CN203665652U - Thin-skin single plate automatic skin-cutting grading all-in-one machine - Google Patents

Abstract

The utility model discloses a thin-skin single plate automatic skin-cutting grading all-in-one machine. The thin-skin single plate automatic skin-cutting grading all-in-one machine is characterized by comprising a skin-cutting machine part, a grader part, a programmable control box, a connecting transition part and a lifting table part. Due to the fact that a photoelectric sensor for detecting single plate quality, a cylinder for achieving separation and reunion of a roller and a blowing device controlling the falling position of a single plate are installed on the machine, skin lamination processes are reduced, single process production becomes continuous production, production efficiency is improved, a manual grading and picking process is reduced, labor intensity of workers is reduced, grading precision is more accurate, the grading is rapider, product quality is improved, and the thin-skin single plate automatic skin-cutting grading all-in-one machine is simple in structure and convenient to manufacture.

Description

Thin skin veneer cuts up with a hay cutter skin classifying integrated machine automatically

Technical field:

The utility model relates to wood processing machinery technical field, is that a kind of thin skin veneer cuts up with a hay cutter skin classifying integrated machine automatically specifically, for the Aided Machine of log rotary veneer machine.

Background technology:

At present, the former veneer process of existing thin skin (thickness is below 0.8MM) is that log is revolved into cylindrical round log by crude wood rotary cutter, then round log is processed into whole sheet material by another crude wood rotary cutter, send folded skin machine to through conveyer belt, folded skin machine folds whole sheet material, on conveyer belt, deliver to peeler through being manually put into again, peeler cuts up with a hay cutter into veneer according to required width, and be sent on other conveyer belt, then the classification standard manually specifying according to industry, by one-level, secondary veneer respectively classification is picked and is deposited, three grades fall through conveyer belt automatically as waste material.The disadvantage of existing process is that machine can not be produced continuously, manually within the extremely short time, is difficult to grade classification according to the rules and picks and deposit, and labor strength is large, and production efficiency is low.

Utility model content:

The purpose of this utility model is the deficiency that overcomes above-mentioned prior art, and provides a kind of thin skin veneer automatically to cut up with a hay cutter skin classifying integrated machine, mainly solves prior art manual grading skill and picks the problems such as intensity is large, production efficiency is low.

The technical solution of the utility model is: thin skin veneer cuts up with a hay cutter skin classifying integrated machine automatically, and its special character is, it comprises peeler part, grader part, control case able to programme, connects transition portion, lifting platform part;

Described connection transition portion, comprises the 20 roller in peeler frame, and the 20 roller is connected with the first roller on crude wood rotary cutter by the first conveyer belt; Establish respectively the 21 roller and the first gear at the 20 roller two ends, establish encoder in one end of the 20 roller; In peeler frame, establish the 3rd cylinder, the first guide pillar, the second roller, the 3rd roller; Establish the second gear in the end of the second roller, engage with the first gear, the second roller is connected with the 3rd roller by the second conveyer belt; Establish the first roller bracket at the 21 roller two ends, the 3rd cylinder is connected with the first roller bracket, establishes the 18 roller, guide pin bushing on the first roller bracket; The 21 roller is connected with the 18 roller by the 3rd conveyer belt; The first guide pillar packs guide pin bushing into, and the first roller bracket, under the 3rd cylinder action, moves forward and backward along the spline on the 20 roller and the first guide pillar;

