CN103192451B - Composite insulation board production line and machining process of insulation board - Google Patents

Abstract

The invention relates to a composite insulation board production line and a machining process of an insulation board. The composite insulation board production line comprises a one-to-three material preparing system, a forming system, a transferring system, a cutting system and a plate loading system, wherein the one-to-three material preparing system comprises a raw material bin, a one-way double-outlet spiral lifting conveyor, a two-way spiral horizontal conveyor, a measuring bin I, a measuring bin II, a lower-layer pulp material preparing device, a thermal insulation material preparing device and an upper-layer pulp material preparing device, and the forming system is installed above the transferring system through a frame type workbench and comprises a lower-layer grid cloth laying device, a lower-layer pulp material feeding device, a thermal insulation mixture feeding device, an upper-layer grid cloth laying device, a rolling device and an upper-layer pulp material feeding device which are sequentially arranged. The composite insulation board production line in the invention essentially consists of five systems, namely the material preparing system, the forming system, the cutting system, the transferring system and the plate loading system, is high in degree of automation, compact and reasonable in layout, and improves the production efficiency.

Description

The technique of a kind of Composite insulation board production line and processing warming plate thereof

Technical field

The present invention relates to and building machinery technical field, particularly relate to a kind of Composite insulation board production line.

Background technology

Under the main trend of current energy-saving and emission-reduction, building energy conservation requires to stand in the breach, and various types of composite thermal-insulating wall expedites the emergence of the appearance of the energy saving building material of heat insulation, insulation accordingly, and composite insulation boards is exactly a wherein class.The typical structure of composite insulation boards is " sandwich " formula, be insulation compound, upper and lower surface grid coverage cloth smear slurry in the middle of it, process through operations such as roll extrusion, maintenance, cuttings, it is a kind of new A level fire-proof composite heat preservation board material, be mainly used in external wall outer insulation, there is the features such as insulation, fire-retardant fireproof, steady quality, constructability, the benzene plate limited the use of can be replaced, the upgraded product of the cement board simultaneously or at present used, its market prospects are very wide.

The notification number that State Intellectual Property Office announced on February 3rd, 2010 is CN100586686C, name is called the patent of " composite heat-insulating wall plate, external wall outer insulation board assembly line ", its continuous print on the streamline of Belt Conveying puts polyphenylene heat insulation slab, by blanking anticracking cement mortar, paving multiple tracks glass fiber grid cloth is strengthened, severing after multiple tracks roll extrusion, maintenance is solidified and makes warming plate or ash wall body plate.But this patent is merely able to the warming plate of production and processing individual layer coverage rate, the processing request of coverage rate and moderate soak layer up and down now can not be adapted to.

Summary of the invention

The present invention is directed to above problem, provide a kind of compact in design, rational in infrastructure, the Composite insulation board production line of effective improve production efficiency and product quality and the technique of processing warming plate thereof.

Technical scheme of the present invention is: comprise one point of three system of getting the raw materials ready, formation system, movement system, diced system and dress plate system;

Described one point of three system of getting the raw materials ready comprises raw material cabin, unidirectional two outlet screw lifting conveyer, bidirectional screw horizontal conveyer, measuring chute one, measuring chute two, lower floor's slurry feed preparing device, insulation material feed preparing device and upper strata slurry feed preparing device;

Described unidirectional two outlet screw lifting conveyer has discharging port A and discharging opening B, and described bidirectional screw horizontal conveyer has discharging opening C and discharging opening D, and the discharging opening of described raw material cabin is communicated with the charging aperture of described unidirectional two outlet screw lifting conveyer,

Described lower floor slurry feed preparing device comprises lower floor's pulp blender, and described discharging opening C is communicated with described lower floor pulp blender;

Described upper strata slurry feed preparing device comprises upper strata pulp blender, and described discharging opening D is communicated with described upper strata pulp blender;

