CN215241710U - Automatic loading and discharging device of wallboard part filling module - Google Patents

Abstract

The utility model discloses an automatic loading and discharging device of a wallboard part filling module, which comprises a pre-arranged groove mechanism, a mold loading mechanism, a lifting filling mold mechanism and a building block loading mechanism, wherein the pre-arranged groove mechanism comprises a pre-arranged groove body, a groove body base plate and a groove body translation assembly, the pre-arranged groove body is movably arranged on the groove body base plate through the groove body translation assembly, a groove body synchronous lifter is arranged below the groove body base plate, the mold loading mechanism is arranged on the pre-arranged groove mechanism in a crossing manner, the lifting filling mold mechanism is arranged on the right side of the pre-arranged groove mechanism, and the building block loading mechanism is arranged on the lifting filling mold mechanism in a crossing manner, the utility model has novel structure, the filling blocks are arranged in a row in the pre-arranged groove body firstly, then the filling operation on the building blocks is carried out in a single step manner, the process is carried out in a full-automatic manner, one building block part completes the loading, and can load a plurality of building block parts at one time, the filling efficiency is greatly improved.

Description

Automatic loading and discharging device of wallboard part filling module

Technical Field

The utility model belongs to the technical field of the modularization wallboard automatic production technique and specifically relates to an automatic loading discharging device of module is filled to wallboard portion article.

Background

The hollow building block is a main wall material commonly used in the building industry, is an important component of a modular wallboard, and has become a product recommended in the building industry due to the advantages of light weight, less raw material consumption and the like.

Because a plurality of holes exist in one block part, the workload is the largest in the block filling operation, and the manual filling is generally adopted at present, so that the manpower usage amount is large, and the filling efficiency is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide an automatic loading discharging device of module is filled to wallboard portion article.

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

an automatic loading and discharging device of a wallboard part filling module comprises a pre-groove mechanism, a mould loading mechanism, a lifting filling mould mechanism and a building block loading mechanism, the pre-groove mechanism comprises a pre-groove body, a groove body base plate and a groove body translation assembly, the pre-groove body is movably arranged on the groove body base plate through the groove body translation assembly, a groove body synchronous lifter is arranged below the groove body base plate, the pre-arranged groove body can be driven to do lifting motion through the synchronous lifter of the groove body, the mold filling mechanism is arranged on the pre-arranged groove mechanism in a crossing way, the lifting filling die mechanism is arranged on the right side of the pre-groove mechanism, the building block filling mechanism is arranged on the lifting filling die mechanism in a crossing way, the filling block in the preset groove body can be filled on the filling mould through the mould filling mechanism, and the filling block on the filling mould can be filled on the building block component through the building block filling mechanism.

The pre-arranged groove body is provided with a plurality of remaining modules, each remaining module is internally provided with a plurality of filling block remaining grooves, and the cross section shape and the opening size of each remaining module are matched with the cross section shape and the opening size of a building block component to be filled.

The lifting filling die mechanism comprises a filling die mounting frame, a plurality of filling dies are mounted on the filling die mounting frame, a plurality of filling holes are formed in each filling die, the shapes and the sizes of the filling dies are matched with those of building block parts to be filled, the number of the filling dies is consistent with that of the remaining modules, a filling die synchronous lifter is mounted below the filling die mounting frame, and the filling dies can be driven to do lifting motion through the filling die synchronous lifter.

Cell body translation subassembly includes that the cell body removes rail, cell body and passes the cylinder, two the cell body removes rail parallel arrangement and fixed mounting on cell body bed plate up end, it is connected with a plurality of cell body removal sliders to preset the cell body below, the cell body removes slider size and cell body and removes the rail phase-match, it removes the slider removal through the cell body and installs on two cell body removal rails to preset the cell body, cell body passes cylinder fixed mounting on cell body bed plate up end, it is connected with the push pedal on the terminal surface under the cell body to preset, the tailpiece of the piston rod of cell body passes the cylinder is connected with the push pedal.

