CN111702876A

CN111702876A - Plank cutting machine

Info

Publication number: CN111702876A
Application number: CN202010481737.5A
Authority: CN
Inventors: 杜慧
Original assignee: Guangzhou Youyi Machinery Technology Co ltd
Current assignee: Guangzhou Youyi Machinery Technology Co ltd
Priority date: 2020-06-01
Filing date: 2020-06-01
Publication date: 2020-09-25

Abstract

The invention provides a wood board cutting machine, which structurally comprises a hand grab handle, a motor, a rotating frame, a support, a bottom plate structure and a cutting blade, wherein the hand grab handle is welded with the rotating frame, the motor is arranged on the rotating frame, the rotating frame is clamped on the support and movably connected with the support, the fixed support structure and the moving frame structure are arranged, so that the surface of wet wood boards can be effectively prevented from being worn under the action of a clamping device, mucus in the wet wood boards flows out to the clamping device and then is adhered to the clamping device, the surface of the wet wood boards can be protected to the maximum extent, the bottom plate structure can be effectively prevented from being adhered to a filter screen layer for a long time, the mucus is fixedly adhered to the upper part of the filter screen layer, the upper part of the filter screen layer is uneven, and the wet wood boards are placed unevenly when the wet wood boards are cut, the wet wood may be shaken to make the cut surface uneven.

Description

Plank cutting machine

Technical Field

The invention relates to the technical field of cutting, in particular to a wood board cutting machine.

Background

Wood is one of common materials in life, and is generally used for processing products such as tables and chairs, bookshelves, ornaments and the like, when the wood is processed, the wood needs to be firstly cut into required specifications, and the wood is conventionally cut and classified by a cutting machine so as to be processed into the required specifications, but the prior art has the following defects:

and when cutting wet plank, need press from both sides it earlier and tightly, and when pressing from both sides tightly it, because the tight dynamics of clamp is too big, press from both sides the surface of wet plank and lose, cause the inside mucus of wet plank to flow, the mucus easily bonds on the clamp, and because the clamp generally all is in the same place with equipment fixed connection, it is comparatively troublesome to wash it.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a wood board cutting machine, which solves the problems that when a wet wood board is cut, the wet wood board needs to be clamped firstly, when the wet wood board is clamped, the surface of the wet wood board is easily clamped and damaged due to overlarge clamping force of a clamping device, so that mucus in the wet wood board flows out, the mucus is easily adhered to the clamping device, and the clamping device is generally fixedly connected with equipment, so that the wet wood board is troublesome to clean.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a plank cutting machine, its structure includes hand grab handle, motor, swivel mount, support, floor structure, cutting blade, hand grab handle welds with the swivel mount mutually, the motor is installed on the swivel mount, the swivel mount block is on the support and swing joint, support lower extreme welds with floor structure upper end mutually, motor and cutting blade mechanical connection, the floor structure is including deciding mounting structure, removing frame structure, drainage tank seat structure, decide mounting structure lower extreme and drainage tank seat structure upper end and laminate mutually and be connected through the electric welding, remove frame structure one end embedding in drainage tank seat structural, and the other end welds mutually with drainage tank seat structural upper end, drainage tank seat structural upper left side and support lower extreme terminal surface weld mutually.

Preferably, the fixed support structure comprises a buffer structure, a support shell and a fixed pressure plate structure, the left side of the buffer structure is welded with the right side of the support shell, the left side of the fixed pressure plate structure is embedded and installed on the right side of the buffer structure, and the lower end face of the support shell is welded on the upper end face of the water filtering tank seat structure.

Preferably, the buffer structure comprises a buffer, a sliding disc, a top column, a guide slot hole and a support shell cover, the right side of the buffer is mechanically connected with the left side of the sliding disc, the right side of the sliding disc is welded with the left side of the top column, the top column and the guide slot hole are of an integrated structure, the buffer is fixedly connected with the support shell cover, the fixed pressure plate structure is embedded and installed on the guide slot hole, and the top column is of a cylindrical rod structure.

Preferably, the constant pressure plate structure comprises a rubber strip, an embedded rod and a buffering pressure plate structure, the rubber strip is bonded on the outer ring of the left end face of the buffering pressure plate structure, the embedded rod and the buffering pressure plate structure are integrally cast and molded, the rubber strip is bonded on the right side of the support shell, and the rubber strip is in an Jiong structure.

Preferably, the buffering clamp plate structure includes embedding strip, first bubble, a support frame, first buffer layer, embedding strip and first buffer layer are integrated casting into one piece, first bubble and first buffer layer structure as an organic whole, embedding strip embedding is installed in a support frame right side and is bonded through gluey solution mutually, embedding pole and a support frame are integrated casting into one piece, embedding strip left end border is the arc structure.

