CN111823346A - Wood rotary-cut assembly line with good cutting performance - Google Patents

Abstract

The invention discloses a wood rotary-cut production line with good cutting performance, which comprises rotary-cut equipment and transportation equipment; the transportation equipment comprises a transportation device for transporting the log to the turnover device, the turnover device for turning over the log, and a clamping device for clamping the log turned over by the turnover device to the vertical rotary cutting device; the rotary cutting equipment comprises a plurality of vertical rotary cutting devices; the overturning device comprises an overturning bearing seat, an overturning underframe rotationally connected with the overturning bearing seat and an overturning driving mechanism; the overturning bearing seat comprises an overturning bearing body, and an overturning bearing boss extends from the edge of the overturning bearing body; the surface of the overturning bearing body is provided with an arc-shaped groove; a turnover shaft which is rotatably connected with the turnover bottom frame extends from the side surface of the turnover bearing body, which is parallel to the axis of the log borne by the turnover bearing body, close to the turnover bearing boss; the overturning driving mechanism comprises an overturning driving oil cylinder; the invention has good cutting performance and faster rotary cutting efficiency.

Description

Wood rotary-cut assembly line with good cutting performance

Technical Field

The invention relates to the field of wood rotary cutters, in particular to a wood rotary cutting assembly line with good cutting performance.

Background

The structure of the wood rotary cutting equipment is known, the existing wood rotary cutting machines are horizontal wood rotary cutting machines which are divided into a cutting machine with a rotary cutting machine with a clamp and a rotary cutting machine without a clamp, a digital servo control technology is also applied to the production of the rotary cutting machines along with the technological progress, numerical control rotary cutting machines appear in recent years, the production efficiency and the automation degree of the whole machine are greatly improved, and most of the horizontal rotary cutting machines are used for rotary cutting wood, round logs are shaken in the rotary cutting process due to the fact that the round logs are rotary cut to be smaller in diameter and lighter in weight, and the cutting efficiency is influenced.

In view of the above, the applicant has made an intensive study on the above-mentioned defects in the prior art, and has made this invention.

Disclosure of Invention

The invention mainly aims to provide a wood rotary-cut production line with good cutting performance, which has good cutting performance and higher rotary-cut efficiency.

In order to achieve the above purpose, the solution of the invention is: a timber rotary-cut assembly line with good cutting performance comprises rotary-cut equipment for centering and rotary-cutting logs and conveying equipment for conveying the logs to the rotary-cut equipment; the conveying equipment comprises a conveying device for conveying the log onto the turnover device, a turnover device for turning over the log, and a clamping device for clamping the log turned over by the turnover device onto the vertical rotary cutting device; the rotary cutting equipment comprises a plurality of vertical rotary cutting devices for centering and rotary cutting the log;

the overturning device comprises an overturning bearing seat for bearing logs, an overturning underframe rotationally connected with the overturning bearing seat and an overturning driving mechanism for driving the overturning bearing seat to overturn; the overturning bearing seat comprises an overturning bearing body, and an overturning bearing boss extends from the edge of the overturning bearing body; the surface of the overturning bearing body is provided with an arc-shaped groove; a turnover shaft which is rotatably connected with the turnover bottom frame extends from the side surface of the turnover bearing body, which is parallel to the axis of the log borne by the turnover bearing body, close to the turnover bearing boss; the overturning driving mechanism comprises an overturning driving oil cylinder, the overturning driving oil cylinder is connected to the overturning bottom frame, and the ejection end of the overturning driving oil cylinder is connected to the side face formed with the overturning shaft.

Further, the vertical rotary cutting device comprises a rotary cutting mechanism for cutting the log and a rotary cutting bearing table for bearing the rotary cutting mechanism.

Further, the rotary cutting mechanism comprises a centering seat for supporting one side of the log, a rotary cutting seat for rotary cutting the log, a first driving mechanism for driving the centering seat to move towards the log and a second driving mechanism for driving the rotary cutting seat to move towards the log.

Further, the centering seat is provided with a vertical limiting rod and two limiting rods, wherein the two limiting rods are used for limiting one side of the log, and the first driving motor is used for driving the limiting rollers to rotate.

Further, the rotary cutting base is provided with a driving roller which is vertically arranged and drives the log to rotate, a rotary cutting blade which is vertically arranged and carries out rotary cutting on the log, and a second driving motor which drives the driving roller to rotate and synchronously runs with the first driving motor.

