CN106364716B - A kind of tile laying production line - Google Patents
A kind of tile laying production line Download PDFInfo
- Publication number
- CN106364716B CN106364716B CN201610867713.7A CN201610867713A CN106364716B CN 106364716 B CN106364716 B CN 106364716B CN 201610867713 A CN201610867713 A CN 201610867713A CN 106364716 B CN106364716 B CN 106364716B
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- Prior art keywords
- roller
- kiln discharge
- conveying
- shunting
- conveying device
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B23/00—Packaging fragile or shock-sensitive articles other than bottles; Unpacking eggs
- B65B23/20—Packaging plate glass, tiles, or shingles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B33/00—Packaging articles by applying removable, e.g. strippable, coatings
- B65B33/02—Packaging small articles, e.g. spare parts for machines or engines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B35/00—Supplying, feeding, arranging or orientating articles to be packaged
- B65B35/30—Arranging and feeding articles in groups
- B65B35/42—Arranging and feeding articles in groups by roller-ways
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B35/00—Supplying, feeding, arranging or orientating articles to be packaged
- B65B35/30—Arranging and feeding articles in groups
- B65B35/44—Arranging and feeding articles in groups by endless belts or chains
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Devices For Post-Treatments, Processing, Supply, Discharge, And Other Processes (AREA)
- Attitude Control For Articles On Conveyors (AREA)
Abstract
The present invention provides a kind of tile laying production line, including rack, sequentially connected cellar furnace is provided in the rack, kiln discharge conveying device, shunt conveying device, comb whole stamping die device and chain conveyor, the chain conveyor is disposed with shake mold device and cut paper laminating apparatus along its conveying direction, the kiln discharge conveying device includes multiple kiln discharge conveying rollers being arranged parallel, the multiple shunting conveying rollers being arranged parallel of the shunt conveying device, the shunting conveying roller and the kiln discharge conveying roller are mutually perpendicular to, and the one end for being located at each non-flush with each other of kiln discharge conveying roller of the output end position of the kiln discharge conveying device is mutually linked with each described one end for shunting the non-flush with each other of conveying roller of the input end position positioned at the shunt conveying device respectively.Production line of the invention realizes the fully-automatic production of ceramic tile, and labor intensity is relatively low and production cost is relatively low, is suitable for the relatively small ceramic tile of dimensions.
Description
Technical field
The present invention relates to a kind of ceramic tile packaging equipment, especially a kind of ceramic tile automatic paper-cutting laminating apparatus.
Background technique
Currently, flow production line is widely used in the production of all kinds of ceramic tiles, but it is being mostly used in ceramic tile production
In flow production line be usually auto-manual system, the flow production line of this kind of auto-manual system usually only has automatic conveying ceramic tile
Function, shunting, the comb processes such as whole, stamping die and paster in ceramic tile production need by being accomplished manually, labor intensity of workers phase
To larger, production efficiency is relatively low.
In order to reduce labor intensity of workers, raising production efficiency, Some Enterprises use all automatic tile package production line,
But this kind of all automatic tile package production line be usually only applicable in the big specification ceramic tile of 300X300 or more, for 300X300 with
Under small dimension ceramic tile, due to being not easy to sort and being easy to fall from production line, most of enterprise is still using automanual
Flow production line is produced.
In view of this, the applicant has carried out depth to the structure of all automatic tile package production line for small dimension ceramic tile
The research entered conducts in-depth research, and has this case generation then.
Summary of the invention
That the purpose of the present invention is to provide a kind of labor intensity is relatively low, production cost is relatively low and is suitable for size
The tile laying production line of the relatively small ceramic tile of specification.
To achieve the goals above, the present invention adopts the following technical scheme:
A kind of tile laying production line, including rack and control module, be provided in the rack sequentially connected cellar furnace,
Kiln discharge conveying device, shunt conveying device, the whole stamping die device of comb and chain conveyor, the chain conveyor is along its conveying
Direction is disposed with shake mold device and cut paper laminating apparatus, is additionally provided with heat preservation below the conveyor surface of the chain conveyor
Device, the kiln discharge conveying device include it is multiple be arranged parallel and the kiln discharge conveying roller of one end flush with each other, be located at described
Each kiln discharge conveying roller of the output end position of kiln discharge conveying device presses it along the conveying direction of the kiln discharge conveying device
Length scale is arranged successively from big to small, and the shunt conveying device is multiple to be arranged parallel and the shunting of one end flush with each other
Conveying roller, each shunting conveying roller for inputting end position positioned at the shunt conveying device is along the kiln discharge conveying device
Conveying direction by its length scale from lower to being arranged successively greatly, the shunting conveying roller and the kiln discharge conveying roller mutually hang down
Directly, and be located at the kiln discharge conveying device output end position each non-flush with each other of kiln discharge conveying roller one end respectively with
Each described one end for shunting the non-flush with each other of conveying roller positioned at the input end position of the shunt conveying device is mutually linked.
As an improvement of the present invention, positioned at each kiln discharge conveying of the output end position of the kiln discharge conveying device
The horizontal position of roller is higher than each horizontal position for shunting conveying roller of the input end position positioned at the shunt conveying device
5mm-10mm。
As an improvement of the present invention, the kiln discharge conveying device further includes for driving each kiln discharge conveying roller to turn
Dynamic kiln discharge driving assembly, the kiln discharge driving assembly include the kiln discharge motor being mounted on the rack and kiln discharge electricity
Machine transmission connection kiln discharge driving gear, be meshed with the kiln discharge driving gear kiln discharge driven gear, and the kiln discharge from
First helical gear of the kiln discharge drive rod and transmission connection of moving gear transmission connection on the kiln discharge drive rod, described first tiltedly
The quantity of gear is identical as the quantity of the kiln discharge conveying roller, and one end of each kiln discharge conveying roller is sequentially connected with second respectively
Helical gear, first helical gear and the one-to-one intermeshing of the second helical gear.
As an improvement of the present invention, the shunt conveying device further includes multiple is located above the shunting conveying roller
Shelves item and for drive it is each it is described shunt conveying roller rotation shunting driving assembly, one end of each shelves item is located at institute
The output end of shunt conveying device is stated, the other end is located at the input terminal of the shunt conveying device, the two neighboring shelves
Split channel is formed between item, the output end of the shunt conveying device is provided with the adjusting parallel with the shunting conveying roller
Offer length direction elongated slot identical with the length direction of the adjusting rod on bar, the adjusting rod, the one of each shelves item
End is respectively fixedly connected with the bolt being interspersed in the elongated slot, and spiral is connected with nut on the bolt, and each shunting is defeated
One end of roller flush with each other is sent to be fixedly connected with shunting drive sprocket, the diameter for shunting conveying roller is driven less than the shunting
The diameter of sprocket wheel, per adjacent two, the center shunted between conveying roller is away from the diameter for shunting drive sprocket is less than, often
The interlaced arrangement of the two neighboring shunting drive sprocket, each shunting drive sprocket respectively with the shunting driving assembly
Transmission connection.
As an improvement of the present invention, the shunting driving assembly include the shunting motor being mounted on the rack,
Shunting drive sprocket, the two shunting driven chains being rotatably connected in the rack respectively being connect with the shunting motor drive
Take turns and be wound around the shunting drive sprocket and two shunting biserial chains shunted between driven sprockets, each described point
Movable sprocket is spread successively alternately to be sequentially connected on two chains for shunting biserial chain.
