CN205009474U - Decorative composite insulating panel production line - Google Patents

Abstract

The utility model provides a decorative composite insulating panel production line, production line use conveying part as the carrier, set gradually backward from preceding: an initiating terminal for inciting somebody to action the mould is carried to conveying part mould material loading machine to and be used for carrying out panel stripper and thin stone material material loading machine, stirring batcher, trowelling machine, roll squeezer, press, the mould blanking machine of the drawing of patterns. Wherein the stripper includes left and right fixture, ejection mechanism and picks transport mechanism, picks transport mechanism and has the three -dimensional moving ability to take motion between two stations at the drawing of patterns and assist delivery, carry intergral template to assist delivery and take. This production line is applicable to production and uses thin stone material, ceramic plate as the heat preservation decorative board of base plate, utilizes the adhesion properties of thick liquids self to make insulation material and base plate carry out effectual bonding, just locates to form the structure of interlock each other at faying face between them for combination dynamics increase doubly, more furtherly has increased bonding strength between them.

Description

Composite thermal insulation decorative board production line

Technical field

This utility model relates to a kind of heat insulating decorative board technical field of not firing insulation material containing modified polyphenyl particle, specifically a kind of composite thermal insulation decorative board production line.

Background technology

Composite thermal insulation decorative board, is divided into concrete substrate integrated board, thin stone material integrated board and ceramic integrated board according to material difference.

In the process that thin stone thermal insulating decoration board, ceramic thermal-insulation decorative plate are produced, because thin stone material and pottery are as substrate, thickness is at 8-12 ㎜, and its size and pattern are fixing, such as thin slabstone generally cuts into 60 × 90 specifications, ceramic wafer is generally 60 × 90 specifications, because size and dimension is fixing, so need the warming plate, extruded sheet, the polyurethane sheet that cut correspondingly-sized, then carry out aliging, bonding, that is, employing cutting, bonding mode are produced, and form thin stone thermal insulating decoration board.

The production technology of above-mentioned composite thermal insulation decorative board is as follows: first utilize styrofoam or heat preservation rock to cut, and the size of the size of cutting and pending slabstone, cement plate matches, and then uses bonding technique to be bonded in one piece, forms integrated board.

This technique Problems existing is, need first production styrofoam, extruded sheet, polyurethane sheet or heat preservation rock plate, then cut, a large amount of leftover bits and pieces is produced in the process of cutting, and have breakage, make the rate of becoming a useful person lower, only has about 80%-90%, in addition, warming plate, extruded sheet, polyurethane sheet and the faying face of hard substrate adopt bonding mode to connect, because the weatherability of adhesive glue has strict demand, but the general bonding force that just there will be afterwards in 3 to 5 years declines and the problem come off, especially, more easily obscission is there is under the effect of extraneous wind load, there is potential safety hazard very greatly.

Simultaneously, above-mentioned technique determines the board-like split manufacture of one, technique is long, produce time, need previously prepared styrofoam or buy styrofoam, warming plate, extruded sheet, maintenance in the process, transport consuming time longer, and increase cost, meanwhile, because warming plate, extruded sheet, polyurethane sheet are softer, also there is the damage problem that intensity deficiency causes.

Utility model content

For existing thin stone material, the specification of ceramic wafer etc., and heat insulating decorative board manufacture craft is loaded down with trivial details, easily come off, waste of raw materials, the problem that yield rate is low, the utility model provides a kind of composite thermal insulation decorative board production line and production method, the integrated board produced has exempts from gluing and that adhesive strength is high feature, realizing a production line last time completes compound, the bonding force of slurry self is relied on to carry out bonding, solve the problem that original chemical bonding agent is easily aging, increase the service life, solve exist in manufacturing process consuming time simultaneously, the problem of work consuming and complex process.