The mould loads the mechanism and includes that the mould loads the frame, the mould loads the montant, two the mould loads frame parallel arrangement, every all remove to install a mould on the mould loads the frame and loads the dolly, two the mould is loaded and is connected with the mould between the dolly and load the motion roof beam, and is a plurality of the mould loads the montant and connects perpendicularly and load the motion roof beam below at the mould, every the mould loads and all is connected with a plurality of mould perpendicularly on the montant and loads the horizontal pole, the mould loads the horizontal pole and leaves the installation of groove direction towards the filling block, adjacent two from top to bottom between the filling block is kept somewhere between the groove, top layer filling block is kept somewhere between the groove and is preset the roof of cell body and all preset and be equipped with the mould and load montant motion groove, the width size that the mould loaded the montant motion groove matches with the diameter size that the mould loaded the montant.

Building block loading mechanism includes that the building block loads the frame, the building block loads the montant, two the building block loads frame parallel arrangement, every all remove to install a building block on the building block loads the frame and loads the dolly, two the building block is loaded and is connected with the building block between the dolly and loads the motion beam, and is a plurality of the building block loads the montant and connects perpendicularly and load the motion beam below at the building block, every all be connected with a plurality of building block on the building block loads the montant perpendicularly and load the horizontal pole, the building block loads the horizontal pole and installs towards the filled hole direction.

The utility model has the advantages that: the utility model discloses novel structure, the earlier one row of filling block is kept somewhere presetting the cell body, then the operation of loading on carrying out the building block of single step-by-step output again, and above-mentioned process full automatization goes on, and a building block part once accomplishes and loads, once can load simultaneously a plurality of building block parts, loads the operating efficiency and promotes by a wide margin.

Drawings

Fig. 1 is a top view of a fully automated filling and compounding system for a wall panel component in accordance with the present invention;

fig. 2 is a top view of an in-line filling and compounding device of a fully automatic filling and compounding system for wall panel components according to the present invention;

fig. 3 is a structural side view of a diversion trench circulation feeding device of a full-automatic filling composite system of a wallboard component applied in the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a side view of the embedded filling and compounding device of the fully automated filling and compounding system for wall panel components of the present invention;

FIG. 6 is a front view structural diagram of the pre-grooving mechanism and the mold loading mechanism of the present invention;

FIG. 7 is a side view of the pre-grooving mechanism of the present invention;

FIG. 8 is a side view structural diagram of the elevating filling die mechanism and the block loading mechanism of the present invention;

FIG. 9 is a front view structural diagram of the elevating filling mold mechanism and the building block filling mechanism of the present invention;

fig. 10 is a top view structural diagram of a block filling station of a fully automatic filling composite system for wall panel components in accordance with the present invention;

fig. 11 is a top view of a multi-dimensional slab-turning intensive system of a fully automatic filling composite system for wallboard parts in accordance with the present invention;

fig. 12 is a schematic view of the first blank turning effect of the fully automatic filling composite system of the wallboard part applied in the present invention;

fig. 13 is a schematic diagram of the second blank turning effect of the fully automatic filling composite system of the applied wallboard part.

