CN101456210A - Conveyer-belt type block molding device for continuous producing incubation block - Google Patents

Abstract

The invention discloses a conveyer belt type block mould machine for continuously producing heat insulating blocks, which consists of 1 to 4 mould conveyers and a continuous stirring and feeding machine. The conveyer belt type block mould machine can be fastened with a replaceable block mould together during rotating contact, combines a row (1 to 15 heat insulating blocks in a row) of heat insulating block moulds to be cast, and can continuously produce the heat insulating blocks through casting; the mould machine solves the contradiction that the prior production equipment can not continuously produce the heat insulating blocks or composite heat insulating blocks on a large scale, and solve the problem of high cost of the equipment; and during operation, under the condition that the mould machine is matched with proper slurry or heat insulating block core materials, the slurry is injected by continuous stirring, the discharged substances are the solidified heat insulating blocks. The mould machine can lower production cost of products greatly, form large-scale production, save energy, has single consumption, and has good social benefit and economic benefit.

Description

Be used for producing continuously the conveyer belt type building block mould machine of insulation blocks

Technical field

The present invention relates to the manufacturing of building block, be specifically related to be used for producing continuously the conveyer belt type building block mould machine of insulation blocks.

Background technology

Aspect the production of building block, generally can only carry out compactings single or several with fixing mould at present, the demoulding is produced later on more then, and owing to charging, the demoulding, transportation stacking expend time in, labor intensive is so the productivity ratio of building block is low.Production at small-sized brick has had the brickmaking machine of mechanization to produce continuously relatively.For a period of time, the requirement owing to big building block, particularly insulation blocks increases considerably, to this, the relevant technologies personnel have carried out number of research projects in the industry, also just the machinery of much inventing for the production building block occurred, and these just have embodiment in Chinese patent literature.As the patent No. is (03212540.2), denomination of invention is " a notch cuttype concrete composite heat insulation building blocks ", also having the patent No. is (03256683.2), denomination of invention is " the thermal-insulating building block forming machine of band manipulator ", it is (200320104816.6) that the patent No. is arranged again, denomination of invention is " a porous high-strength insulation blocks ", the patent No. is (200210034590.X), denomination of invention is that " automatic production line of multilayer composite heat insulating gypsum wall board " and the patent No. are (02268748.3), and denomination of invention is patent documentations such as " a kind of hight-pressure gypsum block continuous forming machines ".After deliberation, it is not too high that they have plenty of automaticity, and the machinery that has is too complicated again, compares with production capacity, and equipment manufacturing cost has increased production cost than higher, and simultaneously, some inventions have certain degree of difficulty in manufacturing, production process, plant maintenance.Cause the popularization of invention that certain difficulty is arranged, these documents are also inequality with technical scheme of the present invention.Generally speaking, the method and apparatus that above-mentioned document is introduced, production capacity is relatively low, and great majority follow traditional interrupted production method, and equipment can not adapt to the large-scale industrial production needs.

Summary of the invention

The objective of the invention is to overcome the deficiency of above-mentioned prior art scheme, a kind of conveyer belt type building block mould machine that is used for producing continuously insulation blocks is provided, solving existing equipment can not be continuously, the contradiction of production in enormous quantities, and the high problem of equipment cost.Obtained success through inventor's research.

The conveyer belt type building block mould machine technology scheme that is used for producing continuously insulation blocks provided by the invention is as follows:

