CN107538606A - The production line and production method of a kind of heat preservation dismounting-free formwork - Google Patents

The production line and production method of a kind of heat preservation dismounting-free formwork Download PDF

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Publication number
CN107538606A
CN107538606A CN201610523044.1A CN201610523044A CN107538606A CN 107538606 A CN107538606 A CN 107538606A CN 201610523044 A CN201610523044 A CN 201610523044A CN 107538606 A CN107538606 A CN 107538606A
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China
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cloth
lapping
layer
enhancement layer
production line
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CN201610523044.1A
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Chinese (zh)
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谢怀宇
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湖南晨熙绿色建筑产业有限公司
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Priority to CN201610523044.1A priority Critical patent/CN107538606A/en
Publication of CN107538606A publication Critical patent/CN107538606A/en

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Abstract

The invention discloses a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork is the production line combined designed according to capacity requirements, production-line arrangement is together, the stirring system is located above heat insulation mortar movement blanking system, to heat insulation mortar movement blanking system feed.The heat insulation mortar movement blanking system includes frame, track, mobile hopper, dynamical system, and frame is fed to the wall scroll production line of combination successively across in the top of assembly line, mobile hopper;The binder materials induction system connection raw material cabin and the first cloth system on wall scroll production line, the second cloth system, the 3rd cloth system.The present invention solves the problem of to need to build equipment investment caused by a plurality of production line excessive to enhance production capacities, equipment repeated construction, installation.It is inadequate to solve product strength, product curing time is long, maintenance of equipment investment is larger, takes a large amount of the problem of conserving place.

Description

The production line and production method of a kind of heat preservation dismounting-free formwork

Technical field

The present invention relates to building machinery technical field, the production line and producer of more particularly to a kind of heat preservation dismounting-free formwork Method.

Background technology

The heat preservation dismounting-free formwork for building has the significant advantages such as high-strength light, heat-insulation and heat-preservation, water proof anti-seepage, be both beam, The construction formwork of the monolithic reinforced concrete structure of the heat bridge such as post, shear wall, floor, roofing part, it is the guarantor of structure heat bridge again Warm layer.Insulation is combined into one with construction formwork, structure heat bridge part is not required to do heat-insulation layer again.It is the once great of building energy conservation Change.

There is the document of some compound heat preservation die plates in Chinese patent literature, for example, in patent《A kind of composite insulation boards life Producing line and its technique for processing warming plate》In (application number CN201310146969.5), its technical scheme is:A kind of complex heat-preservation Board assembly line, it is characterised in that including one-to-two stock preparation system, formation system, movement system, diced system and loading board system:

It is defeated that one point of three stock preparation system includes raw material cabin, unidirectional double outlet screw elevating conveyors, bidirectional screw level Send machine, measuring chute one, measuring chute two, lower slurry feed preparing device, insulation material feed preparing device and upper slurry feed preparing device:

Unidirectional double outlet screw elevating conveyors have discharging port A and discharging opening B, the bidirectional screw horizontal feed Machine has discharging opening C and discharging opening D, and discharging opening connection unidirectional double outlet screw elevating conveyors of the raw material cabin are entered Material mouth.

The lower slurry feed preparing device includes lower slurry mixer, and the discharging opening C connects the lower slurry and stirred Mix machine;

The upper slurry feed preparing device includes upper slurry mixer, and the discharging opening D connects the upper slurry and stirred Mix machine;

The insulation material feed preparing device includes heat preservation slurry mixer, insulation compound mixer, super-light aggregate storage bin With super-light aggregate metering device, the heat preservation slurry mixer connection insulation compound mixer, the heat preservation slurry stirs The machine of mixing is located at the top of the insulation compound mixer, and the super-light aggregate storage bin is connected by super-light aggregate metering device The insulation compound mixer;

The charging aperture of the measuring chute one connects the discharging port A, and the discharging opening connection of the measuring chute one is described two-way The feeding gate of spiral horizontal conveyer, the measuring chute two are located between the discharging opening B and the heat preservation slurry mixer;

The formation system is arranged on the top of the movement system, the formation system bag by a frame type working platform Include the lower floor's network cloth installation aiding device set gradually, lower slurry feeding device, insulation compound feeding device, upper strata grid cloth Installation aiding device, hydraulic means and upper slurry feeding device;

The lower slurry feeding device is located at the lower section of the lower slurry mixer;

The lower slurry feeding device is located at the lower section of the lower slurry mixer;

The upper slurry feeding device is located at the lower section of the upper slurry mixer;

The insulation compound feeding device is located at the lower section of the insulation compound mixer;

The movement system includes base, supporting plate and conveyer, and the conveyer is located on base, and the supporting plate is placed on On the conveyer;

The diced system is located between the upper slurry cutoff device and loading board system.

The loading board system is located at the rear end of the conveyer.

The defects of technical scheme is, 1, the technical scheme be single production line, limits throughput, if to expand production Amount, according to the technical scheme, just need to build production line more, raw material cabin must be installed more, mixer is installed more, hopper is installed more, Equipment manufacturing cost is larger, waste of resource, and 2, in the technical scheme, the first cloth pulp grinder is connected using conveying worm one end, one end connects Another cloth pulp grinder is connect, as that need to enhance production capacities, is produced using a plurality of production line, need to just use multiple auger conveyors, and need multiple Raw material cabin, could be supporting with multiple auger conveyors.3rd, in the patent document, it is impossible to uniform distribution is realized, in the technical scheme Between insulation compound feeding device and upper strata grid cloth installation aiding device, provided with insulation material lying device, the insulation material stand Mat formation and put including vibrating motor, spring and guide plate, the guide plate bottom towards the insulation compound feeding device be in circular arc, The guide plate connects the vibrating motor by spring.The defects of device is:In practical operation, heat insulation mortar source in heaps Source is constantly placed on mould, is run forward with conveyer belt, before heat insulation mortar can get lodged in circularoscillations guide plate more and more, work Make over time, just to have before substantial amounts of heat insulation mortar is deposited in circularoscillations guide plate, as heat insulation mortar is accumulated increasingly It is more, more to a certain extent, circularoscillations guide plate can be flowed or blow over and cover completely, conveyer belt can also be blocked so that conveyer belt can not continue forward Operation, production are forced to interrupt.In vibration paves process, because vibrating forming machine is fitted without locating piece, it is difficult to keep template Consistency of thickness.In the patent document technical scheme, conveyer belt is located on base, and supporting plate, complex heat-preservation are provided with conveyer belt Plate is molded on supporting plate, is then transported on nursing frame and is conserved.Substantial amounts of supporting plate, nursing frame and correlation is thus needed to set It is standby, add the cost and cost of equipment.In the technical scheme, after complex heat-preservation sheet metal forming, finally also need to carry out racker Sequence, transhipment maintenance process, frame process, the process that composite insulation boards separate with supporting plate, loading board process are unloaded, technological process is more multiple It is miscellaneous.Cut-out segmentation is carried out in the seam crossing of adjacent bottom plates, just to switch to the seam crossing of adjacent pans in production line, in operation There is also certain difficulty.The product has larger difference with the art of this patent product, and the production method of the product, production line are formed Also differed with the art of this patent.

In patent《A kind of Composite insulation board production line》In (application number CN201210024073.5), its technical characteristic is: A kind of Composite insulation board production line, including production line support body (1), it is characterized in that:Described production line support body (1) is provided with conveying Device (2), described production line support body (1) according to be sequentially provided with same direction blanking device I (3), blanking device II (4), Blanking device III (5) blanking device IV (6), the production line support body (1) are provided with one end adjacent blanking device IV (6) and moved Dynamic hanger device (7), the both sides of the blanking device I (3) are provided with lapping lattice cloth apparatus, blanking device II (4) and blanking device Lapping lattice cloth apparatus is provided between III (5), blanking device IV (6) both sides are provided with lapping lattice cloth apparatus, described production coil holder Multiple scraping devices (25) are uniformly distributed on body (1).

The defects of technical scheme is that the technical scheme is the technical scheme of wall scroll production line, if to expand yield, is pressed According to the technical scheme, it need to just repeat to build a plurality of same production line, multiple raw material cabins, multiple feeding systems must be built.Again, The technical scheme need to place on the conveyor belt substantial amounts of mould could produce, it is necessary to set of molds shelve, scoreboard system, loading board system The large number quipments such as system, travelling bridge.The four fundamental rules technical scheme is added for doing surface on the two sides of styrofoam using ordinary cement Strong layer, thus solidify, shaping, curing time is all longer, it is necessary to which placing substantial amounts of mould on the conveyor belt could produce, it is necessary to big The maintenance of equipment of amount and maintenance place.

In patent《Double stiff dough sheet material polyurethane composite heat-conservation board production lines》(CN201510511250.6) in, its technology is special Sign is that the invention discloses a kind of double stiff dough sheet material polyurethane composite heat-conservation board production lines, including sheet material feed mechanism, sheet material are defeated Send mechanism and coating mechanism.The feed mechanism includes top plate feed mechanism and lower plywood feed mechanism, the sheet material conveying Mechanism includes top plate conveying mechanism and lower plywood conveying mechanism, divides on the top plate conveying mechanism and lower plywood conveying mechanism Heating arrangements are not provided with, and top plate conveying mechanism and lower plywood conveying mechanism are in the angle setting less than 450.Effectively Solve during double stiff dough polyurethane composite heat-conservation boards produced, the problem of levels composite plate feeding difficulty, and realize sheet material Continuous transmission operation, drastically increase production problem and come into force efficiency, meanwhile, by coating polyurethane foam material it Before, slab bridge is preheated.The reliability of sheet material compound sticking has effectively been ensured, double stiff dough lance urethanes has been drastically increased and answers The quality of production of warming plate is closed, and its quality is more stable.

The defects of product of the technical scheme, has:The polyurethane foaming body intensity being clipped among double stiff dough is small, easy to aging, no The cast-in-place exterior sheathing of building is can serve as, the production method of the product also differs with production line with the art of this patent.It is thus raw There is also many differences in the function of product, purposes etc. for the product that output is come.

In patent《Composite heat-insulating wall plate, external wall outer insulation board assembly line》In (notification number CN100586686C), its skill Art is characterized in, discloses a kind of composite heat-insulating wall plate, external wall outer insulation board assembly line, and the production line includes passing through Belt Conveying On the streamline automatic pop-up template mechanism being sequentially connected, roller press mechanism of arranging net, grid cloth automatic cutting mechanism and automatic plate discharging Frame goes out frame mechanism, between automatic pop-up template mechanism and first group of roller press mechanism of arranging net and the last period Belt Conveying streamline Top position be provided with stirring blanking mechanism, stirring and arranges net roller press mechanism at least provided with supporting two groups at blanking mechanism.

