CN112265082B

CN112265082B - Board cutting mechanism for plywood

Info

Publication number: CN112265082B
Application number: CN202011066660.1A
Authority: CN
Inventors: 李军
Original assignee: Linyi Ludi Decoration Material Co Ltd
Current assignee: Linyi Ludi Decoration Material Co Ltd
Priority date: 2020-10-02
Filing date: 2020-10-02
Publication date: 2021-07-06
Anticipated expiration: 2040-10-02
Also published as: CN112265082A

Abstract

The invention relates to a plate cutting mechanism of a plywood. The board cutting mechanism of plywood includes work frame, drive assembly, transmission assembly and cutting assembly, the one end of work frame is provided with the driven voller with rotating, drive assembly includes driving motor, the drive roll, the drive wheel, the transfer roller, from driving wheel and power leather strap, driving motor installs on work frame's lateral wall, the drive wheel is installed on driving motor's output shaft, the relative both ends of drive roll are connected respectively with rotating on work frame's relative both sides wall, the one end of drive roll still with driving motor's output shaft fixed connection, the transfer roller is installed in work frame's lateral wall top with rotating. When the board cutting mechanism of the plywood cuts boards, raised burrs are easy to generate on the edges of the boards, and the burrs can be removed by friction by using the polishing disc, so that the cutting quality and the safety performance of subsequent transportation are improved.

Description

Board cutting mechanism for plywood

Technical Field

The invention relates to a plate cutting mechanism of a plywood.

Background

The plywood comprises decorative veneer-faced plywood, and the decorative veneer can be divided into single-sided decorative veneer-faced plywood and double-sided decorative veneer-faced plywood according to decorative surfaces; can be divided into I type decorative veneer overlaying plywood, II type decorative veneer overlaying plywood and III type decorative veneer overlaying plywood according to the water resistance; the veneers can be divided into radial veneered veneers and chord veneered veneers according to the texture of the decorative veneers. Plywood is often cut from one panel into two pieces during the manufacturing process. However, the edge of the plate material is easily flapped when the plate material is cut, and the worker is easily cut when the plate material is carried.

Disclosure of Invention

In view of the above, there is a need for a plywood sheet cutting mechanism that facilitates the elimination of flash.

A plate cutting mechanism of a plywood comprises a working frame, a driving assembly, a transmission assembly and a cutting assembly, wherein one end of the working frame is rotatably provided with a driven roller, the driving assembly comprises a driving motor, a driving roller, a driving wheel, a transfer roller, a driven wheel and a power leather strip, the driving motor is installed on the side wall of the working frame, the driving wheel is installed on an output shaft of the driving motor, two opposite ends of the driving roller are respectively and rotatably connected to two opposite side walls of the working frame, one end of the driving roller is fixedly connected with the output shaft of the driving motor, the transfer roller is rotatably installed at the top of the side wall of the working frame, the driven wheel is rotatably installed on the top surface of the working frame, the power leather strip is annular, the middle part of the power leather strip is wound on the transfer roller, two ends of the power leather strip are respectively sleeved on the driving wheel and the driven, The grinding device comprises a matching gear, a rotating roller and a grinding disc, wherein the two transmission belts are arranged in parallel, two opposite ends of each transmission belt are respectively sleeved on a driving roller and a driven roller, a cutting gap is formed between the two transmission belts, the matching gear is rotatably installed on the top surface of a working frame and is meshed with a driving gear, the top end of the rotating roller is penetrated in the working frame and is coaxially fixed with the matching gear, the rotating roller vertically extends downwards and is aligned with the cutting gap, the grinding disc is fixed at the bottom end of the rotating roller and is positioned right above the cutting gap, a cutting assembly comprises a supporting roller, a drawing oil cylinder, a swinging rod and a strip-shaped cutting knife, two opposite ends of the supporting roller are respectively and rotatably installed at the lower parts of two opposite side walls of the working frame, the rear end of the drawing oil cylinder is rotatably installed at the bottom of the inner side of, the middle part of pendulum rod is installed in the middle part of backing roll with rotating, and in the cutting clearance was worn to locate in the middle part of bar cutting knife, the bottom mounting in the top of pendulum rod of bar cutting knife.

