CN111844321A - Vertical peeler assembly line of preferred performance - Google Patents

Abstract

The invention discloses a vertical rotary cutter assembly line with better performance, which comprises a rotary cutting device for centering and rotary cutting round logs and a conveying device for conveying the round logs to the rotary cutting device; the rotary cutting device comprises a vertical rotary cutting mechanism for keeping the log in a vertical state for cutting; the transport device comprises a transport body located upstream and a transport turning mechanism located downstream. The conveying turnover mechanism is used for conveying logs to the conveying turnover mechanism through the conveying main body, turning the logs to a vertical state through the conveying turnover mechanism, moving the conveying turnover mechanism to the rotary cutting device through the horizontal driving mechanism, clamping the circumferential surfaces of the logs tightly through the vertical rotary cutting mechanism, keeping the conveying turnover mechanism away from the rotary cutting device, keeping the logs on the rotary cutting device, and finally starting to carry out rotary cutting on the logs. The problem of current peeler when cutting the log, because some knots can appear on the log, the log can appear beating, lead to the log disconnected of cutting out is solved.

Description

Vertical peeler assembly line of preferred performance

Technical Field

The invention relates to the field of wood processing, in particular to a vertical rotary cutter assembly line with better performance.

Background

The rotary cutting machine is used for processing a section of log into continuous veneer lumber for producing plywood, the existing rotary cutting machine is horizontal, and in the rotary cutting process, due to the fact that the log is irregular and some places have nubbling protrusions, the log can jump during cutting, the cut veneer lumber is discontinuous, the quality is not over-qualified, and raw materials are wasted.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

Disclosure of Invention

The invention mainly aims to provide a vertical rotary cutter assembly line with better performance.

In order to achieve the above purpose, the solution of the invention is: a vertical rotary cutter assembly line with better performance comprises a rotary cutting device for centering and rotary cutting round logs and a conveying device for conveying the round logs to the rotary cutting device; the rotary cutting device comprises a vertical rotary cutting mechanism for keeping the log in a vertical state for cutting; the conveying device comprises a conveying main body positioned at the upstream and a conveying turnover mechanism positioned at the downstream; the conveying turnover mechanism comprises a turnover bearing frame for bearing logs, a turnover bearing base rotatably connected with the turnover bearing frame, a turnover driving mechanism for driving the turnover bearing frame to turn over, and a horizontal driving mechanism for driving the turnover bearing base to move towards the rotary cutting device; the turnover bearing frame is provided with a turnover bearing plate, and a turnover bearing support plate perpendicular to the turnover bearing plate is arranged at the edge of the turnover bearing plate; an arc-shaped groove is formed on the surface of the turnover bearing plate; the overturning bearing support plate is provided with a abdicating groove extending from one end far away from the overturning bearing plate to one end adjacent to the overturning bearing plate; two sides of the turnover bearing plate close to the middle part are provided with first connecting shafts connected with the turnover driving mechanism; the overturning bearing base is also provided with an overturning supporting column connected with the overturning bearing frame and a connecting block connected with the overturning driving mechanism; the upper end of the overturning support column is provided with an overturning hole matched with the overturning shaft; the connecting block is provided with a second connecting shaft connected with the overturning driving mechanism; the overturning driving mechanism comprises an overturning driving oil cylinder, and a first connecting hole matched with the first connecting shaft is formed in the top end of an output shaft of the overturning driving oil cylinder; the bottom end of the cylinder body of the turnover driving oil cylinder is provided with a second connecting hole matched with the second connecting shaft; the horizontal driving mechanism comprises a horizontal driving screw rod and a horizontal sliding rail, wherein the horizontal driving screw rod drives the overturning bearing base to move; and a horizontal sliding groove matched with the horizontal sliding rail is arranged at the bottom of the overturning bearing.

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

Further, vertical rotary-cut mechanism includes the first drive roller, second drive roller, the third drive roller that press from both sides tight and drive the log rotation to the global of log, first drive roller is located one side of log, second drive roller and third drive roller are located the opposite side of log.

