CN108673657B

CN108673657B - High-efficient feeding conveyor of peeler

Info

Publication number: CN108673657B
Application number: CN201810548034.2A
Authority: CN
Inventors: 黄泽辉
Original assignee: Zhangzhou Jionghui Machinery Co ltd
Current assignee: Zhangzhou Jionghui Machinery Co ltd
Priority date: 2018-05-17
Filing date: 2018-05-17
Publication date: 2020-11-03
Anticipated expiration: 2038-05-17
Also published as: CN108748427B; CN108705618A; CN108705618B; CN108621259A; CN108673657A; CN108789664B; CN108621259B; CN108748427A; CN108789664A

Abstract

The high-efficiency feeding and conveying device of the rotary cutter breaks through the structural form of the traditional rotary cutting assembly line, during the actual working process, before rotary cutting, the controller controls the intermittent conveying mechanism to convey logs to the sorting and conveying mechanism one by one, the sorting and conveying mechanism sorts the tree root ends and the tree tip ends of the logs and has a uniform orientation, then the sorted logs are conveyed to the downstream feeding mechanism by the upstream feeding mechanism, the logs are conveyed to the rotary cutting part one by the downstream feeding mechanism, and the positioning and rotating mechanism and the rotary cutting mechanism clamp and rotary cut the logs in the uniform orientation. The efficient feeding and conveying device of the rotary cutter can automatically convey, sort and uniformly feed round logs, can reduce the cost on the basis of improving the rotary cutting precision and ensuring the uniform thickness and stable quality of wood chips, and has strong practicability.

Description

High-efficient feeding conveyor of peeler

The patent application of the invention is a divisional application of Chinese patent application No. 201810472786.5, the application No. of the original application is 201810472786.5, the application date is 2018, 05 and 17, and the name of the invention is an automatic conveying rotary-cut production line.

Technical Field

The invention relates to the field of machinery, in particular to a high-efficiency feeding and conveying device of a rotary cutter.

Background

At present, in the field of material cutting, a rotary cutter is used for rotary cutting logs, wood sections with different lengths are rotary cut into veneers with different thicknesses within a certain diameter range, wherein in the cutting process of the rotary cutter, round logs are directly placed on a cutter bed, and are fixedly rotated under the action of a driving roller and a compression roller, in the rotating process, rotary cutting is realized by a cutter arranged on the cutter bed, the thickness of the wood generated by rotary cutting can be set according to the original thickness, but in the prior art, automatic conveying cannot be realized in the whole process of conveying the logs, sorting and uniformly orienting the root end and the tip end of the log can not be carried out, feeding is carried out on other devices, the root end and the tip end of the round log can not be supported, the shaking amplitude of the heavier root end of the round log is reduced, and accordingly, the rotary cutting precision is low, the thickness of the wood chips is targeted, and the thickness of the wood chips is not uniform, The quality effect is poor, the size, the material and the like of the machine part cannot be controlled, the material is wasted, and the cost is high.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide the efficient feeding and conveying device of the rotary cutter, which can automatically convey, sort and uniformly feed round logs, can reduce the cost and has strong practicability on the basis of improving the rotary cutting precision, ensuring the uniform thickness and stable quality of wood chips.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high-efficiency feeding and conveying device of a rotary cutter comprises a sorting and conveying mechanism for conveying logs to an upstream feeding mechanism and an intermittent conveying mechanism for conveying logs to the sorting and conveying mechanism;

the sorting and conveying mechanism comprises a sorting hopper positioned above the feeding end of the feeding conveying belt and an inclined slideway arranged between the sorting hopper and the upstream feeding mechanism; the sorting hopper comprises a sorting frame, a blocking swing plate, a swing driving device and a sorting bracket, wherein the sorting frame is horizontally arranged and is vertical to the feeding conveying belt; the sorting frame comprises a first long sorting edge, a second long sorting edge, a first short sorting edge, a second short sorting edge and a sorting middle beam, wherein the first long sorting edge is perpendicular to the feeding conveying belt and corresponds to the discharge end of the intermittent conveying mechanism, the second long sorting edge is opposite to the first long sorting edge, the first short sorting edge and the second short sorting edge are connected between the first long sorting edge and the second long sorting edge, and the sorting middle beam is connected between the first long sorting edge and the second long sorting edge and is positioned between the first short sorting edge and the second short sorting edge; the first long sorting edge, the second long sorting edge, the first short sorting edge and the second short sorting edge enclose a feed opening for the log to fall down, and the sealing swing plate is sealed and blocked below the feed opening; the sorting bracket is supported below the first long sorting edge; the first short sorting edge, the second short sorting edge and the sorting center beam are all in a downward-bulging bent shape, the cross section of the blocking swinging plate is in a downward-bulging bent shape, the blocking swinging plate is positioned below the sorting center beam, a bent accommodating groove for accommodating the sorting center beam is formed in the blocking swinging plate, and the sorting center beam is completely accommodated in the bent accommodating groove; a first elastic guide inclined plate is arranged above the first short sorting edge and gradually inclines towards the sorting center sill from the first long sorting edge to the second long sorting edge; a second elastic guide inclined plate is arranged above the second short sorting edge and gradually inclines towards the sorting center sill from the first long sorting edge to the second long sorting edge;

the inclined slide way is arranged in an inclined manner from the feeding end to the discharging end of the feeding conveying belt from top to bottom; the upper end of the inclined slide way is connected below the feed opening and is connected with the sorting bracket, and the lower end of the inclined slide way corresponds to the feeding conveyer belt; the inclined slideway comprises a slideway bottom plate which gradually narrows from top to bottom, and a first slideway limit plate and a second slideway limit plate which are vertically arranged on two side edges of the slideway bottom plate and used for limiting logs; the first slideway limiting plate and the second slideway limiting plate are gradually close to each other from top to bottom;

