CN111015839B - Wood processing method - Google Patents

Abstract

The invention aims to provide a wood processing method for solving the technical problem of primary processing of wood. A method of wood processing comprising: s1 putting the wood to be processed on a lifting plate in front of the processing machine barrel; s2 the peeling driving motor drives the peeling turntable in the processing machine barrel to rotate through the peeling driving gear, and then the peeling cutter at the front end of the peeling turntable rotates; s3 pushing the electric push rod to push the processed wood into the processing machine barrel through the push rod, and meanwhile, the peeling pressing hydraulic cylinder radially pushes the peeling cutter, so that the outer end of the pushing peeling cutter is tightly attached to the outer surface of the processed wood.

Description

Wood processing method

Technical Field

The invention relates to the technical field of wood processing, in particular to a wood processing method.

Background

Before the wood is practically used, the wood needs to be subjected to preliminary working procedures such as peeling and cutting. In the prior art, the peeling procedure mainly adopts a manual shovel holding mode to gradually separate the barks on the surface of the wood. For wetter wood, this is relatively simple; however, peeling is difficult to perform manually for drier wood. In addition, the peeling and cutting processes of the wood are separately performed, so that the conveying process of the wood is improved, and the improvement of the production efficiency is not facilitated.

Disclosure of Invention

The invention aims to provide a wood processing method for solving the technical problem of primary processing of wood.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a method of wood processing comprising:

s1 putting the wood to be processed on a lifting plate in front of the processing machine barrel;

s2 the peeling driving motor drives the peeling turntable in the processing machine barrel to rotate through the peeling driving gear, and then the peeling cutter at the front end of the peeling turntable rotates;

s3 pushing the electric push rod to push the processed wood into the processing machine barrel through the push rod, and meanwhile, the peeling pressing hydraulic cylinder radially pushes the peeling cutter, so that the outer end of the pushing peeling cutter is tightly attached to the outer surface of the processed wood.

Preferably, a peeling and pressing detection sensor is arranged between the inner end of the jacking pressure peeling cutter and the peeling turntable so as to sense whether the jacking pressure peeling cutter is tightly attached to the outer surface of the wood to be processed.

Preferably, the rear end part of the processing machine barrel drives the cutting wheel to rotate through the cutting driving motor so as to cut the peeled wood at a fixed distance.

Preferably, the cutting wheel is adjusted in radial distance from the wood to be processed by a cutting driving hydraulic cylinder.

Preferably, the outer side of the processing machine barrel is rotatably provided with a cutting driving fluted disc, and the cutting driving hydraulic cylinder is radially arranged on the cutting driving fluted disc; when the wood is cut, the peeling driving gear is separated from the peeling turntable under the action of the motor base adjusting hydraulic cylinder and is meshed with a cutting driving input gear on a cutting driving shaft which drives the cutting driving fluted disc to rotate.

Preferably, the rotary power output end of the cutting driving shaft is provided with a cutting encoder to judge whether the cutting driving fluted disc rotates by a specified angle.

Preferably, when the cutting driving hydraulic cylinder moves to the position along the radial direction, the cutting driving input gear is meshed with the peeling driving gear.

Preferably, a distance measuring roller which is in rolling fit with the outer surface of the wood to be processed is arranged in the processing machine barrel, and the rotary power output end of the distance measuring roller is provided with a rotary encoder to judge whether the wood passes through the designated cutting length.

Preferably, the peeling turntable is provided with a pushing in-place proximity switch to judge whether the pushing rod enters a cavity in the peeling turntable or not so as to judge whether the processed wood is peeled.

Preferably, the lifting plate adjusts the lifting height through a lifting hydraulic cylinder below, and a lifting pressure sensor is arranged between the lifting hydraulic cylinder and the lifting plate to judge whether the lifting plate lifts in place on the processed wood.

The effect provided in the summary of the invention is only the effect of the embodiment, not all the effects of the invention, and one of the above technical solutions has the following advantages or beneficial effects:

1. the technical scheme of the invention can realize the integrated operation of wood peeling and fixed-section cutting, and has high processing efficiency.

2. The rotary encoder can be used for measuring the passing distance of the peeled wood at fixed intervals so as to realize fixed-distance cutting of the cutting mechanism.

3. The conversion from peeling to cutting is realized according to whether a cutting driving hydraulic cylinder with a built-in displacement sensor pushes a cutting wheel to be executed in place, and the conversion from a power source of the peeling process to the cutting process is realized.