Further, the vertical rotary cutting mechanism further comprises a first mounting frame for bearing and mounting the first driving roller, and a second mounting frame for bearing and mounting the second driving roller and the third driving roller; the first mounting frame is also provided with a rotary cutting tool for rotary cutting of logs and a first rotary driving motor for driving the first driving roller to rotate; and a second rotary driving motor for driving the second driving roller to rotate is further arranged on the second mounting frame.

Further, the vertical rotary cutting mechanism further comprises a first rotary cutting driving mechanism for driving the first mounting frame to move towards the log direction, and a second rotary cutting driving mechanism for driving the second mounting frame to move towards the log direction.

Further, the first rotary-cut driving mechanism comprises a first screw rod for driving the first mounting frame to move towards the log, a first sliding groove formed at the bottom of the first mounting frame, and a first sliding rail formed on the upper surface of the bearing table and matched with the first sliding groove; the second rotary-cut driving mechanism comprises a second screw rod for driving the second mounting frame to move towards the log, a second sliding groove formed at the bottom of the second mounting frame, and a second sliding rail formed on the upper surface of the bearing table and matched with the second sliding groove.

Further, the plummer still is equipped with the jack-up mechanism with log jack-up, jack-up mechanism includes the fore-set that contacts with log one end to with log jack-up to and the actuating cylinder that the drive fore-set goes up and down.

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

Furthermore, a bearing boss for bearing the log is arranged on the bearing table; the upper surface of the bearing boss is provided with a through hole for the top column to pass through.

Further, the transportation main body comprises a plurality of transportation rollers for transporting logs, a transportation frame for bearing the transportation rollers, and a transportation driving mechanism for driving the transportation rollers to rotate.

Furthermore, a plurality of cross-shaped conveying shifting blocks which are arranged along the axis direction are arranged on the circumferential surface of the conveying roller at intervals, and a first arc-shaped part is formed between two adjacent tips on each conveying shifting block.

Further, the conveying shifting blocks on the adjacent conveying rollers are alternately arranged.

Further, the tip of transportation roller still is equipped with criss-cross drive lug, be formed with second arc portion between two adjacent pointed ends on the drive lug, set up on the drive lug by pointed end towards the bar groove that transportation roller axis direction extended and run through the drive lug surface.

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

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

Further, each rotating boss is connected with an output shaft of the rotating drive motor through a chain.

After the structure is adopted, the invention relates to a vertical rotary cutter assembly line with better performance, which comprises the steps of firstly conveying a log onto a conveying turnover mechanism through a conveying main body, then turning the log from a horizontal state to a vertical state through the conveying turnover mechanism, then driving the conveying turnover mechanism to move towards a rotary cutting device through a horizontal driving mechanism until the log is positioned above a bearing boss, then driving a first mounting frame and a second mounting frame to move towards the log through a first rotary cutting driving mechanism and a second rotary cutting driving mechanism respectively until a first driving roller, a second driving roller and a third driving roller clamp the peripheral surface of the log, simultaneously jacking the log through a jacking mechanism to be separated from a turnover bearing support plate, then driving the conveying turnover mechanism to leave the rotary cutting device through the horizontal driving mechanism, and finally driving the first driving roller and the second driving roller to rotate through the first rotary driving motor and the second rotary driving motor respectively, thereby driving the log to rotate and carrying out rotary cutting on the log. Compared with the prior art, the rotary cutting machine has the advantages that the round timber is kept in the vertical state for rotary cutting, the round timber is not easy to shake, the rotary cut thin timber cannot be interrupted, and the rotary cutting quality of the round timber is improved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of the rotary cutting device according to the present invention;

FIG. 3 is a schematic perspective view of the transportation body according to the present invention;

FIG. 4 is a front view of the transport body of the present invention;

fig. 5 is a schematic perspective view of the transportation and turnover mechanism of the present invention.