A kind of conveyer belt type building block mould machine that is used for producing continuously insulation blocks, it is by belt mould machine, or conveyer belt type belt mould machine and charging (feeding) equipment composition, on the whole piece conveyer belt of various belt feeders, removable building block mould has been installed all, has been combined into the conveyer belt mould that is used for producing insulation blocks; Form a such conveyer belt type building block mould machine, need 1～4 conveyer belt type mould belt feeder, they are installed together with charging (feeding) equipment constitute equipment of the present invention; During production, at the end adding required raw material of production building block or the required raw material and the heat insulation core material material of equipment, the equipment other end is produced the insulation blocks that is combined into mold shape according to replaceable building block mould.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, it is characterized in that it is made up of 1 conveyer belt mould machine and continuous stirring charger, whole piece mould conveyer belt has been fixed replaceable insulation blocks mould formation and has all been waited the insulation blocks mould of casting, the front end of conveyer belt mould machine is equipped with the continuous stirring charger, its tremie pipe pours into slurry in the slurry frame of mould, the position of filling behind the mould of slurry is equipped with squeegee, or the slurry vibrator, make in the mould slurry be full of and evenly distribute.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, its equipment is by 2 conveyer belt mould machines: upper conveyor belt mould machine, following conveyer belt mould machine, form with the continuous stirring charger, upper conveyor belt mould machine is fixed on down directly over the conveyer belt mould machine, two conveyer belt mould machine fastening parts form the mould of insulation blocks, the fixing replaceable insulation blocks mould of whole piece bed die conveyer belt constitutes lower mould, the insulation blocks upper die is installed on the conveyer belt of whole upper conveyor belt mould machines, last, the bed die machine snaps together when rotating contact, the mould of forming the insulation blocks of waiting to cast, the front end of following conveyer belt mould machine is equipped with the continuous stirring charger, its tremie pipe pours into slurry in the slurry frame of bed die, fill the bed die of slurry and the position behind the mold fastening place squeegee is installed, or the slurry vibrator, make in the mould slurry be full of and evenly distribute.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, it is by 3 conveyer belt mould machines: on, following conveyer belt mould machine, left or right conveyer belt mould machine, form with the continuous stirring charger, upper conveyor belt mould machine is fixed on down directly over the conveyer belt mould machine, the fixing replaceable insulation blocks mould of whole piece bed die conveyer belt constitutes lower mould, the insulation blocks upper die is installed on the conveyer belt of whole upper conveyor belt mould machines, according to insulation blocks both sides shape needs, a left side or right conveyer belt mould machine are installed between mold machine and bed die machine, they are last, following belt feeder snaps together when rotating contact, forms the insulation blocks mould.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, it is by 4 conveyer belt mould machines: on, following conveyer belt mould machine, a left side, right conveyer belt mould machine, form with the continuous stirring charger, upper conveyor belt mould machine is fixed on down directly over the conveyer belt mould machine, two conveyer belt mould machine fastening parts form the mould top and the bottom of insulation blocks, a left side, mould on the right conveyer belt mould machine conveyer belt constitutes the shape on insulation blocks both sides, the fixing replaceable insulation blocks mould of whole piece bed die conveyer belt constitutes lower mould, the insulation blocks upper die is installed on the conveyer belt of whole upper conveyor belt mould machines, when 4 conveyer belt mould machines rotate contact, snap together, form the insulation blocks mould.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, the conveyer belt of its mould machine is the belt conveyer balata belt, or with the carrier chain of attached plate, or board-like carrier chain, replaceable insulation blocks mould is separately fixed on the conveyer belt of balata belt or carrier chain, on making, following conveyer belt mould machine is when the horizontal level of handing-over mutually, the mutual close proximity of mould on the following conveyer belt mould machine, form the insulation blocks mould that can not leak slurry, make, the insulation blocks mould belt of following conveyer belt mould machine or with a left side, the insulation blocks mould belt of right conveyer belt mould machine accurately fastens the formation unitary mould.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, the length of its conveyer belt mould machine is 30m～130m, its upper and lower conveyer belt mould machine mould belt one horizontally-arranged is arranged 1～15 insulation blocks mould.

The above-mentioned conveyer belt type building block mould machine that is used for producing continuously insulation blocks, under not change of conveyer belt type building block mould machine complete machine structure situation, change the replaceable insulation blocks mould of difformity structure, just produce the insulation blocks of difformity structure, A type (Fig. 5) insulation blocks is arranged, Type B (Figure 11) insulation blocks core, C type (Figure 19) insulation blocks core, D type (Figure 24) insulation blocks, E type (Figure 30) insulation blocks core, F type (Figure 35) insulation blocks, G type (Figure 41) insulation blocks core, H type (Figure 44) insulation blocks, J type (Figure 48) insulation blocks core, K type (Figure 51) insulation blocks, M type (Figure 55) insulation blocks core, N type (Figure 58) insulation blocks, P type (Figure 61) insulation blocks, Q type (Figure 69) insulation blocks, R type (Figure 70) heat preservation plate material.

Invention is used for producing continuously the conveyer belt type building block mould machine of insulation blocks, formed by 1～4 mould belt feeder and continuous stirring charger, the changeable type building block mould snapped together when its conveyer belt type building block mould machine rotated contact, form several rows of (1～15 of a horizontally-arranged) the composite thermal self-insulation building block mould of waiting to cast, can produce composite thermal self-insulation building block continuously through casting; Having solved existing equipment can not be continuously, produce the contradiction of insulation blocks or composite thermal self-insulation building block in enormous quantities, and there is the high problem of cost in solution equipment; During operation, under the situation that cooperates suitable slurry or insulation blocks core, the continuous stirring slip pours into, and what come out is exactly the insulation blocks that solidifies.Use conveyer belt type building block mould machine of the present invention can reduce the production cost by a relatively large margin, form large-scale production, process units is energy-conservation, unit consumption is low, and good social benefit and economic benefit are arranged.