the intermittent conveying mechanism comprises a conveying execution device for conveying the logs towards the sorting conveying mechanism and a conveying driving device for driving the conveying execution device; the conveying execution device comprises a plurality of conveying units parallel to the first long sorting side; the conveying unit comprises a conveying rotating shaft parallel to the first long sorting edge and a plurality of conveying wheels coaxially arranged along the conveying rotating shaft; conveying rotating gaps are formed between adjacent conveying wheels on the same conveying rotating shaft, the conveying wheels of adjacent conveying units are arranged in a staggered mode, and the conveying wheels extend into the conveying rotating gaps of the adjacent conveying units; four conveying grooves which are uniformly distributed around the axis are formed on the periphery of the conveying wheel, and the conveying grooves of the conveying wheel on the same conveying rotating shaft correspond to the axis direction of the conveying rotating shaft; the conveying grooves on the same conveying wheel are respectively a first conveying groove, a second conveying groove, a third conveying groove and a fourth conveying groove which are adjacent in sequence, and the first conveying grooves of the conveying units face to the same direction;

the conveying driving device comprises a plurality of conveying driving units corresponding to the conveying units and a conveying power device for synchronously driving the conveying driving units to operate; the conveying driving unit comprises a first conveying driving wheel which is positioned above and coaxially connected with the corresponding conveying rotating shaft, a second conveying driving wheel which is positioned below and intermittently drives the first conveying driving wheel to rotate, and a conveying driving gear which is coaxially connected with the second conveying driving wheel; each conveying driving gear is positioned in the same vertical plane and at the same height; the first conveying driving wheel is provided with four conveying positioning grooves which are uniformly distributed around the axis and four conveying strip-shaped grooves which radially extend along the first conveying driving wheel and are uniformly distributed around the axis; the conveying strip-shaped groove is provided with a conveying opening facing the peripheral surface of the first conveying driving wheel, and the conveying positioning grooves and the conveying strip-shaped groove on the same first conveying driving wheel are arranged at intervals; conveying protruding parts are arranged between adjacent conveying positioning grooves on the same first conveying driving wheel, and each conveying strip-shaped groove corresponds to the middle part of each conveying protruding part;

the second conveying driving wheel comprises a conveying wheel main body, a conveying protruding wheel which is formed on the end face of the conveying wheel main body and is coaxially arranged with the conveying wheel main body, and a conveying stirring lug which is formed on the end face of the conveying wheel main body and extends into the corresponding conveying strip-shaped groove to stir the first conveying driving wheel; the radius of the conveying protruding wheel is smaller than that of the conveying wheel main body, and the conveying stirring lug and the conveying protruding wheel are positioned on the same end face of the conveying wheel main body; the conveying positioning groove is in a circular arc shape matched with the peripheral surface of the conveying protruding wheel; the conveying protruding wheel is provided with a conveying swinging groove which corresponds to the conveying stirring lug and is used for the corresponding conveying protruding part to swing;

the conveying power device comprises conveying power chains matched with the conveying driving gears of the conveying driving units, conveying power gears driving the conveying power chains to operate, and conveying power motors driving the conveying power gears to rotate.

The conveying protruding part is in a circular arc shape matched with the conveying swing groove.

The conveying wheel main body is provided with a conveying outer ring part positioned on the outer side of the conveying protruding wheel, the conveying stirring lug is formed on the conveying outer ring part, and the conveying outer ring part is in parallel contact with the corresponding first conveying driving wheel.

The upper surface of the first long sorting edge is gradually inclined downwards towards the direction of the second long sorting edge.

The first elastic guide inclined plate is a smooth arc which bulges towards the direction of the second elastic guide inclined plate, and the second elastic guide inclined plate is a smooth arc which bulges towards the direction of the first elastic guide inclined plate.

The long sorting edge of second sets the last baffle that extends of vertical extension that makes progress, first elasticity direction swash plate and second elasticity direction swash plate all with it is connected fixedly to extend the baffle.

The long sorting edge of second sets the supplementary deflector of downwardly extending, supplementary deflector from top to bottom towards gradually the slope of low reaches feed mechanism direction.

The auxiliary guide plate gradually narrows from top to bottom and corresponds to the upper part of the slideway bottom plate.

The swing driving device is a fluid pressure cylinder; the fluid pressure cylinder is provided with a power output end connected with the blocking swing plate and a power supporting end connected with the sorting bracket; the fluid pressure cylinder is arranged from the power support end to the power output end gradually from bottom to top in an inclined manner; the power output end is connected with the lower surface of the blocking swing plate through a power output rotating shaft parallel to the first long sorting edge, and the power support end is connected with the sorting support through a power support rotating shaft parallel to the power output rotating shaft.

The first short sorting edge, the second short sorting edge and the sorting middle beam are all arc-shaped and bulge downwards, and the cross section of the sealing swing plate is arc-shaped and bulge downwards.

