CN214187751U - Lightweight concrete wallboard production line - Google Patents

Abstract

The utility model discloses a lightweight concrete wallboard production line, which comprises a base, a conveyor belt, a mounting rack, a slotting mechanism, a first placing rack, a second placing rack, a carrying mechanism and a plate body, wherein the conveyor belt is arranged on the upper surface of the base, and the base is fixedly provided with a mounting frame near the middle position of the conveyor belt, the utility model aims at the prior production mode of the wall plate cut by the grinding saw, the structure of the grinding saw cutting edge is fixed, the problem of low adaptability is correspondingly improved, the trimming mechanism is additionally provided with an adjusting component, the adjusting rotating shaft rotates relative to the mounting box by rotating the handle, thereby the gear rotates, the racks on the two sides slide in the slide rail in the reverse direction through the meshing action, therefore, the connecting block pulls the thrust bearing, the cutter discs on two sides are pulled by the thrust bearing to complete distance adjustment, and the cutter discs with adjustable distances can be well suitable for edge cutting operation of wallboards with different thicknesses.

Description

Lightweight concrete wallboard production line

Technical Field

The utility model relates to a concrete wallboard production field specifically is a lightweight concrete wallboard production line.

Background

The light partition board is a new energy-saving wall material, it is a wall material like hollow floor slab, but its both sides have male and female tongue-and-groove, only need to erect the board while installing, male, female tenon, after coating a small amount of caulking mortar, to piecing together, it is made up of multiple industrial waste residue such as innoxious phosphogypsum, light slag, fly ash, etc., through the pressurized curing of frequency conversion steam, the light partition board has the advantages such as light, high strength, multiple environmental protection, heat insulation, sound insulation, breathing humidifying, fire prevention, fast construction, reduction of wall cost, etc.

In the compound light wallboard production line that mentions in current patent CN 111168829A, in order to avoid the edging, operations such as cutting, use fixed mould to produce the wallboard, according to required wallboard overall dimension, by mould box holding, solidify back form removal one shot forming, personnel's input is high, it is long during the worker, and is with high costs, and is inefficient, compare and see, the wallboard production mode that adopts the abrasive saw cutting is more suitable, but the structure of current abrasive saw cutting edging is more fixed, does not possess certain accommodation performance, can not be used in the edging of the wallboard of different thickness well and handle.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lightweight concrete wallboard production line to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a lightweight concrete wallboard production line, contains base, conveyer belt, mounting bracket, slotting mechanism, first rack, second rack, transport mechanism and plate body, the last surface mounting of base has the conveyer belt, and the base is close to conveyer belt intermediate position department fixed mounting and has the mounting bracket, one side that the conveyer belt input was kept away from to the mounting bracket is equipped with slotting mechanism, and slotting mechanism keeps away from one side of mounting bracket and is equipped with first rack, one side that first rack kept away from slotting mechanism is equipped with the second rack, transport mechanism is all installed to first rack and second rack upper surface, and transport mechanism erects and be equipped with the plate body, install the edging mechanism that has the two-way regulation structure between mounting bracket and slotting mechanism.

Preferably, edging mechanism includes lip block, first motor, first belt, installation head, transmission rim plate, first pivot, blade disc and adjusting part, fixed mounting has lip block on the mounting bracket, and lip block's last fixed surface installs first motor, one side fixed mounting that the mounting bracket is close to first motor has the installation head, and the output of first motor rotates and pegs graft in installing the head, one side symmetry that first motor was kept away from to the mounting bracket is rotated and is installed the transmission rim plate, and the output of drive wheel dish and first motor is cooperated between and is had first belt, fixed mounting has first pivot between the transmission rim plate, and installs the blade disc in the first pivot symmetrically, install adjusting part between the blade disc.

Preferably, the adjusting part includes mounting box, regulation pivot, handle, gear, slide rail, rack, balanced baffle, connecting block and thrust bearing, the center department fixed mounting of first pivot has the mounting box, and rotates in the mounting box and install the regulation pivot, the one end fixed mounting that the mounting box was stretched out in the regulation pivot has the handle, fixed mounting has the gear in the regulation pivot, one side symmetry ground fixed mounting that the mounting box is close to the gear has the slide rail, and in the slide rail symmetry ground sliding connection have rack and balanced baffle, rack and gear cooperation, the equal fixed mounting in one side of connecting block of one end of gear is kept away from to rack and balanced baffle, one side fixed mounting that the gear was kept away from to the connecting block has thrust bearing, one side and the blade disc fixed connection of connecting block are kept away from to thrust bearing.