4. The cutting encoder can be used for detecting the rotating angle of the cutting driving fluted disc so as to detect whether the cutting process is finished; and realizes the conversion from the cutting process to the peeling process.

5. And detecting whether the ejector rod passes through the proximity switch according to the pushing in-place approach at the rear end of the peeling turntable so as to judge whether the processed wood completely realizes the peeling process.

6. According to the information that whether the peeling pressing hydraulic cylinder detected by the peeling pressing detection sensor presses the cutter adjusting block or not, the peeling cutter is attached to the processed wood in real time.

Drawings

FIG. 1 is a schematic side view of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

figure 3 is a schematic longitudinal cross-sectional view of the embodiment of the invention at the peeling means;

FIG. 4 is a schematic cross-sectional view of a distance measuring mechanism in cooperation with a processing barrel according to an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at B;

FIG. 6 is a schematic front view of a lift mechanism according to an embodiment of the present invention;

in the figure: 1. a bottom chassis; 2. processing a machine barrel; 3. processing and adjusting a hydraulic cylinder; 4. a peeling driving motor; 5. a motor support frame; 6. a motor base adjusting hydraulic cylinder; 7. peeling and driving the gear; 8. peeling turnplates; 81. peeling the outer gear ring; 9. peeling cutters; 10. a peeling and pressing hydraulic cylinder; 11. peeling the return spring; 12. a peeling and pressing detection sensor; 13. a distance measuring roller; 14. a distance measuring pole; 15. a rotary encoder; 16. a ranging spring rod; 17. a distance measuring driving gear; 18. a distance measuring driven gear; 19. cutting the driving shaft; 191. cutting the drive input gear; 192. cutting the drive output gear; 20. cutting the driving fluted disc; 21. a cutting driving hydraulic cylinder; 22. a cutting drive motor; 23. a cutting wheel; 24. cutting the encoder; 25. cutting the detection gear; 26. a lifting frame; 27. a lifting plate; 28. a lifting hydraulic cylinder; 29. lifting the pressure sensor; 30. a bull's eye bearing; 31. pushing the frame; 32. pushing the electric push rod; 33. pushing the plate; 34. pushing the push rod; 35. a pushing in-place approach switch; 36. a control box; 37. the pushing lifting adjusting hydraulic cylinder.

Detailed Description

In order to clearly explain the technical features of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and techniques are omitted so as to not unnecessarily limit the invention.

As shown in fig. 1 to 6, an apparatus for implementing a wood processing method includes a pushing mechanism, a lifting mechanism, a processing frame mechanism, a peeling mechanism, a cutting mechanism, a distance measuring mechanism, and a control system. The peeling mechanism and the cutting mechanism are respectively arranged at the front end and the rear end of the processing machine frame mechanism and are respectively used for realizing the peeling and the sectional cutting of barks; the lifting mechanisms are positioned at the front end and the rear end of the processing machine frame mechanism and are used for lifting the processed wood; the pushing mechanism is positioned in front of the lifting mechanism and used for pushing the wood to move so as to smoothly realize processing; the distance measuring mechanism is used for measuring the distance of the wood passing through the processing machine frame mechanism so as to facilitate the cutting mechanism to realize fixed-distance cutting; the control system is electrically connected with each control function component to realize intelligent action.

