CN115091606A

CN115091606A - Assembled building wall mould and prefab

Info

Publication number: CN115091606A
Application number: CN202210706987.3A
Authority: CN
Inventors: 李双霞
Original assignee: Jinan Tongjiang Architectural Design Co ltd
Current assignee: Jinan Tongjiang Architectural Design Co ltd
Priority date: 2022-06-21
Filing date: 2022-06-21
Publication date: 2022-09-23
Anticipated expiration: 2042-06-21
Also published as: CN115091606B

Abstract

The invention provides an assembled building wall mold and a prefabricated member, belongs to the technical field of building walls, and solves the problems of low preparation efficiency, poor forming effect and the like of building walls. Including adjusting platform and vibration platform, the top of adjusting platform is equipped with the cam and separates the part, the upper end middle part that the part was separated to the cam is equipped with the mixer, the upper end outside that the part was separated to the cam is equipped with the subassembly that vibrates in proper order, the water tank, annotate material pump and spraying subassembly, the top of adjusting platform is equipped with the cam and separates the subassembly, the top middle part that the subassembly was separated to the cam is equipped with hot-blast subassembly, the top outside that the subassembly was separated to the cam is equipped with a plurality of first amalgamation moulds and the second amalgamation mould of circumference equipartition in proper order, amalgamation mould mechanism is constituteed with two second amalgamation moulds of corresponding position to two first amalgamation moulds, the below that the subassembly was separated to the cam is equipped with the lift placement machine of a plurality of circumference equipartitions. The invention realizes the stable clamping of the mould box and can meet the requirement of the efficient and stable preparation of wall prefabricated parts with different shapes.

Description

Assembled building wall mould and prefab

Technical Field

The invention belongs to the technical field of building walls, relates to an assembled building wall, and particularly relates to an assembled building wall prefabricated member.

Background

The building assembled from prefabricated parts at the construction site is called a fabricated building. The prefabricated parts are divided into five types, namely block building, plate building, box building, skeleton plate building and rising-rise building according to the form and construction method, and with the development of modern industrial technology, the built house can be manufactured in batches like machine production. The prefabricated house components are transported to a construction site to be assembled.

The fabricated building has high construction speed and low production cost, and is rapidly popularized and developed all over the world. However, the existing environment-friendly assembly type building wall needs to be provided with a rough frame during assembly and then is provided with a wall, the installation process is complex, the support stability after installation is not perfect, and the installation speed is slow; therefore, the existing requirements are not met, and an environment-friendly assembly type building wall is provided for the requirements.

The prefabricated wall body of assembled adopts the bracing to fix when hoist and mount and take one's place to the straightness that hangs down of wall body is guaranteed through the length of adjustment bracing. After the wall body assembly is finished, after the strength of post-cast concrete or grouting material between the prefabricated components reaches the designed strength, the inclined strut of the wall body is detached, and the assembled prefabricated wall body needs to be placed in an inclined leaning manner in the transportation process, so that the inclined plane supporting device can be used.

The existing fabricated building wall is designed and shaped well, and is cut according to different requirements in actual use, so that waste is caused, and the use requirement cannot be met.

Through retrieval, as the chinese patent document discloses a prefabricated building wall door and window reserved opening supporting die [ application number: CN 202122163405.5; publication No.: CN216000893U ]. This kind of support mould is including supporting reinforcement and the crossbeam eyelidretractor in the window position, the outside of reinforcement is assembled there is the angle eyelidretractor, the inboard of angle eyelidretractor is equipped with mends the position device, this utility model has set up one kind and has mainly regarded as the support mould and the auxiliary stay utensil of assembled building wall window design, when using, through hydraulic stem and supporting hydraulic press structure, drive the flexible of hydraulic stem, support the laminating in the inboard of assembled building wall body with the mould board of window position, the haulage equipment transport commonly used in the use factory building, though this support mould easy operation, it is convenient to support and dismantle, but can not satisfy the high-efficient stable preparation of wall body prefab of different shapes.

Based on the above, the assembled building wall mold and the prefabricated member are provided, and the cam separation part is matched with the first supporting leg wheel, so that the cam separation part drives the vibration assembly, the stirrer, the water tank, the material injection pump and the spraying assembly to stably and intermittently rotate, and the demolding oil spraying, the cement mixture pouring, the cement mixture vibrating and the spraying cleaning are sequentially carried out on the vibration assembly; the cam separation component drives the lifting placement mechanism, the first splicing mold, the second splicing mold, the wind scooper and the hot air component to stably and intermittently rotate through the matching of the second supporting leg wheel and the cam separation component; the first splicing die, the second splicing die and the limiting block are matched, so that the die box is stably clamped, and the preparation of wall prefabricated parts in different shapes can be met; the mould box filled with the cement mixture is heated by hot air through the matching of the air guide cover and the hot air assembly, and is dried to a certain degree; through the cooperation of the lifting placement mechanism and the discharging landslide, the mould box filled with the cement mixture is quickly pushed up and slides out, and the operation is simple and convenient.

The prefab body adopts cement mixture to pour and forms on steel framework, and intensity is high, according to the shape of prefab body, selects a plurality of stoppers to place inside amalgamation mould mechanism, forms draw-in groove and card protruding, and the protruding block cooperation of card of draw-in groove and another prefab body for install the wall body prefab fast.

Disclosure of Invention

The invention aims to solve the problems in the prior art, provides an assembly type building wall mold and a prefabricated member, and aims to solve the technical problems that: how to realize the high-efficient stable preparation of wall body prefab of different shapes, guarantee the intensity and the effective rapid Assembly of wall body prefab simultaneously.

The purpose of the invention can be realized by the following technical scheme:

an assembly type building wall body die comprises an adjusting platform and a vibrating platform, wherein a cam separating part is arranged above the adjusting platform, a stirrer is arranged in the middle of the upper end of the cam separating part, a vibrating component, a water tank, an injection pump and a spraying component are sequentially arranged outside the upper end of the cam separating part, a plurality of first supporting leg wheels which are uniformly distributed in the circumference are arranged on the lower side of the cam separating part, a cam separating component is arranged above the adjusting platform, a hot air component is arranged in the middle of the upper part of the cam separating component, a plurality of first splicing dies and second splicing dies which are uniformly distributed in the circumference are sequentially arranged outside the upper part of the cam separating component, a splicing die mechanism is formed by the two first splicing dies and the two second splicing dies which correspond to the positions of the two first splicing dies, a plurality of lifting and placing mechanisms which are uniformly distributed in the circumference are arranged below the cam separating component, and the lifting and placing mechanisms correspond to the positions of the splicing die mechanism, the lower side of the cam separation component is provided with a plurality of second supporting leg wheels which are uniformly distributed on the circumference.