After the technical scheme is adopted, the efficient feeding and conveying device of the rotary cutter breaks through the structural form of the traditional rotary cutting production line, before rotary cutting, the controller controls the intermittent conveying mechanism to convey logs to the sorting and conveying mechanism one by one, the sorting and conveying mechanism sorts the root ends and the tip ends of the logs and has a uniform orientation in the actual working process, then the upstream feeding mechanism conveys the sorted logs to the downstream feeding mechanism, the downstream feeding mechanism conveys the logs to the rotary cutting part one by one, and the positioning rotating mechanism and the rotary cutting mechanism clamp and rotary cut the logs in the uniform orientation. The root end clamping shaft for supporting the root end of the log can be designed into a structure with high strength, deformation resistance and higher abrasion resistance, the root end and the tip end of the log are supported in a targeted manner, the shaking amplitude of the heavier root end of the log is reduced, the rotary cutting precision is improved, the size, the material and the like of machine parts can be controlled on the basis of ensuring the uniform thickness and the stable quality of wood chips, and the cost is reduced as much as possible. Specifically, a plurality of logs are placed on each conveying unit, each log is jointly borne and limited by each upward first conveying groove (second conveying groove, third conveying groove or fourth conveying groove) of the corresponding conveying unit, and the logs cannot roll in a side direction in a mess. The conveying power motor drives the conveying power gear to drive the conveying power chain to rotate, the conveying power chain drives the conveying driving gears of the conveying driving units to synchronously rotate, each conveying driving gear drives each second conveying driving wheel to rotate, the peripheral surface of each conveying protruding wheel rotates along the corresponding conveying positioning groove, in the process that the peripheral surface of each conveying protruding wheel rotates along the corresponding conveying positioning groove, the first conveying driving wheel keeps static by means of the matching limit of the corresponding conveying positioning groove and the peripheral surface of the corresponding conveying protruding wheel, when the conveying stirring lug of the second conveying driving wheel corresponds to the conveying opening of the corresponding conveying strip-shaped groove and the conveying swinging groove corresponds to the conveying protruding part, the conveying stirring lug continuously rotates along with the second conveying driving wheel, slides into the conveying strip-shaped groove from the corresponding conveying opening, and simultaneously stirs the conveying protruding part to swing by means of the conveying swinging groove, the whole first conveying driving wheels are enabled to rotate, all the first conveying driving wheels rotate 90 degrees, all the first conveying driving wheels drive all the conveying rotating shafts to drive all the conveying wheels to synchronously rotate 90 degrees, all the first conveying grooves drive the logs to swing 90 degrees towards the sorting conveying mechanism, the conveying units closest to the sorting conveying mechanism directly swing and convey the logs to the sorting hopper from the first long sorting edge, the logs on the upper stream are close to the distance of one conveying unit towards the sorting conveying mechanism, all the second conveying grooves bear the logs on the upper stream upwards, and therefore one-by-one periodic intermittent conveying of the logs is achieved. Then the circumferential surface of the conveying protruding wheel enters the next conveying positioning groove along the same trend and rotates along the conveying positioning groove. When the logs enter the sorting hopper, the two ends of the logs slide along the first elastic guide inclined plate and the second elastic guide inclined plate, under the guiding action of the first elastic guide inclined plate and the second elastic guide inclined plate, the logs roll onto the blocking swing plate stably and accurately, the middle parts of the logs are positioned right above the sorting middle beam, then the swing driving device drives the blocking swing plate to swing downwards to enable the feed opening to be through, and simultaneously only the sorting middle beam supports the logs, although the root end and the tip end of the log have the same diameter, the density of the root end is greater than that of the tip end, so that the gravity of the root end of the log is greater than that of the tip end, therefore, the log depends on the sorting middle beam as a supporting shaft, and the root end of the log gradually sinks and downwards penetrates through the corresponding feed opening and is conveyed to the feeding conveying belt along the inclined slide way, so that the log always falls firstly at the root end and is conveyed towards the same direction. Then the log is placed and is born the weight of by a plurality of spacing support bars along the feed conveyer belt, and the spacing groove of each spacing support bar is spacing to the log, avoids the log to roll towards the side direction, and the feed conveyer belt drives each spacing support bar and carries the log to low reaches feeding mechanism. When the logs reach the corresponding section of the feeding conveyer belt corresponding to the feeding rotating shaft, the logs roll to the feeding unit closest to the feeding conveyer belt by utilizing a pushing device or manpower, each log is jointly borne and limited by each upward first feeding groove (a second feeding groove, a third feeding groove or a fourth feeding groove) of the corresponding feeding unit, and the logs cannot roll towards the side direction in a mess. Compared with the prior art, the high-efficiency feeding and conveying device of the rotary cutter can automatically convey, sort and uniformly feed round logs, can reduce cost on the basis of improving rotary cutting precision and ensuring uniform thickness and stable quality of wood chips, and is high in practicability.

Drawings

FIG. 1 is a simplified top view of the present invention;

FIG. 2 is a schematic view of a rotary cutting section according to the present invention;

FIG. 3 is a partial side view of the present invention;

FIG. 4 is a partial schematic view of an upstream feed mechanism of the present invention;

FIG. 5 is a schematic view of a first operating state of a portion of the present invention;

FIG. 6 is a schematic view of a second operating state of a portion of the present invention;

FIG. 7 is a schematic view of a third operating condition of a portion of the present invention;

FIG. 8 is a fourth operating state diagram of a portion of the present invention;

FIG. 9 is a partial top view of the present invention;

FIG. 10 is a schematic view of a first operational state of the feed actuator and the transport actuator of the present invention;

FIG. 11 is a schematic view of a second operational state of the feed actuator and the transport actuator of the present invention;

FIG. 12 is a side view of a portion of the feed drive and intermittent feed mechanism of the present invention;

FIG. 13 is a partial cross-sectional view of the sorting conveyor of the present invention;

FIG. 14 is a partial schematic view of the swing driving apparatus of the present invention;

FIG. 15 is a cross-sectional view of a first embodiment of a sorting center sill of the present invention;

fig. 16 is a cross-sectional view of a second embodiment of a sorting center sill of the present invention.

