CN207390533U - A kind of thin material material homogenizer in heat preservation dismounting-free formwork production process - Google Patents

Abstract

The utility model discloses the thin material material homogenizers in a kind of heat preservation dismounting-free formwork production process, it is characterized in that, with lightweight aggregate, during the heat preservation mixture production heat preservation plate material that accelerated cement constant speed gel gel material, additive and water stir into, it is launched by blanking device onto conveyer belt, because it bonds together in stack, it is difficult to, to its uniform distribution on the conveyor belt, dredge the important equipment that material material homogenizer is uniform distribution device in production process.Solve when the heat preservation mixture on conveyer belt is shakeout in prior art so that it is more that both sides occurs in the heat preservation mixture on conveyer belt, it is intermediate less the problem of.It avoids after heat preservation dismounting-free formwork is caused to be molded, occurs that the both sides of plate are thicker, intermediate relatively thin quality problems.

Description

A kind of thin material material homogenizer in heat preservation dismounting-free formwork production process

Technical field

The utility model is related to building machinery technical field, dredging in more particularly to a kind of heat preservation dismounting-free formwork production process Expect material homogenizer.

Background technology

Heat preservation dismounting-free formwork for building includes insulating layer and sub-surface reinforcement, and insulating layer is protected between sub-surface reinforcement Warm layer is fixed together with sub-surface reinforcement.The layer that wherein sub-surface reinforcement is made of cementitious material together with net gelling Face, insulating layer is plant dry matter, cementitious material is added in a kind of substance in animal skin, lightweight aggregate these three substances or is added Add the level that agent is formed；Or for after two kinds of substances combination in plant dry matter, animal skin, lightweight aggregate these three substances again The level that addition cementitious material or additive are formed；Or it is plant dry matter, animal skin, lightweight aggregate these three substances combination Cementitious material is added afterwards or level that additive is formed.

The heat preservation dismounting-free formwork for building has high-strength light, heat-insulation and heat-preservation, the fire prevention significant advantages such as impervious, be both beam, The construction formwork of the monolithic reinforced concrete structure of the heat bridges such as column, shear wall, floor, roofing part, and be the guarantor of structure heat bridge Warm layer.Heat preservation is combined into one with construction formwork, structure heat bridge part is not required to do insulating layer again.It is the once great of building energy conservation It changes.

Uniform distribution device is the core equipment for producing such heat preservation dismounting-free formwork for building, with the light bone such as glass bead Material, the heat preservation mixture production heat preservation plate material that accelerated cement constant speed gel gel material, plant fiber, additive and water stir into When, it is launched on conveyer belt by blanking device, because it bonds together in stack, is difficult in production process to it on the conveyor belt Uniform distribution,

It is some because there is no uniform distribution device in all kinds of production lines for producing such heat preservation dismounting-free formwork at present, so In practical operation, continuous, the mass automatic production of heat preservation dismounting-free formwork for building can not be realized.Although some production lines have Uniform distribution device, but also there are various problems, it is necessary to do further optimization.It is the important of uniform distribution device to dredge material material homogenizer Equipment.

In patent《A kind of Composite insulation board production line and its technique for processing thermal insulation board》(application number CN201310146969.5 in), the technical solution of proposition has：In heat preservation mixture feeding device and upper strata grid cloth installation aiding device Between, equipped with insulation material lying device, the insulation material lying device includes vibrating motor, spring and guide plate, under the guide plate Portion is arc-shaped towards the heat preservation mixture feeding device, and the guide plate connects the vibrating motor by spring.The device The defects of be：In practical operation, heat insulation mortar in heaps is continuously placed on mold, is moved forwards with conveyer belt, is protected Before warm slurry can get lodged in circularoscillations guide plate more and more, the working time is long, just has substantial amounts of heat insulation mortar and is deposited in Before circularoscillations guide plate, as heat insulation mortar is accumulated more and more, more to a certain degree, circularoscillations guide plate can be flowed or blow over and cover completely, Also conveyer belt can be blocked so that conveyer belt cannot continue to run forward, and production is forced to interrupt.