In the figure: 1-rotary cutting device, 11-vertical rotary cutting mechanism, 111-first mounting rack, 1111-first driving roller, 1112-rotary cutting tool, 1113-first rotary driving motor, 112-second mounting rack, 1121-second driving roller, 1122-third driving roller, 1123-second rotary driving motor, 12-bearing table, 121-jacking mechanism, 1211-top column, 1212-driving oil cylinder, 122-bearing boss, 1221-through hole, 13-first rotary cutting driving mechanism and 14-second rotary cutting driving mechanism;

2-a transportation turnover mechanism, 21-a turnover bearing frame, 211-a turnover bearing plate, 2111-an arc groove, 2112-a turnover shaft, 2113-a first connecting shaft, 212-a turnover bearing support plate, 2121-an abdicating groove, 22-a turnover bearing base, 221-a turnover hole, 222-a second connecting shaft, 23-a turnover driving mechanism, 231-a turnover driving oil cylinder, 2311-a first connecting hole, 2312-a second connecting hole, 24-a horizontal driving mechanism, 241-a horizontal driving screw rod and 242-a horizontal sliding rail;

3-transport body, 31-transport roller, 311-transport shifting block, 3111-first arc part, 312-drive lug, 3121-second arc part, 3122-strip groove, 32-transport rack, 33-transport drive mechanism, 331-drive circular table, 3311-circular convex column, 3312-rotary convex column, 332-rotary drive motor.

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. 1-5, a vertical rotary cutting machine assembly line with better performance comprises a rotary cutting device 1 for centering and rotary cutting logs, and a conveying device for conveying the logs onto the rotary cutting device 1; the rotary cutting device 1 comprises a vertical type rotary cutting mechanism 11 for keeping a log in a vertical state for cutting; the transporting device comprises a transporting main body positioned at the upstream and a transporting turnover mechanism 2 positioned at the downstream; the transportation turnover mechanism 2 comprises a turnover bearing frame 21 for bearing logs, a turnover bearing base 22 rotationally connected with the turnover bearing frame 21, a turnover driving mechanism 23 for driving the turnover bearing frame 21 to turn over, and a horizontal driving mechanism 24 for driving the turnover bearing base 22 to move towards the rotary cutting device 1; the turnover bearing frame 21 is provided with a turnover bearing plate 211, and the edge of the turnover bearing plate 211 is provided with a turnover bearing support plate 212 which is vertical to the turnover bearing plate 211; the surface of the turnover bearing plate 211 is provided with an arc-shaped groove 2111; the overturning bearing plate 212 is provided with an abdicating groove 2121 extending from one end far away from the overturning bearing plate 211 to one end adjacent to the overturning bearing plate 211; two sides of the turnover bearing plate 211 close to the middle part are provided with first connecting shafts 2113 connected with the turnover driving mechanism 23; the overturning bearing base 22 is also provided with an overturning supporting column connected with the overturning bearing frame 21 and a connecting block connected with the overturning driving mechanism 23; the upper end of the turning support column is provided with a turning hole 221 matched with the turning shaft 2112; the connecting block is provided with a second connecting shaft 222 connected with the overturning driving mechanism 23; the turnover driving mechanism 23 comprises a turnover driving oil cylinder 231, and the top end of an output shaft of the turnover driving oil cylinder 231 is provided with a first connecting hole 2311 matched with the first connecting shaft 2113; the bottom end of the cylinder body of the turnover driving oil cylinder 231 is provided with a second connecting hole 2312 matched with the second connecting shaft 222; the horizontal driving mechanism 24 includes a horizontal driving screw 241 for driving the turnover carrying base 22 to move and a horizontal sliding rail 242; the bottom of the turnover bearing is provided with a horizontal sliding chute matched with the horizontal sliding rail 242. Firstly, the round log is conveyed to a conveying turnover mechanism 2 through a conveying main body 3, then the round log is turned to a vertical state from a horizontal state through the conveying turnover mechanism 2, then a rotary cutting device 1 is driven to move towards the round log through a horizontal driving mechanism 24 until the round log is positioned above a bearing boss 122, then a first mounting rack 111 and a second mounting rack 112 are respectively driven to move towards the round log through a first rotary cutting driving mechanism 13 and a second rotary cutting driving mechanism 14 until a first driving roller 1111, a second driving roller 1121 and a third driving roller 1122 clamp the peripheral surface of the round log, meanwhile, the round log is jacked up through a jacking mechanism 121 and separated from a turnover bearing support plate 212, then the rotary cutting device 1 is driven through the horizontal driving mechanism 24 to clamp the round log to be separated from the conveying turnover mechanism 2, and finally a first driving roller 1111 and a second driving roller 1121 are respectively driven to rotate through a first rotary driving motor 1113 and a second rotary driving motor 1123, thereby driving the log to rotate and carrying out rotary cutting on the log. The log is rotatably cut in a vertical state, the log is not easy to shake, the rotatably cut thin wood cannot be intermittent, and the rotary cutting quality of the log is improved.

