CN110861166A - High stability wood cutting processingequipment - Google Patents

Abstract

The invention provides a high-stability wood cutting and processing device, which structurally comprises a power supply regulator, a cutting support sleeve seat, a wood chip collecting box, a workbench, a high-stability auxiliary cutting device, a cutting knife sleeve and a cutting knife, wherein the power supply regulator is welded on the left side of the right end face of the cutting support sleeve seat, the wood chip collecting box is installed at the bottom end inside the cutting support sleeve seat in an embedded mode, the bottom end of the workbench is fixedly connected to the top end of the cutting support sleeve seat in an electric welding mode, the high-stability wood cutting and processing device can press an internal pressing sleeve plate through an adjusting and inserting piece, the pressing and guiding mechanism is triggered when the inner pressing plate is stressed, the force application position does not need to be adjusted for multiple times in the long-distance cutting process of the plate, and the plate can be controlled by a single controller, under the auxiliary action of the dislocation auxiliary mechanism and the pressure distribution mechanism, stable pushing force can be kept, deviation in the cutting process is prevented, and the situation that the cut wood data are the same as the predicted data is ensured.

Description

High stability wood cutting processingequipment

Technical Field

The invention belongs to the field of wood cutting, and particularly relates to a high-stability wood cutting and processing device.

Background

In the process of cutting wood by the fine cutting wood cutting machine, due to the cutting precision requirement, the overhead lath needs to be measured and adjusted, then the wood is pushed to the cutting piece at a constant speed to complete the cutting process, and the pushing force exerted on the wood needs to be kept relatively stable during the process, so that the cutting surface can keep a state with less burrs.

Based on the above description, the present inventors found that the existing high-stability wood cutting and processing device mainly has the following disadvantages, for example:

the top-mounted lath on the cutting machine can only keep a relatively vertical state for the processed wood, and in the cutting process, because a wood cutting person who directly applies force to the pushing force of the wood is difficult to keep the pushing force close to the previous force application point after adjusting the force application position in the long-distance cutting process, the small-section deviation between the rear wood and the top-mounted lath is easily caused, and the deviation between the wood data and the predicted data after the rear cutting is caused.

Disclosure of Invention

In order to solve the technical problems, the invention provides a high-stability wood cutting and processing device, which solves the problems that the existing overhead lath on a cutting machine can only keep a relatively vertical state on processed wood, and in the cutting process, a wood cutting person who directly applies force on the pushing force of the wood is difficult to keep the pushing force close to the previous force application point after adjusting the force application position in the long-distance cutting process, so that the wood at the rear part and the overhead lath are easy to deviate in small sections, and the wood data and the predicted data after the rear part is cut deviate.

Aiming at the defects of the prior art, the purpose and the effect of the high-stability wood cutting and processing device are achieved by the following specific technical means: the utility model provides a high stability wood cutting processingequipment, its structure includes that power regulator, cutting support sleeve seat, saw-dust collect box, workstation, high stability assist and cut device, cutting knife cover, cutting knife, power regulator welding is in the positive terminal surface left side of cutting support sleeve seat, the saw-dust is collected the box and is installed in the inside bottom of cutting support sleeve seat through the mode of embedding, the workstation bottom adopts the mode fixed connection that the electric welding is in cutting support sleeve seat top, the cutting knife is installed inside the workstation through the mode of embedding, cutting knife cover is in the same place with cutting support sleeve seat fixed connection, high stability is assisted and is cut device bottom and workstation fixed connection, high stability is assisted and is cut the device and locate the cutting knife right side.

High stability is assisted and is cut device and inlay mechanism including transferring the inserted sheet, pushing away put the button, press interior lagging, steady side, the mode fixed connection that the inserted sheet adopted the electric welding inlays inside the mechanism in steady side, transfer the inserted sheet bottom surface and laminate mutually with interior lagging top face, it installs inside the mechanism is inlayed in steady side through the mode of embedding to push away to put the button, the steady side inlays the mechanism bottom and cuts the welding of supporting sleeve seat top end mutually.

Preferably, the inserting adjusting piece comprises a convex pressing piece, a flat inserting piece and a hand buckling groove handle, the convex pressing piece is fixedly installed on the back of the flat inserting piece, the hand buckling groove handle is located at the lower position of the front end face of the flat inserting piece and is of an integrated structure with the flat inserting piece, the whole flat inserting piece is of a U-shaped structure, and the back of the flat inserting piece is provided with the fixedly installed convex pressing piece so that the flat inserting piece can play a pressing role when being embedded into the inner pressing sleeve plate.