Preferably, one side of the handle close to the adjusting rotating shaft is fixedly provided with a positioning pointer.

Preferably, the fluting mechanism includes mount, U type piece, splint, second motor, action wheel, follows driving wheel, second belt, second pivot and groove sword, one side that the conveyer belt input was kept away from to the mounting bracket is equipped with the mount, the top fixed mounting of mount has U type piece, and one side fixed mounting that the mount is close to U type piece has splint, on the U type piece symmetrically fixed mounting have the second motor, fixed mounting has the action wheel on the output of second motor, splint and fixed frame rotate symmetrically between and are connected with the second pivot, and the second pivot stretches out one of splint serve fixed mounting have from the driving wheel, the action wheel has the second belt with follow the cooperation between the driving wheel, one side fixed mounting that the second pivot is close to the conveyer belt has the groove sword.

Preferably, the carrying mechanism comprises a conveying roller, a fixed frame, a hydraulic cylinder, a top rod and a limiting frame, wherein the conveying roller is installed on the upper surfaces of the first placing frame and the second placing frame at equal intervals, the fixed frame is symmetrically and fixedly installed on one side, away from the first placing frame, of the second placing frame, the hydraulic cylinder is erected in the fixed frame, the top rod is installed at the output end of the hydraulic cylinder, one end, away from the hydraulic cylinder, of the top rod is in extrusion contact with the plate body, the limiting frame is fixedly installed on one side of the second placing frame, and the limiting frame is in extrusion contact with one side of the plate body.

Preferably, corner blocks are fixedly mounted at the corners of the panels at the two ends of the second placing frame and the supporting legs.

Preferably, the mounting bracket is symmetrically and fixedly provided with limiting plates at one side close to the input end of the conveyor belt.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in the wallboard production mode to current abrasive saw cutting, the structure ratio of abrasive saw cutting edging is fixed, corresponding improvement has been made to the problem that adaptability is low, adjusting part has been add at edging mechanism, make the relative mounting box of regulation pivot rotate through twist grip, thereby make gear revolve, the rethread meshing effect makes the rack of both sides reverse slip in the slide rail, thereby make the connecting block pull thrust bearing, rethread thrust bearing pulls the blade disc of both sides and accomplishes the interval and adjusts, the blade disc of adjustable interval can adapt to the edging operation of the wallboard of different thickness well.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the trimming mechanism of the present invention;

FIG. 3 is a schematic structural view of the adjusting assembly of the present invention;

FIG. 4 is a schematic structural view of the grooving mechanism of the present invention;

fig. 5 is a schematic structural view of the carrying mechanism of the present invention.

In the figure: 1. a base; 2. a conveyor belt; 3. a mounting frame; 4. a trimming mechanism; 41. supporting the cushion block; 42. a first motor; 43. a first belt; 44. a mounting head; 45. a drive sheave; 46. a first rotating shaft; 47. a cutter head; 48. an adjustment assembly; 481. mounting a box; 482. adjusting the rotating shaft; 483. a handle; 484. a gear; 485. a slide rail; 486. a rack; 487. a balance guide plate; 488. connecting blocks; 489. a thrust bearing; 5. a grooving mechanism; 51. a fixed mount; 52. a U-shaped block; 53. a splint; 54. a second motor; 55. a driving wheel; 56. a driven wheel; 57. a second belt; 58. a second rotating shaft; 59. a slotting cutter; 6. a first placing rack; 7. a second rack; 8. a carrying mechanism; 81. a conveying roller; 82. a fixing frame; 83. a hydraulic cylinder; 84. a top rod; 85. a limiting frame; 9. a plate body.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a light concrete wallboard production line in the figure comprises a base 1, a conveyor belt 2, an installation frame 3, a grooving mechanism 5, a first placing frame 6, a second placing frame 7, a carrying mechanism 8 and a plate body 9, wherein the conveyor belt 2 is installed on the upper surface of the base 1, the installation frame 3 is fixedly installed at a position, close to the middle position of the conveyor belt 2, of the base 1, the grooving mechanism 5 is arranged on one side, away from an input end of the conveyor belt 2, of the installation frame 3, the first placing frame 6 is arranged on one side, away from the installation frame 3, of the grooving mechanism 5, the second placing frame 7 is arranged on one side, away from the grooving mechanism 5, of the first placing frame 6, the carrying mechanism 8 is installed on the upper surface of each of the first placing frame 6 and the second placing frame 7, the plate body 9 is installed on the carrying mechanism 8, the chamfering mechanism 4 with a bidirectional adjusting structure is installed between the installation frame 3 and the grooving mechanism 5,