In the figure: an embedded filling composite device 1, a diversion trench circulating feeding device 11, a filling block input mechanism 111, a filling block input platform 1111, a filling block conveying belt 1112, a side guide baffle 1113, a counting assembly 1114, a counting rack 11141, a counting sensor 11142, a circulating feeding mechanism 112, a circulating conveying belt 1121, a trough partition 1122, a filling block feeding grid 1123, a blanking positioning partition 11231, a preset filling vertical rod moving groove 11232, a filling block preset filling assembly 1124, a preset filling frame 11241, a preset filling trolley 11242, a preset filling moving beam 11243, a preset filling vertical rod 11244, a preset filling horizontal rod 11245, a grid group 1125, an automatic filling and discharging device 12, a preset groove mechanism 121, a preset groove body 1211, an indwelling module 12111, a filling block indwelling groove 12112, a mold filling vertical rod moving groove 12113, a groove body base plate 1212, a groove body translation assembly 1213, a groove body moving rail 12131, a groove body moving slider 12132, a groove body shifting slider 12132, a counting assembly 1114, a counting assembly 11141, a counting assembly 112assembly 11232, a counting assembly 112assembly, a counting assembly, a, A trough body pushing cylinder 12133, a push plate 12134, a trough body synchronous lifter 1214, a mold filling mechanism 122, a mold filling frame 1221, a mold filling trolley 1222, a mold filling moving beam 1223, a mold filling vertical rod 1224, a mold filling cross rod 1225, a lifting filling mold mechanism 123, a filling mold installation frame 1231, a filling mold 1232, a filling hole 1233, a filling mold synchronous lifter 1234, a block filling mechanism 124, a block filling frame 1241, a block filling trolley 1242, a block filling moving beam 1243, a block filling vertical rod 1244, a block filling cross rod 1245, a filling composite platform 2, a feeding platform 21, a block group regulating and positioning mechanism 3, a regulating cylinder installation platform 31, a regulating cylinder 32, a baffle 33, a multi-dimensional block-turning regulating and collecting system 4, a first turning platform 41, a first chain conveyor belt, a cross-shaped turning mechanism 412, a turning shaft 4121, a turning frame 4122, a first transposition platform 42, a second transposition platform 42, a third transposition platform, The block group replacing device comprises an advancing baffle 421, a block group replacing component 422, a replacing air cylinder installing platform 4221, a replacing air cylinder 4222, a replacing push plate 4223, a second overturning platform 43, a second chain type conveying belt 431, a second replacing platform 44, a first plane conveying belt 441, a right advancing baffle 442, an output platform 45 and a second plane conveying belt 451.

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 to 13, a full-automatic filling and compounding system for wallboard components comprises an embedded filling and compounding device 1 and a filling and compounding platform 2, wherein the embedded filling and compounding device 1 comprises a diversion trench circulation feeding device 11 and an automatic filling and discharging device 12, the diversion trench circulation feeding device 11 comprises a filling block input mechanism 111 and a circulation feeding mechanism 112, the filling block input mechanism 111 and the circulation feeding mechanism 112 are arranged along a straight line, filling blocks which are subjected to automatic cutting processing in the front pass are input from the filling block input mechanism 111, the filling blocks formed by cutting processing are consistent in size with hollow holes of building block components to be filled, as the filling block raw material plate is large in size, a plurality of rows of filling blocks can be formed after cutting processing, the filling blocks in each row are consistent in size, the circulation feeding mechanism 112 is used for receiving the filling block rows conveyed from the filling block input mechanism 111, the automatic loading and discharging device 12 is arranged on the right side of the circulating loading mechanism 112, the automatic loading and discharging device 12 is used for taking and keeping a row of filling blocks and using the row of filling blocks for loading operation, the filling composite platform 2 is arranged on the right side of the automatic loading and discharging device 12 in a close manner, a feeding platform 21 is connected to the front of the filling composite platform 2, a building block group regulating and positioning mechanism 3 is arranged on the filling composite platform 2, a conveying belt is arranged on the feeding platform 21, building block components are input from the feeding platform 21 and flow to the filling composite platform 2, the conveying belt is also arranged on the filling composite platform 2, after a plurality of building block components flow on the filling composite platform 2 and enter a filling station area, the conveying belt stops acting, a plurality of building block components are regulated into a straight line through the building block group regulating and positioning mechanism 3 and approach the automatic loading and discharging device 12, and the automatic loading and discharging device 12 is used for loading operation of the filling blocks, fill 2 back ways of composite platform and be connected with multidimension degree and turn over intensive system 4 of base, accomplish and load the operation back, the building block part continues to circulate the output, accomplishes the holistic multi-direction upset operation of building block part on multidimension degree turns over intensive system 4, and the building block part of final output, the hole up to satisfy subsequent operation user demand of building a wall, the utility model discloses degree of automation is high, and the double-line circulation of building block part and filling block, the operation of loading of filling block and the base operation of turning over of building block part all are full-automatic going on, do not need the manual cooperation, have production efficiency height, low in production cost's advantage, can satisfy the demand that the operation was loaded in batches fast to the building block.