The working principle of the invention is as follows: according to the shape of a wall prefabricated part, selecting a proper mold box, placing a limiting block above a plurality of lifting placement mechanisms and inside an assembled mold mechanism, clamping the limiting block by the assembled mold mechanism to form a clamping groove and a clamping protrusion, placing the mold box above one lifting placement mechanism and inside the assembled mold mechanism, matching the limiting block with the assembled mold mechanism to prevent the mold box from shaking, placing a steel bar framework inside the mold box, rotating a cam separation component by 90 degrees to drive the lifting placement mechanism provided with the steel bar framework to be placed below a cam separation component, spraying demolding oil to the interior of the mold box by a spraying component, rotating the cam separation component by 90 degrees, and facing an injection pump to the assembled mold mechanism; the stirring machine stirs and mixes the mixture such as cement, etc., to obtain the mixed cement, then inject the mixed cement into the mould case through the material injection pump, vibrate the terrace at the same time, the cam separation part rotates 90 degrees again, the vibration assembly descends and inserts into the mixed cement inside the mould case, vibrate, then the cam separation part rotates 90 degrees again, the spraying assembly is right opposite to the splicing mould mechanism, the water tank sprays water to wash the part of the vibration assembly, avoid solidifying; the cam separating assembly rotates 90 degrees again, the steel bar framework is placed inside the next mold box, demolding oil spraying, pouring and vibrating are carried out, the hot air assembly generates hot air, hot air drying is carried out on the vibrated wall prefabricated member, the cam separating assembly rotates 90 degrees again, after the wall prefabricated member is basically dried, the first splicing mold and the second splicing mold are unfolded, the lifting and placing mechanism lifts up the mold box, the mold box filled with mixed cement slides out, the wall prefabricated member is taken out after standing, and then the next mold box is placed.

The part is separated to the cam includes the cam divider, the cam divider is fixed in the regulation platform top, the cam divider top is equipped with the rotor plate, first supporting leg wheel is fixed in the below of rotor plate, the mouth of dodging has been seted up on the rotor plate, the subassembly that vibrates is including the support that vibrates, the support that vibrates is fixed in the rotor plate top, the support upper end that vibrates is fixed with elevator motor, it is equipped with the lift lead screw to vibrate to rotate on the support, elevator motor's output shaft and lift lead screw fixed connection, it is equipped with the lift seat to vibrate to slide on the support, the lift seat is connected with the lift lead screw transmission, the front side of lift seat is fixed with the fixed plate, the fixed plate top is equipped with a plurality of vibrating rod adjustably, the vibrating rod stretches out the mouth of dodging, the fixed plate downside is equipped with two sets of sprinkler heads, two sets of sprinkler heads are located the vibrating rod both sides, the inside immersible pump that is equipped with of water tank, immersible pump and two sets of sprinkler heads lead to water piping connection.

Structure more than adopting, the cam separator drives the rotor plate intermittent type and rotates certain angle, first leg wheel plays the effect that supports the rotor plate, dodge the mouth and be used for dodging the vibrating rod, elevator motor's output shaft drives the lift lead screw and rotates, thereby it reciprocates to drive the lift seat on the support of vibrating, the lift seat drives the fixed plate and reciprocates, the vibrating rod stretches into mould incasement portion from dodging the mouth, the vibrating rod is to the mixed cement of mould incasement portion, effectively vibrate, guarantee mixed cement level, after the vibration is accomplished, the vibrating rod rises and withdraws, the cam separator drives after the rotor plate intermittent type rotates certain angle, the subassembly that vibrates leaves the position just to the mould case, the immersible pump starts, inside the water suction of water tank is inside two sets of sprinkler bead, spray on the vibrating rod through two sets of sprinkler bead, wash.

The mixer includes the churn and rotates the motor, the churn is all fixed in the top of rotor plate, it fixes the below at the churn to rotate the motor, the inside of churn is rotated and is equipped with the stirring frame, the output shaft that rotates the motor is connected with the transmission of stirring frame, the top of churn is equipped with charge door and filling tube, it has articulated lid to articulate on the charge door, the below of churn is connected with out the workbin, the feed end of play workbin and notes material pump passes through the pipe connection, the discharge end of notes material pump is equipped with a plurality of discharging pipes, the discharging pipe is located lift placement machine and constructs the top.

Structure more than adopting, through the filling tube, add water, cement, other mixtures, the output shaft that rotates the motor drives the stirring frame and rotates, stirs the mixture, obtains cement mixture, and the stirring is accomplished the back, and inside the leading-in ejection of compact incasement of cement mixture, then annotate the material pump and take cement mixture out, pours into the inside mould incasement portion of lift placement mechanism into through the discharging pipe, opens articulated lid, can wash the inside and stirring frame of churn.

The spraying assembly comprises a spraying oil tank, a mounting plate and a plurality of nozzles, the spraying oil tank and the mounting plate are fixed above the rotating plate, a spraying pump and a liquid distribution valve are fixed on the mounting plate, the feeding end of the spraying pump and the spraying oil tank are connected through a pipeline, the discharging end of the spraying pump and the liquid distribution valve are connected through a pipeline, a plurality of nozzle uniform distributions are fixed below the rotating plate, and the liquid distribution valve and the plurality of nozzles are connected through a pipeline.

By adopting the structure, the spraying pump pumps the demoulding oil in the spraying oil tank into the liquid separating valve and then injects the demoulding oil into the plurality of nozzles, and a layer of demoulding oil is sprayed inside the mould tank.