In one of them embodiment, the bar cutting knife includes relative cutting edge portion and the thickening back that sets up, and the cutting edge portion of bar cutting knife is towards the supplied materials direction, and the thickening back of bar cutting knife slides to support on polishing the disc global.

In one embodiment, the bottom surface of the sanding disc is formed with a rough sanding surface having a diameter larger than the width of the cutting gap, the downward projection of the rough sanding surface being on both conveyor belts.

In one embodiment, the strip-shaped cutting knife extends along the vertical direction, the outer diameter of the driving gear is smaller than that of the driven gear, a driving ring groove is concavely formed on the peripheral surface of the driving gear, and a driven ring groove is concavely formed on the peripheral surface of the driven gear.

In one embodiment, two opposite ends of the power leather strip are respectively sleeved in the driving ring groove of the driving wheel and the driven ring groove of the driven wheel, and the cross section of the power leather strip is circular.

In one embodiment, the driving ring groove is arranged at one end of the driving wheel far away from the side wall of the working frame, the driven ring groove is arranged at one end of the driven wheel near the top surface of the working frame, the two opposite ends of the transfer roller are respectively provided with a mounting block, and the two mounting blocks are both fixedly mounted at the top of the side wall of the working frame.

In one embodiment, the support rollers are supported on the bottom surfaces of the two conveyor belts, the top surface of the working frame is perpendicular to the side walls of the working frame, and the power strips on opposite sides of the transfer roller are perpendicular to each other.

In one embodiment, the diameter of the driving roller is equal to that of the driven roller, the diameter of the driving roller is larger than that of the supporting roller, the driving roller is positioned in the middle of the working frame, and the drawing oil cylinder is positioned below the cutting gap.

In one embodiment, the rear end of the drawing oil cylinder is adjacent to the end part of the working frame, the output shaft of the drawing oil cylinder faces the supporting roller, the middle part of the driving roller is concavely provided with an avoiding ring groove, and the avoiding ring groove is aligned with the cutting gap.

In one of them embodiment, driving motor is used for driving the drive roll rotation rotatory in order to drive two transmission belt rotatory, transmit panel towards the drive roll, the output shaft of pull hydro-cylinder is used for the shrink rotatory in order to drive the bar cutting knife, make the thickening back support to lean on the global in the disc of polishing, the cutting blade portion that utilizes the bar cutting knife cuts into two laths with panel, power belt is used for driving under the drive of drive wheel and follows the wheel rotation, cooperation through drive gear and cooperation gear is rotatory in order to drive the disc of polishing, utilize the edge upper surface of two laths after the cutting of coarse polishing disc polishing, in order to remove the overlap at lath edge.

When using, it is rotatory in order to drive two transmission belt of driving motor drive roll, it is rotatory to transmit panel towards the drive roll, the output shaft shrink of pull hydro-cylinder is rotatory in order to drive the bar cutting knife, make the back of bar cutting knife support to lean on polishing the disc global with sliding, for example, polishing the disc global and be the smooth surface, utilize the bar cutting knife to cut panel into two laths, power belt drives under the drive of drive wheel and follows the driving wheel rotatory, it is rotatory in order to drive polishing the disc through the cooperation of drive gear and cooperation gear, the edge upper surface of two laths after utilizing polishing the cutting of polishing the disc, in order to remove probably burr and the overlap that the lath edge produced because of the cutting, be convenient for eliminate the overlap, the security performance of follow-up transport has. And lean on the bar cutting knife of leaning on the disc is global, both can rely on the fixed power of pull hydro-cylinder and fix, can obtain strengthening through the disc of polishing moreover for it is convenient for to counter the antedisplacement trend of panel.