Described peeler part, comprise the second track, above the second track, establish peeler frame, in peeler frame, establish the second castor, the second castor engages with the second track, peeler frame left end is connected with crude wood rotary cutter movable stand, and under the acting in conjunction of crude wood rotary cutter movable stand and the second castor, peeler frame moves left and right on the second track; In peeler frame, establish fixing chopper, mobile chopper seat, lever, the first motor, on the first motor, establish eccentric wheel, eccentric wheel is connected with lever by the second pull bar, lever is connected with mobile chopper seat by the first pull bar, on mobile chopper seat, establish mobile chopper, under the effect of the first motor, mobile chopper seat drives mobile chopper to move up and down in peeler frame; In peeler frame, establish the second motor, the 22 roller, the 19 roller, on the second motor, establish the 5th sprocket wheel, establish respectively the 6th sprocket wheel, the 5th gear, the 13 sprocket wheel at the 22 roller two ends, the 5th sprocket wheel is connected with the 6th sprocket wheel by the second chain, and the 22 roller is connected with the 19 roller by the tenth conveyer belt; In peeler frame, establish the 4th roller, the 5th roller, the 6th roller, the 17 roller, establish the 3rd gear in the 17 roller end, the 3rd gear engages with the 5th gear, make the 17 roller and the 22 roller switched in opposite, the 17 roller links with the 4th roller, the 5th roller and the 6th roller by the 4th conveyer belt; In peeler frame, establish the second sensor stand, the 3rd sensor stand, on the second sensor stand, establish the second photoelectric sensor, on the 3rd sensor stand, establish the first photoelectric sensor; In peeler frame, establish the 16 roller, establish the 12 sprocket wheel and second roller submounts in the end of the 16 roller, the 12 sprocket wheel is connected with the 13 sprocket wheel by the 7th chain; On second roller submounts, establish the 8th roller and the first castor, the 16 roller is connected with the 8th roller by the 5th conveyer belt; Second roller submounts is realized on the first track in grader frame and being moved by the first castor;

Described grader part, comprise grader frame, in grader frame, establish the 7th roller, the 15 roller, the 13 roller, the 11 roller, three-motor, on three-motor, establish the 8th sprocket wheel, establish duplex chain wheel in the 11 roller end, on the 13 roller, establish the 4th sprocket wheel, the 7th sprocket wheel, the 8th sprocket wheel is connected with duplex chain wheel by the 4th chain, duplex chain wheel is connected with the 7th sprocket wheel by the 3rd chain, the 7th roller is connected with the 15 roller by the 6th conveyer belt, the 15 roller is connected with the 11 roller by the 9th conveyer belt, the 13 roll support the 9th conveyer belt, second roller submounts is installed, is established the 9th roller, the 14 roller on second roller submounts, establish the first sprocket wheel in the 14 roller end, the 9th roller is connected with the 14 roller by the 7th conveyer belt, in grader frame, establish the first cylinder, the 3rd guide pillar, the second sprocket wheel, second roller submounts left end is connected with the first cylinder, and right-hand member is connected with the 3rd guide pillar, and under the effect of the first cylinder, second roller submounts, taking the 3rd guide pillar as fulcrum, swings up and down, the 3rd roller bracket is installed, is established the 12 roller, the tenth roller on the 3rd roller bracket, establish the 3rd sprocket wheel in the 12 roller end, the 12 roller is connected with the tenth roller by the 8th conveyer belt, in grader frame, establish the second cylinder, the second guide pillar, the 3rd roller bracket left end is connected with the second guide pillar, and right-hand member is connected with the second cylinder, and under the effect of the second cylinder, the 3rd roller bracket, taking the second guide pillar as fulcrum, swings up and down, the first sprocket wheel, the second sprocket wheel, the 3rd sprocket wheel, the 4th sprocket wheel connect by the first chain, in grader frame, establish gas blow pipe, the first track, first sensor support, on first sensor support, establish the 3rd photoelectric sensor,

Described lifting platform part, comprises holder, establishes the 4th motor, dextrorotation leading screw, left-handed leading screw, four-sensor support on holder, establishes the tenth sprocket wheel on the 4th motor; On dextrorotation leading screw, establish dextrorotation and fasten nut, the 9th sprocket wheel, the 11 sprocket wheel, on left-handed leading screw, establish left-handed fastening nut, dextrorotation leading screw links into an integrated entity by the 11 sprocket wheel, the 6th chain and left-handed leading screw, and the tenth sprocket wheel is connected with the 9th sprocket wheel by the 5th chain; Fasten on nut, left-handed fastening nut and establish hinged bar in dextrorotation, on hinged bar, establish hinged pin, the 4th gear; The 4th, lifter plate is installed above gear, is established tooth bar on lifter plate, tooth bar engages with the 4th gear; On four-sensor support, establish the 4th photoelectric sensor;

Described control case able to programme, the first cylinder, the second cylinder, the 3rd cylinder, gas blow pipe are by tracheae and the external air compressor machine of solenoid directional control valve, and encoder, the first photoelectric sensor, the second photoelectric sensor, the 3rd photoelectric sensor, the 4th photoelectric sensor, solenoid directional control valve circuit are connected on control case able to programme.