The filling block input mechanism 111 comprises a filling block input platform 1111 and a counting assembly 1114, a filling block conveying belt 1112 is installed on the table top of the filling block input platform 1111, a filling block is input through the filling block conveying belt 1112, side guide baffles 1113 are symmetrically installed on two sides of the filling block conveying belt 1112, the side guide baffles 1113 are used for limiting conveying on two sides, the counting assembly 1114 is installed on the filling block input platform 1111, the counting assembly 1114 is used for counting the input filling block groups, the input number of filling block rows is recorded through the counting assembly 1114, the work load is recorded, the opening of the filling block conveying belt 1112 can also be controlled through counting, the counting assembly 1114 comprises a counting frame 11141 and a counting sensor 11142, the counting frame 11141 is installed on the filling block conveying belt 1112 in a crossing manner, the counting sensor 11142 is fixedly installed on the counting frame 11141, and a gap is left between the counting frame 11141 and the filling block conveying belt 1112, the counting sensors 11142 are all mounted facing downward and the row of fillers flows through the gap between the counting rack 11141 and the filler conveyor belt 1112.

The circulating feeding mechanism 112 is mounted close to the filling block input platform 1111, the circulating feeding mechanism 112 comprises a circulating conveying belt 1121 and a filling block pre-loading assembly 1124, a plurality of trough partitions 1122 are uniformly distributed and connected on the circulating conveying belt 1121, a filling block feeding grid 1123 is formed between every two adjacent trough partitions 1122, each filling block feeding grid 1123 can be connected with a row of filling blocks, the circulating conveying belt 1121 moves circularly, so that the filling blocks in the rows sequentially fall into the filling block feeding grids 1123, a blanking positioning partition 11231 is mounted in each filling block feeding grid 1123, the mounting height of the blanking positioning partition 11231 determines the position height of the filling blocks after entering the filling block feeding grids 1123, in order to ensure the smooth subsequent loading, the filling blocks are accurately placed when blanking is carried out in advance, the requirement can be met by the blanking positioning partition 11231, the filling block pre-loading assembly 1124 is mounted on the circulating conveying belt 1121 in a crossing manner, the filling blocks falling on the circulating conveying belt 1121 are arranged in a whole row, when the block parts need to be filled, the filling is carried out by one block, the filling operation is unrealistic by directly applying the filling blocks on the circulating conveying belt 1121, therefore, a device for intermediate transfer retention is needed to store the filling block row, a filling block preset filling assembly 1124 plays a role of filling the filling block row on the circulating conveying belt 1121 on the retention device, the filling block preset filling assembly 1124 comprises a preset filling frame 11241 and preset filling vertical rods 11244, the two preset filling frames 11241 are arranged in parallel, each preset filling frame 11241 is movably provided with one preset filling trolley 11242, a preset filling moving beam 11243 is connected between the two preset filling trolleys 11242, a plurality of preset filling vertical rods 11244 are vertically connected below the preset filling moving beam 11243, and a plurality of preset filling transverse rods 11245 are vertically connected on each preset filling vertical rod 11244, the preset filling cross bars 11245 are arranged towards the direction of the filling block feeding grids 1123, the preset filling cross bars 11245 are driven to move towards the circulating conveying belt 1121 through the movement of the preset filling trolley 11242, so that the filling blocks in the filling block feeding grids 1123 can be pushed into the indwelling device, the preset filling cross bars 11245 are preferably arranged in two, namely one above the other, so that the filling blocks with long cross sections can be pushed, the filling blocks with short cross sections can also be pushed, the blanking positioning partition plate 11231 is provided with a preset filling vertical bar moving groove 11232, the preset filling vertical bar moving groove 11232 penetrates through the front and the back of the whole filling block feeding grids 1123, the width size of the preset filling vertical bar moving groove 11232 is matched with the diameter size of the preset filling vertical bar 11244, the preset filling block feeding grids 11244 are required to penetrate through the filling block feeding grids 1123 to push the filling block rows in a back and forth movement manner, the mounting height of the blanking positioning partition plate 31 in the filling block feeding grids 1123 is different, some blanking positioning partition plates 11231 arranged at higher positions can interfere with the preset filling vertical rods 11244 in motion, the interference can be eliminated by arranging the preset filling vertical rod motion grooves 11232, and meanwhile, the falling position of the filling blocks cannot be influenced due to the fact that the width of the preset filling vertical rod motion grooves 11232 is small.