The processing machine frame mechanism comprises a bottom frame 1, a processing machine barrel 2 and a processing adjusting hydraulic cylinder 3, wherein the upper end of the bottom frame 1 is provided with a plurality of frame adjusting guide rods, the processing machine barrel 2 is provided with a barrel adjusting guide sleeve, and the adjusting guide sleeve is arranged in the frame adjusting guide rods in a lifting mode. The processing adjusting hydraulic cylinder 3 is arranged between the lower end of the processing machine barrel 2 and the bottom frame 1 and is used for adjusting the height position of the processing machine barrel 2 according to the processing requirement. The peeling mechanism is arranged at the front end part of the processing machine barrel 2 and comprises a peeling driving motor 4, a motor support frame 5, a motor base adjusting hydraulic cylinder 6, a peeling driving gear 7, a peeling rotary disc 8, a peeling cutter 9, a peeling pressing hydraulic cylinder 10, a peeling reset spring 11 and a peeling pressing detection sensor 12. The peeling turntable 8 is rotatably connected with the processing machine barrel 2 through a bearing, and an outer peeling gear ring 81 is arranged on the outer side of the rear part of the peeling turntable 8 in the circumferential direction; and a peeling driving tooth groove is formed in the circumferential direction of the processing machine barrel 2 and corresponds to the peeling outer gear ring 81. The front end face of the peeling rotary disk 8 is provided with peeling adjusting chutes along the radial direction, and the peeling adjusting chutes are provided with a plurality of annular arrays which are distributed at intervals along the front end face of the peeling rotary disk 8. The peeling knife 9 is arranged obliquely relative to the axial direction of the peeling rotary disk 8, and the outer end of the peeling knife 9 is close to the surface of the processed wood relative to the inner end thereof. The inner end of the peeling tool 9 is arranged in the tool adjusting chute in a way that the inner end and the outer end of the tool adjusting block can move inside and outside through the tool adjusting block, and the inner end of the tool adjusting block is connected with the peeling turntable 8 through the peeling return spring 11 (the peeling return spring 11 can realize the flexible working state of the peeling tool 9). The peeling compaction detection sensor 12 is arranged between the inner end of the peeling reset spring 11 and the peeling turntable 8, the peeling compaction hydraulic cylinder 10 is arranged in the circumferential direction of the peeling turntable 8, and the power output end of the peeling compaction hydraulic cylinder 10 is connected with the outer end of the cutter adjusting block; the peeling and pressing detection sensor 12 is used for detecting whether the peeling and pressing hydraulic cylinder 10 presses the cutter adjusting block. A side cutter is arranged on the peripheral surface of the front end of the peeling cutter 9; when the peeling cutter 9 separates the skin of the wood, the side cutter can cut the separated skin of the wood along with the circumferential rotation of the peeling cutter 9, so as to prevent the separated skin of the wood from being too long to obstruct the normal work of the peeling mechanism. The motor support frame 5 is arranged on the processing machine barrel 2, and the peeling driving motor 4 is arranged on the motor support frame 5 through a motor base adjusting hydraulic cylinder 6; the rotary power output end of the peeling driving motor 4 is provided with the peeling driving gear 7, and the peeling driving gear 7 is meshed with the peeling outer gear ring on the outer side of the peeling turntable 8 in the circumferential direction for driving.

The distance measuring mechanism is arranged in the rear end part of the processing machine barrel 2 and is used for detecting the passing length of the wood; it includes range finding gyro wheel 13, range finding pole 14, rotary encoder 15, range finding spring beam 16, range finding driving gear 17 and range finding driven gear 18. The upper end of the distance measuring rod 14 is connected with the processing machine barrel 2 through a distance measuring spring rod 16, the distance measuring roller 13 is rotatably arranged at the lower end of the distance measuring rod 14 and is in rolling contact with the surface of the processed wood, and the distance measuring driving gear 17 is arranged on a rotating shaft of the distance measuring roller 13. The rotary encoder 15 is also arranged on the distance measuring rod 14, and a distance measuring driven gear 18 is arranged on a rotating shaft of the rotary encoder 15; the distance measuring driven gear 18 is meshed with the distance measuring driving gear 17. The control system judges whether the wood passes through the designated length according to the signal of the rotary encoder 15; thereby suspending the pushing mechanism and opening the cutting mechanism. The cutting mechanism comprises a cutting driving shaft 19, a cutting driving fluted disc 20, a cutting driving hydraulic cylinder 21 (a displacement sensor oil cylinder is arranged inside), a cutting driving motor 22, a cutting wheel 23 and a cutting encoder 24. The cutting driving shaft 19 is rotatably arranged outside the processing machine barrel 2 through a support and a bearing, a cutting driving input gear 191 is arranged at the power input end of the cutting driving shaft 19, and the cutting driving input gear 191 is arranged corresponding to the peeling driving gear 7; a cutting driving output gear 192 is arranged at the power output end of the cutting driving shaft 19, and the cutting driving output gear 192 is arranged corresponding to the cutting driving fluted disc 20; the cutting driving fluted disc 20 is rotatably arranged on the processing machine barrel 2 through a bearing, and a cutting inner gear ring meshed with the cutting driving output gear 192 is arranged on the inner side of the cutting driving fluted disc 20. The cutting driving hydraulic cylinder 21 is mounted on the outer side of the cutting driving fluted disc 20 through a bracket and is arranged along the radial direction of the cutting driving fluted disc 20. The cutting driving motor 22 is transversely installed on the power output end of the cutting driving hydraulic cylinder 21, and the cutting wheel 23 is installed on the rotary power output end of the cutting driving motor 22. The cutting encoder 24 is mounted on the support of the cutting drive shaft 19 through a bracket, a cutting detection gear 25 is arranged on a rotating shaft of the cutting encoder 24, and the cutting detection gear 25 is meshed with the cutting drive output gear 192. When cutting is started, the cutting driving motor 22 firstly drives the cutting wheel 23 to rotate, then one side of the wood is cut step by step under the driving of the cutting driving hydraulic cylinder 21, the motor base adjusting hydraulic cylinder 6 drives the peeling driving motor 4 to ascend after the cutting driving hydraulic cylinder 21 acts in place, and the peeling driving gear 7 is separated from the peeling turntable 8 and is meshed with the cutting driving input gear 191; then, under the rotation drive of the cutting drive fluted disc 20, the cutting wheel 23 gradually cuts the wood in the circumferential direction until the cutting encoder 24 detects that the cutting drive output gear 192 rotates for a certain number of turns, which proves that the cutting wheel 23 finishes cutting the wood for a circle, and at this time, the cutting mechanism and the motor base adjusting hydraulic cylinder 6 reset.