Drawings

Fig. 1 is a perspective view illustrating a board cutting mechanism of plywood according to an embodiment.

Fig. 2 is a perspective view of another perspective of the board cutting mechanism of the plywood shown in fig. 1.

Fig. 3 is a perspective view of a rotating member according to an embodiment.

Fig. 4 is a partially enlarged view of fig. 1 at B.

Detailed Description

Referring to fig. 1 to 4, a board cutting mechanism for plywood comprises a working frame 10, a driving assembly 20, a transmission assembly 30 and a cutting assembly 40, wherein one end of the working frame 10 is rotatably provided with a driven roller 11, the driving assembly 20 comprises a driving motor 21, a driving roller, a driving wheel 22, a transfer roller 23, a driven roller 24 and a power leather strip 25, the driving motor 21 is installed on a side wall of the working frame 10, the driving wheel 22 is installed on an output shaft of the driving motor 21, opposite ends of the driving roller are respectively rotatably connected to opposite side walls of the working frame 10, one end of the driving roller is further fixedly connected with the output shaft of the driving motor 21, the transfer roller 23 is rotatably installed on the top of the side wall of the working frame 10, the driven roller 24 is rotatably installed on the top surface of the working frame 10, the middle of the power leather strip 25 is annularly wound on the transfer roller 23, two ends of the power leather strip 25 are respectively sleeved on the driving wheel 22, a driving gear 245 is arranged at the top of the driven wheel 24, the transmission assembly 30 comprises two transmission belts 31, a matching gear 32, a rotating roller 33 and a grinding disc 34, the two transmission belts 31 are arranged in parallel, two opposite ends of each transmission belt 31 are respectively sleeved on the driving roller and the driven roller 11, a cutting gap 315 is formed between the two transmission belts 31, the matching gear 32 is rotatably arranged on the top surface of the working frame 10 and is mutually meshed with the driving gear 245, the top end of the rotating roller 33 is arranged in the working frame 10 in a penetrating manner and is coaxially fixed with the matching gear 32, the rotating roller 33 vertically extends downwards and is aligned with the cutting gap 315, the grinding disc 34 is fixed at the bottom end of the rotating roller 33 and is positioned right above the cutting gap 315, the cutting assembly 40 comprises a supporting roller 41, a drawing oil cylinder 42, a swing rod 43 and a strip-shaped cutting knife 45, two opposite ends of the supporting roller 41 are respectively rotatably arranged at, the rear end of the drawing oil cylinder 42 is rotatably installed at the bottom of the inner side of the working frame 10, the bottom end of the swing rod 43 is rotatably connected to the output shaft of the drawing oil cylinder 42, the middle part of the swing rod 43 is rotatably installed at the middle part of the supporting roller 41, the middle part of the strip-shaped cutting knife 45 is arranged in the cutting gap 315 in a penetrating manner, and the bottom end of the strip-shaped cutting knife 45 is fixed at the top end of the swing rod 43.

When the plate polishing device is used, the driving roller is driven by the driving motor 21 to rotate so as to drive the two transmission belts 31 to rotate, plates are transmitted towards the driving roller, the output shaft of the drawing oil cylinder 42 contracts to drive the strip-shaped cutting knife 45 to rotate, the back of the strip-shaped cutting knife 45 is slidably abutted to the peripheral surface of the polishing disc 34, for example, the peripheral surface of the polishing disc 34 is a smooth surface, the plate is cut into two strips by the strip-shaped cutting knife 45, the power belt drives the driven wheel 24 to rotate under the driving of the driving wheel 22, the polishing disc 34 is driven to rotate through the matching of the driving gear 245 and the matching gear 32, the upper surfaces of the edges of the two strips after polishing and cutting of the polishing disc 34 are utilized, burrs and flashes which are possibly generated due to cutting at the edges of the strips are removed, the flashes are. And lean on the bar cutting knife 45 on the disc 34 global of polishing, both can rely on the fixed power of pull cylinder 42 and fix, can be strengthened moreover through disc 34 of polishing for it is convenient for to resist the antedisplacement trend of panel.