The subassembly is separated to the cam includes that the cam divider, the cam divider is fixed in the vibration platform top, cam divider top is fixed with the installation disc, offer the mouth of dodging of a plurality of circumference equipartitions on the installation disc, the below of installation disc is fixed with the mount pad of a plurality of circumference equipartitions, the mount pad is located the corresponding mouthful lower part of dodging, the top of installation disc is fixed with a plurality of ejection of compact landslides, per two ejection of compact landslides and the outside of dodging the mouth that corresponds the position, be equipped with a plurality of fan housings on the installation disc, the fan housing runs through the installation disc, the air outlet of fan housing is just to dodging the mouth.

Structure more than adopting, cam separator drive the certain angle that installation disc intermittent type rotated the settlement, dodge the mouth and be used for dodging lift placement mechanism, ejection of compact landslide is convenient for derive the mould case, and the fan housing is used for deriving hot-blast from the air outlet with hot-blast subassembly, to the mould case that is equipped with cement mixture, carries out hot-blast drying.

The hot air assembly comprises an air inlet seat, the air inlet seat is fixed in the middle of the mounting disc, a heater is fixed above the air inlet seat, an air outlet machine is fixed above the heater, and a control valve is connected between the air outlet end of the air outlet machine and the air inlet end of the air guide cover.

By adopting the structure, the air outlet machine sucks cold air from the air inlet seat, the cold air enters the heater to be heated to form hot air, the hot air enters the air outlet machine, the hot air enters the corresponding air guide cover through the control valve, the hot air is guided out from the air outlet, and hot air drying is carried out on the mold box filled with the cement mixture.

The lifting placement mechanism comprises a base and a pouring bottom plate, the base is fixed on the mounting seat, four sliding seats are arranged below the pouring bottom plate in a sliding mode, adjusting push rods are hinged between the sliding seats and the base through ball hinges, the external size of the pouring bottom plate is the same as the internal size of the dodging opening, and when the lifting placement mechanism is not used, the upper surface of the pouring bottom plate is flush with the upper surface of the mounting disc.

By adopting the structure, the adjusting push rods synchronously stretch out to drive the pouring bottom plate to rise, the pouring bottom plate rises above the first splicing mold and the second splicing mold, then the two adjusting push rods on the inner sides continue to rise, the pouring bottom plate is inclined, and the mold box filled with the cement mixture obliquely slides out.

The first splicing die comprises an adjusting assembly, the adjusting assembly is fixed on the mounting disc, a first connecting plate is arranged on the adjusting assembly, a first die rod is fixed at the end of the first connecting plate, a rubber pad is arranged at the end of the first die rod, a first adjusting plate is adjustably arranged above the first die rod, an electric clamp is arranged above the first adjusting plate, the second splicing die comprises an adjusting assembly, a second connecting plate is arranged on the adjusting assembly, a second die rod is arranged at the end of the second connecting plate, a second adjusting plate is arranged on the second die rod, an electric clamp is arranged above the second adjusting plate, the first die rod and the second die rod are slidably arranged on the mounting disc, and the internal size of a die frame of the first die rod and the second die rod is the same as the internal size of the avoiding opening.

Structure more than adopting, adjusting part drives first connecting plate and second connecting plate inwardly movable to first connecting plate drives first die rod inwardly movable, and the second connecting plate drives second die rod inwardly movable, and the second die rod is contradicted on the rubber pad, drives the electronic binding clasp inwardly movable that corresponds the position, forms the mould frame of amalgamation, and electronic binding clasp presss from both sides the stopper tightly, along with first die rod and second die rod removal.

The electric clamping device comprises a base, wherein the base is fixed above the first adjusting plate or the second adjusting plate, an adjusting slide rod and a hinge rod are hinged to the base, a connecting rod is hinged between the adjusting slide rod and the hinge rod, an adjusting screw rod is arranged on the adjusting slide rod in a sliding mode, and an electric push rod is hinged between the hinge rod and the base; the adjusting component comprises a clamping seat, the clamping seat is fixed on the installation disc, the clamping seat is located on the outer side of the avoiding opening, a worm is arranged on the clamping seat in a rotating mode, an adjusting motor is fixed on the clamping seat, a worm wheel is arranged on an output shaft of the adjusting motor, the worm wheel is meshed with the worm, two sliding rails are fixed on the clamping seat and are respectively located on two sides of the worm, an adjusting sliding seat slides on the two sliding rails, the adjusting sliding seat is in meshing transmission with the worm, and a first adjusting plate and a second connecting plate are fixed on the adjusting sliding seat in corresponding positions.

Structure more than adopting, according to the position of stopper, adjust the position of first regulating plate or second regulating plate, the position of adjustment adjusting screw on adjusting the slide bar, electric putter drives the hinge bar and rotates around the base, thereby it rotates around the base to drive the adjusting slide bar through the connecting rod, then screw up adjusting screw, adjusting screw contradicts on the stopper, press from both sides the stopper tightly, the output shaft of adjusting motor drives the worm wheel and rotates, worm wheel and worm meshing, thereby it rotates to drive the worm, the worm drives and adjusts the slide and slide on two slide rails, it drives first regulating plate and the removal of second connecting plate to adjust the slide.

The utility model provides an assembled building wall prefab, includes the prefab body, the prefab body adopts cement mixture to pour and forms, and the inside steel framework that is equipped with of prefab body, the both ends of prefab body are equipped with draw-in groove and card respectively protrudingly, and the protruding block cooperation of card of draw-in groove and another prefab body.

Structure more than adopting, the prefab body adopts cement mixture to pour and forms on steel framework, and intensity is high, according to the shape of prefab body, selects a plurality of stoppers to place inside amalgamation mould mechanism, forms draw-in groove and card protruding, and the protruding block cooperation of card of draw-in groove and another prefab body for install the wall body prefab fast.

Compared with the prior art, this assembled building wall mould and prefab have following advantage:

the cam separation component is matched with the first supporting leg wheel, so that the cam separation component drives the vibration component, the stirring machine, the water tank, the material injection pump and the spraying component to stably and intermittently rotate, and the steps of spraying demolding oil, pouring cement mixture, vibrating the cement mixture and spraying and cleaning the vibration component are sequentially carried out.

The cam separation component drives the lifting placement mechanism, the first splicing die, the second splicing die, the wind scooper and the hot air component to stably and intermittently rotate through the matching of the second supporting leg wheel and the cam separation component.

Through the cooperation of first amalgamation mould, second amalgamation mould and stopper, realize stabilizing the centre gripping to the mould case to can satisfy the wall body prefab preparation of different shapes.