Described insulation material feed preparing device comprises heat preservation slurry mixer, insulation compound mixer, super-light aggregate storage bin and super-light aggregate metering device, described heat preservation slurry mixer is communicated with described insulation compound mixer, described heat preservation slurry mixer is located at the top of described insulation compound mixer, and described super-light aggregate storage bin is communicated with described insulation compound mixer by super-light aggregate metering device;

The charging aperture of described measuring chute one is communicated with described discharging port A, and the discharging opening of described measuring chute one connects the charging aperture of described bidirectional screw horizontal conveyer, and described measuring chute two is located between described discharging opening B and described heat preservation slurry mixer;

Described formation system is arranged on the top of described movement system by a frame type working platform, and described formation system comprises the lower floor's grid cloth installation aiding device, lower floor's slurry feeding device, insulation compound feeding device, upper strata grid cloth installation aiding device, rolling device and the upper strata slurry feeding device that set gradually;

Described lower floor slurry feeding device is located at the below of described lower floor pulp blender;

Described upper strata slurry feeding device is located at the below of described upper strata pulp blender;

Described insulation compound feeding device is located at the below of described insulation compound mixer;

Described movement system comprises base, supporting plate and conveyer, and described conveyer is located on base, and described supporting plate is placed on described conveyer;

Described diced system is located between described upper strata slurry feeding device and dress plate system,

Described dress plate system is located at the rear end of described conveyer.

Described super-light aggregate metering device is located on described workbench, described super-light aggregate metering device comprises frame, belt feeder and blower fan, described super-light aggregate storage bin is located on described belt feeder, described blower fan is communicated with described super-light aggregate storage bin, the discharging opening of described super-light aggregate storage bin is communicated with the charging aperture of described belt feeder, and the discharging opening of described belt feeder is communicated with described insulation compound mixer.

Insulation material lying device is provided with between described insulation compound feeding device and upper strata grid cloth installation aiding device, described insulation material lying device involving vibrations motor, spring and guide plate, described guide plate bottom is circular arc towards described insulation compound feeding device, and described guide plate connects described vibrating motor by spring.

Rolling device is provided with between described insulation lying device and upper strata grid cloth installation aiding device.

In the present invention, the technique of the processing warming plate of Composite insulation board production line is:

1), feed in raw material, raw material is added in raw material cabin;

2), metering sub-material, by raw material cabin Raw by unidirectional two export screw lifting conveyer discharging port A and discharging opening B through measuring chute one and measuring chute two, be delivered to bidirectional screw horizontal conveyer and heat preservation slurry mixer respectively; Lower floor's pulp blender and upper strata pulp blender is delivered to respectively again through the discharging opening C of bidirectional screw horizontal conveyer and discharging opening D;

3), bottom arrange net, cloth, the below of lower floor's grid cloth installation aiding device and lower floor's slurry feeding device transported to by supporting plate, the first lay grid cloth of supporting plate, then the raw material in measuring chute one, after lower floor's pulp blender stirs, is transported in lower floor's slurry feeding device and is added lower floor's slurry to the grid cloth on supporting plate;

4), insulation compound feeds in raw material, and supporting plate is delivered to the below of insulation compound feeding device, and the raw material in measuring chute two stirred through heat preservation slurry mixer first time; Then unload in insulation compound mixer, super-light aggregate simultaneously in super-light aggregate storage bin unloads in described insulation compound mixer by super-light aggregate metering device, carry out second time to stir, after stirring, unload in insulation compound feeding device, be positioned at lay insulation compound on grid cloth supporting plate adding lower floor's slurry;

5), insulation material vibration pave, lay insulation compound after, pave evenly by insulation material lying device;

6) a, roll extrusion, upper strata are arranged net, secondary rolled, cloth, the supporting plate of the complete insulation compound of lay is delivered to the below of rolling device, upper strata grid cloth installation aiding device, carry out a roll extrusion, lay grid cloth, secondary rolled, then be delivered to below the slurry feeding device of upper strata, raw material in measuring chute one, after upper strata pulp blender stirs, is transported in the slurry feeding device of upper strata and is added upper strata slurry to the grid cloth on supporting plate;

7), cut, upper strata slurry feeds in raw material complete, is delivered to cutting work station and carries out cut-out segmentation at adjacent bottom plates seam crossing;

8), plate is filled, complete.

