CN207997410U - Interlayer cloth spreading device for producing light fire-proof heat-insulating decorative panel - Google Patents

Abstract

The utility model discloses a kind of interlayer cloth spreading devices for producing light fire-proof heat-insulating decorative panel, it includes the support plate being fixedly connected in rack and the reel with support plate rotation connection for coiling fiber cloth, it further include the tensioning apparatus of rotation connection on the supporting plate, tensioning apparatus is located at the top of reel, and fiber cloth is overlapped on after being unfolded from reel on tensioning apparatus;The tensioning apparatus is the rotating cylinder being rotatably connected in the support plate, fiber cloth is overlapped on rotating cylinder, rotating cylinder is broad in the middle small in ends in drum type, and the rotating cylinder outer surface is coated with one layer of rubber layer, the crease intensity occurred when the utility model has the advantages that can reduce fiber cloth around rotating cylinder.

Description

Interlayer cloth spreading device for producing light fire-proof heat-insulating decorative panel

Technical field

It is the utility model is related to a kind of production equipment of decorative panel, more particularly to a kind of for producing light fire-proof heat-insulating dress The interlayer cloth spreading device of plaque.

Background technology

Fire-proof and thermal-insulation decorative panel includes concrete and the fiber cloth that is clipped in concrete, and fiber cloth can have multilayer, can be with The structural strength of decorative panel is improved, weight is reduced, improves fire insulation performance.

Such as the Chinese patent that notification number is CN102941621B, it discloses a kind of building wall board automatic assembly lines, including Rack, casting moulds continuously run device and in rack and are arranged in order and are arranged in casting moulds and continuously run above device Lower layer's cloth laying apparatus, bottom casting device, upper layer casting device, upper layer cloth laying apparatus and cutter, bottom casting device with There is sandwich installing zone, rack to be equipped with belt between the casting device of upper layer;When work, casting moulds are placed on belt, are poured into a mould Lowermost fibre cloth is unfolded and is laid on the bottom plate of casting moulds, will be stirred with belt uniform motion, lower layer's paving cloth roller by mould Slurry cast to the bottom of casting moulds, doctor blade base pastes, worker starches ready wallboard sandwich concora crush to bottom On material, upper slurry is poured into a mould to sandwich surrounding and upper surface, top fiber cloth is unfolded and is laid on upper layer by upper layer paving cloth roller On slurry, doctor blade top fiber cloth, cutter cuts off lowermost fibre cloth and top fiber cloth, completes automated production.

Fiber cloth is routed in casting moulds underlying process from lower layer's paving cloth roller or is set to from upper layer paving cloth roller upper berth and poured During injection molding upper layer, needs elder generation and lower layer to spread the connecting rod being arranged above cloth roller or upper layer paving cloth roller and rotate overlap joint, with The tension of increased fiber cloth improves the flatness that fiber cloth is laid on slurry.In reality, connecting rod is generally cylindrical bar Shape, fiber cloth are easier sliding axially and wrinkle occur along connecting rod in process of deployment.

Utility model content

The purpose of this utility model is to provide a kind of interlayer cloth spreading device for producing light fire-proof heat-insulating decorative panel, Advantage is the crease intensity occurred when can reduce fiber cloth around rotating cylinder.

The above-mentioned technical purpose of the utility model technical scheme is that:One kind is for producing lightweight The interlayer cloth spreading device of fire-proof and thermal-insulation decorative panel, including the support plate that is fixedly connected in rack and be rotatablely connected with support plate For the reel of coiling fiber cloth, it is characterized in that:Further include the tensioning apparatus of rotation connection on the supporting plate, tensioning apparatus is located at The top of reel, fiber cloth are overlapped on after being unfolded from reel on tensioning apparatus;The tensioning apparatus is described to be rotatably connected on Rotating cylinder in support plate, fiber cloth are overlapped on rotating cylinder, and rotating cylinder is broad in the middle small in ends in drum type.