As an improvement of the present invention, the whole stamping die device of the comb includes roller stick conveying mechanism and is located at the roller stick
The stamping die executing agency of the output end of conveying mechanism is provided with comb complete machine structure, the roller stick conveying on the roller stick conveying mechanism
Mechanism includes the more roller sticks for being parallel to each other and being equidistantly arranged in a linear, and one end of each roller stick is fixedly connected with roller stick biography
Movable sprocket, the diameter of the roller stick are less than the diameter of the roller stick drive sprocket, per the center between the adjacent two roller sticks
Away from the diameter for being less than the roller stick drive sprocket, the interlaced arrangement of roller stick drive sprocket described in each adjacent two, the stamping die
Executing agency includes the bracket being fixedly connected in the rack, horizontally disposed and rotation connection bull stick on the bracket,
The connecting rod and cylinder body that one end is fixedly connected with the bull stick are fixedly connected on the cylinder on the rack or the bracket, the gas
The piston rod of cylinder is flexibly connected with the connecting rod, and the baffle for stopping ceramic tile is fixedly connected on the bull stick.
As an improvement of the present invention, the comb complete machine structure includes two or more above the roller stick conveying mechanism
And the cross bar vertical with the roller stick, each cross bar is horizontally disposed and is parallel to each other, and is provided with below the cross bar multiple
The guide pin arranged vertically, each guide pin are fixedly connected with each cross bar simultaneously, and under each guide pin
Spacing between end face and the roller stick conveying mechanism is less than the thickness of ceramic tile, is formed between guide pin described in each adjacent two
Guide channel for passing through for ceramic tile, the width of described guide channel one end are less than the width of the other end, and each guiding
Channel and each split channel correspond.
As an improvement of the present invention, the cut paper laminating apparatus includes mechanism for cutting sheet, rubber-coated mechanism and for examining
Survey the detection module of ceramic tile position, the mechanism for cutting sheet and the rubber-coated mechanism carrier chain with the chain conveyor respectively
Item transmission connection, and the mechanism for cutting sheet, the rubber-coated mechanism and the detection module communicate with the control module connect respectively
It connects.
As an improvement of the present invention, the mechanism for cutting sheet include the bracket of cutting a sheet of paper being fixedly connected in the rack,
For placing the active pinch roller of paper roll roller, axis and the paper roll roller parallel arrangement of paper roll, supporting in the active pressure
Driven pinch roller on wheel, the cutter below the active pinch roller or the driven pinch roller and for driving the cutter to transport
The conveyor chain of dynamic cylinder, the active pinch roller and the chain conveyor is sequentially connected, the driven pinch roller directly or
It cuts a sheet of paper on bracket described in being rotatably connected on indirectly, the cylinder body of the cylinder is fixedly connected on described cut a sheet of paper on bracket.
As an improvement of the present invention, the rubber-coated mechanism include the gluing bracket being fixedly connected in the rack,
The separating plate that is arranged on the gluing bracket applies lacquer disk(-sc) and gluing cross bar and is rotatably connected on the gluing bracket respectively
It is upper and be parallel to each other viscose glue roller, spreading roller and take glue cylinder, the spreading roller and described glue cylinder is taken to be located at
Two sides of the viscose glue roller, and mutually being supported with the viscose glue roller respectively, the spreading roller and the glue cylinder that takes
Turn to it is identical, the viscose glue roller steering and the spreading roller steering on the contrary, being rotatably connected on the gluing cross bar
Multiple idler wheels supported on the spreading roller, the separating plate is located at below the idler wheel, and one end of the separating plate
It supports on the spreading roller, the lacquer disk(-sc) that applies is located at the lower section for taking glue cylinder.
By adopting the above technical scheme, the invention has the following advantages:
1, it is filled by the way that sequentially connected cellar furnace, kiln discharge conveying device, shunt conveying device, the whole stamping die of comb are arranged on the rack
It sets and chain conveyor, realizes the fully-automatic production of ceramic tile, labor intensity is relatively low and production cost is relatively low;Simultaneously
By the way that kiln discharge conveying roller and shunting conveying roller to be mutually perpendicular to arrange, the ceramic tile being sent from kiln is at random to be distributed in kiln discharge conveying
On device, it is then sent to the output end position of kiln discharge conveying device, since the length of the position kiln discharge conveying roller is different, porcelain
Brick is realized by the different location that the effect length of kiln discharge conveying roller falls to distributing conveying machine structure shunts conveying, is suitable for size
The relatively small ceramic tile of specification.
2, by the way that the interlaced arrangement of drive sprocket will be shunted, so that center is away from the conveying for being less than shunting drive sprocket diameter
Roller can mutual close-packed arrays, it is smaller to vibrate up and down amplitude for ceramic tile when delivery size specification relatively small ceramic tile, be hardly damaged,
Simultaneously because the dust on ceramic tile can be fallen from the gap between two conveying rollers, will not accumulate, be not necessarily to periodic cleaning, using compared with
For convenience.
3, stamping die executing agency is arranged by the output end in roller stick conveying mechanism, paster mold is placed on stamping die and is executed
Ceramic tile is gathered in the output of roller stick conveying mechanism using the baffle of stamping die executing agency by side of the mechanism far from roller stick transfer mechanism
Then end drives bull stick with flapper by cylinder, the ceramic tile for being gathered in the output end of roller stick conveying mechanism is defeated in roller stick
Line sending passes through stamping die executing agency and falls on paster mold, and whole process is participated in without artificial, and people's labor intensity is smaller and raw
It is relatively high to produce efficiency.
4, by the way that mechanism for cutting sheet and rubber-coated mechanism are sequentially connected with the conveyor chain of chain conveying mechanism respectively, trimmer
Structure and rubber-coated mechanism can obtain power from conveyor chain, and keep synchronization action with conveyor chain, with conventional solution
It compares, realizes synchronization action, advantage of lower cost without complicated control system;Meanwhile by the way that rubber-coated mechanism is arranged
It realizes automatic glue application, is suitable for the relatively small ceramic tile laminating process of dimensions.
Detailed description of the invention
Fig. 1 is the kiln discharge conveying device of tile laying production line of the present invention and the structural schematic diagram of shunt conveying device;
Fig. 2 is the partial enlarged view of kiln discharge driving assembly position in Fig. 1;
Fig. 3 is the structural schematic diagram of the shunt conveying device of tile laying production line of the present invention;
Fig. 4 is the partial enlarged view of position at B in Fig. 1;
Fig. 5 is the structural schematic diagram at another visual angle of shunt conveying device of tile laying production line of the present invention;
Fig. 6 is the structural schematic diagram of the transition conveying device of tile laying production line of the present invention;
Fig. 7 is the structural schematic diagram of the whole stamping die device of comb of tile laying production line of the present invention;
Fig. 8 is the partial enlarged view of position at C in Fig. 7;
Fig. 9 is the partial enlarged view of position at D in Fig. 7;
Figure 10 is the structural schematic diagram of the comb complete machine structure of the whole stamping die device of comb of tile laying production line of the present invention;
Figure 11 is the structural schematic diagram of the cut paper laminating apparatus of tile laying production line of the present invention;
Figure 12 is the structural schematic diagram of the mechanism for cutting sheet of the cut paper laminating apparatus of tile laying production line of the present invention, and Tu Zhong is saved
Slightly part;
Figure 13 is the cutting structural schematic diagram of the mechanism for cutting sheet of the cut paper laminating apparatus of tile laying production line of the present invention, figure
Middle clipped part;
Figure 14 is the structural schematic diagram of the Synchronous Transmission component of the cut paper laminating apparatus of tile laying production line of the present invention;
Figure 15 is the structural schematic diagram of the rubber-coated mechanism of the cut paper laminating apparatus of tile laying production line of the present invention.