Preferably, the movable frame structure comprises a dynamic pressure plate structure, a threaded rod, a rotating rod handle, a threaded seat and a connecting frame, the right side of the dynamic pressure plate structure is welded with the left side of the connecting frame, the threaded rod penetrates through the threaded seat and is in threaded connection, the rotating rod handle is welded on the left side of the threaded rod, the left side of the threaded rod is assembled with the right side of the connecting frame and is movably connected with the right side of the connecting frame, and the threaded seat is welded on the upper right side of the water filtering groove seat structure.

Preferably, the dynamic pressure plate structure comprises a second bubble, a second buffer layer, a limiting slide block, a clamping shell and an embedding pin, the right side of the clamping shell is welded with the left side of the embedding pin, the second bubble and the second buffer layer are integrally formed, the right side of the second buffer layer is bonded with the left side of the clamping shell, the upper end of the limiting slide block is welded with the lower end of the clamping shell, the limiting slide block is embedded into the water filtering groove seat and is movably connected with the water filtering groove seat, and the bottom length of the second buffer layer is shorter than the bottom length of the clamping shell.

Preferably, the water filtering tank seat structure comprises a support, a filter net rack structure, a limiting snap ring and a water collecting tank, wherein the inner side of the support is welded with the outer ring of the limiting snap ring, the filter net rack structure is embedded and installed on the support, the water collecting tank is placed on the support and is in sliding connection, one end of the movable rack structure is installed on the filter net rack structure and is in sliding connection, the limiting snap ring is in a square ring structure, and the bottom surface of the movable rack structure is in an inclined surface structure.

Preferably, the filtering net rack structure comprises a sliding groove, a filtering net layer and a frame, the sliding groove is embedded in the filtering net layer and is connected with the filtering net layer through electric welding, the upper end of the sliding groove is flush with the filtering net layer, the outer ring of the filtering net layer is welded with the inner wall of the frame, and the sliding groove is of an annular groove structure.

(III) advantageous effects

The invention provides a wood board cutting machine. The method has the following beneficial effects:

1. according to the invention, the fixed support structure and the movable support structure are arranged, the support shell frame pushes the top column to move leftwards under the pushing of wet wood, so that the sliding disc presses the buffer to compress, when the buffer reaches the maximum value, the wet wood is fixed between the second buffer layer and the first buffer layer so as to clamp the wet wood, and under the action of the second buffer layer and the first buffer layer, the surface of the wet wood is protected, so that the surface of the wet wood can be effectively prevented from being worn under the action of the clamp, viscose in the wet wood flows out and flows onto the clamp, and is adhered to the clamp, and the surface of the wet wood can be protected to the maximum extent.

2. The invention can separate the embedded pin on the clamping shell from the connecting frame by arranging the bottom plate structure, so that the dynamic pressure plate structure can be separated from the dynamic pressure plate structure, then the embedded rod on the supporting shell frame can be separated from the guide slot hole, so that the supporting shell frame can be separated from the buffer structure, then the filter screen layer is pushed downwards and upwards, the frame is separated from the support, then the filter screen layer is cleaned, so that the filter screen layer can be quickly disassembled and cleaned, and the buffer pressure plate structure and the dynamic pressure plate structure can be cleaned, thereby effectively preventing viscose from being bonded on the filter screen layer for a long time, so that the viscose is fixedly bonded above the filter screen layer, the upside of the filter screen layer is unsmooth, and wet wood can shake due to the unsmooth placement when the wet wood is cut, resulting in uneven cut surfaces.

Drawings

FIG. 1 is a schematic structural diagram of a plank cutting machine according to the present invention;

FIG. 2 is a front view of the bottom plate structure of the present invention;

FIG. 3 is a schematic top view of a fixed support structure according to the present invention;

FIG. 4 is a front view of a buffer structure according to the present invention;

FIG. 5 is a schematic top view of a constant pressure plate according to the present invention;

FIG. 6 is a schematic top view of the buffering pressing plate structure of the present invention;

FIG. 7 is a front view of the movable frame of the present invention;

FIG. 8 is a front view of the dynamic pressure plate structure of the present invention;

FIG. 9 is a front view of the water filtering tank seat of the present invention;

fig. 10 is a perspective view of a screen frame structure according to the present invention.