Through the above technical solutions, tensioning apparatus can be with the tensioning along conveyer belt direction of transfer after the expansion of increased fiber cloth Degree, the fiber cloth with certain rate of tension is more smooth when being laid on casting moulds, has centainly between fiber cloth and rotating cylinder Frictional force, fiber cloth can drive drum rotation during being laid on casting moulds or be slided along drum surface, and rotating cylinder can be with Improve the rate of tension of fiber cloth, the configuration of rotating cylinder has thrust towards rotating cylinder both ends to being overlapped on fiber cloth above, makes Fiber cloth along rotating cylinder axially there is certain rate of tension, fiber cloth to be not easy to slide axially along rotating cylinder, reduce fiber cloth along rotating cylinder Slide axially the wrinkle of generation.

The utility model is further arranged to:Sliding bearing is fixedly connected in the support plate, the rotating cylinder passes through cunning Dynamic bearing is rotatablely connected with support plate.

Through the above technical solutions, sliding bearing can reduce the force of sliding friction between reel and support plate, fiber cloth Spool turns are more easily driven, the relative motion between reel and fiber cloth is reduced, reduce fiber cloth caused by mandrel surface Abrasion, extends the service life of reel.

The utility model is further arranged to:The rotating cylinder center rotating is connected with shaft, the central axis of shaft with turn The central axis of cylinder is parallel, and shaft is rotatablely connected with the sliding bearing.

Through the above technical solutions, rotating cylinder and shaft and shaft and connecting plate constitute dual rotation connection, in fiber cloth Drive under, tensioning apparatus can be easier rotate, the rate of tension of fiber cloth will not be excessive.

The utility model is further arranged to:Tetrafluoro spacer is socketed in the shaft, Tetrafluoro spacer is slidably connected at institute It states between rotating cylinder end face and the support plate side.

Through the above technical solutions, the coefficient of sliding friction on Tetrafluoro spacer surface is smaller, Tetrafluoro spacer, which can reduce, to be turned Frictional force between cylinder end face and support plate side, rotating cylinder are easier to rotate.

The utility model is further arranged to:The rotating cylinder both ends are fixedly connected with shaft, the central axis of shaft with turn The central axis of cylinder is parallel, and shaft is rotatablely connected with the sliding bearing.

It is convenient to fabricate through the above technical solutions, shaft is fixedly connected with rotating cylinder, reduces cost.

The utility model is further arranged to:The rotating cylinder outer surface is coated with one layer of rubber layer.

Through the above technical solutions, rubber layer can increase the frictional force between rotating cylinder and fiber cloth, fiber cloth is by rotating cylinder When being pushed towards rotating cylinder direction of both ends, fiber cloth is not easy sliding axially along rotating cylinder, so that fiber cloth is axially had along rotating cylinder and stablizes Tension.

In conclusion the utility model has the advantages that:

1, the rate of tension that tensioning apparatus can be after the expansion of increased fiber cloth, wrinkle are less likely to occur in fiber cloth process of deployment, It is more smooth after being laid in casting moulds;

2, rotating cylinder and shaft are rotatablely connected, and shaft is rotatablely connected with support plate, rotating cylinder and shaft and shaft and support plate Dual rotation connection is constituted, can reduce and stuck probability occurs, rotating cylinder is easier to rotate;

3, rotating cylinder it is small in ends it is broad in the middle be in drum type, drum surface can be to being overlapped on fiber cloth above towards rotating cylinder both ends side To thrust is generated, fiber cloth is made along the axial direction of rotating cylinder to there is certain tightness, fiber cloth to be not easy to slide along the axial direction of rotating cylinder Dynamic, therefore, fiber cloth is not easy that wrinkle occur along the axial of rotating cylinder;

4, rubber layer can increase the frictional force between rotating cylinder and fiber cloth, and fiber cloth is not easy to slide along the axial direction of rotating cylinder It is dynamic, make fiber cloth that axially there is stable tension along rotating cylinder.