Description of drawings

Fig. 1 is the structural representation of the present device of separate unit conveyer belt mould machine composition;

Fig. 2 is a present device structure A-A generalized section;

Fig. 3 is a present device mould 7A schematic perspective view;

Fig. 4 is a present device mould 5A schematic perspective view;

The A type insulation blocks schematic perspective view that Fig. 5 produces for present device;

B-B cross-sectional view when Fig. 6 works for present device;

Mould was overlooked the partial structurtes schematic diagram when Fig. 7 produced insulation blocks A for present device;

Fig. 8～10 are the schematic perspective view of the replaceable Type B insulation blocks of present device core mold 5B, 6B, 7B;

The insulation blocks core B schematic perspective view that Figure 11 produces for present device;

B-B generalized section when Figure 12 produces insulation blocks core B for present device;

Mould was overlooked the partial structurtes schematic diagram when Figure 13 produced insulation blocks core B for present device;

Figure 14 is the structural representation of the present device of 2 conveyer belt mould machines compositions;

Figure 15 is a present device C-C generalized section;

Figure 16～18 are the replaceable C type of present device insulation blocks core mold 5C, 6C, 7C schematic perspective view;

The insulation blocks core C schematic perspective view that Figure 19 produces for present device;

D-D generalized section when Figure 20 produces insulation blocks core C for present device;

Mould was overlooked the partial structurtes schematic diagram when Figure 21 produced insulation blocks core C for present device;

Figure 22～23 are the replaceable D type of the present invention insulation blocks mould 5D, 7D schematic perspective view;

The D type insulation blocks schematic perspective view that Figure 24 produces for present device;

D-D generalized section when Figure 25 produces insulation blocks D for present device;

Mould was overlooked the partial structurtes schematic diagram when Figure 26 produced insulation blocks D for present device;

Figure 27～29 are the replaceable E type of present device insulation blocks core mold 5E, 6E, 7E schematic perspective view;

The E type insulation blocks core schematic perspective view that Figure 30 produces for present device;

D-D generalized section when Figure 31 produces insulation blocks core E for present device;

Mould was overlooked the partial structurtes schematic diagram when Figure 32 produced insulation blocks core E for present device;

Figure 33～34 are the replaceable F type of present device insulation blocks mould 5F, 7F schematic perspective view;

The F type insulation blocks schematic perspective view that Figure 35 produces for present device;

D-D generalized section when Figure 36 produces insulation blocks F for present device;

Mould was overlooked the partial structurtes schematic diagram when Figure 37 produced insulation blocks F for present device;

Figure 38～40 are the replaceable G type of present device insulation blocks core mold 5G, 6G, 7G schematic perspective view;

The insulation blocks core G schematic perspective view that Figure 41 produces for present device;

Figure 42～43 are the replaceable H type of present device insulation blocks mould 5H, 7H schematic perspective view;

The insulation blocks H schematic perspective view that Figure 44 produces for present device;

Figure 45～47 are the replaceable J type of present device insulation blocks core mold 5J, 6J, 7J schematic perspective view;

The insulation blocks core J schematic perspective view that Figure 48 produces for present device;

Figure 49～50 are the replaceable K type of present device insulation blocks mould 5K, 7K schematic perspective view;

The insulation blocks K schematic perspective view that Figure 51 produces for present device;

Figure 52～54 are the replaceable M type of present device insulation blocks core mold 5M, 6M, 7M schematic perspective view;

The insulation blocks core M schematic perspective view that Figure 55 produces for present device;

Figure 56～57 are the replaceable N type of present device insulation blocks mould 5N, 7N schematic perspective view;

The insulation blocks N schematic perspective view that Figure 58 produces for present device;

Figure 59～60 are the replaceable P type of present device insulation blocks mould 5P, 7P schematic perspective view;

The insulation blocks P schematic perspective view that Figure 61 produces for present device;

Figure 62 is the main TV structure schematic diagram of the present device of 3 conveyer belt mould machines compositions;

Figure 63 is the plan structure schematic diagram of the present device of 3 conveyer belt mould machines compositions;