In the figure: a hand grab handle-1, a motor-2, a rotating frame-3, a support-4, a bottom plate structure-5, a cutting blade-6, a fixed support structure-51, a moving frame structure-52, a water filtering tank seat structure-53, a buffer structure-511, a support shell-512, a fixed pressure plate structure-513, a buffer-C1, a sliding disc-C2, a top column-C3, a guide slot-C4, a support shell cover-C5, a rubber strip-CC 1, an embedded rod-CC 2, a buffer pressure plate structure-CC 3, an embedded strip-31, a first air bubble-32, a support shell frame-33, a first buffer layer-34, a dynamic pressure plate structure-521, a threaded rod-522, a rotating rod handle-523, a threaded seat-524, a connecting frame-525, a second air bubble-211, a second air bubble-32, a support shell frame-33, a, A second buffer layer-212, a limit slide block-213, a clamping shell-214, an embedded pin-215, a support-531, a filter screen frame structure-532, a limit snap ring-533, a water collecting groove-534, a sliding groove-321, a filter screen layer-322 and a frame-323.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1 to 10:

example 1

The embodiment of the invention provides a wood board cutting machine which structurally comprises a hand grab handle 1, a motor 2, a rotating frame 3, a support 4, a bottom plate structure 5 and a cutting blade 6, the grab handle 1 is welded with the rotating frame 3, the motor 2 is arranged on the rotating frame 3, the rotating frame 3 is clamped on the support 4 and is movably connected, the lower end of the support 4 is welded with the upper end of the bottom plate structure 5, the motor 2 is mechanically connected with the cutting blade 6, the bottom plate structure 5 comprises a fixed support structure 51, a movable support structure 52 and a water filtering tank seat structure 53, the lower end of the fixed support structure 51 is jointed with the upper end of the water filtering tank seat structure 53 and is connected with the water filtering tank seat structure 53 through electric welding, one end of the movable support structure 52 is embedded in the water filtering tank seat structure 53, and the other end is welded with the upper end of the water filtering tank seat structure 53, and the upper left side of the water filtering tank seat structure 53 is welded with the lower end face of the support 4.

Decide supporting structure 51 and include buffer structure 511, support shell 512, decide clamp plate structure 513, buffer structure 511 left side and support shell 512 right side weld mutually, decide clamp plate structure 513 left side and inlay and install in buffer structure 511 right side, support shell 512 lower terminal surface welds in water filtering tank seat structure 53 up end.

The buffer structure 511 comprises a buffer C1, a sliding disc C2, a top column C3, a guide slot hole C4 and a supporting shell cover C5, the right side of the buffer C1 is mechanically connected with the left side of the sliding disc C2, the right side of the sliding disc C2 is welded with the left side of the top column C3, the top column C3 and the guide slot hole C4 are of an integrated structure, the buffer C1 is fixedly connected with the supporting shell cover C5, the fixed pressure plate structure 513 is mounted on the guide slot hole C4 in an embedded mode, the top column C3 is of a cylindrical rod structure, and the guide slot hole C4 in the top column is used for being assembled with the fixed pressure plate structure 513, so that the fixed pressure plate structure 513 can be detached, cleaned or replaced regularly.

The fixed pressure plate structure 513 comprises a rubber strip CC1, an embedded rod CC2 and a buffer pressure plate structure CC3, the rubber strip CC1 is bonded on the outer ring of the left end face of the buffer pressure plate structure CC3, the embedded rod CC2 and the buffer pressure plate structure CC3 are integrally cast, the rubber strip CC1 is bonded on the right side of the bracket shell 512, and the rubber strip CC1 is of an 'Jiong' structure, so that the phenomenon that the bottom edge of the rubber strip CC1 protrudes outwards when being extruded and rubs with the upper end of the water filtering groove seat structure 53 to be worn off is effectively avoided.

Wherein, buffering clamp plate structure CC3 is including embedding strip 31, first bubble 32, cradle 33, first buffer layer 34, embedding strip 31 and first buffer layer 34 are integrative cast molding, first bubble 32 and first buffer layer 34 structure as an organic whole, embedding strip 31 embedding is installed in cradle 33 right side and is bonded through gluey solution mutually, embedding pole CC2 and cradle 33 are integrative cast molding, embedding strip 31 left end edge is the arc structure, causes embedding strip 31 can go on the cradle 33 fast and effectual embedding more.

The movable frame structure 52 comprises a movable platen structure 521, a threaded rod 522, a rotating rod handle 523, a threaded seat 524 and a connecting frame 525, the right side of the movable platen structure 521 is welded with the left side of the connecting frame 525, the threaded rod 522 penetrates through the threaded seat 524 and is in threaded connection with the threaded seat 524, the rotating rod handle 523 is welded on the left side of the threaded rod 522, the left side of the threaded rod 522 is assembled with the right side of the connecting frame 525 and is movably connected with the connecting frame, the threaded seat 524 is welded on the upper right side of the water filtering tank seat structure 53, and when the threaded rod 522 moves, the movable platen structure 521 is driven to slide above the water filtering tank seat structure 53.

