CN112917617B

CN112917617B - Log board making equipment for wood processing

Info

Publication number: CN112917617B
Application number: CN202110133530.3A
Authority: CN
Inventors: 宋占海
Original assignee: Individual
Current assignee: Shuangpai County Shuangshun Wood Industry Co.,Ltd.
Priority date: 2021-02-01
Filing date: 2021-02-01
Publication date: 2022-08-09
Anticipated expiration: 2041-02-01
Also published as: CN112917617A

Abstract

The invention relates to a log board making device, in particular to a log board making device for wood processing, which comprises a conveying rotating mechanism, a cutting mechanism and a cutting mechanism, wherein the device can convey cylindrical logs and fix two ends of the logs, can rotate the logs when fixing the logs, can cut barks on the logs when rotating the logs, can cut the logs into boards, is connected with the cutting mechanism, and is connected with the cutting mechanism which is connected with the cutting mechanism.

Description

Log board making equipment for wood processing

Technical Field

The invention relates to a log board making device, in particular to a log board making device for wood processing.

Background

When cylindrical log is used for manufacturing boards, the process flow is more complicated and more personnel are needed to cooperate to complete the work, but no better log board manufacturing equipment exists in the market, so the log board manufacturing equipment for wood processing is designed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a log board making device for wood processing, which can convey cylindrical logs and fix both ends of the logs, rotate the logs when fixing the logs, cut off barks on the logs when rotating the logs, and cut the logs into boards.

In order to solve the technical problems, the invention relates to a log board making device, in particular to a log board making device for wood processing, which comprises a conveying rotating mechanism, a cutting mechanism and a cutting mechanism, wherein the device can convey cylindrical logs and fix two ends of the logs, the device can rotate the logs when fixing the logs, the device can cut off barks on the logs when rotating the logs, and the device can cut the logs into boards.

The conveying rotating mechanism is connected with the cutting mechanism, and the cutting mechanism is connected with the cutting mechanism.

As a further optimization of the technical scheme, the invention relates to log board making equipment for wood processing, which comprises a motor, a motor shaft, a belt a, a connecting shaft a, a conveyor belt, a connecting shaft b, a belt b, a connecting shaft c, a bevel gear a, a bevel gear b, a connecting shaft d, a connecting plate a, a belt c, a connecting shaft e, a conical friction wheel a, a conical friction wheel b, a connecting shaft f, a gear a, a gear b, a connecting shaft g, a belt d, a connecting shaft h, a conical rotating wheel, a connecting plate b, a connecting plate c, an inclined block, an equipment installation box, an equipment installation plate and a log, wherein the motor is connected with the motor shaft, the motor is connected with the equipment installation box, the motor shaft is connected with the belt a in a friction way, the connecting shaft a is connected with the belt b in a friction way, the connecting shaft a is connected with a connecting plate b through a bearing, and the connecting plate a is connected with a connecting plate c through a bearing, the connecting shaft a is connected with a bearing of an equipment installation box, the conveyor belt is connected with the connecting shaft b in a friction mode, the connecting shaft b is connected with a bearing of a connecting plate b, the connecting shaft b is connected with the bearing of the equipment installation box, the belt b is connected with the connecting shaft c in a friction mode, the connecting shaft c is connected with a bevel gear a, the connecting shaft c is connected with the bearing of the equipment installation box, the bevel gear a is meshed with the bevel gear b, the bevel gear b is connected with a connecting shaft d, the connecting shaft d is connected with the connecting plate a in a threaded mode, the connecting shaft d is connected with a conical friction wheel a, the connecting plate a is connected with the equipment installation box, one end of the belt c is connected with the connecting shaft d in a friction mode, the other end of the belt c is connected with a connecting shaft e in a friction mode, the connecting shaft e is connected with the equipment installation box in a threaded mode, the conical friction wheel a is connected with the conical friction wheel b, the conical friction wheel b is connected with a connecting shaft f, and the connecting shaft f is connected with the gear a, the connecting shaft f is connected with a connecting plate c through a bearing, the gear a is meshed with the gear b, the gear b is connected with a connecting shaft g, the connecting shaft g is connected with a belt d through friction, the connecting shaft g is connected with a connecting plate c through a bearing, the belt d is connected with a connecting shaft h through friction, the connecting shaft h is connected with a conical rotating wheel, the connecting shaft h is connected with a connecting plate c through a bearing, the connecting shaft h is connected with an equipment installation box through a bearing, the connecting plate b is connected with an equipment installation box, the connecting plate b is connected with the equipment installation box, the connecting plate c is connected with the equipment installation box, the inclined block is connected with the equipment installation box, and the equipment installation box is connected with the equipment installation box.

As a further optimization of the technical scheme, the invention relates to a log board making device for wood processing, wherein a cutting mechanism comprises a belt I, a connecting shaft I, a belt II, a rubber belt, a connecting shaft II, a sliding knife groove, a sliding knife, a knife groove limiting plate, a pressing plate A, a pressing shaft A, a pressing spring A, a pressing plate B, a pressing shaft B, a pressing plate C, a pressing spring B, a friction pressing wheel, a linkage pressing shaft and a linkage pressing plate, wherein the belt I is in friction connection with the connecting shaft I, the belt I is in friction connection with a motor shaft, the connecting shaft I is in friction connection with the belt II, the connecting shaft I is connected with a device installation box bearing, the belt II is connected with the rubber belt, the belt II is in friction connection with the connecting shaft II, the connecting shaft II is connected with a device installation box bearing, the sliding knife groove is in sliding connection with the sliding knife, the sliding knife groove is connected with the knife groove limiting plate, and the sliding knife groove is in sliding connection with the device installation box, the sliding knife is connected with the pressing plate a in a sliding way, the sliding knife is connected with the equipment installation box in a sliding way, the knife groove limiting plate is connected with the equipment installation box in a sliding way, the pressing plate a close to the sliding knife is connected with the pressing shaft a, the other pressing plate a is connected with the pressing shaft a in a sliding way, the pressing plate a close to the sliding knife is connected with the equipment installation box in a sliding way, the other pressing plate a is connected with the equipment installation box, the pressing spring a is sleeved on the pressing shaft a and limited on the two pressing plates a, the pressing plate b is connected with the pressing shaft b, the pressing plate b is connected with the equipment installation box in a sliding way, the pressing shaft b is connected with the pressing plate c in a sliding way, the pressing plate c is connected with the equipment installation box, the pressing spring b is sleeved on the pressing shaft b and limited on the pressing plate b and the pressing plate c, the friction pressing wheel is connected with the connecting shaft d, the friction pressing wheel is connected with the linkage pressing shaft in a friction way, the linkage pressing shaft is connected with the linkage pressing plate, the linkage pressing shaft is connected with the equipment installation box in a sliding mode.