The automatic filling and discharging device 12 comprises a preset groove mechanism 121, a mold filling mechanism 122, a lifting filling mold mechanism 123 and a building block filling mechanism 124, wherein the preset groove mechanism 121 comprises a preset groove 1211, a groove base plate 1212 and a groove translation assembly 1213, the preset groove 1211 is used for remaining and storing a row of filling blocks, the row of filling blocks pushed out from the circulating conveyor belt 1121 is sent into the preset groove 1211 to be left so as to carry out subsequent filling operation, the preset groove 1211 is provided with a plurality of remaining modules 12111, each remaining module 11 121is internally provided with a plurality of filling block remaining grooves 12112, the inlet end of each filling block remaining groove 12112 is provided with a larger end, so that the filling blocks can be conveniently filled and pushed in, the sectional shape and the size of each remaining module 12111 are matched with the sectional shape and the size of a building block component to be filled, the subsequent alignment filling is convenient, and the length of the remaining modules 12111 is longer, therefore, a whole row of filling blocks can be reserved at one time, the preset tank 1211 is movably arranged on a tank base plate 1212 through a tank translation assembly 1213, a tank synchronous lifter 1214 is arranged below the tank base plate 1212, the preset tank 1211 can move up and down through the tank synchronous lifter 1214, the preset tank 1211 completes the alignment filling operation in the lifting movement process, the common hollow block component is six-hole, the holes are of an upper layer and a lower layer, the reserved filling needs to be pushed in layer by layer, thus, as shown by a dotted line in fig. 6, the preset tank 1211 needs to have a plurality of height positions for filling each layer, meanwhile, when the filling blocks are output from the preset tank 1211, an output height position is needed, the height change of the preset tank 1211 is realized by the tank synchronous lifter 1214, the preset tank 1211 needs to approach to the circulating conveying belt 1121 during the preset filling, so as to facilitate pushing of the filling block row, the preset tank 1211 needs to be close to the lifting filling die mechanism 123 to facilitate die loading and discharging when outputting and filling, and thus the preset tank 1211 needs to be capable of moving back and forth, the above function is realized by the tank translation assembly 1213, the tank translation assembly 1213 includes a tank moving rail 12131 and a tank pushing cylinder 12133, two tank moving rails 12131 are arranged in parallel and fixedly mounted on the upper end face of a tank base plate 1212, a plurality of tank moving sliders 12132 are connected below the preset tank 1211, the size of the tank moving sliders 12132 matches with the size of the tank moving rail 12131, the preset tank 1211 is movably mounted on two tank moving rails 12131 through the tank moving sliders 12132, the tank pushing cylinder 12133 is fixedly mounted on the upper end face of the tank base plate 1212, a push plate 12134 is connected on the lower end face of the preset tank 1211, and the piston rod end of the tank pushing cylinder 12133 is connected with the push plate 12134, the trough body pushing cylinder 12133 drives the movement of the preset trough body 1211 through the push plate 12134, the preset trough body 1211 plays a preset role of a filling block, the filling block is to be filled onto a filling mold subsequently, the process is realized by the mold filling mechanism 122, the mold filling mechanism 122 is installed on the preset trough mechanism 121 in a crossing manner, the mold filling mechanism 122 comprises a mold filling frame 1221 and mold filling vertical rods 1224, the two mold filling frames 1221 are arranged in parallel, each mold filling frame 1221 is movably provided with a mold filling trolley 1222, a mold filling moving beam 1223 is connected between the two mold filling trolleys 1222, the mold filling vertical rods 1224 are vertically connected below the mold filling moving beam 1223, each mold filling vertical rod 1224 is vertically connected with a plurality of mold filling cross rods 1225, the mold filling cross rods 1225 are installed towards the direction of the filling block remaining trough 12112, the filling block is pushed by the mold filling cross rods 1225 for filling operation, because the filling blocks of the filling block retaining grooves 12112 are arranged in a row and filled one by one when being filled on a mold, the mold filling trolley 1222 adopts a stepping propulsion mode to propel the mold to move only one distance of the length of the filling block at a time, mold filling vertical rod moving grooves 12113 are pre-arranged between two adjacent filling block retaining grooves 12112 at the upper and lower sides and between the top layer filling block retaining groove 12112 and the top plate of the pre-arranged groove 1211, the width dimension of the mold filling vertical rod moving grooves 12113 is matched with the diameter dimension of the mold filling vertical rods 1224, in the propulsion filling process, the mold filling vertical rods 1224 move along the length direction of the pre-arranged groove 1211, in the process, the mold filling vertical rods 1224 interfere with the pre-arranged groove 1211, the mold filling mechanism 123 is installed at the right side of the pre-arranged groove mechanism 121, the mold filling mechanism 123 comprises a filling mold installation frame 1231, the filling mold installation frame 1231 is provided with a plurality of filling molds 1232, each filling mold 1232 is internally provided with a plurality of filling holes 1233, the shapes and the opening sizes of the filling molds 1232 are matched with the building block components to be filled, the filling operation can be completed at one time after alignment, the number of the filling molds 1232 is consistent with that of the remaining modules 12111, the filling of the filling molds 1232 is convenient, a filling mold synchronous lifter 1234 is installed below the filling mold installation frame 1231, when the filling molds 1232 descend, the alignment with the preset groove 1211 is needed to perform the mold filling operation, when the filling molds 1232 ascend, the alignment with the building block components is needed to complete the filling operation of the building block components, the ascending and descending movement of the filling molds 1232 can be realized through the filling mold synchronous lifter 1234 to meet the requirements of the two working states, the filling operation on the building block components is realized through the building block filling mechanism 124, the building block loading mechanism 124 spans and is installed on the lifting filling die mechanism 123, the building block loading mechanism 124 comprises a building block loading frame 1241, a building block loading vertical rod 1244, two building block loading frames 1241 are arranged in parallel, a building block loading trolley 1242 is installed on each building block loading frame 1241 in a moving mode, a building block loading moving beam 1243 is connected between the two building block loading trolleys 1242, a plurality of building block loading vertical rods 1244 are perpendicularly connected below the building block loading moving beam 1243, a plurality of building block loading horizontal rods 1245 are perpendicularly connected to each building block loading vertical rod 1244, the building block loading horizontal rods 1245 are installed towards the direction of a filling hole 1233, the length of each building block loading horizontal rod 1245 is longer than the thickness of the filling die 1232, and therefore, under the condition that the building block loading vertical rod 1244 does not need to touch the filling die 1232, the filling blocks can be smoothly pushed into the holes for filling the building block components through pushing once.