Composite insulation board production line in the present invention primarily of getting the raw materials ready, shaping, cutting, transhipment and dress plate five systems compositions.

In the system of getting the raw materials ready, get the raw materials ready and be divided into two parts, one is the preparation of insulation compound for warming plate intermediate layer, two is the preparations for the bilevel rubber cement fabric of warming plate, the stirring being wherein incubated compound divides two stages to carry out secondary stirring, make slurry be rolled in super-light aggregate surface uniformly, ultralight material can be uniformly distributed in the slurry to greatest extent; Intensity and the more uniform warming plate of density can be obtained like this.Simultaneously in batching, have employed the meausring apparatus of unidirectional two outlet screw lifting conveyer and bidirectional screw horizontal conveyer, save equipment cost and space, place; And in prior art, general needs three groups are independently got the raw materials ready system, this problem brought is: raw material cabin just needs three groups, and rubber cement fabric only needs the raw material of seldom amount at every turn, cause the raw material in the raw material cabin of its correspondence cannot be finished for a long time, after running into humid air, raw material is rotten, sclerosis causes blanking not smooth, improve the difficulty of cleaning, serious may scrap, and produces and wastes greatly.

In formation system, forming process is carried out stage by stage, by paving lower floor grid cloth, adds lower floor's rubber cement material, the insulation of paving pressure compound, a roll extrusion, spreads a layer grid cloth, secondary rolled, adds the process step combinations such as upper strata rubber cement material, cut-out and form,

Wherein between insulation compound feeding device and upper strata grid cloth laying rolling device, add insulation material to pave and roll extrusion two procedures, make the insulation compound in heaped-up evenly to be paved into height a little more than designing requirement by the vibration of circularoscillations guide plate, then densification is formed by a roll extrusion, the heat-insulation layer of uniform thickness is (after adding the graininess super-light aggregate of 3-4mm size in heat-insulation layer material, because super-light aggregate has elasticity, poor fluidity in the slurry, heat-insulation layer is made to be difficult to be shaped), simultaneously in order to the heat-insulation layer local bounce-back after preventing a roll extrusion excessively causes height dimension overproof, the height of heat-insulation layer is ensured again by secondary rolled, complete the composite molding of warming plate,

In view of super-light aggregate is difficult to obtain weight data, in the metering of super-light aggregate, the method adopting " flow " to measure, is realized the metering of the super-light aggregate such as granular polystyrene or glass bead, meets production and processing requirement by super-light aggregate metering device;

Automaticity of the present invention is high, and compact in design is reasonable, improves production efficiency.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention,

Fig. 2 be in Fig. 1 A to structural representation,

Fig. 3 is the structural representation of system of getting the raw materials ready in the present invention,

Fig. 4 be in Fig. 3 B to structural representation,

Fig. 5 is the structural representation of metering device in the present invention,

Fig. 6 is the left view of Fig. 5,

Fig. 7 is the structural representation of insulation material lying device in the present invention,

Fig. 8 is the partial enlarged drawing at I place in Fig. 7,

Fig. 9 is the fundamental diagram of Fig. 8,

Figure 10 is process chart of the present invention;

In figure, 1 is the system of getting the raw materials ready, and 11 is raw material cabins, and 121 is unidirectional two outlet screw lifting conveyers, and 1211 is discharging port A, and 1212 is discharging opening B,

122 is bidirectional screw horizontal conveyers, and 1220 is charging apertures, and 1221 is discharging opening C, and 1222 is discharging opening D,

131 is measuring chutes one, and 132 is measuring chutes two;

2 is formation systems, and 20 is workbench, and 21 is lower floor's slurry feed preparing devices, and 211 is lower floor's pulp blenders, and 212 is lower floor's slurry feeding devices, and 213 is lower floor's grid cloth installation aiding devices,