Description of the drawings

Fig. 1 is the schematic diagram that interlayer cloth spreading device installation site in the production line is embodied in embodiment 1;

Fig. 2 is the schematic diagram that cast mode structure is embodied in embodiment 1;

Fig. 3 is the schematic diagram that interlayer cloth spreading device structure is embodied in embodiment 1;

Fig. 4 is the schematic diagram that tensioning device structure is embodied in embodiment 1;

Fig. 5 is the sectional view of A-A in Fig. 4;

Fig. 6 is the schematic diagram that sandwich structure is embodied in embodiment 1;

Fig. 7 is the schematic diagram for embodying level-one in embodiment 1 and flattening roll structure;

Fig. 8 is the schematic diagram that cutter structure is embodied in embodiment 1;

Fig. 9 is the schematic diagram that position relationship between cutter and conveyer belt is embodied in embodiment 1;

Figure 10 is the schematic diagram that level-one bin structure is embodied in embodiment 1;

Figure 11 is the schematic diagram that hopper internal structure is embodied in embodiment 1;

Figure 12 is the schematic diagram that stirring paddle structure is embodied in embodiment 1;

Figure 13 is the schematic diagram that agitating paddle and flashboard operation principle are embodied in embodiment 1;

Figure 14 is the schematic diagram that two level bin structure is embodied in embodiment 1;

Figure 15 is the schematic diagram that the installation relation of interlayer cloth spreading device in the production line is embodied in embodiment 2;

Figure 16 is the schematic diagram that paving cloth cast modular structure is embodied in embodiment 3;

Figure 17 is that paving cloth cast module modularization assembling relation schematic diagram is embodied in embodiment 3.

In figure, 1, rack;2, conveyer belt;3, bottom cloth spreading device;4, level-one hopper;41, level-one gate spool;42, blanking Pipe;43, hopper;44, agitating paddle;441, cylinder;442, stirring blade;45, driving motor;46, partition board;47, support plate;471, Sluice gate;48, pneumatic cylinder;49, flashboard;5, sandwich;51, support frame;52, hydraulic cylinder;53, scraper plate;531, baffle;532, it presses Plate;6, level-one slicking-in roller;61, supporting rack;62, roller;63, slide plate;7, interlayer cloth spreading device;71, support plate;72, reel; 73, tensioning apparatus;731, shaft;732, rotating cylinder;733, sliding bearing;734, Tetrafluoro spacer;735, rubber layer;74, driving machine Structure;741, motor;742, driven sprocket;743, drive sprocket;744, chain;8, two level slicking-in roller;9, two level hopper;91, Two level gate spool;92, feeding tube;93, insertion pipe;94, it pumps;101, three-level slicking-in roller;102, cutter;1021, movable blades; 1022, fixed blade;103, casting moulds;104, fiber cloth;105, guide rail;106, travelling bogie;107, fixed frame;108, cloth is spread Pour into a mould module.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment 1:Interlayer cloth spreading device for producing light fire-proof heat-insulating decorative panel, as shown in Figure 1, for producing dress The production line of plaque includes rack 1 and the conveyer belt 2 in rack 1, and 1 upper edge conveyer belt of rack, 2 direction of transfer is set successively There are bottom cloth spreading device 3, level-one hopper 4, sandwich 5, level-one slicking-in roller 6, interlayer cloth spreading device 7, two level slicking-in roller 8, two Grade hopper 9, three-level slicking-in roller 101 and cutter 102.Casting moulds 103 are groove-like structure(Detailed construction is shown in Fig. 2), multiple casting moulds 103 head and the tail mutually place on conveyor belt 2 by splicing, and when slurry cast is in casting moulds 103, slurry can be installed in casting moulds 103 Inside, conveyer belt 2 can drive 103 uniform motion of casting moulds.When work, along the direction of transfer of conveyer belt 2, following step is completed Suddenly:Fiber cloth 104 is laid on the bottom surface of 103 inside of casting moulds by bottom cloth spreading device 3;Casting moulds 103 move to level-one material When 4 lower section of case, level-one hopper 4 is by slurry cast on casting moulds 103;Sandwich 5 carries out just the slurry on casting moulds 103 Step strikes off;Level-one slicking-in roller 6 further flattens the slurry on casting moulds 103;Fiber cloth 104 is laid with by interlayer cloth spreading device 7 Above slurry in casting moulds 103;Two level slicking-in roller 8 to fiber cloth 104 flatten and fiber cloth 104 is pressed into slurry To certain depth;When casting moulds 103 move to two level 9 lower section of hopper, two level hopper 9 pours into a mould slurry again to casting moulds 103, and one Fiber cloth 104 is clipped in the middle by the slurry that the slurry and two level hopper 9 that grade hopper 4 is poured into a mould are poured into a mould;Three-level slicking-in roller 101 is to slurry Upper surface is flattened;Cutter 102 cuts off fiber cloth 104, completes whole process.1 side of rack is equipped with and conveyer belt 2 The parallel guide rail 105 of direction of transfer, guide rail 105 are equipped with travelling bogie 106, and travelling bogie 106 can will be in level-one hopper 4 Slurry transport to the side of two level hopper 9, when the slurry in two level hopper 9 has consumed, can feed from travelling bogie 106. Fiber cloth 104 is laid on the bottom surface of casting moulds 103 after can preventing slurry from solidifying and casting moulds 103 by bottom cloth spreading device 3 Phase adhesion, convenient for taking out the decorative panel formed after solidification from casting moulds 103.