after the lightweight concrete wallboard is produced, firstly, the lightweight concrete wallboard is conveyed to a trimming mechanism 4 through a conveying belt 2 in a supine posture to cut and trim rough edges on two sides of the lightweight concrete wallboard, the obtained semi-finished product of the plate body 9 is conveyed to a slotting mechanism 5 through the conveying belt 2, slotting is carried out on two sides of the plate body 9 to obtain a finished product of the plate body 9, the finished product of the plate body 9 is conveyed to a conveying mechanism 8 on a second placing frame 7 through the translation of the conveying mechanism 8 on a first placing frame 6, the plate body 9 is turned over after the translation conveying is finished, the plate body 9 is in an upright state, and finally, a plurality of upright finished products of the plate body 9 are arranged at equal intervals, and the stacking operation is finished.

Referring to fig. 2, the trimming mechanism 4 includes a supporting pad 41, a first motor 42, a first belt 43, an installation head 44, a driving wheel disc 45, a first rotating shaft 46, a cutter disc 47 and an adjusting component 48, the supporting pad 41 is fixedly installed on the mounting frame 3, the first motor 42 is fixedly installed on the upper surface of the supporting pad 41, the installation head 44 is fixedly installed on one side of the mounting frame 3 close to the first motor 42, the output end of the first motor 42 is rotatably inserted into the installation head 44, the driving wheel discs 45 are symmetrically rotatably installed on one side of the mounting frame 3 far from the first motor 42, the first belt 43 is matched between the driving wheel disc 45 and the output end of the first motor 42, the first rotating shaft 46 is fixedly installed between the driving wheel discs 45, the cutter discs 47 are symmetrically installed on the first rotating shaft 46, and the adjusting component 48 is installed between the cutter discs 47.

In the trimming mechanism 4, the distance between the cutter discs 47 needs to be adjusted by taking different thicknesses of the sheet material as standards before trimming, the rotation of the first motor 42 is controlled, the transmission of the first belt 43 enables the transmission wheel disc 45 to drive the first rotating shaft 46 to rotate, and the first rotating shaft 46 drives the cutter discs 47 to synchronously rotate so as to perform cutting processing on rough edges of the plate body 9.

In the edging mechanism 4, the cutter head 47 is made of special steel, has a large cutting range suitable for the wallboard, can cut the wallboard with the strength pressure of 15 MPa or more, and has the service life of more than two years.

Referring to fig. 3, the adjusting assembly 48 includes a mounting box 481, an adjusting rotating shaft 482, a handle 483, a gear 484, a sliding rail 485, a rack 486, a balance guide plate 487, a connecting block 488 and a thrust bearing 489, the mounting box 481 is fixedly mounted at the center of the first rotating shaft 46, the adjusting rotating shaft 482 is rotatably mounted in the mounting box 481, the handle 483 is fixedly mounted at one end of the adjusting rotating shaft 482, which extends out of the mounting box 481, the gear 484 is fixedly mounted on the adjusting rotating shaft 482, the sliding rails 485 are symmetrically and fixedly mounted at one side of the mounting box 481 close to the gear 484, the rack 486 and the balance guide plate 487 are symmetrically and slidably connected in the sliding rail 485, the rack 486 is matched with the gear 484, one ends of the rack 486 and the balance guide plate 487, which are far away from the gear 484, are fixedly mounted at one side of the connecting block 488, the thrust bearing 489 is, one side of the thrust bearing 489, which is far away from the connecting block 488, is fixedly connected with the cutter disc 47.

In the adjusting assembly 48, the adjusting rotating shaft 482 is rotated relative to the mounting box 481 by rotating the handle 483, so that the gear 484 rotates, the rotation of the gear 484 enables the racks 486 on two sides to reversely slide in the sliding rails 485 through the meshing action, so that the connecting block 488 pulls the thrust bearings 489, the cutter discs 47 on two sides are pulled by the thrust bearings 489 to complete the distance adjustment, and the cutter discs 47 can still rotate after sliding on the first rotating shaft 46 for the distance adjustment by utilizing the action principle of the thrust bearings 489.