The defects of product of the technical scheme, has:1st, the patent is merely able to produce and process the warming plate of individual layer coverage rate, no It can adapt to the processing request of coverage rate and intermediate insulating layer above and below now.2nd, styrofoam is very soft, is produced according to the technical scheme Composite insulation boards, do not reach the intensity requirement of the cast-in-place exterior sheathing of building.3rd, the technical scheme is the technology of wall scroll production line Scheme, if to expand yield, according to the technical scheme, it need to just repeat to build a plurality of same production line, multiple originals must be built Feed bin, multiple feeding systems.4th, the technical scheme needs to place substantial amounts of mould on the conveyor belt and could produced, it is necessary on automatic Flask board mechanism, automatic plate discharging restocking go out the large number quipments such as frame mechanism, travelling bridge.5th, the technical scheme is directed to using common Cement does the individual layer coverage rate of styrofoam, thus solidify, shaping, curing time it is all longer, it is necessary to place on the conveyor belt a large amount of Mould could produce, it is necessary to largely maintain equipment and conserve place.

The technical problems to be solved by the invention are:

1st, solve that to need to build equipment investment caused by a plurality of production line excessive to enhance production capacities, equipment repeated construction, The problem of installation.

2nd, solve the problems, such as that product strength is inadequate.

3rd, solves the problem of product curing time is long, maintenance of equipment investment is larger, takes a large amount of maintenance places.

The content of the invention

In view of the above-mentioned problems, the present invention adopts the technical scheme that:

Scheme one

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, glue Gel material induction system, heat insulation mortar movement blanking system, stirring system, the life combined designed according to capacity requirements Producing line, together, wall scroll production line strikes off system to production-line arrangement including the first lapping system 1, the first cloth system 2, first 3rd, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system the 8, the 4th Lapping system 9, the 3rd cloth system the 10, the 4th strike off system 11, the 5th lapping system 12, diced system 15, the first lapping system The 1, first cloth system 2 of system, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the Three lapping systems the 7, the 3rd strike off system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th and strike off the paving of system the 11, the 5th Net system 12, diced system 15 are adjacent successively according to same direction, and production line support body 17 is provided with conveyer belt, production line support body 17 It is located at the first lapping system 1, the first cloth system 2 with conveyer belt, first strikes off system 3, the second lapping system 4, the second cloth System 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8, the 4th lapping system 9, the 3rd cloth system 10, 4th strikes off system 11, the lower section of the 5th lapping system 12,

The stirring system is located at the top of heat insulation mortar movement blanking system 23, is supplied to heat insulation mortar movement blanking system Material.

The heat insulation mortar movement blanking system 23 includes frame 2301, track, mobile hopper 2302, dynamical system, Frame is provided with rotating wheel, rotating wheel is located at rail across there is track on the top of assembly line, frame on mobile hopper On road, dynamical system connection rotating wheel, mobile hopper is fed to the wall scroll production line of combination successively, and discharging opening is expected positioned at mobile Bucket bottom;

The first cloth system 2, the second cloth of the induction system connection raw material cabin and the wall scroll production line combined Material system 5, the 3rd cloth system 10.

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the second heat-insulation layer is done:Feed proportioning system conveys lightweight aggregate to mixer, and binder materials, additive and water stir into Compound is incubated, mobile hopper is run to mixer discharging opening, triggers mixer, to mobile hopper conveying, mixer After conveying terminates, mobile hopper by setup program, by the driving of dynamical system, is run to above adjacent first conveyer belt, Heat insulation mortar is laid on the second bonding enhancement layer, at the same time, mixer feed paddle by setup program, until completing to stir Mix, mobile hopper is returned below mixer discharging opening, triggers mixer to mobile hopper conveying;After mixer conveying terminates, move Dynamic hopper is run to above adjacent Article 2 conveyer belt by setup program, and heat insulation mortar is laid on the second bonding enhancement layer, Move in circles according to this, complete the blanking of combined production line;After mobile hopper blanking terminates, the wall scroll production line of combination is by setting Determine program and start conveyer belt, then the 3rd strike off system 8 and strike off heat insulation mortar, the 4th lapping system 9 is in the insulation material struck off On slurry, one layer of enhancing net is re-layed, forms the second heat-insulation layer;

(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of supergrip gel material on the second heat-insulation layer, Then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 on the supergrip gel material struck off, then One layer of enhancing net of laying, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as One group of carrying roller or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is air-transport system.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The induction system includes mixer, delivery pump, pipeline, mixer connection delivery pump, delivery pump connecting pipe;Or The induction system includes proportioner, mixer, delivery pump, pipeline, conveying device connection proportioner and mixer, stirring Machine connects delivery pump, delivery pump connecting pipe;Or the bottom mortar distributor is shower nozzle;Or the surface layer mortar distributor is spray Head.

The art of this patent scheme uses Combined production line, improves utilization rate of equipment and installations, reduces equipment investment, solves To enhance production capacities, to need to build equipment investment caused by a plurality of production line excessive, the problem of equipment repeated construction, installation.This is specially Mobile hopper moves back and forth on the track across the frame of a plurality of production line in sharp technical scheme, successively to each bar production line Insulation compound is unloaded, a plurality of production line can share a set of feed proportioning system, induction system, share a stirring system.This patent Technical scheme can use air-transport system connection raw material cabin and the wall scroll production line combined the first cloth system 2, Second cloth system 5, the 3rd cloth system 10, only need flow transfer pump to be connected with Pneumatic conveying pipeline, so that it may by feedstock transportation Into the first cloth system 2, the second cloth system 5, the 3rd cloth system 10 of each article of production line.Or it will be stirred using delivery pump The machine slurry pipeline transport that finishes of stirring to the first cloth system 2 of each wall scroll production line combined, the second cloth system 5, The schemes such as the 3rd cloth system 10.And in published patent document《A kind of Composite insulation board production line》(application number CN201210024073.5)、《Composite heat-insulating wall plate, external wall outer insulation board assembly line》(notification number CN100586686C),《One Kind Composite insulation board production line and its technique for processing warming plate》In (application number CN201310146969.5), all need multiple Feed proportioning system, the supporting feed of multiple induction systems.

The art of this patent solves the problems, such as that product strength is inadequate.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, product on the conveyor belt, side operation, side maintenance, solves Product curing time is long, maintenance of equipment investment is larger, takes a large amount of the problem of conserving place.Also shorten production simultaneously Time, improve production efficiency.There is no special nursing frame and maintenance place in the art of this patent scheme thus.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, it is not necessary to place substantial amounts of mould or supporting plate on the conveyor belt It could produce, it is not necessary to the large number quipments such as set of molds is shelved, scoreboard system, loading board system, travelling bridge.Only need to be in conveyer belt two Side sets rib.Thus a large amount of supporting plates are not placed on the conveyor belt in the art of this patent scheme, it is not required that set of molds shelves, The equipment such as scoreboard system, loading board system, travelling bridge.

Scheme two

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated System, the production line combined designed according to capacity requirements are sent, together, wall scroll production line includes the to production-line arrangement One lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second struck off System 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, the 4th cloth system 19th, the 4th system 11, the 5th lapping system 12, diced system 15 are struck off,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd are struck off strike off system 8, the 4th lapping system the 9, the 4th Cloth system the 19, the 4th strikes off system 11, the 5th lapping system 12, diced system 15, production adjacent successively according to same direction Coil holder body 17 is provided with conveyer belt 21, production line support body 17 and conveyer belt 21 be located at the first lapping system 1, the first cloth system 2, First strikes off system 3, the second lapping system 4, the second cloth system 5, second strikes off system 6, the 3rd lapping system 7, the 3rd cloth Material system the 18, the 3rd strikes off system 8, the 4th lapping system 9, the 4th cloth system the 19, the 4th and strikes off system 11, the 5th lapping system The lower section of system 12,

The first cloth system 2, the second cloth of the induction system connection raw material cabin and the wall scroll production line combined Material system 5, the 3rd cloth system 18, the 4th cloth system 19;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

(5) the 4th bonding enhancement layer is done:4th cloth system 19, one layer of supergrip of laying on the 3rd bonding enhancement layer coagulates Material, then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 is in the supergrip gel material struck off On, one layer of enhancing net is re-layed, forms the 4th bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting, example are installed between the second lapping system 4 and the second cloth system 5 Such as one group of carrying roller, or one group of rolling device;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is air-transport system.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The induction system includes mixer, delivery pump, pipeline, mixer connection delivery pump, delivery pump connecting pipe;Or The induction system includes proportioner, mixer, delivery pump, pipeline, conveying device connection proportioner and mixer, stirring Machine connects delivery pump, delivery pump connecting pipe;Or the bottom mortar distributor is shower nozzle;Or the surface layer mortar distributor is spray Head.

The art of this patent scheme uses Combined production line, improves utilization rate of equipment and installations, reduces equipment investment, solves To enhance production capacities, to need to build equipment investment caused by a plurality of production line excessive, the problem of equipment repeated construction, installation.This is specially Sharp technical scheme using the first cloth system 2 of air-transport system connection raw material cabin and the wall scroll production line combined, Second cloth system 5, the 3rd cloth system 10, or the slurry pipeline transport finished is stirred mixer to combination one using delivery pump The schemes such as the first cloth system 2 of each wall scroll production line for rising, the second cloth system 5, the 3rd cloth system 10.And disclosed Patent document《A kind of Composite insulation board production line》(application number CN201210024073.5),《Composite heat-insulating wall plate, exterior wall Heat-insulation plate for external production line》(notification number CN100586686C),《A kind of Composite insulation board production line and its work for processing warming plate Skill》In (application number CN201310146969.5), multiple feed proportioning systems, the supporting feed of multiple induction systems have all been needed.This patent In technical scheme, a plurality of product line group is combined, and only needs flow transfer pump to be connected with Pneumatic conveying pipeline, so that it may which raw material is defeated The each equipment being sent in production line.

The art of this patent solves the problems, such as that product strength is inadequate.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, because its setting time is short, product on the conveyor belt, side operation, side maintenance, solves product maintenance Overlong time, maintenance of equipment investment are larger, take a large amount of the problem of conserving place.The production time is also shortened simultaneously, is carried High production efficiency.There is no special nursing frame and maintenance place in the art of this patent scheme thus.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, it is not necessary to place substantial amounts of mould or supporting plate on the conveyor belt It could produce, it is not necessary to the large number quipments such as set of molds is shelved, scoreboard system, loading board system, travelling bridge.Only need to be in conveyer belt two Side sets rib.Thus a large amount of supporting plates are not placed on the conveyor belt in the art of this patent scheme, it is not required that set of molds shelves, The equipment such as scoreboard system, loading board system, travelling bridge.