For example, in order to improve the stability of the bar cutter 45, the bar cutter 45 includes a cutting edge portion 451 and a thickened back portion 455 which are oppositely disposed, the cutting edge portion 451 of the bar cutter 45 faces the material feeding direction, and the thickened back portion 455 of the bar cutter 45 slidably abuts against the circumferential surface of the polishing disc 34. The bottom surface of the sanding disc 34 is formed with a rough sanding surface, the diameter of the sanding disc 34 is larger than the width of the cutting gap 315, and the downward projection of the rough sanding surface is located on the two conveyor belts 31. The strip cutter 45 extends in a vertical direction. The abutment force of the sanding disc 34 may enhance the abutment force of the bar cutter 45. Since the friction of the circumferential surface of the sanding disc 34 is very small, the friction caused by the rotation thereof is small, and no side force influence is generated on the thickened back 455 of the strip cutter 45.

For example, in order to facilitate the connection stability of the power strap 25, the outer diameter of the driving gear 245 is smaller than the outer diameter of the driven gear 24, the driving ring groove 225 is concavely formed on the circumferential surface of the driving gear 22, and the driven ring groove 245 is concavely formed on the circumferential surface of the driven gear 24. The opposite ends of the power strap 25 are respectively sleeved in the driving ring groove 225 of the driving wheel 22 and the driven ring groove 245 of the driven wheel 24. For example, in one embodiment, the cross-section of the power strap is circular. The driving ring groove 225 is located at one end of the driving wheel 22 far away from the side wall of the working frame 10, the driven ring groove 245 is located at one end of the driven wheel 24 near the top surface of the working frame 10, the opposite ends of the transfer roller 23 are respectively provided with a mounting block 235, and the two mounting blocks 235 are both fixedly mounted at the top of the side wall of the working frame 10. The cross section of the power strap 25 is circular, and the driving ring groove 225 and the driven ring groove 245 are arranged, so that the power strap 25 is convenient to mount, the power strap 25 cannot be easily separated, and the circular cross section enables the power strap 25 to be easily switched between the top surface and the side wall of the working frame 10 and to move smoothly.

For example, in order to support the two transfer belts 31, the support rollers 41 are supported on the bottom surfaces of the two transfer belts 31, the top surface of the working frame 10 is perpendicular to the side walls of the working frame 10, and the power straps 25 on opposite sides of the intermediate roller 23 are perpendicular to each other, i.e., two portions of the power straps 25 on opposite sides of the intermediate roller 23 are perpendicular to each other. The diameter of the driving roller is equal to that of the driven roller 11, the diameter of the driving roller is larger than that of the supporting roller 41, the driving roller is positioned in the middle of the working frame 10, and the drawing oil cylinder 42 is positioned below the cutting gap 315. The rear end of the drawing oil cylinder 42 is adjacent to the end part of the working frame 10, the output shaft of the drawing oil cylinder 42 faces the supporting roller 41, the middle part of the driving roller is concavely provided with an avoiding ring groove, and the avoiding ring groove is aligned with the cutting gap 315. By arranging the supporting roller 41, the supporting roller 41 can be provided with the swing rod 43 on one hand and can support the conveying belt 31 on the other hand, thereby achieving two purposes.

For example, in use, the driving motor 21 is used for driving the driving roller to rotate so as to drive the two transmission belts 31 to rotate, so as to transmit the plate towards the driving roller, the output shaft of the drawing cylinder 42 is used for contracting so as to drive the strip-shaped cutting knife 45 to rotate, so that the thickened back 455 abuts against the circumferential surface of the polishing disc 34, the plate is cut into two strips by the cutting edge part 451 of the strip-shaped cutting knife 45, the power belt is used for driving the driven wheel 24 to rotate under the driving of the driving wheel 22, the polishing disc 34 is driven to rotate through the matching of the driving gear 245 and the matching gear 32, and the upper surfaces of the edges of the two strips after cutting are polished by the rough polishing circular surface so as to remove.