As shown in figure 3, bottom cloth spreading device 3 is identical with 7 structure of interlayer cloth spreading device, interlayer cloth spreading device 7 includes fixing The support plate 71 that is connected in rack 1, the reel 72 being rotatably connected in support plate 71, being rotatably connected in support plate 71 Tight device 73, the driving mechanism 74 for being rotated with movable reel 72,104 coiling of fiber cloth is on reel 72,74 band of driving mechanism When movable reel 72 rotates, fiber cloth 104 is gradually spread out from reel 72.Support plate 71 is equipped with motor 741, motor 741 Pedestal be fixedly connected with support plate 71, driving mechanism 74 includes the driven sprocket being fixedly connected with the central rotating shaft of reel 72 742, the drive sprocket 743 that is fixedly connected with 741 output shaft of motor and driven sprocket 742 and drive sprocket 743 are wrapped in On chain 744 to be driven between driven sprocket 742 and drive sprocket 743, motor 741 can drive reel when running 72 rotations, the speed that the rotating speed of reel 72 can just be such that fiber cloth 104 is unfolded are identical as the transmission speed of conveyer belt 2.In conjunction with Fig. 4, tensioning apparatus 73 are located at the top of reel 72, and fiber cloth 104 is overlapped on tensioning apparatus 73 after being unfolded, re-lays and pouring into a mould On mould 103, there is certain frictional force, fiber cloth 104 can band in process of deployment between fiber cloth 104 and tensioning apparatus 73 Dynamic tensioning apparatus 73 rotates.Tensioning apparatus 73 can improve the rate of tension of fiber cloth 104, the mistake on being laid on casting moulds 103 It is less likely to occur wrinkle in journey.

As shown in figure 5, tensioning apparatus 73 includes shaft 731 and the rotating cylinder 732 for being socketed in 731 outside of shaft, rotating cylinder 732 Central axis is parallel with the central axis of shaft 731, and rotating cylinder 732 is rotatablely connected with shaft 731.731 both ends of shaft rotate Be connected with sliding bearing 733, sliding bearing 733 is fixedly connected with support plate 71, sliding bearing 733 can reduce shaft 731 with Sliding-frictional resistance between connecting plate.Rotating cylinder 732 and shaft 731 and shaft 731 and connecting plate constitute dual rotation connection, Under the drive of fiber cloth 104, tensioning apparatus 73 can be easier to rotate, and can reduce and stuck probability, fiber cloth occurs 104 rate of tension will not be excessive.Shaft 731 and rotating cylinder 732 can also integrally connected, integral connecting structure is simple, convenient for manufacture Processing, cost are relatively low.