Specific embodiment
The present invention is described further in the following with reference to the drawings and specific embodiments.
As shown in Fig. 1-Figure 15, tile laying production line provided in this embodiment, including rack 100 and control module (figure
In be not shown), wherein control module is conventional module, not the emphasis of the present embodiment, and and will not be described here in detail.
It is provided with sequentially connected cellar furnace (not shown), kiln discharge conveying device 200 in rack 100, shunts conveying dress
Set 300, the whole stamping die device 400 of comb and chain conveyor 500, wherein kiln is common kiln in ceramic tile production.Chain is defeated
Device 500 is sent to be disposed with shake mold device (not shown) and cut paper laminating apparatus 700 along its conveying direction, and chain is defeated
It send and is additionally provided with attemperator (not shown) below the conveyor surface of device 500, vibration device is conventional device, main to use
It is vibrated in allowing the paster mold for flowing through vibration device to generate, it is ensured that ceramic tile is placed on completely on the correspondence inner cavity of paster mold;
Attemperator is also conventional duct type attemperator, is mainly used in drying chain conveying device 500 on the ceramic tile of paster
Glue.Preferably, in the present embodiment, to be additionally provided with transition between shunt conveying device 300 and the whole stamping die device 400 of comb defeated
Send device 900.
As depicted in figs. 1 and 2, kiln discharge conveying device 200 include include multiple be arranged parallel and one end flush with each other
Kiln discharge conveying roller 210 and kiln discharge driving assembly 230 for driving each kiln discharge conveying roller 210 to rotate, i.e., multiple kiln discharges conveyings
Roller 210 is arranged side by side in line, and one end of the straight line and the discharge port of kiln connect, and the position at the end is kiln discharge conveying dress
200 input end position is set, the corresponding other end is the output end position of kiln discharge conveying device 200, kiln discharge conveying device 200
Conveying direction be from input end position output end position direction, positioned at kiln discharge conveying device 200 output end position it is each
Kiln discharge conveying roller 210 is arranged successively along the conveying direction of kiln discharge conveying device 200 by its length scale from big to small.
Kiln discharge driving assembly 230 includes that the kiln discharge motor 240 being mounted in rack 100 and kiln discharge motor 240 are sequentially connected
Kiln discharge driving gear 250, be meshed with kiln discharge driving gear 250 kiln discharge driven gear 260, with kiln discharge driven gear 260
Multiple first helical gears 280 of the kiln discharge drive rod 270 and transmission connection of transmission connection on kiln discharge drive rod 270, first tiltedly
The quantity of gear 280 is identical as the quantity of kiln discharge conveying roller 210, i.e. each the first helical gear 280 and a kiln discharge conveying roller
210 correspond to each other, and each first helical gear 28 is equidistantly set on same kiln discharge drive rod 270.Each kiln discharge conveying roller 210 is mutually
Concordant one end is sequentially connected with the second helical gear 290, the axis of each first helical gear 280 and each second helical gear 290 respectively
It is mutually perpendicular to and one-to-one intermeshing.It is of course also possible to which the first helical gear 280 and the second helical gear 290 are changed to mutually
The bevel gear of cooperation.In this way, each 210 constant velocity rotation of kiln discharge conveying roller can be driven simultaneously by kiln discharge motor 240.
As shown in Figure 3-Figure 5, with reference to shown in Fig. 1 and Fig. 2, shunt conveying device 300 includes multiple cloth that are parallel to each other
It sets and one end flush with each other shunts conveying roller 310, multiple is located at the shelves item 320 for shunting the top of conveying roller 310 and for driving
Each shunting driving assembly 330 for shunting conveying roller 310 and rotating, wherein shunting conveying roller 310 and shelves item 320 are not in contact with each other.It shunts
Conveying roller 310 has a variety of different length, wherein maximum 310 both ends of shunting conveying roller of length are rotated with rack 100 respectively
Connection, remaining one end for shunting 310 flush with each other of conveying roller are rotatablely connected with rack 100 respectively, and the other end is supported respectively
Two are rotatably connected between the guide wheel 311 of rack 100, specifically, other than the maximum shunting conveying roller 310 of length, it is each
A shunting conveying roller 310 does not shunt the concordant one end of conveying rollers 310 with other and all supports between two guide wheels 311, and same
One of guide wheel 311 is shared between the two neighboring shunting conveying roller 310 of length.It should be noted that kiln discharge conveying roller 310
Above-mentioned connection structure can also be used between rack 100.
Each shunting conveying roller 310 for inputting end position positioned at shunt conveying device 300 is along kiln discharge conveying device 300
Conveying direction, from lower to being arranged successively greatly, while shunting conveying roller 310 and kiln discharge conveying roller 210 mutually hangs down by its length scale
Directly, and be located at kiln discharge conveying device 200 output end position the non-flush with each other of each kiln discharge conveying roller 210 one end respectively with position
It is mutually linked in one end of the non-flush with each other of each shunting conveying roller 310 of the input end position of shunt conveying device 300, in this way,
Ceramic tile in kiln discharge conveying device 200 may be implemented to turn to and be admitted on the different location of shunt conveying device 300, realizes and divides
Section output.
Preferably, in the present embodiment, positioned at each kiln discharge conveying roller 210 of the output end position of kiln discharge conveying device 200
Horizontal position be higher than positioned at shunt conveying device 300 input end position each shunting conveying roller 310 horizontal position 5mm-
10mm.It can ensure that ceramic tile is smoothly sent into shunt conveying device 300 from kiln discharge conveying device 200 in this way, while preventing ceramic tile from overturning.
One end of each shelves item 320 is located at the output end of shunt conveying device 300, and the other end is located at shunting conveying
300 input terminal of device forms split channel 321 between two neighboring shelves item 320, is admitted to the ceramic tile of shunt conveying device 300
It can be entered on different split channels 321 according to the difference for being sent into position.The output end of shunt conveying device 300 is provided with and divides
It is identical as the length direction of adjusting rod 322 that length direction is offered on the parallel adjusting rod 322 of stream conveying roller 310, adjusting rod 322
Elongated slot 323, one end that each shelves item 320 is located at output end is respectively fixedly connected with the bolt 324 being interspersed in elongated slot 323, respectively
It is respectively screw on a bolt 324 and is connected with nut, bolt 324 is fixed on to the specified location of elongated slot 323 by nut, in this way
Convenient for adjusting the width size of each 321 outlet port of split channel, or the outlet port of each split channel 321 of adjustment, under
Primary conveyor preferably cooperates.One end that each shelves item 320 is located at the input terminal of shunt conveying device 300 is respectively fixedly connected with
In rack 100, it is fixedly connected specifically, one end that each shelves item 320 is located at input terminal passes through connecting rod respectively with rack 100,
Connecting rod is interspersed on the gap between two neighboring shunting conveying roller 310.