For example, it is particularly important that, in order to avoid the occurrence of burrs on the side walls of the strips, the middle of the rough grinding round surface is provided with grinding studs protruding downwards, the diameter of each grinding stud is equal to the width of the cutting gap 315, the grinding studs are inserted into the cutting gap 315, and the peripheral surfaces of the grinding studs are used for grinding the side walls of the two strips. By providing the sanding studs, it is thus possible to sand the side walls of the strip, while by providing the sanding discs 34, it is possible to sand the top of the strip, which in conclusion can be removed to a greater extent.

For example, in some cases, the strip cutter is required to generate a certain inclination angle to improve the cutting efficiency, and the drawing cylinder 42 is also used for pushing the strip cutter 45 to rotate around the supporting roller 41, so that the strip cutter 45 is separated from the grinding disc 34 and keeps the inclination angle. Can utilize the bar cutting knife to keep off to panel to establish the cutting aslope this moment, improve cutting efficiency. For example, the inner side walls of the work frame 10 serve to restrain opposite sides of the sheet material. Can make panel can not incline to both sides because of receiving the cutting force of bar cutting knife 45 to the back now, two laths after the cutting are difficult also to incline to both sides because the spacing of the inside wall that has received work frame 10.

For example, in order to avoid the situation that the front ends of the two slats are tilted during the moving process and further affect the part of the rear ends of the slats being cut, in order to avoid this situation, the bottom surface of the driven wheel 24 is coaxially fixed with the pressure roller 248, the pressure roller 248 extends vertically downward, the bottom end of the pressure roller 248 is formed with a tapered tip 2485, the tapered tip 2485 is inserted downward into the relief ring groove of the driving roller, the upper peripheral surface of the tapered tip 2485 is provided with two arc-shaped abutting wings 246 protruding outward, the two abutting wings 246 are arranged oppositely, each abutting wing 246 comprises a lower end 2461 and an upper end 2463 which are arranged oppositely, and the distance between the lower end 2461 of the abutting wing 246 and the upper surface of the conveying belt 31 is equal to the thickness of the slats. The pressure roller 248 is driven by the driven wheel 24 to rotate so as to drive the two abutting fins 246 to rotate, and the two abutting fins 246 abut against the upper sides of the two slats, so that the front ends of the two slats are kept flush without being tilted. That is, the lower ends 2461 of the two abutting fins 246 intermittently press the front ends of the two slats, the upper ends move to the slats, and then the lower ends move to the slats gradually, so that the front ends of the two slats cannot be tilted up, the influence on the process that the rear end of the plate is being cut by the strip-shaped cutting knife 45 can be avoided, and the cutting quality is improved.

Claims

1. A plate cutting mechanism of a plywood is characterized by comprising a working frame, a driving assembly, a transmission assembly and a cutting assembly, wherein one end of the working frame is rotatably provided with a driven roller, the driving assembly comprises a driving motor, a driving roller, a driving wheel, a transfer roller, a driven wheel and a power leather strip, the driving motor is arranged on the side wall of the working frame, the driving wheel is arranged on an output shaft of the driving motor, two opposite ends of the driving roller are respectively and rotatably connected onto two opposite side walls of the working frame, one end of the driving roller is also fixedly connected with the output shaft of the driving motor, the transfer roller is rotatably arranged at the top of the side wall of the working frame, the driven wheel is rotatably arranged on the top surface of the working frame, the power leather strip is annular, the middle part of the power leather strip is wound on the transfer roller, two ends of the power leather strip are respectively sleeved, the transmission assembly comprises two transmission belts, a matching gear, a rotating roller and a polishing disc, the two transmission belts are arranged in parallel, two opposite ends of each transmission belt are respectively sleeved on a driving roller and a driven roller, a cutting gap is formed between the two transmission belts, the matching gear is rotatably installed on the top surface of the working frame and is meshed with the driving gear, the top end of the rotating roller is penetrated in the working frame and is coaxially fixed with the matching gear, the rotating roller vertically extends downwards and is aligned with the cutting gap, the polishing disc is fixed at the bottom end of the rotating roller and is positioned right above the cutting gap, the cutting assembly comprises a supporting roller, a drawing oil cylinder, a swing rod and a strip-shaped cutting knife, two opposite ends of the supporting roller are respectively rotatably installed at the lower parts of two opposite side walls of the working frame, the rear end of the drawing oil cylinder is rotatably installed at the bottom of the inner side of the working frame, and, the middle part of pendulum rod is installed in the middle part of backing roll with rotating, and in the cutting clearance was worn to locate in the middle part of bar cutting knife, the bottom mounting in the top of pendulum rod of bar cutting knife.