Preferably, the rotary cutting apparatus 1 further includes a support stand 12 for supporting the vertical rotary cutting mechanism 11. The log can be cut into thin-skinned wood by the vertical rotary cutting mechanism 11.

Preferably, the vertical peeling mechanism 11 includes a first driving roller 1111, a second driving roller 1121, and a third driving roller 1122 for pinching the circumferential surface of the log and driving the log to rotate, the first driving roller 1111 is located at one side of the log, and the second driving roller 1121 and the third driving roller 1122 are located at the other side of the log. Can press from both sides tightly the global of log through the drive roller, when the drive roller rotated, it was rotatory to drive the log simultaneously.

Preferably, the vertical rotary cutting mechanism 11 further includes a first mounting bracket 111 for mounting the first driving roller 1111, and a second mounting bracket 112 for mounting the second driving roller 1121 and the third driving roller 1122; the first mounting rack 111 is further provided with a rotary cutter 1112 for rotary cutting of logs and a first rotary driving motor 1113 for driving the first driving roller 1111 to rotate; the second mounting bracket 112 is further provided with a second rotation driving motor 1123 for driving the second driving roller 1121 to rotate. The rotary driving motor and the driving roller can be driven by a belt, and in addition, the rotary cutting tool 1112 and the first driving roller 1111 are simultaneously close to the log so as to carry out rotary cutting on the log.

Preferably, the vertical rotary cutting mechanism 11 further includes a first rotary cutting driving mechanism 13 for driving the first mounting bracket 111 to move toward the log, and a second rotary cutting driving mechanism 14 for driving the second mounting bracket 112 to move toward the log. In the rotary cutting process, as the diameter of the log is smaller and smaller, the first mounting frame 111 and the second mounting frame 112 need to be drawn close to the log, so that the first driving roller 1111, the second driving roller 1121 and the third driving roller 1122 are in real-time contact with the log, and the normal rotation of the log is ensured.

Preferably, the first rotary-cut driving mechanism 13 includes a first screw rod for driving the first mounting frame 111 to move toward the log, a first sliding groove formed at the bottom of the first mounting frame 111, and a first sliding rail formed on the upper surface of the bearing platform 12 and matched with the first sliding groove; the second rotary-cut driving mechanism 14 includes a second screw rod for driving the second mounting frame 112 to move toward the log, a second sliding slot formed at the bottom of the second mounting frame 112, and a second sliding rail formed on the upper surface of the bearing platform 12 and matched with the second sliding slot. The first and second mounting frames 111 and 112 can be moved more smoothly by means of screws.

Preferably, the bearing table 12 is further provided with a jacking mechanism 121 for jacking the log, and the jacking mechanism 121 comprises a jacking column 1211 for contacting one end of the log and jacking the log, and a driving cylinder 1212 for driving the jacking column 1211 to ascend and descend. When the log is rotatably cut, the jacking mechanism 121 jacks the log out of the bearing table 12, so that the rotary cutting tool 1112 can rotatably cut the log more sufficiently, and waste of raw materials is reduced.