The utility model solves the technical scheme that its technical problem adopts:

A kind of composite thermal insulation decorative board production line, adopt the arrangement of pipeline system, it is characterized in that, described production line is carrier with transport portion, sets gradually from front to back:

Mould feeder, the described mould feeder for mould being carried to the initiating terminal of transport portion nestles up transport portion front end and installs;

Ingot stripper, described ingot stripper comprises left and right clamping device, ejecting mechanism and grasp handling mechanism, and left and right clamping device wherein comprises one group of first cylinder and claw respectively, and two claws for blocking mould side are separately fixed at the piston of the first cylinder; Described ejecting mechanism comprises the second cylinder that vertical direction is arranged, the piston of the second cylinder is fixed the transition bracket of a level, on transition bracket, fixing at least two groups upwards arrange and act on the push rod of mould openwork part, claw in grasp handling mechanism captures the integrated board be ejected, described grasp handling mechanism has three-dimensional motion ability that is vertical and horizontal direction, and move between the demoulding and auxiliary conveyor belt two stations, integrated board is carried on auxiliary conveyor belt;

Thin stone material feeder, has three-dimensional motion ability that is vertical and horizontal direction, adopts sucked type structure to be placed in a mold by substrate in the mode of absorption;

Stir batcher, described stirring batcher comprises mixer, feed bin and homocline belt, and wherein mixer is positioned at the top of feed bin, at feed bin lower end open-mouth, a homocline belt is set, the distance of homocline belt upper surface and hopper outlet is adjustable, is tiled uniformly in a mold by slurry by rotating

Trowelling machine, described trowelling machine comprises motor and floating cutter, and the slurry unnecessary to die top under the drive of motor of described floating cutter is erased and forms a smooth plane.

Roll squeezer, comprise the roller of upper and lower paired setting, described roller is driven by driving force, and the spacing of two rollers can regulate;

Forcing press, described forcing press comprises mobile platform, described mobile platform can move in the lateral direction, and driving force comes from the 5th motor, is provided with two stations in the below of mobile platform, a station is compacting station, mould is positioned at compacting station, installs a hydraulic cylinder and a pair lead vertically arranged on a mobile platform, installs a pressing plate in the lower end of hydraulic cylinder piston and lead, pressing plate is dull and stereotyped, the profile of pressing plate and the profile equal and opposite in direction of dies cavity; Another station is washing station, cleans the bottom surface of pressing plate, in the frame of both sides, described compacting station place, be wherein provided with the clamping mechanism of side direction, adopts pneumatic, hydraulic pressure or electronic mode to lock mould;

Mould blanking machine, is arranged on the afterbody of transport portion, and the mould with integrated board is carried to maintenance region.

Further, between forcing press and mould blanking machine, be also provided with an auxiliary press, described auxiliary press is identical with the structure of described forcing press.

Further, the lower portion of described mould feeder is provided with one for being placed with the pallet of mould, and described pallet is liftable motion under manipulator effect, and rises at every turn or fall the thickness of a mould, and described mould blanking machine is identical with mould feeder structure.

Further, the lower end of described manipulator is provided with the pusher dog of L shape, the upper end of described manipulator connects a pair chain, chain is controlled by the first drive motors and the sprocket wheel of top, driving device on hand below upwards moves back and forth, and wherein, described first drive motors is arranged on a support, described support moves in the horizontal direction under the effect of the second drive motors and sprocket wheel, chain, forms transversal driving mechanism.

Further, described floating cutter is three-pawl type structure, and the height adjustable of the working face of described floating cutter.

Further, described pressing plate is double-decker, and arranges rubber washer between double-layer structure.

Further, the vibrational power flow of described washing station is as follows: described cleaning roller is the steel wire roller arranged in pairs, and is connected with power motor, contacts with to the lower pressure surface of pressing plate, and in clean process, pressing plate has an action moved left and right.