In the figure:

1-Rotary cutting part

11-frame 12-positioning rotating mechanism 121-root end clamping shaft 122-tip end clamping shaft

2-feeding part 21-downstream feeding mechanism 211-feeding execution device 2111-feeding unit a 1-feeding rotating shaft a 2-feeding wheel a 21-first feeding groove a 22-second feeding groove a 23-third feeding groove a 24-fourth feeding groove b 1-first feeding driving wheel b 11-feeding positioning groove b 12-feeding strip groove b 2-second feeding driving wheel b 21-feeding wheel main body b 22-feeding salient wheel b 221-feeding swinging groove b 23-feeding stirring lug b 3-feeding driving gear c 1-feeding power chain c 2-feeding power gear c 3-feeding power motor 22-upstream feeding mechanism 221-feeding conveying belt 222-feeding supporting frame 223-limiting supporting strip d 1-limiting groove.

e 1-first long sorting edge e 2-second long sorting edge e 3-first short sorting edge e 31-first elastic guide inclined plate e 4-second short sorting edge e 41-second elastic guide inclined plate e 5-sorting middle beam 3112-blocking swinging plate 3113-swinging driving device h 1-power output end h 2-power support end h 3-power support rotating shaft h 4-power output rotating shaft 3114-sorting bracket

312-inclined slideway 3121-slideway bottom plate 3122-first slideway limit plate 3123-second slideway limit plate 321-conveying actuating device 3211-conveying unit f 1-conveying rotating shaft f 2-conveying wheel f 21-first conveying groove f 22-second conveying groove f 23-third conveying groove f 24-fourth conveying groove g 1-first conveying driving wheel g 11-conveying positioning groove g 12-conveying strip groove g 2-second conveying driving wheel g 21-conveying wheel main body g 22-conveying projection wheel g 221-conveying swing groove g 23-conveying stirring projection g 3-conveying driving gear t 1-conveying power chain t 2-conveying power gear t 3-conveying power motor.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

The high-efficiency feeding and conveying device of the rotary cutting machine comprises a rotary cutting part 1, a feeding part 2 for supplying logs to the rotary cutting part 1, and a conveying part for conveying logs from the feeding part 2, as shown in figures 1 to 16; the rotary cutting part 1 comprises a rotary cutting part 1, a rotary cutting mechanism 12 and a positioning rotating mechanism 12, wherein the rotary cutting mechanism 12 and the positioning rotating mechanism 12 are arranged on the rotary cutting part 1; the rotary cutting machine also comprises a controller for controlling the rotary cutting part 1, the feeding part 2 and the conveying part; the positioning and rotating mechanism 12 comprises a root end clamping shaft 121 corresponding to the root end of the log and a tip end clamping shaft 122 corresponding to the tip end of the log; the feeding section 2 includes a downstream feeding mechanism 21 that feeds the rotary cutting section 1, and an upstream feeding mechanism 22 that feeds the downstream feeding mechanism 21;

the downstream feeding mechanism 21 includes a feeding actuator 211 that conveys the logs, and a feeding driving device that drives the feeding actuator 211; the feeding actuator 211 comprises a plurality of feeding units parallel to the positioning and rotating mechanism 12; the feeding unit comprises a feeding rotating shaft a1 parallel to the positioning rotating mechanism 12 and a plurality of feeding wheels a2 coaxially arranged along a feeding rotating shaft a 1; a conveying rotating gap is formed between the adjacent feeding wheels a2 on the same feeding rotating shaft a1, the feeding wheels a2 of the adjacent feeding units are arranged in a staggered mode, and the feeding wheels a2 extend into the feeding rotating gaps of the adjacent feeding units; the periphery of the feeding wheel a2 is provided with four feeding grooves which are uniformly distributed around the axis, and the feeding grooves of the feeding wheel a2 on the same feeding rotating shaft a1 correspond to the axial direction of the feeding rotating shaft a 1; the feeding grooves on the same feeding wheel a2 are respectively a first feeding groove a21, a second feeding groove a22, a third feeding groove a23 and a fourth feeding groove a24 which are adjacent in sequence, and the first feeding grooves a21 of all the feeding units face to the same direction;

the feeding driving device comprises a plurality of feeding driving units corresponding to the feeding units and a feeding power device for synchronously driving the feeding driving units to operate; the feeding driving unit comprises a first feeding driving wheel b1 which is positioned at the upper part and is coaxially connected with a corresponding feeding rotating shaft a1, a second feeding driving wheel b2 which is positioned at the lower part and intermittently drives the first feeding driving wheel b1 to rotate, and a feeding driving gear b3 which is coaxially connected with the second feeding driving wheel b 2; the feed drive gears b3 are in the same vertical plane and at the same height; the first feed drive wheel b1 is formed with four feed positioning notches b11 evenly distributed about the axis and four feed strip grooves b12 extending radially along the first feed drive wheel b1 and evenly distributed about the axis; the feeding strip groove b12 is provided with a feeding opening facing the circumferential surface of the first feeding driving wheel b1, and each feeding positioning groove b11 and the feeding strip groove b12 on the same first feeding driving wheel b1 are arranged at intervals; the adjacent feeding positioning grooves b11 on the same first feeding driving wheel b1 are provided with feeding protrusions, and each feeding strip-shaped groove b12 corresponds to the middle part of each feeding protrusion;

the second feeding driving wheel b2 comprises a feeding wheel body b21, a feeding protruding wheel b22 which is formed on the end face of the feeding wheel body b21 and is coaxially arranged with the feeding wheel body b21, and a feeding stirring lug b23 which is formed on the end face of the feeding wheel body b21 and extends into a corresponding feeding strip-shaped groove b12 to stir the first feeding driving wheel b 1; the radius of the feed protruding wheel b22 is smaller than that of the feed wheel main body b21, and the feed stirring lug b23 and the feed protruding wheel b22 are positioned on the same end face of the feed wheel main body b 21; the feeding positioning groove b11 is in the shape of a circular arc matched with the circumferential surface of the feeding protruding wheel b 22; the feeding protrusion wheel b22 is formed with a feeding swing groove b221 corresponding to the feeding toggle protrusion b23 and allowing the corresponding feeding protrusion to swing;

the feeding power device comprises a feeding power chain c1 matched with the feeding driving gear b3 of each feeding driving unit, a feeding power gear c2 driving the feeding power chain c1 to run, and a feeding power motor c3 driving the feeding power gear c2 to rotate;