Preferably, it further includes the fixed plate parallel with adjusting rod 322 that the ceramic tile of the present embodiment, which shunts combing conveying device,
325, offer quantity fixing groove 326 identical with shelves item 320 in fixed plate 325, each fixing groove 326 it is opening down, namely
It is directed towards and shunts conveying roller 310, and the spacing between two neighboring fixing groove 326 is slightly larger than by the width of conveying ceramic tile;Simultaneously
In the present embodiment, shelves item 320 is preferably flexible shelves item, and each shelves item 320 is respectively interposed in corresponding fixing groove 326, this
Sample can limit the minimum widith of split channel 321, it is ensured that ceramic tile is transported in split channel 321 while can be in shelves item 320
Under the action of automatic proper alignment.
In addition, in the present embodiment, each one end for shunting 310 flush with each other of conveying roller has been respectively fixedly connected with shunting transmission
Sprocket wheel 331, each diameter for shunting conveying roller 310 is identical, and both less than shunts the diameter of drive sprocket 331, each adjacent two point
It flows the center between conveying roller 310 and shunts 331 phase of drive sprocket away from the diameter for shunting drive sprocket 331, each adjacent two is less than
Mutual interlaced arrangement, each drive sprocket 331 that shunts are sequentially connected with shunting driving assembly 330 respectively.Specifically, shunting driving assembly
330 include the shunting drive sprocket 333, two for shunting motor 332, being sequentially connected with shunting motor 332 being mounted in rack 10
A shunting driven sprocket 334 being rotatably connected in rack 100 respectively and one, which are wound around, shunts drive sprocket 333 and two
The shunting biserial chain between driven sprocket 334 is shunted, successively alternately transmission connection is shunting biserial to each shunting drive sprocket 331
On two chains of chain, i.e., each driving chain 331 that shunts is engaged with the wherein chain for shunting biserial chain respectively.When
So, it shunts drive sprocket 333 and shunts driven sprocket 334 all and be and shunt the matched duplex chain wheel of biserial chain.
As shown in fig. 6, transition conveying device 900 includes multiple is parallel to each other and the identical transition conveying roller 910 of length, position
Lever 920 above the transition conveying roller 910 and the transition driving assembly for driving each transition conveying roller 910 to rotate
930, lever 920 and transition conveying roller 930 are mutually perpendicular to, and are not in contact with each other between lever 920 and transition conveying roller 930, lever
920 both ends are respectively fixedly connected in rack 100, and transition passage is formed between two neighboring lever 920, each transition passage
The outlet of entrance and each split channel 321 corresponds.
Identical as shunt conveying device 300, each 910 one end of transition conveying roller has been respectively fixedly connected with transition drive sprocket
931, the diameter of each transition conveying roller 910 is identical, and the diameter of both less than transition drive sprocket 931, and each adjacent two transition is defeated
Send the center between roller 910 away from the diameter for being less than transition drive sprocket 931, each adjacent two transition drive sprocket 931 is mutually handed over
Mistake arrangement, each transition drive sprocket 931 are sequentially connected with transition driving assembly 930 respectively.Transition driving assembly 930 includes installation
Transition motor 932 in rack 100, transition drive sprocket 933, two to be sequentially connected with transition motor 932 rotate respectively
The transition driven sprocket 934 being connected in rack 100 and one are wound around transition drive sprocket 933 and two transition driven chains
Transition biserial chain between wheel 934, each transition drive sprocket 931 successively replace two to be sequentially connected in transition biserial chain
On chain.
As shown in Fig. 7-Figure 10, comb whole stamping die device 400 include roller stick conveying mechanism 420 and be located at roller stick conveying mechanism
The stamping die executing agency 430 of 420 output end is provided with comb complete machine structure 440 on roller stick conveying mechanism 420.
Roller stick conveying mechanism 420 can be conventional conveying mechanism, and providing one kind in the present embodiment can be used for conveying ruler
The very little lesser roller stick conveying mechanism 420 of specification, the roller stick conveying mechanism 420 include more and are parallel to each other and equidistantly linearly arrange
The roller stick 421 of column, each roller stick 421 are rotatably connected in rack 100, and one end that each roller stick 421 is formed by straight line is that roller stick is defeated
The input terminal of mechanism 420 is sent, the other end is the output end of roller stick conveying mechanism 420.The both ends of each roller stick 421 are rotatablely connected respectively
In rack 100, and one end of each roller stick 421 is fixedly connected with the roller stick transmission chain for driving corresponding roller stick 421 to rotate
Wheel 422, roller stick drive sprocket 422 is the relatively small simple chainwheel of specification directly bought from the market.
The diameter of roller stick 421 is less than the diameter of roller stick drive sprocket 422, i.e. the diameter of roller stick 421 is relatively small, roller stick
421 specific diameter needs are determined according to the dimensions of the ceramic tile conveyed, the length of more preferably less than transported ceramic tile
The half of degree or width dimensions.
Center between per adjacent two roller sticks 421 is away from the diameter for being less than roller stick drive sprocket 422, certainly, adjacent two
Gap between roller stick 421 should be as small as possible, to ensure that transported ceramic tile will not be between adjacent two roller sticks 421
Gap is fallen.The interlaced arrangement of each adjacent two roller stick drive sprocket 422, and each roller stick drive sprocket 422 is in two column straight line cloth
It sets.
The Power Component 423 for driving each roller stick drive sprocket 422 to rotate is additionally provided in rack 100.In order to enable
Ceramic tile is mutually adjacent to when flowing out from the output end of roller stick conveying mechanism 420, and in the present embodiment, each roller stick 421 is conveyed from roller stick
The input terminal of mechanism 420 in turn is subdivided into leading portion roller stick group, middle section roller stick group and back segment roller stick group, each roller stick to output extreme direction
The quantity of roller stick 421 in group can determine according to actual needs, and each roller stick transmission sprocket wheel 422 in same group of roller stick group is located at
Each transmission sprocket wheel 422 of the same end of corresponding roller stick 421, two groups of adjacent roller stick groups is located at the both ends of roller stick 421;Together
When, there are three Power Components 423, is respectively used to driving leading portion roller stick group, middle section roller stick group and back segment roller stick group, i.e., each roller stick group
Power Component 423 it is different, in this way convenient for controlling the revolving speed of each roller stick group respectively.In use, control middle section roller stick group
Revolving speed makes its revolving speed be less than the revolving speed of leading portion roller stick group, when ceramic tile is transported to middle section roller stick group from leading portion roller stick group, adjacent two
Gap between a ceramic tile can be gradually reduced, and finally be fit together, and be then sent in back segment roller stick group.Power Component
423 can be conventional Power Component, in the present embodiment, the structure of Power Component 423 and the structure of transition driving assembly 930
Similar, and will not be described here in detail.