Be socketed with Tetrafluoro spacer 734 in shaft 731, the two sides of Tetrafluoro spacer 734 respectively with the end face of rotating cylinder 732 and connect Plate surface abuts against, and opposite with Tetrafluoro spacer 734 can be slided when rotating cylinder 732 rotates, Tetrafluoro spacer 734 also can be opposite with connecting plate Sliding, Tetrafluoro spacer 734 can reduce the frictional resistance between 732 end face of rotating cylinder and connecting plate, and rotating cylinder 732 is easier to rotate.

Rotating cylinder 732 is small in ends broad in the middle, is in cydariform, and the section of outer surface in an axial direction is arc-shaped, fiber cloth 104 and rotating cylinder After 732 outer surfaces abut against and are tensioned, the outer surface of rotating cylinder 732 has to close to 732 liang of rotating cylinder the two sides of fiber cloth 104 The thrust of extreme direction makes fiber cloth 104 along the axial tensioning of rotating cylinder 732, and fiber cloth 104 is not easy to slide axially along rotating cylinder 732, because This, fiber cloth 104 is not easy along 732 axial shrinkage wrinkle of rotating cylinder.

732 outer surface of rotating cylinder is coated with one layer of rubber layer 735, and rubber layer 735 can increase rotating cylinder 732 and fiber cloth 104 Between frictional force, fiber cloth 104 can be easier drive rotating cylinder 732 rotate, be not easy between rotating cylinder 732 and fiber cloth 104 Relative friction occurs, reduces the abrasion of rotating cylinder 732, prolongs the service life.The wear-resisting property of rubber layer 735 itself is relatively high, can To reduce the abrasion on 732 surface of rotating cylinder.

As shown in fig. 6, sandwich 5 includes being fixedly connected on rack 1(See Fig. 1)On support frame 51 and be vertically arranged Hydraulic cylinder 52, the piston-rod lower end of hydraulic cylinder 52 is fixedly connected with scraper plate 53, and 53 lower surface of scraper plate is horizontally disposed, hydraulic cylinder 52 Cylinder body be fixedly connected with support frame 51, piston rod can drive scraper plate 53 to move up and down when flexible, to adjust 53 lower surface of scraper plate The distance between slurry adjusts the distance between scraper plate 53 and slurry according to the slurry of different-thickness.

Scraper plate 53 includes baffle 531 and horizontally disposed pressing plate 532, and baffle 531 is fixedly connected on pressing plate 532 close to cast Mould 103(See Fig. 1)Incoming side, and it is located at one side of the scraper plate 53 far from casting moulds 103, it, can be with when slurry thickness is bigger Stopped by baffle 531, baffle 531 can prevent from slurry from crossing scraper plate 53 falling in the slurry upper surface after striking off;Pressure Plate 532 can be smoothed out slurry with extruding slurry.

As shown in fig. 7, level-one slicking-in roller 6, two level slicking-in roller 8 are identical with the structure of three-level slicking-in roller 101, level-one slicking-in roller 6 include being fixedly connected on rack 1(See Fig. 1)On supporting rack 61, the hydraulic cylinder 52 that is vertically arranged and horizontally disposed roller 62, the cylinder body of hydraulic cylinder 52 is fixedly connected with supporting rack 61, and the piston-rod lower end of hydraulic cylinder 52 is fixedly connected with slide plate 63, roller 62 central rotating shaft is rotatablely connected with slide plate 63.Level-one slicking-in roller 6 can be driven to move up and down when 52 stretching motion of hydraulic cylinder, to adjust Save slicking-in roller and casting moulds 103(See Fig. 1)The distance between.