Thin skin veneer described in the utility model automatically cuts up with a hay cutter skin classifying integrated machine and compared with the prior art has following good effect, 1, due on machine, be equipped with survey Veneer quality photoelectric sensor, can make roller clutch cylinder, control the blowning installation etc. of position, veneer whereabouts, reduce folded skin operation, single operation is produced and become continuous production, improved production efficiency; 2, reduce manual grading skill and picked operation, alleviated labor strength; 3, effectiveness of classification is more accurate, quicker, has improved quality of item, and 4, changed traditional artificial production model, and it is simple in structure, and easy to make.

Brief description of the drawings:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the top view of Fig. 1;

Fig. 3 is the structural representation that Fig. 1 connects transition portion, peeler part;

Fig. 4 is the top view of Fig. 3;

Fig. 5 is the structural representation of Fig. 1 grader part, control case able to programme, lifting platform part;

Fig. 6 is the top view of Fig. 5.

Drawing explanation:

1 first roller, 2 first conveyer belts, 3 first gears, 4 second gears, 5 second rollers, 6 second conveyer belts, 7 first roller brackets, 8 the 3rd conveyer belts, 9 the 3rd rollers, 10 first photoelectric sensors, 11 the 4th rollers, 12 the 5th rollers, 13 second photoelectric sensors, 14 the 4th conveyer belts, 15 the 3rd gears, 16 fixing choppers, 17 the 6th rollers, 18 move chopper, 19 move chopper seat, 20 second roller submounts, 21 the 5th conveyer belts, 22 the 7th rollers, 23 the 8th rollers, 24 first castors, 25 the 3rd photoelectric sensors, 26 the 6th conveyer belts, 27 the 9th rollers, 28 first cylinders, 29 tracheaes, 30 solenoid directional control valves, 31 the 7th conveyer belts, 32 first sprocket wheels, 33 second sprocket wheels, 34 first chains, 35 the 3rd sprocket wheels, 36 the 3rd roller brackets, 37 second cylinders, 38 the tenth rollers, 39 control casees able to programme, 40 the 11 rollers, 41 the 8th conveyer belts, 42 the 12 rollers, 43 the 4th sprocket wheels, 44 the 13 rollers, 45 the 14 rollers, 46 second roller submounts, 47 tooth bars, 48 the 4th gears, 49 holders, 50 lifter plates, 51 hinged pins, 52 hinged bars, 53 the 9th conveyer belts, 54 grader frames, 55 the 15 rollers, 56 first tracks, 57 first sensor supports, 58 first pull bars, 59 levers, 60 second pull bars, 61 eccentric wheels, 62 first motor, 63 the 16 rollers, 64 the 17 rollers, 65 second sensor stands, 66 peeler frames, 67 the tenth conveyer belts, 68 the 3rd sensor stands, 69 the 18 rollers, 70 the 19 rollers, 71 second castors, 72 second tracks, 73 the 20 rollers, 74 the 21 rollers, 75 encoders, 76 the 3rd cylinders, 77 first guide pillars, 78 guide pin bushings, 79 second motor, 80 the 5th sprocket wheels, 81 second chains, 82 the 6th sprocket wheels, 83 the 5th gears, 84 the 22 rollers, 85 second guide pillars, 86 the 7th sprocket wheels, 87 the 3rd guide pillars, 88 the 3rd chains, 89 double-stranded sprocket wheels, 90 the 4th chains, 91 the 8th sprocket wheels, 92 three-motors, 93 crude wood rotary cutters, 94 dextrorotation leading screws, 95 dextrorotation fasten nut, 96 the 9th sprocket wheels, 97 the 5th chains, 98 the tenth sprocket wheels, 99 the 4th motor, 100 the 11 sprocket wheels, 101 the 6th chains, 102 left-handed fastening nuts, 103 left-handed leading screws, 104 gas blow pipes, 105 the 12 sprocket wheels, 106 the 7th chains, 107 the 13 sprocket wheels, 108 four-sensor supports, 109 the 4th photoelectric sensors.