the upstream feeding mechanism 22 includes a feeding conveyor belt 221 for conveying logs toward the downstream feeding mechanism 21, a feeding support frame 222 for supporting the feeding conveyor belt 221, and a plurality of limit support bars 223 disposed on the feeding conveyor belt 221; the limiting support bar 223 is vertical to the feeding conveyer belt 221, and a limiting groove d1 for placing logs is formed on the upper surface of the limiting support bar 223; the feeding conveyer belt 221 is parallel to the feeding rotating shaft a1, and the feeding conveyer belt 221 has a corresponding section corresponding to the feeding rotating shaft a 1;

the conveying part comprises a sorting conveying mechanism for conveying logs to the upstream feeding mechanism 22 and an intermittent conveying mechanism for conveying logs to the sorting conveying mechanism;

the sorting conveyor mechanism includes a sorting hopper above the infeed end of the feed conveyor belt 221, and an inclined chute 312 disposed between the sorting hopper and the upstream feed mechanism 22; the sorting hopper comprises a horizontally arranged rectangular tip sorting frame vertical to the feeding conveyer belt 221, a blocking swing plate 3112 blocked below the tip sorting frame, a swing driving device 3113 driving the blocking swing plate 3112 to swing, and a sorting bracket 3114 bearing the tip sorting frame; the tip sorting frame includes a first long sorting edge e1 perpendicular to the feed conveyor belt 221 and corresponding to the discharge end of the intermittent conveyor mechanism, a second long sorting edge e2 opposite the first long sorting edge e1, first and second short sorting edges e3 and e4 connected between the first and second long sorting edges e1 and e2, and a sorting bridge e5 connected between the middle of the first and second long sorting edges e1 and e2 and between the first and second short sorting edges e3 and e 4; the first long sorting edge e1, the second long sorting edge e2, the first short sorting edge e3 and the second short sorting edge e4 enclose a feed opening for the log to fall down, and the blocking swinging plate 3112 is blocked below the feed opening; the sorting support 3114 is supported below the first long sorting edge e 1; the first short sorting edge e3, the second short sorting edge e4 and the sorting center beam e5 are all in a downward-bulging curved shape, the cross section of the blocking swinging plate 3112 is in a downward-bulging curved shape, the blocking swinging plate 3112 is positioned below the sorting center beam e5, the blocking swinging plate 3112 is provided with a curved accommodating groove for accommodating the sorting center beam e5, and the sorting center beam e5 is completely accommodated in the curved accommodating groove; a first elastic guide inclined plate e31 is arranged above the first short sorting edge e3, and the first elastic guide inclined plate e31 is gradually inclined towards the sorting middle beam e5 from the first long sorting edge e1 to the second long sorting edge e 2; a second elastic guide inclined plate e41 is arranged above the second short sorting edge e4, and the second elastic guide inclined plate e41 is gradually inclined towards the sorting middle beam e5 from the first long sorting edge e1 to the second long sorting edge e 2;

the inclined slide 312 is inclined from the feeding end to the discharging end of the feeding conveyor 221 from top to bottom; the upper end of the inclined slide way 312 is connected below the feed opening and is connected with the sorting bracket 3114, and the lower end of the inclined slide way 312 corresponds to the feeding conveyer belt 221; the inclined slideway 312 comprises a slideway bottom plate 3121 which is gradually narrowed from top to bottom, and a first slideway limiting plate 3122 and a second slideway limiting plate 3123 which are vertically arranged on two side edges of the slideway bottom plate 3121 and can limit the round wood; the first slideway limiting plate 3122 and the second slideway limiting plate 3123 gradually approach from top to bottom;

the intermittent conveying mechanism includes a conveying actuator 321 that conveys the logs toward the sorting conveying mechanism, and a conveying drive device that drives the conveying actuator 321; the conveyance performing means 321 includes a plurality of conveying units 3211 parallel to the first long sorting edge e 1; the conveying unit 3211 includes a conveying rotating shaft f1 parallel to the first long sorting edge e1, and a plurality of conveying wheels f2 coaxially arranged along the conveying rotating shaft f 1; a conveying rotating gap is formed between adjacent conveying wheels f2 on the same conveying rotating shaft f1, the conveying wheels f2 of adjacent conveying units 3211 are arranged in a staggered mode, and the conveying wheels f2 extend into the conveying rotating gap of the adjacent conveying units 3211; four conveying grooves which are uniformly distributed around the axis are formed on the periphery of the conveying wheel f2, and the conveying grooves of the conveying wheels f2 on the same conveying rotating shaft f1 correspond to the axis direction of the conveying rotating shaft f 1; the conveying grooves on the same conveying wheel f2 are respectively a first conveying groove f21, a second conveying groove f22, a third conveying groove f23 and a fourth conveying groove f24 which are adjacent in sequence, and the first conveying grooves f21 of the conveying units 3211 face the same direction;

the conveying driving device comprises a plurality of conveying driving units corresponding to the conveying units 3211 and a conveying power device for synchronously driving the conveying driving units to operate; the conveying driving unit comprises a first conveying driving wheel g1, a second conveying driving wheel g2 and a conveying driving gear g3, wherein the first conveying driving wheel g1 is positioned above and coaxially connected with a corresponding conveying rotating shaft f1, the second conveying driving wheel g2 is positioned below and intermittently drives the first conveying driving wheel g1 to rotate, and the second conveying driving wheel g2 is coaxially connected with the second conveying driving wheel g 3; the conveying driving gears g3 are positioned in the same vertical plane and at the same height; the first conveying driving wheel g1 is provided with four conveying positioning grooves g11 which are uniformly distributed around the axis, and four conveying strip-shaped grooves g12 which extend along the radial direction of the first conveying driving wheel g1 and are uniformly distributed around the axis; the conveying strip groove g12 is provided with a conveying opening facing the peripheral surface of the first conveying driving wheel g1, and each conveying positioning groove g11 and the conveying strip groove g12 on the same first conveying driving wheel g1 are arranged at intervals; conveying protruding parts are arranged between adjacent conveying positioning grooves g11 on the same first conveying driving wheel g1, and each conveying strip-shaped groove g12 corresponds to the middle part of each conveying protruding part;