Preferably, the end of the top 1211 facing the log has a conical head. The contact area between the conical top and the bottom of the log is minimized, thereby reducing the friction of the top 1211 against the log and making the log smoother when being rotary cut.

Preferably, the bearing table 12 is further provided with a bearing boss 122 for bearing logs; the upper surface of the bearing boss 122 is provided with a through hole 1221 through which the top post 1211 passes. The top post 1211 may push up the log through the penetration hole 1221.

Preferably, the transporting body 3 includes a plurality of transporting rollers 31 for transporting logs, a transporting frame 32 for carrying the transporting rollers 31, and a transporting driving mechanism 33 for driving the transporting rollers 31 to rotate. The logs are placed on the transport rollers 31 and transported by the transport rollers 31 to the transport and turning mechanism 2.

Preferably, a plurality of cross-shaped conveying blocks 311 are arranged on the circumferential surface of the conveying roller 31 at intervals in the axial direction, and a first arc-shaped portion 3111 is formed between two adjacent tips of the conveying blocks 311. The log is placed on the first arc-shaped portion 3111 of the conveying paddle 311, and when the conveying roller 31 rotates, the conveying paddle 311 rotates along with it, and the log is conveyed to the conveying paddle 311 of the next conveying roller 31.

Preferably, the transport blocks 311 of adjacent transport rollers 31 are arranged alternately. The conveying shifting blocks 311 on the adjacent conveying rollers 31 are alternately arranged, so that the logs can be more stable in the conveying process.

Preferably, the end of the transport roller 31 is further provided with a driving protrusion 312 having a cross shape, a second arc portion 3121 is formed between two adjacent tips of the driving protrusion 312, and a strip groove 3122 is formed in the driving protrusion 312, extending from the tip toward the axial direction of the transport roller 31 and penetrating through the surface of the driving protrusion 312. The conveying roller 31 is driven to rotate by the driving lug 312, so that the round logs are conveyed.

Preferably, the transportation driving mechanism 33 includes a driving rotary table 331 for driving each driving lug 312 to rotate, and a rotation driving motor 332 for driving each driving rotary table 331 to rotate. The driving boss 331 is driven to rotate by the driving motor, thereby driving each driving protrusion 312 to rotate.

Preferably, the driving circular table 331 has a circular boss 3311 which can slide in the strip groove 3122 and drives the driving protrusion 312 to rotate and a rotating boss 3312 which is driven by the rotation driving motor 332. When the driving circular truncated cone 331 rotates, the circular boss 3311 slides in the strip groove 3122, and drives the driving protrusion 312 to rotate, when the circular boss 3311 slides out of the strip groove 3122, the driving protrusion stops rotating, and when the circular boss 3311 enters the next adjacent strip groove 3122, the driving protrusion 312 can be rotated, so that the intermittent rotation of the transportation roller 31 is realized.

Preferably, each of the rotation bosses 3312 is connected to an output shaft of the rotation driving motor 332 by a chain. Each rotating boss 3312 can be driven simultaneously by a chain, and in addition, the stable rotation of the transport roller 31 can be ensured without slipping when the driving is performed in the form of a chain.