Scheme three

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated System, the production line combined designed according to capacity requirements are sent, together, wall scroll production line includes the to production-line arrangement One lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second struck off System 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd are struck off strike off system 8, the 4th lapping system 9, Ni Zhifu drill System 14, diced system 15, palletizing system 16 are adjacent successively according to same direction, and production line support body 17 is provided with conveyer belt, raw Producing line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4th, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strike off system the 8, the 4th Lapping system 9, lower section,

The first cloth system 2, the second cloth of the induction system connection raw material cabin and the wall scroll production line combined Material system 5, the 3rd cloth system 18;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as One group of carrying roller or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is Pneumatic conveyer.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The induction system includes mixer, delivery pump, pipeline, mixer connection delivery pump, delivery pump connecting pipe;Or The induction system includes proportioner, mixer, delivery pump, pipeline, conveying device connection proportioner and mixer, stirring Machine connects delivery pump, delivery pump connecting pipe;Or the bottom mortar distributor is shower nozzle;Or the surface layer mortar distributor is spray Head.

The art of this patent scheme uses Combined production line, improves utilization rate of equipment and installations, reduces equipment investment, solves To enhance production capacities, to need to build equipment investment caused by a plurality of production line excessive, the problem of equipment repeated construction, installation.This is specially Sharp technical scheme using the first cloth system 2 of air-transport system connection raw material cabin and the wall scroll production line combined, Second cloth system 5, the 3rd cloth system 10, or the slurry pipeline transport finished is stirred mixer to combination one using delivery pump The schemes such as the first cloth system 2 of each wall scroll production line for rising, the second cloth system 5, the 3rd cloth system 10.And disclosed Patent document《A kind of Composite insulation board production line》(application number CN201210024073.5),《Composite heat-insulating wall plate, exterior wall Heat-insulation plate for external production line》(notification number CN100586686C),《A kind of Composite insulation board production line and its work for processing warming plate Skill》In (application number CN201310146969.5), multiple feed proportioning systems, the supporting feed of multiple induction systems have all been needed.This patent In technical scheme, a plurality of product line group is combined, and only needs flow transfer pump to be connected with Pneumatic conveying pipeline, so that it may which raw material is defeated The each equipment being sent in production line.

The art of this patent solves the problems, such as that product strength is inadequate.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, because its setting time is short, product on the conveyor belt, side operation, side maintenance, solves product maintenance Overlong time, maintenance of equipment investment are larger, take a large amount of the problem of conserving place.The production time is also shortened simultaneously, is carried High production efficiency.There is no special nursing frame and maintenance place in the art of this patent scheme thus.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, it is not necessary to place substantial amounts of mould or supporting plate on the conveyor belt It could produce, it is not necessary to the large number quipments such as set of molds is shelved, scoreboard system, loading board system, travelling bridge.Only need to be in conveyer belt two Side sets rib.Thus a large amount of supporting plates are not placed on the conveyor belt in the art of this patent scheme, it is not required that set of molds shelves, The equipment such as scoreboard system, loading board system, travelling bridge.

Scheme four

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated System, the production line combined designed according to capacity requirements are sent, together, wall scroll production line includes the to production-line arrangement One lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second struck off System 6, the 3rd lapping system 7,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second strike off system 6, the 3rd lapping system 7, Ni Zhifu drill system 14, diced system 15, palletizing system 16 according to same direction according to Secondary adjacent, production line support body 17 is provided with conveyer belt, and production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth Material system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7 Lower section,

The first cloth system 2, the second cloth of the induction system connection raw material cabin and the wall scroll production line combined Material system 5;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, second are bonded enhancement layer, are fixed together, and form heat preservation dismounting-free formwork. One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as one group of carrying roller Or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is Pneumatic conveyer.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

Scheme five

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated System, heat insulation mortar blanking system, the first lapping system 1, the first cloth system 2, first is sent to strike off system 3, the second lapping system The 4, second cloth system 5 of system, second strike off system 6, the 3rd lapping system 7, the 3rd strike off system 8, the 4th lapping system 9, the Three cloth systems the 10, the 4th strike off system 11, the 5th lapping system 12, diced system 15, the first lapping system 1, the first cloth System 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, Heat insulation mortar blanking system, the 3rd strike off system 8, the 4th lapping system 9, the 3rd cloth system 10, the 4th strike off system 11, Five lapping systems 12, diced system 15 are adjacent successively according to same direction, and production line support body 17 is provided with conveyer belt, produce coil holder Body 17 and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, second Cloth system 5, second strike off system 6, the 3rd lapping system 7, heat insulation mortar blanking system, the 3rd strike off system 8, the 4th lapping System 9, the 3rd cloth system the 10, the 4th strike off system 11, the lower section of the 5th lapping system 12,

The first cloth system 2, the second cloth of the induction system connection raw material cabin and the wall scroll production line combined Material system 5, the 3rd cloth system 10.

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the second heat-insulation layer) is done:Heat insulation mortar moves blanking system 13 and lays insulation material on the second bonding enhancement layer Slurry, then the 3rd strike off system 8 and strike off heat insulation mortar, the 4th lapping system 9 re-lays one layer on the heat insulation mortar struck off Strengthen net, form the second heat-insulation layer;

(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of supergrip gel material on the second heat-insulation layer, Then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 on the supergrip gel material struck off, then One layer of enhancing net of laying, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as One group of carrying roller or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is Pneumatic conveyer.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The induction system includes mixer, delivery pump, pipeline, mixer connection delivery pump, delivery pump connecting pipe;Or The induction system includes proportioner, mixer, delivery pump, pipeline, conveying device connection proportioner and mixer, stirring Machine connects delivery pump, delivery pump connecting pipe;Or the bottom mortar distributor is shower nozzle;Or the surface layer mortar distributor is spray Head.

The art of this patent scheme improves utilization rate of equipment and installations, reduces equipment investment.The art of this patent scheme uses strength Induction system connects the first cloth system 2, the second cloth system 5, the 3rd cloth system 10 of raw material cabin and wall scroll production line, or Using delivery pump by first cloth system 2 of the slurry pipeline transport that finishes of mixer stirring to each wall scroll production line, the second cloth system The schemes such as the 5, the 3rd cloth system 10 of system.And in published patent document《A kind of Composite insulation board production line》(application number CN201210024073.5)、《Composite heat-insulating wall plate, external wall outer insulation board assembly line》(notification number CN100586686C),《One Kind Composite insulation board production line and its technique for processing warming plate》In (application number CN201310146969.5), all need multiple Feed proportioning system, the supporting feed of multiple induction systems.In the art of this patent scheme, flow transfer pump is only needed to connect with Pneumatic conveying pipeline It is logical, so that it may by each equipment in feedstock transportation to production line.

The art of this patent solves the problems, such as that product strength is inadequate.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, because its setting time is short, product on the conveyor belt, side operation, side maintenance, solves product maintenance Overlong time, maintenance of equipment investment are larger, take a large amount of the problem of conserving place.The production time is also shortened simultaneously, is carried High production efficiency.There is no special nursing frame and maintenance place in the art of this patent scheme thus.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, it is not necessary to place substantial amounts of mould or supporting plate on the conveyor belt It could produce, it is not necessary to the large number quipments such as set of molds is shelved, scoreboard system, loading board system, travelling bridge.Only need to be in conveyer belt two Side sets rib.Thus a large amount of supporting plates are not placed on the conveyor belt in the art of this patent scheme, it is not required that set of molds shelves, The equipment such as scoreboard system, loading board system, travelling bridge.

Scheme six

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated Send system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, Second, which strikes off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd, strikes off system 8, the 4th lapping system 9, the 4th cloth Material system the 19, the 4th strikes off system 11, the 5th lapping system 12, diced system 15,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd are struck off strike off system 8, the 4th lapping system the 9, the 4th Cloth system the 19, the 4th strikes off system 11, the 5th lapping system 12, diced system 15, production adjacent successively according to same direction Coil holder body 17 is provided with conveyer belt 21, production line support body 17 and conveyer belt 21 be located at the first lapping system 1, the first cloth system 2, First strikes off system 3, the second lapping system 4, the second cloth system 5, second strikes off system 6, the 3rd lapping system 7, the 3rd cloth Material system the 18, the 3rd strikes off system 8, the 4th lapping system 9, the 4th cloth system the 19, the 4th and strikes off system 11, the 5th lapping system The lower section of system 12,

Induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 18, the Four cloth systems 19;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

(5) the 4th bonding enhancement layer is done:4th cloth system 19, one layer of supergrip of laying on the 3rd bonding enhancement layer coagulates Material, then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 is in the supergrip gel material struck off On, one layer of enhancing net is re-layed, forms the 4th bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as One group of carrying roller or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is Pneumatic conveyer.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The induction system includes mixer, delivery pump, pipeline, mixer connection delivery pump, delivery pump connecting pipe;Or The induction system includes proportioner, mixer, delivery pump, pipeline, conveying device connection proportioner and mixer, stirring Machine connects delivery pump, delivery pump connecting pipe;Or the bottom mortar distributor is shower nozzle;Or the surface layer mortar distributor is spray Head.

The art of this patent scheme improves utilization rate of equipment and installations, reduces equipment investment.The art of this patent scheme uses strength Induction system connects the first cloth system 2, the second cloth system the 5, the 3rd of raw material cabin and the wall scroll production line combined Cloth system 10, and in published patent document《A kind of Composite insulation board production line》(application number CN201210024073.5)、《Composite heat-insulating wall plate, external wall outer insulation board assembly line》(notification number CN100586686C),《One Kind Composite insulation board production line and its technique for processing warming plate》In (application number CN201310146969.5), all need multiple Feed proportioning system, the supporting feed of multiple induction systems.In the art of this patent scheme, flow transfer pump is only needed to connect with Pneumatic conveying pipeline It is logical, so that it may by each equipment in feedstock transportation to production line.

The art of this patent solves the problems, such as that product strength is inadequate.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, because its setting time is short, product on the conveyor belt, side operation, side maintenance, solves product maintenance Overlong time, maintenance of equipment investment are larger, take a large amount of the problem of conserving place.The production time is also shortened simultaneously, is carried High production efficiency.There is no special nursing frame and maintenance place in the art of this patent scheme thus.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, it is not necessary to place substantial amounts of mould or supporting plate on the conveyor belt It could produce, it is not necessary to the large number quipments such as set of molds is shelved, scoreboard system, loading board system, travelling bridge.Only need to be in conveyer belt two Side sets rib.Thus a large amount of supporting plates are not placed on the conveyor belt in the art of this patent scheme, it is not required that set of molds shelves, The equipment such as scoreboard system, loading board system, travelling bridge.

Scheme seven

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, glue Gel material induction system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth Material system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strike off system 8, the 4th lapping system 9, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second Strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strike off system 8, the 4th lapping system 9, diced system 15 Adjacent successively according to same direction, production line support body 17 is provided with conveyer belt, production line support body 17 and conveyer belt positioned at the first paving Net system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6th, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, lower section,

The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 18;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as One group of carrying roller or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is Pneumatic conveyer.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The art of this patent scheme improves utilization rate of equipment and installations, reduces equipment investment.The art of this patent scheme uses strength Induction system connects the first cloth system 2, the second cloth system the 5, the 3rd of raw material cabin and the wall scroll production line combined Cloth system 10, and in published patent document《A kind of Composite insulation board production line》(application number CN201210024073.5)、《Composite heat-insulating wall plate, external wall outer insulation board assembly line》(notification number CN100586686C),《One Kind Composite insulation board production line and its technique for processing warming plate》In (application number CN201310146969.5), all need multiple Feed proportioning system, the supporting feed of multiple induction systems.In the art of this patent scheme, flow transfer pump is only needed to connect with Pneumatic conveying pipeline It is logical, so that it may by each equipment in feedstock transportation to production line.