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

The product of the technical solution is all to do sub-surface reinforcement on the two sides of styrofoam, the product and the art of this patent product There is larger difference, which also is used as the cast-in-place exterior sheathing of building, but is not suitable for doing the cast-in-place of the mild floor of exterior wall insulating Exterior sheathing, interior can not fit up, because being difficult to immovable fixture object in nail insertion styrofoam, finishing object be caused to drop. And styrofoam is easy to aging, easy firing.Because the product and the art of this patent product are not belonging to same class product, therefore production equipment It is also different with production method, just there is no uniform distribution device in the production line.

In patent《Double stiff dough plate polyurethane composite heat-conservation board production lines》(CN201510511250.6) in, technology is special Sign be the invention discloses a kind of double stiff dough plate polyurethane composite heat-conservation board production lines, it is defeated including plate feed mechanism, plate Send mechanism and coating mechanism.The feed mechanism includes top plate feed mechanism and lower plywood feed mechanism, the plate 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 45 °.Effectively It solves during double stiff dough polyurethane composite heat-conservation boards produced, the problem of levels composite plate feeding is difficult, and realizes plate It is continuous transfer operation, drastically increase production problem and come into force efficiency, meanwhile, by coating polyurethane foam material it Before, slab bridge is preheated.It has effectively ensured the reliability of plate compound sticking, has drastically increased double stiff dough lance urethanes and answer The quality of production of thermal insulation board is closed, and its quality is more stablized.

The defects of product of the technical solution, 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, secondly immovable fixture object is difficult in nail insertion polyurethane foaming body, causes to fit up Object drops, therefore is also not suitable for doing the cast-in-place exterior sheathing of the mild floor of exterior wall insulating, and the product that the patented technology produces again- The polyurethane foaming body easy firing being clipped among double stiff dough, fire protecting performance are poor.Therefore the product is produced with the art of this patent Product difference is larger.Same class product is not belonging to, production equipment and production method are also different, just without uniform cloth in the production line Expect device.

In patent《Composite heat-insulating wall plate, exterior insulation board assembly line》In (notification number CN100586686C), skill Art is characterized in, discloses a kind of composite heat-insulating wall plate, exterior insulation board assembly line, which includes passing through Belt Conveying On the sequentially connected automatic pop-up template mechanism of assembly line, 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 assembly line Top position be equipped with stirring blanking mechanism, stirring and arranges net roller press mechanism at least provided with mating two groups at blanking mechanism.

The defects of product of the technical solution, has：1st, the patent is merely able to the thermal insulation board of production and processing individual layer covering surface, no It can adapt to the processing request of covering surface and intermediate insulating layer above and below now.2nd, styrofoam is very soft, is produced according to the technical solution Composite insulation boards, the intensity requirement of the cast-in-place exterior sheathing of building is not achieved, is also not suitable for doing showing for the mild floor of exterior wall insulating Exterior sheathing is poured, interior can not fit up, because being difficult to immovable fixture object in nail insertion styrofoam, finishing object be caused to fall Fall.3rd, styrofoam is easy to aging, easy firing.Therefore the product and the product difference that the art of this patent is produced are larger, are not belonging to same A kind of product, production equipment and production method are also different, just do not have uniform distribution device in the production line.

Our companies are in the patent of invention of application《Uniform distribution device and cloth side in heat preservation dismounting-free formwork production process Method》In, the uniform distribution device and uniform charging method in a kind of heat preservation dismounting-free formwork production process are disclosed, it is characterized in that, The uniform distribution device includes longitudinal material-pulling device and horizontal poking device, and longitudinal material-pulling device and horizontal poking device are located at defeated Band top is sent, is ranked sequentially along running direction of conveyor belt by pusher, material toggling, longitudinal material-pulling device is being produced with horizontal poking device Link operation with conveyer belt in the process, realizes that mixture is continuous, stablizes, uniform distribution.The technical solution is in actual production process Present in one of problem be exactly horizontal poking device traverse repeatedly above conveyer belt, it is difficult to will be on conveyer belt Heat preservation mixture shakeouts, and often so that the heat preservation mixture on conveyer belt occurs, both sides are more, and intermediate less situation causes to protect After warm sheet metal forming, there is the problem of both sides of plate are thicker, and centre is relatively thin.It is that the important of uniform distribution device sets to dredge material material homogenizer It is standby.It solving when the heat preservation mixture on conveyer belt is shakeout so that it is more that both sides occurs in the heat preservation mixture on conveyer belt, in Between it is less the problem of.