the second conveying driving wheel g2 comprises a conveying wheel main body g21, a conveying protruding wheel g22 which is formed on the end face of the conveying wheel main body g21 and is coaxially arranged with the conveying wheel main body g21, and a conveying stirring lug g23 which is formed on the end face of the conveying wheel main body g21 and extends into a corresponding conveying strip-shaped groove g12 to stir the first conveying driving wheel g 1; the radius of the conveying protrusion wheel g22 is smaller than that of the conveying wheel main body g21, and the conveying stirring lug g23 and the conveying protrusion wheel g22 are positioned on the same end face of the conveying wheel main body g 21; the conveying positioning groove g11 is in a circular arc shape matched with the circumferential surface of the conveying protrusion wheel g 22; the conveying protrusion wheel g22 is formed with a conveying swing groove g221 corresponding to the conveying toggle lug g23 and used for the corresponding conveying protrusion to swing;

the conveying power device comprises a conveying power chain t1 matched with the conveying driving gear g3 of each conveying driving unit, a conveying power gear t2 driving the conveying power chain t1 to run, and a conveying power motor t3 driving the conveying power gear t2 to rotate. In the actual working process, before rotary cutting, the controller controls the intermittent conveying mechanism to convey logs to the sorting conveying mechanism one by one, the sorting conveying mechanism sorts the root ends and the tip ends of the logs and has a uniform orientation, then the upstream feeding mechanism 22 conveys the sorted logs to the downstream feeding mechanism 21, the downstream feeding mechanism 21 conveys the logs to the rotary cutting part 1 one by one, and the positioning rotating mechanism 12 and the rotary cutting mechanism 12 clamp and rotary cut the logs with uniform orientation. The root end clamping shaft 121 for supporting the root end of the log can be designed into a structure with high strength, deformation resistance and higher abrasion resistance, the root end and the tip end of the log are supported in a targeted manner, the shaking amplitude of the heavier root end of the log is reduced, the rotary cutting precision is improved, the size, the material and the like of machine parts can be controlled on the basis of ensuring the uniform thickness and the stable quality of wood chips, and the cost is reduced as much as possible. Specifically, a plurality of logs are placed on each conveying unit 3211, and each log is supported and limited by the upward first conveying groove f21 (the second conveying groove f22, the third conveying groove f23 or the fourth conveying groove f24) of the corresponding conveying unit 3211, so that the logs do not roll in a side direction. A conveying power motor t3 drives a conveying power gear t2 to drive a conveying power chain t1 to operate, the conveying power chain t1 drives conveying driving gears g3 of each conveying driving unit to synchronously rotate, each conveying driving gear g3 drives each second conveying driving wheel g2 to rotate, the peripheral surface of each conveying protruding wheel g22 rotates along the corresponding conveying positioning groove g11, in the process that the peripheral surface of each conveying protruding wheel g22 rotates along the corresponding conveying positioning groove g11, the first conveying driving wheel g1 is kept static by the matching limiting of the corresponding conveying positioning groove g11 and the peripheral surface of the conveying protruding wheel g22, when the conveying toggle lug g23 of the second conveying driving wheel g2 corresponds to the conveying opening of the corresponding conveying strip-shaped groove g12 and the conveying swinging groove g221 corresponds to the conveying protruding part, the conveying toggle lug g23 slides into the conveying strip-shaped groove 12 from the corresponding conveying opening along with the continuous rotation of the second conveying drive wheel g2, meanwhile, the conveying protruding part is stirred to swing by means of the conveying swinging grooves g221, so that the whole first conveying driving wheels g1 rotate, all the first conveying driving wheels g1 rotate 90 degrees together, all the first conveying driving wheels g1 drive all the conveying rotating shafts f1 to drive all the conveying wheels f2 to synchronously rotate 90 degrees, all the first conveying grooves f21 drive logs to swing 90 degrees towards the sorting conveying mechanism, the conveying unit 3211 closest to the sorting conveying mechanism directly swings and conveys the logs to the sorting hopper from the first long sorting edge e1, the logs on the upstream are close to the sorting conveying mechanism by the distance of one conveying unit 3211, all the second conveying grooves f22 are upward to bear the logs on the upstream, and therefore one-by-one periodic intermittent conveying of the logs is achieved. The peripheral surface of the transport projection wheel g22 then rides into the next transport detent g11 and rotates along this transport detent g 11. During the round wood entering the sorting hopper, the two ends of the round wood slide along the first elastic guide sloping plate e31 and the second elastic guide sloping plate e41, under the guide action of the first elastic guide sloping plate e31 and the second elastic guide sloping plate e41, the round wood rolls onto the blocking swinging plate 3112 stably and accurately, the middle part of the round wood is positioned right above the sorting middle beam e5, then the swinging driving device 3113 drives the blocking swinging plate 3112 to swing downwards to enable the feed opening to be through, and simultaneously only the sorting middle beam e5 supports the round wood, although the diameters of the tree root end and the tree tip end of the round wood are the same, because the density of the tree root end is greater than that of the tree tip end, the gravity of the round wood at the tree root end is greater than that of the tree tip end, the round wood depends on the sorting middle beam e5 as a supporting shaft, the tree root end gradually sinks downwards and penetrates through the corresponding feed opening and is conveyed to the feeding conveying belt 221 along the inclined slideway 312, the round wood always falls down from the root end of the tree first and is conveyed towards the same direction. Then the log is placed along the feeding conveyer belt 221 and is born by a plurality of limit support bars 223, the limit groove d1 of each limit support bar 223 limits the log, the log is prevented from rolling towards the side direction, and the feeding conveyer belt 221 drives each limit support bar 223 to convey the log to the downstream feeding mechanism 21. When the logs reach the corresponding section of the feeding conveyer belt 221 corresponding to the feeding rotating shaft a1, the logs are rolled to the feeding unit closest to the feeding conveyer belt 221 by a pushing device or a manual work, each log is jointly supported and limited by each upward first feeding groove a21 (the second feeding groove a22, the third feeding groove a23 or the fourth feeding groove a24) of the corresponding feeding unit, and the logs cannot roll in a side direction in a mess. A feeding power motor c3 drives a feeding power gear c2 to drive a feeding power chain c1 to operate, a feeding power chain c1 drives a feeding driving gear b3 of each feeding driving unit to synchronously rotate, each feeding driving gear b3 drives each second feeding driving wheel b2 to rotate, the peripheral surface of a feeding protruding wheel b22 rotates along a corresponding feeding positioning groove b11, in the process that the peripheral surface of a feeding protruding wheel b22 rotates along a corresponding feeding positioning groove b11, a first feeding driving wheel b1 is kept static by means of the matching limit of the corresponding feeding positioning groove b11 and the peripheral surface of a feeding protruding wheel b22, when a feeding toggle bump b23 of a second feeding driving wheel b2 corresponds to a feeding opening of a corresponding feeding strip groove b12 and a feeding swing groove b221 corresponds to a feeding protruding part, the feeding toggle bump b23 continuously rotates along with the second feeding driving wheel b2, and the feeding toggle bump b23 slides into the feeding strip groove b12 from the corresponding feeding opening, meanwhile, the feeding protruding part is shifted to swing by depending on the feeding swing groove b221, so that the whole first feeding driving wheel b1 rotates, each first feeding driving wheel b1 rotates 90 degrees together, each first feeding driving wheel b1 drives each feeding rotating shaft a1 to drive each feeding wheel a2 to synchronously rotate 90 degrees, each first feeding groove a21 drives logs to swing 90 degrees towards the rotary cutting part 1, logs at the upstream all approach the rotary cutting part 1 by the distance of one feeding unit, and each second feeding groove a22 upwards bears the logs at the upstream, so that the logs are periodically and intermittently conveyed one by one. The periphery of the feed nose wheel b22 then rides into the next feed detent b11 and rotates along this feed detent b 11. The cross section of the blocking swing plate 3112 is curved so as to bulge downward, so that the log is parallel to the first long sorting edge e1 after naturally standing on the blocking swing plate 3112, and the log is perpendicular to the sorting center sill e5, so that the center line of the log can swing up and down with the sorting center sill e5 as a support shaft to distinguish the root end and the tip end of the tree. The first elastic guide sloping plate e31 and the second elastic guide sloping plate e41 are both of elastic plate-shaped structures, and may be specifically steel plates, but after the log stays on the blocking swing plate 3112, the log is only in contact with or not in contact with the parts of the first elastic guide sloping plate e31 and the second elastic guide sloping plate e41, and the first elastic guide sloping plate e31 and the second elastic guide sloping plate e41 do not influence the swing of the log by using the sorting middle beam e5 as a rotating shaft. First slide limiting plate 3122 and second slide limiting plate 3123 can assist the direction spacing to the log. The feeding conveyer belt 221 may be provided with a pushing device at a corresponding section corresponding to the feeding rotating shaft a1 for pushing the log to roll to the nearest feeding unit; the pushing device comprises a vertical push plate arranged along the feeding conveying belt 221, a base and a pushing driving device arranged between the base and the vertical push plate and used for driving the vertical push plate to advance and retreat; the pushing driving device can be an air cylinder or an oil cylinder. The specific structure may be that the root end clamping shaft 121 includes a first clamping shaft and a first bearing for bearing the first clamping shaft; tip snap shaft 122 includes a second snap shaft and a second bearing carrying the second snap shaft; the diameter of the first clamping shaft is larger than that of the second clamping shaft, and the abrasion-resistant and load-bearing strength of the first bearing is larger than that of the second bearing. The root end and the tip end of the log are supported in a targeted manner, so that the shaking amplitude of the heavier root end of the log is reduced, the rotary cutting precision is improved, the size, the material and the like of machine parts can be controlled on the basis of ensuring the uniform thickness and the stable quality of wood chips, and the cost is reduced as much as possible.