The dynamic pressure plate structure 521 includes a second bubble 211, a second buffer layer 212, a limit slider 213, a clamping shell 214 and an embedded pin 215, the right side of the clamping shell 214 is welded to the left side of the embedded pin 215, the second bubble 211 and the second buffer layer 212 are integrally formed, the right side of the second buffer layer 212 is bonded to the left side of the clamping shell 214, the upper end of the limit slider 213 is welded to the lower end of the clamping shell 214, the limit slider 213 is embedded in the water filtering tank seat structure 53 and is movably connected to the water filtering tank seat structure 53, and the length of the bottom of the second buffer layer 212 is shorter than that of the bottom of the clamping shell 214, so that the second buffer layer 212 cannot contact the water filtering tank seat structure 53, and therefore, abrasion of the bottom of the second buffer layer 212 during sliding can be effectively avoided.

The specific working process is as follows:

when wet wood boards are cut, the wet wood boards are firstly placed between a fixed support structure 51 and a movable support structure 52 above a water filtering tank seat structure 53, then the rotary rod handle 523 is rotated, the rotary rod handle 523 drives a threaded rod 522 to rotate on a threaded seat 524, the connecting frame 525 drives a dynamic pressure plate structure 521 to move towards a buffering pressure plate structure CC3 under the drive of the threaded rod 522, the clamping shell 214 drives the second buffer layer 212 to move towards the first buffer layer 34 under the drive of the connecting frame 525, so that the wet wood boards are extruded and fixed between the second buffer layer 212 and the first buffer layer 34, the support frame 33 pushes the top column C3 to move leftwards under the drive of the wet wood, the sliding disc C2 extrudes the buffer C1 to compress, when the buffer C1 reaches the maximum value, the wet wood is fixed between the second buffer layer 212 and the first buffer layer 34, so as to clamp the wet wood, after the wet wood is fixed, the motor 2 is started, and the cutting blade 6 is driven to rotate by the motor 2 so as to cut the wet wood.

Example 2

Wherein, water filtering tank seat structure 53 includes support 531, filter screen frame structure 532, spacing snap ring 533, water catch bowl 534, support 531 inboard welds mutually with spacing snap ring 533 outer loop, filter screen frame structure 532 inlays and installs on support 531, water catch bowl 534 is placed on support 531 and sliding connection, remove frame structure 52 one end and install on filter screen frame structure 532 and sliding connection, spacing snap ring 533 is square ring structure, and the bottom surface is the inclined plane structure.

The filtering net rack structure 532 comprises a sliding groove 321, a filtering net layer 322 and a frame 323, the sliding groove 321 is embedded in the filtering net layer 322 and connected through electric welding, the upper end of the sliding groove is flush with the filtering net layer 322, the outer ring of the filtering net layer 322 is welded with the inner wall of the frame 323, and the sliding groove 321 is in an annular groove structure and used for limiting the sliding track of the moving rack structure 52.

The specific working process is as follows:

when the wet wood is cut, the generated mucilage flows to the water filtering tank seat structure 53, flows downwards through the filter screen layer 322, then drops into the water collecting tank 534, and is collected through the water collecting tank 534, when a certain amount of mucilage is collected on the water collecting tank 534, the water collecting tank 534 is taken out through the slotted hole at the side end of the support 531 for cleaning, meanwhile, the threaded rod 522 is driven to move to the right side by reversely rotating the rotating rod handle 523, so that the connecting frame 525 moves to the upper right of the sliding groove 321, and the embedding pin 215 on the clamping shell 214 is separated from the connecting frame 525, so that the dynamic pressure plate structure 521 can be separated from the dynamic pressure plate structure, then the embedding rod CC2 on the support frame 33 is separated from the slotted hole C4, so that the support frame 33 can be taken down from the buffer structure 511, then the filter screen layer 322 is pushed downwards and upwards, so that the frame is taken down from the support 531, next, by cleaning the filter mesh layer 322, the filter mesh layer 322 can be quickly detached and cleaned, and the buffer presser plate structure CC3 and the presser plate structure 521 can also be cleaned.