As shown in Figure 8 and Figure 9, cutter 102 is arranged at 2 docking of conveyer belt, is fixedly connected in the rack 1 at docking solid Determine frame 107, fixed frame 107 is equipped with vertical hydraulic cylinder 52, and the cylinder body of hydraulic cylinder 52 is fixedly connected with fixed frame 107, cutter 102 include movable blades 1021 and fixed blade 1022, and fixed blade 1022 is fixedly connected in rack 1 and up-bite jaw, Gu The cutting edge of ledger-plate 1022 is located at the lower section of 2 upper surface of conveyer belt and between 2 butt end of conveyer belt of two docking, movable blade Piece 1021 is fixedly connected with the lower end of hydraulic cylinder 52 and down-bite jaw, the sword of the cutting edge and fixed blade 1022 of movable blades 1021 It mouthful is aligned in the vertical direction, when 52 stretching motion of hydraulic cylinder can drive movable blades 1021 to move up and down, movable blades 1021 Cutting edge and fixed blade 1022 cutting edge misplace when the fiber cloth 104 between can be cut off.

As shown in Figure 10, it is fixedly connected with level-one gate spool 41 on the side of level-one hopper 4, in conjunction with Fig. 1, level-one gate spool 41 port is located at the surface of conveyer belt 2, and the slurry in level-one hopper 4 can flow out level-one hopper 4 simultaneously from level-one gate spool 41 It is poured into casting moulds 103.Level-one hopper 4 is fixedly connected with tremie pipe 42, the end of tremie pipe 42 on the side of guide rail 105 Mouth is located at the top of guide rail 105 and the centre positioned at two guide rails 105, travelling bogie 106 can move to tremie pipe 42 along guide rail 105 Lower section, the slurry in level-one hopper 4 can flow out level-one hopper 4 from tremie pipe 42 and enter travelling bogie 106.

As shown in Figure 10 and Figure 11, level-one hopper 4 is fixedly connected with hopper 43 above, will pass through according to a certain ratio preliminary mixed The slurry of conjunction is put into hopper 43, and slurry can enter level-one hopper 4 from the lower ending opening of hopper 43.

As shown in figure 12, agitating paddle 44 is equipped in level-one hopper 4, agitating paddle 44 includes cylinder 441 and is fixedly connected on cylinder Stirring blade 442 on 441 outer cylinder of body, in the shape of a spiral, cylinder 441 is set stirring blade 442 along the length direction of level-one hopper 4 It sets, 4 outside of level-one hopper is equipped with driving motor 45, and the cabinet of driving motor 45 is fixedly connected with level-one hopper 4, driving motor 45 Output shaft be fixedly connected with the central shaft of agitating paddle 44, driving motor 45 run when drive agitating paddle 44 rotation with to level-one material Slurry in case 4 is stirred, and the slurry of different component is made to be uniformly mixed.The mobility of slurry can also be improved, slurry can be more Swimmingly level-one hopper 4 is flowed out from level-one gate spool 41 and tremie pipe 42.The quantity of agitating paddle 44 can be two, two stirrings Paddle 44 operates stirring efficiency can be improved simultaneously.

As shown in figure 13, partition board 46, the both sides of partition board 46 and level-one are equipped between agitating paddle 44 and the bottom surface of level-one hopper 4 The inner wall sealing of hopper 4 is fixedly connected, and partition board 46 is fixedly connected close to one end of driving motor 45 with 4 inner wall of level-one hopper, from Hopper 43(See Figure 11)The slurry fallen can be fallen on partition board 46, and agitating paddle 44 is stirred the slurry on partition board 46.It is separate One end of driving motor 45 is fixedly connected with support plate 47, and cylinder 441 is rotatablely connected with support plate 71, and support plate 47 is to cylinder 441 are supported.Support plate 47 offers sluice gate 471 on one side close to 4 bottom surface of level-one hopper, and hopper inner wall is far from driving motor There is a certain distance, hopper to be equipped with pneumatic cylinder 48, pneumatic cylinder close to the one side of sluice gate 471 between 45 one side and sluice gate 471 48 cylinder body is fixedly connected with 4 inner wall of level-one hopper, and the end of piston rod is fixedly connected with flashboard 49, and pneumatic cylinder 48 can when stretching It drives flashboard 49 to close or open sluice gate 471 and is flowed out from sluice gate 471 with controlling the slurry on partition board 46.49 lower surface of flashboard and one Grade hopper is equipped with storage cavity between 4 bottom surface, and after slurry agitation is uniform, pneumatic cylinder 48, which is shunk, drives flashboard 49 to open sluice gate 471, stirs It mixes uniform slurry and flows into storage cavity from sluice gate 471, the slurry in storage cavity can be respectively from level-one gate spool 41 and tremie pipe 42 Outflow.

