CN207578595U - Joiner plate core automatic machining device - Google Patents
Joiner plate core automatic machining device Download PDFInfo
- Publication number
- CN207578595U CN207578595U CN201721605418.0U CN201721605418U CN207578595U CN 207578595 U CN207578595 U CN 207578595U CN 201721605418 U CN201721605418 U CN 201721605418U CN 207578595 U CN207578595 U CN 207578595U
- Authority
- CN
- China
- Prior art keywords
- plate
- push
- fixed
- ferry
- conveyer belt
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses joiner plate core automatic machining device, including slab transmission assembly, shift adjusting machine, hot pressing unit and production board transport mechanism;The slab transmission assembly includes conveyer belt one, loading platform and cutting mechanism, the shift adjusting machine includes ferry-boat trolley, ferry-boat track and push platform, the hot pressing unit includes the hot press of 2 or more, hot press is axis with conveyer belt one, the longitudinally asymmetric end for being arranged in shift adjusting machine;The production board transport mechanism includes conveyer belt two, transmission to roller group and falls trigger.The joiner plate core automatic machining device of the utility model is compared to the prior art, pass through two ferry-boat trolleies and 4 hot press cooperatings, the automatic Loading of plate embryo is not only realized, but also is the operating mode to press, alternately, takes full advantage of the time difference of pressurize;Moreover, the transmission of slab, cut, displacement filling and the recycling of production board all realize automation, greatly improve work efficiency.
Description
Technical field
The utility model is related to core-board processing technique field, specifically a kind of joiner plate core processes dress automatically
It puts.
Background technology
Core-board is the very big a kind of material of dosage in household, furniture, house ornamentation and industrial production instantly, in order to save
Some wooden rubbish such as some industrial timber waste materials, the trees do not become a useful person are processed into width, thickness by resource, people, but
It is the batten of length not necessarily, then repoussage molding is carried out to the wood chip of multilayer gluing with hot pressing trigger, heat passes on heating platen
The glue between wood chip layer is passed, makes glue quick solidification, smooth sturdy plank is obtained, is then transferred to next process, into
Row polishing, attached face etc..
Traditional technology is, using 8 layers of (or 9 layers) pressurized, heated plate, to press the structure of 7 (or 8) plates, in advance will by worker
Size is placed in the aluminium dish of 6 millimeters thicks batten as required, then aluminium dish is packed into press together together with batten by two workers
Interlayer starts until all filling 7 layers of hydraulic oil pump, pushes hydraulic pressure hydraulic cylinder raising, timber upper and lower directions is compressed, Ran Housi
Side hydraulic cylinder is full of by lateral surface compressing, due to squeezing diaphragm internal has been heated to the conduction oil of 180 degree or so, oily heat
The glue that by aluminium sheet can be transmitted to heat by way of conduction between batten, glue quick solidification, plank, which is finalized, to be squeezed
The state of pressure is fixed to whole plank.
A kind of existing core-board production line(Application number:201320076425.1), production line is by Transmission system, row's plate
System, platen system and electric-control system composition, the row's panel assembly arranged in plate system arrange batten on row's plate platform, and side pushes away
The batten arranged is pushed into the wood skin in stainless steel conveyor by pneumatic jack by push plate, when batten is all booked, touches row
Plate inductor starts Transmission system, and transmission driving wheel drives stainless steel conveyor that the batten sequenced is transferred to pressing plate position, side
Pressure oil top and upper pressure oil top carry out temperature-pressure by upper lower hot pressing board and side pressure steel plate to batten.Although part improves thin wood
The quality and production efficiency of work plate, still, there are the drawbacks of it is as follows:One-to-one production line, it is raw in hot press pressure maintaining period
Production is stagnated, and working efficiency still has greatly improved space;And the problems such as hot pressing of simple upper and lower surface, deformation, sticking to mould meeting
Influence the quality of core-board finished product.
Invention content
The technical task of the utility model is to provide a kind of realizing automation, working efficiencies
High core-board automatic machining device.
Technical solution is used by the utility model solves its technical problem:Joiner plate core automatic machining device,
It is characterized in that, including slab transmission assembly, shift adjusting machine, hot pressing unit and production board transport mechanism;
The end of slab transmission assembly is provided with shift adjusting machine, and the end of shift adjusting machine is provided with hot press
Group, the end of hot pressing unit are provided with production board transport mechanism;
Described slab transmission assembly includes conveyer belt one, loading platform and cutting mechanism, conveyer belt one, loading platform and
Cutting mechanism three is arranged in same level height, and along the conveying direction, end is configured with loading platform to conveyer belt one, is loaded
The junction of platform and conveyer belt one is provided with cutting mechanism;
The shift adjusting machine includes ferry-boat trolley, ferry-boat track and push platform, the upper of trolley of ferrying
Surface is equipped with push platform, and platform is pushed to be arranged in same level height with loading platform, and ferry-boat trolley is slidably pacified
In ferry-boat track, ferry-boat track is disposed longitudinally between loading platform and hot pressing unit, and small car bottom of ferrying is equipped with vehicle
Wheel, wheel, which corresponds to, to be mounted in the guide groove of ferry-boat track, and the bottom for trolley of ferrying is equipped with ferry-boat trolley walking motor, ferry-boat
The transmission cooperation of rack one in the gear and ferry-boat track of trolley walking motor;
The hot pressing unit includes the hot press of 2 or more, and hot press is axis with conveyer belt one, longitudinally asymmetric arrangement
In the end of shift adjusting machine;
The production board transport mechanism includes conveyer belt two, transmission to roller group and falls trigger, conveyer belt two, transmission two pairs of rollers
Both groups are arranged in same level height, and the conveyer belt two is arranged on the end of hot pressing unit with ferry-boat parallel track,
A transmission two pairs of rollers are each equipped between the conveyer belt two and every hot press, along the direction of transfer of conveyer belt two, are passed
The end of band two is sent to be configured with and falls trigger.
Further, preferred structure is that the cutting mechanism includes cutting stent, cutting platform, snipper saw and compression
Plate, cuts platform and is fixed on and cut on stent, cuts platform with conveyer belt one in same level height, cuts and be provided on platform
Slot is cut, the direction of transfer for cutting slot and conveyer belt one is perpendicular, cuts the snipper saw that the lower section installation of platform can move up and down;
The snipper saw includes saw blade, saw blade motor and bottom plate, and the saw blade is connected on saw blade motor, saw blade with
It cuts slot to be correspondingly arranged, saw blade motor is fixed on bottom plate;The side of bottom plate is fixed on by hinge on pedestal, bottom plate it is another
Side is connected with rising the top of cylinder, and the bottom end for rising cylinder is fixed on pedestal, and base bottom is equipped with sliding block, sliding block pair
It should be mounted on and cut on track, cut and chain is installed in track, chain is mutually fixedly connected with pedestal, and chain is walked with snipper saw
The gear of motor is mutually driven cooperation;It cuts and the pressure plate that can be moved up and down and the pressure for driving pressure plate is configured with right over slot
Tight cylinder, pressure plate are fixed on by compression cylinder and cut on stent, and the pressure plate is correspondingly arranged with cutting slot.
Further, preferred structure is that the cross section of the pressure plate is inverted U-shaped.