The lifting mechanism comprises a lifting frame 26, a lifting plate 27, a lifting hydraulic cylinder 28 and a lifting pressure sensor 29. Lifting guide rods are arranged on two sides of the lifting frame 26, and two sides of the lifting plate 27 are arranged on the lifting guide rods in a lifting manner through lifting sleeves; the lifting plate 27 is of a V-shaped structure, and a bull eye bearing 30 is arranged on the inner side surface of the lifting plate 27. The lifting hydraulic cylinder 28 is arranged between the lower part of the lifting plate 27 and the upper end of the lifting frame 26, and the lifting pressure sensor 29 is arranged between the upper power output end of the lifting hydraulic cylinder 28 and the lower end of the lifting plate 27. Because the front end and the rear end of the wood are not equal in diameter, when the wood passes through the lifting plate 27, if the diameter of the wood is reduced, the lifting pressure sensor 29 cannot sense the lifting pressure, and the lifting hydraulic cylinder 28 drives the lifting plate 27 to ascend. After the lifting of one wood strain is completed each time, the lifting plate 27 is reset to the lowest position.

The pushing mechanism comprises a pushing frame 31, a pushing electric push rod 32, a pushing plate 33, a pushing rod 34, a pushing in-place approach switch 35 (diffuse reflection photoelectric switch) and a pushing lifting adjusting hydraulic cylinder 37. The pushing electric push rod 32 is transversely arranged on the pushing frame 31 in a lifting manner, and the lower end of the pushing electric push rod 32 is connected with the pushing frame 31 through a pushing lifting adjusting hydraulic cylinder 37; the pushing plate 33 is arranged at the transverse moving power output end of the pushing electric push rod 32, and the pushing rod 34 is transversely arranged on the pushing plate 33 and is coaxial with the peeling turntable 8; the pushing in-place proximity switch 35 is arranged at the rear end of the peeling turntable 8 and is used for detecting whether the pushing rod 34 passes through or not so as to judge whether the processed wood completely realizes the peeling process or not. The minimum aperture distance between the peeling cutters 9 is larger than the diameter of the ejector rod 34, so that interference is avoided.

The control system comprises a PLC controller, a control box 36 and a control panel, the PLC controller and the control panel are installed on the pushing frame 31 through the control box 36, and the PLC controller is electrically connected with corresponding functional components.

Wood processing method

S1 putting the wood to be processed on the lifting plate 27 in front of the processing machine barrel 2;

s2, the peeling driving motor 4 drives the peeling turntable 8 in the processing machine barrel 2 to rotate through the peeling driving gear 7, and then the peeling cutter 9 at the front end of the peeling turntable 8 rotates;

s3 pushing the electric push rod 32 to push the processed wood into the processing machine barrel 2 through the push rod 34, and meanwhile, the peeling pressing hydraulic cylinder 10 radially presses the peeling cutter 9, so that the outer end of the pressing peeling cutter 9 is tightly attached to the outer surface of the processed wood.

Preferably, a peeling and pressing detection sensor 12 is arranged between the inner end of the jacking pressure peeling cutter 9 and the peeling turntable 8 to sense whether the jacking pressure peeling cutter 9 is attached to the outer surface of the wood to be processed.