Further, the first driving mechanism comprises a first screw rod for driving the centering seat to move towards the log direction, a first sliding groove formed at the bottom of the centering seat, and a first sliding rail formed on the upper surface of the rotary cutting bearing table and matched with the first sliding groove; the second driving mechanism comprises a second screw rod for driving the rotary cutting base to move towards the log direction, a second sliding groove formed at the bottom of the rotary cutting base, and a second sliding rail formed on the upper surface of the rotary cutting bearing table and matched with the second sliding groove.

Further, the centering seat is arranged opposite to the rotary cutting seat.

Further, the rotary cutting bearing platform is provided with a rotary cutting bearing boss for bearing logs.

Furthermore, the middle part of the upper surface of the rotary cutting bearing boss is provided with a through hole for ejecting the ejection column.

Further, the rotary cutting bearing table is also provided with an ejection mechanism for ejecting the log, and the ejection mechanism is positioned below the rotary cutting bearing boss.

Further, the ejection mechanism comprises an ejection column for ejecting the log and a lifting oil cylinder for driving the ejection column to lift.

Further, one end of the ejection column facing the log is provided with a conical ejection head.

Further, the transportation device comprises a plurality of transportation rollers for transporting the logs, a transportation carrier for bearing the transportation rollers, and a transportation driving mechanism for driving the transportation carrier to transport the logs.

Further, the outer surface of transportation roller circumference is provided with a plurality of criss-cross stirring lugs along the axis direction interval, be formed with first arc portion between two adjacent pointed ends on the stirring lug.

Furthermore, one side of the conveying roller is provided with a cross-shaped driving lug, a second arc-shaped part is formed between two adjacent tips on the driving lug, and the four tips of the driving lug are respectively provided with a long groove penetrating through the surface of the driving lug towards the direction of the circle center.

Further, the transportation driving mechanism comprises a driving circular table for driving the driving lugs to rotate and a rotation driving motor for driving the driving circular table to rotate.

Furthermore, the driving round platform is provided with a circular convex column which can slide in the long groove and drive the driving lug to rotate and a rotating lug boss driven by the rotating driving motor.

Furthermore, each rotating boss is connected with an output end chain of the rotating driving motor.

Furthermore, clamping device includes the clamping body and third slide rail, the clamping body with sliding connection on the third slide rail.

Further, the clamping body comprises a clamping bearing seat connected with the third slide rail in a sliding manner, and a clamping part for clamping the log overturned by the overturning device.

Furthermore, the clamping part is provided with a connecting plate fixedly connected with the clamping bearing seat and an arc-shaped clamping plate driven by the oil cylinder to clamp towards the direction of the circle center.

Further, the number of the vertical rotary cutting devices is 4.

After the structure is adopted, the log is conveyed to the turnover device through the conveying device, the turnover device turns the log to be vertical, the clamping device clamps the log to the vertical rotary cutting device for rotary cutting, and the problem that the log shakes due to the fact that the diameter and the weight of the log are reduced in the rotary cutting process of the conventional rotary cutting machine is solved; the cutting performance is improved.

Drawings

Fig. 1 is a schematic perspective view of a rotary cutting line for wood according to the present invention.

Fig. 2 is a schematic perspective view of the turning device of the present invention.

Fig. 3 is a schematic perspective view of the transportation device of the present invention.

Fig. 4 is a side view of the transportation device of the present invention.

Fig. 5 is a schematic perspective view of the vertical rotary cutting device according to the present invention.

Fig. 6 is a schematic perspective view of another embodiment of the present invention.

In the figure: a transportation device 1; a transport roller 11; the convex block 111 is poked; a drive lug 112; a drive round table 113; a circular boss 1131; a rotation driving motor 114; a transport carrier 12; a turning device 2; a turnover carrier 21; turning over the bearing boss 22; turning over the bottom frame 23; a turnover driving oil cylinder 24; a holding device 3; a clamping and carrying seat 31; a connecting plate 32; an arc-shaped holding plate 33; a third slide rail 34; a vertical rotary cutting device 4; rotary cutting the bearing table 41; rotary cutting the bearing boss 411; a lift cylinder 412; an ejection column 413; a centering seat 42; a stop roller 421; a first drive motor 422; a first slide rail 423; a rotary cutting base 43; a drive roller 431; a rotary cutting blade 432; a second drive motor 433; a second sliding rail 434.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to fig. 6, the wood rotary cutting line with good cutting performance according to the present invention includes a rotary cutting device for centering and rotary cutting logs and a transportation device for transporting logs to the rotary cutting device; the transportation equipment comprises a transportation device 1 for transporting the logs to the turnover device 2, the turnover device 2 for turning the logs, and a clamping device 3 for clamping the logs turned by the turnover device 2 to the vertical rotary cutting device 4, and the rotary cutting equipment comprises a plurality of vertical rotary cutting devices 4 for centering and rotary cutting the logs. The conveying device 1 conveys the logs to the turnover device 2, the turnover device 2 turns the logs to be vertical, the clamping devices 3 clamp the logs to the vertical rotary cutting devices 4 for rotary cutting, and the problem that the logs shake due to the fact that the diameter and the weight of the logs are reduced in the rotary cutting process of an existing rotary cutting machine is solved; the cutting performance is improved.