Detailed description of the invention:

For better Comprehension and Implementation, provide specific embodiment below in conjunction with accompanying drawing and describe the utility model veneer Full-automatic grading machine in detail; Illustrated embodiment is only for explaining the utility model, not for limiting scope of the present utility model.

Embodiment 1, referring to Fig. 1,2,3,4,5,6, peeler frame 66, grader frame 54, control case 39 initialize programs able to programme are made in processing welding, all rollers and other component of machine are all made or are purchased through welding, machined, and bearing or rolling bearing units are all loaded onto in all rollers two ends;

Connect transition portion: manufacture the first roller bracket 7, on the first roller bracket 7, install between the 21 roller the 74, the 18 roller 69, guide pin bushing 78, the 21 roller the 74 and the 18 rollers 69 the 3rd conveyer belt 8 is installed, form parts; The built-in spline of the 21 roller 74, is arranged on the spline place of the 20 roller 73 correspondences; In the 20 roller 73 ends, the first gear 3, encoder 75 are installed, in the second roller 5 ends, the second gear 4 is installed, the 20 roller 73, the 3rd cylinder 76, the first guide pillar 77, the second roller 5, the 3rd roller 9 in peeler frame 66, installed, on crude wood rotary cutter 93, install between the first roller 1, the 20 rollers 73 and the first roller 1 the first conveyer belt 2 is installed; Pack the first guide pillar 77 into guide pin bushing 78, the 3rd cylinder 76 is connected with the first roller bracket 7; Between the second roller 5 and the 3rd roller 9, the second conveyer belt 6 is installed; Horizontal range between the 21 roller the 74 and the 18 roller 69 is determined by the distance between the 20 roller the 73 and the 19 roller 70, when the right veneer in inclination angle on the 3rd conveyer belt 8 and ground passes through between 20 roller the 73 and the 19 rollers 70, sagging distance is determined, the shift motion of the first roller bracket 7 should be less than the width of the second conveyer belt 6, the 3rd conveyer belt 8;

Peeler part: manufacture the second track 72 and lay on the ground, the second castor 71, fixing chopper 16, mobile chopper seat 19, lever 59, the first motor 62 are installed in peeler frame 66, the second castor 71 is engaged with the second track 72, and peeler frame 66 left ends are connected with crude wood rotary cutter 93 movable stands, under the acting in conjunction of crude wood rotary cutter 93 movable stands and the second castor 71, peeler frame 66 moves left and right on the second track 72, on the first motor 62, setting-up eccentricity wheel 61 is installed the second pull bar 60 between eccentric wheel 61 and lever 59, between lever 59 and mobile chopper seat 19, the first pull bar 58 is installed, and mobile chopper 18 is installed on mobile chopper seat 19, under the effect of the first motor 62, mobile chopper seat 19 drives mobile chopper 18 to move up and down in peeler frame 66, the second motor the 79, the 22 roller the 84, the 19 roller 70 is installed in peeler frame 66, in the 22 roller 84 ends, the 6th sprocket wheel 83, the 5th gear the 83, the 13 sprocket wheel 107 are installed, the 5th sprocket wheel 80 is installed on the second motor 79, between the 5th sprocket wheel 80 and the 6th sprocket wheel 83, install between the second chain 81, the 22 roller the 84 and the 19 rollers 70 the tenth conveyer belt 67 is installed, the 4th roller 11, the 5th roller 12, the 6th roller the 17, the 17 roller 64 are installed in peeler frame 66, in the 17 roller 64 ends, the 3rd gear 15 is installed, the 3rd gear 15 engages with the 5th gear 83, make the 17 roller the 64 and the 22 roller 84 switched in opposite, between the 17 roller 64 and the 4th roller 11, the 5th roller 12 and the 6th roller 17, the 4th conveyer belt 14 is installed, in peeler frame, the 16 roller 63 is installed on 66, the second sensor stand 65, the 3rd sensor stand 68, the 12 sprocket wheel 105 and second roller submounts 20 are installed in end at the 16 roller 63, between the 12 sprocket wheel the 105 and the 13 sprocket wheel 107, the 7th chain 106 is installed, the second photoelectric sensor 13 is installed on the second sensor stand 65, the first photoelectric sensor 10 is installed on the 3rd sensor stand 68, the 8th roller 23 is installed on second roller submounts 20, the first castor 24, between the 16 roller 63 and the 8th roller 23, the 5th conveyer belt 21 is installed, second roller submounts 20 is realized motion on the first track 56 in grader frame 54 by the first castor 24, because mobile chopper 18 the tenth conveyer belt 67, the 5th conveyer belt 21, the 4th conveyer belt 14 in the time cutting up with a hay cutter skin process (moving up and down) are static, the first conveyer belt 2 moves, therefore speed when the tenth conveyer belt 67, the 5th conveyer belt 21, the 4th conveyer belt 14 turn round is: the speed of V1, T1 in V=V1*T1/ (T1-T2) formula---the first conveyer belt 2, the time of transmitting a single-skin drum, T2---the time that mobile chopper 18 moves up and down.In practicality, realize easily above-mentioned speed by control case 39 able to programme;