The mould box filled with the cement mixture is heated by hot air through the matching of the air guide cover and the hot air component, and is dried to a certain degree.

Through the cooperation of the lifting placement mechanism and the discharging landslide, the mould box filled with the cement mixture is quickly pushed up and slides out, and the operation is simple and convenient.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic front side three-dimensional structure diagram of the pouring vibrating mechanism in the invention.

Fig. 3 is a schematic structural view of the rear side of the casting vibrating mechanism in the invention.

Fig. 4 is a schematic front perspective view of the casting vibrating mechanism of the present invention.

FIG. 5 is a perspective view of a split mold mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the cam separation assembly and the hot air assembly according to the present invention.

Fig. 7 is a schematic structural view of the elevating and lowering mechanism of the present invention.

Fig. 8 is a perspective view of an adjustment assembly of the present invention.

Fig. 9 is a perspective view of the wall preform according to the present invention.

In the figure, 1, adjust the platform; 2. a first leg wheel; 3. a cam partitioning member; 4. a vibrating assembly; 5. a blender; 6. a water tank; 7. a vibration platform; 8. a second leg wheel; 9. a cam spacer assembly; 10. a steel reinforcement frame; 11. a lifting placing mechanism; 12. a first splicing mold; 13. a second split mold; 14. a wind scooper; 15. a hot air assembly; 16. a material injection pump; 17. a spray assembly; 18. spraying an oil coating box; 19. a spray pump; 20. mounting a plate; 21. a spray head; 22. a liquid separating valve; 23. a feed inlet; 24. a mixing drum; 25. a hinged cover; 26. a feed tube; 27. a lifting motor; 28. a lifting screw rod; 29. a lifting seat; 30. vibrating a rod; 31. a fixing plate; 32. a discharging box; 33. rotating the motor; 34. a stirring frame; 35. avoiding the mouth; 36. a rotating plate; 37. a cam separator; 38. an adjustment assembly; 39. a first connecting plate; 40. a first die rod; 41. a first adjusting plate; 42. an electric clamper; 43. a second connecting plate; 44. a second mold bar; 45. a second adjusting plate; 46. adjusting the screw rod; 47. adjusting the sliding rod; 48. a hinged lever; 49. an electric push rod; 50. a base; 51. installing a disc; 52. discharging and landslide; 53. avoiding the mouth; 54. a mounting base; 55. an air outlet; 56. an air inlet seat; 57. a heater; 58. an air outlet machine; 59. a base; 60. adjusting the push rod; 61. pouring a bottom plate; 62. adjusting the motor; 63. a worm; 64. adjusting the sliding seat; 65. a slide rail; 66. a card holder; 67. a preform body; 68. a card slot; 69. clamping convex; 70. and a limiting block.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-8, the assembled building wall mold comprises an adjusting platform 1 and a vibrating platform 7, a cam separating component 3 is arranged above the adjusting platform 1, a stirrer 5 is arranged in the middle of the upper end of the cam separating component 3, a vibrating assembly 4, a water tank 6, an injection pump 16 and a spraying assembly 17 are sequentially arranged outside the upper end of the cam separating component 3, a plurality of first supporting leg wheels 2 which are uniformly distributed circumferentially are arranged on the lower side of the cam separating component 3, a cam separating component 9 is arranged above the adjusting platform 1, a hot air assembly 15 is arranged in the middle of the upper side of the cam separating component 9, a plurality of first splicing molds 12 and second splicing molds 13 which are uniformly distributed circumferentially are sequentially arranged outside the upper side of the cam separating component 9, a splicing mold mechanism is composed of the two first splicing molds 12 and two second splicing molds 13 at corresponding positions, a plurality of lifting placement mechanisms 11 which are uniformly distributed circumferentially are arranged below the cam separating component 9, the lifting placing mechanism 11 corresponds to the position of the split die mechanism, and a plurality of second supporting leg wheels 8 which are uniformly distributed on the circumference are arranged on the lower side of the cam separation component 9.

According to the shape of a wall prefabricated part, selecting a proper mold box, placing a limiting block 70 above a plurality of lifting placement mechanisms 11 and inside a splicing mold mechanism, clamping the limiting block 70 by the splicing mold mechanism to form a clamping groove 68 and a clamping protrusion 69, placing the mold box above one lifting placement mechanism 11 and inside the splicing mold mechanism, matching the limiting block 70 with the splicing mold mechanism to avoid the mold box from shaking, placing a steel bar framework 10 inside the mold box, rotating a cam separation component 9 by 90 degrees to drive the lifting placement mechanism 11 provided with the steel bar framework 10 to be placed below a cam separation component 3, spraying demolding oil on the interior of the mold box by a spraying component 17, rotating the cam separation component 3 by 180 degrees, and facing an injection pump 16 to the splicing mold mechanism; the stirring machine 5 stirs and mixes the mixture such as cement, obtain the mixed cement, then inject the mixed cement into the mould incasement through the material injection pump 16, the vibration platform 7 vibrates at the same time, the cam separation part 3 rotates 90 degrees again, the vibration component 4 descends and inserts into the mixed cement inside the mould incasement, vibrates, then the cam separation part 3 rotates 90 degrees again, the spraying component 17 is right opposite to the splicing mould mechanism, the water tank 6 sprays water to clean the components of the vibration component 4, and the solidification is avoided; the cam separation component 9 rotates 90 degrees again, the steel bar framework 10 is placed in the next mold box, demolding oil spraying, pouring and vibrating are carried out, the hot air component 15 generates hot air, the vibrated wall prefabricated part is hot air dried, the cam separation component 9 rotates 90 degrees again, after the wall prefabricated part is basically dried, the first splicing mold 12 and the second splicing mold 13 are unfolded, the lifting and placing mechanism 11 is lifted to jack up the mold box, the mold box filled with mixed cement slides out, the wall prefabricated part is taken out after standing, and then the next mold box is placed.