E-E generalized section when Figure 64 produces insulation blocks Q for present device;

Figure 65～68 are the replaceable Q type of present device insulation blocks mould 5Q1,5Q, 7Q1,7Q, schematic perspective view;

The insulation blocks Q schematic perspective view that Figure 69 produces for present device;

Figure 70 produces sheet material R schematic perspective view for present device;

Figure 71 is the perspective view of the present device of 4 conveyer belt mould machines compositions;

G-G generalized section when Figure 72 produces insulation blocks Q for present device;

Figure 73～74 are the replaceable Q type of present device insulation blocks mould 5S1,5S schematic perspective view;

Wherein in Fig. 1～74: 1. descend conveyer belt mould machine, 2. upper conveyor belt mould machine, 3. slip bucket, 4. mold belt, 5. replaceable insulation blocks mould, 6. replaceable insulation blocks mould, 7. replaceable insulation blocks mould, 8. tremie pipe, 9. slip agitator, 10. back-up roller 11. slip electromagnetic shakers, left conveyer belt driving wheel on 12., right conveyer belt roller on 13., 14. bottom right conveyer belt roller, 15. bottom left conveyer belt driving wheel, 16. times conveyer belt mould bracing frames, 17. conveyer belt mould machine bracing frames, 18. bed die conveyer belt support roller, 19. the insulation core body, 20. composite heat insulation block cement mortar layers, 21. mould set bolts, 22. be with attached plate carrier chain, 23. locating piece, 24. locating slots, 25. squeegees, 26. go up replaceable insulation blocks mould, 27. go up replaceable insulation blocks mould, 28. left conveyer belt driving wheels, 29. right conveyer belt rollers, 30. left mould belt, 31. right mould belt, 32. left mould belt feeders, 33. right mould belt feeders, 34. left mould belt feeder driving wheel, 35. left mould belt feeder roller, 36. right mould belt feeder driving wheels, 37. right mould belt feeder rollers.

Illustrate: 1, according to producing all types of insulation blocks, when indicating in the drawings replaceable insulation blocks mould-type is all represented with label 5,6,7, removable insulation blocks mould is formed by 3 kinds at most, as produce A type insulation blocks mould and have 2 kinds, indicate 5A, 7A, as produce Type B insulation blocks mould and have 3 kinds, indicating 5B, 6B, 7B, other are handled like this.

2, above-mentioned A type (Fig. 5) insulation blocks, Type B (Figure 11) insulation blocks core, C type (Figure 19) insulation blocks core, D type (Figure 24) insulation blocks, E type (Figure 30) insulation blocks core, F type (Figure 35) insulation blocks, G type (Figure 41) insulation blocks core, H type (Figure 44) insulation blocks, J type (Figure 48) insulation blocks core, K type (Figure 51) insulation blocks, M type (Figure 55) insulation blocks core, N type (Figure 58) insulation blocks, P type (Figure 61) insulation blocks, Q type (Figure 69) insulation blocks, (Figure 70) heat preservation plate material.Insulation blocks shape wherein is according to needs development and Design possible in producing, and because of standard name not as yet, very difficultly again uses the language text description, is to represent profile with its schematic perspective view, and the temporary capitalization defines its type.

The specific embodiment

The present invention will be described below in conjunction with accompanying drawing 1～74: scope of the present invention is not limited to this, and its claimed scope is recorded in each claim of claim.

Wherein formed the conveyer belt type building block mould machine that is used for producing continuously insulation blocks by 1～4 mould belt feeder and continuous stirring charger, the device structure schematic diagram formed of 3 mould machines of device structure schematic diagram, (Figure 62) of forming of 2 mould machines of device structure schematic diagram, (Figure 14) of being made up of (Fig. 1) 1 mould machine, the device structure schematic diagram that (Figure 71) is made up of 4 mould machines are assembled into conveyer belt type building block mould machine 1, machine 2, machine 3, machine 4 respectively.Their application of following division:

Embodiment 1: it is that example continuous stirring charger pours into the slurry for preparing by replaceable mold 5A, 7A by tremie pipe 8 and is fixed in 4 A types of the horizontally-arranged insulation blocks mould that constitutes on the conveyer belt that conveyer belt type building block mould machine 1 is produced A type (Fig. 5) insulation blocks, through squeegee 25 redundant sizing agent is stopped, wipe off, the mould machine is rotated further, controlled motion speed, allow A type insulation blocks in time, solidify substantially by tens to hundred meters length, can the demoulding, transportation is stacked and is done the back processing in one step.This type is produced the heat insulation core material of sheet material, composite thermal self-insulation building block and simple shape by mold exchange more, and production scale depends on the cooperation of the various conditions such as length of formula of size, mould machine.The mould machine is manufactured easily, and cost is low, is easy to promote.