As shown in figure 14, it is fixedly connected with two level gate spool 91 on the side of two level hopper 9, in conjunction with Fig. 1, two level gate spool 91 port is located at the surface of conveyer belt 2, and the slurry in two level hopper 9 can flow out two level hopper 9 simultaneously from two level gate spool 91 It is poured into casting moulds 103.Two level hopper 9 is fixedly connected with feeding tube 92, the port of feeding tube 92 on one side close to guide rail 105 Centre positioned at the top of guide rail 105 and positioned at two guide rails 105, travelling bogie 106 can move to 92 end of feeding tube along guide rail 105 The underface of mouth, 92 port of feeding tube inside slidably connect insertion pipe 93, and insertion pipe 93 can glide on 92 inner wall of feeding tube Dynamic, when 93 slide downward of insertion pipe, can be inserted into the slurry in travelling bogie 106;Two level hopper 9 is equipped with pump 94, pumps 94 shell Body is fixedly connected with two level hopper 9, and pump 94 is connected with feeding tube 92, when pump 94 is run, can be passed through feeding tube 92 and be drawn transport Slurry is simultaneously input in two level hopper 9 by slurry in trolley 106, can supplement slurry to two level hopper 9.

Decorative panel is formed after slurry solidification, fiber cloth 104 is clipped in decorative panel, and rock wool, glass fibers can be used in fiber cloth 104 The fire prevention such as dimension material is made, and improves the heat-insulated and fire protecting performance of decorative panel.

The course of work:Conveyer belt 2 drives 103 carriage movement of casting moulds, while being sequentially completed following process:Bottom paving arranges 3 are set to be laid on fiber cloth 104 on the bottom surface of 103 inside of casting moulds;When casting moulds 103 move to level-one 4 lower section of hopper, level-one Hopper 4 is by slurry cast on casting moulds 103;Sandwich 5 tentatively strikes off the slurry on casting moulds 103;Level-one pressure Plain-barreled roll 6 further flattens the slurry on casting moulds 103;Fiber cloth 104 is laid in casting moulds 103 by interlayer cloth spreading device 7 Slurry above;Two level slicking-in roller 8 to fiber cloth 104 flatten and fiber cloth 104 is pressed into slurry to certain depth;It pours When injection molding 103 moves to two level 9 lower section of hopper, two level hopper 9 pours into a mould slurry again to casting moulds 103, what level-one hopper 4 was poured into a mould Fiber cloth 104 is clipped in the middle by the slurry that slurry and two level hopper 9 are poured into a mould;Three-level slicking-in roller 101 presses slurry upper surface It is flat;Cutter 102 cuts off fiber cloth 104, completes whole process.1 side of rack is equipped with equal with 2 direction of transfer of conveyer belt Capable guide rail 105, guide rail 105 be equipped with travelling bogie 106, travelling bogie 106 slurry in level-one hopper 4 can be transported to 9 side of two level hopper, when the slurry in two level hopper 9 has consumed, can feed from travelling bogie 106.