Further, described thin stone material feeder comprises planer-type truss, sucker walker, sucker fixed mount and Suction cup assembly, planer-type truss is wherein across on belt conveyor, there are two stations, a station is the pallet laydown area being positioned at belt side, another station is positioned on belt conveyor, sucker walker back and forth can be walked under the driving of driving force between two stations, described sucker fixed mount is arranged on sucker walker, can position on vertical direction and motion.

Further, described transport portion first half adopts spacing conveying mechanism, latter half adopts belt conveyor or roller conveyor structure, wherein spacing conveying mechanism adopts hydraulic oil cylinder driving, carriage has the track of pair of parallel setting, the placement push rod that track slides, under the driving of oil cylinder, described push rod moves back and forth along track, a reciprocal mold station at every turn, every hinged a pair moving tooth of the station of a die width on push rod, moving tooth on the upside of pin joint has a vertical plane and a lozenges, wherein vertical plane is positioned at the side that motion is advanced, lozenges is positioned at opposite side, mould travelling forward progressively is push by moving tooth, and each motion mold station, latter half adopts Belt Conveying machine mechanism.

A kind of composite thermal insulation decorative board production method, is characterized in that, order carries out following steps:

Step one, placed in a mold by substrate, described mould at least has two substrate rest areas;

Step 2, is delivered to stirring batcher by mould, and in mould, is paved with by stirring batcher the heat-insulating granules material that surface adhesion has slurry uniformly,

Step 3, is delivered to trowelling machine by mould, by trowelling machine by floating for the top of mould, then uses roll squeezer to carry out preliminary consolidation to floating place,

Step 4, is delivered to forcing press by mould, by the heat-insulating granules material compacting in mould,

Step 5, uses mould blanking machine that mould is moved to maintenance district, carries out maintenance;

Step 6, uses mould feeder to move in the ingot stripper of conveying mechanism by mould, is departed from by generates plate in mould.

The beneficial effects of the utility model are: this production line is applicable to produce the heat insulating decorative board being substrate with thin stone material, ceramic wafer, utilize the adhesive property of slurry self that insulation material and substrate are carried out effectively bonding, and form at both faying face places the structure be engaged each other, make to increase several times in conjunction with dynamics, further add both bond strengths.

Meanwhile, use foaming thermal-insulating to carry out effective field fabrication, the utilization rate of various material can be provided.

Accompanying drawing explanation

Fig. 1 is the flow chart of this production technology.

Fig. 2 is the stereogram of mould.

Fig. 3 is the top view of mould.

Fig. 4 is A--A place sectional view in Fig. 3.

Fig. 5 is the schematic diagram before striking off.

Fig. 6 is the schematic diagram after striking off.

Fig. 7 is the schematic diagram after compacting.

Fig. 8 is the schematic diagram of ingot stripper.

Fig. 9 is the schematic diagram of ingot stripper.

Figure 10 is the schematic diagram of ingot stripper.

Figure 11 is the partial schematic diagram of ingot stripper.

Figure 12 is the schematic diagram stirring batcher.

Figure 13 is the schematic diagram of Slicking apparatus.

Figure 14 is the schematic diagram of forcing press.

Figure 15 is the schematic diagram of auxiliary press.

Figure 16 is the schematic diagram of belt conveyor.

Figure 17 is the schematic diagram of spacing conveying mechanism.

Figure 18 is mould feeding, discharge device.

In figure: 1 mould, 11C connected in star, 12 cut off, 13 carrying nosings, 21 spacing conveyers, 211 push rods, 212 oil cylinders, 213 moving teeth are, 22 Belt Conveying machine mechanisms, 3 mould feeders, 31 frameworks, 32 pallets, 33 manipulators, 34 pusher dogs, 35 chains, 36 first drive motors and sprocket wheels, 4 ingot strippers, 41 is left, right clamping device, 411 first cylinders, 412 claws, 413 axis of guides, 42 ejecting mechanisms, 421 second cylinders, 422 transition brackets, 423 push rods, 43 grasp handling mechanisms, 431 claws, 432 chains and the 3rd motor, 433 gears, rackwork, 5 stir batcher, 51 mixers, 52 feed bins, 53 homocline belts, 6 trowelling machines, 61 floating cutters, 62 door-shaped frames, 7 roll squeezers, 71 rollers, 8 forcing presses, 81 mobile platforms, 811 hydraulic cylinders, 812 leads, 82 compacting stations, 813 pressing plates, 83 washing stations, 831 cleaning rollers, 0 insulation material.