Grader part: the 7th roller 22 is installed in grader frame 54, the 15 roller 55, the 13 roller 44, the 11 roller 49, three-motor 92, the 8th sprocket wheel 91 is installed on three-motor 92, in the 11 roller 49 ends, duplex chain wheel 89 is installed, the 4th sprocket wheel 43 is installed on the 13 roller 44, the 7th sprocket wheel 86, the 4th chain 90 is installed between the 8th sprocket wheel 91 and duplex chain wheel 89, between duplex chain wheel 89 and the 7th sprocket wheel 86, the 3rd chain 88 is installed, between the 7th roller the 22 and the 15 roller 55, the 6th conveyer belt 26 is installed, between the 15 roller the 55 and the 11 roller 40, the 9th conveyer belt 53 is installed, the 13 roller 44 supports the 9th conveyer belt 53, manufacture second roller submounts 46, the 9th roller the 27, the 14 roller 45 is installed on second roller submounts 46, install between the first sprocket wheel 32, the nine roller the 27 and the 14 rollers 45 the 7th conveyer belt 31 is installed in the 14 roller 45 ends, manufacture the 3rd roller bracket 36, the 12 roller 42, the tenth roller 38 are installed on the 3rd roller bracket 36, install between the 3rd sprocket wheel 35, the 12 rollers 42 and the tenth roller 38 the 8th conveyer belt 41 is installed in the 12 roller 42 ends, the first cylinder 28, the second cylinder 37, the second guide pillar 85, the 3rd guide pillar 87, the second sprocket wheel 33 are installed in grader frame 54, second roller submounts 46 left ends and the first cylinder 28 are installed together, right-hand member and the 3rd guide pillar 87 are installed together, under the effect of the first cylinder 28, second roller submounts 46, taking the 3rd guide pillar 87 as fulcrum, swings up and down, the 3rd roller bracket 36 left ends and the second guide pillar 85 are installed together, and right-hand member and the second cylinder 37 are installed together, and under the effect of the second cylinder 37, the 3rd roller bracket 36, taking the second guide pillar 85 as fulcrum, swings up and down, between the first sprocket wheel 32, the second sprocket wheel 33, the 3rd sprocket wheel 35 and the 4th sprocket wheel 43, the first chain 34 is installed, gas blow pipe 104, the first track 56, first sensor support 57 are installed in grader frame 54, the 3rd photoelectric sensor 25 is installed on first sensor support 57,

Lifting platform part: manufacture holder 49, the 4th motor 99, dextrorotation leading screw 94, left-handed leading screw 103, four-sensor support 108 are installed on holder 49, the tenth sprocket wheel 98 is installed on the 4th motor 99; Dextrorotation leading screw 94, left-handed leading screw 103 are arranged on holder 49 together with rolling bearing units 93, dextrorotation is installed on dextrorotation leading screw 94 and fastens nut 95, the 9th sprocket wheel the 96, the 11 sprocket wheel 100, left-handed fastening nut 102 is installed on left-handed leading screw 103, the 11 sprocket wheel 100 and the 6th chain 101 are installed between dextrorotation leading screw 94 and left-handed leading screw 103, link into an integrated entity, the tenth sprocket wheel 98 and and the 9th sprocket wheel 96 between the 5th chain 97 is installed; Fasten on nut 95, left-handed fastening nut 102 hinged bar 52 is installed in dextrorotation, hinged pin 51, the 4th gear 48 are installed on hinged bar 52; On the 4th gear 48, lifter plate 50 is installed, tooth bar 47 is installed on lifter plate 50, tooth bar 47 engages with the 4th gear 48; The 4th photoelectric sensor 109 is installed on four-sensor support 108;