A plurality of material grid groups 1125 are uniformly distributed on the circulating conveyer belt 1121, each material grid group 1125 comprises a plurality of filling block feeding grids 1123, filling block retaining grooves 12112 on the preset groove body 1211 are sequentially divided into a plurality of rows from top to bottom, one group of material grid groups 1125 correspond to one row of filling block retaining grooves 12112, and filling operation of the filling block retaining grooves 12112 is carried out in a row through the lifting transposition of the preset groove body 1211.

The building block group arrangement positioning mechanism 3 comprises an arrangement cylinder mounting platform 31, arrangement cylinders 32 and an arrangement baffle 33, wherein the arrangement cylinder mounting platform 31 is connected to the right side of the filling composite platform 2, a plurality of arrangement cylinders 32 are fixedly mounted on the arrangement cylinder mounting platform 31, the arrangement baffle 33 is connected with the piston rod ends of all the arrangement cylinders 32, the arrangement baffle 33 is mounted towards the left side of the filling composite platform 2, position deviation is easily formed when building block components advance on the filling composite platform 2, the building block components are prone to be distorted, and therefore, the filling operation fails, and before the filling operation, the arrangement is needed, all the building block components in the filling operation area are arranged in a straight line and are pushed to approach a filling mold 1232, in the filling operation, the pushing of the filling blocks brings impact force, and if the pushing of the building block components is not limited, the building block components are prone to be pushed, the structured baffles 33 also act to counteract impact forces during the filling operation.