Further, preferred structure is that the both sides of the push platform are equipped with push track, and push platform is close to dress
One end of carrying platform is configured with pushing motor stent, and pushing motor bracket slide is mounted in push track, pushing motor stent
On pushing motor is installed, the gear of pushing motor is driven with rack two of the configuration in push track to be coordinated;The push
Electric machine support is connected by downlink cylinder with a side of downlink push plate, the side of downlink push plate and the top phase of downlink cylinder
Connection, the bottom of downlink cylinder is fixed on pushing motor stent;Pushing motor stent both sides are rotatably solid along push direction
Dingan County is equipped with two push rods, and the front end of two push rods is each provided with one and pawls, and push rod end connects the top of push rod rotary cylinder
End, the bottom end of push rod rotary cylinder is fixed on pushing motor stent;
Further, preferred structure is that the push platform includes loading plate, buffer board and fixed plate, and described holds
Placement is laminated in support plate, buffer board and fixed plate from top to bottom, and fixed plate is fixed on the upper surface of ferry-boat trolley, the upper table of fixed plate
Face is equipped with guide rail, and the lower surface of buffer board is equipped with sliding block, and the sliding block of the buffer board corresponds to leading mounted on fixed plate
In rail;The upper surface of buffer board is equipped with guide rail, and the lower surface of loading plate is equipped with sliding block, and the sliding block of the loading plate corresponds to
In the guide rail of buffer board;The right end of the loading plate is connected with the top of right translation cylinder, right translation cylinder
Bottom end is fixed on the right end of buffer board, and the left end of the buffer board is connected with the top of left cylinder, left cylinder
Bottom end be fixed on the left end of fixed plate.
Further, preferred structure is the hot press, including stent and hot pressing assembly, the hot pressing assembly packet
Include dynamic pressure plate, lower stationary. platen, left and right side pressing plate, end pressing plate and demoulding push plate;It is fixed on the crossbeam of the stent
Dynamic pressure hydraulic cylinder, the piston rod of upper dynamic pressure hydraulic cylinder are connected with upper dynamic pressure plate by driving member;Wherein upper dynamic pressure plate liftable
Correspondence be mounted on lower stationary. platen surface, the lower surface of upper dynamic pressure plate is equipped with heating plate, the upper surface of lower stationary. platen
Lower heating plate is installed, upper and lower heating plate vertically corresponds to, and the upper and lower heating plate inner homogeneous is configured with circulation passage, stream
There is circulating heat conduction oil in circulation passage;
The front and rear sides of the upper dynamic pressure plate are correspondingly configured with end pressing plate and demoulding push plate;The left and right two of lower stationary. platen
Side is correspondingly configured with left side pressing plate and right side pressing plate;Upper dynamic pressure plate is configured between stent, the lower half of lower stationary. platen and stent
Divide and be connected to a fixed.
Further, preferred structure is, the upper dynamic pressure plate, left side pressing plate, right side pressing plate, end pressing plate and
Synchronisation spring is each equipped in demoulding push plate.
Further, preferred structure is that the hot press quantity in the hot pressing unit is 2-10.
Further, preferred structure is that the quantity of the ferry-boat trolley is 1 or 2.
Further, preferred structure is that the pressure plate is fixedly connected with one end of connecting rod, the other end connection of connecting rod
Saw kerf projecting body is cut, saw kerf projecting body is cut and is located at the opposite side of direction of transfer, the sanction relative to pressure plate
It cuts saw kerf projecting body and includes sizing stop, calibration rope and paint box, sizing stop is fixed on the end of connecting rod, and calibration rope is fixed
In the bottom end of sizing stop, the calibration rope is arranged in parallel with pressure plate, and calibrates the distance between rope and pressure plate and be equal to
The length of production board;The top of paint box is fixed on sizing stop, and paint box is located at the top of calibration rope, is equipped in paint box
Pigment, the bottom of paint box are equipped with the conduit that pigment is introduced to calibration rope from paint box.
Compared to the prior art the core-board automatic machining device of the utility model, has the beneficial effect that:
1st, control program is cut, uses for reference Cell Division Mode, the automatic and accurate for realizing slab is cut;
2nd, two ferry-boat trolleies and 4 hot press cooperatings not only realize the automatic Loading of plate embryo, but also are to be
Pressure, operating mode alternately take full advantage of the time difference of pressurize, so as to greatly improve work efficiency;
3rd, conveyer belt and the combination of trigger is fallen so that the conveying of cost plate fully achieves automation;
4th, the setting of saw kerf projecting body is cut, gives worker to arrange the guidance of plate, substantially reduces and is cutting out incision
The probability of slashings is generated, so as to improve the qualification rate of product;
5th, push plate, the pressing of six faces and the design of synchronisation spring are demoulded in hot press, haftplatte situation is improved, reduces production
Error, so as to improve the product quality of production board.
Description of the drawings
The utility model is further illustrated below in conjunction with the accompanying drawings.
Attached drawing 1 is the structure diagram of joiner plate core automatic machining device;
Attached drawing 2 is the side view of attached drawing 1;
Attached drawing 3 is the structure diagram of cutting mechanism;
Attached drawing 4 is the another structure diagram of cutting mechanism;
Attached drawing 5 is the structure diagram of ferry-boat trolley;
Attached drawing 6 is the vertical view of attached drawing 4;
Attached drawing 7 is the structure diagram of hot press;
Attached drawing 8 is another structure diagram of hot press;
Attached drawing 9 is the another structure diagram of hot press;
Attached drawing 10 is the structure diagram for cutting saw kerf projecting body.
Wherein:
1st, conveyer belt one;2nd, loading platform;3rd, cutting mechanism;4th, shift adjusting machine;5th, hot pressing unit;6th, transmission pair
Roller;7th, conveyer belt two;8th, trigger is fallen;9th, saw kerf projecting body is cut;31st, stent is cut;32nd, platform is cut;33rd, snipper saw;
331st, saw blade;332nd, saw blade motor;333rd, bottom plate;334th, hinge;335th, rise cylinder;336th, pedestal;34th, pressure plate;35th, it cuts out
Grooving;36th, compression cylinder;371st, snipper saw movable motor;372nd, track is cut;373rd, chain;41st, ferry-boat trolley;41A, pendulum
Cross trolley A;41B, ferry-boat trolley B;421st, ferry-boat track;422nd, wheel;423rd, guide groove;424th, ferry-boat trolley walking motor;
425th, rack one;431st, track is pushed;432nd, pushing motor stent;433rd, pushing motor;434th, downlink push plate;435th, downlink gas
Cylinder;436th, push rod;437th, it pawls;438th, push rod rotary cylinder;439th, rack two;441st, loading plate;442nd, buffer board;443、
Fixed plate;444th, sliding block;445th, left cylinder;446th, right translation cylinder;51st, hot press one;52nd, hot press two;53rd, hot pressing
Machine three;54th, hot press four;501st, crossbeam;502nd, stent;503rd, upper dynamic pressure plate;504th, lower stationary. platen;505th, upper heating plate;
506th, lower heating plate;507th, left side pressing plate;508th, right side pressing plate;509th, end pressing plate;510th, push plate is demoulded;511st, left side pressing plate
Hydraulic cylinder;512nd, right side pressing plate hydraulic cylinder;513rd, end pressing plate hydraulic cylinder;514th, push plate hydraulic cylinder is demoulded;515th, upper dynamic pressure plate
Hydraulic cylinder;516th, synchronisation spring;91st, connecting rod;92nd, sizing stop;93rd, calibration rope;94th, paint box;95th, conduit.
Specific embodiment
The utility model is described in further detail in the following with reference to the drawings and specific embodiments.
In the description of the present invention, it should be noted that term " " center ", " on ", " under ", "left", "right",
The orientation or position relationship of the instruction of "front", "rear", " interior ", " outer " " top ", " end " etc. are based on side shown in the drawings
Position or position relationship, it is only for convenient for description the utility model and simplified description rather than instruction or imply signified dress
It puts or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that the utility model
Limitation.
