CN218365738U - Automatic milling, grinding and turning system for wallboard component group - Google Patents

Abstract

The utility model discloses an automatic of wallboard part group mills plane system of turning of polishing, including milling plane platform device, marshalling and correcting turning device, two mill plane platform device symmetrical arrangement, every mills to all install a lift directly over the plane platform device and mills plane the device, marshalling and correcting turning device sets up between two mill plane platform devices, marshalling and correcting turning device includes conveyer belt chain subassembly, corrects the upset subassembly, conveyer belt chain subassembly is used for the transport of building block part group, two correct the both ends that the upset subassembly was installed respectively at conveyer belt chain subassembly, correct the upset subassembly and carry out the turn-over operation to building block part group, the utility model discloses rationally distributed, can automatically marshal and turn over building block part, can mill the operation to two faces that need to process on the building block part automatically, degree of automation is high, building block part batch processing in groups, the processing production efficiency also promotes by a wide margin, the lift is milled and is installed dust absorption subassembly on the plane device, has effectively reduced the raise dust phenomenon in processing workshop.

Description

Automatic milling, grinding and turning system for wallboard component group

Technical Field

The utility model belongs to the technical field of modularization wallboard portion article automated processing equipment technique and specifically relates to an automatic gyration system of milling and planing of polishing of wallboard part group is related to.

Background

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

SUMMERY OF THE UTILITY MODEL

The present invention is directed to overcome the above-mentioned deficiencies of the prior art and to provide an automatic milling, grinding and turning system for wallboard assembly.

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

an automatic milling, grinding and turning system for wall plate component sets comprises milling platform devices and a marshalling, correcting and turning device, wherein the two milling platform devices are symmetrically arranged, a lifting milling device is arranged right above each milling platform device, the marshalling, correcting and turning device is arranged between the two milling platform devices, the marshalling, correcting and turning device and the two milling platform devices are arranged in close proximity, the marshalling, correcting and turning device comprises a conveying belt chain assembly and a correcting and turning assembly, the conveying belt chain assembly is used for conveying building block component sets, the two correcting and turning assemblies are respectively arranged at two ends of the conveying belt chain assembly, and the correcting and turning assembly is used for turning over the building block component sets.

The milling platform device comprises a building block marshalling die table, one short side end of the building block marshalling die table is open, the other short side end of the building block marshalling die table is vertically provided with a material blocking top baffle, the long side end of the building block marshalling die table adjacent to a conveying belt chain assembly is provided with a turnover material blocking assembly, the other long side end of the building block marshalling die table is provided with a material pushing marshalling assembly, the turnover material blocking assembly comprises bearing seats, a first rotating shaft and a first speed reducer, the bearing seats are arranged in parallel and fixedly arranged on the side end face of the building block marshalling die table, the first rotating shaft is rotatably arranged on the two bearing seats, the first rotating shaft is connected with a plurality of material blocking rods, the material blocking rods are uniformly distributed along the length direction of the first rotating shaft, the first speed reducer is arranged on the side end face of the building block marshalling die table, one end of the first rotating shaft extends to the outer side of the bearing seats and is in transmission connection with the output end of the first speed reducer, the first speed reducer is connected with a first power motor, the marshalling assembly comprises a material pushing cylinder and a material pushing plate, a plurality of the material pushing cylinder is fixedly arranged on the building block marshalling die table, and the piston of the material blocking cylinder is uniformly distributed towards the overturning direction of the material blocking side.

