting production line according to claim 1, is characterized in that: described paving plate transmitting device comprises paving plate transmission support, the mair motor of the paving plate chain be arranged on paving plate transmission support, driving paving plate chain; Described paving plate chain is provided with the parallel ring chain of two rows, fixed range cross-over connection is provided with block, dog height is equal with paving plate thickness, make a block can only promote a paving plate, paving plate is forced through Automatic Typesetting mechanism to the artificial fishplate bar place of the other end from paving plate deposit output device, and described mair motor is electrically connected with control device.
4. mosaic Automatic Typesetting production line according to claim 1, it is characterized in that: described feed bin is for placing mosaic sheet, and the below of feed bin is provided with discharging opening, mosaic sheet slips into mosaic sheet transmission filtering device place by discharging opening.
5. mosaic Automatic Typesetting production line according to claim 1, is characterized in that: described mosaic sheet transmission filtering device comprises mosaic sheet transmission filtering support, the first left feed belt, the first right feed belt, drives the first left motor of the first left feed belt, drives the first right motor, the slippery filter element of the first right feed belt; Described first left feed belt, the first right feed belt are arranged on immediately below discharging opening, and the mosaic sheet slipping into the first feed belt is moved to described slippery filter element, have multirow filter bores, for filter glass particle impurity in the middle of this slippery filter element; The mosaic sheet moving to slippery filter element is slided into mosaic sheet collating unit; Described first left motor, the first right motor is all electrically connected with control device.
6. mosaic Automatic Typesetting production line according to claim 1, is characterized in that: described mosaic sheet collating unit comprise mosaic sheet line timber, the second feed belt, rubber roller, drive the second motor of rubber roller, bar is put down in left and right, be arranged on left and right put down bar both sides slide rail, drive left and right to put down the 3rd motor of bar, limit for height swing arm, drive the 4th motor of limit for height swing arm; Described second feed belt is installed many stainless steel uranium, form multiple first grid, for mosaic sheet is lined up queue successively, and separated; The mosaic sheet slipping into the second feed belt from slippery filter element is moved forward; Bar is put down, rubber roller in left and right, and limit for height swing arm is all only the thickness of one piece of mosaic sheet with the space of the second feed belt, will sweep about the mosaic sheet higher than one piece of thickness, roll backward, makes it drop in first grid in space; Limit for height swing arm by while across on stainless steel shaft mosaic sheet swing be slipped in grid space; Be provided with limit for height grille cover after limit for height swing arm, make can only form the queue of one deck in the first grid by the mosaic sheet of limit for height swing arm; Limit for height grille cover is provided with the first detection architecture, whether the first detection architecture is booked for the mosaic sheet detected in the first grid, and testing result is sent to control device, and to make control device control the first left feed belt, the work of the first right feed belt; Described second motor, the 3rd motor, the 4th motor, is all electrically connected with control device.
7. mosaic Automatic Typesetting production line according to claim 1, is characterized in that: described mosaic sheet turn-over rig comprises turn-over support, Breake Electromagnet, brake assembly, discharge door, stainless steel shaft fixed head, upper frictional force recognition component assembly, lower frictional force recognition component plate, synchrome conveying belt, turn-over door, diving board, slippery buffer board, power distribution assembly, drives power to distribute the turn-over motor of assembly; Multiple second grid is provided with above described synchrome conveying belt, slippery buffer board, for mosaic sheet is separated, on described synchrome conveying belt, fixed range is pasted with block, for by mosaic sheet synchronous driving to lower frictional force recognition component plate, from the mosaic sheet that the second feed belt moves into, through Breake Electromagnet in the first grid, brake assembly, on discharge door, is blocked motionless by stainless steel shaft fixed head; Described upper frictional force recognition component assembly comprises the lifting sliding rail that in cross bar, upper frictional force recognition component assembly bracket, driving, frictional force recognition component assembly bracket moves up and down, these cross bar two ends are slidably connected with front and back slide rail respectively, front and back slide rail is fixed on frictional force recognition component assembly bracket, multiple upper frictional force recognition component this cross bar is equipped with, be connected with cross bar axle sleeve, between upper frictional force recognition component and lower frictional force recognition component plate, gap is less than the thickness of one piece of mosaic sheet, and stressed upper frictional force recognition component moves up with axle sleeve; Axle one end of described turn-over door and slippery buffer board recessed bond ing, pivot when rising to top, the other end is micro-lower than plane on lower frictional force recognition component plate, in ramped shaped, be in one end higher than axle, pivot when dropping to top, plane on the other end and lower frictional force recognition component plate, drop is greater than the length of one piece of mosaic sheet, is in one end lower than axle; Brake assembly, discharge door, upper frictional force recognition component assembly, synchrome conveying belt, turn-over door, diving board all distribute assembly drived control by power, and Breake Electromagnet, turn-over motor are all electrically connected with control device.