Embodiment 2:Difference from Example 1 is that as shown in figure 15, the quantity of conveyer belt 2 can be a pair or more, Every 2 upper edge conveyer belt of conveyer belt, 2 direction of transfer is equipped with level-one slicking-in roller 6, interlayer cloth spreading device 7, two level slicking-in roller successively 8, two level hopper 9 and three-level slicking-in roller 101 and cutter 102;Each pair of conveyer belt 2 is arranged in parallel, between each pair of conveyer belt 2 Equipped with guide rail 105, guide rail 105 is equipped with travelling bogie 106, and between each pair of conveyer belt 2, level-one hopper 4 leans on level-one hopper 4 It is fixedly connected with the tremie pipe 42 being connected with level-one hopper 4 on two sides of nearly conveyer belt 2.A plurality of conveyer belt 2 can be with It works at the same time, improves working efficiency.

Embodiment 3:Difference from Example 1 is, as shown in figure 16, interlayer cloth spreading device 7, two level slicking-in roller 8, two Grade hopper 9 and three-level slicking-in roller 101 form one group of paving cloth cast module 108 and are also set along 2 direction of transfer of conveyer belt in conjunction with Figure 17 There are multigroup paving cloth cast module 108, the quantity of module that can be two groups or more and be set along the direction of transfer of conveyer belt 2 It sets, the length long enough of guide rail 105, travelling bogie 106 can move to 9 side of each two level hopper with to two level along guide rail 105 Hopper 9 carries out supplement slurry.The setting of cutter 102 is behind last group paving cloth cast module 108(The incoming one end of conveyer belt 2 To be preceding, after one end of outflow is, after the direction of transfer direction of conveyer belt 2 is), fiber cloth 104 is cut to this by cutter 102 Last procedure of production line.

Multilayer fiber cloth 104 made of rock wool material is successively clipped in decorative panel, is greatly improved the heat-insulated of decorative panel And fire protecting performance, the density of rock wool is smaller, can reduce the weight of decorative panel.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (6)

1. a kind of interlayer cloth spreading device for producing light fire-proof heat-insulating decorative panel, including it is fixedly connected on rack(1)On Support plate(71)And and support plate(71)Rotation connection is used for coiling fiber cloth(104)Reel(72), it is characterized in that:Also wrap It includes and is rotatably connected on support plate(71)On tensioning apparatus(73), tensioning apparatus(73)Positioned at reel(72)Top, fiber cloth (104)From reel(72)It is overlapped on tensioning apparatus after upper expansion(73)On;The tensioning apparatus(73)It is described to be rotatably connected on Support plate(71)On rotating cylinder(732), fiber cloth(104)It is overlapped on rotating cylinder(732)On, rotating cylinder(732)It is broad in the middle small in ends to be in Drum type.

2. the interlayer cloth spreading device according to claim 1 for producing light fire-proof heat-insulating decorative panel, it is characterized in that:Institute State support plate(71)On be fixedly connected with sliding bearing(733), the rotating cylinder(732)Pass through sliding bearing(733)With support plate (71)Rotation connection.

3. the interlayer cloth spreading device according to claim 2 for producing light fire-proof heat-insulating decorative panel, it is characterized in that:Institute State rotating cylinder(732)Center rotating is connected with shaft(731), shaft(731)Central axis and rotating cylinder(732)Central axis phase It is parallel, shaft(731)With the sliding bearing(733)Rotation connection.

4. the interlayer cloth spreading device according to claim 3 for producing light fire-proof heat-insulating decorative panel, it is characterized in that:Institute State shaft(731)On be socketed with Tetrafluoro spacer(734), Tetrafluoro spacer(734)It is slidably connected at the rotating cylinder(732)End face and institute State support plate(71)Between side.

5. the interlayer cloth spreading device according to claim 3 for producing light fire-proof heat-insulating decorative panel, it is characterized in that:Institute State rotating cylinder(732)Both ends are fixedly connected with shaft(731), shaft(731)Central axis and rotating cylinder(732)Central axis phase It is parallel, shaft(731)With the sliding bearing(733)Rotation connection.

6. the interlayer cloth spreading device according to any one of claims 1 to 5 for producing light fire-proof heat-insulating decorative panel, It is characterized in:The rotating cylinder(732)Outer surface is coated with one layer of rubber layer(735).