The lifting milling device comprises a milling machine head moving rail and a milling machine head, the milling machine head moving rail is arranged right above a building block marshalling die table, the milling machine head comprises a moving trolley, a primary machine head sleeve, a quick lifting assembly, a secondary machine head sleeve and a low-speed lifting assembly, the moving trolley is movably arranged on the milling machine head moving rail, a machine head base sleeve is connected below the moving trolley, the primary machine head sleeve is inserted in the machine head base sleeve, the peripheral size of the primary machine head sleeve is matched with the inner hole size of the machine head base sleeve, the primary machine head sleeve drives lifting motion through the quick lifting assembly, the quick lifting assembly comprises a first lifting motor, a first lifting screw and a first lifting seat, the first lifting motor is fixedly arranged on the moving trolley, an output shaft of the first lifting motor is in transmission connection with the first lifting screw, the first lifting seat is connected to the top of the primary machine head sleeve, a screw thread of the first lifting screw is arranged on the first lifting seat, the secondary machine head sleeve is inserted in the primary machine head sleeve, the peripheral size of the secondary machine head sleeve is matched with the inner hole size of the first lifting motor, the second lifting motor is connected to the second lifting screw, a screw thread driving plate, the second lifting motor is connected to a second lifting screw thread fixing plate, and a second lifting screw pitch fixing plate, the second lifting motor is connected to the second lifting screw fixing plate, the milling cutter head is installed at the bottom of the second-stage machine head sleeve, and the dust collection assembly is further installed on the second-stage machine head sleeve.

Dust absorption subassembly includes quick-operation joint, dust extraction, be equipped with a plurality of dust absorption through-holes on the facing cutter, it is a plurality of dust absorption through-hole is with facing cutter axis equipartition, the dust absorption through-hole sets up in the milling cutter blade outside of facing cutter, every quick-operation joint is all installed to dust absorption through-hole position, dust extraction installs on second grade aircraft nose cover lateral wall, and is a plurality of quick-operation joint links to each other with the dust extraction pipeline, quick-operation joint includes the screw base, be connected with a plurality of elasticity card sections, screw thread cover on the screw base, all leave the clearance between the elasticity card section of jurisdiction, screw thread cover screw thread is installed on the screw base, be connected with the extrusion clamp housing on the screw thread cover, the extrusion clamp housing is established in a plurality of elasticity card section of jurisdiction outsides, the extrusion clamp housing hole is the taper hole, facing edge position installs the round brush cleaner under the facing cutter.

Conveyer belt chain subassembly includes frame curb plate, carries power component, two frame curb plate parallel arrangement, two a plurality of transmission shaft subassembly, a plurality of are installed to the frame curb plate adopt belt chain transmission between the transmission shaft subassembly, the transmission shaft subassembly includes the second rotation axis, the second rotation axis rotates and installs between two frame curb plates, second rotation axis fixed mounting has a plurality of drive gear, and is a plurality of the transmission shaft subassembly is through carrying power component synchronous drive, carry power component to include driving pulley, second motor power, every the second rotation axis all one end outwards extends and fixed mounting has driving pulley, and is a plurality of belt chain transmission connects between the driving pulley, second motor power output is connected with one of them driving pulley transmission.

Correct upset subassembly includes third rotation axis, second reduction gear, third rotation axis rotates and installs between two frame curb plates, the second reduction gear is installed on the frame curb plate, third rotation axis one end extends outside the frame curb plate and is connected with the transmission of second reduction gear output, the transmission of second reduction gear input is connected with third motor power, fixedly connected with cross roll-over stand on the third rotation axis, all in the cross roll-over stand all locates the space between two adjacent drive gear, the cross roll-over stand includes the trip bar, the cover is equipped with rubber protective sleeve on the trip bar.

When the material blocking rods are overturned and lie flat, all the material blocking rods fall into the gaps between the transmission gears.

The beneficial effects of the utility model are that: the utility model discloses rationally distributed, the building block part is earlier at first mill and dig the plane operation with milling on the plane platform device automatically, then carry the second through conveyer belt chain subassembly and mill plane platform device, in transportation process, realize the whole turn-over operation of building block part group through correcting the upset subassembly, can organize once more on milling the plane platform device to the second and mill and dig the plane operation, the utility model discloses can dig the plane operation automatically and overturn to building block part, can dig the plane operation automatically to two faces that need to process on the building block part, degree of automation is high, and artifical the use is few, and building block part is batch processing in groups, and processing production efficiency also promotes by a wide margin, goes up and down to mill and mills and install dust absorption subassembly on the plane device, has effectively reduced the raise dust phenomenon of processing workshop.