After mechanical part installs, tracheae 29 is connected to the first cylinder 28, the second cylinder 37, the 3rd cylinder 76, gas blow pipe 104 and solenoid directional control valve 30, be connected on air compressor machine together with other pneumatic element, after encoder 75, the first photoelectric sensor 10, the second photoelectric sensor 13, the 3rd photoelectric sensor 25, the 4th photoelectric sensor 109, solenoid directional control valve 30 line arrangements is good, be connected on control case 39 able to programme, it is complete that all machines are made assembling.

Above-described embodiment 1 only illustrates the case of two finished product classification stations, as the classification of a finished product grade of needs, need to remove in grader part (Fig. 1) the 3rd roller bracket 3 grading plants such as grade on the right side.

Above-described embodiment 1 only illustrates case when the utility model is used for the auxiliary machinery of log rotary veneer machine, and by the separately application separately of grader part, control case able to programme, lifting platform part, the utility model can be used for the automatic classification subsidiary engine of veneer slicer.

The job order that thin skin veneer of the present utility model cuts up with a hay cutter skin classifying integrated machine is automatically: whole the veneer screwing off through log rotary veneer machine is under the effect of the first roller, pass to the 3rd conveyer belt through the first conveyer belt, the second conveyer belt, under the 3rd conveyer belt and the clamping of the second conveyer belt, whole veneer delivered to the tenth conveyer belt, the tenth conveyer belt is at the second motor, under the effect of the 22 roller, whole veneer continued to transmit, in the time that the first photoelectric sensor has sensed that veneer passes through, send signal to control case able to programme, control case able to programme sends instruction to solenoid directional control valve, the 3rd return hydraulic cylinder, drive the 3rd conveyer belt to depart from whole veneer, along with whole veneer moves on, whole veneer of the common clamping of the 4th conveyer belt and the tenth conveyer belt advances, in the time that the second photoelectric sensor has sensed that veneer passes through, send signal to control case able to programme, at encoder and control case able to programme according to the veneer width of setting, instruction the second motor stops operating, and the first motor start-up of instruction simultaneously, drives mobile chopper that whole veneer cut up with a hay cutter into individual veneer, in the time that the second motor stops operating, whole the veneer that log rotary veneer machine screws off continues through the first conveyer belt transmission, between the 20 roller and the 19 roller, naturally droops, after mobile chopper backhaul, control case able to programme sends instruction, the second motor start-up, the veneer having cut up with a hay cutter is sent to the 6th conveyer belt along the 5th conveyer belt under the effect of the 16 roller, under the effect of three-motor, accelerate rapidly, make distance between veneer and veneer enlarge to the distance of setting, under the first cylinder, the second cylinder normality in progressive position, in the time that the 3rd photoelectric sensor senses that the veneer of appropriate level passes through, send signal to control case able to programme, control case able to programme sends instruction to solenoid directional control valve, in the time that one-level veneer passes through, the first cylinder, the second cylinder are failure to actuate, veneer continues to transmit under the clamping of the 9th conveyer belt and the 7th conveyer belt, then veneer continues to be sent to the position of appointment under the clamping of the 9th conveyer belt and the 8th conveyer belt, the second cylinder backhaul, the gas blow pipe of this station is blown simultaneously, and veneer is fallen on lifting platform, the second cylinder resets, and air blowing stops, in the time that secondary veneer passes through, the first cylinder, the second cylinder are failure to actuate, and veneer continues to be sent to the position of appointment under the clamping of the 9th conveyer belt and the 7th conveyer belt, the first cylinder backhaul, and the gas blow pipe of this station is blown simultaneously, and veneer is fallen on lifting platform, the first cylinder resets, and air blowing stops, in the time that three grades of veneers pass through, the first return hydraulic cylinder, the second cylinder are failure to actuate, and veneer falls naturally at the 6th conveyer belt afterbody, in the time that whole single-skin drum passes through the first photoelectric sensor completely, send signal to control case able to programme, control case able to programme sends instruction to solenoid directional control valve, and the 3rd cylinder resets, and whole circulation finishes, the plate quantity that falls that lifting platform is surveyed according to the 4th photoelectric sensor, control case able to programme control the 4th motor starts or stops according to the data of setting, and realizes the automatic lifting of lifter plate, has completed the object of the utility model full automatic grading.