8. mosaic Automatic Typesetting production line according to claim 1, is characterized in that: described mosaic sheet composing device comprises mosaic sheet typesetting support, paving groove, typesetting output assembly, drives typesetting to export the typesetting electromagnet of assembly; Described paving groove forms by sliding skateboard being installed multiple 3rd grid, in ramped shaped, high one end and described slippery buffer board recessed bond ing, and align with the second grid, low one end is fixed on described mosaic sheet typesetting support, paving expanded metals snap to grid on one end that 3rd grid is low and paving plate chain, and the 3rd grid is reduced to low one end gradually by high one end; 3rd grid is equipped with the second detection architecture, the 3rd detection architecture and typesetting and exports assembly, whether this second detection architecture is booked for the mosaic sheet detected in the 3rd grid, and testing result is sent to control device, with the work making control device control described turn-over rig Breake Electromagnet; Whether the 3rd detection architecture lacks material for the mosaic sheet detected in the 3rd grid, and testing result is sent to control device, with the work making control device control described paving plate transmitting device mair motor; Described paving plate every a line grid both sides have row detect aperture, paving plate is through mosaic sheet composing device, row detection architecture is used for the line number of detect lines detect aperture, on off state, and testing result is sent to control device, to make control device control corresponding typesetting work of electromagnet by the jigsaw puzzle shape preset, drive typesetting to export assembly and mention catch, mosaic sheet is slipped in corresponding paving expanded metals lattice line by line.
9. mosaic Automatic Typesetting production line according to claim 8, is characterized in that: described typesetting exports assembly and comprises brake and catch, and this catch is fixed on typesetting electromagnet active iron stamen, and brake is connected with catch lever, lever two ends, office.
10. the mosaic Automatic Typesetting production line according to any one of claim 1-9, it is characterized in that: the number of described feed bin, mosaic sheet transmission filtering device, mosaic sheet collating unit, mosaic sheet turn-over rig, mosaic sheet composing device is equal, and being more than one, described feed bin is used for the mosaic sheet of placing different colours respectively.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520577736.5U CN204955880U (en) | 2015-08-04 | 2015-08-04 | Mosaic automatic typesetting production line |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201520577736.5U CN204955880U (en) | 2015-08-04 | 2015-08-04 | Mosaic automatic typesetting production line |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106364872A (en) * | 2016-12-01 | 2017-02-01 | 佛山科学技术学院 | Unilateral type automatic laying device for multicolor mosaics |
| CN106427344A (en) * | 2016-12-01 | 2017-02-22 | 佛山科学技术学院 | Symmetrical distributed automatic paving method for multicolor mosaic |
| CN107813648A (en) * | 2016-09-13 | 2018-03-20 | 廖竞光 | A kind of full-automatic mosaic paving paper producing apparatus |
| CN108643502A (en) * | 2018-05-30 | 2018-10-12 | 张乘彬 | A kind of laying method of Novel mosaic |
-
2015
- 2015-08-04 CN CN201520577736.5U patent/CN204955880U/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107813648A (en) * | 2016-09-13 | 2018-03-20 | 廖竞光 | A kind of full-automatic mosaic paving paper producing apparatus |
| CN106364872A (en) * | 2016-12-01 | 2017-02-01 | 佛山科学技术学院 | Unilateral type automatic laying device for multicolor mosaics |
| CN106427344A (en) * | 2016-12-01 | 2017-02-22 | 佛山科学技术学院 | Symmetrical distributed automatic paving method for multicolor mosaic |
| CN106364872B (en) * | 2016-12-01 | 2018-12-21 | 佛山科学技术学院 | A kind of automatic paving equipment of the unilateral formula of multicolour mosaic |
| CN106427344B (en) * | 2016-12-01 | 2019-09-13 | 佛山科学技术学院 | A kind of automatic laying method of symmetric distributed of multicolour mosaic |
| CN108643502A (en) * | 2018-05-30 | 2018-10-12 | 张乘彬 | A kind of laying method of Novel mosaic |
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