In the adjusting assembly 48, the sliding action of the balance guide 487 relative to the sliding rail 485 can compensate the instability of single-point traction of the rack 486, so that the traction of the thrust bearing 489 in the adjusting assembly 48 is converted from point to surface, and in addition, the rotating axial direction of the gear 484 is exactly perpendicular to the rotating axial direction of the cutter disc 47, so that the meshing between the gear 484 and the rack 486 cannot be loosened when the cutter disc 47 rotates, and the distance between the cutter discs 47 during edge cutting can be kept constant.

Referring to fig. 3, a positioning pointer is fixedly installed on one side of the handle 483 close to the adjusting rotating shaft 482, so that an initial position of the distance adjustment can be effectively determined, and a reference is provided for the adjustment.

Referring to fig. 4, the slotting mechanism 5 includes a fixing frame 51, a U-shaped block 52, a clamping plate 53, a second motor 54, a driving wheel 55, a driven wheel 56, a second belt 57, a second rotating shaft 58 and a slotting cutter 59, a fixed frame 51 is arranged on one side of the mounting frame 3 far away from the input end of the conveyor belt 2, a U-shaped block 52 is fixedly arranged at the top of the fixed frame 51, and a clamping plate 53 is fixedly arranged on one side of the fixing frame 51 close to the U-shaped block 52, a second motor 54 is symmetrically and fixedly arranged on the U-shaped block 52, a driving wheel 55 is fixedly arranged on the output end of the second motor 54, a second rotating shaft 58 is symmetrically and rotatably connected between the clamping plate 53 and the fixed frame 51, and a driven wheel 56 is fixedly mounted on one end of the second rotating shaft 58 extending out of the clamping plate 53, a second belt 57 is matched between the driving wheel 55 and the driven wheel 56, and a groove cutter 59 is fixedly mounted on one side of the second rotating shaft 58 close to the conveying belt 2.

In the grooving mechanism 5, the second motor 54 is controlled to rotate the driving wheel 55, and the driven wheel 56 drives the second rotating shaft 58 to rotate through the transmission of the second belt 57, so that the grooving blade 59 rotates to perform grooving operation on both sides of the plate body 9.

Referring to fig. 1 and 5, the carrying mechanism 8 includes conveying rollers 81, a fixed frame 82, hydraulic cylinders 83, push rods 84 and limiting frames 85, the conveying rollers 81 are equidistantly installed on the upper surfaces of the first placing frame 6 and the second placing frame 7, the fixed frame 82 is symmetrically and fixedly installed on one side of the second placing frame 7 away from the first placing frame 6, the hydraulic cylinders 83 are erected in the fixed frame 82, the push rods 84 are installed on the output ends of the hydraulic cylinders 83, one ends of the push rods 84 away from the hydraulic cylinders 83 are in extrusion contact with the plate body 9, the limiting frames 85 are fixedly installed on one side of the second placing frame 7, and the limiting frames 85 are in extrusion contact with one side of the plate body 9.

In the carrying mechanism 8, the processed plate body 9 is firstly conveyed in a translation mode through the conveying rollers 81 on the first placing frame 6, when the plate body 9 reaches the tail end of the first placing frame 6, the plate body 9 is conveyed onto the conveying rollers 81 on the second placing frame 7 through horizontal pushing, the plate body continues to be conveyed in a translation mode, when the plate body reaches the tail end of the second placing frame 7, the conveying rollers 81 are stopped from rotating, the ejector rods 84 are driven to ascend through the hydraulic cylinders 83, the plate body 9 is extruded to be overturned for 90 degrees to be in a vertical state, the plate body 9 is pushed to one side, then the subsequent plate body 9 is overturned until the plate body 9 is in a state shown in figure 1, and accordingly stacking operation on the plate body 9 is completed.

Referring to fig. 5, corner blocks are fixedly mounted at corners of the supporting legs and panels at two ends of the second rack 7, so that the structural strength and the bearing capacity of the second rack 7 are improved.

Referring to fig. 1, limiting plates are symmetrically and fixedly installed on one side of the mounting frame 3 close to the input end of the conveyor belt 2, so that the plate body 9 can stably translate during the initial conveying process.