As a further optimization of the technical scheme, the invention relates to log plate-making equipment for wood processing, which comprises a motor I, a motor shaft I, a cutting belt, a cutting shaft A, a cam, an installation plate a, an installation plate b, an installation plate c, a cutting saw, an installation plate d, an installation plate e, a saw blade reset spring, a linkage wheel, a cutting shaft B, a linkage belt, a rubber belt b, a cutting shaft C, a pressing shaft I, a pressing plate I, a pressing spring I, a pressing plate II, a pressure bearing plate, a pressing shaft II, a pressing limiting ring I, a pressing spring II, a cutting shaft d and a cutting belt A, wherein the motor I is connected with the motor shaft I which is connected with the installation plate a, the motor shaft I is connected with the cutting belt in a friction way, the cutting belt is connected with the cutting shaft A in a friction way, the cutting shaft A is connected with the cam, the cutting shaft A is connected with a bearing of the installation plate a, the cutting shaft A is connected with a bearing of the installation plate b, the cutting shaft a is connected with a cutting belt a in a friction mode, the cam is connected with a mounting plate c in a sliding mode, the mounting plate a is connected with a cutting shaft d bearing, the mounting plate a is connected with an equipment mounting box, the mounting plate b is connected with a cutting shaft d bearing, the mounting plate b is connected with the equipment mounting box, the mounting plate c is connected with a cutting saw, the cutting saw is connected with a mounting plate d, the cutting saw is connected with the equipment mounting box in a sliding mode, one end of a saw blade reset spring is connected with a mounting plate e, the other end of the saw blade reset spring is connected with the equipment mounting box, a linkage wheel is connected with the cutting shaft b, the linkage wheel is connected with the cutting belt a in a friction mode, the cutting shaft b is connected with a linkage belt in a friction mode, the linkage belt is connected with the cutting shaft c in a friction mode, the cutting shaft c is connected with the equipment mounting box bearing, the pressing shaft I is connected with a pressing plate I in a sliding mode, the pressing shaft I is connected with a pressing plate II, and the pressing plate I is connected with the equipment mounting box, the first compression spring is sleeved on the first compression shaft and limited on the first compression plate and the second compression plate, the bearing plate is connected with the second compression shaft, the bearing plate is connected with the equipment installation box in a sliding mode, the second compression shaft is connected with the first compression limiting ring, the second compression spring is sleeved on the second compression shaft and limited on the first compression limiting ring and the equipment installation box, and the cutting shaft d is in friction connection with the cutting belt a.

The log board making equipment for wood processing has the beneficial effects that:

the invention relates to a log board making device for wood processing, which can convey cylindrical logs and fix both ends of the logs, rotate the logs when fixing the logs, cut off barks on the logs when rotating the logs, and cut the logs into boards.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first schematic structural view of a log-to-board apparatus for wood processing according to the present invention.

Fig. 2 is a schematic structural view of a log board making apparatus for wood processing according to the present invention.

Fig. 3 is a first schematic structural view of a conveying and rotating mechanism 1 of a log board making apparatus for wood processing according to the present invention.

Fig. 4 is a second schematic structural view of the conveying and rotating mechanism 1 of the log board making device for wood processing of the present invention.

Fig. 5 is a third schematic structural view of the conveying and rotating mechanism 1 of the log board making apparatus for wood processing according to the present invention.

Fig. 6 is a fourth schematic structural view of the conveying and rotating mechanism 1 of the log board making apparatus for wood processing according to the present invention.

Fig. 7 is a fifth schematic structural view of the conveying and rotating mechanism 1 of the log board making apparatus for wood processing according to the present invention.

Fig. 8 is a sixth schematic structural view of the conveying and rotating mechanism 1 of the log board making apparatus for wood processing according to the present invention.

Fig. 9 is a first schematic structural view of the cutting mechanism 2 of the log-board making apparatus for wood processing according to the present invention.

Fig. 10 is a second schematic structural view of the cutting mechanism 2 of the log board making apparatus for wood processing according to the present invention.

Fig. 11 is a third schematic structural view of the cutting mechanism 2 of the log-board making apparatus for wood processing according to the present invention.

Fig. 12 is a fourth schematic structural view of the cutting mechanism 2 of the log-board making apparatus for wood processing of the present invention.

Fig. 13 is a fifth schematic structural view of the cutting mechanism 2 of the log-board making apparatus for wood processing according to the present invention.

Fig. 14 is a first schematic structural view of a cutting mechanism 3 of a log-board making apparatus for wood processing according to the present invention.

Fig. 15 is a second schematic structural view of the cutting mechanism 3 of the log board making device for wood processing of the present invention.

Fig. 16 is a third schematic structural view of the cutting mechanism 3 of the log-board making apparatus for wood processing according to the present invention.

Fig. 17 is a fourth schematic structural view of the cutting mechanism 3 of the log-board making apparatus for wood processing of the present invention.

Fig. 18 is a fifth schematic structural view of the cutting mechanism 3 of the log-board making apparatus for wood processing of the present invention.