Claims (1)

1. thin skin veneer cuts up with a hay cutter skin classifying integrated machine automatically, it is characterized in that, it comprises peeler part, grader part, control case able to programme, connects transition portion, lifting platform part;

Described connection transition portion, comprises the 20 roller (73) in peeler frame (66), and the 20 roller (73) is connected with the first roller (1) on crude wood rotary cutter (93) by the first conveyer belt (2); Establish respectively the 21 roller (74) and the first gear (3) at the 20 roller (73) two ends, establish encoder (75) in one end of the 20 roller (73); In peeler frame (66), establish the 3rd cylinder (76), the first guide pillar (77), the second roller (5), the 3rd roller (9); Establish the second gear (4) in the end of the second roller (5), engage with the first gear (3), the second roller (5) is connected with the 3rd roller (9) by the second conveyer belt (6); Establish the first roller bracket (7) at the 21 roller (74) two ends, the 3rd cylinder (76) is connected with the first roller bracket (7), establishes the 18 roller (69), guide pin bushing (78) on the first roller bracket (7); The 21 roller (74) is connected with the 18 roller (69) by the 3rd conveyer belt (8); The first guide pillar (77) packs guide pin bushing (78) into, and the first roller bracket (7), under the 3rd cylinder (76) effect, moves forward and backward along the spline on the 20 roller (73) and the first guide pillar (77);

Described peeler part, comprise the second track (72), establish peeler frame (66) in the second track (72) top, in peeler frame (66), establish the second castor (71), the second castor (71) engages with the second track (72), peeler frame (66) left end is connected with crude wood rotary cutter (93) movable stand, and under the acting in conjunction of crude wood rotary cutter (93) movable stand and the second castor (71), peeler frame (66) moves left and right on the second track (72), in peeler frame (66), establish fixing chopper (16), mobile chopper seat (19), lever (59), the first motor (62), on the first motor (62), establish eccentric wheel (61), eccentric wheel (61) is connected with lever (59) by the second pull bar (60), lever (59) is connected with mobile chopper seat (19) by the first pull bar (58), on mobile chopper seat (19), establish mobile chopper (18), under the effect of the first motor (62), mobile chopper seat (19) drives mobile chopper (18) to move up and down in peeler frame (66), in peeler frame (66), establish the second motor (79), the 22 roller (84), the 19 roller (70), on the second motor (79), establish the 5th sprocket wheel (80), establish respectively the 6th sprocket wheel (82), the 5th gear (83), the 13 sprocket wheel (107) at the 22 roller (84) two ends, the 5th sprocket wheel (80) is connected with the 6th sprocket wheel (82) by the second chain (81), and the 22 roller (84) is connected with the 19 roller (70) by the tenth conveyer belt (67), in peeler frame (66), establish the 4th roller (11), the 5th roller (12), the 6th roller (17), the 17 roller (64), establish the 3rd gear (15) in the 17 roller (64) end, the 3rd gear (15) engages with the 5th gear (83), make the 17 roller (64) and the 22 roller (84) switched in opposite, the 17 roller (64) links with the 4th roller (11), the 5th roller (12) and the 6th roller (17) by the 4th conveyer belt (14), in peeler frame (66), establish the second sensor stand (65), the 3rd sensor stand (68), on the second sensor stand (65), establish the second photoelectric sensor (13), on the 3rd sensor stand (68), establish the first photoelectric sensor (10), in peeler frame (66), establish the 16 roller (63), establish the 12 sprocket wheel (105) and second roller submounts (20) in the end of the 16 roller (63), the 12 sprocket wheel (105) is connected with the 13 sprocket wheel (107) by the 7th chain (106), on second roller submounts (20), establish the 8th roller (23) and the first castor (24), the 16 roller (63) is connected with the 8th roller (23) by the 5th conveyer belt (21), second roller submounts (20) is realized the upper motion of the first track (56) in grader frame (54) by the first castor (24),