In the scheme, the use principle of the light concrete wallboard production line is as follows; after the lightweight concrete wallboard is produced, firstly, the lightweight concrete wallboard is conveyed to a trimming mechanism 4 through a conveying belt 2 in a supine posture to cut and trim burrs on two sides of the lightweight concrete wallboard, the obtained semi-finished product of a plate body 9 is continuously conveyed to a grooving mechanism 5 through the conveying belt 2, grooving is carried out on two sides of the plate body 9 to obtain a finished product of the plate body 9, the finished product of the plate body 9 is conveyed to a conveying mechanism 8 part on a second placing frame 7 through a translation conveying part of a conveying mechanism 8 part on a first placing frame 6, the plate body 9 is turned over after the translation conveying is finished, finally, a plurality of upright finished products of the plate body 9 are arranged at equal intervals, the stacking operation is finished, in the trimming mechanism 4, the interval of a cutter disc 47 is required to be adjusted by taking different thicknesses of the plate materials as standards before the trimming operation is carried out, then, the rotation of a first motor 42 is controlled, the transmission wheel disc 45 drives a first rotating shaft 46 to rotate through the transmission of a first belt 43, the first rotating shaft 46 drives the cutter disc 47 to synchronously rotate to cut the rough edges of the plate body 9, in the adjusting assembly 48, the adjusting rotating shaft 482 rotates relative to the mounting box 481 through the rotating handle 483, so that the gear 484 rotates, the rotation of the gear 484 enables the racks 486 on two sides to reversely slide in the sliding rails 485 through the meshing action, so that the connecting block 488 pulls the thrust bearing 489, the cutter disc 47 on two sides is pulled through the thrust bearing 489 to complete the distance adjustment, the cutter disc 47 can still rotate after the distance adjustment by utilizing the action principle of the thrust bearing 489 when sliding on the first rotating shaft 46, in the grooving mechanism 5, the second motor 54 is controlled to enable the driving wheel 55 to rotate, the driven wheel 56 drives the second rotating shaft 58 to rotate through the transmission of the second belt 57, so that the grooving cutter 59 rotates, the grooving operation is performed on two sides of the plate body 9, in the carrying mechanism 8, the machined plate body 9 is firstly subjected to translation conveying through the conveying rollers 81 on the first placing frame 6, when the end of the first placing frame 6 is reached, the plate body 9 is transferred to the conveying rollers 81 on the second placing frame 7 through horizontal pushing, the translation conveying is continued, when the end of the second placing frame 7 is reached, the conveying rollers 81 are stopped to rotate, the ejector rods 84 are driven to ascend through the hydraulic cylinders 83, the plate body 9 is extruded to be overturned for 90 degrees to be in an upright state, the plate body 9 is pushed to one side, the follow-up plate body 9 is overturned until the plate body 9 is in a state shown in figure 1, and accordingly stacking operation on the plate body 9 is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A lightweight concrete wallboard production line comprises a base (1), a conveyor belt (2), a mounting rack (3), a grooving mechanism (5), a first placing rack (6), a second placing rack (7), a carrying mechanism (8) and a plate body (9), wherein the conveyor belt (2) is mounted on the upper surface of the base (1), the mounting rack (3) is fixedly mounted at a position, close to the middle position of the conveyor belt (2), of the base (1), the grooving mechanism (5) is arranged on one side, away from the input end of the conveyor belt (2), of the mounting rack (3), the first placing rack (6) is arranged on one side, away from the mounting rack (3), of the grooving mechanism (5), the second placing rack (7) is arranged on one side, away from the grooving mechanism (5), of the first placing rack (6) and the carrying mechanism (8) are mounted on the upper surfaces of the first placing rack (6) and the second placing rack (7), and transport mechanism (8) is put on the shelf and is equipped with plate body (9), its characterized in that: and a trimming mechanism (4) with a bidirectional adjusting structure is arranged between the mounting frame (3) and the grooving mechanism (5).