The art of this patent solves the problems, such as that product strength is inadequate.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, because its setting time is short, product on the conveyor belt, side operation, side maintenance, solves product maintenance Overlong time, maintenance of equipment investment are larger, take a large amount of the problem of conserving place.The production time is also shortened simultaneously, is carried High production efficiency.There is no special nursing frame and maintenance place in the art of this patent scheme thus.

When use rapid hardening binder materials is as the first bonding enhancement layer, the second bonding enhancement layer, the 3rd in the art of this patent When being bonded the material of enhancement layer, or add rapid hardening binder materials in dispensing and strengthen as the first bonding enhancement layer, the second bonding When layer, the 3rd are bonded the material of enhancement layer, because its setting time is short, it is not necessary to place substantial amounts of mould or supporting plate on the conveyor belt It could produce, it is not necessary to the large number quipments such as set of molds is shelved, scoreboard system, loading board system, travelling bridge.Only need to be in conveyer belt two Side sets rib.Thus a large amount of supporting plates are not placed on the conveyor belt in the art of this patent scheme, it is not required that set of molds shelves, The equipment such as scoreboard system, loading board system, travelling bridge.

Scheme eight

A kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated Send system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, Second strikes off system 6, the 3rd lapping system 7,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second to strike off system 6, the 3rd lapping system 7, diced system 15 adjacent successively according to same direction, is set on production line support body 17 There is a conveyer belt, production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3, Two lapping systems 4, the second cloth system 5, second strike off system 6, the lower section of the 3rd lapping system 7,

The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer are fixed together, and form heat preservation dismounting-free formwork.

One group of Thickness sensitivity and means for correcting are installed between the second lapping system 4 and the second cloth system 5, such as One group of carrying roller or one group of roller;

The conveying belt die formation system is that conveyer belt both sides are provided with rib.

The induction system is Pneumatic conveyer.

First cloth system is distribution device, including distribution device frame 201, weighing hopper 202, hopper 203, spiral Conveyer 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, the first inductive proximity switch 208 and second inductive proximity switch 209, weighing hopper 202 connects hopper 203, the one end of conveying worm 204 connection hopper 203, and one End connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed in lightweight charging basket axle of stirrer frame 205, motor There are the first inductive proximity switch 208 and the second inductive proximity switch 209, the biography of motor 207 in the both sides of 207 power transmission shaft respectively Moving axis connection lightweight charging basket axle of stirrer frame 205;Second cloth system or the 3rd cloth system or the 4th cloth system with First cloth system is identical.

First cloth system is distribution device, including mixer, dynamical system and mobile tremie pipe, mixer connection Mobile tremie pipe, the mobile tremie pipe of dynamical system connection;Or distribution device includes mixer, dynamical system and mobile hopper, stirs Mix the mobile hopper of machine connection, the mobile hopper of dynamical system connection;Second cloth system or the 3rd cloth system or the 4th cloth Material system is identical with the first cloth system.

The heat insulation mortar blanking system is heat insulation mortar blanking device, including mixer, dynamical system and mobile blanking Pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or heat insulation mortar blanking device include mixer, Dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.

The solution have the advantages that:

1st, solve needs to build that equipment investment caused by a plurality of production line is excessive, and equipment repeats to build to enhance production capacities If, installation the problem of.

2nd, solve the problems, such as that product strength is inadequate.

3rd, the product of the art of this patent on the conveyor belt, side operation, side maintenance, it is long, foster to solve product curing time It is larger to protect equipment investment, takes a large amount of the problem of conserving place.The production time is also shortened simultaneously, improves production effect Rate.

Brief description of the drawings

Fig. 1 is a kind of structural representation for being incubated the production line for exempting to roll over template of the present invention in embodiment one

Fig. 2 is a kind of top view for being incubated the production line for exempting to roll over template of the present invention in embodiment one

Fig. 3 is a kind of structural representation for being incubated the production line for exempting to roll over template of the present invention in embodiment two

Fig. 4 is a kind of top view for being incubated the production line for exempting to roll over template of the present invention in embodiment two

Fig. 5 is a kind of structural representation for being incubated the production line for exempting to roll over template of the present invention in embodiment three

Fig. 6 is a kind of structural representation for being incubated the production line for exempting to roll over template of the present invention in embodiment four

Fig. 7 is the first cloth system structural representation

Fig. 8 is the structural representation of the first cloth system another technical solution

Fig. 9 is flow transfer pump structural representation

Figure 10 is the side view of the first lapping system

Figure 11 is the structural representation of the first lapping system

Figure 12 is a kind of process chart for being incubated the production method for exempting to roll over template of the present invention in embodiment nine

Figure 13 is a kind of process chart for being incubated the production method for exempting to roll over template of the present invention in embodiment ten

In figure:1st, the first lapping system, the 2, first cloth system, 3, first strikes off system, the 4, second lapping system, and 5, Two cloth systems, 6, second strikes off system, the 7, the 3rd lapping system, and the 8, the 3rd strikes off system, the 9, the 4th lapping system, and 10, Three cloth systems, the 11, the 4th strikes off system, the 12, the 5th lapping system, and 28, diced system,

Embodiment

Embodiment one

As shown in Figure 1 and Figure 2, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production of the heat preservation dismounting-free formwork Line includes raw material cabin, induction system, heat insulation mortar and moves blanking system, stirring system, existed according to the combination of capacity requirements design Production line together, together, wall scroll production line includes the first lapping system 1, the first cloth system 2, first to production-line arrangement Strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off and is The 8, the 4th lapping system 9 of system, the 3rd cloth system the 10, the 4th strike off system 11, the 5th lapping system 12, diced system 28,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second system 6 is struck off, the 3rd lapping system the 7, the 3rd strikes off system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th It is adjacent successively according to same direction to strike off system 11, the 5th lapping system 12, diced system 15, production line support body 17 is provided with defeated Send band, production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off the paving of system 3, second Net system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8, the 4th lapping system 9th, the 3rd cloth system the 10, the 4th strikes off system 11, the lower section of the 5th lapping system 12,

The stirring system is located at the top of heat insulation mortar movement blanking system 23, is supplied to heat insulation mortar movement blanking system Material.

The heat insulation mortar movement blanking system 23 includes frame 2301, track, mobile hopper 2302, dynamical system, Frame is provided with rotating wheel, rotating wheel is located at rail across there is track on the top of assembly line, frame on mobile hopper On road, dynamical system connection rotating wheel, mobile hopper is fed to the wall scroll production line of combination successively, and discharging opening is expected positioned at mobile Bucket bottom;

First cloth system 2 of Pneumatic conveyer connection raw material cabin and the wall scroll production line combined, the Two cloth systems 5, the 3rd cloth system 10.

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) the first heat-insulation layer is done:Styrofoam is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the second heat-insulation layer is done:Feed proportioning system conveys lightweight aggregate to mixer, and binder materials, additive and water stir into Compound is incubated, mobile hopper is run to mixer discharging opening, triggers mixer, to mobile hopper conveying, mixer After conveying terminates, mobile hopper by setup program, by the driving of dynamical system, is run to above adjacent first conveyer belt, Heat insulation mortar is laid on the second bonding enhancement layer, at the same time, mixer feed paddle by setup program, until completing to stir Mix, mobile hopper is returned below mixer discharging opening, triggers mixer to mobile hopper conveying;After mixer conveying terminates, move Dynamic hopper is run to above adjacent Article 2 conveyer belt by setup program, and heat insulation mortar is laid on the second bonding enhancement layer, Move in circles according to this, complete the blanking of combined production line;After mobile hopper blanking terminates, the wall scroll production line of combination is by setting Determine program and start conveyer belt, then the 3rd strike off system 8 and strike off heat insulation mortar, the 4th lapping system 9 is in the insulation material struck off On slurry, one layer of enhancing net is re-layed, forms the second heat-insulation layer;

(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of supergrip gel material on the second heat-insulation layer, Then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 on the supergrip gel material struck off, then One layer of enhancing net of laying, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

In present embodiment, as shown in Figure 1 and Figure 2, feed proportioning system includes glass bead bucket elevator 16, glass bead feed bin 17th, glass bead is transported to glass bead material by conveying worm 20, conveyer 22, weighing hopper 23, glass bead bucket elevator 16 Accelerated cement is transported to weighing hopper 23 by storehouse 17, conveying worm 20, and glass bead is transported to weighing hopper 23 by conveyer 22.Such as Shown in Fig. 2, Fig. 9, Pneumatic conveyer includes flow transfer pump 26, Pneumatic conveying pipeline 15, and flow transfer pump 26 includes material Storehouse 2601, feed pipe 2602, blast pipe 2603, compressed air inlet pipe 2604, switch 2605, compressed air by goods fluid, Make it is material suspended in material bin 2601, then Pneumatic conveying pipeline 15 switch open, under the promotion of compressed air, by thing Material is transported to the first cloth system 2, the second cloth system 5, the 3rd cloth system of each wall scroll production line along Pneumatic conveying pipeline 10。

As shown in Figure 10, Figure 11, the first lapping system 1 is that the first device for layering includes the first device for layering frame 101, horizontal stroke Axle 102, positioning roller 103, transverse axis 102 and positioning roller 103 are fixed in bottom device for layering frame 101, positioning roller 103 Positioned at the lower section of transverse axis 102, glass fiber reticular cloth drum sheath is on transverse axis 102, and glass fiber reticular cloth down pulls at reel during work, Located roller 103, is repaved on conveyer belt 31.

As shown in figure 12, the first cloth system 2 is the first distribution device, including the first distribution device frame 201, weighing hopper 202nd, hopper 203, conveying worm 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, First inductive proximity switch 208 and the second inductive proximity switch 209, weighing hopper 202 connect hopper 203, conveying worm 204 1 End connection hopper 203, one end connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed on lightweight charging basket mixer In frame 205,

There are the first inductive proximity switch 208 and the second inductive proximity switch in the both sides of the power transmission shaft of motor 207 respectively 209, the transmission axis connection light material bucket axle of stirrer frame 205 of motor 207, during work, material is through the electronic scale of weighing hopper 202 After metering, hopper 203 is fallen into, conveying worm 204 is transported in lightweight charging basket mixer 206 and stirred, after stirring, Motor 207 starts, and the sensing object 210 before the first inductive proximity switch 208 rotates to the second inductive proximity switch When before 209, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 downwardly turns over, lightweight charging basket mixer 206 On the conveyor belt, then motor 207 starts interior material, when sensing object 210 returns to the first inductive proximity switch When before 208, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 is flipped up, and is so moved in circles.

