CN218365517U - Marshalling of wallboard part is corrected mould platform device - Google Patents

Abstract

The utility model discloses a wallboard part marshalling corrects moulding platform device, organize moulding platform including the building block, preceding fender subassembly, the side keeps off the subassembly, the building block marshalling moulding platform is equipped with the rectangle mesa, install the drive belt on the building block marshalling moulding platform mesa, the short limit end of building block marshalling moulding platform is established to the feed inlet, long limit end of building block marshalling moulding platform is established to the discharge gate, the feed inlet, a upset rule material mechanism is respectively installed to the discharge gate, preceding fender unit mount is held at the offside short limit of feed inlet, the side keeps off the unit mount and is held at the offside long limit of discharge gate, the utility model discloses rational in infrastructure, in disorder carry the building block marshalling moulding bench building block can be by effectual marshalling regular one neat skin, the back of being convenient for wholly snatchs, whole marshalling regular operation is full-automatic to be gone on, and the operating efficiency is high, and the operating quality is stable.

Description

Marshalling of wallboard part is corrected mould platform device

Technical Field

The utility model belongs to the technical field of the automated production technique of modularization wallboard and specifically relates to a marshalling of wallboard part is corrected mould platform device is related to.

Background

The wallboard is the important bearing member in the house, and the building block is the main component part of wallboard, and in traditional wallboard production, the wallboard is piled up by a building block skin and builds and form, the process of piling up of whole wallboard, and the technology is complicated, and the artifical use amount is big, and is consuming time longer, along with the progress of modern science and technology, the housing construction is gradually to integrating the development, and the wallboard generally all is made whole module and is installed, and traditional wallboard production technology just can not adapt to the rapid production demand of wallboard in batches like this.

When the operation of building a wall, need to pile up the building block skin, traditional operation of building a wall is the operation of single manual work building a wall, and efficiency is lower, and artifical use amount is big, is not suitable for the production technology of modularization wallboard, and in the production of modularization wallboard, the building block all is whole skin and piles up, just so need have an automation equipment to compile into a skin with scattered building block earlier to subsequent whole skin operation of building a wall.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned prior art's demand, provide a modular platform device is corrected in marshalling of wallboard part.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a marshalling of wallboard part corrects diaphragm stage device, includes that the building block marshalling diaphragm stage, preceding fender subassembly, side keep off the subassembly, the building block marshalling diaphragm stage is equipped with the rectangle mesa, install the drive belt on the building block marshalling diaphragm stage mesa, a short limit end of building block marshalling diaphragm stage is established to the feed inlet, a long limit end of building block marshalling diaphragm stage is established to the discharge gate, a upset rule mechanism is installed to feed inlet, discharge gate respectively, preceding fender subassembly is installed at the offside short limit end of feed inlet, the side keeps off the subassembly and installs the offside long limit end at the discharge gate.

The overturning gauge mechanism comprises first moving rails, a stop lever overturning assembly and a stop lever translation assembly, wherein the two first moving rails are arranged in parallel, the two first moving rails are arranged on the lower end face of the table top of the block grouping mold table, the stop lever overturning assembly is arranged on the two first moving rails, the stop lever overturning assembly comprises moving bases, rotating shafts and overturning driving racks, each first moving rail is movably provided with one moving base, each moving base is provided with a bearing seat, the rotating shafts are rotatably arranged on the two bearing seats, two ends of each rotating shaft extend towards the outer sides of the bearing seats and are provided with overturning gears, the moving bases are provided with second moving rails, the overturning driving racks are movably arranged on the second moving rails, the tooth surfaces of the overturning driving racks are meshed with the overturning gears, and overturning driving cylinders are further arranged on the moving bases, the turning driving air cylinder piston rod is connected with a turning driving rack, the turning driving air cylinder can pull the turning driving rack to move on a second moving rail, so that the turning gear drives the rotating shaft to rotate, the rotating shaft is connected with a plurality of gauge material stop rods, the gauge material stop rods are uniformly distributed along the length direction of the rotating shaft, each moving base is connected with a stop rod translation assembly, the stop rod translation assembly can drive the stop rod turning assembly to integrally translate, the stop rod translation assembly comprises a translation pull plate and a translation driving air cylinder, the translation pull plate is connected onto the moving base, the translation driving air cylinder is arranged below a table top of the block marshalling table, the piston rod end of the translation driving air cylinder is connected with the translation pull plate, and a plurality of stop rod moving grooves are formed in a feed port and a discharge port of the block marshalling table, the number and the positions of the stop lever moving grooves correspond to the number and the mounting positions of the gauge material stop levers.