Fig. 19 is a sixth schematic structural view of the cutting mechanism 3 of the log-board making apparatus for wood working according to the present invention.

In the figure: a transfer rotating mechanism 1; a motor 1-1; a motor shaft 1-2; belt a 1-3; connecting shaft a 1-4; a conveyor belt 1-5; connecting shaft b 1-6; belt b 1-7; connecting shaft c 1-8; bevel gear a 1-9; bevel gear b 1-10; connecting shaft d 1-11; connection board a 1-12; belt c 1-13; connecting shaft e 1-14; a conical friction wheel a 1-15; conical friction wheels b 1-16; connecting shaft f 1-17; gear a 1-18; gear b 1-19; connecting shaft g 1-20; belts d 1-21; connecting shafts h 1-22; a conical rotating wheel 1-23; connecting plate b 1-24; connecting plates c 1-25; inclined blocks 1-26; equipment installation boxes 1-27; equipment mounting plates 1-28; a cutting mechanism 2; 2-1 of a first belt; a first connecting shaft 2-2; 2-3 parts of a second belt; 2-4 parts of rubber belt; connecting shafts II 2-5; 2-6 of a sliding cutter groove; 2-7 parts of a sliding blade; the cutter groove limiting plate is 2-8; compression paddle a 2-9; the pressing shaft a 2-10; pressing spring a 2-11; compression paddle b 2-12; the pressing shaft b 2-13; compression paddle c 2-14; pressing spring b 2-15; 2-16 of friction compression wheel; 2-17 of linkage pressing shaft; linkage compression plates 2-18; a cutting mechanism 3; 3-1 of a first motor; a motor shaft I3-2; cutting the belt 3-3; cutting axis a 3-4; 3-5 of a cam; mounting plate a 3-6; mounting plate b 3-7; mounting plate c 3-8; 3-9 parts of a cutting saw; mounting plate d 3-10; mounting plate e 3-11; 3-12 parts of a saw blade return spring; 3-13 of a linkage wheel; cutting axis b 3-14; 3-15 of a linkage belt; rubber belts b 3-16; cutting axis c 3-17; pressing the first shaft 3-18; 3-19 parts of a compression plate I; pressing a first spring 3-20; 3-21 parts of a second compression plate; pressure bearing plates 3-22; pressing the second shaft 3-23; pressing the first limiting ring by 3-24; a second compression spring 3-25; cutting axis d 3-26; cutting belts a 3-27.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present invention relates to a log-to-board apparatus, and more particularly, to a log-to-board apparatus for wood processing, which includes a conveying and rotating mechanism 1, a cutting mechanism 2, and a cutting mechanism 3, and which is capable of conveying cylindrical logs and fixing both ends of the logs, rotating the logs while fixing the logs, cutting barks on the logs while rotating, and cutting the logs into boards.