Drawings

Fig. 1 is a top layout view of the present invention;

fig. 2 is a schematic side view of the milling platform assembly of the present invention;

fig. 3 is a schematic front view of the milling platform device of the present invention;

fig. 4 is a schematic structural view of the lifting milling device of the present invention;

fig. 5 is a bottom view of the milling cutter head of the present invention;

fig. 6 is a schematic view of the installation structure of the quick pipe joint of the present invention;

FIG. 7 is a schematic view of the first turning action of the block component of the present invention;

fig. 8 is a schematic view of the second turning action of the block component of the present invention.

In the figure: milling platform device 1, building block marshalling die table 11, material blocking and jacking baffle plate 12, turning material blocking assembly 13, bearing seat 131, first rotating shaft 132, material blocking rod 133, first reducer 134, first power motor 135, material pushing marshalling assembly 14, material pushing cylinder 141, material pushing plate 142, lifting milling device 2, milling head moving rail 21, milling head 22, moving trolley 221, head base sleeve 222, primary head sleeve 223, quick lifting assembly 224, first lifting motor 2241, first lifting screw 2242, first lifting seat 2243, secondary head sleeve 225, low-speed lifting assembly 226, second lifting motor 2261, motor fixing plate 2262, second lifting screw 2263, 2263 the second lifting seat 2264, the milling cutter disc 227, the cleaning brush 2271, the dust suction assembly 228, the dust suction through hole 2281, the quick connection pipe joint 2282, the threaded base 22821, the elastic clamping pipe piece 22822, the threaded rotary sleeve 22823, the extrusion clamping sleeve 22824, the dust suction device 2283, the grouping correction overturning device 3, the conveying belt chain assembly 31, the rack side plate 311, the transmission shaft assembly 312, the second rotating shaft 3121, the transmission gear 3122, the conveying power assembly 313, the transmission belt pulley 3131, the second power motor 3132, the correction overturning assembly 32, the third rotating shaft 321, the second speed reducer 322, the third power motor 323, the cross overturning frame 324, the overturning rod 3241, the rubber protection sleeve 3242, the block component 4, the a surface 41, and the B surface 42.

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:

the block blank is discharged in a strip shape, and the block parts 4 are cut to form the block parts 4 one by one, so that the block parts 4 have a surface 41 and a surface 42 formed by cutting, the cutting processing is rough processing, the problems of roughness and unevenness of the surface 41 and the surface 42A can occur, the distance between the surface 41 and the surface 42B is the height of the block parts 4, and in order to ensure the consistency of the height of the finished block parts 4 and the requirement of removing corner burrs, the surface 41 and the surface 42A need to be finely processed.

As shown in fig. 1 to 8, an automatic milling, grinding and turning system for a wallboard part group comprises a milling platform device 1 and a grouping, correcting and turning device 3, wherein the two milling platform devices 1 are symmetrically arranged, a lifting milling device 2 is installed right above each milling platform device 1, the first milling platform device 1 groups the block parts 4, then carries out milling and machining operation on an a surface 41, the second milling platform device 1 groups the conveyed block parts 4 again, then carries out milling and machining operation on a B surface 42, the machined block parts 4 are flat and smooth in surface and consistent in finished product height through twice milling, the machining and production efficiency is greatly improved because the milling operation is carried out by grouping a plurality of block parts 4, the grouping, correcting and turning device 3 is arranged between the two milling platform devices 1, the grouping, correcting and turning device 3 is installed close to the two milling platform devices 1, the grouping, correcting and turning device 3 comprises a conveyor belt chain assembly 31 and a correcting and turning assembly 32, a conveying process and a turning assembly 31 for turning the conveying belt assembly 31 of the second milling and turning assembly 32 upwards, the block parts 32 respectively, and the conveying assembly 31 is installed on the second milling platform device 32, and the second milling assembly 32.