The front baffle assembly comprises a front baffle cylinder and a front baffle cylinder mounting plate, the front baffle cylinder mounting plate is connected to the side wall of the building block marshalling die table, the front baffle cylinder is mounted on the front baffle cylinder mounting plate, the piston rod end of the front baffle cylinder is connected with a front baffle, and the front baffle is mounted towards the direction of the feed inlet.

The side keeps off the subassembly and includes that the side keeps off the cylinder, the side keeps off cylinder mounting bracket, the side keeps off the baffle, the side keeps off the cylinder mounting bracket and connects on building block marshalling mould platform lateral wall, and is a plurality of the side keeps off the cylinder equipartition and installs on the side keeps off cylinder mounting bracket, and is whole the tailpiece of the piston rod of the side fender cylinder all connects on the side keeps off the baffle, the side keeps off the baffle and installs towards the discharge gate direction.

The utility model has the advantages that: the utility model discloses rational in infrastructure, in disorder carry the building block marshalling mould bench building block can be regulated into neat skin by effectual marshalling, the back of being convenient for is whole snatchs, and whole marshalling is regular operation and is carried out fully automatically, and the operating efficiency is high, and the operation quality is stable.

Drawings

Fig. 1 is a front view of a modular automatic walling system of lightweight composite wall panels for use in the present invention;

fig. 2 is a top view of a modular automated walling system for lightweight composite wall panels in accordance with the present invention;

FIG. 3 is a top view of the structure of the present invention;

FIG. 4 is a front view of the turning gauge mechanism of the present invention;

FIG. 5 is a structural side view of the turning gauge mechanism of the present invention;

fig. 6 is a top view of the device for correcting verticality of building wall of the modular automatic wall building system of the light composite wall panel applied in the present invention;

fig. 7 is a driving side view of a walling verticality correction device of a modular automatic walling system for light composite wallboards applied in the present invention;

FIG. 8 is a sectional view taken along line B-B of FIG. 7;

FIG. 9 is an enlarged view taken at A in FIG. 6;

fig. 10 is a front view structural view of a wallboard part transposition transfer device of a modular automatic walling system for lightweight composite wallboards in accordance with the present invention;

fig. 11 is a side view of the construction of the gripper frame assembly of the modular automated walling system of lightweight composite wallboard in accordance with the present invention;

fig. 12 is the utility model discloses each part installation arrangement diagram on the automatic lifting beam board of building a wall system of modularization of light composite wall board of using.

In the figure: the device comprises a grouping straightening mold table device 1, a block grouping mold table 11, a feed inlet 111, a discharge outlet 112, a stop rod moving groove 113, a transmission belt 12, a turning material mechanism 13, a first moving rail 131, a stop rod turning assembly 132, a moving base 1321, a bearing seat 1322, a rotating shaft 1323, a turning gear 1324, a second moving rail 1325, a turning driving rack 1326, a turning driving cylinder 1327, a material guiding stop rod 133, a stop rod translation assembly 134, a translation pull plate 1341, a translation driving cylinder 1342, a front stop assembly 14, a front stop cylinder 141, a front stop cylinder mounting plate 142, a front stop baffle 143, a side stop assembly 15, a side stop cylinder 151, a side stop cylinder mounting rack 152, a side stop baffle 153, a wall building verticality straightening device 2, a lifting support column assembly 21, a lifting support column 211, a bottom cross beam 212, a lifting straightening mechanism 22, a lifting driving assembly 221, a lifting screw 2211, a screw rotating transmission wheel 2212, a lifting transmission wheel a screw rotation driving motor 2213, a screw rotation driving wheel 2214, a correcting frame assembly 222, a lifting motion base 2221, a guide clamping plate 2222, a screw connecting plate 2223, a push cylinder installation connecting rod frame 2224, a correcting push cylinder 223, a verticality correcting plate 224, an infrared aligner 23, a support column 3, a wallboard part transposition transfer device 4, a top beam 41, a transposition moving rail 42, a transposition wall building mechanism 43, a moving trolley 431, a trolley connecting top beam plate 432, a central hole groove 4321, a lifting machine head 433, a lifting rod 4331, a material grabbing frame assembly 434, a lifting cross beam plate 4341, a clamping plate connecting rod moving groove 43411, a material grabbing clamping plate driving cylinder 4342, a clamping plate driving connecting rod 43431, a top pressure cylinder 4344, an auxiliary top pressure plate 4345, an automatic guniting device 5, a guniting trolley moving rail 51, a guniting moving trolley 52, a rotary manipulator 53, a spraying nozzle 531, a grout barrel 54 and a flat swing car 6.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, wherein the descriptions of "left", "right", etc. in the present invention all refer to fig. 1 as the reference direction:

as shown in fig. 1-12, a modular automatic walling system for light composite wall boards comprises a grouping correction formwork device 1 and a walling verticality correction device 2, wherein the walling verticality correction device 2 is arranged on the left side of the grouping correction formwork device 1, the main components of the wall boards are building blocks, when the wall boards are stacked, the building blocks are stacked by skins of the building blocks, the building blocks are firstly grouped and regulated on the grouping correction formwork device 1 to form a leather block group, the right side of the grouping correction formwork device 1 is provided with a group of support pillars 3, the walling correction device 2 comprises lifting support pillar assemblies 21, the two lifting support pillar assemblies 21 are symmetrically arranged, each lifting support pillar assembly 21 is provided with a lifting correction mechanism 22, the two lifting correction mechanisms 22 are symmetrically arranged, a flat swing car 6 is arranged between the two lifting support pillar assemblies 21, the flat ferry 6 is used for stacking wallboards, the two lifting correction mechanisms 22 are positioned at two sides of the flat ferry 6, in the process of stacking wallboards, the lifting correction mechanisms 22 are used for ensuring the verticality of the wallboards, the production quality of the wallboards is ensured, the mounting height of the lifting support column assembly 21 is consistent with that of the support column 3, the wallboard part transposition and transfer device 4 is arranged above the lifting support column assembly 21 and the support column 3, the wallboard part transposition and transfer device 4 comprises a top beam 41 and a transposition wall-building mechanism 43, the two top beams 41 are arranged in parallel, a transposition moving rail 42 is fixedly arranged on each top beam 41, the transposition wall-building mechanism 43 is movably arranged on the two transposition moving rails 42, the transposition wall-building mechanism 43 can grab and take the blocks grouped into a skin to the flat ferry 6 for wall-building operation, the automatic grout spraying device 5 is arranged at the left side of the wall-building verticality correction device 2, before every building block is piled up, use automatic whitewashing device 5 to spray one deck mortar (or coagulant) on the building block of preceding skin earlier the utility model discloses in, the operation of a plurality of building block rule one-tenth skin, every skin building block group snatch, transposition, the operation of building a wall, the straightness's of correction of building a wall is all that the full automatization goes on, has that artifical use amount is few. High production efficiency and low production cost.

The grouping straightening die table device 1 comprises a building block grouping die table 11, a front blocking assembly 14 and a side blocking assembly 15, wherein the building block grouping die table 11 is provided with a rectangular table top, a transmission belt 12 is installed on the table top of the building block grouping die table 11, building blocks are conveyed on the transmission belt 12 to move, one short side end of the building block grouping die table 11 is provided with a feed inlet 111, the building blocks enter from the feed inlet 111 and fall onto the transmission belt 12, the long side end of the building block grouping die table 11 facing to the side of the wall building verticality straightening device 2 is provided with a discharge outlet 112, the grouped building blocks can be grabbed and output from the direction of the discharge outlet 112, the feed inlet 111 and the discharge outlet 112 are respectively provided with a turnover gauge 13, the front blocking assembly 14 is installed at the opposite side short side end of the feed inlet 111, the side blocking assembly 15 is installed at the opposite long side end of the discharge outlet 112, the two turnover gauges 13, the front blocking assembly 14 and the side blocking assembly 15 form a four-face closed enclosure, a plurality of grouping falling building blocks on the transmission belt 12 are arranged into a whole, the feed inlet 111 and the discharge outlet 112 have the requirement of materials, and are designed into a turnover gauge 13, and the material blocking gauge component can interfere with the interference movement, so as to prevent the turnover gauge component from entering and exiting.