The turnover device 2 comprises a turnover bearing seat for bearing logs, a turnover underframe 23 rotationally connected with the turnover bearing seat, and a turnover driving mechanism for driving the turnover bearing seat to turn over. The log is transported to the overturning bearing seat, and the overturning driving mechanism drives the overturning bearing seat to overturn, so that the log is erected. The turnover bearing seat comprises a turnover bearing body 21, and a turnover bearing boss 22 extends from the edge of the turnover bearing body 21. When the log is transported to the overturning bearing seat, the lateral surface of the log is supported on the overturning bearing body 21, and after the overturning bearing seat overturns the log, the overturning bearing boss 22 supports the surface of the log. The surface of the turnover bearing body 21 is provided with a circular arc-shaped groove. Through setting up convex recess for when the log carried on upset supporting body 21, it is spacing to have a horizontal direction to the log that does not overturn. The side surface of the overturning bearing body 21 parallel to the axis of the log loaded on the overturning bearing body 21 is extended with an overturning shaft rotatably connected with the overturning bottom frame 23 near the overturning bearing boss 22. The overturning bearing seat is rotatably connected with the overturning bottom frame 23 through an overturning shaft, so that overturning is more rapid. The overturning driving mechanism comprises an overturning driving oil cylinder 24, the overturning driving oil cylinder 24 is connected to the overturning bottom frame 23, and the ejection end of the overturning driving oil cylinder 24 is connected to the side face formed with the overturning shaft. The ejection end is driven to be ejected through the overturning driving oil cylinder 24, the overturning bearing rotates around the overturning shaft, when the axis of the log is perpendicular to the ground, the overturning driving oil cylinder 24 stops driving, overturning is completed, and overturning is achieved through the overturning driving oil cylinder 24, so that the overturning process is more stable.

Preferably, the vertical rotary cutting device 4 includes a rotary cutting mechanism for cutting logs, and a rotary cutting support 41 for supporting the rotary cutting mechanism. Preferably, the rotary cutting mechanism includes a centering seat 42 for supporting one side of the log, a rotary cutting seat 43 for rotary cutting the log, a first driving mechanism for driving the centering seat 42 to move toward the log, and a second driving mechanism for driving the rotary cutting seat 43 to move toward the log. When the log is placed on the rotary cutting bearing table 41, the first driving mechanism and the second driving mechanism respectively drive the centering seat 42 and the rotary cutting seat 43 to move towards the log to clamp the log, and during the rotary cutting process, the diameter of the log is reduced, and the first driving mechanism and the second driving mechanism can respectively drive the centering seat 42 and the rotary cutting seat 43 to abut against two sides of the log in real time to ensure the continuity and the stability of the rotary cutting process.

Preferably, the centering seat 42 has two limit rods for limiting one side of the log, and a first driving motor 422 for driving the limit rollers 421 to rotate. Preferably, the rotary cutter base 43 has a driving roller 431 for driving the log to rotate, a rotary cutter 432 for rotary cutting the log, and a second driving motor 433 for driving the driving roller 431 to rotate and operating synchronously with the first driving motor 422. When a log is placed on the rotary cutting bearing table 41, the centering seat 42 and the rotary cutting seat 43 move towards the log at the same time, the two limiting rollers 421 abut against one side of the log, the driving roller 431 on the rotary cutting seat 43 abuts against the other side of the log, the first driving motor 422 and the second driving motor 433 drive one limiting roller 421 and the driving roller 431 to start rotating at the same speed respectively, so that the log is driven to rotate, and the rotary cutting blade 432 performs rotary cutting on the log; the limiting roller 421 and the driving roller 431 rotate at the same speed at the same time, so that the whole cutting process is more stable.