Embodiment 1:
Joiner plate core automatic machining device, including slab transmission assembly, shift adjusting machine, hot pressing unit and production board
Transport mechanism;The end of slab transmission assembly is provided with shift adjusting machine, and the end of shift adjusting machine is provided with hot press
Group, the end of hot pressing unit are provided with production board transport mechanism;
The slab transmission assembly includes conveyer belt 1, loading platform 2 and cutting mechanism 3, and conveyer belt 1 is loaded and put down
Platform 2 and 3 three of cutting mechanism are arranged in same level height, and along the conveying direction, it is flat that end is configured with loading to conveyer belt 1
The junction of platform 2, loading platform 2 and conveyer belt 1 is provided with cutting mechanism 3;The cutting mechanism include cut stent 31,
Platform 32, snipper saw 33 and pressure plate 34 are cut, platform 32 is cut and is fixed on and cut on stent 31, cuts platform 32 and conveyer belt
One 1 in same level height, cuts to be provided on platform 32 and cuts slot 35, cuts the direction of transfer phase of slot 35 and conveyer belt 1
Vertically, the snipper saw 33 that the lower section installation of platform 32 can move up and down is cut;
The snipper saw 33 includes saw blade 331, saw blade motor 332 and bottom plate 333, and the saw blade 331 is connected to saw
On knife motor 332, saw blade 331 is correspondingly arranged with cutting slot 35, and saw blade motor 332 is fixed on bottom plate 333;The one of bottom plate 333
Side is fixed on by hinge 334 on pedestal 336, and the opposite side of bottom plate 333 is connected with rising the top of cylinder 335, rises gas
The bottom end of cylinder 335 is fixed on pedestal 336, and 336 bottom of pedestal is equipped with sliding block, and sliding block is corresponded to be mounted on and be cut on track 372,
It cuts and chain 373 is installed in track 372, chain 373 is fixedly connected with 336 phase of pedestal, chain 373 and snipper saw movable motor
371 gear is mutually driven cooperation;The surface for cutting slot 35 is configured with the pressure plate 34 that can be moved up and down and drives pressure plate
34 compression cylinder 36, pressure plate 34 are fixed on by compression cylinder 36 and cut on stent 31, and the pressure plate 34 is with cutting
Slot 35 is correspondingly arranged.The cross section of the pressure plate 34 is inverted U-shaped.
When the length of slab reaches setting length, snipper saw 33 rises under the action of cylinder 335 is risen, then saw blade
Motor 332 drives saw blade 331 to rotate, while by the induced effect of snipper saw movable motor 371, realizes saw blade 331 along cutting
35 positive movement of slot, so as to complete to cut slab in designated position.
It is small that the shift adjusting machine 4 includes ferry-boat trolley 41, ferry-boat track 421 and push platform, the ferry-boat
The upper surface of vehicle 41 is equipped with push platform, and platform is pushed to be arranged in same level height with loading platform 2, trolley 41 of ferrying
It is slidably mounted in ferry-boat track 421, ferry-boat track 421 is disposed longitudinally between loading platform 2 and hot pressing unit 5, is put
It crosses 41 bottom of trolley and wheel 422 is installed, wheel 422, which corresponds to, to be mounted in the guide groove 423 of ferry-boat track 421, trolley of ferrying
41 bottom is equipped with ferry-boat trolley walking motor 424, in the gear and ferry-boat track 421 of trolley walking motor 424 of ferrying
The transmission cooperation of rack 1;The both sides of the push platform are equipped with push track 431, and push platform is close to loading platform 2
One end be configured with pushing motor stent 432, pushing motor stent 432 is slidably mounted in push track 431, pushing motor branch
Pushing motor 433 is installed, gear and rack two 439 of the configuration in push track 431 of pushing motor 433 pass on frame 432
Dynamic cooperation;The pushing motor stent 432 is connected by downlink cylinder 435 with a side of downlink push plate 434, and downlink pushes away
The side of plate 434 is connected with the top of downlink cylinder 435, and the bottom of downlink cylinder 435 is fixed on pushing motor stent 432
On;432 both sides of pushing motor stent are rotatably fixed along direction is pushed and are respectively equipped with a push rod 436, two push rods 436
Front end be each provided with one and pawl 437, the top of 436 end of push rod connection push rod rotary cylinder 438, push rod rotary cylinder
438 bottom end is fixed on pushing motor stent 432;
The quantity of ferry-boat trolley 41 is 1, and ferry-boat trolley 41 moves back and forth the transhipment for completing slab in ferry-boat track 421
Work;And pushing motor stent 432 is passed by the gear of pushing motor 433 with rack 2 439 of the configuration in push track 431
Pushing motor stent 432 and the downlink push plate 434 being fixed on pushing motor stent 432 and 436 edge of push rod are realized in dynamic cooperation
Moving back and forth for push track 431;So as to completing the filling work that slab enters hot press, while 436 front end of push rod pushes away
Pawl 437 ejects the production board for completing hot pressing in hot press.
The push platform includes loading plate 441, buffer board 442 and fixed plate 443, the loading plate 441, buffering
Placement is laminated in plate 442 and fixed plate 443 from top to bottom, and fixed plate 443 is fixed on the upper surface of ferry-boat trolley 41, fixed plate 443
Upper surface guide rail is installed, the lower surface of buffer board 442 is equipped with sliding block 444, and the sliding block 444 of the buffer board 442 is right
It should be mounted in the guide rail of fixed plate 443;The upper surface of buffer board 442 is equipped with guide rail, and the lower surface of loading plate 441 is equipped with
Sliding block 444, the sliding block 444 of the loading plate 441 are corresponded in the guide rail of buffer board 442;The loading plate 441
Right end is connected with the top of right translation cylinder 446, and the bottom end of right translation cylinder 446 is fixed on the right end of buffer board 442, described
The left end of buffer board 442 be connected with the top of left cylinder 445, the bottom end of left cylinder 445 is fixed on fixed plate
443 left end.
When the ferry-boat trolley 41 reaches the loading position of loading platform 2, pass through left cylinder 445 and right translation
The movement realization ferry-boat trolley 41 push platform of cylinder 446 and docking for loading platform 2, it is dynamic so as to smoothly complete slab loading
Make;After the completion of loading action, by the movement of left cylinder 445 and right translation cylinder 446 ferry trolley 41 both with
Loading platform 2 generates the hot press that gap is unlikely to and passes by again and scrapes;When ferry-boat trolley 41 reaches specified hot press
Position is loaded, realizes that ferry-boat trolley 41 pushes platform and hot press by the movement of left cylinder 445 and right translation cylinder 446
Lower stationary. platen docking, so as to smoothly complete slab packed action;When packed action is completed, right translation cylinder resets, and carries out next
Secondary actuation cycle.
The hot pressing unit includes 2 hot presses, hot press 1 and hot press 2 52;2 hot press hot presses with
Conveyer belt 1 be axis, the longitudinally asymmetric end for being arranged in shift adjusting machine;The hot press, including stent 502 and heat
Assembly is pressed, the hot pressing assembly includes upper dynamic pressure plate 503, lower stationary. platen 504, left side pressing plate 507, right side pressing plate 508, end
Pressing plate 509 and demoulding push plate 510;Dynamic pressure hydraulic cylinder 515, upper dynamic pressure hydraulic are fixed on the crossbeam 501 of the stent 502
The piston rod of cylinder 515 is connected with upper dynamic pressure plate 503 by driving member;Wherein upper 503 liftable correspondence of dynamic pressure plate is mounted on
The surface of lower stationary. platen 504, the lower surface of upper dynamic pressure plate 503 are equipped with heating plate 505, the upper surface of lower stationary. platen 504
Lower heating plate 506 is installed, upper heating plate 505, lower heating plate 506 are vertically corresponding, and the upper and lower heating plate inner homogeneous is matched
Circulation passage is equipped with, has circulating heat conduction oil in circulation passage.The circulation passage is into snakelike arranged evenly in upper and lower heating plate
Interior or described circulation passage parallel connection is distributed in upper and lower heating plate.