Detailed description of the invention

As shown in Fig. 1 to Figure 18, for existing defect, protection main body of the present utility model is as follows:

Exploitation be a kind of production line and automatic production method of building material, its basic principle is, hard substrate, slabstone or ceramic wafer are placed in a rectangular mould, then fill insulant material is carried out at the back side of hard substrate or slabstone, such as polystyrene granule foaming material, polystyrene granule foaming material wherein can carry out wrapping up in slurry process, then carries out floating, compacting formation integrated board, then carries out maintenance, the demoulding can form required building material.

Based on above-mentioned description, respectively this production line and production method are described in detail below.

Production line, adopt the arrangement of pipeline system, design action station on streamline, carries out action respectively.

Adopt particular manufacturing craft, as Fig. 2,3, mould 1 entirety is the framework of rectangle, adopts integral molded plastic shaping, for raising the efficiency, designs the placement location of two integrated boards in each mould.Particularly, the global shape of mould 1 is the framework of day font, is provided with outward extending projection at the outer surface of mold frame, forms opening C connected in star 11 outwardly, this special structure is convenient to adapt with the conveying on production line, carrying mechanism, and strengthens the intensity of mould.The partition 12 of a transverse direction is set in the centre position, inner space of mould, the upper edge cut off is recessed in the inside of framework, and the distance namely cutting off the upper edge distance framework upper port of 12 is 20-40 millimeter, is a function breach, for compression compensation, there is certain function.

The lower port place of mould is provided with the carrying nosing 13 of annular, for carrying thin stone material, cement board, ceramic wafer etc., and the transition vertical angle place between carrying nosing 13 and mould framework is provided with the prismatic projection being convenient to molding, the section width of this prismatic projection is in 1 millimeter, the existence of this prismatic projection can be formed spacing to slabstone, the edge of slabstone is buckled in prismatic projection, filled thermal insulation materials is in the periphery of prismatic projection, namely say, the edge of adiabator layer wider than slabstone edge go out 1 millimeter, the easy molding of this structure comparison, also can not affect the use of sheet material simultaneously.

Mold use process is as shown in the pattern of Fig. 5 to Fig. 7, and wherein in Fig. 5, for tentatively filling and pattern after floating insulation material 0, Fig. 6 is the pattern after roller compaction, and Fig. 7 is the pattern after forcing press compression.Mould moves on a production line, completes different actions to different stations, and detailed process will be described below.

Consider the size of factory building, transport portion in above-mentioned production line is according to the arranged in form of U-shaped, namely an action turned to is had at right-hand member, certainly, when not considering space, also according to the arrangement of yi word pattern, according to the sequencing of station, this production line can be described in detail below.

Transport portion first half adopts spacing conveying mechanism, and latter half adopts belt conveyor or roller conveyor structure.As Figure 17, wherein spacing conveyer 21 adopts hydraulic oil cylinder driving, carriage has the track of pair of parallel setting, pair of push rods placed by track, between push rod 211 and track, rolling element is set, frictional force is less, push rod 211 is connected with oil cylinder 212 by connecting rod, and under the driving of oil cylinder, push rod moves back and forth along track, a reciprocal station at every turn, for carrying mould.Particularly, every hinged a pair moving tooth 213 of the station of a die width on push rod 211, under normality, moving tooth is 213 inverted T-shaped, moving tooth on the upside of pin joint has a vertical plane and a lozenges, and wherein vertical plane is positioned at the side that motion is advanced, and lozenges is positioned at opposite side.By the effect of moving tooth, mould travelling forward progressively can be push, and each motion station, as shown in figure 17.