The cam separation part 3 comprises a cam separator 37, the cam separator 37 is fixed above the adjusting platform 1, a rotating plate 36 is arranged above the cam separator 37, the first supporting leg wheel 2 is fixed below the rotating plate 36, a yielding port 35 is formed in the rotating plate 36, the vibrating assembly 4 comprises a vibrating support, the vibrating support is fixed above the rotating plate 36, a lifting motor 27 is fixed at the upper end of the vibrating support, a lifting screw 28 is rotatably arranged on the vibrating support, an output shaft of the lifting motor 27 is fixedly connected with the lifting screw 28, a lifting seat 29 is slidably arranged on the vibrating support, the lifting seat 29 is in transmission connection with the lifting screw 28, a fixing plate 31 is fixed at the front side of the lifting seat 29, a plurality of vibrating rods 30 are adjustably arranged above the fixing plate 31, the vibrating rods 30 extend out of the yielding port 35, two groups of water spray heads are arranged at the lower side of the fixing plate 31, the two groups of water spray heads are positioned at two sides of the vibrating rods 30, and a submersible pump is arranged in the water tank 6, the submersible pump is connected with the two groups of water spray heads through water pipes.

Cam separator 37 drives rotor plate 36 intermittent type and rotates certain angle, first leg wheel 2 plays the effect of supporting rotor plate 36, it is used for dodging mouth 35 and dodging vibrating rod 30, elevator motor 27's output shaft drives lift lead screw 28 and rotates, thereby drive lift seat 29 and reciprocate on the support that vibrates, lift seat 29 drives fixed plate 31 and reciprocates, vibrating rod 30 stretches into the mould incasement portion from dodging mouth 35, vibrating rod 30 is to the mixed cement of mould incasement portion, effectively vibrate, guarantee mixed cement level, after vibrating, vibrating rod 30 rises and withdraws, cam separator 37 drives rotor plate 36 intermittent type and rotates certain angle after, vibrating component 4 leaves the position just to the mould case, the immersible pump starts, with the inside water pumping of water tank 6 inside two sets of sprinkler heads, spray on vibrating rod 30 through two sets of sprinkler heads, wash.

Mixer 5 includes churn 24 and rotation motor 33, churn 24 all fixes the top at rotor plate 36, rotation motor 33 fixes the below at churn 24, churn 24's inside is rotated and is equipped with stirring frame 34, the output shaft that rotates motor 33 is connected with stirring frame 34 transmission, churn 24's top is equipped with charge door 23 and filling tube 26, it has articulated lid 25 to articulate on the charge door 23, churn 24's below is connected with ejection of compact case 32, ejection of compact case 32 passes through the pipe connection with the feed end of annotating material pump 16, the discharge end of annotating material pump 16 is equipped with a plurality of discharging pipes, the discharging pipe is located lift placement mechanism 11 top.

Through filling tube 26, add water, cement, other mixtures, the output shaft of rotating motor 33 drives stirring frame 34 and rotates, stirs the mixture, obtains cement mixture, and the stirring is accomplished the back, and inside the leading-in ejection of compact case 32 of cement mixture, then annotate material pump 16 and take cement mixture out, pour into the inside mould incasement portion of lift placement mechanism 11 into through the discharging pipe, open articulated cover 25, can wash the inside and stirring frame 34 of churn 24.

The spraying component 17 comprises a spraying oil tank 18, a mounting plate 20 and a plurality of spray heads 21, the spraying oil tank 18 and the mounting plate 20 are fixed above a rotating plate 36, a spraying pump 19 and a liquid distribution valve 22 are fixed on the mounting plate 20, the feeding end of the spraying pump 19 is connected with the spraying oil tank 18 through a pipeline, the discharging end of the spraying pump 19 is connected with the liquid distribution valve 22 through a pipeline, the spray heads 21 are uniformly distributed and fixed below the rotating plate 36, and the liquid distribution valve 22 is connected with the spray heads 21 through a pipeline; the spraying pump 19 pumps the demoulding oil in the spraying oil tank 18 into the liquid separating valve 22, and then the demoulding oil is injected into the plurality of nozzles 21 to spray a layer of demoulding oil in the mould tank.

The cam separation component 9 comprises a cam separator, the cam separator is fixed above the vibration platform 7, a mounting disc 51 is fixed above the cam separator, a plurality of avoidance ports 53 which are uniformly distributed circumferentially are formed in the mounting disc 51, a plurality of mounting seats 54 which are uniformly distributed circumferentially are fixed below the mounting disc 51, the mounting seats 54 are located on the lower portions of the corresponding avoidance ports 53, a plurality of discharging landslides 52 are fixed above the mounting disc 51, every two discharging landslides 52 and the outer sides of the avoidance ports 53 at the corresponding positions are arranged on the mounting disc 51, a plurality of fan covers 14 are arranged on the mounting disc 51, the fan covers 14 penetrate through the mounting disc 51, and air outlets 55 of the fan covers 14 are opposite to the avoidance ports 53.

The cam separator drives the mounting disc 51 to rotate intermittently by a set angle, the avoidance port 53 is used for avoiding the lifting placement mechanism 11, the discharging landslide 52 is convenient to guide out the mould box, and the fan cover 14 is used for guiding out hot air of the hot air component 15 from the air outlet 55 to dry the mould box filled with cement mixture by hot air.

The hot air assembly 15 comprises an air inlet seat 56, the air inlet seat 56 is fixed in the middle of the mounting disc 51, a heater 57 is fixed above the air inlet seat 56, an air outlet machine 58 is fixed above the heater 57, and a control valve is connected between the air outlet end of the air outlet machine 58 and the air inlet end of the air guide cover 14; the air outlet machine 58 sucks cold air from the air inlet seat 56, the cold air enters the heater 57 to be heated to form hot air, the hot air enters the air outlet machine 58, the hot air enters the corresponding air guide cover 14 through the control valve and is led out from the air outlet 55, and the mold box filled with the cement mixture is subjected to hot air drying.

The lifting placement mechanism 11 comprises a base 59 and a pouring bottom plate 61, the base 59 is fixed on the mounting base 54, four sliding seats are arranged below the pouring bottom plate 61 in a sliding mode, adjusting push rods 60 are hinged between the sliding seats and the base 59 through ball hinges, the external size of the pouring bottom plate 61 is the same as the internal size of the avoidance port 53, and when the lifting placement mechanism is not used, the upper surface of the pouring bottom plate 61 is flush with the upper surface of the mounting disc 51; the adjusting push rods 60 synchronously extend out to drive the pouring bottom plate 61 to rise and rise above the first splicing mold 12 and the second splicing mold 13, then the two adjusting push rods 60 on the inner sides continue to rise, and the pouring bottom plate 61 inclines, so that the mold box filled with the cement mixture slides out in an inclined mode.