The building block part needs to be vertically circulated in the filling operation, the hole faces the side of the filling equipment, so that the filling block can be conveniently filled, because the next procedure after filling is the wall building operation, when the wall building is taken, the building block part needs to be horizontally laid, the hole faces upwards, and thus, the filled building block part needs to be overturned in multiple angles, so that the requirement of the next procedure can be met, the utility model discloses in adopt a multidimensional blank overturning intensive system 4 to realize the blank overturning operation of the building block part, the multidimensional blank overturning intensive system 4 comprises a first overturning platform 41 and a first transposition platform 42, the first overturning platform 41 is connected with a filling composite platform 2, the feeding platform 21, the filling composite platform 2 and the first overturning platform 41 are arranged along a straight line, the building block part is input from the feeding platform 21, the filling is completed on the filling composite platform 2, and the filled building block part flows onto the first overturning platform 41 to overturn once, the first inversion platform 41 is provided with a first chain conveyor 411 and a cross-shaped inversion mechanism 412, the cross-shaped inversion mechanism 412 is arranged in the middle of the first inversion platform 41, the cross-shaped inversion mechanism 412 comprises an inversion shaft 4121, the inversion shaft 4121 is in power connection with a power source, the inversion shaft 4121 is connected with a plurality of cross-shaped inversion frames 4122, each cross-shaped inversion frame 4122 is arranged at a position with a chain gap on the first chain conveyor 411, a block component is blocked by the cross-shaped inversion frame 4122 in the process of conveying and advancing on the first chain conveyor 411, through ninety-degree inversion of the cross-shaped inversion frames 4122, the vertical block component is inverted into a horizontal lying state, which is an effect of one-time inversion, the first inversion platform 42 is provided with a rectangular table board, the first inversion platform 42 is provided with two short edge ends, one short edge end of the first inversion platform 42 is connected with the first inversion platform 41, the block component after one-time of inversion flows to the first inversion platform 42, an advancing baffle 421 is installed at the other short side end position of the first transposition platform 42, the advancing baffle 421 plays a role in advancing and limiting the block component, a block group transposition assembly 422 is connected to the left side of the first transposition platform 42, a second overturning platform 43 is connected to the right side of the first transposition platform 42, the block group transposition assembly 422 on the first transposition platform 42 shifts and pushes the block component to the second overturning platform 43, the block group transposition assembly 422 comprises a transposition air cylinder installation platform 4221 and a transposition push plate 4223, a plurality of transposition air cylinders 4222 are installed on the transposition air cylinder installation platform 4221, piston rod ends of the transposition air cylinders 4222 are connected to the transposition push plate 4223, the transposition push plate 4223 is installed towards the direction of the second overturning platform 43, a second chain conveyor belt 431 is installed on the second overturning platform 43, a cross-shaped overturning mechanism 412 is also installed in the middle of the second overturning platform 43, and the block component is overturned for the second time on the second overturning platform 43, the building block component is turned from a horizontal lying state to a horizontal lying state, in the state, the hole of the building block component faces upwards to meet the demand for taking the building block, the right side of a second turning platform 43 is connected with a second transposition platform 44, the second transposition platform 44 is a rectangular table top, one short side end of the second transposition platform 44 is provided with a building block group transposition assembly 422, the other short side end of the second transposition platform 44 is connected with an output platform 45, a first plane conveyor belt 441 is arranged on the second transposition platform 44, the right side of the second transposition platform 44 is provided with a right feeding baffle 442, the second transposition platform 44 is used as a transfer and regulation platform, the first plane conveyor belt 441 drives the building block component to move from left to right, the building block component is blocked and regulated on the right feeding baffle 442, and then pushed to the output platform 45 through the building block group transposition assembly 422, the output platform 45 is provided with a second plane conveyor belt 451, and the turning plane component faces upwards, The block components after the arranging are output through the second plane conveying belt 451.