The conveying rotating mechanism 1 is connected with the cutting mechanism 2, the conveying rotating mechanism 1 is connected with the cutting mechanism 3, and the cutting mechanism 2 is connected with the cutting mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the embodiment further describes the embodiment, where the conveying and rotating mechanism 1 includes a motor 1-1, a motor shaft 1-2, a belt a1-3, a connecting shaft a1-4, a conveyor belt 1-5, a connecting shaft b1-6, a belt b1-7, a connecting shaft c1-8, a helical gear a1-9, a helical gear b1-10, a connecting shaft d1-11, a connecting plate a1-12, a belt c1-13, a belt e1-14, a tapered friction wheel a1-15, a tapered friction wheel b1-16, a f1-17, a gear a1-18, a connecting shaft b 8652-18, and a connecting shaft b 8613, Gear b1-19, connecting shaft g1-20, belt d1-21, connecting shaft h1-22, conical rotating wheel 1-23, connecting plate b1-24, connecting plate c1-25, inclined block 1-26, equipment installation box 1-27, equipment installation plate 1-28, log 1-29, motor 1-1 is connected with motor shaft 1-2, motor 1-1 is connected with equipment installation box 1-27, motor shaft 1-2 is connected with belt a1-3 in a friction mode, belt a1-3 is connected with connecting shaft a1-4 in a friction mode, connecting shaft a1-4 is connected with belt b1-7 in a friction mode, connecting shaft a1-4 is connected with connecting plate b1-24 in a bearing mode, connecting shaft a1-4 is connected with connecting plate c1-25 in a bearing mode, connecting shaft a1-4 is connected with equipment installation box 1-27 in a bearing mode, the transmission belt 1-5 is in frictional connection with a connecting shaft b1-6, the connecting shaft b1-6 is in bearing connection with a connecting plate b1-24, the connecting shaft b1-6 is in bearing connection with a connecting plate c1-25, the connecting shaft b1-6 is in bearing connection with an equipment installation box 1-27, the belt b1-7 is in frictional connection with a connecting shaft c1-8, the connecting shaft c1-8 is in bearing connection with a helical gear a1-9, the connecting shaft c1-8 is in bearing connection with an equipment installation box 1-27, the helical gear a1-9 is meshed with the helical gear b1-10, the helical gear b1-10 is in connection with a connecting shaft d1-11, the connecting shaft d1-11 is in threaded connection with a connecting plate a1-12, the connecting shaft d1-11 is in connection with a conical friction wheel a1-15, the connecting plate a1-12 is in connection with the equipment installation box 1-27, one end of a belt c1-13 is in frictional connection with a connecting shaft d1-11, the other end of the belt c1-13 is in frictional connection with a connecting shaft e1-14, the connecting shaft e1-14 is in threaded connection with an equipment installation box 1-27, a conical friction wheel a1-15 is in frictional connection with a conical friction wheel b1-16, the conical friction wheel b1-16 is connected with a connecting shaft f1-17, the connecting shaft f1-17 is connected with a gear f 1-18, the connecting shaft f1-17 is in bearing connection with a connecting plate c1-25, the gear a1-18 is meshed with a gear b1-19, the gear b1-19 is connected with a connecting shaft g1-20, the connecting shaft g1-20 is in frictional connection with the belt d1-21, the connecting shaft g1-20 is in bearing connection with a connecting plate c1-25, the belt d1-21 is in frictional connection with a connecting shaft h1-22, and the h1-22 is connected with a conical rotating wheel 1-23, the connecting shaft h1-22 is in bearing connection with a connecting plate c1-25, the connecting shaft h1-22 is in bearing connection with an equipment installation box 1-27, the connecting plate b1-24 is in bearing connection with an equipment installation box 1-27, the connecting plate b1-24 is in bearing connection with an equipment installation plate 1-28, the connecting plate c1-25 is in bearing connection with an equipment installation box 1-27, the inclined block 1-26 is in connection with an equipment installation plate 1-28, the equipment installation box 1-27 is in connection with an equipment installation plate 1-28, the equipment can convey cylindrical logs and fix two ends of the cylindrical logs, the equipment can rotate the logs when the logs are fixed, the motor 1-1 works to drive the motor shaft 1-2 to rotate, the motor shaft 1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the connecting shaft c1-8 to rotate through the belt b1-7, the connecting shaft c1-8 rotates to drive the connecting shaft d1-11 to rotate through the bevel gear a1-9 and the bevel gear b1-10, the connecting shaft d1-11 rotates to drive the connecting shaft e1-14 to rotate through the belt c1-13, the connecting shaft e1-14 rotates and transversely moves under the action of the threads on the connecting shaft e1-14, when the connecting shaft e1-14 transversely moves, the logs 1-29 which are placed on the inclined blocks 1-26 and are inclined to the equipment mounting plates 1-28 by the inclined blocks 1-26 can be transmitted to the direction of the conical rotating wheel 1-23, when the connecting shaft a1-4 rotates, the connecting shaft b1-6 is also driven to rotate through the conveyor belts 1-5, and the transmission of the logs 1-29 is facilitated, when the logs 1-29 are conveyed to be in contact with the conical rotating wheels 1-23, the relative positions of the logs 1-29 are fixed, the logs move towards the conical friction wheels b1-16 under the action of the threads on the connecting shaft d1-11 when the connecting shaft d1-11 rotates, the conical friction wheels a1-15 are driven to move when the connecting shaft d1-11 moves, the conical friction wheels a1-15 move to be in contact with the conical friction wheels b1-16, the conical friction wheels b1-16 are driven by the conical friction wheels a1-15 to rotate the conical friction wheels b1-16 to a limit position, the conical friction wheels b1-16 rotate to drive the connecting shaft f1-17 to rotate, the connecting shaft f1-17 rotates to drive the connecting shaft g1-20 to rotate through the gears a1-18 and b1-19, the connecting shaft g1-20 rotates to drive the connecting shaft h1-22 to rotate through the belts d1-21, the rotation of the connecting shaft h1-22 drives the rotation of the conical rotary wheel 1-23, and the rotation of the conical rotary wheel 1-23 drives the rotation of the log 1-29 restrained by the conical rotary wheel 1-23.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, where the cutting mechanism 2 includes a first belt 2-1, a first connecting shaft 2-2, a second belt 2-3, a rubber belt 2-4, a second connecting shaft 2-5, a sliding knife slot 2-6, a sliding knife 2-7, a knife slot limiting plate 2-8, a pressing plate a2-9, a pressing shaft a2-10, a pressing spring a2-11, a pressing plate b2-12, a pressing shaft b2-13, a pressing plate c2-14, a pressing spring b2-15, a friction pressing wheel 2-16, a linkage pressing shaft 2-17, a pressing shaft 2-17, and a pressing plate b, A linkage compression plate 2-18, a belt I2-1 is in frictional connection with a connecting shaft I2-2, the belt I2-1 is in frictional connection with a motor shaft 1-2, the connecting shaft I2-2 is in frictional connection with a belt II 2-3, the connecting shaft I2-2 is in bearing connection with an equipment installation box 1-27, the belt II 2-3 is in rubber belt 2-4, the belt II 2-3 is in frictional connection with a connecting shaft II 2-5, the connecting shaft II 2-5 is in bearing connection with an equipment installation box 1-27, a sliding knife slot 2-6 is in sliding connection with a sliding knife 2-7, the sliding knife slot 2-6 is in connection with a knife slot limiting plate 2-8, the sliding knife slot 2-6 is in sliding connection with the equipment installation box 1-27, the sliding knife 2-7 is in sliding connection with a compression plate a2-9, the sliding knife 2-7 is connected with the equipment installation box 1-27 in a sliding way, the knife groove limit plate 2-8 is connected with the equipment installation box 1-27 in a sliding way, the press plate a2-9 close to the sliding knife 2-7 is connected with the press shaft a2-10, the other press plate a2-9 is connected with the press shaft a2-10 in a sliding way, the press plate a2-9 close to the sliding knife 2-7 is connected with the equipment installation box 1-27 in a sliding way, the other press plate a2-9 is connected with the equipment installation box 1-27, the press spring a2-11 is sleeved on the press shaft a2-10 and limited on the two press plates a2-9, the press plate b2-12 is connected with the press shaft b2-13, the press plate b2-12 is connected with the equipment installation box 1-27 in a sliding way, the press shaft b2-13 is connected with the press plate c2-14 in a sliding way, the pressing plate c2-14 is connected with the equipment installation box 1-27, the pressing spring b2-15 is sleeved on the pressing shaft b2-13 and limited on the pressing plate b2-12 and the pressing plate c2-14, the friction pressing wheel 2-16 is connected with the connecting shaft d1-11, the friction pressing wheel 2-16 is connected with the linkage pressing shaft 2-17 in a friction mode, the linkage pressing shaft 2-17 is connected with the linkage pressing plate 2-18, the linkage pressing shaft 2-17 is connected with the equipment installation box 1-27 in a sliding mode, the equipment can cut off barks on logs when the logs rotate, the connecting shaft I2-2 is driven to rotate by the belt I2-1 when the motor shaft 1-2 rotates, the connecting shaft I2-2 rotates and the connecting shaft II 2-5 rotates by the belt II 2-3, the second belt 2-3 also drives the rubber belt 2-4 to move, when the rubber belt 2-4 moves to be in contact with the sliding knife groove 2-6, the sliding knife groove 2-6 is driven to move along, the sliding knife groove 2-6 can automatically reset under the action of the pressing plate b2-12, the pressing shaft b2-13, the pressing plate c2-14 and the pressing spring b2-15, namely the sliding knife groove 2-6 can transversely reciprocate, the sliding knife groove 2-6 moves to drive the sliding knife 2-7 to move, the relative height of the sliding knife 2-7 is limited under the action of the pressing spring a2-11, and at the moment, the logs 1-29 in rotation at the bottom of the sliding knife 2-7 can be cut by the sliding knife 2-7, namely, the barks on the logs 1-29 can be cut.