22 is insulation material feed preparing devices, and 221 is insulation compound mixers, and 222 is insulation compound feeding devices, and 223 is super-light aggregate storage bins, and 224 is heat preservation slurry mixers,

23 is upper strata grid cloth installation aiding devices,

24 is upper strata slurry feed preparing devices, and 241 is upper strata pulp blenders, and 242 is upper strata slurry feeding devices;

3 is diced systems, and 30 is cut off station;

4 is movement systems, and 41 is bases, and 42 is conveyers, and 421 is into plate conveyer, and 422 is ejecting plate conveyers, and 43 is supporting plates, and 431 is lower floor's grid cloths, and 432 is lower floor's slurries, and 4331 is wait to spread out heat-insulation layer, and 4332 is heat-insulation layers;

5 is dress plate systems,

6 is super-light aggregate metering devices, and 61 is frames, and 62 is belt feeders, and 620 is discharging openings, and 63 is containers;

7 is rolling devices one,

8 is insulation material lying devices, and 81 is vibrating motors, and 82 is springs, and 83 is guide plates;

9 is rolling devices two.

Detailed description of the invention

The present invention as Figure 1-10 shows, comprises one point of three system 1 of getting the raw materials ready, formation system 2, movement system 4, diced system 3 and dress plate system 5;

Described one point of three system 1 of getting the raw materials ready comprises raw material cabin 11, unidirectional two outlet screw lifting conveyer 121, bidirectional screw horizontal conveyer 122, measuring chute 1, measuring chute 2 132, lower floor's slurry feed preparing device 21, insulation material feed preparing device 22 and upper strata slurry feed preparing device 24;

Described unidirectional two outlet screw lifting conveyer 121 has discharging port A 1211 and discharging opening B1212, in practical application, in discharging port A 1211 and discharging opening B1212, butterfly valve can be installed to control, described bidirectional screw horizontal conveyer 122 has discharging opening C1221 and discharging opening D1222, the discharging opening of described raw material cabin 11 is communicated with the charging aperture of described unidirectional two outlet screw lifting conveyer 121

Described lower floor slurry feed preparing device 21 comprises lower floor's pulp blender 211, and described discharging opening C1221 is communicated with described lower floor pulp blender 211;

Described upper strata slurry feed preparing device 24 comprises upper strata pulp blender 241, and described discharging opening D1222 is communicated with described upper strata pulp blender 241;

Described insulation material feed preparing device 22 comprises heat preservation slurry mixer 224, insulation compound mixer 221, super-light aggregate storage bin 223 and super-light aggregate metering device 6, described heat preservation slurry mixer 224 is communicated with described insulation compound mixer 221, described heat preservation slurry mixer 224 is located at the top of described insulation compound mixer 221, described super-light aggregate storage bin 223 is communicated with described insulation compound mixer 221 by super-light aggregate metering device 6, secondary agitation is realized in the work of insulation compound, first the material (except super-light aggregate) measured is dropped in certain sequence in heat preservation slurry mixer 224 and stir (once stirring), open heat preservation slurry after mixing thoroughly and stir gate, the slurry mixed is put in insulation compound mixer 221, super-light aggregate is quantitatively rendered in insulation compound mixer 221 simultaneously, feed intake while stirring until stir (secondary agitation).

The charging aperture of described measuring chute 1 is communicated with described discharging port A 1211, the discharging opening of described measuring chute 1 connects the charging aperture 1220 of described bidirectional screw horizontal conveyer 122, and described measuring chute 2 132 is located between described discharging opening B1212 and described heat preservation slurry mixer 224;

Described formation system is arranged on the top of described movement system 4 by a frame type working platform 20, and described formation system 2 comprises the lower floor's grid cloth installation aiding device 213, lower floor's slurry feeding device 212, insulation compound feeding device 222, upper strata grid cloth installation aiding device 23, rolling device (i.e. rolling device 1) and the upper strata slurry feeding device 242 that set gradually;