Technical problem to be solved in the utility model is：When the heat preservation mixture on conveyer belt is shakeout in solution so that There is the problem of both sides are more, and centre is less in heat preservation mixture on conveyer belt, avoids after heat preservation dismounting-free formwork is caused to be molded, goes out The both sides of existing plate are thicker, intermediate relatively thin quality problems.

The content of the invention

In view of the above-mentioned problems, the technical scheme adopted by the utility model is that：

Scheme one

1st, the thin material material homogenizer in a kind of heat preservation dismounting-free formwork production process, it is characterized in that, roller 201 is mounted on conveyer belt 3 top, there is rack or protruded object on the roller 201, and 201 top of roller is equipped with material scraping plate 105, the material scraping plate There is gap on 105, dynamical system 202 drives the roller 201 to rotate during work, when the conveyer belt 3 carries heat preservation mixture When running at the roller 201, the rack on the roller 201 or protruded object that are rotating are by the guarantor on the conveyer belt 3 Warm mixture is broken up, is loose, and the rack or protruded object on the subsequent roller 201 are worn from the gap on the material scraping plate 105 It crosses, the material scraping plate 105 wipes the heat preservation mixture being bonded on the rack or protruded object of the roller 201 and roller off, so The roller 201 will be rolled into identical thickness by heat preservation mixture below afterwards.

2nd, the rack is cylindrical or cone or strip；The protruded object is ball-point pen type.

Scheme two

1st, the thin material material homogenizer in a kind of heat preservation dismounting-free formwork production process, it is characterized in that, second tin roller 201 is mounted on defeated The top of band 3 is sent, has rack on the second tin roller 201,201 top of second tin roller is equipped with material scraping plate 105, described to scrape There is gap on flitch 105.The height adjustment device includes bearing block 207, screw 209, nut 208, graduated scale 205, pointer 206, the axis at the both ends of the second tin roller 201 is fixed on 207 the inside of bearing block, and bearing block 207 passes through screw 209 and nut 208 are fixed below stent 210, and graduated scale 205 is fixed on the bracket 210, and pointer 206 is fixed on bearing block 207.

During work, according to the thickness requirement of heat preservation dismounting-free formwork, the vertical range of second tin roller 201 and conveyer belt 3 is determined, First rotating nuts 208 as nut 208 is moved up and down in screw 209, drive bearing block 207 to move up and down, until bearing block Pointer 206 on 207 is directed toward the numerical value set on graduated scale 205.Then the conveyer belt 3 carries heat preservation mixture and transports forward It is dynamic, while second dynamical system 202 drives the second tin roller 201 to rotate, when the conveyer belt 3 carries heat preservation mixture When running at the second tin roller 201, the rack on the second tin roller 201 that is rotating is by the guarantor on the conveyer belt 3 Warm mixture is broken up, is loose, and the rack on the subsequent second tin roller 201 is passed through from the gap on the material scraping plate 105, institute It states material scraping plate 105 to wipe the heat preservation mixture being bonded on the rack of the second tin roller 201 and roller off, then described second Roller 201 will be rolled into identical thickness by heat preservation mixture below.

2nd, the rack is cylindrical or cone or strip；The protruded object is ball-point pen type.

The utility model has the technical effect that：It solves when the heat preservation mixture on conveyer belt is shakeout so that conveyer belt On heat preservation mixture both sides occur more, it is intermediate less the problem of, avoid after heat preservation dismounting-free formwork is caused to be molded, plate occur Both sides it is thicker, intermediate relatively thin quality problems..