The fourth concrete implementation mode:

the first embodiment is further described by the first embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18 and 19. the cutting mechanism 3 comprises a motor 3-1, a motor shaft 3-2, a cutting belt 3-3, a cutting shaft a3-4, a cam 3-5, a mounting plate a3-6, a mounting plate b3-7, a mounting plate c3-8, a cutting saw 3-9, a mounting plate d3-10, a mounting plate e3-11, a blade return spring 3-12, a linkage wheel 3-13, a cutting shaft b3-14, a linkage belt 3-15, a rubber belt b3-16, a cutting shaft c3-17, a first pressing shaft 3-18, a second pressing shaft 3-2, 3-13, a cutting belt b3-14, a linkage belt 3-15, a rubber belt 3-16, a cutting shaft c3-17, a first pressing shaft 3-18, a second pressing belt 3-2, a cam 3-2, a cam 3-4, a cam, a, 3-19 parts of a first compression plate, 3-20 parts of a first compression spring, 3-21 parts of a second compression plate, 3-22 parts of a pressure bearing plate, 3-23 parts of a second compression shaft, 3-24 parts of a first compression limiting ring, 3-25 parts of a second compression spring, a cutting shaft d3-26 part and a cutting belt a3-27 part, wherein a first motor 3-1 part is connected with a first motor shaft 3-2 part, a first motor 3-1 part is connected with a mounting plate a3-6 part, a first motor shaft 3-2 part is connected with the cutting belt 3-3 part in a friction mode, the cutting belt 3-3 part is connected with a cutting shaft a3-4 part in a friction mode, the cutting shaft a3-4 part is connected with a cam 3-5 part, the cutting shaft a3-4 part is connected with a3-6 part of the mounting plate a, the cutting shaft a3-4 part is connected with a 3-7 part of the mounting plate b3 part in a bearing mode, the cutting shaft a3-4 part is connected with a3-27 part in a friction mode, the cam 3-5 is connected with a mounting plate c3-8 in a sliding way, a mounting plate a3-6 is connected with a cutting shaft d3-26 in a bearing way, a mounting plate a3-6 is connected with an equipment mounting box 1-27, a mounting plate b3-7 is connected with a cutting shaft d3-26 in a bearing way, a mounting plate b3-7 is connected with an equipment mounting box 1-27, a mounting plate c3-8 is connected with a cutting saw 3-9, a cutting saw 3-9 is connected with a mounting plate d3-10, a cutting saw 3-9 is connected with an equipment mounting box 1-27 in a sliding way, one end of a saw blade return spring 3-12 is connected with a mounting plate e3-11, the other end is connected with an equipment mounting box 1-27, a linkage wheel 3-13 is connected with a cutting shaft b3-14, a linkage wheel 3-13 is connected with a cutting belt a3-27 in a friction way, the cutting shaft b3-14 is in friction connection with the linkage belt 3-15, the linkage belt 3-15 is in friction connection with the cutting shaft c3-17, the linkage belt 3-15 is connected with the rubber belt b3-16, the cutting shaft c3-17 is in bearing connection with the equipment installation box 1-27, the compression shaft I3-18 is in sliding connection with the compression plate I3-19, the compression shaft I3-18 is connected with the compression plate II 3-21, the compression plate I3-19 is connected with the equipment installation box 1-27, the compression spring I3-20 is sleeved on the compression shaft I3-18 and limited on the compression plate I3-19 and the compression plate II 3-21, the pressure bearing plate 3-22 is connected with the compression shaft II 3-23, the pressure bearing plate 3-22 is in sliding connection with the equipment installation box 1-27, the compression shaft II 3-23 is in compression connection with the limiting ring I3-24, the second compression spring 3-25 is sleeved on the second compression shaft 3-23 and limited on the first compression limiting ring 3-24 and the equipment installation box 1-27, the cutting shaft d3-26 is in friction connection with the cutting belt a3-27, the equipment can cut the log into boards, the motor 1-1 rotates reversely, the friction compression wheel 2-16 driven by the connecting shaft d1-11 is in a rotating state, the friction connection between the friction compression wheel 2-16 and the linkage compression shaft 2-17 is not failed, the friction compression wheel 2-16 starts to drive the linkage compression shaft 2-17 to move towards the linkage compression plate 2-18, at the moment, the relative position of the log 1-29 is not limited, the linkage compression shaft 2-17 moves to drive the linkage compression plate 2-18 to move towards the log 1-29 and drive the log 1-29 to move along with the movement, when the logs 1-29 move to be in contact with the pressure bearing plates 3-22, the initial positions of the pressure bearing plates 3-22 are in contact with the cutting saws 3-9, the logs 1-29 continuously move to determine the thickness of the cut wood boards, at the moment, the motor I3-1 works to drive the motor shaft I3-2 to rotate, the motor shaft I3-2 rotates to drive the cutting shaft A3-4 to rotate through the cutting belts 3-3, the cutting shaft A3-4 rotates to drive the cams 3-5 to rotate, the cams 3-5 rotate to drive the mounting plates c3-8, the cutting saws 3-9 and the mounting plates d3-10 to reciprocate up and down, the mounting plates c3-8, the cutting saws 3-9 and the mounting plates d3-10 can automatically reset under the action of the saw blade resetting springs 3-12, and the cutting shafts a3-27 drive the cutting shafts d3-26 to rotate when the cutting shafts a3-4 rotate, when the cutting belts a3-27 move, the linkage wheels 3-13 are also driven to rotate, the linkage wheels 3-13 rotate to drive the cutting shafts b3-14 to rotate, the cutting shafts b3-14 rotate to drive the cutting shafts c3-17 to rotate through the linkage belts 3-15, when the linkage belt 3-15 moves, the rubber belt b3-16 is driven to move, when the rubber belt b3-16 moves to be contacted with the cutting saw 3-9, the rubber belt b3-16 and the cutting saw 3-9 are in friction connection to drive the cutting saw 3-9 to move, the cutting saw 3-9 can automatically reset under the action of the compression spring I3-20, i.e., the cutting saw 3-9 reciprocates up and down while reciprocating longitudinally along the grooves on the equipment installation box 1-27, the cutting saw 3-9 in this state can cut the raw wood 1-29 into boards.