Latter half adopts Belt Conveying machine mechanism 22, stably mould can be carried backward by belt conveyor, comprise chain, sprocket wheel, motor, leather belt roller and belt, motor wherein drives belt to rotate by chain, leather belt roller, and is convenient to the installation of all the other equipment.

Be described according to the erection sequence of each equipment on transport portion below:

At the forward end of transport portion, a mould feeder 3 is installed, this structure drawing of device is as shown in 18, frame part is a rectangular-shaped framework 31, framework nestles up transport portion and installs, a pallet 32 is provided with in the bottom of framework, pallet 32 is placed with mould 1 (having the thin stone material of sclerosis in mould), fork truck is utilized to be deposited on pallet by mould 1, the manipulator 33 vertically arranged for a pair is provided with in the inside of framework 31, wherein the lower end of manipulator is provided with pusher dog 34, the upper end of manipulator connects a pair chain 35, chain is controlled by the first drive motors and the sprocket wheel 36 of top, driving device on hand below upwards moves back and forth, realize the carrying of mould 1 in the vertical direction.Pusher dog 34 is L shape, under normal conditions, its one end is towards the C connected in star 11 of mould, and be a wedge structure, as Figure 17, in the process that manipulator declines, pusher dog can be inserted in the C connected in star 11 of mould just, and mould 1 has been removed, after putting in place, manipulator 33 carries out transverse movement under the driving of transversal driving mechanism, the first wherein above-mentioned drive motors is arranged on a support, support is at the second drive motors and sprocket wheel, move in the horizontal direction under the effect of chain, form transversal driving mechanism, namely, above-mentioned manipulator has the motor function in three dimensions in framework.Mould 1 is carried by level after vertical rise and is placed on transport portion by mould, and pusher dog comes off from the lateral part of C connected in star, completes and once carries, and now, manipulator returns, and carries out carrying next time.What carry in this course is the mould being with the demoulding.

By spacing conveying mechanism, above-mentioned mould is delivered in ingot stripper, carries out stripping operation.

Ingot stripper 4; as shown in Figs. 8 to 11; comprise left and right clamping device 41, ejecting mechanism 42 and grasp handling mechanism 43; left and right clamping device 41 is wherein first cylinders 411 of pair of opposing; the piston of the first cylinder arranges a claw 412 respectively; a pair axis of guide 413 is set between claw 412 and frame, C connected in star 11 can be blocked by the effect of claw 412, realize fixing on left and right direction.Ejecting mechanism 42 comprises the second cylinder 421 that vertical direction is arranged, the piston of the second cylinder is fixed the transition bracket 422 of a level, transition bracket is fixed two groups of push rods upwards arranged 423, act in an openwork part of mould 1 respectively, for being ejected by the integrated board in mould 1, realize the demoulding.

Grasp handling mechanism 43, its effect is similar with above-mentioned manipulator, for capturing the integrated board be ejected, and is carried on auxiliary conveyor belt by integrated board, and is delivered to finished product district, realize crawl and the carrying of integrated board.Described grasp handling mechanism 43 has vertical and horizontal three-dimensional motion ability, integrated board can be held by the claw 431 of a L shape, and carry, above-mentioned vertical structure adopts chain and the 3rd motor 432 to drive, for dragging the movement of claw above-below direction, left and right directions adopts gear, rackwork 433, is driven by the 4th motor, realize crawl and the release of one, for integrated board is carried to auxiliary conveyor belt.

Next station is thin stone material feeder, as Fig. 1, uses thin stone material feeder to adopt sucked type structure, has the 3 d function of above-below direction and left and right directions movement, realize the loading and unloading of thin stone material, and place accurately in a mold by the mode of absorption.