Description of the drawings

Fig. 1 is the main view of uniform blanking machine 1 and thin material 2 combining structure of material homogenizer in a kind of heat preservation dismounting-free formwork production process Figure

Fig. 2 is the uniformly side view of blanking machine 1 and thin material 2 combining structure of material homogenizer in a kind of heat preservation dismounting-free formwork production process Figure

Fig. 3 is that uniform blanking machine 1 expects bowing for 2 combining structure of material homogenizer with thin in a kind of heat preservation dismounting-free formwork production process View

Fig. 4 is to dredge the top view that material material homogenizer is combined with the second striker plate of transverse movement

Fig. 5 is to dredge the front view that material material homogenizer is combined with the second striker plate of transverse movement

Fig. 6 is to dredge the side view that material material homogenizer is combined with the second striker plate of transverse movement

Fig. 7 is the combination assumption diagram of uniform blanking machine 1 and thin material material homogenizer 2 in a kind of heat preservation dismounting-free formwork production process

Fig. 8 is the structure diagram for dredging material material homogenizer

Fig. 9 is the exemplary application map that material material homogenizer is dredged in embodiment one on the production line of heat preservation dismounting-free formwork for building

Figure 10 is the side view of bottom device for layering

Figure 11 is the structure diagram of bottom device for layering

Figure 12 is the structure diagram of bottom mortar distributor

Figure 13 is the structure diagram of vibrating forming machine

Figure 14 is that one group of striker plate 4 in a kind of heat preservation dismounting-free formwork production process expects 2 combining structure of material homogenizer with dredging Schematic diagram

Figure 15 is the application example that material material homogenizer is dredged in embodiment two on the production line of heat preservation dismounting-free formwork for building Figure

Specific embodiment

Embodiment one

As shown in Figure 1, Figure 2, Figure 3 shows, uniform blanking machine 1, thin material material homogenizer 2 are arranged in order by running direction of conveyor belt, The uniform blanking machine 1 and the thin material material homogenizer 2 are all located at 3 top of conveyer belt, and the uniform blanking machine 1 includes hopper 101st, the first roller 102, the first dynamical system 103, first roller 102 are located at the lower section of the hopper 101, the hopper 101 bottom cover is on first roller 102, the gap between the bottom of the hopper 101 and first roller 102 For feed opening 104, the bottom of the hopper 101 is equipped with material scraping plate 105, there is gap, first rolling on the material scraping plate 105 There are rack or protruded object on cylinder 102, first dynamical system 103 connects first roller 102；The thin material material homogenizer 2 Including 201 and second dynamical system 202 of second tin roller, the second tin roller 201 is located at the top of the conveyer belt 3, and described There are rack or protruded object on two rollers 201,201 top of second tin roller is equipped with material scraping plate 105, on the material scraping plate 105 There is gap.

During work, heat preservation mixture is sent into the hopper 101, first roller 102 is in first dynamical system It is rotated under the drive of system 103, the rack or protruded object on first roller 102 will be at the feed openings 104 of the hopper 101 Heat preservation mixture is scraped on the conveyer belt 3, and the rack or protruded object on subsequent first roller 102 are from the material scraping plate Gap on 105 passes through, and the material scraping plate 105 will be bonded on the rack or protruded object of first roller 102 and roller Heat preservation mixture wipe off, the conveyer belt 3 carries heat preservation mixture and travels forward, while 202 band of the second dynamical system The second tin roller 201 is moved to rotate, when the conveyer belt 3, which carries heat preservation mixture, to be run at the second tin roller 201, rotation Heat preservation mixture on the conveyer belt 3 is broken up, is loose by the rack on the second tin roller 201 or protruded object turned, with The rack on the second tin roller 201 or protruded object are passed through from the gap on the material scraping plate 105 afterwards, the material scraping plate 105 The heat preservation mixture being bonded on the rack or protruded object of the second tin roller 201 and roller is wiped off, then second rolling Cylinder 201 will be rolled into identical thickness by heat preservation mixture below.

Embodiment 1

As shown in Figure 1, Figure 2, Figure 3 shows, uniform blanking machine 1, thin material material homogenizer 2 are arranged in order by running direction of conveyor belt, The uniform blanking machine 1 and the thin material material homogenizer 2 are all located at 3 top of conveyer belt, and the uniform blanking machine 1 includes hopper 101st, the first roller 102, the first dynamical system 103, first roller 102 are located at the lower section of the hopper 101, the hopper 101 bottom cover is on first roller 102, the gap between the bottom of the hopper 101 and first roller 102 For feed opening 104, the bottom of the hopper 101 is equipped with material scraping plate 105, there is gap, first rolling on the material scraping plate 105 There is rack on cylinder 102, first dynamical system 103 connects first roller 102；The thin material material homogenizer 2 includes second 201 and second dynamical system 202 of roller, the second tin roller 201 are located at the top of the conveyer belt 3, the second tin roller 201 On have a rack, 201 top of second tin roller is equipped with material scraping plate 105, has gap on the material scraping plate 105.