The milling platform device 1 comprises a building block marshalling mould table 11, wherein one short side end of the building block marshalling mould table 11 is open to facilitate the inlet and outlet of a building block component 4, the other short side end is vertically provided with a material blocking top baffle plate 12, the material blocking top baffle plate 12 plays a role of an input advancing limit position of the building block component 4, the building block marshalling mould table 11 is provided with a roller type conveying belt, the building block component 4 is continuously conveyed forwards after coming onto the building block marshalling mould table 11 until the building block component pushes against the material blocking top baffle plate 12, the building block component 4 advances under the forward acting force of the roller type conveying belt, so that the building block components 4 are mutually attached tightly in a straight line direction to form a straight line group, the long side end of the building block marshalling mould table 11, which is adjacent to a conveying belt chain component 31, the long side end of the building block marshalling mould table 11 is provided with a turnover material blocking component 13, the other long side end of the building block marshalling mould table 11 is provided with a material pushing marshalling component 14, when the turnover material blocking component 13 turns over, the turnover material blocking component 13 comprises bearing seats 131, a first rotating shaft 132 and a first reducer 134, wherein the two bearing seats 131 are arranged in parallel and fixedly arranged on the end face of the side of the block grouping mold table 11, the first rotating shaft 132 is rotatably arranged on the two bearing seats 131, the first rotating shaft 132 is connected with a plurality of material blocking rods 133, the plurality of material blocking rods 133 are uniformly distributed along the length direction of the first rotating shaft 132, the first reducer 134 is arranged on the end face of the side of the block grouping mold table 11, one end of the first rotating shaft 132 extends towards the outer side of the bearing seats 131 and is in transmission connection with the output end of the first reducer 134, the input end of the first reducer 134 is connected with a first power motor 135, the turning speed of the material blocking rods 133 is not too high, therefore, the first speed reducer 134 is arranged for speed reduction, the first speed reducer 134 also plays a role in power transmission, the first power motor 135 drives the material blocking rod 133 to turn through the first speed reducer 134, when the building block components 4 need to be grouped and clamped, the material blocking rod 133 is vertical, when the building block components 4 need to be discharged and output, the material blocking rod 133 turns over and lies flat to be used as an output channel, the material pushing and grouping assembly 14 comprises material pushing cylinders 141 and material pushing plates 142, the material pushing cylinders 141 are fixedly installed on the building block grouping mold table 11, the material pushing cylinders 141 are uniformly distributed along the length direction of the building block grouping mold table 11, the material pushing plates 142 are connected with the piston rod ends of all the material pushing cylinders 141, the material pushing plates 142 are installed towards the turning material blocking assembly 13 side, when the building block components 4 need to be grouped and clamped, the material blocking rod 133 is in a vertical state, the material pushing cylinders 141 drive the material pushing plates 142 to move towards the material blocking rod 133, and therefore, the building block components 4 which are placed in a skew mode can be pushed flat until being finally clamped.

The lifting milling device 2 comprises a milling machine head moving rail 21 and a milling machine head 22, wherein the milling machine head moving rail 21 is arranged right above a block marshalling die table 11, the milling machine head 22 moves on the milling machine head moving rail 21 to carry out single-side milling processing operation on block components 4 which are woven into a straight line group, the milling machine head 22 comprises a moving trolley 221, a primary machine head sleeve 223, a quick lifting component 224, a secondary machine head sleeve 225 and a low-speed lifting component 226, the moving trolley 221 is movably arranged on the milling machine head moving rail 21, the moving trolley 221 is used as moving power, the lower part of the moving trolley 221 is connected with a machine head base sleeve 222, the primary machine head sleeve 223 is inserted in the machine head base sleeve 222, the peripheral dimension of the primary machine head sleeve 223 is matched with the dimension of an inner hole of the machine head base sleeve 222, the inner hole of the machine head base sleeve 222 plays a lifting guide role of the primary machine head sleeve 223, and the primary machine head sleeve 223 drives lifting motion through the quick lifting component 224, the fast lifting assembly 224 comprises a first lifting motor 2241, a first lifting screw 2242 and a first lifting seat 2243, the first lifting motor 2241 is fixedly installed on the mobile trolley 221, an output shaft of the first lifting motor 2241 is in transmission connection with the first lifting screw 2242, the first lifting seat 2243 is connected to the top of the primary head cover 223, the first lifting screw 2242 is installed on the first lifting seat 2243 in a penetrating way, the first lifting motor 2241 drives the first lifting screw 2242 to rotate, so that the primary head cover 223 and the parts below the primary head cover are driven by the first lifting seat 2243 to carry out fast lifting movement, the secondary head cover 225 is inserted into the primary head cover 223, the outer circumference size of the secondary head cover 225 is matched with the inner hole size of the primary head cover 223, the inner hole of the primary head cover 223 plays a lifting guiding role of the secondary head cover 225, the secondary head cover 225 drives lifting movement through the low-speed lifting assembly 226, the low-speed lifting assembly 226 includes a second lifting motor 2261, a motor fixing plate 2262, a second lifting screw 2263, and a second lifting seat 2264, the motor fixing plate 2262 is fixedly installed in the primary housing 223, the second lifting motor 2261 is installed on the motor fixing plate 2262, an output end of the second lifting motor 2261 is in transmission connection with the second lifting screw 2263, the second lifting seat 2264 is connected to the top of the secondary housing 225, the second lifting screw 2263 is installed on the second lifting seat 2264 in a threaded manner, the second lifting motor 2261 drives the second lifting screw 2263 to rotate, so as to drive the secondary housing 225 and the following parts thereof to do low-speed lifting movement through the second lifting seat 2264, a pitch of the second lifting screw 2263 is smaller than a pitch of the first lifting screw 2242, when first lifting screw 2242 is rotatory, the milling cutter goes up and down comparatively fast, at first, 22 reason building block part 4 distances of milling machine head are far away, need be close to fast, be close to building block part 4, have the precision adjustment milling cutter height, just so will descend at a slow speed, so, the utility model discloses a two-stage operating system, the first order is responsible for being close to fast and breaks away from fast, the second order is responsible for going up and down at a slow speed, the precision adjustment milling cutter height, milling cutter disc 227 is installed to second grade headgear 225 bottom, is equipped with a plurality of milling cutters on milling cutter disc 227, can mill the operation to marshalled building block part 4, still installs dust absorption assembly 228 on second grade headgear 225, in milling the operation, can produce a large amount of dust, dust absorption assembly 228 can effectively absorb the dust, alleviate the dust phenomenon of flying upward in the workshop.