Preferably, the first driving mechanism includes a first screw rod for driving the centering seat 42 to move towards the log direction, a first sliding slot formed at the bottom of the centering seat 42, and a first sliding rail 423 formed on the upper surface of the rotary cutting bearing platform 41 and engaged with the first sliding slot; the second driving mechanism includes a second screw rod for driving the rotary cutting base 43 to move toward the log, a second sliding groove formed at the bottom of the rotary cutting base 43, and a second sliding rail 434 formed on the upper surface of the rotary cutting platform 41 and engaged with the second sliding groove. The centering seat 42 and the rotary cutting seat 43 are respectively driven by the first screw and the second screw, so that the movement is more stable.

Preferably, the centering seat 42 is disposed opposite to the rotary cutting seat 43. The round log is horizontally limited and more stable, and the rotary cutting tool on the rotary cutting base 43 can better perform rotary cutting on the round log.

Preferably, the lathe cutting support 41 has a lathe cutting support boss 411 for supporting logs. Preferably, a through hole for ejecting the ejection column 413 is formed in the middle of the upper surface of the rotary cutting bearing boss 411. Through setting up this rotary-cut and bearing boss 411 and make clamping device 3 more accurate when placing, promote rotary-cut efficiency.

Preferably, the rotary cutting support platform 41 further has an ejection mechanism for ejecting the log, and the ejection mechanism is located below the rotary cutting support boss 411. The round log is ejected out of the bearing boss through the ejection mechanism, and the rotary cutting mechanism can cut the round log to be smaller in diameter, so that raw materials are fully utilized.

Preferably, the ejection mechanism includes an ejection column 413 for ejecting the log and a lift cylinder 412 for driving the ejection column 413 to ascend and descend. The lift cylinder 412 drives the ejection column 413 to ascend to eject the log. Preferably, the end of the ejection column 413 facing the log has a conical head. The round wood can be rotatably cut to be smaller in diameter by arranging the conical top rotary cutting mechanism, and raw materials are more fully utilized.

Preferably, the transporting device 1 includes a plurality of transporting rollers 11 for transporting logs, a transporting carrier 12 for carrying the transporting rollers 11, and a transporting driving mechanism for driving the transporting carrier to transport logs. The logs are placed transversely between the transport rollers 11, moving towards the turning device 2.

Preferably, the circumferential outer surface of the transportation roller 11 is provided with a plurality of cross-shaped toggle protrusions 111 at intervals along the axial direction, and a first arc-shaped part is formed between two adjacent tips on the toggle protrusions 111. Every log is placed and is stirred between the lug 111 on two transportation rollers 11, when transportation roller 11 rotated, the log was transported to turning device 2 on or transported to next a pair of transportation rollers 11 on stir between the lug 111, stirred lug 111 through the setting and carried out the log spacing on the level on conveyer 1 for transport more steadily and orderly.

Preferably, one side of the transportation roller 11 has a cross-shaped driving protrusion 112, a second arc-shaped portion is formed between two adjacent tips of the driving protrusion 112, and four tips of the driving protrusion 112 are respectively provided with a long slot penetrating through the surface of the driving protrusion 112 in the direction of the center of circle. Preferably, the transport driving mechanism includes a driving round table 113 that drives each driving lug 112 to rotate, and a rotation driving motor 114 that drives the driving round table 113 to rotate. Preferably, the driving circular table 113 has a circular center convex column 1131 that can slide in the long slot and drive the driving protrusion 112 to rotate, and a rotating protrusion driven by the rotating driving motor 114. The driving circular table 113 rotates counterclockwise, the circle center convex column 1131 on the driving circular table 113 slides in the long slot on the driving convex block 112, the driving convex block 112 is poked counterclockwise to slide out of the long slot, and slides in the next long slot extending into the driving convex block 112 and being adjacent counterclockwise, so that intermittent rotation is realized.

Preferably, each rotating boss is chain-connected to the output of the rotation driving motor 114. Each rotation boss rotates through the simultaneous drive of chain to drive transportation roller 11 transports the log toward 2 directions of turning device one by one, makes the transport of log have the continuity.

Preferably, the clamping device 3 comprises a clamping body and a third slide rail 34, the clamping body is slidably connected with the third slide rail 34. Preferably, the clamping body comprises a clamping bearing seat 31 slidably connected with the third slide rail 34, and a clamping part for clamping the log overturned by the overturning device 2. Preferably, the clamping portion has a connecting plate 32 fixedly connected with the clamping bearing seat 31, and an arc-shaped clamping plate 33 driven by the oil cylinder to clamp towards the center of the circle. When the log is turned by the turning device 2, the clamping bearing seat 31 moves to the position of the turned log, the log is located between the two arc-shaped clamping plates 33, the oil cylinder drives the arc-shaped clamping plates 33 to clamp the log and then place the clamped log on the bearing boss, the arc-shaped clamping plates 33 slowly release the log, the clamping bearing seat 31 moves out of the upper side of the vertical rotary cutting device 4, the centering seat 42 and the rotary cutting seat 43 move towards the log, after the side face of the log is clamped, the jack jacks up the log, and the log is subjected to rotary cutting.