The working principle of the device is as follows: the device can convey cylindrical logs and fix two ends of the logs, the device can rotate the logs when fixing the logs, the motor 1-1 works to drive the motor shaft 1-2 to rotate, the motor shaft 1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the connecting shaft c1-8 to rotate through the belt b1-7, the connecting shaft c1-8 rotates to drive the connecting shaft d1-11 to rotate through the bevel gears a1-9 and b1-10, the connecting shaft d1-11 rotates to drive the connecting shaft e1-14 to rotate through the belts c1-13, the connecting shaft e1-14 rotates and transversely moves under the action of threads on the connecting shaft e1-14, and when the connecting shaft e1-14 transversely moves, the inclined blocks 1-26 which are placed on the inclined blocks 1-26 and inclined to the device mounting plate 1-26 28, the connecting shafts a1-4 rotate to drive the connecting shafts b1-6 to rotate, the conveying belts 1-5 move to facilitate the conveying of the logs 1-29, when the logs 1-29 are conveyed to be in contact with the conical rotating wheels 1-23, the relative positions of the logs 1-29 are fixed, when the connecting shafts d1-11 rotate, the logs move towards the conical friction wheels b1-16 under the action of the threads on the connecting shafts d1-11, the connecting shafts d1-11 move to drive the conical friction wheels a1-15, when the conical friction wheels a1-15 move to be in contact with the conical friction wheels b1-16, the conical friction wheels b1-16 are driven by the conical friction wheels a1-15 to rotate the conical friction wheels b1-16 to the limit positions, the conical friction wheel b1-16 rotates to drive the connecting shaft f1-17 to rotate, the connecting shaft f1-17 rotates to drive the connecting shaft g1-20 to rotate through the gear a1-18 and the gear b1-19, the connecting shaft g1-20 rotates to drive the connecting shaft h1-22 to rotate through the belt d1-21, the connecting shaft h1-22 rotates to drive the conical rotating wheel 1-23 to rotate, the conical rotating wheel 1-23 drives the log 1-29 limited by the conical rotating wheel 1-23 to rotate, the equipment can cut down the bark of the log when the log rotates, the connecting shaft I2-1 drives the connecting shaft I2-2 to rotate when the motor shaft 1-2 rotates, the connecting shaft I2-2 rotates to drive the connecting shaft II 2-5 to rotate through the belt II 2-3, the belt II 2-3 also drives the rubber belt 2-4 to move, when the rubber belt 2-4 moves to be in contact with the sliding knife groove 2-6, the sliding knife groove 2-6 is driven to move along with the rubber belt, the sliding knife groove 2-6 can automatically reset under the action of the pressing plate b2-12, the pressing shaft b2-13, the pressing plate c2-14 and the pressing spring b2-15, namely the sliding knife groove 2-6 can transversely reciprocate, the sliding knife groove 2-6 moves to drive the sliding knife 2-7 to move, the sliding knife 2-7 is limited in relative height under the action of the pressing spring a2-11, at the moment, the logs 1-29 in rotation at the bottom of the sliding knife 2-7 can be cut by the sliding knife 2-7, namely barks on the logs 1-29 can be cut off, the equipment can cut the logs into wood boards, the motor 1-1 rotates reversely, and the friction wheels 2-16 driven by the d1-11 are pressed to be in a rotating state, the friction connection between the friction compression wheel 2-16 and the linkage compression shaft 2-17 is not failed, the friction compression wheel 2-16 starts to drive the linkage compression shaft 2-17 to move towards the linkage compression plate 2-18, at the moment, the relative position of the log 1-29 is not limited, the linkage compression shaft 2-17 moves to drive the linkage compression plate 2-18 to move towards the log 1-29 and drive the log 1-29 to move along, when the log 1-29 moves to be contacted with the pressure bearing plate 3-22, because the initial position of the pressure bearing plate 3-22 is contacted with the cutting saw 3-9, the thickness of the log 1-29 continuously moves determines the thickness of the cut wood, at the moment, the motor I3-1 works to drive the motor shaft I3-2 to rotate, the motor shaft I3-2 drives the cutting shaft a3-4 to rotate through the cutting belt 3-3, the cutting shaft a3-4 rotates to drive the cam 3-5 to rotate, the cam 3-5 rotates to drive the mounting plate c3-8, the cutting saw 3-9 and the mounting plate d3-10 to reciprocate up and down, the mounting plate c3-8, the cutting saw 3-9 and the mounting plate d3-10 can automatically reset under the action of the saw blade reset spring 3-12, the cutting shaft a3-4 rotates to drive the cutting shaft d3-26 to rotate through the cutting belt a3-27, the cutting belt a3-27 moves to drive the linkage wheel 3-13 to rotate, the linkage wheel 3-13 rotates to drive the cutting shaft b3-14 to rotate, the cutting shaft b3-14 rotates to drive the cutting shaft c3-17 to rotate through the linkage belt 3-15, and the rubber belt b3-16 moves when the linkage belt 3-15 moves, when the rubber belt b3-16 moves to be in contact with the cutting saw 3-9, the rubber belt b is in friction connection with the cutting saw 3-9 to drive the cutting saw 3-9 to move, the cutting saw 3-9 can automatically reset under the action of the compression spring I3-20, namely the cutting saw 3-9 reciprocates up and down and also reciprocates longitudinally along the groove on the equipment installation box 1-27, and the cutting saw 3-9 in the state can cut the log 1-29 into boards.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a log system board equipment for wood working, includes conveying rotary mechanism (1), cutting mechanism (2), cutting mechanism (3), its characterized in that: the conveying rotating mechanism (1) is connected with the cutting mechanism (2), the conveying rotating mechanism (1) is connected with the cutting mechanism (3), and the cutting mechanism (2) is connected with the cutting mechanism (3);