Thin stone material feeder adopts sucking disc type mechanical hand, this sucking disc type mechanical hand comprises planer-type truss, sucker walker, sucker fixed mount and Suction cup assembly, planer-type truss is wherein across on belt conveyor, there are two stations, a station is the pallet laydown area being positioned at belt side, another station is positioned on conveyer belt, sucker walker back and forth can be walked under the driving of driving force between two stations, the best mode of walking is gear & rack structure, namely, under the drive of a motor, walker moves back and forth.Sucker fixed mount is arranged on sucker walker, can position on vertical direction and motion, concrete, between walker and sucker fixed mount, adopt the structure of lead and rack-and-pinion to carry out leading and drive, sucker is four or six, sucker mouth down, towards pallet, is coordinated by negative pressure source of the gas and carries out adsorption operation.By above-mentioned to move up and down, the substrates such as slabstone take out and place in a mold by side-to-side movement in slabstone heap, complete the automatic charging process of pallet.

Above-mentioned handling process, coordinates the sensor of key position to realize precisely carrying.

Next station stirs batcher 5, as Figure 12, comprise mixer 51, feed bin 52 and homocline belt 53, wherein mixer 51 is positioned at the top of feed bin, quantity is two, with one for one, the inner mixing being used for insulation material-granular polystyrene and slurry, forms the insulation material uniformly with certain bonding force.Feed bin 52 is a funnel-form, lower end is uncovered, and a homocline belt 53 is set at open-mouth, the distance of homocline belt upper surface and hopper outlet keeps certain distance, remains on 10 cm, slurry from gap therebetween out, homocline belt 53 is driven by a buncher, and speed is adjustable, is tiled uniformly by material by rotating, and put in mould, form filler.

Next station is trowelling machine 6, as Figure 13, trowelling machine 6 adopts a motor vertically arranged, motor is reducing motor, and be buncher, output shaft installs a floating cutter 61, and working is that wet feed by unnecessary for die top is erased, form a smooth plane, above-mentioned floating cutter is three-pawl type structure.Further, in order to control floating after pre-allowance, the height adjustable of the working face of above-mentioned floating cutter 61, concrete regulative mode is leading screw, guide frame, regulate the position of motor mount, motor mount is door-shaped frame 62, across on the conveying mechanism of conveyer belt or carrying roller, as Figure 13.

Next station is roll squeezer 7, as Figure 15, is flattened by mould 1 upper surface, form the pre-allowance of compacting by the roller 71 rotated.Roll squeezer is driven by independently drive system, rotate, and the spacing of two pressure rollers can regulate, as Figure 15.

Next station is forcing press 8, for compacting further, as Figure 14, adopt hydraulic principle, comprise mobile platform 81, mobile platform 81 can be moved in the lateral direction by wheel matching track, driving force comes from the 5th motor, two stations are provided with in the below of mobile platform 81, a station is compacting station 82, mould is positioned at station position, mobile platform 81 is installed a hydraulic cylinder 811 and a pair lead 812 vertically arranged, in the lower end of hydraulic cylinder piston and lead, a pressing plate 813 is installed, pressing plate is dull and stereotyped, the profile of pressing plate and the profile equal and opposite in direction of dies cavity, compacting can be carried out, after compacting, inner expanded material is densified to the position of dividing plate, improve density and adhesion strength.Harmonious for ensureing compacting, pressing plate 813 is designed to the structure with buffering and balance pad, wherein, pressing plate 813 is double-decker, and between double-layer structure, arranges rubber washer connect, and ensures the uniformity that pressing plate presses down and uniformity.

Another station is washing station 83, and cleaned by a pair cleaning roller 831, cleaning roller 831 is steel wire rollers, and surface is covered with steel wire, and is connected with power motor, cleans the lower pressure surface of pressing plate.In clean process, pressing plate has an action moved left and right.