During work, heat preservation mixture is sent into the hopper 101, first roller 102 is in first dynamical system It is rotated under the drive of system 103, the rack on first roller 102 mixes the heat preservation at the feed opening 104 of the hopper 101 Material is scraped on the conveyer belt 3, and the rack on subsequent first roller 102 is worn from the gap on the material scraping plate 105 It crosses, the material scraping plate 105 wipes the heat preservation mixture being bonded on the rack of first roller 102 and roller off, described defeated Band 3 is sent to carry heat preservation mixture to travel forward, while second dynamical system 202 drives the second tin roller 201 to rotate, when The conveyer belt 3 carries heat preservation mixture when running at the second tin roller 201, on the second tin roller 201 being rotating Rack the heat preservation mixture on the conveyer belt 3 is broken up, is loose, the rack on the subsequent second tin roller 201 is from described Gap on material scraping plate 105 passes through, and the material scraping plate 105 will be bonded on the rack of the second tin roller 201 and roller Heat preservation mixture is wiped off, and then the second tin roller 201 will be rolled into identical thickness by heat preservation mixture below.

First dynamical system 103 described in the present embodiment, second dynamical system 202 are motor.

Embodiment 2

As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, by uniform blanking machine 1, dredge and expect that material homogenizer 2 presses conveyer belt fortune Line direction is arranged in order, and the uniform blanking machine 1 and the thin material material homogenizer 2 are all located at 3 top of conveyer belt, described uniform Blanking machine 1 includes hopper 101, the first roller 102, the first dynamical system 103, and first roller 102 is located at the hopper 101 Lower section, the bottom cover of the hopper 101 is on first roller 102, the bottom of the hopper 101 and first roller Gap between 102 is feed opening 104, and the bottom of the hopper 101 is equipped with material scraping plate 105, has on the material scraping plate 105 There is rack in gap on first roller 102, and first dynamical system 103 connects first roller 102；The thin material Material homogenizer 2 includes 201 and second dynamical system 202 of second tin roller, and the second tin roller 201 is located at the top of the conveyer belt 3, There is rack on the second tin roller 201,201 top of second tin roller is equipped with material scraping plate 105, has on the material scraping plate 105 Gap.The height adjustment device include bearing block 207, screw 209, nut 208, graduated scale 205, pointer 206, described second The axis at the both ends of roller 201 is fixed on 207 the inside of bearing block, and bearing block 207 is fixed on stent by screw 209 and nut 208 Below 210, graduated scale 205 is fixed on the bracket 210, and pointer 206 is fixed on bearing block 207.After the thin material material homogenizer 2 There is the second striker plate 16 of transverse movement in face.

During work, according to the thickness requirement of heat preservation dismounting-free formwork, the vertical range of second tin roller 201 and conveyer belt 3 is determined, First rotating nuts 208 as nut 208 is moved up and down in screw 209, drive bearing block 207 to move up and down, until bearing block Pointer 206 on 207 is directed toward the numerical value set on graduated scale 205.Then heat preservation mixture is sent into the hopper 101, institute It states the first roller 102 to rotate under the drive of first dynamical system 103, the rack on first roller 102 is by described in Heat preservation mixture at the feed opening 104 of hopper 101 is scraped on the conveyer belt 3, the tooth on subsequent first roller 102 Item is passed through from the gap on the material scraping plate 105, and the material scraping plate 105 will be bonded in first roller 102 and roller Heat preservation mixture on rack is wiped off, and the conveyer belt 3 carries heat preservation mixture and travels forward, while second dynamical system 202 drive the second tin roller 201 to rotate, and are run to when the conveyer belt 3 carries heat preservation mixture at the second tin roller 201 When, the heat preservation mixture on the conveyer belt 3 is broken up, is loose by the rack on the second tin roller 201 being rotating, subsequent institute The rack stated on second tin roller 201 is passed through from the gap on the material scraping plate 105, and the material scraping plate 105 will be bonded in described Heat preservation mixture on the rack of second tin roller 201 and roller is wiped off, and then the second tin roller 201 will pass through guarantor below Warm mixture is rolled into identical thickness.Then motor 1601 starts, and passes through the gearing of toggle 1602, band Dynamic second striker plate 16 does traverse, the second backgauge of traverse along slide bar 1603 above conveyer belt 3 Plate 16 rubs repeatedly with heat preservation mixture and rubbing, and heat preservation mixture is further laterally shakeout.