The dust suction assembly 228 comprises a quick connecting pipe connector 2282 and a dust suction device 2283, a plurality of dust suction through holes 2281 are arranged on a milling cutter disc 227, the plurality of dust suction through holes 2281 are uniformly distributed in the central axis of the milling cutter disc 227, the dust suction through holes 2281 are arranged on the outer side of a milling cutter blade of the milling cutter disc 227, a quick connecting pipe connector 2282 is arranged at the position of each dust suction through hole 2281, the dust suction device 2283 is arranged on the outer side wall of a secondary machine head sleeve 225, the plurality of quick connecting pipe connectors 2282 are connected with a pipeline of the dust suction device 2283, dust generated by the contact surface of a milling and planing block component 4 of the milling cutter disc 227 is sucked to the dust suction device 2283 through the dust suction through holes 2281, the quick connecting pipe connector 2282 comprises a threaded base 22821, a plurality of elastic clamping pipe sheets 22822 and threaded sleeves 22823 are connected on the threaded base 22821, gaps are reserved among the elastic clamping pipe sheets 22822, the threaded sleeves 22823 are arranged on the threaded base 22821, a squeezing clamping sleeve 22824 is connected on the threaded base 22824, the extrusion clamping sleeve 22824 is sleeved outside a plurality of elastic clamping tube pieces 22822, the inner hole of the extrusion clamping sleeve 22824 is a taper hole, a dust suction hose is inserted from the position of the elastic clamping tube pieces 22822, when the thread screwing sleeve 22823 is screwed up, the inner hole of the extrusion clamping sleeve 22824 is separated from the elastic clamping tube pieces 22822, the elastic clamping tube pieces 22822 are outwards turned, the hole opening is enlarged, the dust suction hose can be conveniently inserted, after the hose is inserted, the thread screwing sleeve 22823 is screwed down, the inner hole of the extrusion clamping sleeve 22824 extrudes the elastic clamping tube pieces 22822 inwards, the hole opening is tightened, the dust suction hose can be clamped, the dust suction hose can be conveniently disassembled and fixedly under the structure, the quick operation requirement of disassembling and replacing the milling cutter disc 227 can be met, a circle of cleaning brush 2271 is installed at the outer edge position of the lower end face of the milling disc 227, the cleaning brush 2271 can clean residues on the milling face of the building block component 3, and a dust suction environment with an inner ring and an outer ring can be formed by the milling cutter, and the dust suction environment of the residues can be guaranteed, the broken dust is effectively sucked and collected.