2. The board cutting mechanism of plywood as claimed in claim 1, wherein the strip cutter includes opposed cutting edge portions and thickened back portions, the cutting edge portions of the strip cutter being oriented in the direction of the incoming material, the thickened back portions of the strip cutter being slidably supported against the peripheral surface of the grinding disc.

3. Plywood sheet cutting mechanism according to claim 2, characterized in that the bottom surface of the sanding disc is formed with a rough sanding circle, the diameter of the sanding disc being larger than the width of the cutting gap, the downward projection of the rough sanding circle being located on both conveyor belts.

4. The plywood sheet cutting mechanism of claim 3, wherein the strip cutter extends in a vertical direction, the outer diameter of the driving gear is smaller than the outer diameter of the driven gear, a driving ring groove is concavely formed on the peripheral surface of the driving gear, and a driven ring groove is concavely formed on the peripheral surface of the driven gear.

5. The plywood sheet cutting mechanism of claim 4, wherein opposite ends of the power leather strip are respectively fitted in the driving ring groove of the driving wheel and the driven ring groove of the driven wheel, and the cross section of the power leather strip is circular.

6. Plywood sheet cutting mechanism according to claim 5, characterized in that the driving ring groove is located at the end of the driving wheel remote from the side wall of the working frame, the driven ring groove is located at the end of the driven wheel adjacent to the top surface of the working frame, and the opposite ends of the intermediate roll are provided with respective mounting blocks, both of which are fixedly mounted on the top of the side wall of the working frame.

7. The plywood sheet cutting mechanism of claim 6, wherein the support rollers are supported on the bottom surfaces of the two conveyor belts, the top surface of the working frame is perpendicular to the side walls of the working frame, and the power strips on opposite sides of the transfer roller are perpendicular to each other.

8. The plywood sheet cutting mechanism of claim 7, wherein the drive roll has a diameter equal to that of the driven roll, the drive roll has a diameter greater than that of the support roll, the drive roll is located in the middle of the working frame, and the draw cylinder is located below the cutting gap.

9. The plywood sheet cutting mechanism of claim 8, wherein the rear end of the drawing cylinder is adjacent to the end of the working frame, the output shaft of the drawing cylinder faces the support roller, and an avoidance ring groove is concavely formed in the middle of the drive roller and aligned with the cutting gap.

10. The plywood board cutting mechanism according to claim 9, wherein the driving motor is configured to drive the driving roller to rotate so as to drive the two transmission belts to rotate, the board is transmitted toward the driving roller, the output shaft of the drawing cylinder is configured to contract so as to drive the strip-shaped cutter to rotate, so that the thickened back portion abuts against the circumferential surface of the polishing disc, the board is cut into two strips by using the cutting edge portion of the strip-shaped cutter, the power belt is configured to drive the driven wheel to rotate under the driving of the driving wheel, the polishing disc is driven to rotate through the matching of the driving gear and the matching gear, and the upper surfaces of the edges of the two cut strips are polished by using the rough polishing circular surface so as to remove burrs at the edges of the strips.