As preferred, interior jacket plate includes the interior clamp plate, presses and leads mechanism, interior channel bar, side guide concave strip, be equipped with the interior channel bar in the middle of the interior clamp plate, the side guide concave strip locate the interior clamp plate left and right sides and with neat structure as an organic whole, press and lead mechanism and interior clamp plate back fixed connection together, the interior clamp plate is in the active condition, can be towards inside shrink when the pressurized to at the in-process of shrink, can trigger to press and lead the mechanism change state, and the mechanism has the restoring bulldozing power to the interior clamp plate simultaneously to the pressure guide after the change state.

Preferably, the stable side embedding mechanism comprises a sleeve frame, a guide measuring plate, a pressure distribution mechanism and a dislocation auxiliary mechanism, the sleeve frame and the guide measuring plate are of an integrated structure, the pressure distribution mechanism is installed inside the guide measuring plate in an embedded mode, the dislocation auxiliary mechanism is installed inside the side face of the sleeve frame in an embedded mode, the pressure distribution mechanism can be pressed by the side face of the plate, the pressure distribution mechanism and the pressure distribution mechanism can form a balance force field with the help of the dislocation auxiliary mechanism and the gravity of the plate while keeping relative acting force, and the pressure distribution mechanism can slide in the guide measuring plate in an active state.

Preferably, the convex pressing sheet comprises a limiting strip, a pressing sleeve and an elastic ball, the limiting strip and the pressing sleeve are of an integrated structure, and the elastic ball is embedded into the bottom end of the pressing sleeve.

Preferably, the pressing and guiding mechanism comprises elastic feet, positioning blocks, limiting pull strips and top sheets, wherein each group of the elastic feet is provided with two elastic feet and welded with the top sheets, the pull strips are sleeved on the positioning blocks, and the positioning blocks are fixedly connected with the elastic feet through the pull strips.

Preferably, the pressure distribution mechanism comprises a pressure measurement plate, a connecting spring, a movable wheel, a soft sleeve, a pressure distribution member and a connecting hook, the right side of the pressure distribution member is fixedly connected with the connecting hook, the left side of the pressure distribution member is wrapped with the soft sleeve, the pressure distribution member is positioned at the back of the pressure measurement plate, the pressure measurement plate is fixedly connected with the connecting spring, and the connecting spring is embedded in the movable wheel.

Preferably, dislocation complementary unit is including mutual axle, leading wheel, connecting rod, back stay, connecting strip, the groove strip of joining in marriage, back stay right-hand member is fixed at the groove strip back of joining in marriage, the connecting strip with join in marriage groove strip fixed connection together, the connecting rod is connected with the leading wheel through mutual axle of sticking up.

Compared with the prior art, the invention has the following beneficial effects:

the invention can trigger the pressing and guiding mechanism when the inner pressing plate is stressed under the pressing of the inner pressing sleeve plate through the adjusting and inserting piece, so that the dislocation auxiliary mechanism is in a working state and can move up to be arranged at the back of the top plate, and meanwhile, when the plate is laterally pressed and attached to the stable side embedding mechanism, the stable state can be kept after the pressing and distributing mechanism is pressed and the plane constraint effect can be realized on the plate by the pressing and distributing mechanism by virtue of the pressing force of the plate and the self weight of the plate.

Drawings

Fig. 1 is a schematic structural diagram of a high-stability wood cutting and processing device according to the present invention.

Fig. 2 is a detailed structural schematic diagram of the high-stability auxiliary cutting device.

Fig. 3 is a top view of the adjusting sheet.

FIG. 4 is a top view of the inner platen showing the detailed structure.

FIG. 5 is a side view showing the detailed structure of the stable side-embedding mechanism.

FIG. 6 is a side view of the convex pressing plate showing the detailed structure of the inner part.

Fig. 7 is a detailed structural diagram of the interior of the press guide mechanism.

Fig. 8 is a detailed structural diagram of the interior of the pressure distribution mechanism.

FIG. 9 is a side view of the press member showing the details of the internal structure.

Fig. 10 is a top view of the misalignment-assisting mechanism showing the detailed structure of the inner part.