Or as shown in figure 8, the first distribution device includes mixer 3301, dynamical system and mobile tremie pipe 3302, stir Mix the mobile tremie pipe 3302 of the connection of machine 3301, the mobile tremie pipe 3302 of dynamical system connection;Feed proportioning system will prepare during work Feedstock transportation is to mixer 3301, and after stirring, it is laterally past that dynamical system drives mobile tremie pipe 3302 to do on the conveyor belt Motion (conveying tape motion direction is longitudinal direction) is returned, as conveyer belt moves with uniform velocity, mobile tremie pipe 3302 is equably by slurry Distribution is on the conveyor belt.

Second lapping system 4, the 3rd lapping system 7, the 4th lapping system 9, the 5th lapping system 12 and the first lapping system The structure of system 1 is identical with method of work.

Second cloth system 5, the 3rd cloth system 10 are identical with the structure and method of work of the first cloth system 2.

Embodiment two

As shown in Figure 3, Figure 4, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production of the heat preservation dismounting-free formwork Line includes raw material cabin, binder materials induction system, the production line combined designed according to capacity requirements, production-line arrangement Together, wall scroll production line include the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, Second cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strike off the paving of system the 8, the 4th Net system 9, the 4th cloth system the 19, the 4th strike off system 11, the 5th lapping system 12, diced system 28;

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd are struck off strike off system 8, the 4th lapping system the 9, the 4th Cloth system the 19, the 4th strikes off system 11, the 5th lapping system 12, diced system 15, production adjacent successively according to same direction Coil holder body 17 is provided with conveyer belt 21, production line support body 17 and conveyer belt 21 be located at the first lapping system 1, the first cloth system 2, First strikes off system 3, the second lapping system 4, the second cloth system 5, second strikes off system 6, the 3rd lapping system 7, the 3rd cloth Material system the 18, the 3rd strikes off system 8, the 4th lapping system 9, the 4th cloth system the 19, the 4th and strikes off system 11, the 5th lapping system The lower section of system 12;

First cloth system 2 of air-transport system connection raw material cabin and the wall scroll production line combined, the Two cloth systems 5, the 3rd cloth system 18, the 4th cloth system 19;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Styrofoam is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

(5) the 4th bonding enhancement layer is done:4th cloth system 19, one layer of supergrip of laying on the 3rd bonding enhancement layer coagulates Material, then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 is in the supergrip gel material struck off On, one layer of enhancing net is re-layed, forms the 4th bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

In present embodiment,

As shown in Fig. 3, Fig. 4, Fig. 9, rapid hardening binder materials is transported to fluidisation conveying by conveying worm 32 from raw material cabin 14 Pump 26, Pneumatic conveyer include flow transfer pump 26, Pneumatic conveying pipeline 15, flow transfer pump 26 include material bin 2601, Goods fluid hangs material by feed pipe 2602, blast pipe 2603, compressed air inlet pipe 2604, switch 2605, compressed air Float in material bin 2601, then the switch of Pneumatic conveying pipeline 15 is opened, under the promotion of compressed air, by material along strength Conveyance conduit is transported to the first cloth system 2, the second cloth system 5, the 3rd cloth system 18, the 4th cloth of each wall scroll production line Material system 19.

As shown in Figure 10, Figure 11, the first lapping system 1 is that the first device for layering includes the first device for layering frame 101, horizontal stroke Axle 102, positioning roller 103, transverse axis 102 and positioning roller 103 are fixed in bottom device for layering frame 101, positioning roller 103 Positioned at the lower section of transverse axis 102, glass fiber reticular cloth drum sheath is on transverse axis 102, and glass fiber reticular cloth down pulls at reel during work, Located roller 103, is repaved on conveyer belt 31.

As shown in figure 12, the first cloth system 2 is the first distribution device, including the first distribution device frame 201, weighing hopper 202nd, hopper 203, conveying worm 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, First inductive proximity switch 208 and the second inductive proximity switch 209, weighing hopper 202 connect hopper 203, conveying worm 204 1 End connection hopper 203, one end connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed on lightweight charging basket mixer In frame 205,

There are the first inductive proximity switch 208 and the second inductive proximity switch in the both sides of the power transmission shaft of motor 207 respectively 209, the transmission axis connection light material bucket axle of stirrer frame 205 of motor 207, during work, material is through the electronic scale of weighing hopper 202 After metering, hopper 203 is fallen into, conveying worm 204 is transported in lightweight charging basket mixer 206 and stirred, after stirring, Motor 207 starts, and the sensing object 210 before the first inductive proximity switch 208 rotates to the second inductive proximity switch When before 209, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 downwardly turns over, lightweight charging basket mixer 206 On the conveyor belt, then motor 207 starts interior material, when sensing object 210 returns to the first inductive proximity switch When before 208, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 is flipped up, and is so moved in circles.

Second lapping system 4, the 3rd lapping system 7, the 4th lapping system 9, the 5th lapping system 12 and the first lapping system The structure of system 1 is identical with method of work.

Second cloth system 5, the 3rd cloth system 18, the structure and work of the 4th cloth system 19 and the first cloth system 2 It is identical to make method.

Embodiment three

As shown in figure 5, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, induction system, according to capacity requirements design the production line combined, production-line arrangement together, wall scroll Production line strikes off system 3, the second lapping system 4, the second cloth system including the first lapping system 1, the first cloth system 2, first System 5, second strikes off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strikes off system 8, the 4th lapping system 9, the One lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second struck off System 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, Ni Zhifu drill system 14, cut It is adjacent successively according to same direction to cut system 15, palletizing system 16, production line support body 17 is provided with conveyer belt, production line support body 17 It is located at the first lapping system 1, the first cloth system 2 with conveyer belt, first strikes off system 3, the second lapping system 4, the second cloth System 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, Lower section,

The first cloth system 2, the second cloth of the induction system connection raw material cabin and the wall scroll production line combined Material system 5, the 3rd cloth system 18;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Styrofoam is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

Embodiment four

As shown in fig. 6, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Raw material cabin, binder materials induction system, the production line combined designed according to capacity requirements are included, production-line arrangement is one Rise, wall scroll production line strikes off system 3, the second lapping system 4, second including the first lapping system 1, the first cloth system 2, first Cloth system 5, second strike off system 6, the 3rd lapping system 7,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second strike off system 6, the 3rd lapping system 7, Ni Zhifu drill system 14, diced system 15, palletizing system 16 according to same direction according to Secondary adjacent, production line support body 17 is provided with conveyer belt, and production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth Material system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7 Lower section,

First cloth system of the binder materials induction system connection raw material cabin and the wall scroll production line combined 2nd, the second cloth system 5;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, second are bonded enhancement layer, are fixed together, and form heat preservation dismounting-free formwork.

Embodiment five

As shown in figure 1, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, binder materials induction system, heat insulation mortar blanking system, the first lapping system 1, the first cloth system 2, first scrape Flat system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8th, the 4th lapping system 9, the 3rd cloth system the 10, the 4th strike off system 11, the 5th lapping system 12, diced system 15, and first Lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off and be The 6, the 3rd lapping system 7 of system, heat insulation mortar blanking system, the 3rd strike off system 8, the 4th lapping system 9, the 3rd cloth system 10th, the 4th, the production line support body 17 adjacent successively according to same direction that strike off system 11, the 5th lapping system 12, diced system 15 It is provided with conveyer belt, production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3rd, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, heat insulation mortar blanking system, Three, which strike off system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th, strikes off system 11, the lower section of the 5th lapping system 12,

The air-transport system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 10。

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the second heat-insulation layer) is done:Heat insulation mortar moves blanking system 13 and lays insulation material on the second bonding enhancement layer Slurry, then the 3rd strike off system 8 and strike off heat insulation mortar, the 4th lapping system 9 re-lays one layer on the heat insulation mortar struck off Strengthen net, form the second heat-insulation layer;

(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of supergrip gel material on the second heat-insulation layer, Then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 on the supergrip gel material struck off, then One layer of enhancing net of laying, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

In present embodiment, feed proportioning system is identical with the feed proportioning system in embodiment one.

As shown in figure 9, Pneumatic conveyer includes flow transfer pump 26, Pneumatic conveying pipeline 15, flow transfer pump 26 wraps Material bin 2601, feed pipe 2602, blast pipe 2603, compressed air inlet pipe 2604, switch 2605 are included, compressed air is by material Fluidisation, make it is material suspended in material bin 2601, then Pneumatic conveying pipeline 15 switch open, in the promotion of compressed air Under, material is transported to the first cloth system 2, the second cloth system 5, the 3rd cloth system 10 along Pneumatic conveying pipeline.Such as figure 10th, shown in Figure 11, the first lapping system 1 is that the first device for layering includes the first device for layering frame 101, transverse axis 102, positioning rolling Wheel 103, transverse axis 102 and positioning roller 103 are fixed in bottom device for layering frame 101, and positioning roller 103 is located at transverse axis 102 Lower section, glass fiber reticular cloth drum sheath is on transverse axis 102, and glass fiber reticular cloth down pulls at reel during work, located roller 103, repave on conveyer belt 31.

As shown in figure 12, the first cloth system 2 is the first distribution device, including the first distribution device frame 201, weighing hopper 202nd, hopper 203, conveying worm 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, First inductive proximity switch 208 and the second inductive proximity switch 209, weighing hopper 202 connect hopper 203, conveying worm 204 1 End connection hopper 203, one end connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed on lightweight charging basket mixer In frame 205,

There are the first inductive proximity switch 208 and the second inductive proximity switch in the both sides of the power transmission shaft of motor 207 respectively 209, the transmission axis connection light material bucket axle of stirrer frame 205 of motor 207, during work, material is through the electronic scale of weighing hopper 202 After metering, hopper 203 is fallen into, conveying worm 204 is transported in lightweight charging basket mixer 206 and stirred, after stirring, Motor 207 starts, and the sensing object 210 before the first inductive proximity switch 208 rotates to the second inductive proximity switch When before 209, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 downwardly turns over, lightweight charging basket mixer 206 On the conveyor belt, then motor 207 starts interior material, when sensing object 210 returns to the first inductive proximity switch When before 208, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 is flipped up, and is so moved in circles.

Or as shown in figure 8, the first distribution device includes mixer 3301, dynamical system and mobile tremie pipe 3302, stir Mix the mobile tremie pipe 3302 of the connection of machine 3301, the mobile tremie pipe 3302 of dynamical system connection;Feed proportioning system will prepare during work Feedstock transportation is to mixer 3301, and after stirring, it is laterally past that dynamical system drives mobile tremie pipe 3302 to do on the conveyor belt Motion (conveying tape motion direction is longitudinal direction) is returned, as conveyer belt moves with uniform velocity, mobile tremie pipe 3302 is equably by slurry Distribution is on the conveyor belt.