The front and rear sides of the upper dynamic pressure plate 503 are correspondingly configured with end pressing plate 509 and demoulding push plate 510;Lower static pressure
The left and right sides of plate 504 is correspondingly configured with left side pressing plate 507 and right side pressing plate 508;It is the upper dynamic pressure plate 503, left
Synchronisation spring 516, upper dynamic pressure plate are each equipped in side guide 507, right side pressing plate 508, end pressing plate 509 and demoulding push plate 510
503rd, i.e. also respectively there are two synchronisation springs 516 in the left and right sides between lower stationary. platen 504.Upper dynamic pressure plate 503 be configured at stent 502 it
Between, lower stationary. platen 504 and the lower half portion of stent 502 are connected to a fixed.The piston rod of the left side pressing plate hydraulic cylinder 511 with
Left side pressing plate 507 is connected by driving member;The piston rod of the right side pressing plate hydraulic cylinder 512 passes through with right side pressing plate 508
Driving member is connected;The piston rod of the end pressing plate hydraulic cylinder 513 is connected with end pressing plate 509 by driving member;Institute
The piston rod for the demoulding push plate hydraulic cylinder 514 stated is connected with demoulding push plate 510 by driving member.The upper dynamic pressure hydraulic cylinder
515 are connected with dynamic pressure plate moves back solenoid valve into solenoid valve and upper dynamic pressure plate, and left and right side pressing plate hydraulic cylinder is connected with side guide into electricity
Magnet valve and side guide move back solenoid valve, and end pressing plate hydraulic cylinder 513 is connected with end pressing plate and moves back electromagnetism into solenoid valve and end pressing plate
Valve, demoulding push plate hydraulic cylinder 514 are connected with demoulding push plate and move back solenoid valve into solenoid valve and demoulding push plate plate;Upper dynamic pressure plate forward and back
Solenoid valve, side pressure forward and back solenoid valve, end pressing plate forward and back solenoid valve, demoulding push plate plate forward and back solenoid valve pass through signal transmission
Line is connected with PLC.
The course of work of hot press, it would be desirable to suppress by the plank base that forms of multilayer gluing wood chip be placed on upper and lower two
In the gap of heating plate, upper dynamic pressure plate is opened into solenoid valve, and the upper upper dynamic pressure plate 503 of the driving of dynamic pressure plate hydraulic cylinder 515 makes it downwards
Movement, while the end pressing plate 509 of upper 503 front and rear sides of dynamic pressure plate correspondence configuration and demoulding push plate 510 is driven to move downward, it squeezes
Slab between 504 liang of pressing plates of dynamic pressure plate 503 and lower stationary. platen in pressure, when reaching setting pressure, upper dynamic pressure plate is closed into solenoid valve.On
Dynamic pressure plate moves back solenoid valve opening, pressure release.Venting duration is very short, and purpose prevents 504 liang of pressures of dynamic pressure plate 503 and lower stationary. platen
Pressure is too high between plate, so that left and right side pressing plate and the more convenient extruding of end pressing plate 509.
After the completion of pressure release, side guide is opened into solenoid valve, and left side pressing plate hydraulic cylinder 511, right side pressing plate hydraulic cylinder 512 push
It is moved in left side pressing plate 507, right side pressing plate 508, transverse shear stress slab, when reaching setting pressure, side guide is closed into solenoid valve;End
Head pressing plate is opened into solenoid valve, and end pressing plate hydraulic cylinder 513 is pushed in end pressing plate 509 and moved, and longitudinal direction squeezes slab, reaches pressure
Setting value, end pressing plate are closed into solenoid valve, stop squeezing;Upper 503 upper and lower directions of dynamic pressure plate squeezes slab again, reaches setting
Pressure, upper dynamic pressure plate are closed into solenoid valve;Oil pump motor is closed, and into pressurize, heat seal stage, slab is in high-temperature and high-pressure conditions
Lower sizing, bonding;Dwell time reaches, oil pump restarting.
Upper dynamic pressure plate moves back solenoid valve, side guide moves back solenoid valve, end pressing plate moves back solenoid valve opening so that slab surrounding generates
Certain activity space, demoulding push plate are opened into solenoid valve, and demoulding push plate hydraulic cylinder 514 inwardly pushes demoulding push plate 510, by whole
Plank pushes, and eliminates haftplatte phenomenon;When ejection pressure reaches setting pressure, demould and closed into solenoid valve, open simultaneously dynamic pressure
Plate moves back solenoid valve, side guide moves back solenoid valve, end pressing plate moves back solenoid valve, and solenoid valve is moved back in demoulding push plate, and all hydraulic cylinder is reversely drawn
Each push plate is moved, initial bit is returned and awaits orders, reaches reversely setting pressure, whole solenoid valves are closed, and oil pump stops.
It waits for, new slab releases sheet metal forming, while realizes the push-in of new slab, so moves in circles.
The production board transport mechanism includes conveyer belt 27, transmission to roller group and falls trigger 8, conveyer belt 27, transmission
Both roller groups are arranged in same level height, the conveyer belt 27 is arranged in parallel in hot pressing unit with ferry-boat track 421
End, be each equipped between the conveyer belt 27 and every hot press one transmission two pairs of rollers 6, along the biography of conveyer belt 27
Direction is sent, the end of conveyer belt 27, which is configured with, falls trigger 8.
Further, preferred structure is that the pressure plate 34 is fixedly connected with one end of connecting rod 91, connecting rod 91 it is another
One end connection cuts saw kerf projecting body 9, cuts saw kerf projecting body 9 and is located at opposite one of direction of transfer relative to pressure plate 34
Side, the saw kerf projecting body 9 that cuts are fixed on including sizing stop 92, calibration rope 93 and paint box 94, sizing stop 92
The end of connecting rod 91, calibration rope 93 are fixed on the bottom end of sizing stop 92, and the calibration rope 93 is arranged in parallel with pressure plate 34,
And calibration rope the distance between 93 and pressure plate 34 are equal to the length of production board;The top of paint box 94 is fixed on sizing stop 92
On, paint box 94 is located at the top of calibration rope 93, and equipped with pigment in paint box 94, the bottom of paint box 94 is equipped with pigment from face
Magazine introduces the conduit 95 of calibration rope 93.
The saw kerf projecting body 9 that cuts is connect with pressure plate 34 by connecting rod, so as to fulfill same with pressure plate 34
Step pushes, and the pigment in paint box 94 is infiltrated through by conduit 95 on calibration rope 93, calibration rope 93 and the band in pressure plate 34
Under dynamic, during pushing, calibration rope 93 leaves coloured lubber-line on slab, which is just the saw kerf position of snipper saw
It puts, worker then adjusts the arrangement of wood lath near lubber-line, and the end range calibration line for avoiding wood lath is excessively near, has prevented
The probability of wood fragments block is generated when cutting, so as to improve the qualification rate of product, is improved work efficiency.