Preferably, the supply protrusion is in the shape of a circular arc matched with the supply swing groove b 221; the conveying protrusion is in the shape of a circular arc matching the conveying swing groove g 221. This structure enables the feed protrusion to more smoothly slide through the feed swing groove b221 during the swing, and enables the feed protrusion to more smoothly slide through the feed swing groove g221 during the swing.

Preferably, the feed wheel body b21 has a feed outer ring portion outside the feed protrusion wheel b22, and a feed toggle cam b23 is formed at the feed outer ring portion, which is in parallel contact with the corresponding first feed drive wheel b 1; the conveying wheel body g21 has a conveying outer ring portion outside the conveying protrusion wheel g22, and a conveying stirring lug g23 is formed on the conveying outer ring portion, and the conveying outer ring portion is in parallel contact with the corresponding first conveying driving wheel g 1. In the actual working process, the first feeding driving wheel b1 and the feeding outer ring part are closely matched and guided with each other, so that the second feeding driving wheel b2 drives the first feeding driving wheel b1 more smoothly; the first conveying driving wheel g1 and the conveying outer ring part are closely matched and mutually guided, so that the second conveying driving wheel g2 can drive the first conveying driving wheel g1 more smoothly.

Preferably, the upper surface of the first long sorting edge e1 is gradually inclined downward toward the second long sorting edge e 2. In the actual working process, when the logs are conveyed to the first long sorting edge e1 by the intermittent conveying mechanism, the logs naturally roll directly along the inclined upper surface of the first long sorting edge e1 and enter the blocking swing plate 3112.