the conveying rotating mechanism (1) comprises a motor (1-1), a motor shaft (1-2), a belt a (1-3), a connecting shaft a (1-4), a conveying belt (1-5), a connecting shaft b (1-6), a belt b (1-7), a connecting shaft c (1-8), a helical gear a (1-9), a helical gear b (1-10), a connecting shaft d (1-11), a connecting plate a (1-12), a belt c (1-13), a connecting shaft e (1-14), a conical friction wheel a (1-15), a conical friction wheel b (1-16), a connecting shaft f (1-17), a gear a (1-18), a gear b (1-19), a connecting shaft g (1-20), a belt d (1-21), A connecting shaft h (1-22), a conical rotating wheel (1-23), a connecting plate b (1-24), a connecting plate c (1-25), an inclined block (1-26), an equipment installation box (1-27), an equipment installation plate (1-28) and a log (1-29), wherein the motor (1-1) is connected with a motor shaft (1-2), the motor (1-1) is connected with the equipment installation box (1-27), the motor shaft (1-2) is in friction connection with a belt a (1-3), the belt a (1-3) is in friction connection with a connecting shaft a (1-4), the connecting shaft a (1-4) is in friction connection with a belt b (1-7), the connecting shaft a (1-4) is in bearing connection with the connecting plate b (1-24), the connecting shaft a (1-4) is in bearing connection with the connecting plate c (1-25), a connecting shaft a (1-4) is in bearing connection with an equipment installation box (1-27), a conveyor belt (1-5) is in friction connection with a connecting shaft b (1-6), the connecting shaft b (1-6) is in bearing connection with a connecting plate b (1-24), the connecting shaft b (1-6) is in bearing connection with a connecting plate c (1-25), the connecting shaft b (1-6) is in bearing connection with the equipment installation box (1-27), a belt b (1-7) is in friction connection with a connecting shaft c (1-8), the connecting shaft c (1-8) is connected with a helical gear a (1-9), the connecting shaft c (1-8) is in bearing connection with the equipment installation box (1-27), the helical gear a (1-9) is meshed with the helical gear b (1-10), the helical gear b (1-10) is connected with a helical gear d (1-11), a connecting shaft d (1-11) is in threaded connection with a connecting plate a (1-12), the connecting shaft d (1-11) is connected with a conical friction wheel a (1-15), the connecting plate a (1-12) is connected with an equipment installation box (1-27), one end of a belt c (1-13) is in frictional connection with the connecting shaft d (1-11), the other end of the belt c (1-13) is in frictional connection with a connecting shaft e (1-14), the connecting shaft e (1-14) is in threaded connection with the equipment installation box (1-27), the conical friction wheel a (1-15) is in frictional connection with a conical friction wheel b (1-16), the conical friction wheel b (1-16) is connected with a connecting shaft f (1-17), the connecting shaft f (1-17) is connected with a gear a (1-18), the connecting shaft f (1-17) is in bearing connection with a connecting plate c (1-25), gears a (1-18) are meshed with gears b (1-19), the gears b (1-19) are connected with connecting shafts g (1-20), the connecting shafts g (1-20) are in friction connection with belts d (1-21), the connecting shafts g (1-20) are in bearing connection with connecting plates c (1-25), the belts d (1-21) are in friction connection with connecting shafts h (1-22), the connecting shafts h (1-22) are connected with conical rotating wheels (1-23), the connecting shafts h (1-22) are in bearing connection with the connecting plates c (1-25), the connecting shafts h (1-22) are in bearing connection with equipment mounting boxes (1-27), the connecting plates b (1-24) are connected with the equipment mounting boxes (1-27), and the connecting plates b (1-24) are connected with the equipment mounting boxes (1-28), the connecting plates c (1-25) are connected with the equipment mounting boxes (1-27), the inclined blocks (1-26) are connected with the equipment mounting plates (1-28), and the equipment mounting boxes (1-27) are connected with the equipment mounting plates (1-28);