The first split mold 12 comprises an adjusting assembly 38, the adjusting assembly 38 is fixed on a mounting disc 51, a first connecting plate 39 is arranged on the adjusting assembly 38, a first mold rod 40 is fixed at the end of the first connecting plate 39, a rubber pad is arranged at the end of the first mold rod 40, a first adjusting plate 41 is adjustably arranged above the first mold rod 40, an electric clamp 42 is arranged above the first adjusting plate 41, the second split mold 13 comprises the adjusting assembly 38, a second connecting plate 43 is arranged on the adjusting assembly 38, a second mold rod 44 is arranged at the end of the second connecting plate 43, a second adjusting plate 45 is arranged on the second mold rod 44, an electric clamp 42 is arranged above the second adjusting plate 45, the first mold rod 40 and the second mold rod 44 are slidably arranged on the mounting disc 51, and the inner size of a mold frame formed by splitting of the first mold rod 40 and the second mold rod 44 is the same as the inner size of a relief opening 53; the adjusting assembly 38 drives the first connecting plate 39 and the second connecting plate 43 to move inwards, so that the first connecting plate 39 drives the first mold rod 40 to move inwards, the second connecting plate 43 drives the second mold rod 44 to move inwards, the second mold rod 44 abuts against the rubber pad, the electric clamping device 42 at the corresponding position is driven to move inwards, a spliced mold frame is formed, and the electric clamping device 42 clamps the limiting block 70 and moves along with the first mold rod 40 and the second mold rod 44.

The electric clamping device 42 comprises a base 50, the base 50 is fixed above the first adjusting plate 41 or the second adjusting plate 45, an adjusting slide rod 47 and a hinge rod 48 are hinged on the base 50, a connecting rod is hinged between the adjusting slide rod 47 and the hinge rod 48, an adjusting screw 46 is arranged on the adjusting slide rod 47 in a sliding manner, and an electric push rod 49 is hinged between the hinge rod 48 and the base 50; the adjusting assembly 38 comprises a clamping seat 66, the clamping seat 66 is fixed on the mounting disc 51, the clamping seat 66 is located outside the avoiding opening 53, a worm 63 is rotatably arranged on the clamping seat 66, an adjusting motor 62 is fixed on the clamping seat 66, a worm wheel is arranged on an output shaft of the adjusting motor 62, the worm wheel is meshed with the worm 63, two sliding rails 65 are fixed on the clamping seat 66, the two sliding rails 65 are respectively located on two sides of the worm 63, adjusting sliding seats 64 are slidably arranged on the two sliding rails 65, the adjusting sliding seats 64 are meshed with the worm 63 for transmission, and the first adjusting plate 41 and the second connecting plate 43 are fixed on the adjusting sliding seats 64 at corresponding positions; according to the position of the limiting block 70, the position of the first adjusting plate 41 or the second adjusting plate 45 is adjusted, the position of the adjusting screw 46 on the adjusting slide rod 47 is adjusted, the electric push rod 49 drives the hinge rod 48 to rotate around the base 50, so as to drive the adjusting slide rod 47 to rotate around the base 50 through the connecting rod, then the adjusting screw 46 is screwed, the adjusting screw 46 abuts against the limiting block 70, the limiting block 70 is clamped, the output shaft of the adjusting motor 62 drives the worm wheel to rotate, the worm wheel is meshed with the worm 63, so as to drive the worm 63 to rotate, the worm 63 drives the adjusting slide 64 to slide along the two slide rails 65, and the adjusting slide 64 drives the first adjusting plate 41 and the second connecting plate 43 to move.

As shown in fig. 9, this assembly type structure wall prefab, including prefab body 67, prefab body 67 adopts cement mixture to pour and forms, and prefab body 67 is inside to be equipped with steel framework 10, and prefab body 67's both ends are equipped with draw-in groove 68 and card protruding 69 respectively, and draw-in groove 68 and another prefab body 67's the protruding 69 block of card cooperate.

The prefabricated member body 67 adopts the cement mixture to pour and forms on steel framework 10, and intensity is high, according to the shape of prefabricated member body 67, selects a plurality of stoppers 70 to place inside amalgamation mould mechanism, forms draw-in groove 68 and the protruding 69 of card, and draw-in groove 68 and the protruding 69 block cooperation of card of another prefabricated member body 67 for install the wall body prefabricated member fast.

The working principle of the invention is as follows: selecting a proper mold box according to the shape of a prefabricated member of a wall body, placing a plurality of limiting blocks 70 above a plurality of lifting placement mechanisms 11 and in the splicing mold mechanism, adjusting the positions of a first adjusting plate 41 or a second adjusting plate 45 according to the positions of the limiting blocks 70, adjusting the positions of adjusting screws 46 on adjusting slide rods 47, driving hinge rods 48 to rotate around a base 50 by electric push rods 49, driving the adjusting slide rods 47 to rotate around the base 50 by connecting rods, then screwing the adjusting screws 46, enabling the adjusting screws 46 to abut against the limiting blocks 70, clamping the limiting blocks 70 to form clamping grooves 68 and clamping protrusions 69, placing the mold box above one of the lifting placement mechanisms 11 and in the splicing mold mechanism;

adjusting part 38 drives first connecting plate 39 and second connecting plate 43 and inwards moves to first connecting plate 39 drives first die rod 40 and inwards moves, and second connecting plate 43 drives second die rod 44 and inwards moves, and second die rod 44 is contradicted on the rubber pad, and stopper 70 and amalgamation mould mechanism cooperate, avoid the mould case to rock.

The steel bar framework 10 is placed inside the die box, the cam separation component 9 rotates 90 degrees, and the lifting placement mechanism 11 provided with the steel bar framework 10 is driven to be placed below the cam separation component 3.

The spraying pump 19 pumps the demoulding oil in the spraying oil box 18 into the liquid separating valve 22, and then the demoulding oil is injected into the plurality of nozzles 21 to spray a layer of demoulding oil in the mould box.