Combing complete machine structure 440 includes two or more positioned at 420 top of roller stick conveying mechanism and the cross bar vertical with roller stick 421
441, in the present embodiment, cross bar 441 has three, and each cross bar 441 is horizontally disposed and is parallel to each other, the lower section setting of cross bar 441
There is a plurality of vertically arranged guide pin 442, each guide pin 442 is fixedly connected with each cross bar 441 simultaneously, and each guide pin
Spacing between 442 lower end surface and the roller stick 421 of roller stick conveying mechanism 420 is less than the thickness of transported ceramic tile, per adjacent
The guide channel 442a for passing through for ceramic tile is formed between two guide pins 442, guide channel 442a is conveyed towards roller stick
The width of one end of the input terminal of mechanism 420 is less than the width of the guide channel 442a other end, the i.e. width of guide channel 442a
It is gradually reduced from one end to the other end, guiding role can be played.The width of the lesser one end of guide channel 442a width simultaneously
Degree is equal or slightly larger than the width of ceramic tile, and the outlet of the entrance and each transition passage of each guide channel 442a corresponds, namely
Outlet with each split channel 321 corresponds indirectly.In use, ceramic tile is under the conveying of roller stick conveying mechanism 420 from guiding
Channel biggish one end of 442a width enters guide channel 442a, aligned under the action of guide channel 442a and from leading
Guide channel 442a is flowed out to the lesser one end of channel 442a width, realizes the adjustment to ceramic tile position.
Preferably, in the present embodiment, pass through one group of mutual cooperation between each guide pin 442 and each cross bar 441
Adjusting bolt 443 be fixedly connected with adjusting nut 444, specifically, cross bar 441 include two square tubes 445 being parallel to each other, two
It is formed between root square tube 445 for the interspersed elongated slot 446 for adjusting bolt 443, it is of course also possible to directly be opened up on cross bar 441
Have for the interspersed elongated slot for adjusting bolt 443.It adjusts bolt 443 to arrange vertically, lower end is welded on guide pin 442, upper end
Across elongated slot 446 and prominent from the upper surface of cross bar 441, there are two adjusting nuts 444, and cross bar 441 is clamped at two adjustings
Between nut 444.It is fixedly connected with mode using this, the connection of guide pin 442 and cross bar 441 can be adjusted according to the specification of ceramic tile
Position, and then adjust the width of guide channel 442a.It should be noted that in the present embodiment, for same root cross bar 441,
The corresponding adjusting bolt 443 of each guide pin 442 is all interspersed on the same elongated slot 446.
Similar, it is in the present embodiment, mutually matched by one group between each end and rack 100 of cross bar 441
Fastening bolt 447 is fixedly connected with locking nut 448.Fastening bolt 447 arranges that lower end welding or spiral are connected to machine vertically
On frame 100, upper end passes through elongated slot 446 and protrudes from the upper surface of cross bar 441, and there are two fastening nuts 448, and cross bar 441 is pressed from both sides
Tightly between two fastening nuts 448.
Stamping die executing agency 430 includes the bracket 431 being fixedly connected in rack 100, horizontally disposed and be rotatably connected on
The connecting rod 433 and cylinder body that bull stick 432, one end on bracket 431 are fixedly connected with bull stick 432 are fixedly connected on rack 100 or branch
The piston rod of cylinder 434 on frame 431, cylinder 434 is flexibly connected to form brace and connecting rod framework with connecting rod 433, on bull stick 433 also
It is fixedly connected with the baffle 435 for stopping ceramic tile.
In the initial state, baffle 435 is arranged vertically, and ceramic tile can not be flowed out from the output end of roller stick conveying mechanism 420.Make
Used time, paster mold are transported to stamping die executing agency 430 far from roller stick transfer mechanism under the action of chain conveyor 500
420 side, when the ceramic tile quantity of back segment roller stick group aggregation and paster mold institute can easy ceramic tile quantity mutually be same as above, leading portion roller
Stick group and middle section roller stick group stop operating, while the piston rod of cylinder 434 is released, and drive bull stick 432 to rotate by connecting rod 433,
And then baffle 435 is driven to rotate, the ceramic tile in back segment roller stick group is under the conveying of back segment roller stick group from roller stick conveying mechanism
420 output end outflow, falls on paster mold across stamping die executing agency 430;Rear baffle 435 reset, leading portion roller stick
Group and middle section roller stick group are continued to rotate into next circulation.
As shown in Figure 11-Figure 15, chain conveyor 500 is the conventional conveying device using chain drive, main to use
In transport paster mold.
Cut paper laminating apparatus 700 includes mechanism for cutting sheet 730, rubber-coated mechanism 740 and the detection for detecting ceramic tile position
Module 750, wherein mechanism for cutting sheet 730 and rubber-coated mechanism 740 are driven with the conveyor chain 510 of chain conveyor 500 respectively connects
It connects, such mechanism for cutting sheet 730 and rubber-coated mechanism 740 can obtain power from conveyor chain 510 respectively, and can be with carrier chain
Item 510 keeps synchronization action.In addition, mechanism for cutting sheet 730, rubber-coated mechanism 740 and detection module 750 are communicated with control module respectively
Connection.
Mechanism for cutting sheet 730 includes the bracket of cutting a sheet of paper for being fixedly connected in rack 100 and being located at 500 top of chain conveyor
731, for placing the active pinch roller 733 of paper roll roller 732, axis and paper roll roller 732 parallel arrangement of paper roll, supporting in master
Driven pinch roller 734 on dynamic pressure wheel 733, positioned at the cutter 735 of 734 lower section of active pinch roller 733 or driven pinch roller and for driving
The cylinder 736 that dynamic cutter 735 moves, the cylinder body of cylinder 736, which is fixedly connected on, cuts a sheet of paper on bracket 731.
In the present embodiment, there are two paper roll rollers 732, when one of paper roll roller 732 is in running order, separately
One paper roll roller 732 can avoid occurring in this way paper roll and exhaust whole device when needing replacing and need to shut down to wait as spare
The problem of.
The conveyor chain 510 of active pinch roller 733 and chain conveyor 500 is sequentially connected, specifically, active pinch roller 733
It is connected with Synchronous Transmission component 600 between the conveyor chain 510 of 500 structure of chain conveyor, the Synchronous Transmission component 600 packet
The transmission branch for including the drive rod 610 being rotatably connected on cut a sheet of paper on bracket 731 and synchronizing bar 620, being rotatably connected on synchronizing bar 620
Frame 630, is engaged on the conveyor chain 510 of chain conveyor 500 bull stick 640 being rotatably connected in transmission bracket 630
First drive sprocket 650, the second drive sprocket 660 being respectively fixedly connected on bull stick 640 and third drive sprocket 670 are consolidated
Surely the 4th drive sprocket 680 that is connected on synchronizing bar 620, be wound around the first drive sprocket 650 and the second drive sprocket 660 it
Between the first driving chain 691 and the second transmission chain for being wound around between third drive sprocket 670 and the 4th drive sprocket 680
Item 692 is fixedly connected with the first transmission gear 621 on synchronizing bar 620, is fixedly connected on drive rod 610 and the first transmission chain
Second transmission gear 611 of 621 cooperation of wheel, active pinch roller 733 are fixedly connected on drive rod 610.In this way, conveyor chain 510
Active pinch roller 733 can be driven to rotate by Synchronous Transmission component 600, and ensure rotation and the conveyor chain 510 of active pinch roller 733
It keeps synchronizing.