The conveying belt chain assembly 31 comprises frame side plates 311, conveying power assemblies 313, the two frame side plates 311 are arranged in parallel, the two frame side plates 311 are provided with a plurality of transmission shaft assemblies 312, belt chain transmission is adopted between the plurality of transmission shaft assemblies 312, each transmission shaft assembly 312 comprises a second rotating shaft 3121, each second rotating shaft 3121 is rotatably installed between the two frame side plates 311, each second rotating shaft 3121 is fixedly provided with a plurality of transmission gears 3122, the plurality of transmission shaft assemblies 312 are driven synchronously by the conveying power assemblies 313, each conveying power assembly 313 comprises a transmission belt pulley 3131 and a second power motor 3132, one end of each second rotating shaft 3121 extends outwards and is fixedly provided with a transmission belt pulley 3131, the plurality of transmission belt pulleys 3131 are in belt chain transmission connection, the output end of each second power motor 3132 is in transmission connection with one of the transmission belt pulleys 3131, the transmission belt pulley 3131 is used as a driving wheel and is in transmission connection with the other transmission belt pulleys 3131 to drive all the transmission shaft assemblies 312 to rotate synchronously, and thus the groups of the building block parts 4 can be driven to be conveyed on the conveying belt chain assembly 31 in an integral translation mode.

The correcting and overturning assembly 32 comprises a third rotating shaft 321 and a second speed reducer 322, the third rotating shaft 321 is rotatably installed between the two rack side plates 311, the second speed reducer 322 is installed on the rack side plates 311, one end of the third rotating shaft 321 extends out of the rack side plates 311 and is in transmission connection with the output end of the second speed reducer 322, the input end of the second speed reducer 322 is in transmission connection with a third power motor 323, a cross-shaped overturning frame 324 is fixedly connected to the third rotating shaft 321, the third power motor 323 drives the third rotating shaft 321 to rotate, so as to drive the cross-shaped overturning frame 324 to rotate, the cross-shaped overturning frame 324 is set to be 90 degrees each time of overturning, all the cross-shaped overturning frames 324 are arranged in a gap between two adjacent transmission gears 3122, so that the overturning motion of the cross-shaped overturning frame 324 does not affect the conveying of the conveyor belt chain assembly 31, the cross-shaped overturning frame 324 comprises an overturning rod 3241, the turning rod 3241 is sleeved with a rubber protective sleeve 3242, the rubber protective sleeve 3242 enables the turning rod 3241 to be in flexible contact with the block component 4, the corner damage of the block component 4 in the turning process is prevented, the block component 4 group subjected to the milling operation of the A surface 41 is conveyed forwards on the conveyor belt chain assembly 31, as shown in fig. 7, when the turning rod 3241 stops stopping when the turning rod reaches the position of the first correcting and turning assembly 32, the straight-line marshalling is corrected again, the block component 4 turns 90 degrees through the cross turning frame 324, lies down, and is conveyed forwards continuously through the conveyor belt chain assembly 31, as shown in fig. 8, when the turning rod 3241 reaches the position of the second correcting and turning assembly 32, the turning rod 3241 stops stopping again, the straight-line marshalling is corrected again, the turning frame 324 turns 90 degrees again, after twice turning, the original A surface 41 faces upwards and becomes the B surface 42 faces upwards, the B face 42 is then transported by the conveyor chain assembly 31 to the second milling platform assembly 1 for milling operation.

When the material blocking rods 133 are turned over and lie flat, all the material blocking rods 133 fall into the gaps between the transmission gears 3122, so that the turning motion of the material blocking rods 133 does not affect the action of the conveyor belt chain assembly 31.

The utility model discloses in, block component 4 marshalling, mill plane, upset, mill plane full-automatic completion all again, need not the manual cooperation operation, block component 4 is processed in batches, has machining efficiency height, advantage that low in production cost.