In the figure: power supply regulator-1, cutting support sleeve seat-2, wood chip collecting box-3, workbench-4, high-stability auxiliary cutting device-5, cutting knife sleeve-6, cutting knife-7, adjusting sheet-q 1, push button-q 2, inner pressure sleeve plate-q 3, stable side embedding mechanism-q 4, convex pressing sheet-q 11, flat inserting sheet-q 12, hand buckle groove handle-q 13, inner pressing plate-q 31, pressing guide mechanism-q 32, inner groove bar-q 33, side guide concave bar-q 34, sleeve frame-q 41, guide measuring plate-q 42, pressure matching mechanism-q 43, dislocation auxiliary mechanism-q 44, limit bar-q 111, pressing sleeve-q 112, elastic ball-q 113, elastic foot-q 321, positioning block-q 322, limit brace-q 323, pressure measuring plate-q 431, top plate-q 431, pressure measuring plate-q 321, The device comprises a connecting spring-q 432, a movable wheel-q 433, a soft sleeve-q 434, a pressure matching piece-q 435, a connecting hook-q 436, an interactive tilting shaft-q 441, a guide wheel-q 442, a connecting rod-q 443, a back bracing strip-q 444, a connecting strip-q 445 and a pressure matching groove strip-q 446.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in figures 1 to 10:

the invention provides a high-stability wood cutting and processing device which structurally comprises a power supply regulator 1, a cutting support sleeve seat 2, a wood chip collecting box 3, a workbench 4, a high-stability auxiliary cutting device 5, a cutting knife sleeve 6 and a cutting knife 7, wherein the power supply regulator 1 is welded on the left side of the positive end face of the cutting support sleeve seat 2, the wood chip collecting box 3 is installed at the bottom end inside the cutting support sleeve seat 2 in an embedding mode, the bottom end of the workbench 4 is fixedly connected to the top end of the cutting support sleeve seat 2 in an electric welding mode, the cutting knife 7 is installed inside the workbench 4 in an embedding mode, the cutting knife sleeve 6 is fixedly connected with the cutting support sleeve seat 2, the bottom end of the high-stability auxiliary cutting device 5 is fixedly connected with the workbench 4, and the high-stability auxiliary cutting device 5 is arranged on the right side of the cutting knife 7.

High stability is assisted and is cut device 5 and is inlayed mechanism q4 including transfer inserted sheet q1, push button q2, interior press sleeve board q3, the steady side, transfer inserted sheet q1 adopts the mode fixed connection of electric welding to inlay inside the mechanism q4 in the steady side, transfer inserted sheet q1 bottom surface and interior press sleeve board q3 top end face and laminate mutually, push button q2 and install through the mode of embedding inside the mechanism q4 is inlayed to the steady side, the mechanism q4 bottom is inlayed with the welding of cutting support sleeve seat 2 top mutually to the steady side.

The adjusting piece q1 comprises a convex pressing piece q11, a flat inserting piece q12 and a hand-fastening groove handle q13, wherein the convex pressing piece q11 is fixedly installed at the back of the flat inserting piece q12, the hand-fastening groove handle q13 is positioned below the positive end face of the flat inserting piece q12 and is of an integrated structure with the flat inserting piece q12, the whole flat inserting piece q12 is of a U-shaped structure, and the convex pressing piece q11 fixedly installed at the back of the flat inserting piece q12 can play a role in pressing when the flat inserting piece q3 is embedded.

The inner pressure sleeve plate q3 comprises an inner pressure plate q31, a pressure guide mechanism q32, inner groove strips q33 and side guide concave strips q34, wherein the inner groove strips q33 are arranged in the middle of the inner pressure plate q31, the side guide concave strips q34 are arranged on the left side and the right side of the inner pressure plate q31 and are integrated into a whole, the pressure guide mechanism q32 is fixedly connected with the back of the inner pressure plate q31, the inner pressure plate q31 is in a movable state and can contract towards the inside when being pressed, in the process of contraction, the pressure guide mechanism q32 can be triggered to change the state, and the pressure guide mechanism q32 after changing the state has a recovery pushing force on the inner pressure plate q 31.

The stable side embedding mechanism q4 comprises a sleeve frame q41, a guide measuring plate q42, a pressure distribution mechanism q43 and a dislocation auxiliary mechanism q44, wherein the sleeve frame q41 and the guide measuring plate q42 are of an integrated structure, the pressure distribution mechanism q43 is installed inside the guide measuring plate q42 in an embedding mode, the dislocation auxiliary mechanism q44 is installed inside the side surface of the sleeve frame q41 in an embedding mode, the pressure distribution mechanism q43 is pressed by the side surface of a plate, a balance force field can be formed by the dislocation auxiliary mechanism q44 and the self gravity of the plate while the relative acting force is kept, and the pressure distribution mechanism q43 slides in the guide measuring plate q42 in a movable state.

The convex pressing sheet q11 comprises a limiting strip q111, a pressing sleeve q112 and an elastic ball q113, the limiting strip q111 and the pressing sleeve q112 are of an integrated structure, the elastic ball q113 is embedded in the bottom end of the pressing sleeve q112, and when the pressing sleeve q112 is pressed down under stress, the elastic ball q113 and a contact surface can reduce friction force.