This dredges material and application example of the homogenizing device on the production line of heat preservation dismounting-free formwork for building：

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, after feed proportioning system completes dispensing, conveying is passed through Device conveys lightweight aggregate to the mixer 13 of heat insulation mortar blanking device, and accelerated cement, additive and water stir into heat preservation mixing Material, to 101 conveying of hopper of uniform blanking machine 1, then conveyer belt 3 starts, and bottom device for layering 6 first completes bottom laying grid Cloth, the cloth on grid cloth of bottom mortar distributor 7 are starched, and the first scraping device 29 strikes off it on grid cloth, then uniform blanking Machine 1 is dredged and expects that material homogenizer 2 starts, and first roller 102 rotates under the drive of first dynamical system 103, and described first Rack on roller 102 scrapes the heat preservation mixture at the feed opening 104 of the hopper 101 on the conveyer belt 3, then Rack on first roller 102 is passed through from the gap on the material scraping plate 105, and the material scraping plate 105 will be bonded in institute The heat preservation mixture stated on the rack of the first roller 102 and roller is wiped off, and the conveyer belt 3 carries heat preservation mixture and transports forward It is dynamic, while second dynamical system 202 drives the second tin roller 201 to rotate, when the conveyer belt 3 carries heat preservation mixture When running at the second tin roller 201, the rack on the second tin roller 201 that is rotating is by the guarantor on the conveyer belt 3 Warm mixture is broken up, is loose, and the rack on the subsequent second tin roller 201 is passed through from the gap on the material scraping plate 105, institute It states material scraping plate 105 to wipe the heat preservation mixture being bonded on the rack of the second tin roller 201 and roller off, then described second Roller 201 will be rolled into identical thickness by heat preservation mixture below.Second striker plate 16 does horizontal stroke above conveyer belt 3 It to back and forth movement, rubs repeatedly with heat preservation mixture and rubbing, heat preservation mixture is further laterally shakeout.

Back layer device for layering 8 be laid with surface layer grid cloth, by the vibration of vibrating forming machine 9, exempt from the heat preservation of production Form removal sheet metal forming, structure is more closely knit, then the accelerated cement cloth on the surface of heat preservation dismounting-free formwork of surface layer mortar distributor 10 Slurry, the second scraping device 30 strike off cement slurry, increase the intensity on heat preservation dismounting-free formwork surface, enter back into heating and heat-insulating device 11 are conserved, and heat preservation dismounting-free formwork on the conveyor belt run by side, and side maintenance, drilling machine 12 exempts from form removal to heat preservation after maintenance Plate punches, and is then cut by cutting machine 14, is finally sent to code heap at piler 15.

In this application example,

As shown in Figure 10, Figure 11, bottom device for layering 6 includes bottom device for layering rack 601, transverse axis 602, positioning roller 603, transverse axis 602 and positioning roller 603 are fixed in bottom device for layering rack 601, and positioning roller 603 is located at transverse axis 602 Lower section, glass fiber reticular cloth drum sheath is on transverse axis 602, and glass fiber reticular cloth pulls down at reel during work, located idler wheel 603, it repaves on the conveyor belt.