Embodiment 2:(Figure 14) the conveyer belt type building block mould machine that is assembled into by 2 mould machines is produced D type (Figure 24) insulation blocks, the continuous stirring charger pours into the slurry for preparing by replaceable mold 5D by tremie pipe 8,7D is fixed on down conveyer belt and upper conveyor belt mould belt decision insulation blocks shape, 4 D types of the horizontally-arranged insulation blocks mould that constitutes on the belt, through slurry vibrator 11 redundant sizing agent is stopped, wipe vibration off evenly, the mould machine is rotated further, controlled motion speed, allow D type insulation blocks in time, solidify substantially by tens to hundred meters length, can the demoulding, transportation is stacked and is done the back processing in one step.This type is produced various insulation core bodys, composite heat insulation block and the accurate insulation blocks of shape need by mold exchange more.

Embodiment 3:(Figure 62) the conveyer belt type building block mould that is assembled into by 3 mould machines is produced Q type (Figure 69) insulation blocks, also can produce sheet material, (Figure 70) left and right side of sheet material requires to have a pair of tenon and tongue-and-groove, the tenon shape is realized by removable upper and lower mould, realizes this shape on one side of tongue-and-groove with the mould machine of a left side or right horizontal positioned.

Embodiment 4:(Figure 71) the equipment schematic perspective view conveyer belt type building block mould machine of being made up of 4 mould machines 4 is produced sheet material (Figure 70) and insulation blocks (Figure 69).The main sheet material of producing, the sheet material both sides are tenon and tongue-and-groove respectively, realizes the shape of both sides tenon and tongue-and-groove with the mould machine of two left sides and right horizontal positioned, and this mould is confidential to be asked at most, but replaceable mold is required lower, and manufacturing and maintenance cost are low.

Embodiment 5: below be one and produce 600000 m per year ²The conveyer belt type building block mould machine that is used for producing continuously insulation blocks is the example explanation, it is by upper conveyor belt mould machine, following conveyer belt mould machine, the continuous stirring charger is formed, it is power that upper conveyor belt mould machine is joined the 5kW motor, it is power that following conveyer belt mould machine is joined the 30kW motor, on the whole attached plate carrier chain of following conveyer belt mould machine band removable composite thermal self-insulation building block lower mould is installed, all on the attached plate carrier chain of upper conveyor belt mould machine band removable composite thermal self-insulation building block upper die is being installed, they are last, the bed die belt feeder snaps together when rotating contact, form 4 composite thermal self-insulation building block moulds of waiting to cast of a row, continuous stirring charger tremie pipe Guan Full slurry, through slurry vibrator 11 redundant sizing agent is stopped, wipe vibration off evenly, the mould machine is rotated further, controlled motion speed, allow insulation blocks in time, solidify substantially by tens to hundred meters length, can the demoulding, transportation is stacked and is done the back processing in one step.Following conveyer belt mould captain degree can not be less than 50m.

6: one of embodiment produce 1000000 m per year ²It is power that the conveyer belt type building block mould machine upper conveyor belt mould machine that is used for producing continuously insulation blocks is joined the 10kW motor, it is power that following conveyer belt mould machine is joined the 50kW motor, a row has 6 composite thermal self-insulation building block moulds of waiting to cast on the mould belt, and tremie pipe is 80m. to transhipment belt feeder distance

Claims (8)

1, a kind of conveyer belt type building block mould machine that is used for producing continuously insulation blocks, it is characterized in that it is by belt mould machine, or conveyer belt type belt mould machine and charging (feeding) equipment composition, on the whole piece conveyer belt of each belt feeder, removable building block mould has been installed all, has been combined into the conveyer belt mould that is used for producing insulation blocks; Form a such conveyer belt type building block mould machine, need 1～4 conveyer belt type mould belt feeder, they are installed together with charging (feeding) equipment constitute equipment of the present invention; During production, at the end adding required raw material of production building block or the required raw material and the heat insulation core material material of equipment, the equipment other end is produced the insulation blocks that is combined into mold shape according to replaceable building block mould.

2, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, it is characterized in that it is made up of 1 conveyer belt mould machine and continuous stirring charger, fix replaceable insulation blocks mould formation on the whole piece mould conveyer belt and all waited the insulation blocks mould of casting, the front end of conveyer belt mould machine is equipped with the continuous stirring charger, its tremie pipe pours into slurry in the slurry frame of mould, the position of filling behind the mould of slurry is equipped with squeegee, or the slurry vibrator, make in the mould slurry be full of and evenly distribute.

3, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, the equipment that it is characterized in that it is by 2 conveyer belt mould machines: upper conveyor belt mould machine, following conveyer belt mould machine, form with the continuous stirring charger, upper conveyor belt mould machine is fixed on down directly over the conveyer belt mould machine, two conveyer belt mould machine fastening parts form the mould of insulation blocks, the fixing replaceable insulation blocks mould of whole piece bed die conveyer belt constitutes lower mould, the insulation blocks upper die is installed on the conveyer belt of whole upper conveyor belt mould machines, last, the bed die machine snaps together when rotating contact, form the insulation blocks mould of waiting to cast, the front end of following conveyer belt mould machine is equipped with the continuous stirring charger, its tremie pipe pours into slurry in the slurry frame of bed die, fill the bed die of slurry and the position behind the mold fastening place squeegee is installed, or the slurry vibrator, make in the mould slurry be full of and evenly distribute.

4, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, it is characterized in that it is by 3 conveyer belt mould machines: on, following conveyer belt mould machine, left or right conveyer belt mould machine, form with the continuous stirring charger, upper conveyor belt mould machine is fixed on down directly over the conveyer belt mould machine, the fixing replaceable insulation blocks mould of whole piece bed die conveyer belt constitutes lower mould, the insulation blocks upper die is installed on the conveyer belt of whole upper conveyor belt mould machines, according to insulation blocks both sides shape needs, a left side or right conveyer belt mould machine are installed between mold machine and bed die machine, they are last, following belt feeder snaps together when rotating contact, forms the insulation blocks mould.

5, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, it is characterized in that it is by 4 conveyer belt mould machines: on, following conveyer belt mould machine, a left side, right conveyer belt mould machine, form with the continuous stirring charger, upper conveyor belt mould machine is fixed on down directly over the conveyer belt mould machine, two conveyer belt mould machine fastening parts form the mould top and the bottom of insulation blocks, a left side, mould on the right conveyer belt mould machine conveyer belt constitutes the shape on insulation blocks both sides, the fixing replaceable insulation blocks mould of whole piece bed die conveyer belt constitutes lower mould, the insulation blocks upper die is installed on the conveyer belt of whole upper conveyor belt mould machines, when 4 conveyer belt mould machines rotate contact, snap together, form the insulation blocks mould.

6, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, the conveyer belt that it is characterized in that its mould machine is the belt conveyer balata belt, or with the carrier chain of attached plate, or board-like carrier chain, replaceable insulation blocks mould is separately fixed on the conveyer belt of balata belt or carrier chain, on making, following conveyer belt mould machine is when the horizontal level of handing-over mutually, the mutual close proximity of mould on the following conveyer belt mould machine, form the insulation blocks mould that can not leak slurry, make, the insulation blocks mould belt of following conveyer belt mould machine or with a left side, the insulation blocks mould belt of right conveyer belt mould machine accurately fastens the formation unitary mould.

7, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, the length that it is characterized in that its conveyer belt mould machine is 30m～130m, and a horizontally-arranged is arranged 1～15 insulation blocks mould on its upper and lower conveyer belt mould machine mould belt.

8, the conveyer belt type building block mould machine that is used for producing continuously insulation blocks according to claim 1, it is characterized in that under not change of conveyer belt type building block mould machine complete machine structure situation, change the replaceable insulation blocks mould of difformity structure, just produce the insulation blocks of difformity structure, A type (Fig. 5) insulation blocks is arranged, Type B (Figure 11) insulation blocks core, C type (Figure 19) insulation blocks core, D type (Figure 24) insulation blocks, E type (Figure 30) insulation blocks core, F type (Figure 35) insulation blocks, G type (Figure 41) insulation blocks core, H type (Figure 44) insulation blocks, J type (Figure 48) insulation blocks core, K type (Figure 51) insulation blocks, M type (Figure 55) insulation blocks core, N type (Figure 58) insulation blocks, P type (Figure 61) insulation blocks, Q type (Figure 69) insulation blocks, R type (Figure 70) heat preservation plate material.

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