CN111532864A

CN111532864A - Plate folding device for producing gypsum plasterboards

Info

Publication number: CN111532864A
Application number: CN202010261576.9A
Authority: CN
Inventors: 宋记方; 吴峰; 张可栋; 李金伟
Original assignee: Taishan Gypsum Xuancheng Co ltd
Current assignee: Taishan Gypsum Xuancheng Co ltd
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2020-08-14

Abstract

The invention provides a plate stacking device for producing gypsum plasterboards, which comprises a rack, wherein a conveying assembly is arranged on one side of the rack, a supporting assembly is arranged on the other side of the rack, a plate stacking assembly is slidably arranged on the rack, a driving motor for driving the plate stacking assembly to slide is arranged on the rack, the plate stacking assembly comprises a plurality of groups of supporting roller sets, the supporting roller sets are rotatably arranged on the lower part of the plate stacking assembly in two rows, and a driving assembly for driving the supporting roller sets to rotate 180 degrees is further arranged on the plate stacking assembly.

Description

Plate folding device for producing gypsum plasterboards

Technical Field

The invention relates to the technical field of gypsum board production equipment, in particular to a board folding device for producing a paper-surface gypsum board.

Background

The gypsum board is a material prepared by taking building gypsum powder as a main raw material. The building material has the advantages of light weight, high strength, small thickness, convenient processing, sound insulation, heat insulation, fire prevention and other good performances, and is one of the currently-developed novel light boards. The gypsum board is made up by using gypsum powder as main raw material, adding fibre, adhesive and modifying agent, mixing, pressing and drying. The fireproof sound-insulation heat-insulation building block has the characteristics of fire resistance, sound insulation, heat insulation, light weight, high strength, small shrinkage rate and the like, is good in stability, does not age and is mothproof, and can be constructed by using methods such as nailing, sawing, planing, adhering and the like.

The gypsum boards need to be stacked together when being produced, but the existing board stacking device is realized by lifting a placing frame for placing the gypsum boards, so that the wear among the gypsum boards is easily caused, and the appearance of the gypsum boards is impressed.

Disclosure of Invention

In view of the above, the present invention is directed to a board stacking apparatus for producing gypsum plasterboards, which solves one or all of the above problems.

The invention provides a plate stacking device for producing gypsum plasterboards, which comprises a rack, wherein a conveying assembly is arranged on one side of the rack, a bearing assembly is arranged on the other side of the rack, a plate stacking assembly is slidably arranged on the rack, a driving motor for driving the plate stacking assembly to slide is arranged on the rack, the plate stacking assembly comprises a plurality of groups of bearing roller sets, the bearing roller sets are rotatably arranged on the lower part of the plate stacking assembly in two rows, and a driving assembly for driving the bearing roller sets to rotate 180 degrees is further arranged on the plate stacking assembly.

Optionally, conveying assembly includes the carriage, conveyer motor is installed to the lower part of carriage, install drive roller and driving roller on the carriage, the drive roller with around being equipped with the conveyer belt between the driving roller, the delivery wheel is installed to conveyer motor's output, the drive wheel is installed to the one end of drive roller, the delivery wheel with the drive wheel passes through belt drive and connects.

Optionally, the bearing assembly comprises a bearing bracket, the height of the bearing bracket is lower than that of the conveying frame, a plurality of conveying rollers are rotatably mounted on the bearing bracket and are connected through chain transmission, a transmission motor connected with the conveying rollers in a transmission mode is mounted on one side of the bearing bracket, a vertical cylinder is mounted on one side, away from the conveying frame, of the bearing bracket, and a first baffle is mounted at the output end of the vertical cylinder.

Optionally, the lamination subassembly includes the carriage, the carriage slidable installs in the frame, two telescopic cylinder are installed to the lower part of carriage, the backup pad is installed to telescopic cylinder's output, accept the rotatable installation of roller set the lower part of backup pad, drive assembly installs in the backup pad, and with accept the roller set transmission and connect, the backup pad is kept away from the one end of carrying the subassembly installs the second baffle.

Optionally, it includes the dwang to accept the roller set, first gear is installed to the upper end of dwang, first gear is installed in the backup pad, and with the drive assembly transmission is connected, the rotatable bearing roller of installing of lower extreme of dwang, the bearing roller sets up along the horizontal direction.

Optionally, the driving assembly comprises a driving cylinder, the driving cylinder is mounted on one side of the supporting plate, a rack is mounted at an output end of the driving cylinder, and the rack is meshed with the first gear.