The overturning gauge mechanism 13 comprises first moving rails 131, a stop lever overturning assembly 132 and a stop lever translation assembly 134, wherein the two first moving rails 131 are arranged in parallel, the two first moving rails 131 are installed on the lower end face of the table top of the block grouping mold table 11, the stop lever overturning assembly 132 is installed on the two first moving rails 131, the stop lever overturning assembly 132 comprises moving bases 1321, rotating shafts 1323 and overturning driving racks 1326, each first moving rail 131 is movably provided with one moving base 1321, each moving base 1321 is provided with a bearing seat 1322, the rotating shafts 1323 are rotatably installed on the two bearing seats 1322, both ends of the rotating shafts 1323 extend towards the outer sides of the bearing seats and are respectively provided with overturning gears 1324, the moving bases 1321 are provided with second moving rails 1325, the overturning driving racks 1326 are movably installed on the second moving rails 1325, tooth faces of the overturning driving racks 1326 are meshed with the overturning gears 1324, the movable energy of the overturning driving rack 1326 drives the overturning gear 1324 to rotate, the movable base 1321 is also provided with an overturning driving cylinder 1327, the piston rod of the overturning driving cylinder 1327 is connected with the overturning driving rack 1326, the overturning driving cylinder 1327 can pull the overturning driving rack 1326 to move on the second movable rail 1325, so that the rotating shaft 1323 is driven to rotate through the overturning gear 1324, the rotating shaft 1323 is connected with a plurality of gauge blocking rods 133, so that the overturning motion of the gauge blocking rods 133 is realized, a limiting block can be arranged on the motion trajectory line of the overturning driving rack 1326, the rotating angle of the overturning gear 1324 is determined through the limiting block, so that the overturning angle of the gauge blocking rods 133 is determined, when the gauge blocking rods 133 are overturned to the maximum, the gauge blocking rods 133 are kept vertical to the table top of the block grouping mold table 11, when the gauge blocking rods 133 are overturned to the maximum, the gauge blocking rods 133 are overturned to the position below the table top of the block grouping mold table 11, the material blocking rods 133 are uniformly distributed along the length direction of the rotating shaft 1323, each moving base 1321 is connected with a blocking rod translation assembly 134, the blocking rod overturning assembly 132 can be driven to integrally translate through the blocking rod translation assembly 134, the blocking rod translation assembly 134 comprises a translation pull plate 1341 and a translation driving cylinder 1342, the translation pull plate 1341 is connected to the moving base 1321, the translation driving cylinder 1342 is installed below the table top of the block grouping mold table 11, the piston rod end of the translation driving cylinder 1342 is connected with the translation pull plate 1341, grouping and arrangement of the blocks are to be achieved, the material blocking rods 133 must be moved to contact the blocks for leveling operation, the translation driving cylinder 1342 can pull the blocking rod overturning assembly 132 to integrally move, accordingly, the requirements of the moving material leveling operation of the material blocking rods 133 are met, the material blocking rod overturning and translation of the block rods 111 and the blocking rod moving grooves 113 are formed in the table top of the discharge port 112, the material blocking rods 133 need moving spaces in overturning and translation, the blocking rod moving grooves 113 are formed in order to meet the moving requirements of the number of the material blocking rods 133, and the number of the blocking rods 113 and the mounting positions of the blocking rods and the blocking rods.

The front baffle assembly 14 comprises a front baffle cylinder 141 and a front baffle cylinder mounting plate 142, the front baffle cylinder mounting plate 142 is connected to the side wall of the block grouping mold table 11, the front baffle cylinder 141 is mounted on the front baffle cylinder mounting plate 142, the piston rod end of the front baffle cylinder 141 is connected with a front baffle plate 143, the front baffle plate 143 is mounted towards the direction of the feed port 111, the front baffle plate 143 is used as the forward limit of a block, the side baffle assembly 15 comprises side baffle cylinders 151, side baffle cylinder mounting frames 152 and side baffle plates 153, the side baffle cylinder mounting frames 152 are connected to the side wall of the block grouping mold table 11, a plurality of side baffle cylinders 151 are uniformly mounted on the side baffle cylinder mounting frames 152, the piston rod ends of all the side baffle cylinders 151 are connected to the side baffle plate 153, the side baffle plates 153 are mounted towards the direction of the discharge port 112, the side baffle plates 153 are used as the lateral limit of the block, during the arranging operation, the front baffle plate 143, the side baffle plate 153, the gauge rods 133 of the feed port 111 and the discharge port 112 all move relative to the position of the gauge rods 133 to surround the four sides, the block plates are arranged to form a skin shape, then the gauge rods 133 are moved back, the front baffle plate 143 and the side baffle plate 143 is convenient for grabbing the subsequent block for the automatic grabbing operation.