The cam separation part 3 rotates 180 degrees, and the material injection pump 16 is opposite to the splicing die mechanism; through filling tube 26, add water, cement, other mixtures, the output shaft of rotating motor 33 drives stirring frame 34 and rotates, stirs the mixture, obtains cement mixture, and the stirring is accomplished the back, and inside the leading-in ejection of compact case 32 of cement mixture, then annotate material pump 16 and take cement mixture out, pour into the inside mould incasement portion of lift placement mechanism 11 into through the discharging pipe, vibrate platform 7 simultaneously.

Cam partition part 3 rotates 90 again, elevator motor 27's output shaft drives lift lead screw 28 and rotates, thereby drive lift seat 29 and reciprocate on the support vibrates, lift seat 29 drives fixed plate 31 and reciprocates, the stick that vibrates 30 stretches into mould incasement portion from dodging mouthful 35, the stick that vibrates 30 is to the mixed cement of mould incasement portion, effectively vibrate, guarantee mixed cement level, the completion back vibrates, the stick that vibrates 30 rises and withdraws, then cam partition part 3 rotates 90 again, spraying subassembly 17 is just to amalgamation mould mechanism, the immersible pump starts, inside two sets of sprinkler bead of the water suction of 6 inside of water tank, spray on the stick that vibrates 30 through two sets of sprinkler bead, wash, avoid solidifying.

The cam separation component 9 rotates 90 degrees again, and places the steel bar framework 10 in the next mould box for spraying demoulding oil, pouring and vibrating, the air outlet machine 58 sucks cold air from the air inlet seat 56, the cold air enters the heater 57 to be heated to form hot air, the hot air enters the air outlet machine 58, the hot air enters the corresponding air guide cover 14 through the control valve, the cold air is led out from the air outlet 55, and hot air drying (not all drying) is carried out on the mould box filled with the cement mixture.

The cam separation component 9 rotates 90 degrees again, after the wall prefabricated part is basically dried, the output shaft of the adjusting motor 62 drives the worm wheel to rotate, the worm wheel is meshed with the worm 63, the worm 63 is driven to rotate, the worm 63 drives the adjusting slide seat 64 to slide along the two slide rails 65, the adjusting slide seat 64 drives the first adjusting plate 41 and the second connecting plate 43 to move, the first connecting plate 39 and the second connecting plate 43 are driven to move outwards, the adjusting push rods 60 synchronously extend out, the pouring bottom plate 61 is driven to rise, the height is higher than the first splicing mold 12 and the second splicing mold 13, then the two adjusting push rods 60 on the inner side continue to rise, the pouring bottom plate 61 inclines, the mold box filled with the cement mixture slides out along the discharging slide slope 52 in an inclined mode.

And (5) taking out the wall prefabricated part in the mold box after standing, and then placing the next mold box.

In conclusion, through the cooperation of the first supporting leg wheel 2 and the cam separating part 3, the cam separating part 3 drives the vibration component 4, the stirring machine 5, the water tank 6, the material injection pump 16 and the spraying component 17 to stably and intermittently rotate, and the steps of spraying demoulding oil, pouring cement mixture, vibrating the cement mixture and spraying and cleaning the vibration component 4 are sequentially carried out.

Through the cooperation of the second supporting leg wheel 8 and the cam separation component 9, the cam separation component 9 drives the lifting placement mechanism 11, the first splicing mold 12, the second splicing mold 13, the wind scooper 14 and the hot air component 15 to stably and intermittently rotate.

Through the cooperation of first amalgamation mould 12, second amalgamation mould 13 and stopper 70, realize stablizing the centre gripping to the mould case to can satisfy the wall body prefab preparation of different shapes.

The mould box filled with the cement mixture is heated by hot air through the matching of the air guide cover 14 and the hot air component 15, and is dried to a certain degree.

The lifting placing mechanism 11 is matched with the discharging landslide 52, so that the mould box filled with the cement mixture is quickly pushed up and slides out, and the operation is simple and convenient.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. An assembled building wall mold comprises an adjusting platform (1) and a vibrating platform (7), wherein a cam separation part (3) is arranged above the adjusting platform (1), a stirrer (5) is arranged in the middle of the upper end of the cam separation part (3), a vibrating assembly (4), a water tank (6), an injection pump (16) and a spraying assembly (17) are sequentially arranged outside the upper end of the cam separation part (3), a plurality of first supporting leg wheels (2) uniformly distributed on the circumference are arranged on the lower side of the cam separation part (3), a cam separation assembly (9) is arranged above the adjusting platform (1), a hot air assembly (15) is arranged in the middle of the upper part of the cam separation assembly (9), a plurality of first splicing molds (12) and second splicing molds (13) uniformly distributed on the circumference are sequentially arranged outside the upper part of the cam separation assembly (9), two first splicing molds (12) and two second splicing molds (13) corresponding to the positions form a splicing mold mechanism, a plurality of lifting and placing mechanisms (11) which are uniformly distributed in the circumference are arranged below the cam separation component (9), the lifting and placing mechanisms (11) correspond to the splicing die mechanism in position, and a plurality of second supporting leg wheels (8) which are uniformly distributed in the circumference are arranged on the lower side of the cam separation component (9).

2. The assembled building wall mold as claimed in claim 1, wherein the cam separation part (3) comprises a cam separator (37), the cam separator (37) is fixed above the adjusting platform (1), a rotating plate (36) is arranged above the cam separator (37), the first supporting leg wheel (2) is fixed below the rotating plate (36), an avoidance opening (35) is formed in the rotating plate (36), the vibrating assembly (4) comprises a vibrating support, the vibrating support is fixed above the rotating plate (36), a lifting motor (27) is fixed at the upper end of the vibrating support, a lifting screw rod (28) is rotatably arranged on the vibrating support, an output shaft of the lifting motor (27) is fixedly connected with the lifting screw rod (28), a lifting seat (29) is slidably arranged on the vibrating support, the lifting seat (29) is in transmission connection with the lifting screw rod (28), a fixing plate (31) is fixed at the front side of the lifting seat (29), a plurality of vibrating rods (30) are adjustably arranged above the fixing plate (31), the vibrating rods (30) extend out of the avoidance port (35), two groups of sprinkler heads are arranged on the lower side of the fixing plate (31), the two groups of sprinkler heads are located on two sides of the vibrating rods (30), a submersible pump is arranged inside the water tank (6), and the submersible pump is connected with the two groups of sprinkler heads through a water pipe.