Preferably, in the present embodiment, third drive sprocket 670 is fixedly connected on bull stick 640 by electromagnetic clutch 671
On, specifically, the input terminal of electromagnetic clutch 671 is fixedly connected with bull stick 640, output end and third drive sprocket 670 are fixed
Connection can be disconnected the transmission connection between active pinch roller 733 and conveyor chain 510 by electromagnetic clutch 670 in this way, make winner
Intermittent rotation may be implemented in dynamic pressure wheel 733, and the intermittent time needs to carry out the time progress that side cuts movement according to cutter 735
It determines.
Preferably, in the present embodiment, electromagnetic brake 612 is additionally provided on drive rod 610, electromagnetic brake 612 can
After preventing electromagnetic clutch 671 from disconnecting the transmission connection between drive rod 610 and conveyor chain 510, drive rod 610 is used
It is continued to rotate under the action of property.
In addition, in order to ensure the Zhang Jindu of the first driving chain 691 and the second driving chain 692, it usually needs be provided with
The tightener sprocket cooperated with the first driving chain 691 or the second driving chain 692 in the present embodiment, passes to simplify structure
Dynamic bracket 630 includes the first hack lever 631 being rotatablely connected with synchronizing bar 620, the second hack lever 632 with the rotation connection of bull stick 640
And the support plate 633 arranged vertically, the upper end of support plate 633 are supported on the shaft of the second hack lever 632.
Elongated slot or multiple bolts hole, first are offered respectively in first hack lever 631, the second hack lever 632 and support plate 633
It is interspersed on corresponding elongated slot or bolt hole and is mutually permanently connected by bolt between bar 631 and the second hack lever 632, after connection
One hack lever 631 and the second hack lever 632 are located along the same line, in this way, by adjusting position of the bolt on corresponding elongated slot or
Person's adjustment bolt is interspersed on different bolts hole, can be adjusted to the relative position of the first hack lever 631 and the second hack lever 632
It is whole, and then realize to 670 and of position and third drive sprocket between the first drive sprocket 650 and the second drive sprocket 660
The adjustment of the rate of tension of the second driving chain 692 is realized in the adjustment of position between 4th drive sprocket 680;Likewise, support
Plate 633 is interspersed in corresponding elongated slot or bolt hole by another bolt to be fixedly connected on rack 100 or cuts a sheet of paper on bracket 731,
So that support plate 633 is adjustable relative to the position of rack 100 or bracket 731 of cutting a sheet of paper, certainly, rack 100 or cut a sheet of paper on bracket 731
Need to offer the threaded hole with bolt cooperation.In this way, being passed when adjusting second by the first hack lever 631 and the second hack lever 632
It, can be by adjusting support plate 633 relative to rack 100 or bracket 731 of cutting a sheet of paper when leading to another chain-loose when dynamic chain 292
Position may make the second hack lever 632 to rotate centered on synchronizing bar 620, realize to the rate of tension of the first driving chain 691
It adjusts.
The driven pinch roller 734 of mechanism for cutting sheet 730 can directly or indirectly be rotatably connected on and cut a sheet of paper on bracket 731, in this implementation
In example, mechanism for cutting sheet 730 further include be fixedly connected on to cut a sheet of paper on bracket 731 and the fixed link 737 parallel with drive rod 731, Gu
Connecting rod 738 is rotatably connected in fixed pole 737, specifically, the shaft of connecting rod 738 and fixing pipe 737 are rotatablely connected.Driven pinch roller
It is rotatably connected on and cuts a sheet of paper on bracket 731 indirectly on 734 one end by being rotatably connected on connecting rod 738, the other end of connecting rod 738 is set
It is equipped with spring 739, one end of spring 739 is fixedly connected with connecting rod 738, and the other end is fixedly connected with bracket 731 of cutting a sheet of paper, such bullet
Spring 739 can apply the pretightning force towards active pinch roller 733 to driven pinch roller 734 by the leverage of connecting rod 738, prevent roll paper
It skids.
Preferably, in the present embodiment, mechanism for cutting sheet 730 further includes that the guide plate 731a to cut a sheet of paper on bracket 731 is arranged in
With positioning plate 731b, guide plate 731a is from the top of active pinch roller 733 through connecing between active pinch roller 733 and driven pinch roller 734
Touching position extends close at the position of cutter 735, and certainly, guide plate 731a is to open at the corresponding position of active pinch roller 733
Equipped with relief hole;Positioning plate 731b between cutter 735 and driven pinch roller 734, and positioning plate 731b and guide plate 731a it
Between spacing be gradually reduced from the upper end phase lower end of positioning plate 731b, in this way, can shape between positioning plate 731b and guide plate 731a
At the channel passed through for roll paper, paper curling effect cutting precision when avoiding cutting.
Before use, paper roll is placed on paper roll roller 732, and one end of paper roll is pulled out, is worn along guide plate 731a
Enter between active pinch roller 733 and driven pinch roller 734;In use, paper roll under the drive of active pinch roller 733 from positioning plate 731b and
After channel between guide plate 731a is pierced by certain distance, control module controls electromagnetic clutch 671 and disconnects 733 He of active pinch roller
Transmission between conveyor chain 510, control electromagnetic brake 612 brakes drive rod 610, so that paper roll stop motion,
Then cylinder 736 drive cutter 735 to cut paper roll under the control of control module, realize and paper roll cut.
Rubber-coated mechanism 740 includes the gluing bracket 741 being fixedly connected in rack 100, is arranged on gluing bracket 741
Separating plate 742 applies lacquer disk(-sc) 743 and gluing cross bar 740 and is rotatably connected on gluing bracket 741 and is parallel to each other respectively
Viscose glue roller 745, spreading roller 746 and glue cylinder 747 being taken, gluing bracket 741 and bracket 731 of cutting a sheet of paper can be same bracket,
That is the two integral type connection, is also possible to mutually independent bracket.Spreading roller 746 and glue cylinder 747 is taken to be located at viscose glue
The two sides of roller 745, and mutually supported with viscose glue roller 745 respectively;Multiple support is rotatably connected on gluing cross bar 740 to apply
Idler wheel 744a on glue cylinder 746, separating plate 742 are located at below idler wheel 744a, and one end of separating plate 742 is supported and applying rubber-surfaced roll
On cylinder 746, applies lacquer disk(-sc) 743 and be located at the lower section for taking glue cylinder 747.
Spreading roller 746 is identical with the steering of glue cylinder 747 is taken, and the steering is consistent with the steering of conveyor chain 510, glues
The steering of glue cylinder 745 and the steering of spreading roller 746 are opposite.Paper on mechanism for cutting sheet 730 is clamped in 746 He of spreading roller
Between idler wheel 744a, and moved under the drive of spreading roller 746 toward the direction of chain conveyor 500, in this process,
Glue is uniformly applied to paper towards on the side of spreading roller 746 by spreading roller 746;Glue on spreading roller 746 is logical
The opposite rolling with viscose glue roller 745 is crossed to obtain from viscose glue roller 745, the glue on viscose glue roller 745 by with take rubber-surfaced roll
Opposite roll from taking of cylinder 747 obtains on glue cylinder 747, and the glue on glue cylinder 747 is taken then to pass through itself rolling from painting
It is obtained on lacquer disk(-sc) 743.After paper comes out from spreading roller 746 and idler wheel 744a, from spreading roller under the action of separating plate 742
It separates on 746, and is moved on chain conveyor 500 along separating plate 742, is pasted onto naturally under gravity
On the ceramic tile on chain conveyor 500.