In the frame of above-mentioned both sides, compacting station place, be wherein provided with the clamping mechanism of side direction, adopt pneumatic, hydraulic pressure or electronic mode to lock mould 1.

Next station is an auxiliary press, and substantially identical with the structure of above-mentioned forcing press, for secondary compaction and pressing, because expanded material has certain rebound characteristics, carry out secondary pressing, this operation can be omitted as required.The structure of this auxiliary press is identical with the structure of above-mentioned forcing press.

Last station is mould blanking machine, there is in mould the sheet material of shaping hygrometric state, need to carry out maintenance, carry out blanking by mould blanking machine herein, discharging is carried out to mould, this mould blanking, and the mould with building materials is carried to maintenance region carries out maintenance, general curing time is 24 hours, after maintenance, again carry out the demoulding, and mould just can realize recycling.

Following description is done to the method utilizing this production line to produce this sheet material below:

Step one, placed in a mold by substrate, described mould at least has two substrate rest areas, and described substrate is generally understood as thin stone material, ceramic wafer etc., or has the thin building materials of class performance.

Step 2, is delivered to stirring batcher by mould, and by stirring batcher uniformly to stone in mould,

Step 3, is delivered to trowelling machine by mould, by trowelling machine by floating for the top of mould, then uses roll squeezer to carry out preliminary consolidation to floating place,

Whether step 4, is delivered to forcing press by mould, by the granular polystyrene paste compaction in mould to the partition position of mould, and according to the characteristic of slurry, select to use further auxiliary press to carry out secondary compaction,

Step 5, uses mould blanking machine that mould is moved to maintenance district, carries out the maintenance of 24 hours by a definite date;

Step 6, uses mould feeder to move in the ingot stripper of conveying mechanism by mould, is departed from by generates plate, carry out stripping operation in mould.

Embodiment recited above is only be described preferred embodiment of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; relevant technical staff in the field, to various distortion of the present utility model and improvement, all should expand in protection domain as determined in the utility model claims.

Claims (9)

1. composite thermal insulation decorative board production line, adopt the arrangement of pipeline system, it is characterized in that, described production line is carrier with transport portion, sets gradually from front to back:

Mould feeder (3), the described mould feeder for mould being carried to the initiating terminal of transport portion nestles up transport portion front end and installs;

Ingot stripper (4), described ingot stripper comprises left and right clamping device (41), ejecting mechanism (42) and grasp handling mechanism (43), left and right clamping device (41) wherein comprises one group of first cylinder (411) and claw (412) respectively, and two claws (412) for blocking mould side are separately fixed at the piston of the first cylinder; Described ejecting mechanism (42) comprises the second cylinder (421) that vertical direction is arranged, the piston of the second cylinder is fixed the transition bracket (422) of a level, on transition bracket, fixing at least two groups upwards arrange and act on the push rod (423) of mould openwork part, claw in grasp handling mechanism (43) captures the integrated board be ejected, described grasp handling mechanism (43) has three-dimensional motion ability that is vertical and horizontal direction, and move between the demoulding and auxiliary conveyor belt two stations, integrated board is carried on auxiliary conveyor belt;

Thin stone material feeder, has three-dimensional motion ability that is vertical and horizontal direction, adopts sucked type structure to be placed in a mold by substrate in the mode of absorption;

Stir batcher (5), described stirring batcher (5) comprises mixer (51), feed bin (52) and homocline belt (53), wherein mixer (51) is positioned at the top of feed bin, at feed bin (52) lower end open-mouth, a homocline belt (53) is set, the distance of homocline belt upper surface and hopper outlet is adjustable, by rotating, slurry is tiled in a mold uniformly

Trowelling machine (6), described trowelling machine (6) comprises motor and floating cutter (61), and the slurry unnecessary to die top under the drive of motor of described floating cutter is erased and forms a smooth plane;

Roll squeezer (7), comprise the roller (71) of upper and lower paired setting, described roller (71) is driven by driving force, and the spacing of two rollers can regulate;