In another embodiment, the roller carrier further comprises a direct transmission assembly for driving the roller carrier to rotate, the direct transmission assembly comprises a direct transmission motor, the direct transmission motor is installed on the supporting plate along the vertical direction, a second gear is installed at the output end of the direct transmission motor, a transmission rod is rotatably installed in the transmission rod, a third gear is installed on the upper portion of the transmission rod and meshed with the second gear, a first bevel gear is installed on the lower portion of the transmission rod, a second bevel gear is installed at one end of the roller carrier, and the first bevel gear is meshed with the second bevel gear.

From the above, the plate folding device for producing the paper-surface gypsum boards provided by the invention realizes vertical stacking of the gypsum boards through the arrangement of the plate folding components, so that the friction between the gypsum boards is reduced, and the product phase of the gypsum boards is improved.

Drawings

FIG. 1 is a schematic view of a board stacking apparatus for producing a paper-faced gypsum board according to an embodiment of the present invention;

FIG. 2 is a schematic view of a set of uptake rollers according to an embodiment of the present invention;

fig. 3 is a schematic view of the embodiment of the invention when the idlers on both sides of the set of uptake rollers are deviated from each other;

FIG. 4 is a schematic view of a set of uptake rolls according to another embodiment of the present invention;

in the drawing, a frame 1, a conveying assembly 2, a conveying frame 21, a conveying motor 22, a driving roller 23, a driving roller 24, a conveying belt 25, a conveying wheel 26, a driving wheel 27, a holding assembly 3, a support bracket 31, a conveying roller 32, a vertical air cylinder 33, a first baffle 34, a laminated plate assembly 4, a receiving roller set 41, a rotating rod 411, a first gear 412, a supporting roller 413, a direct transmission motor 414, a second gear 415, a transmission rod 416, a third gear 417, a first bevel gear 418, a second bevel gear 419, a driving assembly 42, a driving air cylinder 421, a rack 422, a sliding frame 43, a telescopic air cylinder 44, a supporting plate 45 and a second baffle 46.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to specific embodiments and the accompanying drawings.

As an embodiment, the device for folding gypsum plasterboard provided by the present invention includes a frame 1, wherein a conveying assembly 2 is installed on one side of the frame 1, a supporting assembly 3 is installed on the other side of the frame 1, a folding assembly 4 is slidably installed on the frame 1, a driving motor (not shown) for driving the folding assembly 4 to slide is installed on the frame 1, the folding assembly 4 includes a plurality of sets of receiving roller sets 41, the receiving roller sets 41 are rotatably installed at the lower portion of the folding assembly 4 in two rows, and a driving assembly 42 for driving the receiving roller sets 41 to rotate 180 ° is further installed on the folding assembly 4. The paper-surface gypsum board is conveyed to the board folding assembly 4 by the conveying assembly 2, the bearing roller set 41 bears the gypsum board and places the gypsum board on the bearing assembly 3, and the driving assembly 42 drives the bearing roller set 41 to rotate 180 degrees, so that the bearing roller set 41 is separated from the gypsum board in the opposite direction and returns to the original position; also can directly carry the gypsum board to folded plate subassembly 4 through driving motor with folded plate subassembly 4 drive to conveyor components 2, folded plate subassembly 4 stacks the gypsum board on bearing subassembly 3, and this scheme has realized the perpendicular of gypsum board and has stacked through folded plate subassembly 4's setting, and then has reduced the friction between the gypsum board, has improved the article looks of gypsum board.

In one embodiment, the conveying assembly 2 includes a conveying frame 21, a conveying motor 22 is installed at a lower portion of the conveying frame 21, a driving roller 23 and a driving roller 24 are installed on the conveying frame 21, a conveying belt 25 is installed between the driving roller 23 and the driving roller 24, a conveying wheel 26 is installed at an output end of the conveying motor 22, a driving wheel 27 is installed at one end of the driving roller 23, and the conveying wheel 26 is connected with the driving wheel 27 through a belt transmission. Wherein, conveying motor 22 works, and conveying motor 22 drives conveying wheel 26 and rotates, and conveying wheel 26 drives drive wheel 27 through belt transmission and rotates, and drive wheel 27 drives conveyer belt 25 and removes, moves the gypsum board on the conveyer belt 25 to folded plate subassembly 4.