Second lapping system 4, the 3rd lapping system 7, the 4th lapping system 9, the 5th lapping system 12 and the first lapping system The structure of system 1 is identical with method of work.

Second cloth system 5, the 3rd cloth system 10 are identical with the structure and method of work of the first cloth system 2.

Embodiment six

As shown in figure 3, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, binder materials induction system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping System 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, 4th lapping system 9, the 4th cloth system the 19, the 4th strike off system 11, the 5th lapping system 12, diced system 15, the first paving Net system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6th, the 3rd lapping system 7, the 3rd cloth system 18, the 3rd strike off system 8, the 4th lapping system 9, the 4th cloth system 19, Four strike off system 11, the 5th lapping system 12, diced system 15, adjacent successively according to same direction, are set on production line support body 17 There is a conveyer belt 21, production line support body 17 and conveyer belt 21 are located at the first lapping system 1, the first cloth system 2, first strike off system 3rd, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd Strike off system 8, the 4th lapping system 9, the 4th cloth system the 19, the 4th and strike off system 11, the lower section of the 5th lapping system 12,

The air-transport system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 18th, the 4th cloth system 19;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

(5) the 4th bonding enhancement layer is done:4th cloth system 19, one layer of supergrip of laying on the 3rd bonding enhancement layer coagulates Material, then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 is in the supergrip gel material struck off On, one layer of enhancing net is re-layed, forms the 4th bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

In present embodiment,

As shown in Fig. 3, Fig. 9, rapid hardening binder materials is transported to flow transfer pump 26, gas by conveying worm from raw material cabin 14 Power conveying device includes flow transfer pump 26, Pneumatic conveying pipeline 15, and flow transfer pump 26 includes material bin 2601, feed pipe 2602nd, blast pipe 2603, compressed air inlet pipe 2604, switch 2605, compressed air make goods fluid material suspended in thing In feed bin 2601, then the switch of Pneumatic conveying pipeline 15 is opened, under the promotion of compressed air, by material along pneumatic carrier Road is transported to the first cloth system 2, the second cloth system 5, the 3rd cloth system 18, the 4th cloth system of each wall scroll production line 19。

As shown in Figure 10, Figure 11, the first lapping system 1 is that the first device for layering includes the first device for layering frame 101, horizontal stroke Axle 102, positioning roller 103, transverse axis 102 and positioning roller 103 are fixed in bottom device for layering frame 101, positioning roller 103 Positioned at the lower section of transverse axis 102, glass fiber reticular cloth drum sheath is on transverse axis 102, and glass fiber reticular cloth down pulls at reel during work, Located roller 103, is repaved on conveyer belt 31.

As shown in figure 12, the first cloth system 2 is the first distribution device, including the first distribution device frame 201, weighing hopper 202nd, hopper 203, conveying worm 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, motor 207, First inductive proximity switch 208 and the second inductive proximity switch 209, weighing hopper 202 connect hopper 203, conveying worm 204 1 End connection hopper 203, one end connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed on lightweight charging basket mixer In frame 205,

There are the first inductive proximity switch 208 and the second inductive proximity switch in the both sides of the power transmission shaft of motor 207 respectively 209, the transmission axis connection light material bucket axle of stirrer frame 205 of motor 207, during work, material is through the electronic scale of weighing hopper 202 After metering, hopper 203 is fallen into, conveying worm 204 is transported in lightweight charging basket mixer 206 and stirred, after stirring, Motor 207 starts, and the sensing object 210 before the first inductive proximity switch 208 rotates to the second inductive proximity switch When before 209, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 downwardly turns over, lightweight charging basket mixer 206 On the conveyor belt, then motor 207 starts interior material, when sensing object 210 returns to the first inductive proximity switch When before 208, motor 207 is stopped, and lightweight charging basket axle of stirrer frame 205 is flipped up, and is so moved in circles.

Or as shown in figure 8, the first distribution device includes mixer 3301, dynamical system and mobile tremie pipe 3302, stir Mix the mobile tremie pipe 3302 of the connection of machine 3301, the mobile tremie pipe 3302 of dynamical system connection;Feed proportioning system will prepare during work Feedstock transportation is to mixer 3301, and after stirring, it is laterally past that dynamical system drives mobile tremie pipe 3302 to do on the conveyor belt Motion (conveying tape motion direction is longitudinal direction) is returned, as conveyer belt moves with uniform velocity, mobile tremie pipe 3302 is equably by slurry Distribution is on the conveyor belt.

Second lapping system 4, the 3rd lapping system 7, the 4th lapping system 9, the 5th lapping system 12 and the first lapping system The structure of system 1 is identical with method of work.

Second cloth system 5, the 3rd cloth system 18, the structure and work of the 4th cloth system 19 and the first cloth system 2 It is identical to make method.

Embodiment seven

As shown in figure 5, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, binder materials induction system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping System 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, 4th lapping system 9, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth Material system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strike off system 8, the 4th lapping system 9th, diced system 15 is adjacent successively according to same direction, and production line support body 17 is provided with conveyer belt, production line support body 17 and conveying Band positioned at the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, Second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, under Side,

The binder materials induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth System 18;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the 3rd bonding enhancement layer is done:3rd cloth system 18, one layer of supergrip of laying on the second bonding enhancement layer coagulates Material, then the 3rd strike off system 8 and strike off supergrip gel material, the 4th lapping system 9 on the supergrip gel material struck off, One layer of enhancing net is re-layed, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

Embodiment eight

As shown in fig. 6, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, binder materials induction system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping System 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7,

First lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5th, second to strike off system 6, the 3rd lapping system 7, diced system 15 adjacent successively according to same direction, is set on production line support body 17 There is a conveyer belt, production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3, Two lapping systems 4, the second cloth system 5, second strike off system 6, the lower section of the 3rd lapping system 7,

The binder materials induction system connection raw material cabin and the first cloth system 2, the second cloth system 5;

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

Above-mentioned first bonding enhancement layer, heat-insulation layer, second are bonded enhancement layer, are fixed together, and form heat preservation dismounting-free formwork.

Embodiment nine

As shown in figure 12, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, binder materials induction system, heat insulation mortar blanking system, the first lapping system 1, the first cloth system 2, first scrape Flat system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8th, the 4th lapping system 9, the 3rd cloth system the 10, the 4th strike off system 11, the 5th lapping system 12, diced system 15, and first Lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off and be The 6, the 3rd lapping system 7 of system, heat insulation mortar blanking system the 28, the 3rd strike off system 8, the 4th lapping system 9, the 3rd cloth system 10th, the 4th to strike off system 11, the 5th lapping system 12, diced system 15 adjacent successively according to same direction, on production line support body Provided with conveyer belt, production line support body and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3, Two lapping systems 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, heat insulation mortar blanking system, the 3rd scraped Flat system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th strike off system 11, the lower section of the 5th lapping system 12,

The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 10.

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the second heat-insulation layer) is done:Heat insulation mortar blanking system 28 lays heat insulation mortar on the second bonding enhancement layer, so The 3rd strike off system 8 afterwards and strike off heat insulation mortar, the 4th lapping system 9 re-lays one layer of enhancing on the heat insulation mortar struck off Net, form the second heat-insulation layer;

(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of supergrip gel material on the second heat-insulation layer, Then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 on the supergrip gel material struck off, then One layer of enhancing net of laying, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

In present embodiment, feed proportioning system is identical with the feed proportioning system in embodiment one.

In present embodiment, the first cloth system 2, the second cloth system 5, the 3rd cloth system 10 are shower nozzle.

As shown in figure 12, induction system includes mixer 16, delivery pump, pipeline 19, and mixer 16 connects delivery pump, conveying Pump connecting pipe 19;The accelerated cement in accelerated cement raw material cabin 14 is transported to mixer 16 by conveying worm during work, is treated After stirring, convey pump startup, by the accelerated cement slurry to stir by pipeline 19 be transported to the first cloth system 2, Second cloth system 5, the 3rd cloth system 10.After conveying, pipeline and shower nozzle are cleaned, Sewage treatment utilizes.Such as Shown in Figure 10, Figure 11, the first lapping system 1 is that the first device for layering includes the first device for layering frame 101, transverse axis 102, positioning Roller 103, transverse axis 102 and positioning roller 103 are fixed in bottom device for layering frame 101, and positioning roller 103 is located at transverse axis 102 lower section, glass fiber reticular cloth drum sheath is on transverse axis 102, and glass fiber reticular cloth down pulls at reel during work, located rolling Wheel 103, is repaved on conveyer belt 31.

Second lapping system 4, the 3rd lapping system 7, the 4th lapping system 9, the 5th lapping system 12 and the first lapping system The structure of system 1 is identical with method of work.

Embodiment ten

As shown in figure 13, a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line bag of the heat preservation dismounting-free formwork Include raw material cabin, binder materials induction system, heat insulation mortar blanking system, the first lapping system 1, the first cloth system 2, first scrape Flat system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8th, the 4th lapping system 9, the 3rd cloth system the 10, the 4th strike off system 11, the 5th lapping system 12, diced system 15, and first Lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off and be The 6, the 3rd lapping system 7 of system, heat insulation mortar blanking system the 28, the 3rd strike off system 8, the 4th lapping system 9, the 3rd cloth system 10th, the 4th to strike off system 11, the 5th lapping system 12, diced system 15 adjacent successively according to same direction, on production line support body Provided with conveyer belt, production line support body and conveyer belt are located at the first lapping system 1, the first cloth system 2, first strike off system 3, Two lapping systems 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, heat insulation mortar blanking system, the 3rd scraped Flat system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th strike off system 11, the lower section of the 5th lapping system 12,

The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 10.

The production method of the production line of the heat preservation dismounting-free formwork comprises the following steps:

(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net, the first cloth system on the conveyor belt Then system 2 first strikes off system 3 and strikes off supergrip gel material in enhancing one layer of supergrip gel material of laying on the net, the second paving Net system 4 re-lays one layer of enhancing net on the supergrip gel material struck off, forms the first bonding enhancement layer;

(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;

(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of supergrip gel material on warming plate, then Second, which strikes off system 6, strikes off supergrip gel material, and the 3rd lapping system 7 re-lays one on the supergrip gel material struck off Layer enhancing net, form the second bonding enhancement layer;

(4) the second heat-insulation layer) is done:Heat insulation mortar blanking system 28 lays heat insulation mortar on the second bonding enhancement layer, so The 3rd strike off system 8 afterwards and strike off heat insulation mortar, the 4th lapping system 9 re-lays one layer of enhancing on the heat insulation mortar struck off Net, form the second heat-insulation layer;

(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of supergrip gel material on the second heat-insulation layer, Then the 4th strike off system 11 and strike off supergrip gel material, the 5th lapping system 12 on the supergrip gel material struck off, then One layer of enhancing net of laying, forms the 3rd bonding enhancement layer;

Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding are strengthened Layer is fixed together, and forms heat preservation dismounting-free formwork.