Described lower floor slurry feeding device 212 is located at the below of described lower floor pulp blender 211;

Described upper strata slurry feeding device 242 is located at the below of described upper strata pulp blender 241;

Described insulation compound feeding device 222 is located at the below of described insulation compound mixer 221;

Described movement system 4 comprises base 41, supporting plate 43 and conveyer 42, and described conveyer 42 is located on base 41, and described supporting plate 43 is placed on described conveyer 42; Conveyer 42 comprises into plate conveyer 421 and ejecting plate conveyer 422, and supporting plate 43 is first placed on on plate conveyer 421, successively through arranging net, lower layer mix feeding, heat-insulation layer, roll extrusion of arranging net, the operation such as upper strata cloth, to ejecting plate conveyer 422, finally carry out dress plate.

Described diced system 3 is located between described upper strata slurry feeding device 242 and dress plate system 5, and in diced system, adopt circular saw cutting, independent setting, the cut-out station 30 in Fig. 2 realizes cutting.

Described dress plate system 5 is located at the rear end of described conveyer (i.e. ejecting plate conveyer 422).

As seen in figs. 5-6, described super-light aggregate metering device 6 is located on described workbench 20, described super-light aggregate metering device 6 comprises frame 61, belt feeder 62 and blower fan, described super-light aggregate storage bin 223 is located on described belt feeder 62, described blower fan is communicated with described super-light aggregate storage bin 223, the discharging opening of described super-light aggregate storage bin 223 is communicated with the charging aperture of described belt feeder 62, and the discharging opening 620 of described belt feeder 62 is communicated with described insulation compound mixer 221.

The super-light aggregate such as granular polystyrene or glass bead is the material of main part of insulation, and the mode taking " flow " to measure to super-light aggregate is more suitable.Super-light aggregate is blown in the transparent sealing container 63 that is contained in above belt feeder 62 by blower fan, belt feeder discharging opening 620 width and height (adjustable) are certain value, is then obtained the super-light aggregate of certain volume by the rotation number of turns of control belt feeder 62.If mix the super-light aggregate of two kinds of different cultivars or different size simultaneously, transparent sealing container can be separated into two little storehouses according to a certain volume along Belt Conveying direction, so just can add the super-light aggregate of two kinds of different volumes, different size simultaneously.

As Figure 7-9, insulation material lying device 8 is provided with between described insulation compound feeding device 222 and upper strata grid cloth installation aiding device 23, described insulation material lying device 8 involving vibrations motor 81, spring 82 and guide plate 83, described guide plate 83 bottom is towards described insulation compound feeding device 222 in circular arc, and described guide plate 83 connects described vibrating motor 81 by spring 82.

Rolling device (i.e. rolling device 2 9) is provided with between described insulation lying device 8 and upper strata grid cloth installation aiding device 23.

Heat-insulation layer operation in the middle of composite insulation boards in the present invention completes jointly by being incubated compound feeding device 222, vibration lying device and two rolling devices.Insulation compound feeding device 222 discontinuous, required insulation compound is discharged on operating supporting plate 43, insulation compound is now heaped-up, the effect of vibration lying device is exactly the insulation compound in heaped-up evenly paved into height a little more than designing requirement by the vibration of circularoscillations guide plate, then the heat-insulation layer of densification, uniform thickness is formed by a roll extrusion, in order to the heat-insulation layer local bounce-back after preventing a roll extrusion excessively causes height dimension overproof, ensured the height of heat-insulation layer again by secondary rolled, complete the composite molding of warming plate.

As shown in Figure 9, supporting plate 43 walks to the below of insulation material lying device 8, its course of action is: supporting plate 43 has been provided with lower floor's grid cloth 431 and lower floor's slurry 432, heat-insulation layer is through the effect of circularoscillations guide plate 83 simultaneously, from waiting to spread out the height that heat-insulation layer 4331 is converted into the heat-insulation layer 4332 that setting height requires.