Specific workflow:
S1, the initiating terminal in conveyer belt 1 by timber according to the technological requirement for the position that is staggered, carry out artificial row's plate, work as transmission
When being all booked with one 1 batten, the servo motor operation of conveyer belt 1 transports the slab sequenced by cutting platform 32
To loading platform 2;
S2, PLC are by controlling servo motor, and the running length of computing board embryo, when reaching setting length, servo motor stops
It only runs, by snipper saw 33 to cut operation in slot 35 sawed-off by plate embryo;
S3, it cuts when finishing, ferry-boat trolley 41 has been waited on the loading position of 2 end of loading platform;Conveyer belt 1 is after reforwarding
Row, plate embryo below can push the plate embryo for having cut and having finished, and PLC is by controlling servo motor, the running length of computing board embryo, directly
It is completely fed on the push platform of ferry-boat trolley 41 to the plate embryo that finishes will have been cut, conveyer belt 1 is out of service, completes plate embryo
Loading acts;
S4, ferry-boat trolley 41 are run to hot press 1 along ferry-boat track 421 by trolley walking motor 424 of ferrying and loaded
Position, ferry-boat trolley 41 stop displacement, the tight slab of spinning under the action of downlink cylinder 435 of downlink push plate 434, while push rod and rotate
Cylinder 438 drives two push rods 436 to rotate so that 437 rotating down pressings of pawling of 436 front end of push rod;Then, 433 band of pushing motor
Dynamic downlink push plate 434 and two push rods 436 move forward to hot press direction, and heat is transferred to from ferry-boat trolley 41 so as to fulfill by plate embryo
In press;Meanwhile pawling for 436 front end of push rod 437 ejects molded production board in hot press, the filling for completing plate embryo is moved
Make;
After S5, the ferry-boat completion plate embryo of trolley 41 are packed into hot press action, push rod rotary cylinder 438 drives two push rods 436
Rotation so that 437 rotations of pawling of 436 front end of push rod upwarp, and then, pushing motor 433 drives downlink push plate 434 and two push rods
436 bounce back to far from hot press direction, until 434 and two push rod 436 of downlink push plate returns to initial position;
S6, plate embryo enter hot press, and in the gap of upper and lower two heating platen, upper dynamic pressure plate 503 moves downward, simultaneously
503 front and rear sides of dynamic pressure plate correspond to the end pressing plate 609 of configuration in drive and demoulding push plate 510 moves downward, upper heating plate 505
The plank base suppressed will be needed to compress with lower heating plate 506, the left and right side pressing plate of the corresponding configuration in lower 504 left and right sides of stationary. platen
And end pressing plate 509 compresses, and realizes that the upper and lower and four Saturday faces of slab are compacted simultaneously, while conduction oil is cycled through and added
Circulation passage in hot plate 505 and lower heating plate 506 under high temperature, condition of high voltage, makes its internal glue solidification, into guarantor
Press program;
S7, ferry-boat trolley 41 load next slope base back to position is loaded, and after completing the action of plate embryo loading, leave plate
Embryo send to hot press 2 52 and loads position, completes the packed action of plate embryo, carries out hot pressing, pressure maintaining period;
S8, after the completion of hot pressing, upper dynamic pressure plate 503 moves upwards, and each compacting tool set resets, newly into plank base will be molded
Woodwork plate ejection;In cycles;
After S0, molding woodwork plate are ejected from hot press, by transmitting two pairs of rollers 6, conveyer belt 27 is reached;By passing
Send the transmission of band 27 that molding woodwork plate is transported to the falling on trigger 8 of 27 end of conveyer belt, by 27 end two of conveyer belt
The positive cylinder that pushes away of side setting pushes away molding woodwork plate just so that molding woodwork plate code on trigger 8 is fallen;
S13, fall after trigger 8 receives molding woodwork plate, decline the thickness of a plate, preparation meet next it is molding
Woodwork plate;Band falls the arrival setting numerical value of the plate number of the reception of trigger 8, falls trigger hydraulic oil pump and starts all molding carpenters
Plate increases, and is transported all molding woodwork plates with fork truck, into lower one of production process;So move in circles.
Embodiment 2:
Joiner plate core automatic machining device, including slab transmission assembly, shift adjusting machine, hot pressing unit and production board
Transport mechanism;The end of slab transmission assembly is provided with shift adjusting machine, and the end of shift adjusting machine is provided with hot press
Group, the end of hot pressing unit are provided with production board transport mechanism;
The slab transmission assembly includes conveyer belt 1, loading platform 2 and cutting mechanism 3, and conveyer belt 1 is loaded and put down
Platform 2 and 3 three of cutting mechanism are arranged in same level height, and along the conveying direction, it is flat that end is configured with loading to conveyer belt 1
The junction of platform 2, loading platform 2 and conveyer belt 1 is provided with cutting mechanism 3;The cutting mechanism include cut stent 31,
Platform 32, snipper saw 33 and pressure plate 34 are cut, platform 32 is cut and is fixed on and cut on stent 31, cuts platform 32 and conveyer belt
One 1 in same level height, cuts to be provided on platform 32 and cuts slot 35, cuts the direction of transfer phase of slot 35 and conveyer belt 1
Vertically, the snipper saw 33 that the lower section installation of platform 32 can move up and down is cut;
The snipper saw 33 includes saw blade 331, saw blade motor 332 and bottom plate 333, and the saw blade 331 is connected to saw
On knife motor 332, saw blade 331 is correspondingly arranged with cutting slot 35, and saw blade motor 332 is fixed on bottom plate 333;The one of bottom plate 333
Side is fixed on by hinge 334 on pedestal 336, and the opposite side of bottom plate 333 is connected with rising the top of cylinder 335, rises gas
The bottom end of cylinder 335 is fixed on pedestal 336, and 336 bottom of pedestal is equipped with sliding block, and sliding block is corresponded to be mounted on and be cut on track 372,
It cuts and chain 373 is installed in track 372, chain 373 is fixedly connected with 336 phase of pedestal, chain 373 and snipper saw movable motor
371 gear is mutually driven cooperation;The surface for cutting slot 35 is configured with the pressure plate 34 that can be moved up and down and drives pressure plate
34 compression cylinder 36, pressure plate 34 are fixed on by compression cylinder 36 and cut on stent 31, and the pressure plate 34 is with cutting
Slot 35 is correspondingly arranged.The cross section of the pressure plate 34 is inverted U-shaped.
When the length of slab reaches setting length, snipper saw 33 rises under the action of cylinder 335 is risen, then saw blade
Motor 332 drives saw blade 331 to rotate, while by the induced effect of snipper saw movable motor 371, realizes saw blade 331 along cutting
35 positive movement of slot, so as to complete to cut slab in designated position.
It is small that the shift adjusting machine 4 includes ferry-boat trolley 41, ferry-boat track 421 and push platform, the ferry-boat
The upper surface of vehicle 41 is equipped with push platform, and platform is pushed to be arranged in same level height with loading platform 2, trolley 41 of ferrying
It is slidably mounted in ferry-boat track 421, ferry-boat track 421 is disposed longitudinally between loading platform 2 and hot pressing unit 5, is put
It crosses 41 bottom of trolley and wheel 422 is installed, wheel 422, which corresponds to, to be mounted in the guide groove 423 of ferry-boat track 421, trolley of ferrying
41 bottom is equipped with ferry-boat trolley walking motor 424, in the gear and ferry-boat track 421 of trolley walking motor 424 of ferrying
The transmission cooperation of rack 1;The both sides of the push platform are equipped with push track 431, and push platform is close to loading platform 2
One end be configured with pushing motor stent 432, pushing motor stent 432 is slidably mounted in push track 431, pushing motor branch
Pushing motor 433 is installed, gear and rack two 439 of the configuration in push track 431 of pushing motor 433 pass on frame 432
Dynamic cooperation;The pushing motor stent 432 is connected by downlink cylinder 435 with a side of downlink push plate 434, and downlink pushes away
The side of plate 434 is connected with the top of downlink cylinder 435, and the bottom of downlink cylinder 435 is fixed on pushing motor stent 432
On;432 both sides of pushing motor stent are rotatably fixed along direction is pushed and are respectively equipped with a push rod 436, two push rods 436
Front end be each provided with one and pawl 437, the top of 436 end of push rod connection push rod rotary cylinder 438, push rod rotary cylinder
438 bottom end is fixed on pushing motor stent 432;
The quantity of ferry-boat trolley 41 is 2, ferry-boat trolley A41A and ferry-boat trolley B41B.Trolley 41 ferry in ferry-boat track
The transhipment work for completing slab is moved back and forth in 421;And gear and configuration of the pushing motor stent 432 by pushing motor 433
Rack 2 439 in push track 431 is driven cooperation, realizes pushing motor stent 432 and is fixed on pushing motor stent
Downlink push plate 434 on 432 the moving back and forth along push track 431 with push rod 436;Enter hot press so as to complete slab
Load work, while the 437 production board ejections that will complete hot pressing in hot press of pawling of 436 front end of push rod.