2. A lightweight concrete wall panel production line as claimed in claim 1, wherein: the trimming mechanism (4) comprises a supporting cushion block (41), a first motor (42), a first belt (43), an installing head (44), a driving wheel disc (45), a first rotating shaft (46), a cutter disc (47) and an adjusting component (48), wherein the supporting cushion block (41) is fixedly installed on the mounting frame (3), the first motor (42) is fixedly installed on the upper surface of the supporting cushion block (41), the installing head (44) is fixedly installed on one side, close to the first motor (42), of the mounting frame (3), the output end of the first motor (42) is rotatably inserted into the installing head (44), the driving wheel disc (45) is symmetrically rotatably installed on one side, far away from the first motor (42), of the mounting frame (3), the first belt (43) is matched between the driving wheel disc (45) and the output end of the first motor (42), and the first rotating shaft (46) is fixedly installed between the driving wheel discs (45), and the first rotating shaft (46) is symmetrically provided with cutterheads (47), and an adjusting component (48) is arranged between the cutterheads (47).

3. A lightweight concrete wall panel production line as claimed in claim 2, wherein: the adjusting assembly (48) comprises a mounting box (481), an adjusting rotating shaft (482), a handle (483), a gear (484), a sliding rail (485), a rack (486), a balance guide plate (487), a connecting block (488) and a thrust bearing (489), wherein the mounting box (481) is fixedly mounted at the center of the first rotating shaft (46), the adjusting rotating shaft (482) is rotatably mounted in the mounting box (481), the handle (483) is fixedly mounted at one end, extending out of the mounting box (481), of the adjusting rotating shaft (482), the gear (484) is fixedly mounted on the adjusting rotating shaft (482), the sliding rail (485) is symmetrically and fixedly mounted on one side, close to the gear (484), of the mounting box (481), the rack (486) and the balance guide plate (487) are symmetrically and slidably connected with the rack (486) and the balance guide plate (487), the rack (486) and the end, far away from the gear (484), of the rack (486) and the balance guide plate (487) are fixedly mounted on one side of the connecting block (488), one side fixed mounting that gear (484) were kept away from to connecting block (488) has thrust bearing (489), one side and blade disc (47) fixed connection that connecting block (488) were kept away from to thrust bearing (489).

4. A lightweight concrete wall panel production line as claimed in claim 3, wherein: and a positioning pointer is fixedly arranged on one side of the handle (483) close to the adjusting rotating shaft (482).

5. A lightweight concrete wall panel production line as claimed in claim 1, wherein: the grooving mechanism (5) comprises a fixing frame (51), a U-shaped block (52), a clamping plate (53), a second motor (54), a driving wheel (55), a driven wheel (56), a second belt (57), a second rotating shaft (58) and a grooving cutter (59), wherein the fixing frame (51) is arranged on one side, away from the input end of the conveying belt (2), of the mounting frame (3), the U-shaped block (52) is fixedly arranged at the top of the fixing frame (51), the clamping plate (53) is fixedly arranged on one side, close to the U-shaped block (52), of the fixing frame (51), the second motor (54) is symmetrically and fixedly arranged on the U-shaped block (52), the driving wheel (55) is fixedly arranged on the output end of the second motor (54), the second rotating shaft (58) is symmetrically and rotatably connected between the clamping plate (53) and the fixing frame (51), and the driven wheel (56) is fixedly arranged on one end, extending out of the clamping plate (, and a second belt (57) is matched between the driving wheel (55) and the driven wheel (56), and a groove cutter (59) is fixedly mounted on one side, close to the conveying belt (2), of the second rotating shaft (58).

6. A lightweight concrete wall panel production line as claimed in claim 1, wherein: transport mechanism (8) are including transfer roller (81), fixed frame (82), pneumatic cylinder (83), ejector pin (84) and spacing (85), transfer roller (81) are installed to first rack (6) and second rack (7) upper surface equal equidistance, one side symmetry ground fixed mounting that first rack (6) were kept away from in second rack (7) has fixed frame (82), erect pneumatic cylinder (83) in fixed frame (82), and install ejector pin (84) on the output of pneumatic cylinder (83), one end and plate body (9) extrusion contact that pneumatic cylinder (83) were kept away from in ejector pin (84), one side fixed mounting of second rack (7) has spacing (85), and spacing (85) and plate body (9) one side extrusion contact.

7. A lightweight concrete wall panel production line as claimed in claim 1, wherein: the panels at the two ends of the second placing frame (7) and the corners of the supporting legs are fixedly provided with corner blocks.

8. A lightweight concrete wall panel production line as claimed in claim 1, wherein: and limiting plates are symmetrically and fixedly mounted on one side, close to the input end of the conveyor belt (2), of the mounting rack (3).

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