As shown in figure 12, bottom mortar distributor 7 include bottom mortar distributor rack 701, weighing hopper 702, lower hopper 703, Screw conveyor 704, lightweight charging basket axle of stirrer frame 705, lightweight charging basket mixer 706, the sensing of motor 707, first are close 708 and second inductive proximity switch 709 of switch, weighing hopper 702 connect lower hopper 703, the connection blanking of 704 one end of screw conveyor Bucket 703, one end connection lightweight charging basket mixer 706, lightweight charging basket mixer 706 is fixed on lightweight charging basket axle of stirrer frame 705 Interior, there are the first inductive proximity switch 708 and the second inductive proximity switch 709 in the both sides of the transmission shaft of motor 707 respectively, electronic The transmission axis connection light material bucket axle of stirrer frame 705 of machine 707, during work, material after the metering of 702 electronic scale of weighing hopper, Lower hopper 703 is fallen into, screw conveyor 704 is transported to stirring in lightweight charging basket mixer 706, electronic after stirring Machine 707 starts, when the sensing object 710 of 708 front of the first inductive proximity switch rotates to the second inductive proximity switch 709 During front, motor 707 is stopped, and lightweight charging basket axle of stirrer frame 705 downwardly turns over, in lightweight charging basket mixer 706 On the conveyor belt, then motor 707 starts material, when sensing object 710 returns to the first inductive proximity switch 708 During front, motor 707 is stopped, and lightweight charging basket axle of stirrer frame 705 is flipped up, and is so moved in circles.

As shown in figure 13, vibrating forming machine includes tablet 901, electric block 902, vibrating motor 903, spring 904, positioning Object 905, pedestal, electric block 902 connect tablet 901, and vibrating motor 903 is mounted on tablet 901, tablet 901 and pedestal Between be equipped with spring and positioning object.During work, tablet 901 and vibrating motor 903 are hung in program setting by electric block 902 Highly, when equally distributed heat preservation mixture passes through, vibrating motor 903 and tablet 901 are placed on by electric block 902 uniformly to be divided Above the heat preservation mixture of cloth, vibrating motor 903 starts, and by vibrating and positioning the positioning of object 905, makes heat preservation dismounting-free formwork Shaping and thickness are consistent.

The surface layer device for layering 8 is identical with the structure and method of work of bottom device for layering 6.

The surface layer mortar distributor 10 is identical with the structure and method of work of bottom mortar distributor 7.

First dynamical system 103, second dynamical system 202 are motor.

First scraping device 29, the second scraping device 30 are scraper plate.

Embodiment two

As shown in Fig. 4, Fig. 5, Fig. 6, Figure 14, by one group of striker plate 4, dredge and expect material homogenizer 2 by running direction of conveyor belt successively Arrangement, one group of striker plate 4 and the thin material material homogenizer 2 are all located at the top of the conveyer belt 3, one group of striker plate 4 It is made of three pieces of different striker plates of height, and three pieces of different striker plates of height are all fixed on stent, institute It states to dredge and expects that material homogenizer 2 includes 201 and second dynamical system 202 of second tin roller, the second tin roller 201 is located at the conveyer belt 3 Top, have rack on the second tin roller 201,201 top of second tin roller is equipped with material scraping plate 105, the material scraping plate There is gap on 105.The thin material material homogenizer 2 has the second striker plate 16 of transverse movement below.

During work, after heat preservation mixture in heaps is fallen on the conveyer belt 3, the conveyer belt 3 carries heat preservation mixture It travels forward, when the conveyer belt 3 carries heat preservation mixture in heaps by one group of striker plate 4, one group of striker plate 4 It is scabbled from different height by heat preservation mixture in heaps, the subsequent conveyer belt 3 carries heat preservation mixture and continues to run with, while institute Stating the second dynamical system 202 drives the second tin roller 201 to rotate, and institute is run to when the conveyer belt 3 carries heat preservation mixture When stating at second tin roller 201, the rack on the second tin roller 201 that is rotating breaks up the heat preservation mixture on conveyer belt, Loose, the rack on the subsequent second tin roller 201 is passed through from the gap on the material scraping plate 105, and the material scraping plate 105 will The heat preservation mixture being bonded on the rack of the second tin roller 201 and roller is wiped off, and then the second tin roller 201 will pass through Heat preservation mixture below is rolled into identical thickness.

Then motor 1601 starts, and by the gearing of toggle 1602, drives 16 edge of the second striker plate It slide bar 1603 and traverse, the second striker plate 16 and the heat preservation mixture of traverse is done above conveyer belt 3 Friction and rubbing repeatedly further laterally shakeout heat preservation mixture.