The pressure guide mechanism q32 comprises elastic feet q321, a positioning block q322, a limiting brace q323 and a top plate q324, wherein each group of the elastic feet q321 is provided with two elastic feet q321 which are welded with the top plate q324, the brace q323 is sleeved on the positioning block q322, the positioning block q322 is fixedly connected with the elastic feet q321 through the brace q323, when the elastic feet q321 are stressed, feet of the elastic feet q321 slide in grooves embedded in locks and are pulled in the direction of the limiting brace q323, the two elastic feet q321 and the base feet generate downward combined force, and meanwhile, the return force of the limiting brace q323 after extending can also keep acting on the elastic feet q 321.

The pressure distribution mechanism q43 comprises a pressure measurement plate q431, a connecting spring q432, a movable wheel q433, a soft sleeve q434, a pressure distribution piece q435 and a connecting hook q436, the right side of the pressure distribution piece q435 is fixedly connected with the connecting hook q436, the left side of the pressure distribution piece q435 is wrapped with the soft sleeve q434, the pressure distribution piece q435 is located on the back of the pressure measurement plate q431, the pressure measurement plate q431 is fixedly connected with the connecting spring q432, the connecting spring q432 is embedded in the movable wheel q433, the pressure measurement plate q431 is connected twice through the connecting spring q432 when being pressed, the state of the pressure distribution piece q435 is changed by pressing the pressure distribution piece q435 at one time, the distance between the pressure distribution piece q43 and a pushing button q2 is shortened in the pressing process at the other time, and mutual embedding is achieved.

The dislocation auxiliary mechanism q44 comprises an interactive tilting shaft q441, a guide wheel q442, a connecting rod q443, a back support strip q444, a connecting strip q445 and a pressure distribution groove strip q446, the right end of the back support strip q444 is fixed to the back of the pressure distribution groove strip q446, the connecting strip q445 is fixedly connected with the pressure distribution groove strip q446, the connecting rod q443 is connected with the guide wheel q442 through the interactive tilting shaft q441, the guide wheel q442 can be in contact with the back of a plate after being extended, resistance of the plate in the moving process is weakened through mutual cancellation of acting forces of the two, and the plate can be effectively assisted to be placed in a displacement mode in the moving process through a single rotating direction of the guide wheel q 442.

The specific use mode and function of the embodiment are as follows:

in the invention, when a plate is cut, the side surface of the pressing mechanism q43 is pressed and embedded to press the pressing mechanism q43 towards the inside, the pressure plate q431 indirectly presses the pressing mechanism q435, the right side surface of the pressing mechanism q435 is pressed to press the oblique angle towards the inside, the soft sleeve q434 is pressed downwards, the bottom of the soft sleeve q434 can be attached to the upper surface of the plate, the pressing force is directly applied to the plate, the flat inserting sheet q12 is pushed towards the inside of the stable side embedding mechanism q4 to be embedded in the side guide concave strip q34 and slide along the groove of the soft sleeve q, the pressing of the side guide concave strip q34 by the pressing sleeve q112 can press the inner pressing plate q31 downwards, the back of the flat inserting sheet q12 is fixedly connected with the top sheet q324, when the top sheet q324 is pressed, the bottom ends of two sides of the elastic foot q321 are embedded in the inside of the pressing groove q446, and the foot of the elastic foot q321 slides on the pressing groove q446, the pressure-matching groove bar q446 is pressed by matching with the limiting brace q323, the connecting bar q445 is in a fixed state, the guide wheel q442 is pushed upwards through the left side while the right side of the back support bar q444 is pressed, the guide wheel q442 can still keep a vertical state in the upward moving process under the assistance of the interactive tilting shaft q441, the back of the plate is pushed by the guide wheel q442 at the moment, the pushing acting force of the plate is balanced with the pressing force of the plate due to the certain weight of the plate, the resistance of the plate in the sliding process can be reduced, meanwhile, the deviation of the plate can be effectively restrained due to the rotating direction of the guide wheel q442, the pressure measuring plate q431 can be connected with the pushing button q2 in the inward pressing process, and the movement of the plate can be controlled by the pushing button q 2.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a high stability wood cutting processingequipment, its structure includes power regulator (1), cutting support cover seat (2), saw-dust collection box (3), workstation (4), high stability are assisted and are cut device (5), cutter cover (6), cutting knife (7), its characterized in that:

the cutting device comprises a power supply regulator (1), a sawdust collecting box (3), a cutting support sleeve seat (2), a worktable (4), a cutting knife sleeve (6), a high-stability auxiliary cutting device (5), a worktable (4) and a high-stability auxiliary cutting device (5), wherein the power supply regulator (1) is welded on the left side of the positive end face of the cutting support sleeve seat (2), the sawdust collecting box (3) is installed at the bottom end inside the cutting support sleeve seat (2) in an embedding mode, the bottom end of the worktable (4) is fixedly connected to the top end of the cutting support sleeve seat (2) in an electric welding mode, the cutting knife (7) is installed inside the worktable (4) in an embedding mode, the cutting knife sleeve (6) is fixedly connected with the cutting support sleeve seat (;

high stability is assisted and is cut device (5) and inlay mechanism (q4) including transferring inserted sheet (q1), pushing button (q2), interior pressing sleeve board (q3), stable side, it inlays inside mechanism (q4) to transfer inserted sheet (q1) mode fixed connection that adopts the electric welding in stable side, it laminates mutually with interior pressing sleeve board (q3) top end face to transfer inserted sheet (q1) bottom surface, it installs inside stable side embedding mechanism (q4) through the mode of embedding to push button (q2), stable side inlays mechanism (q4) bottom and cuts supporting sleeve seat (2) top and welds mutually.

2. A high-stability wood cutting process apparatus according to claim 1, wherein: the adjusting and inserting piece (q1) comprises a convex pressing piece (q11), a flat inserting piece (q12) and a hand-buckling groove handle (q13), the convex pressing piece (q11) is fixedly installed on the back of the flat inserting piece (q12), and the hand-buckling groove handle (q13) is located below the positive end face of the flat inserting piece (q12) and is of an integrated structure with the flat inserting piece.

3. A high-stability wood cutting process apparatus according to claim 1, wherein: interior jacket board (q3) include interior clamp plate (q31), press and lead mechanism (q32), interior groove strip (q33), side guide concave strip (q34), be equipped with interior groove strip (q33) in the middle of interior clamp plate (q31), side guide concave strip (q34) locate interior clamp plate (q31) the left and right sides and with neat structure as an organic whole, press and lead mechanism (q32) and interior clamp plate (q31) back fixed connection together.

4. A high-stability wood cutting process apparatus according to claim 1, wherein: stable side inlays mechanism (q4) and includes set frame (q41), direction survey board (q42), joins in marriage pressure mechanism (q43), dislocation complementary unit (q44), set frame (q41) and direction survey board (q42) structure as an organic whole, join in marriage pressure mechanism (q43) and install inside direction survey board (q42) through the mode of embedding, dislocation complementary unit (q44) is installed inside set frame (q41) side through the mode of embedding.

5. A high-stability wood cutting process apparatus according to claim 2, wherein: the convex pressing piece (q11) comprises a limiting strip (q111), a pressing sleeve (q112) and an elastic ball (q113), the limiting strip (q111) and the pressing sleeve (q112) are of an integrated structure, and the elastic ball (q113) is embedded into the bottom end of the pressing sleeve (q 112).

6. A high stability wood cutting process apparatus according to claim 3, wherein: the pressure guide mechanism (q32) comprises elastic feet (q321), positioning blocks (q322), limiting pull strips (q323) and a top plate (q324), wherein each group of the elastic feet (q321) is provided with two elastic feet (q321) and welded with the top plate (q324), the pull strips (q323) are sleeved on the positioning blocks (q322), and the positioning blocks (q322) are fixedly connected with the elastic feet (q321) through the pull strips (q 323).

7. A high stability wood cutting process apparatus according to claim 4, wherein: the pressure distribution mechanism (q43) comprises a pressure measurement plate (q431), a connecting spring (q432), a movable wheel (q433), a soft sleeve (q434), a pressure distribution piece (q435) and a connecting hook (q436), wherein the right side of the pressure distribution piece (q435) is fixedly connected with the connecting hook (q436), the left side of the pressure distribution piece (q435) is coated with the soft sleeve (q434), the pressure distribution piece (q435) is positioned on the back of the pressure measurement plate (q431), the pressure measurement plate (q431) is fixedly connected with the connecting spring (q432), and the connecting spring (q432) is embedded in the movable wheel (q 433).

8. A high stability wood cutting process apparatus according to claim 4, wherein: dislocation complementary unit (q44) including mutual axle (q441), leading wheel (q442), connecting rod (q443), back stay (q444), connecting strip (q445), join in marriage pressure groove strip (q446), back stay (q444) right-hand member is fixed at joining in marriage pressure groove strip (q446) back, connecting strip (q445) and join in marriage pressure groove strip (q446) fixed connection together, connecting rod (q443) is connected with leading wheel (q442) through mutual axle (q441) of warping.

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