The lifting strut assembly 21 comprises lifting struts 211 and a bottom cross beam 212, the two lifting struts 211 are arranged in parallel and connected above the bottom cross beam 212, the lifting struts 211 and the bottom cross beam 212 are both hollow structures, the lifting correction mechanism 22 comprises a lifting drive assembly 221, a correction frame assembly 222, a correction push cylinder 223 and a verticality correction plate 224, the lifting drive assembly 221 comprises lifting screws 2211 and screw rotation drive motors 2213, each lifting strut 211 is internally and rotatably provided with a lifting screw 2211, the lower ends of the lifting screws 2211 extend into the bottom cross beam 212 and are provided with screw rotation transmission wheels 2212, the screw rotation drive motors 2213 are arranged on the bottom cross beam 212, the output ends of the screw rotation drive motors 2213 extend into the bottom cross beam 212 and are provided with screw rotation driving wheels 2214, the screw rotation driving wheels 2214 are in transmission connection with the two screw rotation transmission wheels 2212 through a belt chain, and the screw rotation drive motors 2213 can drive the two lifting screws 2211 to rotate synchronously, the correcting frame assembly 222 comprises two lifting motion bases 2221 and a screw connecting plate 2223, wherein the two lifting motion bases 2221 are correspondingly arranged on two lifting columns 211 one by one, each lifting motion base 2221 is connected with two guide clamping plates 2222, the two guide clamping plates 2222 are arranged in parallel, the distance between the two guide clamping plates 2222 is matched with the size of the outer wall of each lifting column 211, so that the outer wall of each lifting column 211 can be used as a lifting motion guide track of the lifting motion base 2221, the structural cost is saved, one end of the screw connecting plate 2223 is connected to the lifting motion base 2221, the other end of the screw connecting plate is in threaded connection with the lifting screw 2211, when the lifting screw 2211 rotates, the lifting motion base 2221 can be lifted up and down through the screw connecting plate 2223, a push cylinder mounting connecting rod frame 2224 is connected between the two lifting motion bases 2221, a plurality of correcting push cylinders 223 are fixedly mounted on the push cylinder mounting connecting rod frame 2224, a plurality of corrections push away jar 223 along pushing away jar installation connecting rod frame 2224 length direction equipartition, all correct the piston rod end that pushes away jar 223 and all be connected with the straightness correction board 224 that hangs down, the wall body is when piling up, it has the mortar to fill between a leather building block, because the mortar mobility is good, easy deformation, the phenomenon of inclining appears easily at the piling up in-process of wall body, the straightness correction board 224 that hangs down neatly comes the regular wall through the contact wall body, guarantee the wall body straightness that hangs down in building a wall, can realize pushing away the elevating movement of jar installation connecting rod frame 2224 through elevating movement seat 2221, thereby realize the lift of straightness correction board 224 that hangs down, satisfy the correction demand to the wall body straightness under the different height circumstances of building a wall.

The two lifting correction mechanisms 22 are symmetrically arranged, the infrared aligners 23 are arranged on the end faces of the two perpendicularity correction plates 224 on the same side, the two infrared aligners 23 are arranged at corresponding positions, when the perpendicularity of the wall is corrected, the two perpendicularity correction plates 224 are required to be synchronously pressed on the two side faces of the wall at the same height, in order to ensure that the rising heights of the two perpendicularity correction plates 224 are consistent, the infrared aligners 23 are arranged, when the infrared aligners 23 on the two perpendicularity correction plates 224 are aligned, the two perpendicularity correction plates 224 are at the same height, and therefore the correction quality can be ensured.

The transposition wall building mechanism 43 comprises moving trolleys 431 and lifting machine heads 433, the two moving trolleys 431 are respectively installed on the two transposition moving rails 42, the moving trolleys 431 are used for achieving translational transposition movement of the transposition wall building mechanism 43, a trolley connecting top beam plate 432 is connected between the two moving trolleys 431, the two lifting machine heads 433 are symmetrically installed on the trolley connecting top beam plate 432, lifting rods 4331 are arranged on the lifting machine heads 433, a material grabbing frame assembly 434 is connected to the lower ends of the two lifting rods 4331, the lifting machine heads 433 are used for lifting the material grabbing frame assembly 434, and the lifting material grabbing frame assembly 434 is used for grabbing building blocks and stacking the building blocks.