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

1. The utility model provides a plank cutting machine, its structure includes hand grab handle (1), motor (2), swivel mount (3), support (4), bottom plate structure (5), cutting blade (6), hand grab handle (1) welds mutually with swivel mount (3), motor (2) are installed on swivel mount (3), just swing joint is gone up and swing joint in support (4) to swivel mount (3) block, support (4) lower extreme welds mutually with bottom plate structure (5) upper end, motor (2) and cutting blade (6) mechanical connection, its characterized in that:

bottom plate structure (5) are including deciding mounting structure (51), removing frame structure (52), drainage tank seat structure (53), decide mounting structure (51) lower extreme and drainage tank seat structure (53) upper end and laminate mutually and be connected through the electric welding, remove frame structure (52) one end embedding on drainage tank seat structure (53), and the other end welds mutually with drainage tank seat structure (53) upper end, drainage tank seat structure (53) upper left side and support (4) lower terminal surface weld mutually.

2. The board cutting machine according to claim 1, characterized in that: decide supporting structure (51) including buffer structure (511), support shell (512), decide clamp plate structure (513), buffer structure (511) left side and support shell (512) right side weld mutually, decide clamp plate structure (513) left side and inlay and install in buffer structure (511) right side, support shell (512) lower terminal surface welds in drainage tank seat structure (53) up end.

3. The board cutting machine according to claim 2, characterized in that: buffer structure (511) include buffer (C1), sliding tray (C2), fore-set (C3), guide slot hole (C4), branch shell cover (C5), buffer (C1) right side and sliding tray (C2) left side mechanical connection, sliding tray (C2) right side and fore-set (C3) left side weld mutually, fore-set (C3) and guide slot hole (C4) are the integral structure, buffer (C1) and branch shell cover (C5) fixed connection, level pressure plate structure (513) are inlayed and are installed on guide slot hole (C4).

4. The board cutting machine according to claim 2, characterized in that: level pressure plate structure (513) include rubber strip (CC 1), embedded rod (CC 2), buffering clamp plate structure (CC 3), rubber strip (CC 1) bond at buffering clamp plate structure (CC 3) left end face outer ring, embedded rod (CC 2) and buffering clamp plate structure (CC 3) are integrated into one piece casting, rubber strip (CC 1) bond in support shell (512) right side.

5. The board cutting machine according to claim 4, wherein: buffering clamp plate structure (CC 3) is including embedding strip (31), first bubble (32), a shell frame (33), first buffer layer (34), embedding strip (31) and first buffer layer (34) casting moulding as an organic whole, first bubble (32) and first buffer layer (34) structure as an organic whole, embedding strip (31) embedding is installed in a shell frame (33) right side and is bonded through gluing solution mutually, embedded bar (CC 2) and a shell frame (33) casting moulding as an organic whole.

6. The board cutting machine according to claim 1, characterized in that: the movable frame structure (52) comprises a movable platen structure (521), a threaded rod (522), a rotating rod handle (523), a threaded seat (524) and a connecting frame (525), the right side of the movable platen structure (521) is welded with the left side of the connecting frame (525), the threaded rod (522) penetrates through the threaded seat (524) and is in threaded connection, the rotating rod handle (523) is welded on the left side of the threaded rod (522), the left side of the threaded rod (522) is assembled with the right side of the connecting frame (525) and is movably connected with the same, and the threaded seat (524) is welded on the upper right side of the water filtering tank seat structure (53).

7. The board cutting machine according to claim 6, wherein: dynamic pressure plate structure (521) include second bubble (211), second buffer layer (212), spacing slider (213), card shell (214), embedding round pin (215), card shell (214) right side and embedding round pin (215) left side weld mutually, second bubble (211) and second buffer layer (212) are integrated into one piece, second buffer layer (212) right side and card shell (214) left side bond mutually, spacing slider (213) upper end and card shell (214) lower extreme weld mutually, spacing slider (213) embedding just swing joint on drainage cell seat structure (53).

8. The board cutting machine according to claim 1, characterized in that: water filtering tank seat structure (53) includes support (531), filter screen frame structure (532), spacing snap ring (533), water catch bowl (534), support (531) inboard welds mutually with spacing snap ring (533) outer loop, filter screen frame structure (532) are inlayed and are installed on support (531), water catch bowl (534) are placed on support (531) and sliding connection, remove frame structure (52) one end and install on filter screen frame structure (532) and sliding connection.

9. The board cutting machine according to claim 8, wherein: the filter screen frame structure (532) comprises a sliding groove (321), a filter screen layer (322) and a frame (323), the sliding groove (321) is embedded in the filter screen layer (322) and connected with the filter screen layer (322) through electric welding, the upper end of the sliding groove is parallel to the filter screen layer (322), and the outer ring of the filter screen layer (322) is welded with the inner wall of the frame (323).