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 (7)

1. An automatic milling, grinding and turning system for wallboard component groups, comprising a milling platform device (1) and a marshalling, correcting and turning device (3), characterized in that: the two milling platform devices (1) are symmetrically arranged, a lifting milling device (2) is installed right above each milling platform device (1), the marshalling correcting turnover device (3) is arranged between the two milling platform devices (1), the marshalling correcting turnover device (3) is installed next to the two milling platform devices (1), the marshalling correcting turnover device (3) comprises a conveying belt chain assembly (31) and a correcting turnover assembly (32), the conveying belt chain assembly (31) is used for conveying a block component group, the two correcting turnover assemblies (32) are installed at two ends of the conveying belt chain assembly (31) respectively, and the correcting turnover assembly (32) is used for carrying out turnover operation on the block component group.

2. An automated milling sanding rotary system of a wallboard component pack, as claimed in claim 1, wherein: milling and planing platform device (1) is including building block marshalling moulding platform (11), a short side end of building block marshalling moulding platform (11) is uncovered, and material pushing and pushing baffle (12) is installed perpendicularly to another short side end, upset fender subassembly (13) is installed with the long limit end that conveyer belt chain subassembly (31) is adjacent in building block marshalling moulding platform (11), another long side end of building block marshalling moulding platform (11) is installed and is pushed away material marshalling subassembly (14), upset fender subassembly (13) is including bearing frame (131), first rotation axis (132), first reduction gear (134), two bearing frame (131) parallel arrangement and fixed mounting are on building block marshalling moulding platform (11) avris terminal surface, first rotation axis (132) rotate and install on two bearing frames (131), be connected with a plurality of rotation axis (133) on first rotation axis (132), a plurality of fender pole (133) are along first rotation axis (132) length direction equipartition, first reduction gear (134) are installed on marshalling moulding platform (11) side terminal surface, first rotation axis (132) one end extends to the first rotation axis (131) outside and is connected with first reduction gear (135) drive assembly (141), first reduction gear (134) is connected with pushing away material cylinder (135) and pushing away, motor input end (141) including pushing away, first reduction gear (134) drive motor (134) is connected with, the material pushing cylinders (141) are fixedly mounted on the block grouping die table (11), the material pushing cylinders (141) are uniformly distributed along the length direction of the block grouping die table (11), the material pushing plates (142) are connected with the piston rod ends of all the material pushing cylinders (141), and the material pushing plates (142) are mounted towards the side of the overturning material blocking assembly (13).

3. An automated milling sanding rotary system of a wallboard component pack, as claimed in claim 2, wherein: the lifting milling device (2) comprises a milling machine head moving rail (21), a milling machine head (22), the milling machine head moving rail (21) is installed right above a building block marshalling die table (11), the milling machine head (22) comprises a moving trolley (221), a first-stage head sleeve (223), a quick lifting assembly (224), a second-stage head sleeve (225) and a low-speed lifting assembly (226), the moving trolley (221) is movably installed on the milling machine head moving rail (21), the moving trolley (221) is connected with the first-stage head base sleeve (222) below, the first-stage head sleeve (223) is inserted in the first-stage head base sleeve (222), the first-stage head sleeve (223) is matched with the head base sleeve (222) in inner hole size, the first-stage head sleeve (223) drives lifting motion through the quick lifting assembly (224), the quick lifting assembly (224) comprises a lifting motor (2241), a first lifting screw (2242) and a first lifting seat (2243), the first lifting motor (2241) is fixedly installed on the moving trolley (221), the first-stage lifting screw (2242) is connected with the first-stage lifting screw (2242), the first-stage lifting screw (2242) is connected with the first-stage lifting screw (2243), the first-stage lifting screw (2242) and the first-stage screw (2242) is connected with the first-driving screw (2243) and the first-stage lifting screw-driving screw (2242) and the first-driving screw, the first-stage lifting screw (2242) and the first-stage screw-driving screw (2242) is installed on the first-driving screw-stage screw-driving screw, the first-stage screw (2243), second grade camera head cover (225) cartridge is in one-level camera head cover (223), second grade camera head cover (225) periphery size and one-level camera head cover (223) hole size phase-match, second grade camera head cover (225) drives the elevating movement through low-speed lifting component (226), low-speed lifting component (226) include second lift motor (2261), motor fixed plate (2262), second lifting screw (2263), second lift seat (2264), motor fixed plate (2262) fixed mounting is in one-level camera head cover (223), second lift motor (2261) is installed on motor fixed plate (2262), second lift motor (2261) output is connected with second lift screw (2263) transmission, second lift seat (2264) is connected at second grade camera head cover (225) top, second lift screw (2263) screw thread runs through and installs on second lift seat (2264), the pitch of second lift screw (2263) is less than the first lift screw (2242), second grade camera head cover (227) is installed in second grade camera head cover (227), dust absorption camera head cover (227) bottom still installs second grade camera head cover (227).