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 (6)

1. The utility model provides an automatic loading discharging device of wallboard portion article filling module, includes preset groove mechanism (121), mould filling mechanism (122), goes up and down to fill die mechanism (123), building block filling mechanism (124), its characterized in that: the pre-groove mechanism (121) comprises a pre-groove body (1211), a groove body base plate (1212) and a groove body translation assembly (1213), the preset groove body (1211) is movably arranged on a groove body base plate (1212) through a groove body translation component (1213), a trough body synchronous lifter (1214) is arranged below the trough body base plate (1212), the tank body synchronous lifter (1214) can drive the preset tank body (1211) to do lifting movement, the mould filling mechanism (122) is arranged on the pre-groove mechanism (121) in a crossing way, the lifting filling die mechanism (123) is arranged on the right side of the pre-arranged groove mechanism (121), the building block filling mechanism (124) is installed on the lifting filling mold mechanism (123) in a crossing way, the filling block in the pre-groove (1211) can be filled on the filling mould (1232) through the mould filling mechanism (122), the block filling mechanism (124) can fill the filling blocks on the filling mold (1232) to the block components.

2. The automatic loading and discharging device of a wallboard component filling module of claim 1, wherein: the preset groove body (1211) is provided with a plurality of remaining modules (12111), a plurality of filling block remaining grooves (12112) are formed in each remaining module (12111), and the cross section shape and the opening size of each remaining module (12111) are matched with the cross section shape and the opening size of a building block component to be filled.

3. The automatic loading and discharging device of a wallboard component filling module of claim 2, wherein: the lifting filling die mechanism (123) comprises a filling die mounting frame (1231), a plurality of filling dies (1232) are mounted on the filling die mounting frame (1231), each filling die (1232) is internally provided with a plurality of filling holes (1233), the shapes and the opening sizes of the filling dies (1232) are matched with building block components to be filled, the set number of the filling dies (1232) is consistent with that of the remaining modules (12111), and a filling die synchronous lifter (1234) is mounted below the filling die mounting frame (1231), so that the filling dies (1232) can be driven to move up and down through the filling die synchronous lifter (1234).

4. The automatic loading and discharging device of a wallboard component filling module of claim 3, wherein: the cell body translation subassembly (1213) includes cell body removal rail (12131), cell body lapse cylinder (12133), two cell body removal rail (12131) parallel arrangement and fixed mounting are on cell body base plate (1212) up end, it moves slider (12132) to preset cell body (1211) below and is connected with a plurality of cell bodies, cell body removes slider (12132) size and cell body and removes rail (12131) phase-match, it removes slider (12132) through the cell body and removes and install on two cell body removal rails (12131) to preset the cell body (1211), cell body lapse cylinder (12133) fixed mounting is on cell body base plate (1212) up end, it is connected with push pedal (12134) on the cell body (1211) down end to preset, the tailpiece of the piston rod of cell body lapse cylinder (12133) is connected with push pedal (12134).

5. The automatic loading and discharging device of a wallboard component filling module of claim 4, wherein: the mold filling mechanism (122) comprises mold filling frames (1221) and mold filling vertical rods (1224), wherein the two mold filling frames (1221) are arranged in parallel, each mold filling frame (1221) is movably provided with a mold filling trolley (1222), a mold filling moving beam (1223) is connected between the two mold filling trolleys (1222), the mold filling vertical rods (1224) are vertically connected below the mold filling moving beam (1223), each mold filling vertical rod (1224) is vertically connected with a plurality of mold filling cross rods (1225), the mold filling cross rods (1225) are installed towards the directions of filling block retaining grooves (12112), mold filling vertical rod moving grooves (12113) are pre-opened between the upper and lower adjacent two filling block retaining grooves (12112) and between the top layer filling block retaining groove (12112) and the top plate of a pre-arranged groove body (1211), the width dimension of the vertical mold filling rod moving groove (12113) is matched with the diameter dimension of the vertical mold filling rod (1224).

6. The automatic loading and unloading device of the wallboard part filling module of claim 5, wherein: building block filling mechanism (124) are including building block filling frame (1241), building block filling montant (1244), two building block filling frame (1241) parallel arrangement, every all remove on building block filling frame (1241) and install a building block filling trolley (1242), two be connected with building block filling movable beam (1243) between building block filling trolley (1242), it is a plurality of building block filling montant (1244) is connected perpendicularly in building block filling movable beam (1243) below, every all be connected with a plurality of building block filling horizontal pole (1245) perpendicularly on building block filling montant (1244), building block filling horizontal pole (1245) are installed towards filler hole (1233) direction.

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