In one embodiment, the supporting assembly 3 includes a supporting bracket 31, the supporting bracket 31 is lower than the conveying frame 21, a plurality of conveying rollers 32 are rotatably mounted on the supporting bracket 31, the conveying rollers 32 are connected by a chain transmission, a transmission motor (not shown) in transmission connection with the conveying rollers 32 is mounted on one side of the supporting bracket 31, a vertical cylinder 33 is mounted on one side of the supporting bracket 31 away from the conveying frame 21, and a first baffle 34 is mounted at an output end of the vertical cylinder 33.

In one embodiment, the stacking assembly 4 includes a sliding frame 43, the sliding frame 43 is slidably mounted on the frame 1, two telescopic cylinders 44 are mounted at the lower part of the sliding frame 43, a supporting plate 45 is mounted at the output end of the telescopic cylinders 44, the receiving roller set 41 is rotatably mounted at the lower part of the supporting plate 45, the driving assembly 42 is mounted in the supporting plate 45 and is in transmission connection with the receiving roller set 41, and a second baffle 46 is mounted at one end, far away from the conveying assembly 2, of the supporting plate 45. Wherein, telescopic cylinder 44 drives backup pad 45 rebound, and backup pad 45 drives and accepts roller set 41 and shifts up, makes the upper surface of accepting roller set 41 and the upper surface of conveyer belt 25 be located same horizontal plane, and the setting of second baffle 46 is used for restricting the position of gypsum board, prevents that the gypsum board from running out folded plate subassembly 4.

In one embodiment, the set of receiving rollers 41 includes a rotating rod 411, a first gear 412 is installed at the upper end of the rotating rod 411, the first gear 412 is installed in the supporting plate 45 and is in transmission connection with the driving assembly 42, a supporting roller 413 is rotatably installed at the lower end of the rotating rod 411, and the supporting roller 413 is arranged along the horizontal direction.

Specifically, the driving assembly 42 includes a driving cylinder 421, the driving cylinder 421 is installed at one side of the supporting plate 45, a rack 422 is installed at an output end of the driving cylinder 421, and the rack 422 is engaged with the first gear 412. Wherein, during initial position, the bearing roller 413 that is located both sides is relative, the gypsum board can be at the upper surface removal of bearing roller 413, when placing the gypsum board on bearing subassembly 3, it works to drive actuating cylinder 421, it drives rack 422 and removes to drive actuating cylinder 421, rack 422 drives first gear 412 through the meshing and rotates, first gear 412 drives dwang 411 and rotates, dwang 411 drives bearing roller 413 outwards and rotates, the messenger is located the bearing roller 413 of both sides and deviates from each other, bearing roller 413 and gypsum board take off this moment, telescopic cylinder 44 drives backup pad 45 and moves up, then it drives rack 422 and restores the normal position to drive actuating cylinder 421, make the bearing roller 413 of both sides restore the normal position.

In another embodiment, the roller carrier 413 is driven to rotate by a direct transmission assembly, the direct transmission assembly comprises a direct transmission motor 414, the direct transmission motor 414 is vertically installed on the support plate 45, a second gear 415 is installed at an output end of the direct transmission motor 414, a transmission rod 416 is rotatably installed in the rotation rod 411, a third gear 417 is installed at an upper portion of the transmission rod 416, the third gear 417 is engaged with the second gear 415, a first bevel gear 418 is installed at a lower portion of the transmission rod 416, a second bevel gear 419 is installed at one end of the roller carrier 413, and the first bevel gear 418 is engaged with the second bevel gear 419. The direct-drive motor 414 works, the direct-drive motor 414 drives the second gear 415 to rotate, the second gear 415 drives the third gear 417 to rotate through meshing, the third gear 417 drives the power transmission rod to rotate, the transmission rod 416 drives the first bevel gear 418 to rotate, the first bevel gear 418 drives the second bevel gear 419 to rotate through meshing, and the second bevel gear 419 drives the carrier roller 413 to rotate.