4. An automated milling sanding rotary system of a wallboard component pack, as claimed in claim 3, wherein: dust absorption subassembly (228) are including quick-operation joint coupling (2282), dust extraction (2283), be equipped with a plurality of dust absorption through-hole (2281), a plurality of dust absorption through-hole (2281) are with milling cutter dish (227) axis equipartition, dust absorption through-hole (2281) set up in the milling cutter blade outside of milling cutter dish (227), every quick-operation joint coupling (2282) are all installed to dust absorption through-hole (2281) position, install on second grade locomotive cover (225) lateral wall dust extraction (2283), a plurality of quick-operation joint coupling (2282) link to each other with dust extraction (2283) pipeline, quick-operation joint coupling (2282) are including thread base (22821), be connected with a plurality of elasticity joint coupling (22822), screw-threaded sleeve (22823) on screw-threaded base (821), all leave the clearance between elasticity joint coupling (22822), screw-threaded sleeve (22821) threaded mounting is on screw-threaded sleeve (22821), be connected with extrusion clamping sleeve (22823), extrusion clamping sleeve (22822) on the extrusion clamping sleeve (22821) the screw-threaded sleeve (22822), brush a plurality of elasticity joint coupling (22822) and brush pipe section outer side clamping ring (22824) install the screw-threaded sleeve (22824) in the outer side clamping ring of section (22824) and be the outer clamping ring of the extrusion clamping ring of section (22824) and be the lower extreme clamping ring (22824) and install the extrusion clamping ring (22824) and be the outer clamping ring of the extrusion clamping ring.

5. An automated milling sanding rotary system for a panel component set according to claim 2, wherein: the conveying belt chain assembly (31) comprises frame side plates (311), conveying power assemblies (313), two frame side plates (311) are arranged in parallel, a plurality of transmission shaft assemblies (312) are installed on the two frame side plates (311), belt chain transmission is adopted between the transmission shaft assemblies (312), each transmission shaft assembly (312) comprises a second rotating shaft (3121), each second rotating shaft (3121) is installed between the two frame side plates (311) in a rotating mode, a plurality of transmission gears (3122) are fixedly installed on the corresponding second rotating shaft (3121), the transmission shaft assemblies (312) are driven synchronously through the corresponding conveying power assemblies (313), each conveying power assembly (313) comprises a transmission belt pulley (3131) and a second power motor (3132), each second rotating shaft (3121) is provided with one end extending outwards and a transmission belt pulley (3131) in a fixed mode, the belt chain transmission connection is adopted between the transmission belt pulleys (3131), and the output end of the second motor (3132) is in transmission connection with one transmission belt pulley (3131).

6. An automated milling and sanding rotary system for a panel component set according to claim 5, wherein: correct upset subassembly (32) and include third rotation axis (321), second reduction gear (322), third rotation axis (321) are rotated and are installed between two frame curb plates (311), second reduction gear (322) are installed on frame curb plate (311), third rotation axis (321) one end is extended outside frame curb plate (311) and is connected with second reduction gear (322) output transmission, second reduction gear (322) input transmission is connected with third power motor (323), fixedly connected with cross roll-over stand (324) on third rotation axis (321), all in the space between two adjacent drive gear (3122) is all located to cross roll-over stand (324), cross roll-over stand (324) include upset pole (3241), the cover is equipped with rubber protection cover (42) on upset pole (3241).

7. An automated milling sanding rotary system of a wallboard component pack, as claimed in claim 5, wherein: when the material blocking rods (133) are overturned and lay flat, all the material blocking rods (133) fall into gaps among the transmission gears (3122).

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