In present embodiment, feed proportioning system is identical with the feed proportioning system in embodiment one.

In present embodiment, the first cloth system 2, the second cloth system 5, the 3rd cloth system 10 are shower nozzle.

As shown in figure 13, induction system includes proportioner 20, mixer 16, delivery pump, pipeline 19, conveying device one end Proportioner 20, one end connection mixer 16 are connected, mixer 16 connects delivery pump, delivery pump connecting pipe 19;Spiral shell during work Accelerated cement in accelerated cement raw material cabin 14 is transported to proportioner 20 by rotation conveyer, and conveyer is at river sand raw material cabin 21 River sand is transported to proportioner 20, in proportion after dispensing, the material prepared is transported to and stirred proportioner 20 by conveying device Mix machine 16, it is to be mixed uniformly after, convey pump startup, the fast hardening concrete slurry to stir be transported to first by pipeline 19 Cloth system 2, the second cloth system 5, the 3rd cloth system 10, the first cloth system 2, the second cloth system 5, the 3rd cloth system System 10 is shower nozzle, after conveying, pipeline and shower nozzle is cleaned, waste water is recycled.

As shown in Figure 10, Figure 11, the first lapping system 1 is that the first device for layering includes the first device for layering frame 101, horizontal stroke Axle 102, positioning roller 103, transverse axis 102 and positioning roller 103 are fixed in bottom device for layering frame 101, positioning roller 103 Positioned at the lower section of transverse axis 102, glass fiber reticular cloth drum sheath is on transverse axis 102, and glass fiber reticular cloth down pulls at reel during work, Located roller 103, is repaved on conveyer belt 31.

Second lapping system 4, the 3rd lapping system 7, the 4th lapping system 9, the 5th lapping system 12 and the first lapping system The structure of system 1 is identical with method of work.

Claims (23)

1. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, conveying System, heat insulation mortar movement blanking system, stirring system, the production line combined designed according to capacity requirements, production Line is arranged together, and wall scroll production line strikes off system 3, the second lapping including the first lapping system 1, the first cloth system 2, first System 4, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8, the 4th lapping system 9, 3rd cloth system the 10, the 4th strikes off system 11, the 5th lapping system 12, diced system 15, the first lapping system 1, the first cloth Material system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7th, the 3rd system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th are struck off strike off system 11, the 5th lapping system 12, cut It is adjacent successively according to same direction to cut system 15, production line support body 17 is provided with conveyer belt, production line support body 17 and conveyer belt position System 3, the second lapping system 4, the second cloth system 5, second are struck off in the first lapping system 1, the first cloth system 2, first Strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th and strikes off and be The lower section for the 11, the 5th lapping system 12 of uniting;
The stirring system is located at the top of heat insulation mortar movement blanking system 23, to heat insulation mortar movement blanking system feed;
The heat insulation mortar movement blanking system 23 includes frame 2301, track, mobile hopper 2302, dynamical system, frame Across there is track on the top of assembly line, frame, rotating wheel is installed on mobile hopper, rotating wheel is located at track On, dynamical system connection rotating wheel, mobile hopper is fed to the wall scroll production line of combination successively, and discharging opening is located at mobile hopper Bottom;
The first cloth system 2, the second cloth system of the induction system connection raw material cabin and the wall scroll production line combined The 5, the 3rd cloth system 10 of system.
A kind of 2. production method of the production line of heat preservation dismounting-free formwork according to claim 1, it is characterised in that the insulation The production method of the production line of non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
(4) the second heat-insulation layer is done:Feed proportioning system conveys lightweight aggregate, binder materials, additive and water to mixer and stirs into insulation Compound, mobile hopper are run to mixer discharging opening, trigger mixer, to mobile hopper conveying, mixer conveying After end, mobile hopper by setup program, by the driving of dynamical system, is run to above adjacent first conveyer belt, the Heat insulation mortar is laid on two bonding enhancement layers, at the same time, mixer feed paddle by setup program, until completing to stir, is moved Dynamic hopper is returned below mixer discharging opening, triggers mixer to mobile hopper conveying;After mixer conveying terminates, mobile hopper Run to by setup program above adjacent Article 2 conveyer belt, lay heat insulation mortar on the second bonding enhancement layer, follow according to this Ring is reciprocal, completes the blanking of combined production line;After mobile hopper blanking terminates, the wall scroll production line of combination is by setup program Start conveyer belt, then the 3rd strike off system 8 and strike off heat insulation mortar, the 4th lapping system 9 on the heat insulation mortar struck off, then One layer of enhancing net of laying, forms the second heat-insulation layer;
(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of binder materials on the second heat-insulation layer, and then the 4th Strike off system 11 to strike off binder materials, the 5th lapping system 12 re-lays one layer of enhancing net, structure in the binder materials struck off Into the 3rd bonding enhancement layer;
Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding enhancement layer are consolidated It is scheduled on together, forms heat preservation dismounting-free formwork.
3. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, conveying System, the production line combined designed according to capacity requirements, together, wall scroll production line includes first to production-line arrangement Lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off and be System the 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, the 4th cloth system 19, 4th strikes off system 11, the 5th lapping system 12, diced system 15, and the first lapping system 1, the first cloth system 2, first strike off System 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system 18, 3rd, which strikes off system 8, the 4th lapping system 9, the 4th cloth system the 19, the 4th, strikes off system 11, the 5th lapping system 12, cutting System 15, adjacent successively according to same direction, production line support body 17 is provided with conveyer belt 21, production line support body 17 and conveyer belt 21 System 3, the second lapping system 4, the second cloth system 5, are struck off positioned at the first lapping system 1, the first cloth system 2, first Two, which strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd, strikes off system 8, the 4th lapping system 9, the 4th cloth System the 19, the 4th strikes off system 11, the lower section of the 5th lapping system 12;
The first cloth system 2, the second cloth system of the induction system connection raw material cabin and the wall scroll production line combined The 5, the 3rd cloth system 18 of system, the 4th cloth system 19.
A kind of 4. production method of the production line of heat preservation dismounting-free formwork according to claim 3, it is characterised in that the insulation The production method of the production line of non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
(4) the 3rd bonding enhancement layer is done:3rd cloth system 18 lays one layer of binder materials on the second bonding enhancement layer, then 3rd, which strikes off system 8, strikes off binder materials, and the 4th lapping system 9 re-lays one layer of enhancing net in the binder materials struck off, Form the 3rd bonding enhancement layer;
(5) the 4th bonding enhancement layer is done:4th cloth system 19 lays one layer of binder materials on the 3rd bonding enhancement layer, then 4th, which strikes off system 11, strikes off binder materials, and the 5th lapping system 12 re-lays one layer of enhancing in the binder materials struck off Net, form the 4th bonding enhancement layer;
Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding enhancement layer are consolidated It is scheduled on together, forms heat preservation dismounting-free formwork.
5. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, conveying System, the production line combined designed according to capacity requirements, together, wall scroll production line includes first to production-line arrangement Lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off and be System the 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, the first lapping system 1, the One cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping System 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, Ni Zhifu drill system 14, diced system 15, stacking system System is 16 adjacent successively according to same direction, and production line support body 17 is provided with conveyer belt, and production line support body 17 and conveyer belt are located at the One lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second struck off System 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, lower section;
The first cloth system 2, the second cloth system of the induction system connection raw material cabin and the wall scroll production line combined The 5, the 3rd cloth system 18 of system.
A kind of 6. production method of the production line of heat preservation dismounting-free formwork according to claim 5, it is characterised in that the insulation The production method of the production line of non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
(4) the 3rd bonding enhancement layer is done:3rd cloth system 18 lays one layer of binder materials on the second bonding enhancement layer, then 3rd, which strikes off system 8, strikes off binder materials, and the 4th lapping system 9 re-lays one layer of enhancing net in the binder materials struck off, Form the 3rd bonding enhancement layer;
Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding enhancement layer are consolidated It is scheduled on together, forms heat preservation dismounting-free formwork.
7. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, conveying System, the production line combined designed according to capacity requirements, together, wall scroll production line includes first to production-line arrangement Lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off and be Unite the 6, the 3rd lapping system 7, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the Two cloth systems 5, second strike off system 6, the 3rd lapping system 7, Ni Zhifu drill system 14, diced system 15, palletizing system 16 according to Same direction is adjacent successively, and production line support body 17 is provided with conveyer belt, and production line support body 17 and conveyer belt are located at the first lapping system The 1, first cloth system 2 of system, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the The lower section of three lapping systems 7;
The first cloth system 2, the second cloth system of the induction system connection raw material cabin and the wall scroll production line combined System 5.
A kind of 8. production method of the production line of heat preservation dismounting-free formwork according to claim 7, it is characterised in that the insulation The production method of the production line of non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
Above-mentioned first bonding enhancement layer, heat-insulation layer, second are bonded enhancement layer, are fixed together, and form heat preservation dismounting-free formwork.
9. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, conveying System, heat insulation mortar blanking system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4th, the second cloth system 5, second strike off system 6, the 3rd lapping system the 7, the 3rd strikes off system 8, the 4th lapping system the 9, the 3rd Cloth system the 10, the 4th strikes off system 11, the 5th lapping system 12, diced system 15, the first lapping system 1, the first cloth system System 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, protect Warm slurry blanking system, the 3rd strike off system 8, the 4th lapping system 9, the 3rd cloth system the 10, the 4th and strike off system the 11, the 5th Lapping system 12, diced system 15 are adjacent successively according to same direction, and production line support body 17 is provided with conveyer belt, production line support body 17 and conveyer belt be located at the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth Material system 5, second strike off system 6, the 3rd lapping system 7, heat insulation mortar blanking system, the 3rd strike off system 8, the 4th lapping system The 9, the 3rd cloth system the 10, the 4th of system strikes off system 11, the lower section of the 5th lapping system 12;
The first cloth system 2, the second cloth system of the induction system connection raw material cabin and the wall scroll production line combined The 5, the 3rd cloth system 10 of system.
A kind of 10. production method of the production line of heat preservation dismounting-free formwork according to claim 9, it is characterised in that the guarantor The production method of the production line of warm non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) the first heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
(4) the second heat-insulation layer) is done:Heat insulation mortar moves blanking system 13 and lays heat insulation mortar on the second bonding enhancement layer, so The 3rd strike off system 8 afterwards and strike off heat insulation mortar, the 4th lapping system 9 re-lays one layer of enhancing on the heat insulation mortar struck off Net, form the second heat-insulation layer;
(5) the 3rd bonding enhancement layer is done:3rd cloth system 10 lays one layer of binder materials on the second heat-insulation layer, and then the 4th Strike off system 11 to strike off binder materials, the 5th lapping system 12 re-lays one layer of enhancing net, structure in the binder materials struck off Into the 3rd bonding enhancement layer;
Above-mentioned first bonding enhancement layer, the first heat-insulation layer, the second bonding enhancement layer, the second heat-insulation layer, the 3rd bonding enhancement layer are consolidated It is scheduled on together, forms heat preservation dismounting-free formwork.
11. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated Send system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, Second, which strikes off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd, strikes off system 8, the 4th lapping system 9, the 4th cloth Material system the 19, the 4th strikes off system 11, the 5th lapping system 12, diced system 15, the first lapping system 1, the first cloth system 2nd, first system 3, the second lapping system 4 is struck off, the second cloth system 5, second strikes off system 6, the 3rd lapping system the 7, the 3rd Cloth system the 18, the 3rd strikes off system 8, the 4th lapping system 9, the 4th cloth system the 19, the 4th and strikes off system 11, the 5th lapping System 12, diced system 15, adjacent successively according to same direction, production line support body 17 is provided with conveyer belt 21, production line support body 17 and conveyer belt 21 be located at the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, second Cloth system 5, second strike off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd and strike off system 8, the 4th lapping system The 9, the 4th cloth system the 19, the 4th of system strikes off system 11, the lower section of the 5th lapping system 12;
The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 18, the 4th cloth Material system 19.
A kind of 12. production method of the production line of heat preservation dismounting-free formwork according to claim 11, it is characterised in that the guarantor The production method of the production line of warm non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
(4) the 3rd bonding enhancement layer is done:3rd cloth system 18 lays one layer of binder materials on the second bonding enhancement layer, then 3rd, which strikes off system 8, strikes off binder materials, and the 4th lapping system 9 re-lays one layer of enhancing net in the binder materials struck off, Form the 3rd bonding enhancement layer;
(5) the 4th bonding enhancement layer is done:4th cloth system 19 lays one layer of binder materials on the 3rd bonding enhancement layer, then 4th, which strikes off system 11, strikes off binder materials, and the 5th lapping system 12 re-lays one layer of enhancing in the binder materials struck off Net, form the 4th bonding enhancement layer;
Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding enhancement layer are consolidated It is scheduled on together, forms heat preservation dismounting-free formwork.
13. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated Send system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, Second, which strikes off system 6, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd, strikes off system 8, the 4th lapping system 9, the first paving Net system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system 6th, the 3rd lapping system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, diced system 15 according to same Direction is adjacent successively, and production line support body 17 is provided with conveyer belt, production line support body 17 and conveyer belt be located at the first lapping system 1, First cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, second strike off system the 6, the 3rd paving Net system 7, the 3rd cloth system the 18, the 3rd strike off system 8, the 4th lapping system 9, lower section,
The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5, the 3rd cloth system 18.
A kind of 14. production method of the production line of heat preservation dismounting-free formwork according to claim 13, it is characterised in that the guarantor The production method of the production line of warm non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
(4) the 3rd bonding enhancement layer is done:3rd cloth system 18 lays one layer of binder materials on the second bonding enhancement layer, then 3rd, which strikes off system 8, strikes off binder materials, and the 4th lapping system 9 re-lays one layer of enhancing net in the binder materials struck off, Form the 3rd bonding enhancement layer;
Above-mentioned first bonding enhancement layer, heat-insulation layer, the second bonding enhancement layer, the 3rd bonding enhancement layer, the 4th bonding enhancement layer are consolidated It is scheduled on together, forms heat preservation dismounting-free formwork.
15. a kind of production line of heat preservation dismounting-free formwork, it is characterized in that, the production line of the heat preservation dismounting-free formwork includes raw material cabin, defeated Send system, the first lapping system 1, the first cloth system 2, first strike off system 3, the second lapping system 4, the second cloth system 5, Second strikes off system 6, the 3rd lapping system 7, and the first lapping system 1, the first cloth system 2, first strike off the paving of system 3, second Net system 4, the second cloth system 5, second strike off system 6, the 3rd lapping system 7, diced system 15 according to same direction successively Adjacent, production line support body 17 is provided with conveyer belt, and production line support body 17 and conveyer belt are located at the first lapping system 1, the first cloth System 2, first strike off system 3, the second lapping system 4, second cloth system 5, second strike off system 6, the 3rd lapping system 7 Lower section;
The induction system connection raw material cabin and the first cloth system 2, the second cloth system 5.
A kind of 16. production method of the production line of heat preservation dismounting-free formwork according to claim 15, it is characterised in that the guarantor The production method of the production line of warm non-dismantling formwork comprises the following steps:
(1) the first bonding enhancement layer is done:First lapping system 1 lays one layer of enhancing net on the conveyor belt, and the first cloth system 2 exists Enhancing one layer of binder materials of laying on the net, then first strikes off system 3 and strikes off binder materials, the second lapping system 4 is striking off Binder materials on, re-lay one layer enhancing net, form first bonding enhancement layer;
(2) heat-insulation layer is done:Warming plate is laid on the first bonding enhancement layer;
(3) the second bonding enhancement layer is done:Second cloth system 5 lays one layer of binder materials on warming plate, then second strikes off System 6 strikes off binder materials, and the 3rd lapping system 7 re-lays one layer of enhancing net, form second in the binder materials struck off It is bonded enhancement layer;
Above-mentioned first bonding enhancement layer, heat-insulation layer, second are bonded enhancement layer, are fixed together, and form heat preservation dismounting-free formwork.
17. a kind of insulation according to claim 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 or 16 exempts to tear open The production line and production method of template, it is characterized in that, it is provided between the second lapping system 4 and the second cloth system 5 One group of Thickness sensitivity and means for correcting.
18. a kind of insulation according to claim 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 or 16 exempts to tear open The production line and production method of template, it is characterized in that, the conveying belt die formation system is that conveyer belt both sides are provided with rib.
19. a kind of insulation according to claim 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 or 16 exempts to tear open The production line and production method of template, it is characterized in that, the induction system is air-transport system.
20. a kind of insulation according to claim 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 or 16 exempts to tear open The production line and production method of template, it is characterized in that, first cloth system is distribution device, including distribution device frame 201st, weighing hopper 202, hopper 203, conveying worm 204, lightweight charging basket axle of stirrer frame 205, lightweight charging basket mixer 206, Motor 207, the first inductive proximity switch 208 and the second inductive proximity switch 209, weighing hopper 202 connect hopper 203, spiral The one end of conveyer 204 connects hopper 203, and one end connection lightweight charging basket mixer 206, lightweight charging basket mixer 206 is fixed on gently In material bucket axle of stirrer frame 205, there is the first inductive proximity switch 208 and second both sides of the power transmission shaft of motor 207 respectively Inductive proximity switch 209, the transmission axis connection light material bucket axle of stirrer frame 205 of motor 207;Second cloth system or 3rd cloth system or the 4th cloth system are identical with the first cloth system.
21. a kind of insulation according to claim 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 or 16 exempts to tear open The production line and production method of template, it is characterized in that, first cloth system is distribution device, including mixer, dynamical system System and mobile tremie pipe, the mobile tremie pipe of mixer connection, the mobile tremie pipe of dynamical system connection;Or first cloth system Mobile hopper, dynamical system or dynamical system are connected for distribution device, including mixer, dynamical system and mobile hopper, mixer System is connected mobile hopper with transmission mechanism;Second cloth system or the 3rd cloth system or the 4th cloth system and the first cloth Material system is identical.
22. the production line and production method of a kind of heat preservation dismounting-free formwork according to claim 9, it is characterized in that, the guarantor Warm slurry blanking system is heat insulation mortar blanking device, including mixer, and dynamical system and mobile tremie pipe, mixer connection move Dynamic tremie pipe, the mobile tremie pipe of dynamical system connection;Or the heat insulation mortar blanking system is heat insulation mortar blanking device, including Mixer, dynamical system and mobile hopper, the mobile hopper of mixer connection, the mobile hopper of dynamical system connection.
23. a kind of insulation according to claim 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 or 16 exempts to tear open The production line and production method of template, it is characterized in that, the induction system includes mixer, delivery pump, pipeline, mixer connection Delivery pump, delivery pump connecting pipe;Or the induction system includes proportioner, mixer, delivery pump, pipeline, conveying device Connect proportioner and mixer, mixer connection delivery pump, delivery pump connecting pipe;Or the bottom mortar distributor is spray Head;Or the surface layer mortar distributor is shower nozzle.
CN201610523044.1A 2016-06-27 2016-06-27 The production line and production method of a kind of heat preservation dismounting-free formwork CN107538606A (en)