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 vertical rotary cutter assembly line with better performance comprises a rotary cutting device for centering and rotary cutting round logs and a conveying device for conveying the round logs to the rotary cutting device; the method is characterized in that: the rotary cutting device comprises a vertical rotary cutting mechanism for keeping the log in a vertical state for cutting; the conveying device comprises a conveying main body positioned at the upstream and a conveying turnover mechanism positioned at the downstream; the conveying turnover mechanism comprises a turnover bearing frame for bearing logs, a turnover bearing base rotatably connected with the turnover bearing frame, a turnover driving mechanism for driving the turnover bearing frame to turn over, and a horizontal driving mechanism for driving the turnover bearing base to move towards the rotary cutting device; the turnover bearing frame is provided with a turnover bearing plate, and a turnover bearing support plate perpendicular to the turnover bearing plate is arranged at the edge of the turnover bearing plate; an arc-shaped groove is formed on the surface of the turnover bearing plate; the overturning bearing support plate is provided with a abdicating groove extending from one end far away from the overturning bearing plate to one end adjacent to the overturning bearing plate; two sides of the turnover bearing plate close to the middle part are provided with first connecting shafts connected with the turnover driving mechanism; the overturning bearing base is also provided with an overturning supporting column connected with the overturning bearing frame and a connecting block connected with the overturning driving mechanism; the upper end of the overturning support column is provided with an overturning hole matched with the overturning shaft; the connecting block is provided with a second connecting shaft connected with the overturning driving mechanism; the overturning driving mechanism comprises an overturning driving oil cylinder, and a first connecting hole matched with the first connecting shaft is formed in the top end of an output shaft of the overturning driving oil cylinder; the bottom end of the cylinder body of the turnover driving oil cylinder is provided with a second connecting hole matched with the second connecting shaft; the horizontal driving mechanism comprises a horizontal driving screw rod and a horizontal sliding rail, wherein the horizontal driving screw rod drives the overturning bearing base to move; and a horizontal sliding groove matched with the horizontal sliding rail is arranged at the bottom of the overturning bearing.

2. The vertical rotary cutting machine assembly line of claim 1, wherein: the rotary cutting device also comprises a bearing table for bearing the vertical rotary cutting mechanism.

3. The vertical rotary cutting machine assembly line of claim 2, wherein: vertical rotary-cut mechanism presss from both sides tightly and drives the rotatory first drive roller, second drive roller, the third drive roller of log including global to the log, first drive roller is located the one side of log, second drive roller and third drive roller are located the opposite side of log.

4. The vertical rotary cutting machine assembly line of claim 3, wherein: the vertical rotary cutting mechanism further comprises a first mounting frame for bearing and mounting the first driving roller, and a second mounting frame for bearing and mounting the second driving roller and the third driving roller; the first mounting frame is also provided with a rotary cutting tool for rotary cutting of logs and a first rotary driving motor for driving the first driving roller to rotate; and a second rotary driving motor for driving the second driving roller to rotate is further arranged on the second mounting frame.

5. The vertical rotary cutting machine assembly line of claim 4, wherein: the vertical rotary cutting mechanism further comprises a first rotary cutting driving mechanism for driving the first mounting frame to move towards the log direction, and a second rotary cutting driving mechanism for driving the second mounting frame to move towards the log direction.

6. The vertical rotary cutting machine assembly line of claim 5, wherein: the first rotary cutting driving mechanism comprises a first screw rod for driving the first mounting frame to move towards the log, a first sliding groove formed at the bottom of the first mounting frame, and a first sliding rail formed on the upper surface of the bearing table and matched with the first sliding groove; the second rotary-cut driving mechanism comprises a second screw rod for driving the second mounting frame to move towards the log, a second sliding groove formed at the bottom of the second mounting frame, and a second sliding rail formed on the upper surface of the bearing table and matched with the second sliding groove.

7. The vertical rotary cutting machine assembly line of claim 6, wherein: the bearing platform is further provided with a jacking mechanism for jacking the log, wherein the jacking mechanism comprises a jacking column which is in contact with one end of the log and jacks up the log, and a driving oil cylinder which drives the jacking column to lift.

8. The vertical rotary cutting machine assembly line of claim 7, wherein: one end of the top column facing the log is provided with a conical top.

9. The vertical rotary cutting machine assembly line of claim 8, wherein: the bearing table is also provided with a bearing boss for bearing the logs; the upper surface of the bearing boss is provided with a through hole for the top column to pass through.

10. The vertical rotary cutting machine assembly line of claim 1, wherein: the transportation main body comprises a plurality of transportation rollers for transporting logs, a transportation frame for bearing the transportation rollers, and a transportation driving mechanism for driving the transportation rollers to rotate.

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