When the gypsum plaster machine is used, a gypsum plaster board is conveyed from the conveying component 2 to the board folding component 4, the telescopic cylinder 44 drives the supporting plate 45 to move upwards, the supporting plate 45 drives the bearing roller group 41 to move upwards, the upper surface of the bearing roller group 41 and the upper surface of the conveying belt 25 are positioned on the same horizontal plane, the conveying component 2 drives the gypsum plaster board to move to the bearing roller group 41, the direct transmission motor 414 works, the direct transmission motor 414 drives the second gear 415 to rotate, the second gear 415 drives the third gear 417 to rotate through meshing, the third gear 417 drives the transmission rod to rotate, the transmission rod 416 drives the first bevel gear 418 to rotate, the first bevel gear 418 drives the second bevel gear 419 to rotate through meshing, the second bevel gear 419 drives the carrier roller 413 to rotate, the carrier roller 413 drives the gypsum plaster board to move in place, the telescopic cylinder 44 drives the supporting plate 45 to move downwards, the gypsum board moves to the bearing component 3, the rack 422 drives the first gear 412 to rotate through meshing, the first gear 412 drives the rotating rod 411 to rotate, the rotating rod 411 drives the carrier rollers 413 to rotate outwards by 180 degrees, the carrier rollers 413 on two sides are separated from each other, the carrying roller group 41 is separated from the gypsum board, the telescopic cylinder 44 drives the supporting plate 45 to move upwards, then the driving cylinder 421 drives the rack 422 to return to the original position, and the carrier rollers 413 on two sides return to the original position; the gypsum board stacking device can also drive the board stacking component 4 to the conveying component 2 through the driving motor, the gypsum boards are directly conveyed to the board stacking component 4, and the gypsum boards are stacked on the bearing component 3 through the board stacking component 4.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The embodiments of the invention are intended to embrace all such alternatives, modifications and variances that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements and the like that may be made without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims

1. The utility model provides a folded plate device is used in thistle board production, a serial communication port, which comprises a frame, conveying component is installed to one side of frame, the bearing subassembly is installed to the opposite side of frame, slidable installs the folded plate subassembly in the frame, install the drive in the frame the gliding driving motor of folded plate subassembly, the folded plate subassembly includes that a plurality of groups accept the roller set, it becomes two rows of rotatable the installing of roller set to accept the roller set the lower part of folded plate subassembly, still install the drive on the folded plate subassembly it is 180 pivoted drive assembly to accept the roller set.

2. The board folding device is used in the production of paper-surface gypsum board according to claim 1, wherein the conveying component comprises a conveying frame, a conveying motor is installed on the lower portion of the conveying frame, a driving roller and a driving roller are installed on the conveying frame, a conveying belt is wound between the driving roller and the driving roller, a conveying wheel is installed at the output end of the conveying motor, a driving wheel is installed at one end of the driving roller, and the conveying wheel is connected with the driving wheel through belt transmission.

3. The board stacking device for producing gypsum plasterboards according to claim 2, wherein the supporting assembly comprises a supporting bracket, the supporting bracket is lower than the conveying frame, a plurality of conveying rollers are rotatably mounted on the supporting bracket, the conveying rollers are connected through chain transmission, a transmission motor in transmission connection with the conveying rollers is mounted on one side of the supporting bracket, a vertical cylinder is mounted on one side of the supporting bracket, which is far away from the conveying frame, and a first baffle is mounted at an output end of the vertical cylinder.

4. The board folding device for producing gypsum plaster boards according to claim 1, wherein the board folding assembly comprises a sliding frame, the sliding frame is slidably mounted on the frame, two telescopic cylinders are mounted on the lower portion of the sliding frame, a support plate is mounted at the output end of each telescopic cylinder, the receiving roller set is rotatably mounted on the lower portion of the support plate, the driving assembly is mounted in the support plate and is in transmission connection with the receiving roller set, and a second baffle is mounted at one end of the support plate, which is far away from the conveying assembly.

5. The board folding device for producing gypsum plasterboards according to claim 4, wherein the receiving roller set comprises a rotating rod, a first gear is mounted at the upper end of the rotating rod, the first gear is mounted in the supporting plate and is in transmission connection with the driving assembly, a supporting roller is rotatably mounted at the lower end of the rotating rod, and the supporting roller is arranged in the horizontal direction.

6. The board folding device for producing gypsum plasterboards according to claim 5, wherein the driving assembly comprises a driving cylinder mounted on one side of the support plate, and an output end of the driving cylinder is provided with a rack which is engaged with the first gear.

7. The board stacking device for producing gypsum plasterboards according to claim 5, further comprising a direct transmission assembly for driving the carrier roller to rotate, wherein the direct transmission assembly comprises a direct transmission motor, the direct transmission motor is vertically mounted on the support plate, a second gear is mounted at an output end of the direct transmission motor, a transmission rod is rotatably mounted in the transmission rod, a third gear is mounted at an upper part of the transmission rod and is meshed with the second gear, a first bevel gear is mounted at a lower part of the transmission rod, a second bevel gear is mounted at one end of the carrier roller, and the first bevel gear is meshed with the second bevel gear.