The push platform includes loading plate 441, buffer board 442 and fixed plate 443, the loading plate 441, buffering
Placement is laminated in plate 442 and fixed plate 443 from top to bottom, and fixed plate 443 is fixed on the upper surface of ferry-boat trolley 41, fixed plate 443
Upper surface guide rail is installed, the lower surface of buffer board 442 is equipped with sliding block 444, and the sliding block 444 of the buffer board 442 is right
It should be mounted in the guide rail of fixed plate 443;The upper surface of buffer board 442 is equipped with guide rail, and the lower surface of loading plate 441 is equipped with
Sliding block 444, the sliding block 444 of the loading plate 441 are corresponded in the guide rail of buffer board 442;The loading plate 441
Right end is connected with the top of right translation cylinder 446, and the bottom end of right translation cylinder 446 is fixed on the right end of buffer board 442, described
The left end of buffer board 442 be connected with the top of left cylinder 445, the bottom end of left cylinder 445 is fixed on fixed plate
443 left end.
When the ferry-boat trolley 41 reaches the loading position of loading platform 2, pass through left cylinder 445 and right translation
The movement realization ferry-boat trolley 41 push platform of cylinder 446 and docking for loading platform 2, it is dynamic so as to smoothly complete slab loading
Make;After the completion of loading action, by the movement of left cylinder 445 and right translation cylinder 446 ferry trolley 41 both with
Loading platform 2 generates the hot press that gap is unlikely to and passes by again and scrapes;When ferry-boat trolley 41 reaches specified hot press
Position is loaded, realizes that ferry-boat trolley 41 pushes platform and hot press by the movement of left cylinder 445 and right translation cylinder 446
Lower stationary. platen docking, so as to smoothly complete slab packed action;When packed action is completed, right translation cylinder resets, and carries out next
Secondary actuation cycle.
The hot pressing unit includes 4 hot presses, hot press 1, hot press 2 52, hot press 3 53 and hot press
4 54;4 hot press hot presses are axis with conveyer belt 1, the longitudinally asymmetric end for being arranged in shift adjusting machine;Described
Hot press, including stent 502 and hot pressing assembly, the hot pressing assembly includes upper dynamic pressure plate 503, lower stationary. platen 504, left side pressure
Plate 507, right side pressing plate 508, end pressing plate 509 and demoulding push plate 510;It is fixed on the crossbeam 501 of the stent 502 dynamic
Pressure cylinder 515, the piston rod of upper dynamic pressure hydraulic cylinder 515 are connected with upper dynamic pressure plate 503 by driving member;Wherein upper dynamic pressure plate
503 liftable correspondences are mounted on the surface of lower stationary. platen 504, and the lower surface of upper dynamic pressure plate 503 is equipped with heating plate
505, the upper surface of lower stationary. platen 504 is equipped with lower heating plate 506, and upper heating plate 505, lower heating plate 506 are vertically corresponding, described
Upper and lower heating plate inner homogeneous be configured with circulation passage, have circulating heat conduction oil in circulation passage.
The front and rear sides of the upper dynamic pressure plate 503 are correspondingly configured with end pressing plate 509 and demoulding push plate 510;Lower static pressure
The left and right sides of plate 504 is correspondingly configured with left side pressing plate 507 and right side pressing plate 508;It is the upper dynamic pressure plate 503, left
Synchronisation spring is each equipped in side guide 507, right side pressing plate 508, end pressing plate 509 and demoulding push plate 510.Upper dynamic pressure plate 503
It is configured between stent 502, lower stationary. platen 504 and the lower half portion of stent 502 are connected to a fixed.
The course of work of hot press, it would be desirable to suppress by the plank base that forms of multilayer gluing wood chip be placed on upper and lower two
In the gap of heating plate, upper dynamic pressure plate is opened into solenoid valve, and the upper upper dynamic pressure plate 5033 of the driving of dynamic pressure plate hydraulic cylinder 515 makes it downwards
Movement, while the end pressing plate 509 of upper 503 front and rear sides of dynamic pressure plate correspondence configuration and demoulding push plate 510 is driven to move downward, it squeezes
Slab between 504 liang of pressing plates of dynamic pressure plate 503 and lower stationary. platen in pressure, when reaching setting pressure, upper dynamic pressure plate is closed into solenoid valve.On
Dynamic pressure plate moves back solenoid valve opening, pressure release.Venting duration is very short, and purpose prevents 504 liang of pressures of dynamic pressure plate 503 and lower stationary. platen
Pressure is too high between plate, so that left and right side pressing plate and the more convenient extruding of end pressing plate 509.
After the completion of pressure release, side guide is opened into solenoid valve, and left side pressing plate hydraulic cylinder 511, right side pressing plate hydraulic cylinder 512 push
It is moved in left side pressing plate 507, right side pressing plate 508, transverse shear stress slab, when reaching setting pressure, side guide is closed into solenoid valve;End
Head pressing plate is opened into solenoid valve, and end pressing plate hydraulic cylinder 513 is pushed in end pressing plate 509 and moved, and longitudinal direction squeezes slab, reaches pressure
Setting value, end pressing plate are closed into solenoid valve, stop squeezing;Upper 503 upper and lower directions of dynamic pressure plate squeezes slab again, reaches setting
Pressure, upper dynamic pressure plate are closed into solenoid valve;Oil pump motor is closed, and into pressurize, heat seal stage, slab is in high-temperature and high-pressure conditions
Lower sizing, bonding;Dwell time reaches, oil pump restarting.
Upper dynamic pressure plate moves back solenoid valve, side guide moves back solenoid valve, end pressing plate moves back solenoid valve opening so that slab surrounding generates
Certain activity space, demoulding push plate are opened into solenoid valve, and demoulding push plate hydraulic cylinder 514 inwardly pushes demoulding push plate 510, by whole
Plank pushes, and eliminates haftplatte phenomenon;When ejection pressure reaches setting pressure, demould and closed into solenoid valve, open simultaneously dynamic pressure
Plate moves back solenoid valve, side guide moves back solenoid valve, end pressing plate moves back solenoid valve, and solenoid valve is moved back in demoulding push plate, and all hydraulic cylinder is reversely drawn
Each push plate is moved, initial bit is returned and awaits orders, reaches reversely setting pressure, whole solenoid valves are closed, and oil pump stops.
It waits for, new slab releases sheet metal forming, while realizes the push-in of new slab, so moves in circles.
The production board transport mechanism includes conveyer belt 27, transmission to roller group and falls trigger 8, conveyer belt 27, transmission
Both roller groups are arranged in same level height, the conveyer belt 27 is arranged in parallel in hot pressing unit with ferry-boat track 421
End, be each equipped between the conveyer belt 27 and every hot press one transmission two pairs of rollers 6, along the biography of conveyer belt 27
Direction is sent, the end of conveyer belt 27, which is configured with, falls trigger 8.