This dredges material and application example of the homogenizing device on the production line of heat preservation dismounting-free formwork for building：

As shown in Fig. 4, Fig. 5, Fig. 6, Figure 14, Figure 15, after feed proportioning system completes dispensing, by conveying device to heat insulation mortar The mixer 13 of blanking device conveys lightweight aggregate, and accelerated cement, additive and water stir into heat preservation mixture, to lower hopper 32 Conveying, then conveyer belt 3 start, bottom device for layering 6 first complete bottom be laid with grid cloth, bottom mortar distributor 7 is in grid cloth Upper cloth slurry, the first scraping device 29 strikes off it on grid cloth, after heat preservation mixture in heaps is fallen on the conveyer belt 3, Uniform blanking machine 1 is dredged and expects that material homogenizer 2 starts, and the conveyer belt 3 carries heat preservation mixture and travels forward, when the conveyer belt 3 carries When heat preservation mixture in heaps by one group of striker plate 4, one group of striker plate 4 mixes heat preservation in heaps from different height It closes material to scabble, the subsequent conveyer belt 3 carries heat preservation mixture and continues to run with, while second dynamical system 202 drives institute It states second tin roller 201 to rotate, when the conveyer belt 3, which carries heat preservation mixture, to be run at the second tin roller 201, be rotating The second tin roller 201 on rack the heat preservation mixture on conveyer belt is broken up, is loose, the subsequent second tin roller 201 On rack passed through from the gap on the material scraping plate 105, the material scraping plate 105 will be bonded in 201 He of second tin roller Heat preservation mixture on the rack of roller is wiped off, and then the second tin roller 201 will be rolled by heat preservation mixture below Into identical thickness.Then motor 1601 starts, and by the gearing of toggle 1602, drives the second striker plate 16 do traverse along slide bar 1603 above conveyer belt 3, and the second striker plate 16 of traverse and heat preservation are mixed Material friction and rubbing repeatedly are closed, heat preservation mixture is further laterally shakeout.

Back layer device for layering 8 be laid with surface layer grid cloth, by the vibration of vibrating forming machine 9, exempt from the heat preservation of production Form removal sheet metal forming, structure is more closely knit, then the accelerated cement cloth on the surface of heat preservation dismounting-free formwork of surface layer mortar distributor 10 Slurry, the second scraping device 30 strike off cement slurry, increase the intensity on heat preservation dismounting-free formwork surface, enter back into heating and heat-insulating device 11 are conserved, and heat preservation dismounting-free formwork on the conveyor belt run by side, and side maintenance, drilling machine 12 exempts from form removal to heat preservation after maintenance Plate punches, and is then cut by cutting machine 14, is finally sent to code heap at piler 15.

In present embodiment, bottom device for layering 6, bottom mortar distributor 7, surface layer device for layering 8, vibrating forming machine 9, face Layer mortar distributor 10, the second dynamical system are identical with the structure of equipment, working method in specific embodiment one.

Claims (3)

1. the thin material material homogenizer in a kind of heat preservation dismounting-free formwork production process, it is characterized in that, roller (201) is mounted on conveyer belt (3) top has rack or protruded object on the roller (201), material scraping plate (105), institute is equipped with above the roller (201) Stating on material scraping plate (105) has gap.

2. the thin material material homogenizer in a kind of heat preservation dismounting-free formwork production process, it is characterized in that, second tin roller (201) is mounted on conveying The top of band (3) has rack on the second tin roller (201), material scraping plate (105) is equipped with above the second tin roller (201), There is gap on the material scraping plate (105), height adjustment device includes bearing block (207), screw (209), nut (208), scale Ruler (205), pointer (206), the axis at the both ends of the second tin roller (201) are fixed on inside bearing block (207), bearing block (207) it is fixed on by screw (209) and nut (208) below stent (210), graduated scale (205) is fixed on stent (210) On, pointer (206) is fixed on bearing block (207).

3. the thin material material homogenizer in a kind of heat preservation dismounting-free formwork production process according to claim 1 or 2, it is characterized in that, The rack is cylindrical or cone or strip；The protruded object is ball-point pen type.