Preferably, the number of the vertical rotary cutting devices 4 is 4. As shown in fig. 6, by providing 4 vertical rotary cutting devices 4, the clamping device 3 sequentially clamps the logs on the 4 vertical rotary cutting devices 4, and the 4 vertical rotary cutting devices 4 perform rotary cutting on the logs, so as to improve the production efficiency.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (10)

1. A timber rotary-cut assembly line with good cutting performance comprises rotary-cut equipment for centering and rotary-cutting logs and conveying equipment for conveying the logs to the rotary-cut equipment; the device is characterized in that the transportation equipment comprises a transportation device for transporting the log to a turnover device, the turnover device for turning over the log, and a clamping device for clamping the log turned over by the turnover device to a vertical rotary cutting device; the rotary cutting equipment comprises a plurality of vertical rotary cutting devices for centering and rotary cutting the log;

the overturning device comprises an overturning bearing seat for bearing logs, an overturning underframe rotationally connected with the overturning bearing seat and an overturning driving mechanism for driving the overturning bearing seat to overturn; the overturning bearing seat comprises an overturning bearing body, and an overturning bearing boss extends from the edge of the overturning bearing body; the surface of the overturning bearing body is provided with an arc-shaped groove; a turnover shaft which is rotatably connected with the turnover bottom frame extends from the side surface of the turnover bearing body, which is parallel to the axis of the log borne by the turnover bearing body, close to the turnover bearing boss; the overturning driving mechanism comprises an overturning driving oil cylinder, the overturning driving oil cylinder is connected to the overturning bottom frame, and the ejection end of the overturning driving oil cylinder is connected to the side face formed with the overturning shaft.

2. The rotary cutting assembly line of wood with good cutting performance according to claim 1, wherein the vertical rotary cutting device comprises a rotary cutting mechanism for cutting logs and a rotary cutting bearing table for bearing the rotary cutting mechanism.

3. The rotary cutting assembly line of wood with good cutting performance as claimed in claim 2, wherein the rotary cutting mechanism comprises a centering seat for supporting one side of the log, a rotary cutting seat for rotary cutting the log, a first driving mechanism for driving the centering seat to move toward the log, and a second driving mechanism for driving the rotary cutting seat to move toward the log.

4. The rotary cutting assembly line for wood with good cutting performance as claimed in claim 3, wherein the centering seat has two vertically arranged limiting rods for limiting one side of the log, and a first driving motor for driving the limiting rods to rotate.

5. The rotary cutting assembly line for wood with good cutting performance according to claim 4, wherein the rotary cutting base has a driving roller vertically disposed for driving the log to rotate, a rotary cutting blade vertically disposed for rotary cutting the log, and a second driving motor for driving the driving roller to rotate and synchronously operating with the first driving motor.

6. The rotary cutting assembly line of wood with good cutting performance as claimed in claim 5, wherein the first driving mechanism comprises a first screw rod for driving the centering seat to move towards the log, a first sliding groove formed at the bottom of the centering seat, and a first sliding rail formed on the upper surface of the rotary cutting bearing platform and matched with the first sliding groove; the second driving mechanism comprises a second screw rod for driving the rotary cutting base to move towards the log direction, a second sliding groove formed at the bottom of the rotary cutting base, and a second sliding rail formed on the upper surface of the rotary cutting bearing table and matched with the second sliding groove.

7. The rotary cutting assembly line for wood with good cutting performance as claimed in claim 6, wherein the centering seat is disposed opposite to the rotary cutting seat.

8. The rotary cutting assembly line of wood with good cutting performance as claimed in claim 7, wherein the rotary cutting bearing platform has a rotary cutting bearing boss for bearing logs.

9. The rotary cutting assembly line for wood with good cutting performance as claimed in claim 8, wherein the middle of the upper surface of the rotary cutting bearing boss is provided with a through hole for the ejection of the ejection column.

10. The rotary cutting assembly line of wood with good cutting performance according to claim 9, wherein the rotary cutting support platform further comprises an ejection mechanism for ejecting the log, and the ejection mechanism is located below the rotary cutting support boss.

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