Specific workflow:
S1, the initiating terminal in conveyer belt 1 by timber according to the technological requirement for the position that is staggered, carry out artificial row's plate, work as transmission
When being all booked with one 1 batten, the servo motor operation of conveyer belt 1 transports the slab sequenced by cutting platform 32
To loading platform 2;
S2, PLC are by controlling servo motor, and the running length of computing board embryo, when reaching setting length, servo motor stops
It only runs, by snipper saw 33 to cut operation in slot 35 sawed-off by plate embryo;
S3, it cuts when finishing, ferry-boat trolley 41A has been waited on the loading position of 2 end of loading platform;Conveyer belt 1 continues
Operation, plate embryo below can push the plate embryo for having cut and having finished, and PLC is by controlling servo motor, the running length of computing board embryo,
It is completely fed on the push platform of ferry-boat trolley 41A up to the plate embryo finished will have been cut, conveyer belt 1 is out of service, completes
Plate embryo loading acts;
S4, ferry-boat trolley 41A are run to hot press 1 along ferry-boat track 421 by trolley walking motor 424 of ferrying and filled
Position is filled out, ferry-boat trolley 41 stops displacement, the tight slab of spinning under the action of downlink cylinder 435 of downlink push plate 434, while push rod and revolves
Rotaring cylinder 438 drives two push rods 436 to rotate so that 437 rotating down pressings of pawling of 436 front end of push rod;Then, pushing motor 433
Downlink push plate 434 and two push rods 436 is driven to move forward to hot press direction, are shifted so as to fulfill by plate embryo from ferry-boat trolley 41A
Into hot press;Meanwhile pawling for 436 front end of push rod 437 ejects molded production board in hot press, completes the dress of plate embryo
Fill out action;
After S5, ferry-boat trolley 41A completion plate embryos are packed into hot press action, push rod rotary cylinder 438 drives two push rods 436
Rotation so that 437 rotations of pawling of 436 front end of push rod upwarp, and then, pushing motor 433 drives downlink push plate 434 and two push rods
436 bounce back to far from hot press direction, until 434 and two push rod 436 of downlink push plate returns to initial position;
S6, plate embryo enter hot press, and in the gap of upper and lower two heating platen, upper dynamic pressure plate 503 moves downward, simultaneously
503 front and rear sides of dynamic pressure plate correspond to the end pressing plate 609 of configuration in drive and demoulding push plate 510 moves downward, upper heating plate 505
The plank base suppressed will be needed to compress with lower heating plate 506, the left and right side pressing plate of the corresponding configuration in lower 504 left and right sides of stationary. platen
And end pressing plate 509 compresses, and realizes that the upper and lower and four Saturday faces of slab are compacted simultaneously, while conduction oil is cycled through and added
Circulation passage in hot plate 505 and lower heating plate 506 under high temperature, condition of high voltage, makes its internal glue solidification, into guarantor
Press program;
S8, ferry-boat trolley A41A wait for ferry-boat trolley B41B to load and complete, done to load next slope back to position is loaded
Prepare;
S9, ferry-boat trolley B41B are loading position, after completing the action of plate embryo loading, leave and send plate embryo to hot press 3 53
Position is loaded, completes the packed action of plate embryo, carries out hot pressing, pressure maintaining period;Trolley A41A repetition loadings of ferrying simultaneously act, and will
Plate embryo send the packed action that plate embryo is completed to the filling position of hot press 2 52, carries out hot pressing, pressure maintaining period;
S10, after the completion of hot pressing, upper dynamic pressure plate moves upwards, and each compacting tool set resets, newly into plank base will be molding
Woodwork plate ejects;
S11, ferry-boat trolley A41A and 41B are worked alternatively, and ferry-boat trolley A41A is responsible for hot press 1 and hot press 2 52
Plate embryo packed action;Ferry-boat trolley B41B is responsible for the plate embryo packed action of hot press 3 53 and hot press 4 54;
After S12, the molding woodwork plate are ejected from hot press, by transmission two pairs of rollers 6, conveyer belt 27 is reached,
Trigger 8 is fallen by the transmission arrival of conveyer belt 27, the arrival setting numerical value for the plate number that trigger 8 to be fallen receives will all with fork truck
Molding woodwork plate is transported, into lower one of production process;So move in circles.
Embodiment 3:
Wherein, ferry trolley quantity for 2, and the quantity of hot press is 10, wherein, 10 hot presses are with conveyer belt
1 be axis, the longitudinally asymmetric end for being arranged in shift adjusting machine;The slab that every ferry-boat trolley is responsible for 5 hot presses turns
Fortune and filling work.Other are same as above.
Traditional slab production line, by every set unit, in the case of 10 skilled male workers of standard configuration, 3 classes 24 hours, day
Yield is less than or equal to 400 plates.
And the joiner plate core automatic machining device running precision of the utility model is high, to the size norm controlling essence of product
Standard, production process are generated without leftover bits, can improve productivity to greatest extent;
Meanwhile every production line saves 4-5 male labours;Whole action process are automatically performed, and program operation can
By stabilization, 1 people, random quality monitoring only need to be equipped with.
The automatic production line of the utility model reached day output 1200 and has opened plate, production efficiency is in the experimental stage
Three times of original equipment.
Moreover, the utility model is controlled by PLC, not only there are production yields record, the work(such as same alarm, prompting, prompting
It can be available in all varieties.PLC is controlled, and is in the art mature technology, details are not described herein.
The those skilled in the art can readily realize the utility model with the above specific embodiments,.But
It is it should be appreciated that the utility model is not limited to above-mentioned several specific embodiments.On the basis of the disclosed embodiments,
The those skilled in the art can arbitrarily combine different technical characteristics, so as to fulfill different technical solutions.
Claims (10)
1. joiner plate core automatic machining device, which is characterized in that including slab transmission assembly, shift adjusting machine, hot press
Group and production board transport mechanism;
The end of slab transmission assembly is provided with shift adjusting machine, and the end of shift adjusting machine is provided with hot pressing unit, heat
The end of press group is provided with production board transport mechanism;
Described slab transmission assembly includes conveyer belt one, loading platform and cutting mechanism, conveyer belt one, loading platform and cuts
Mechanism three is arranged in same level height, and along the conveying direction, end is configured with loading platform, loading platform to conveyer belt one
The junction of conveyer belt one is provided with cutting mechanism;
The shift adjusting machine includes ferry-boat trolley, ferry-boat track and push platform, the upper surface of the ferry-boat trolley
Push platform is installed, platform is pushed to be arranged in same level height with loading platform, ferry-boat trolley is slidably mounted on
It ferries in track, ferry-boat track is disposed longitudinally between loading platform and hot pressing unit, and small car bottom of ferrying is equipped with wheel, vehicle
Wheel is corresponding to be mounted in the guide groove of ferry-boat track, and the bottom for trolley of ferrying is equipped with ferry-boat trolley walking motor, trolley of ferrying
The transmission cooperation of rack one in the gear and ferry-boat track of movable motor;
The hot pressing unit includes the hot press of 2 or more, and hot press is axis with conveyer belt one, and longitudinally asymmetric arrangement is in place
Move the end of adjustment mechanism;
The production board transport mechanism includes conveyer belt two, transmission to roller group and falls trigger, and conveyer belt two, transmission are to roller group two
Person is arranged in same level height, and the conveyer belt two is arranged on the end of hot pressing unit with ferry-boat parallel track, described
Conveyer belt two and every hot press between be each equipped with one transmission two pairs of rollers, along the direction of transfer of conveyer belt two, conveyer belt
Two end, which is configured with, falls trigger.
2. joiner plate core automatic machining device according to claim 1, which is characterized in that the cutting mechanism includes
It cuts stent, cut platform, snipper saw and pressure plate, cut platform and be fixed on and cut on stent, cut platform and conveyer belt one
It in same level height, cuts to be provided on platform and cuts slot, the direction of transfer for cutting slot and conveyer belt one is perpendicular, cuts flat
The snipper saw that the lower section installation of platform can move up and down;
The snipper saw includes saw blade, saw blade motor and bottom plate, and the saw blade is connected on saw blade motor, and saw blade is with cutting
Slot is correspondingly arranged, and saw blade motor is fixed on bottom plate;The side of bottom plate is fixed on by hinge on pedestal, the opposite side of bottom plate with
The top for rising cylinder is connected, and the bottom end for rising cylinder is fixed on pedestal, and base bottom is equipped with sliding block, and sliding block corresponds to peace
It mounted in cutting on track, cuts and chain is installed in track, chain is mutually fixedly connected with pedestal, chain and snipper saw movable motor
Gear be mutually driven cooperation;It cuts and the pressure plate that can be moved up and down and the compression gas for driving pressure plate is configured with right over slot
Cylinder, pressure plate are fixed on by compression cylinder and cut on stent, and the pressure plate is correspondingly arranged with cutting slot.
3. according to the joiner plate core automatic machining device described in claim 2, which is characterized in that the horizontal stroke of the pressure plate
Section is inverted U-shaped.