In the present invention, the technique of the processing warming plate of Composite insulation board production line is:

1), feed in raw material, raw material (cement, flyash etc.) is added in raw material cabin 11;

2), sub-material is measured, raw material cabin 11 Raw through measuring chute 1 and measuring chute 2 132, is delivered to bidirectional screw horizontal conveyer 122 and heat preservation slurry mixer 224 respectively by the discharging port A 1211 of unidirectional two outlet screw lifting conveyer 121 and discharging opening B1212; Lower floor's pulp blender 211 and upper strata pulp blender 241 is delivered to respectively again through the discharging opening C1221 of bidirectional screw horizontal conveyer 122 and discharging opening D1222;

3), bottom arrange net, cloth, the below of lower floor's grid cloth installation aiding device 213 and lower floor's slurry feeding device 212 transported to by supporting plate 43, the first lay grid cloth of supporting plate, then the raw material in measuring chute 1, after lower floor's pulp blender 211 stirs, is transported in lower floor's slurry feeding device 212 and is added lower floor's slurry to the grid cloth on supporting plate;

4), insulation compound feeds in raw material, and supporting plate is delivered to the below of insulation compound feeding device 222, and the raw material in measuring chute 2 132 stirred through heat preservation slurry mixer 224 first time; Then unload in insulation compound mixer 221, super-light aggregate simultaneously in super-light aggregate storage bin 223 unloads in described insulation compound mixer 221 by super-light aggregate metering device 6, carry out second time to stir, after stirring, unload in insulation compound feeding device 222, be positioned at lay insulation compound on grid cloth supporting plate adding lower floor's slurry;

5), insulation material vibration pave, lay insulation compound after, pave evenly by insulation material lying device 8;

6) a, roll extrusion, upper strata are arranged net, secondary rolled, cloth, the supporting plate of the complete insulation compound of lay is delivered to the below of rolling device, upper strata grid cloth installation aiding device, carry out a roll extrusion, lay grid cloth, secondary rolled, then be delivered to below upper strata slurry feeding device 242, raw material in measuring chute one, after upper strata pulp blender 241 stirs, is transported in upper strata slurry feeding device 242 and is added upper strata slurry to the grid cloth on supporting plate;

7), cut, upper strata slurry feeds in raw material complete, is delivered to cutting work station and carries out cut-out segmentation at adjacent bottom plates seam crossing;

8), plate is filled, complete.

Claims (5)

1. a Composite insulation board production line, is characterized in that, comprises one point of three system of getting the raw materials ready, formation system, movement system, diced system and dress plate system;

Described one point of three system of getting the raw materials ready comprises raw material cabin, unidirectional two outlet screw lifting conveyer, bidirectional screw horizontal conveyer, measuring chute one, measuring chute two, lower floor's slurry feed preparing device, insulation material feed preparing device and upper strata slurry feed preparing device;

Described unidirectional two outlet screw lifting conveyer has discharging port A and discharging opening B, and described bidirectional screw horizontal conveyer has discharging opening C and discharging opening D, and the discharging opening of described raw material cabin is communicated with the charging aperture of described unidirectional two outlet screw lifting conveyer,

Described lower floor slurry feed preparing device comprises lower floor's pulp blender, and described discharging opening C is communicated with described lower floor pulp blender;

Described upper strata slurry feed preparing device comprises upper strata pulp blender, and described discharging opening D is communicated with described upper strata pulp blender;

Described insulation material feed preparing device comprises heat preservation slurry mixer, insulation compound mixer, super-light aggregate storage bin and super-light aggregate metering device, described heat preservation slurry mixer is communicated with described insulation compound mixer, described heat preservation slurry mixer is located at the top of described insulation compound mixer, and described super-light aggregate storage bin is communicated with described insulation compound mixer by super-light aggregate metering device;

The charging aperture of described measuring chute one is communicated with described discharging port A, and the discharging opening of described measuring chute one connects the charging aperture of described bidirectional screw horizontal conveyer, and described measuring chute two is located between described discharging opening B and described heat preservation slurry mixer;