Preferably, in the present embodiment, the groove 746a cooperated with separating plate 742, separation are offered on spreading roller 746
It supports on the slot bottom of groove 746a one end of plate 742.Separating plate 742 can be ensured paper from spreading roller 746 in this way
It separates.
Preferably, in the present embodiment, rubber-coated mechanism 740 further includes tamping drum 748 and is separately positioned on tamping drum
The sliding block 748a at 748 both ends, sliding block 748a are slidably connected on gluing bracket 741, and can be relative to gliding on gluing bracket 741
It is dynamic, convenient for adjusting the spacing of tamping drum 748 and chain conveyor 500, preferably paper is pressed on ceramic tile, so that two
The connection of person is more secured.
In addition, the rubber-coated mechanism 740 of the present embodiment further includes for gluing transmission component 749, the gluing transmission component 749
It is driven including the first gluing sprocket wheel 749a being engaged on the conveyor chain 510 of chain conveyor 500 and viscose glue roller 745
Second gluing sprocket wheel 749b of connection, the third gluing sprocket wheel 749c being sequentially connected with spreading roller 746, it is rotatably connected on gluing
The 4th gluing sprocket wheel 749d on bracket 741 and it is wound around the first gluing sprocket wheel 749a, the second gluing sprocket wheel 749b and the 4th
Gluing chain 749e on gluing sprocket wheel 749d.
Transportation sprocket 510 or gluing chain is in the space side surrounded using transportation sprocket 510 or gluing chain 749e
The inside of 749e, the corresponding other side are that transportation sprocket 510 or the outside of gluing chain 749e, the first gluing sprocket wheel 749a exist
The outside of transportation sprocket 510 is engaged with transportation sprocket 510, and the first gluing sprocket wheel 749a, the second gluing sprocket wheel 749b and the 4th are applied
Glue sprocket wheel 749d is engaged in the inside of gluing chain 749e with gluing chain 749e, and third gluing sprocket wheel 749c is in gluing chain
It is engaged with gluing chain 749e in the outside of 749e.Meanwhile it being sequentially connected with driving gear 745a on spreading roller 746, takes glue
The driven gear 747a engaged with driving gear 745a is sequentially connected on roller 747.In this way, in the drive of transportation sprocket 510
Under, spreading roller 746 is identical with the steering of glue cylinder 747 is taken, and the steering is consistent with the steering of conveyor chain 510, viscose glue rolling
The steering of cylinder 745 and the steering of spreading roller 746 are opposite.
Preferably, in the present embodiment, spreading roller 746 and take 747 both ends of glue cylinder to pass through respectively be rotatably connected on can
The sliding block slided on gluing bracket 741 is rotatably connected on indirectly on gluing bracket 741, is conveniently adjusted spreading roller 746 in this way
With the relative position for taking glue cylinder 747.
Preferably, in the present embodiment, gluing transmission component 749 further includes being rotatably connected on gluing bracket 741
It is engaged with gluing chain 749e the inside of bearing up pulley 749f, tensioning wheel 749f gluing chain 749e.
Detection module 750 is conventional module, mainly for detection of position of the ceramic tile on chain conveyor 500, just
The working sequence of electromagnetic clutch 671, electromagnetic brake 612 and cylinder 736 is controlled in control module, can directly be purchased from the market
Acquisition is bought, and will not be described here in detail.
The present invention is described in detail above in conjunction with attached drawing, but embodiments of the present invention be not limited in it is above-mentioned
Embodiment, those skilled in the art can make various modifications according to the prior art to the present invention, such as will be in above-described embodiment
Cylinder 736 be changed to oil cylinder or push-rod electric machine etc., these are all within the scope of protection of the present invention.
Claims (10)
1. a kind of tile laying production line, which is characterized in that including rack and control module, which is characterized in that in the rack
It is provided with sequentially connected cellar furnace, kiln discharge conveying device, shunt conveying device, the whole stamping die device of comb and chain conveyor, institute
It states chain conveyor and is disposed with shake mold device and cut paper laminating apparatus along its conveying direction, the chain conveyor
It is additionally provided with attemperator below conveyor surface, the kiln discharge conveying device includes multiple is arranged parallel and one end flush with each other
Kiln discharge conveying roller, each kiln discharge conveying roller positioned at the output end position of the kiln discharge conveying device is defeated along the kiln discharge
The conveying direction of device is sent to be arranged successively from big to small by its length scale, the shunt conveying device includes multiple is parallel to each other
The shunting conveying roller of arrangement and one end flush with each other, each shunting positioned at the input end position of the shunt conveying device are defeated
Roller is sent to be arranged successively from small to large along the conveying direction of the kiln discharge conveying device by its length scale, the shunting conveying roller
It is mutually perpendicular to the kiln discharge conveying roller, and is located at each kiln discharge conveying roller of the output end position of the kiln discharge conveying device
One end of non-flush with each other respectively be located at the shunt conveying device input end position the non-phase of each shunting conveying roller
Mutually concordant one end is mutually linked.
2. tile laying production line as described in claim 1, which is characterized in that positioned at the output end of the kiln discharge conveying device
The horizontal position of each kiln discharge conveying roller of position is higher than each described of the input end position positioned at the shunt conveying device
Shunt the horizontal position 5mm-10mm of conveying roller.
3. tile laying production line as described in claim 1, which is characterized in that the kiln discharge conveying device further includes for driving
Move the kiln discharge driving assembly of each kiln discharge conveying roller rotation, the kiln discharge driving assembly includes going out of being mounted on the rack
Kiln motor, the kiln discharge driving gear being connect with the kiln discharge motor drive, the kiln discharge being meshed with the kiln discharge driving gear from
Moving gear, with the kiln discharge drive rod of kiln discharge driven gear transmission connection and be sequentially connected on the kiln discharge drive rod the
One helical gear, the first helical gear quantity is identical as the quantity of the kiln discharge conveying roller, and the one of each kiln discharge conveying roller
End is sequentially connected with the second helical gear, first helical gear and the one-to-one intermeshing of the second helical gear respectively.
4. tile laying production line as described in claim 1, which is characterized in that the shunt conveying device further includes multiple positions
Shelves item above the shunting conveying roller and the shunting driving assembly for driving each shunting conveying roller rotation, it is each described
One end of shelves item is located at the output end of the shunt conveying device, and the other end is located at the defeated of the shunt conveying device
Enter end, forms split channel between the two neighboring shelves item, the output end of the shunt conveying device is provided with and described point
Length direction length identical with the length direction of the adjusting rod is offered on the parallel adjusting rod of stream conveying roller, the adjusting rod
One end of slot, each shelves item is respectively fixedly connected with the bolt being interspersed in the elongated slot, and spiral is connected on the bolt
Nut, each described one end for shunting conveying roller flush with each other is fixedly connected with shunting drive sprocket, described to shunt the straight of conveying roller
Diameter is less than the diameter for shunting drive sprocket, and per adjacent two, the center shunted between conveying roller is away from less than the shunting
The diameter of drive sprocket, the shunting interlaced arrangement of drive sprocket described in each adjacent two, each shuntings drive sprocket are distinguished
It is sequentially connected with the shunting driving assembly.