Forcing press (8), described forcing press (8) comprises mobile platform (81), described mobile platform (81) can move in the lateral direction, driving force comes from the 5th motor, the below of mobile platform (81) is provided with two stations, a station is compacting station (82), mould is positioned at compacting station, hydraulic cylinder (811) and a pair lead (812) of the vertical setting of the upper installation one of mobile platform (81), in the lower end of hydraulic cylinder piston and lead, a pressing plate (813) is installed, pressing plate is dull and stereotyped, the profile of pressing plate and the profile equal and opposite in direction of dies cavity, another station is washing station (83), the bottom surface of pressing plate is cleaned, in the frame of both sides, described compacting station place, be wherein provided with the clamping mechanism of side direction, adopt pneumatic, hydraulic pressure or electronic mode to lock mould (1),

Mould blanking machine, is arranged on the afterbody of transport portion, and the mould with integrated board is carried to maintenance region.

2. composite thermal insulation decorative board production line according to claim 1, is characterized in that, between forcing press and mould blanking machine, be also provided with an auxiliary press, described auxiliary press is identical with the structure of described forcing press.

3. composite thermal insulation decorative board production line according to claim 1, it is characterized in that, the lower portion of described mould feeder is provided with one for being placed with the pallet (32) of mould (1), described pallet (32) is liftable motion under manipulator (33) effect, and rising at every turn or fall the thickness of a mould, described mould blanking machine is identical with mould feeder structure.

4. composite thermal insulation decorative board production line according to claim 3, it is characterized in that, the lower end of described manipulator (33) is provided with the pusher dog (34) of L shape, the upper end of described manipulator connects a pair chain (35), chain is controlled by the first drive motors and the sprocket wheel (36) of top, driving device on hand below upwards moves back and forth, wherein, described first drive motors is arranged on a support, described support moves in the horizontal direction under the effect of the second drive motors and sprocket wheel, chain, forms transversal driving mechanism.

5. composite thermal insulation decorative board production line according to claim 1, is characterized in that, described floating cutter is three-pawl type structure, and the height adjustable of the working face of described floating cutter (61).

6. composite thermal insulation decorative board production line according to claim 1, is characterized in that, described pressing plate (813) is double-decker, and arranges rubber washer between double-layer structure.

7. a kind of composite thermal insulation decorative board production line according to claim 1, it is characterized in that, the vibrational power flow of described washing station is as follows: described cleaning roller (831) is the steel wire roller arranged in pairs, and be connected with power motor, contact with to the lower pressure surface of pressing plate, in clean process, pressing plate has an action moved left and right.

8. composite thermal insulation decorative board production line according to claim 1, it is characterized in that, described thin stone material feeder comprises planer-type truss, sucker walker, sucker fixed mount and Suction cup assembly, planer-type truss is wherein across on belt conveyor, there are two stations, a station is the pallet laydown area being positioned at belt side, another station is positioned on belt conveyor, sucker walker back and forth can be walked under the driving of driving force between two stations, described sucker fixed mount is arranged on sucker walker, can position on vertical direction and motion.

9. composite thermal insulation decorative board production line according to claim 1, it is characterized in that, described transport portion first half adopts spacing conveying mechanism, latter half adopts belt conveyor or roller conveyor structure, wherein spacing conveying mechanism (21) adopts hydraulic oil cylinder driving, carriage has the track of pair of parallel setting, the placement push rod that track slides, under the driving of oil cylinder, described push rod moves back and forth along track, a reciprocal mold station at every turn, every hinged a pair moving tooth (213) of the station of a die width on push rod (211), moving tooth on the upside of pin joint has a vertical plane and a lozenges, wherein vertical plane is positioned at the side that motion is advanced, lozenges is positioned at opposite side, mould travelling forward progressively is push by moving tooth, and each motion mold station, latter half adopts Belt Conveying machine mechanism (22).