Described formation system is arranged on the top of described movement system by a frame type working platform, and described formation system comprises the lower floor's grid cloth installation aiding device, lower floor's slurry feeding device, insulation compound feeding device, upper strata grid cloth installation aiding device, rolling device and the upper strata slurry feeding device that set gradually;

Described lower floor slurry feeding device is located at the below of described lower floor pulp blender;

Described upper strata slurry feeding device is located at the below of described upper strata pulp blender;

Described insulation compound feeding device is located at the below of described insulation compound mixer;

Described movement system comprises base, supporting plate and conveyer, and described conveyer is located on base, and described supporting plate is placed on described conveyer;

Described diced system is located between described upper strata slurry feeding device and dress plate system,

Described dress plate system is located at the rear end of described conveyer.

2. a kind of Composite insulation board production line according to claim 1, it is characterized in that, described super-light aggregate metering device is located on described workbench, described super-light aggregate metering device comprises frame, belt feeder and blower fan, described super-light aggregate storage bin is located on described belt feeder, described blower fan is communicated with described super-light aggregate storage bin, and the discharging opening of described super-light aggregate storage bin is communicated with the charging aperture of described belt feeder, and the discharging opening of described belt feeder is communicated with described insulation compound mixer.

3. a kind of Composite insulation board production line according to claim 1, it is characterized in that, insulation material lying device is provided with between described insulation compound feeding device and upper strata grid cloth installation aiding device, described insulation material lying device involving vibrations motor, spring and guide plate, described guide plate bottom is circular arc towards described insulation compound feeding device, and described guide plate connects described vibrating motor by spring.

4. a kind of Composite insulation board production line according to claim 3, is characterized in that, is provided with rolling device between described insulation lying device and upper strata grid cloth installation aiding device.

5. a technique for the processing warming plate of Composite insulation board production line according to claim 1, is characterized in that,

1), feed in raw material, raw material is added in raw material cabin;

2), metering sub-material, by raw material cabin Raw by unidirectional two export screw lifting conveyer discharging port A and discharging opening B through measuring chute one and measuring chute two, be delivered to bidirectional screw horizontal conveyer and heat preservation slurry mixer respectively; Lower floor's pulp blender and upper strata pulp blender is delivered to respectively again through the discharging opening C of bidirectional screw horizontal conveyer and discharging opening D;

3), bottom arrange net, cloth, the below of lower floor's grid cloth installation aiding device and lower floor's slurry feeding device transported to by supporting plate, the first lay grid cloth of supporting plate, then the raw material in measuring chute one, after lower floor's pulp blender stirs, is transported in lower floor's slurry feeding device and is added lower floor's slurry to the grid cloth on supporting plate;

4), insulation compound feeds in raw material, and supporting plate is delivered to the below of insulation compound feeding device, and the raw material in measuring chute two stirred through heat preservation slurry mixer first time; Then unload in insulation compound mixer, super-light aggregate simultaneously in super-light aggregate storage bin unloads in described insulation compound mixer by super-light aggregate metering device, carry out second time to stir, after stirring, unload in insulation compound feeding device, be positioned at lay insulation compound on grid cloth supporting plate adding lower floor's slurry;

5), insulation material vibration pave, lay insulation compound after, pave evenly by insulation material lying device;

6) a, roll extrusion, upper strata are arranged net, secondary rolled, cloth, the supporting plate of the complete insulation compound of lay is delivered to the below of rolling device, upper strata grid cloth installation aiding device, carry out a roll extrusion, lay grid cloth, secondary rolled, then be delivered to below the slurry feeding device of upper strata, raw material in measuring chute one, after upper strata pulp blender stirs, is transported in the slurry feeding device of upper strata and is added upper strata slurry to the grid cloth on supporting plate;

7), cut, upper strata slurry feeds in raw material complete, is delivered to cutting work station and carries out cut-out segmentation at adjacent bottom plates seam crossing;

8), plate is filled, complete.