3. The assembly type building wall mold according to claim 2, wherein the stirring machine (5) comprises a stirring cylinder (24) and a rotating motor (33), the stirring cylinder (24) is fixed above the rotating plate (36), the rotating motor (33) is fixed below the stirring cylinder (24), a stirring frame (34) is arranged in the stirring cylinder (24) in a rotating mode, an output shaft of the rotating motor (33) is in transmission connection with the stirring frame (34), a feed inlet (23) and a feed pipe (26) are arranged above the stirring cylinder (24), a hinged cover (25) is hinged to the feed inlet (23), a discharge box (32) is connected below the stirring cylinder (24), the discharge box (32) is connected with a feed end of the material injection pump (16) through a pipeline, a plurality of discharge pipes are arranged at a discharge end of the material injection pump (16), and the discharge pipes are located above the lifting placement mechanism (11).

4. The assembly type building wall mold according to claim 2 or 3, wherein the spraying component (17) comprises a spraying oil box (18), a mounting plate (20) and a plurality of spray heads (21), the spraying oil box (18) and the mounting plate (20) are fixed above the rotating plate (36), a spraying pump (19) and a liquid distribution valve (22) are fixed on the mounting plate (20), the feeding end of the spraying pump (19) is connected with the spraying oil box (18) through a pipeline, the discharging end of the spraying pump (19) is connected with the liquid distribution valve (22) through a pipeline, the spray heads (21) are uniformly distributed and fixed below the rotating plate (36), and the liquid distribution valve (22) is connected with the spray heads (21) through a pipeline.

5. The assembled building wall mold according to claim 4, wherein the cam separation assembly (9) comprises a cam separator fixed above the vibration platform (7), a mounting disc (51) is fixed above the cam separator, a plurality of avoidance openings (53) uniformly distributed circumferentially are formed in the mounting disc (51), a plurality of mounting seats (54) uniformly distributed circumferentially are fixed below the mounting disc (51), the mounting seats (54) are located at the lower parts of the corresponding avoidance openings (53), a plurality of discharging sliding slopes (52) are fixed above the mounting disc (51), a plurality of wind shields (14) are arranged on every two discharging sliding slopes (52) and the outer sides of the avoidance openings (53) at the corresponding positions, the mounting disc (51) is provided with the wind shields (14), the wind shields (14) penetrate through the mounting disc (51), and the wind outlets (55) of the wind shields (14) are opposite to the avoidance openings (53).

6. The assembled building wall mold as claimed in claim 5, wherein the hot air assembly (15) comprises an air inlet seat (56), the air inlet seat (56) is fixed in the middle of the mounting disc (51), a heater (57) is fixed above the air inlet seat (56), an air outlet machine (58) is fixed above the heater (57), and a control valve is connected between an air outlet end of the air outlet machine (58) and an air inlet end of the air guide cover (14).

7. The assembled building wall mold according to claim 6, wherein the lifting placement mechanism (11) comprises a base (59) and a pouring bottom plate (61), the base (59) is fixed on the mounting seat (54), four sliding seats are slidably arranged below the pouring bottom plate (61), an adjusting push rod (60) is hinged between each sliding seat and the base (59) through a ball hinge, the outer dimension of the pouring bottom plate (61) is the same as the inner dimension of the avoiding opening (53), and when the assembled building wall mold is not used, the upper surface of the pouring bottom plate (61) is flush with the upper surface of the mounting disc (51).

8. The assembly type building wall mold according to claim 7, wherein the first split mold (12) comprises an adjusting assembly (38), the adjusting assembly (38) is fixed on a mounting disc (51), a first connecting plate (39) is arranged on the adjusting assembly (38), a first mold rod (40) is fixed at the end of the first connecting plate (39), a rubber pad is arranged at the end of the first mold rod (40), a first adjusting plate (41) is adjustably arranged above the first mold rod (40), an electric clamp (42) is arranged above the first adjusting plate (41), the second split mold (13) comprises an adjusting assembly (38), a second connecting plate (43) is arranged on the adjusting assembly (38), a second mold rod (44) is arranged at the end of the second connecting plate (43), a second adjusting plate (45) is arranged on the second mold rod (44), an electric clamp (42) is arranged above the second adjusting plate (45), the first mold rod (40) and the second mold rod (44) are arranged on the mounting disc (51) in a sliding mode, and the inner size of a mold frame formed by splicing the first mold rod (40) and the second mold rod (44) is the same as that of the avoidance opening (53).

9. An assembled building wall mould as claimed in claim 8, wherein the electric clamper (42) comprises a base (50), the base (50) is fixed above the first adjusting plate (41) or the second adjusting plate (45), an adjusting slide rod (47) and a hinge rod (48) are hinged on the base (50), a connecting rod is hinged between the adjusting slide rod (47) and the hinge rod (48), an adjusting screw rod (46) is slidably arranged on the adjusting slide rod (47), and an electric push rod (49) is hinged between the hinge rod (48) and the base (50); adjusting part (38) includes cassette (66), cassette (66) are fixed on installation disc (51), cassette (66) are located the outside of dodging mouth (53), it is equipped with worm (63) to rotate on cassette (66), be fixed with adjusting motor (62) on cassette (66), be equipped with the worm wheel on the output shaft of adjusting motor (62), the worm wheel meshes with worm (63), be fixed with two slide rails (65) on cassette (66), two slide rails (65) are located the both sides of worm (63) respectively, it has adjusting slide (64) to slide on two slide rails (65), adjusting slide (64) and worm (63) meshing transmission, first regulating plate (41) and second connecting plate (43) are fixed on the adjusting slide (64) of corresponding position.

10. The prefabricated wall body prepared by the assembly type building wall body mold according to any one of claims 1 to 9, comprising a prefabricated body (67), wherein the prefabricated body (67) is formed by pouring cement mixture, a reinforcing steel bar frame (10) is arranged inside the prefabricated body (67), two ends of the prefabricated body (67) are respectively provided with a clamping groove (68) and a clamping protrusion (69), and the clamping groove (68) is in clamping fit with the clamping protrusion (69) of the other prefabricated body (67).