5. tile laying production line as claimed in claim 4, which is characterized in that the shunting driving assembly includes being mounted on institute
State the shunting motor in rack, with it is described shunting motor drive connect shunting drive sprocket, two be rotatably connected on institute respectively
It states the shunting driven sprocket in rack and is wound around between the shunting drive sprocket and two shunting driven sprockets
Biserial chain is shunted, each drive sprocket that shunts successively alternately is sequentially connected in two chains for shunting biserial chain
On.
6. tile laying production line as claimed in claim 4, which is characterized in that the whole stamping die device of comb includes that roller stick is defeated
The stamping die executing agency of mechanism and the output end positioned at the roller stick conveying mechanism is sent, is provided with comb on the roller stick conveying mechanism
Complete machine structure, the roller stick conveying mechanism include the more roller sticks for being parallel to each other and being equidistantly arranged in a linear, each roller stick
One end is fixedly connected with roller stick drive sprocket, and the diameter of the roller stick is less than the diameter of the roller stick drive sprocket, per adjacent two
Center between roller stick described in root is away from the diameter for being less than the roller stick drive sprocket, roller stick drive sprocket phase described in each adjacent two
Mutual interlaced arrangement, the stamping die executing agency includes the bracket being fixedly connected in the rack, horizontally disposed and be rotatablely connected
The connecting rod and cylinder body that bull stick on the bracket, one end are fixedly connected with the bull stick are fixedly connected on the rack or described
Cylinder on bracket, the piston rod of the cylinder are flexibly connected with the connecting rod, are fixedly connected on the bull stick for stopping
The baffle of ceramic tile.
7. tile laying production line as claimed in claim 6, which is characterized in that the comb complete machine structure includes two or more and is located at
The roller stick conveying mechanism top and the cross bar vertical with the roller stick, each cross bar is horizontally disposed and is parallel to each other, described
A plurality of vertically arranged guide pin is provided with below cross bar, each guide pin is fixedly connected with each cross bar simultaneously,
And the spacing between the lower end surface of each guide pin and the roller stick conveying mechanism is less than the thickness of ceramic tile, each adjacent two
The guide channel for passing through for ceramic tile is formed between the guide pin, the width of described guide channel one end is less than the other end
Width, and each guide channel and each split channel correspond.
8. the tile laying production line as described in any claim in claim 1-7, which is characterized in that the cut paper paster
Device includes mechanism for cutting sheet, rubber-coated mechanism and the detection module for detecting ceramic tile position, the mechanism for cutting sheet and the painting
Gluing mechanism respectively with the conveyor chain of the chain conveyor be sequentially connected, and the mechanism for cutting sheet, the rubber-coated mechanism and
The detection module respectively with the control module communication connection.
9. tile laying production line as claimed in claim 8, which is characterized in that the mechanism for cutting sheet includes being fixedly connected on institute
State the active pressure of the bracket of cutting a sheet of paper in rack, the paper roll roller for placing paper roll, axis and paper roll roller parallel arrangement
Take turns, the driven pinch roller supported on the active pinch roller, the cutter below the active pinch roller or the driven pinch roller with
And the cylinder for driving the cutter movement, the conveyor chain transmission of the active pinch roller and the chain conveyor connect
Connect, the driven pinch roller be directly or indirectly rotatably connected on it is described cut a sheet of paper on bracket, the cylinder body of the cylinder is fixedly connected on institute
It states and cuts a sheet of paper on bracket.
10. tile laying production line as claimed in claim 8, which is characterized in that the rubber-coated mechanism includes being fixedly connected on
Gluing bracket in the rack, the separating plate being separately positioned on the gluing bracket, apply lacquer disk(-sc) and gluing cross bar and point
It is not rotatably connected on the viscose glue roller on the gluing bracket and being parallel to each other, spreading roller and takes glue cylinder, the painting rubber-surfaced roll
Cylinder and the two sides for taking glue cylinder to be located at the viscose glue roller, and mutually supported with the viscose glue roller respectively, it is described
Spreading roller is identical with the steering for taking glue cylinder, the viscose glue roller steering and the spreading roller steering on the contrary,
Multiple idler wheels supported on the spreading roller are rotatably connected on the gluing cross bar, the separating plate is located at the idler wheel
Lower section, and one end of the separating plate is supported on the spreading roller, the lacquer disk(-sc) that applies is located at the lower section for taking glue cylinder.
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CN201610867713.7A CN106364716B (en) | 2016-09-30 | 2016-09-30 | A kind of tile laying production line |
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CN201610867713.7A CN106364716B (en) | 2016-09-30 | 2016-09-30 | A kind of tile laying production line |
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CN106364716B true CN106364716B (en) | 2019-03-19 |
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CN106586506A (en) * | 2017-02-07 | 2017-04-26 | 晋江市超骏机械有限公司 | Tile diverting and integral loading system |
CN107499951B (en) * | 2017-09-18 | 2023-06-02 | 湖北科德智能装备有限公司 | Destacking conveying device and automatic destacking system |
CN108297262B (en) * | 2018-03-23 | 2024-04-02 | 莎丽科技股份有限公司 | Bottom basin production line and production method thereof |
CN110548823B (en) * | 2019-07-29 | 2020-08-25 | 江苏科技大学 | Geothermal ceramic tile production tool |
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US3637093A (en) * | 1969-01-07 | 1972-01-25 | Windmoeller & Hoelscher | Palleting apparatus |
EP0042833A1 (en) * | 1980-06-16 | 1981-12-30 | EVG Entwicklungs- u. Verwertungs- Gesellschaft m.b.H. | Stacking apparatus for mesh mats |
CN202389860U (en) * | 2011-12-22 | 2012-08-22 | 中国科学院宁波材料技术与工程研究所 | Material storing equipment |
CN102717914A (en) * | 2012-06-25 | 2012-10-10 | 江苏大学 | Design method of automatic orienting device for big ends of eggs |
CN204540778U (en) * | 2014-09-26 | 2015-08-12 | 孙伟春 | Full-automatic flexible flatten folding curling stand up to roll smear streamline |
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Publication number | Priority date | Publication date | Assignee | Title |
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US3637093A (en) * | 1969-01-07 | 1972-01-25 | Windmoeller & Hoelscher | Palleting apparatus |
EP0042833A1 (en) * | 1980-06-16 | 1981-12-30 | EVG Entwicklungs- u. Verwertungs- Gesellschaft m.b.H. | Stacking apparatus for mesh mats |
CN202389860U (en) * | 2011-12-22 | 2012-08-22 | 中国科学院宁波材料技术与工程研究所 | Material storing equipment |
CN102717914A (en) * | 2012-06-25 | 2012-10-10 | 江苏大学 | Design method of automatic orienting device for big ends of eggs |
CN204540778U (en) * | 2014-09-26 | 2015-08-12 | 孙伟春 | Full-automatic flexible flatten folding curling stand up to roll smear streamline |
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