The material grabbing frame assembly 434 comprises a lifting cross beam plate 4341, material grabbing clamp plates 4343 and an auxiliary top pressure plate 4345, the lower end of a lifting rod 4331 is connected with the lifting cross beam plate 4341, a plurality of groups of material grabbing plate driving cylinders 4342 are uniformly arranged on the lifting cross beam plate 4341, each group of material grabbing plate driving cylinders 4342 comprises two material grabbing plate driving cylinders 4342 arranged in opposite directions, the two material grabbing plate driving cylinders 4342 are respectively used for driving the two material grabbing clamp plates 4343 to move relatively, the two material grabbing clamp plates 4343 are arranged in parallel, the upper end of each material grabbing clamp plate 4343 is connected with a plurality of clamp plate driving connecting rods 43431, the number and the arrangement positions of the clamp plate driving connecting rods 43431 correspond to the material grabbing plate driving cylinders 4342 in the direction, the piston rod ends of the material grabbing plate driving cylinders 4342 are connected with the clamp plate driving connecting rods 43431, the material grabbing plate driving cylinders 4342 drive the material grabbing clamp plates 4343 to move through the clamp plate driving connecting rods 43431, and the material grabbing clamp plates 4343 move inwards, the brick can clamp and grab a whole skin of a brick, after the brick is grabbed to a wall board being piled, the grabbing clamp plates 4343 move outwards, one skin of the brick is piled to the wall board, a plurality of clamp plate connecting rod moving grooves 43411 are arranged on a lifting cross beam plate 4341, the number and the arrangement positions of the clamp plate connecting rod moving grooves 43411 correspond to those of the clamp plate driving connecting rods 43431, a plurality of jacking cylinders 4344 are arranged on the lifting cross beam plate 4341, a plurality of jacking cylinders 4344 are vertically and downwards arranged, each jacking cylinder 4344 is arranged at a position between two groups of clamp plate driving cylinders 4342, the piston rod ends of all the jacking cylinders 4344 penetrate through the lifting cross beam plate 4341 to downwards and are connected to an auxiliary jacking plate 4345, when the grabbing clamp plates 4343 grab the brick, the brick has a tendency of upward extrusion, if the brick is not limited, the brick can be arched upwards, and the auxiliary jacking plate 4345 plays an upper limiting role, the building blocks are all flattened on a plane, meanwhile, the auxiliary jacking plate 4345 also has the function of assisting in building a wall, when a leather building block is piled on a wall building plate, because mortar on a lower layer is soft, in the leather building block, some sinking can occur, and the phenomenon of some sinking can not occur, so that the leather building block can be built to be highly different after the mortar is removed, therefore, when the building blocks are stacked on the wall plate, the auxiliary jacking plate 4345 can be utilized to form downward jacking force, redundant mortar is extruded, and the stacking height consistency of the leather building block is ensured.

The trolley connecting top beam plate 432 is provided with a central hole groove 4321, and the central hole groove 4321 covers the area where all the jacking cylinders 4344 are located, so that when the material grabbing frame assembly 434 is lifted, the lifting movement of the jacking cylinders 4344 is not interfered by the trolley connecting top beam plate 432.

The automatic guniting device 5 comprises guniting trolley moving rails 51 and guniting trolley moving rails 52, the two guniting trolley moving rails 51 are arranged in parallel, the guniting trolley moving rails 52 are movably mounted on the two guniting trolley moving rails 51, rotary type mechanical arms 53 are rotatably mounted on the guniting trolley 52, spraying nozzles 531 are mounted at the end portions of the rotary type mechanical arms 53, the spraying nozzles 531 are flat, when mortar (or coagulant) spraying operation is required, the spraying nozzles 531 rotate to the positions right above a wall body, after spraying is finished, the spraying nozzles 531 rotate to the outer side, wall building operation of lower-layer building blocks is not influenced, the width of the spraying nozzles can cover the width of the wall building blocks, one-time guniting operation on one leather wall body can be achieved through one-time movement of the guniting trolley 52, the efficiency of the guniting operation is high, the spraying nozzles 531 are guaranteed to be always positioned right above the wall body during spraying operation through movement of the rotary type mechanical arms 53, a mortar barrel 54 is further mounted on the guniting trolley 52, the wall building walls generally adopt mortar or coagulant and other raw materials such as mortar gaps for connecting and filling raw materials, the mortar seam layers after spraying are generally 8-10mm thick, the mortar layers are generally connected to a temporary guniting barrel 54, and the guniting barrel is generally used for storing the raw materials below the guniting barrel.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (4)