4. joiner plate core automatic machining device according to claim 1, which is characterized in that the two of the push platform
Side is equipped with push track, and push platform is configured with pushing motor stent close to one end of loading platform, and pushing motor stent is slided
It is dynamic to be mounted in push track, pushing motor is installed, the gear of pushing motor is with being configured in push rail on pushing motor stent
The transmission cooperation of rack two in road;The pushing motor stent is connected by downlink cylinder with a side of downlink push plate,
The side of downlink push plate is connected with the top of downlink cylinder, and the bottom of downlink cylinder is fixed on pushing motor stent;Push
Electric machine support both sides are rotatably fixed along push direction and are equipped with two push rods, the front end of two push rods is each provided with one
It pawls, push rod end connects the top of push rod rotary cylinder, and the bottom end of push rod rotary cylinder is fixed on pushing motor stent.
5. joiner plate core automatic machining device according to claim 1, which is characterized in that the push platform includes
Placement is laminated in loading plate, buffer board and fixed plate, the loading plate, buffer board and fixed plate from top to bottom, and fixed plate is fixed
In the upper surface of ferry-boat trolley, the upper surface of fixed plate is equipped with guide rail, and the lower surface of buffer board is equipped with sliding block, and described is slow
The sliding block of punching is corresponded in the guide rail of fixed plate;The upper surface of buffer board is equipped with guide rail, the lower surface peace of loading plate
Equipped with sliding block, the sliding block of the loading plate is corresponded in the guide rail of buffer board;The right end of the loading plate is put down with the right side
The top for moving cylinder is connected, and the bottom end of right translation cylinder is fixed on the right end of buffer board, left end and the left side of the buffer board
The top of flat-removing air cyclinder is connected, and the bottom end of left cylinder is fixed on the left end of fixed plate.
6. joiner plate core automatic machining device according to any one of claims 1-5, which is characterized in that the heat
Press, including stent and hot pressing assembly, the hot pressing assembly includes upper dynamic pressure plate, lower stationary. platen, left and right side pressing plate, end
Pressing plate and demoulding push plate;Be fixed with dynamic pressure hydraulic cylinder on the crossbeam of the stent, the piston rod of upper dynamic pressure hydraulic cylinder with it is upper
Dynamic pressure plate is connected by driving member;Wherein the liftable correspondence of upper dynamic pressure plate is mounted on the surface of lower stationary. platen, upper dynamic pressure
The lower surface of plate is equipped with heating plate, and the upper surface of lower stationary. platen is equipped with lower heating plate, and upper and lower heating plate vertically corresponds to,
The upper and lower heating plate inner homogeneous is configured with circulation passage, has circulating heat conduction oil in circulation passage;
End pressing plate is configured on front side of upper dynamic pressure plate, demoulding push plate is correspondingly configured on rear side of upper dynamic pressure plate, lower stationary. platen
Left side is configured with left side pressing plate, and right side pressing plate is configured on the right side of lower stationary. platen, and upper dynamic pressure plate is configured between stent, lower static pressure
The lower half portion of plate and stent is connected to a fixed.
7. according to the joiner plate core automatic machining device described in claim 6, which is characterized in that the upper dynamic pressure plate,
Synchronisation spring is each equipped in left side pressing plate, right side pressing plate, end pressing plate and demoulding push plate.
8. joiner plate core automatic machining device according to any one of claims 1-5, which is characterized in that the heat
Hot press quantity in press group is 2-10.
9. joiner plate core automatic machining device according to any one of claims 1-5, which is characterized in that the pendulum
The quantity for crossing trolley is 1 or 2.
10. joiner plate core automatic machining device according to claim 2, which is characterized in that the pressure plate and company
One end of bar is fixedly connected, and the other end connection of connecting rod cuts saw kerf projecting body, cuts saw kerf projecting body relative to compression
Plate is located at the opposite side of direction of transfer, and the saw kerf projecting body that cuts includes sizing stop, calibration rope and paint box, school
Quasi- stent is fixed on the end of connecting rod, and calibration rope is fixed on the bottom end of sizing stop, and the calibration rope is parallel with pressure plate to be set
It puts, and calibrates the length that the distance between rope and pressure plate are equal to production board;The top of paint box is fixed on sizing stop, face
Magazine is located at the top of calibration rope, is equipped with to introduce pigment from paint box and calibrate equipped with pigment, the bottom of paint box in paint box
The conduit of rope.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721605418.0U CN207578595U (en) | 2017-11-27 | 2017-11-27 | Joiner plate core automatic machining device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721605418.0U CN207578595U (en) | 2017-11-27 | 2017-11-27 | Joiner plate core automatic machining device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207578595U true CN207578595U (en) | 2018-07-06 |
Family
ID=62733750
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721605418.0U Expired - Fee Related CN207578595U (en) | 2017-11-27 | 2017-11-27 | Joiner plate core automatic machining device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207578595U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107718181A (en) * | 2017-11-27 | 2018-02-23 | 樊荣武 | Joiner plate core automatic processing method and device |
CN110901208A (en) * | 2019-11-02 | 2020-03-24 | 北京普瑞曼科技股份有限公司 | Fireproof door leaf gluing production line |
CN111300577A (en) * | 2020-03-02 | 2020-06-19 | 陈晓斌 | Anti-deformation treatment method for solid wood plate after processing and forming |
-
2017
- 2017-11-27 CN CN201721605418.0U patent/CN207578595U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107718181A (en) * | 2017-11-27 | 2018-02-23 | 樊荣武 | Joiner plate core automatic processing method and device |
CN110901208A (en) * | 2019-11-02 | 2020-03-24 | 北京普瑞曼科技股份有限公司 | Fireproof door leaf gluing production line |
CN111300577A (en) * | 2020-03-02 | 2020-06-19 | 陈晓斌 | Anti-deformation treatment method for solid wood plate after processing and forming |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107718181A (en) | Joiner plate core automatic processing method and device | |
CN207578595U (en) | Joiner plate core automatic machining device | |
CN101554747A (en) | Inorganic light weight thermal insulation wall tile forming machine and forming method | |
CN104070771B (en) | A kind of sponge plastic roll combined-flow waterline | |
CN104385427B (en) | Recombined bamboo square stock cold moudling combined conveying device | |
CN202336906U (en) | Plate plying machine | |
CN104552982A (en) | Device of multi-mold turnover automatic production line for manufacturing fabric cloth plastic injection molding product | |
US9663898B2 (en) | Automatic multi-station integrated equipment and method for forming waste-paper-based packaging products | |
CN101947801A (en) | Complete production equipment for laminated veneer lumbers | |
CN202097980U (en) | Brake pad pressing machine | |
CN104648716A (en) | Clamping and transporting method for aerated concrete blocks | |
CN201841566U (en) | Mobile cutting saw | |
CN207578594U (en) | A kind of plate core hot press | |
CN206318869U (en) | A kind of hot-bending machine of shaping station pressing structure | |
CN201456181U (en) | Inorganic light heat-preservation wall tile forming machine | |
CN204604937U (en) | A kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device | |
CN108545443B (en) | Full-automatic intelligent stacking system and method for finished gypsum plasterboards | |
CN204844380U (en) | Stuff makeup automated production device | |
CN201800095U (en) | Numerical control positioning blank assembly machine for producing laminated veneer lumber | |
CN202399369U (en) | Heating and pre-pressing device of dual steel tape continuous flat press | |
CN202045722U (en) | Plastic partition wall slat forming machine | |
CN202778838U (en) | Automatic glue spreader for production line of high-temperature adhered and formed sandwich panel | |
CN107487987A (en) | A kind of shaping station pressing structure of hot-bending machine | |
CN210731627U (en) | Continuous production line for ultra-wide aluminum composite boards | |
CN203198039U (en) | Perlite acoustic panel forming production line |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180706 Termination date: 20181127 |