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Publication number Priority date Publication date Assignee Title
CN101138866A (en) * 2007-09-20 2008-03-12 杨玉霞 Compound thermal insulation wall plate and external wall heat-insulation board producing line
CN101524873A (en) * 2009-04-07 2009-09-09 罗国军 Production line of composite fibrous gypsum boards of multifunctional wall body
CN102555052A (en) * 2012-02-03 2012-07-11 张建兴 Production line for self-insulation building blocks
CN202439104U (en) * 2012-02-03 2012-09-19 济南高新开发区七星实业有限公司 Composite heat-preservation board production line
CN103144187A (en) * 2012-12-31 2013-06-12 泰安昆泰长荣新型建材有限公司 Flat die and stand die combined product line for producing wallboard
CN103240800A (en) * 2012-02-03 2013-08-14 济南高新开发区七星实业有限公司 Composite insulation board production line
CN204725628U (en) * 2014-07-01 2015-10-28 乔明云 A kind of concrete composite heat insulation exterior sheathing automated manufacturing machine
CN105064519A (en) * 2015-09-07 2015-11-18 山东莱州金声隆节能建材科技有限公司 Production line and method for heat preservation and structure integrating board
CN205325957U (en) * 2015-10-13 2016-06-22 侯春立 Novel heated board production line

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101138866A (en) * 2007-09-20 2008-03-12 杨玉霞 Compound thermal insulation wall plate and external wall heat-insulation board producing line
CN101524873A (en) * 2009-04-07 2009-09-09 罗国军 Production line of composite fibrous gypsum boards of multifunctional wall body
CN102555052A (en) * 2012-02-03 2012-07-11 张建兴 Production line for self-insulation building blocks
CN202439104U (en) * 2012-02-03 2012-09-19 济南高新开发区七星实业有限公司 Composite heat-preservation board production line
CN103240800A (en) * 2012-02-03 2013-08-14 济南高新开发区七星实业有限公司 Composite insulation board production line
CN103144187A (en) * 2012-12-31 2013-06-12 泰安昆泰长荣新型建材有限公司 Flat die and stand die combined product line for producing wallboard
CN204725628U (en) * 2014-07-01 2015-10-28 乔明云 A kind of concrete composite heat insulation exterior sheathing automated manufacturing machine
CN105064519A (en) * 2015-09-07 2015-11-18 山东莱州金声隆节能建材科技有限公司 Production line and method for heat preservation and structure integrating board
CN205325957U (en) * 2015-10-13 2016-06-22 侯春立 Novel heated board production line

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