the cutting mechanism (2) comprises a first belt (2-1), a first connecting shaft (2-2), a second belt (2-3), a rubber belt (2-4), a second connecting shaft (2-5), a sliding knife groove (2-6), a sliding knife (2-7), a knife groove limiting plate (2-8), a pressing plate a (2-9), a pressing shaft a (2-10), a pressing spring a (2-11), a pressing plate b (2-12), a pressing shaft b (2-13), a pressing plate c (2-14), a pressing spring b (2-15), a friction pressing wheel (2-16), a linkage pressing shaft (2-17) and a linkage pressing plate (2-18), wherein the first belt (2-1) is in friction connection with the first connecting shaft (2-2), the first belt (2-1) is in friction connection with the motor shaft (1-2), the first connecting shaft (2-2) is in friction connection with the second belt (2-3), the first connecting shaft (2-2) is in bearing connection with the equipment installation box (1-27), the second belt (2-3) is connected with the rubber belt (2-4), the second belt (2-3) is in friction connection with the second connecting shaft (2-5), the second connecting shaft (2-5) is in bearing connection with the equipment installation box (1-27), the sliding knife groove (2-6) is in sliding connection with the sliding knife (2-7), the sliding knife groove (2-6) is connected with the knife groove limiting plate (2-8), the sliding knife groove (2-6) is in sliding connection with the equipment installation box (1-27), and the sliding knife (2-7) is in sliding connection with the pressing plate a (2-9), the sliding knife (2-7) is connected with the equipment installation box (1-27) in a sliding way, the knife slot limit plate (2-8) is connected with the equipment installation box (1-27) in a sliding way, the press plate a (2-9) close to the sliding knife (2-7) is connected with the press shaft a (2-10), the other press plate a (2-9) is connected with the press shaft a (2-10) in a sliding way, the press plate a (2-9) close to the sliding knife (2-7) is connected with the equipment installation box (1-27) in a sliding way, the other press plate a (2-9) is connected with the equipment installation box (1-27), the press spring a (2-11) is sleeved on the press shaft a (2-10) and limited on the two press plates a (2-9), the press plate b (2-12) is connected with the press shaft b (2-13), the pressing plate b (2-12) is connected with the equipment installation box (1-27) in a sliding mode, the pressing shaft b (2-13) is connected with the pressing plate c (2-14) in a sliding mode, the pressing plate c (2-14) is connected with the equipment installation box (1-27), the pressing spring b (2-15) is sleeved on the pressing shaft b (2-13) and limited on the pressing plate b (2-12) and the pressing plate c (2-14), the friction pressing wheel (2-16) is connected with the connecting shaft d (1-11), the friction pressing wheel (2-16) is connected with the linkage pressing shaft (2-17) in a friction mode, the linkage pressing shaft (2-17) is connected with the linkage pressing plate (2-18), and the linkage pressing shaft (2-17) is connected with the equipment installation box (1-27) in a sliding mode.

2. A log board making apparatus for wood working according to claim 1, wherein: the cutting mechanism (3) comprises a motor I (3-1), a motor shaft I (3-2), a cutting belt (3-3), a cutting shaft a (3-4), a cam (3-5), a mounting plate a (3-6), a mounting plate b (3-7), a mounting plate c (3-8), a cutting saw (3-9), a mounting plate d (3-10), a mounting plate e (3-11), a saw blade reset spring (3-12), a linkage wheel (3-13), a cutting shaft b (3-14), a linkage belt (3-15), a rubber belt b (3-16), a cutting shaft c (3-17), a pressing shaft I (3-18), a pressing plate I (3-19), a pressing spring I (3-20), a pressing plate II (3-21), The bearing plate (3-22), the pressing shaft II (3-23), the pressing limiting ring I (3-24), the pressing spring II (3-25), the cutting shaft d (3-26) and the cutting belt a (3-27), the motor I (3-1) is connected with the motor shaft I (3-2), the motor I (3-1) is connected with the mounting plate a (3-6), the motor shaft I (3-2) is connected with the cutting belt (3-3) in a friction mode, the cutting belt (3-3) is connected with the cutting shaft a (3-4) in a friction mode, the cutting shaft a (3-4) is connected with the cam (3-5), the cutting shaft a (3-4) is connected with the mounting plate a (3-6) in a bearing mode, the cutting shaft a (3-4) is connected with the mounting plate b (3-7) in a bearing mode, a cutting shaft a (3-4) is in friction connection with a cutting belt a (3-27), a cam (3-5) is in sliding connection with a mounting plate c (3-8), the mounting plate a (3-6) is in bearing connection with a cutting shaft d (3-26), the mounting plate a (3-6) is connected with an equipment mounting box (1-27), a mounting plate b (3-7) is in bearing connection with the cutting shaft d (3-26), the mounting plate b (3-7) is connected with the equipment mounting box (1-27), the mounting plate c (3-8) is connected with a cutting saw (3-9), the cutting saw (3-9) is connected with a mounting plate d (3-10), the cutting saw (3-9) is in sliding connection with the equipment mounting box (1-27), one end of a saw blade reset spring (3-12) is connected with a mounting plate e (3-11) and the other end is connected with the equipment mounting box (1-27) The linkage wheel (3-13) is connected with a cutting shaft b (3-14), the linkage wheel (3-13) is connected with a cutting belt a (3-27) in a friction mode, the cutting shaft b (3-14) is connected with a linkage belt (3-15) in a friction mode, the linkage belt (3-15) is connected with a cutting shaft c (3-17) in a friction mode, the linkage belt (3-15) is connected with a rubber belt b (3-16), the cutting shaft c (3-17) is connected with an equipment installation box (1-27) in a bearing mode, a compression shaft I (3-18) is connected with a compression plate I (3-19) in a sliding mode, the compression shaft I (3-18) is connected with a compression plate II (3-21), the compression plate I (3-19) is connected with the equipment installation box (1-27), and a compression spring I (3-20) is sleeved on the compression shaft I (3-18) and limited to the compression plate I (3-19) and the compression plate II (3-14) are limited The pressing shaft assembly comprises a pressing plate II (3-21), a pressure bearing plate (3-22) is connected with a pressing shaft II (3-23), the pressure bearing plate (3-22) is connected with the equipment installation box (1-27) in a sliding mode, the pressing shaft II (3-23) is connected with a pressing limiting ring I (3-24), a pressing spring II (3-25) is sleeved on the pressing shaft II (3-23) and limited on the pressing limiting ring I (3-24) and the equipment installation box (1-27), and a cutting shaft d (3-26) is in friction connection with a cutting belt a (3-27).