Preferably, the first elastic guide swash plate e31 has a smooth arc shape bulging toward the second elastic guide swash plate e41, and the second elastic guide swash plate e41 has a smooth arc shape bulging toward the first elastic guide swash plate e 31. In the actual working process of the invention, the smooth arc-shaped first elastic guide sloping plate e31 and the smooth arc-shaped second elastic guide sloping plate e41 can gradually increase the resistance of the log, so that the log can be smoothly and stably stopped on the blocking swing plate 3112.

Preferably, the second long sorting edge e2 is provided with an upward extending baffle plate extending vertically upwards, and the first elastic inclined guide plate e31 and the second elastic inclined guide plate e41 are fixedly connected with the upward extending baffle plate. In the actual working process, the upper extending baffle can be used for blocking the round log with higher speed on the basis of positioning the first elastic guide inclined plate e31 and the second elastic guide inclined plate e41, so that the round log can stably stay on the sealing swing plate 3112.

Preferably, the second long sorting edge e2 is provided with an auxiliary guide plate extending downward, the auxiliary guide plate being inclined gradually toward the downstream feeding mechanism 21 from top to bottom. In the actual working process, the auxiliary guide plate can guide the log with the tree root end facing downwards, so that the log can stably fall on the inclined slideway 312, and unstable conditions such as jumping and the like can not occur.

Preferably, the auxiliary guide plate is tapered from top to bottom and corresponds to an upper portion of the chute floor 3121. This structure enables the auxiliary guide plate to perform targeted auxiliary guiding on the logs on the chute bottom plate 3121.

Preferably, the swing driving means 3113 is a fluid pressure cylinder; the fluid pressure cylinder has a power take-off h1 connected to the blocking swing plate 3112, and a power support h2 connected to the sorting stand 3114; the fluid pressure cylinder is gradually arranged from the power support end h2 to the power output end h1 in an inclined manner from bottom to top; the power take-off h1 is connected to the lower surface of the blocking swing plate 3112 via a power take-off shaft h4 parallel to the first long sorting edge e1, and the power support h2 is connected to the sorting bracket 3114 via a power support shaft h3 parallel to the power take-off shaft h 4. The specific structure may be that the blocking swing plate 3112 is connected to the first long sorting edge e1 through a swing rotation shaft, and the swing rotation shaft is parallel to the first long sorting edge e1, so that the blocking swing plate 3112 is driven by the swing driving device 3113 to be turned over up and down by the swing rotation shaft. The fluid pressure cylinder is a cylinder or an oil cylinder.

Preferably, the first short sorting edge e3, the second short sorting edge e4 and the sorting center sill e5 are each in the shape of a downwardly bulging circular arc, and the cross section of the blocking swing plate 3112 is in the shape of a downwardly bulging circular arc. In the actual operation of the present invention, the first short sorting edge e3, the second short sorting edge e4 and the sorting center beam e5 are all matched with the curvature of the damper flap 3112. The whole circular arc-shaped bending structure can enable the logs to naturally stand still on the sealing swing plate 3112, then be parallel to the first long sorting edge e1 and be positioned on the center line of the sealing swing plate 3112, and further enable the logs and the sorting middle beam e5 to be vertically and equally divided, so that the center line of the logs can conveniently swing up and down by taking the sorting middle beam e5 as a supporting shaft to smoothly fall from the blanking port.

Preferably, the top edge of the cross section of the sorting center beam e5 is smoothly curved. The structure can lead the sorting middle beam e5 to be in line contact with the log, so that the log can conveniently swing up and down by taking the sorting middle beam e5 as a supporting shaft, and the log cannot be damaged.

Preferably, the top edge of the cross section of the sorting center sill e5 is in a circular arc shape or an elliptic arc shape.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims

1. The utility model provides a high-efficient feeding conveyor of peeler which characterized in that: the device comprises a sorting and conveying mechanism for conveying logs to an upstream feeding mechanism and an intermittent conveying mechanism for conveying logs to the sorting and conveying mechanism;

2. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the conveying protruding part is in a circular arc shape matched with the conveying swing groove.

3. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 2, wherein: the conveying wheel main body is provided with a conveying outer ring part positioned on the outer side of the conveying protruding wheel, the conveying stirring lug is formed on the conveying outer ring part, and the conveying outer ring part is in parallel contact with the corresponding first conveying driving wheel.

4. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the upper surface of the first long sorting edge is gradually inclined downwards towards the direction of the second long sorting edge.

5. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the first elastic guide inclined plate is a smooth arc which bulges towards the direction of the second elastic guide inclined plate, and the second elastic guide inclined plate is a smooth arc which bulges towards the direction of the first elastic guide inclined plate.

6. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the long sorting edge of second sets the last baffle that extends of vertical extension that makes progress, first elasticity direction swash plate and second elasticity direction swash plate all with it is connected fixedly to extend the baffle.

7. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the long sorting edge of second sets the supplementary deflector of downwardly extending, supplementary deflector is from top to bottom slope towards downstream feeding mechanism direction gradually.

8. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 7, wherein: the auxiliary guide plate gradually narrows from top to bottom and corresponds to the upper part of the slideway bottom plate.

9. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the swing driving device is a fluid pressure cylinder; the fluid pressure cylinder is provided with a power output end connected with the blocking swing plate and a power supporting end connected with the sorting bracket; the fluid pressure cylinder is arranged from the power support end to the power output end gradually from bottom to top in an inclined manner; the power output end is connected with the lower surface of the blocking swing plate through a power output rotating shaft parallel to the first long sorting edge, and the power support end is connected with the sorting support through a power support rotating shaft parallel to the power output rotating shaft.

10. A high-efficiency feeding and conveying device for a rotary cutting machine according to claim 1, wherein: the first short sorting edge, the second short sorting edge and the sorting middle beam are all arc-shaped and bulge downwards, and the cross section of the sealing swing plate is arc-shaped and bulge downwards.