Described grader part, comprise grader frame (54), in grader frame (54), establish the 7th roller (22), the 15 roller (55), the 13 roller (44), the 11 roller (40), three-motor (92), on three-motor (92), establish the 8th sprocket wheel (91), establish duplex chain wheel (89) in the 11 roller (40) end, on the 13 roller (44), establish the 4th sprocket wheel (43), the 7th sprocket wheel (86), the 8th sprocket wheel (91) is connected with duplex chain wheel (89) by the 4th chain (90), duplex chain wheel (89) is connected with the 7th sprocket wheel (86) by the 3rd chain (88), the 7th roller (22) is connected with the 15 roller (55) by the 6th conveyer belt (26), the 15 roller (55) is connected with the 11 roller (40) by the 9th conveyer belt (53), the 13 roller (44) supports the 9th conveyer belt (53), second roller submounts (46) is installed, on second roller submounts (46), establish the 9th roller (27), the 14 roller (45), establish the first sprocket wheel (32) in the 14 roller (45) end, the 9th roller (27) is connected with the 14 roller (45) by the 7th conveyer belt (31), in grader frame (54), establish the first cylinder (28), the 3rd guide pillar (87), the second sprocket wheel (33), second roller submounts (46) left end is connected with the first cylinder (28), right-hand member is connected with the 3rd guide pillar (87), under the effect of the first cylinder (28), second roller submounts (46), taking the 3rd guide pillar (87) as fulcrum, swings up and down, the 3rd roller bracket (36) is installed, on the 3rd roller bracket (36), establish the 12 roller (42), the tenth roller (38), establish the 3rd sprocket wheel (35) in the 12 roller (42) end, the 12 roller (42) is connected with the tenth roller (38) by the 8th conveyer belt (41), in grader frame (54), establish the second cylinder (37), the second guide pillar (85), the 3rd roller bracket (36) left end is connected with the second guide pillar (85), right-hand member is connected with the second cylinder (37), under the effect of the second cylinder (37), the 3rd roller bracket (36), taking the second guide pillar (85) as fulcrum, swings up and down, the first sprocket wheel (32), the second sprocket wheel (33), the 3rd sprocket wheel (35), the 4th sprocket wheel (43) connect by the first chain (34), in grader frame (54), establish gas blow pipe (104), the first track (56), first sensor support (57), on first sensor support (57), establish the 3rd photoelectric sensor (25),

Described lifting platform part, comprise holder (49), on holder (49), establish the 4th motor (99), dextrorotation leading screw (94), left-handed leading screw (103), four-sensor support (108), on the 4th motor (99), establish the tenth sprocket wheel (98); On dextrorotation leading screw (94), establish dextrorotation and fasten nut (95), the 9th sprocket wheel (96), the 11 sprocket wheel (100), on left-handed leading screw (103), establish left-handed fastening nut (102), dextrorotation leading screw (94) links into an integrated entity with left-handed leading screw (103) by the 11 sprocket wheel (100), the 6th chain (101), and the tenth sprocket wheel (98) is connected with the 9th sprocket wheel (96) by the 5th chain (97); Fasten on nut (95), left-handed fastening nut (102) and establish hinged bar (52) in dextrorotation, on hinged bar (52), establish hinged pin (51), the 4th gear (48); On the 4th gear (48), lifter plate (50) is installed, is established tooth bar (47) on lifter plate (50), tooth bar (47) engages with the 4th gear (48); On four-sensor support (108), establish the 4th photoelectric sensor (109);

Described control case able to programme, the first cylinder (28), the second cylinder (37), the 3rd cylinder (76), gas blow pipe (104) are by tracheae (29) and the external air compressor machine of solenoid directional control valve (30), and encoder (75), the first photoelectric sensor (10), the second photoelectric sensor (13), the 3rd photoelectric sensor (25), the 4th photoelectric sensor (109), solenoid directional control valve (30) circuit are connected on control case able to programme (39).

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