1. The utility model provides a formwork platform device is corrected in marshalling of wallboard part, includes that the building block marshalling is moulded the platform (11), keeps off subassembly (14), side fender subassembly (15) before, characterized in that: the building block marshalling mould platform (11) is provided with a rectangular table top, a transmission belt (12) is installed on the table top of the building block marshalling mould platform (11), a short side end of the building block marshalling mould platform (11) is set as a feeding hole (111), a long side end of the building block marshalling mould platform (11) is set as a discharging hole (112), the feeding hole (111) and the discharging hole (112) are respectively provided with a turnover material guiding mechanism (13), the front baffle component (14) is installed at the opposite side short side end of the feeding hole (111), and the side baffle component (15) is installed at the opposite side long side end of the discharging hole (112).

2. A modular straightening table apparatus for wallboard components as claimed in claim 1 in which: the turnover gauge mechanism (13) comprises first moving rails (131), a stop lever turnover assembly (132) and a stop lever translation assembly (134), wherein the two first moving rails (131) are arranged in parallel, the two first moving rails (131) are installed on the lower end face of the table top of a block grouping mold table (11), the stop lever turnover assembly (132) is installed on the two first moving rails (131), the stop lever turnover assembly (132) comprises a moving base (1321), a rotating shaft (1323) and a turnover driving rack (1326), each first moving rail (131) is movably provided with one moving base (1321), each moving base (1321) is provided with a bearing seat (1322), the rotating shaft (1323) is rotatably installed on the two bearing seats (1323), two ends of the rotating shaft (1323) extend towards the outer side of the bearing seats (1322) and are provided with turnover gears (1324), the moving base (1321) is provided with a second moving rail (1325), the turnover driving rack (1326) is installed on the second moving rail (1322), the turnover driving rack (1326) is meshed with a piston rod (1327), and the turnover driving cylinder (1327) is further provided with a turnover driving cylinder (1327), the overturning driving cylinder (1327) can pull an overturning driving rack (1326) to move on a second moving rail (1325), so that the rotating shaft (1323) is driven to rotate through the overturning gear (1324), a plurality of gauge material blocking rods (133) are connected to the rotating shaft (1323), the gauge material blocking rods (133) are uniformly distributed along the length direction of the rotating shaft (1323), each moving base (1321) is connected with a blocking rod translation assembly (134), the blocking rod overturning assembly (132) can be driven to integrally translate through the blocking rod translation assembly (134), each blocking rod translation assembly (134) comprises a translation pull plate (1341) and a translation driving cylinder (1342), the translation pull plate (1341) is connected to the moving base (1321), the translation driving cylinder (1342) is installed below the grouping mold table (11), the piston rod end of the translation driving cylinder (1342) is connected with the translation pull plate (1341), a feeding port (111) and a discharging port (112) of the grouping mold table (11) are provided with a plurality of moving blocking rods (113), and the number of moving block blocking rods and the blocking rods (113 and the moving table is corresponding to the number of the blocking rod mounting positions of the blocking rods.

3. A modular straightening table apparatus for wallboard components as claimed in claim 1 in which: the front stop assembly (14) comprises a front stop cylinder (141) and a front stop cylinder mounting plate (142), the front stop cylinder mounting plate (142) is connected to the side wall of the building block grouping mold table (11), the front stop cylinder (141) is mounted on the front stop cylinder mounting plate (142), the piston rod end of the front stop cylinder (141) is connected with a front stop baffle (143), and the front stop baffle (143) is mounted towards the direction of the feeding port (111).

4. A modular straightening table apparatus for wallboard components as claimed in claim 1 in which: side keeps off subassembly (15) including side fender cylinder (151), side fender cylinder mounting bracket (152), side fender baffle (153), side fender cylinder mounting bracket (152) is connected on building block marshalling mould platform (11) lateral wall, and is a plurality of side fender cylinder (151) equipartition is installed on side fender cylinder mounting bracket (152), and is whole the piston rod end of side fender cylinder (151) all connects on side fender baffle (153), side fender baffle (153) are installed towards discharge gate (112) direction.

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