Preferably, the rear end of the processing machine barrel 2 drives the cutting wheel 23 to rotate through the cutting driving motor 22 so as to cut the peeled wood at a fixed distance.

Preferably, the cutting wheel 23 is adjusted in radial distance from the wood being worked by means of a cutting drive hydraulic cylinder 21.

Preferably, the cutting driving fluted disc 20 is rotatably mounted on the outer side of the processing machine barrel 2, and the cutting driving hydraulic cylinder 21 is radially mounted on the cutting driving fluted disc 20; when the wood is cut, the peeling driving gear 7 is separated from the peeling rotary disk 8 under the action of the motor base adjusting hydraulic cylinder 6 and is meshed with a cutting driving input gear 191 on a cutting driving shaft 19 which drives the cutting driving fluted disc 20 to rotate.

Preferably, the cutting encoder 24 is disposed at the rotary power output end of the cutting driving shaft 19 to determine whether the cutting driving fluted disc 20 rotates by a designated angle.

Preferably, when the cutting drive hydraulic cylinder 21 is radially moved to the position, the cutting drive input gear 191 is engaged with the peeling drive gear 7.

Preferably, a distance measuring roller 13 which is in rolling fit with the outer surface of the wood to be processed is arranged in the processing machine barrel 2, and a rotary power output end of the distance measuring roller 13 is provided with a rotary encoder 15 to judge whether the wood passes through the designated cutting length.

Preferably, the peeling rotary disc 8 is provided with a pushing in-position approach switch 35 to judge whether the pushing rod 34 has entered into a cavity in the peeling rotary disc 8, so as to judge whether the peeling process of the wood to be processed is completed.

Preferably, the lifting plate 27 is adjusted in lifting height by a lifting hydraulic cylinder 28 below, and a lifting pressure sensor 29 is arranged between the lifting hydraulic cylinder 28 and the lifting plate 27 to judge whether the lifting plate is lifted in place for processing wood.

In addition to the technical features described in the specification, the technology is known to those skilled in the art.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and various modifications and variations can be made by those skilled in the art without inventive efforts based on the technical solution of the present invention.

Claims (7)

1. A wood working method, characterized by comprising:

s1 putting the wood to be processed on a lifting plate in front of the processing machine barrel;

s2 the peeling driving motor drives the peeling turntable in the processing machine barrel to rotate through the peeling driving gear, and then the peeling cutter at the front end of the peeling turntable rotates;

s3 pushing the electric push rod to push the processed wood into the processing machine barrel through the push rod, and radially pushing the peeling tool by the peeling pressing hydraulic cylinder to enable the outer end of the pushing peeling tool to be tightly attached to the outer surface of the processed wood;

the rear end part of the processing machine barrel drives a cutting wheel to rotate through a cutting driving motor so as to cut the peeled wood at a fixed distance;

the cutting wheel adjusts the radial distance between the cutting wheel and the wood to be processed through a cutting driving hydraulic cylinder;

a cutting driving fluted disc is rotatably arranged on the outer side of the processing machine barrel, and a cutting driving hydraulic cylinder is radially arranged on the cutting driving fluted disc; when the wood is cut, the peeling driving gear is separated from the peeling turntable under the action of the motor base adjusting hydraulic cylinder and is meshed with a cutting driving input gear on a cutting driving shaft which drives the cutting driving fluted disc to rotate.

2. The method as claimed in claim 1, wherein a peeling pressure detecting sensor is provided between an inner end of the pressing peeling tool and the peeling turntable to sense whether the pressing peeling tool is in close contact with an outer surface of the wood to be processed.

3. The method as claimed in claim 1, wherein the rotary power output end of the cutting drive shaft is provided with a cutting encoder to determine whether the cutting drive fluted disc rotates by a designated angle.

4. A method of processing wood as defined in claim 1 wherein the cutting drive input gear is again engaged with the decortication drive gear when the cutting drive cylinder is radially moved into position.

5. The wood processing method as claimed in claim 1, wherein a distance measuring roller is arranged in the processing cylinder and is in rolling fit with the outer surface of the wood to be processed, and a rotary power output end of the distance measuring roller is provided with a rotary encoder to judge whether the wood passes through the designated cutting length.

6. The method as claimed in claim 1, wherein the peeling turntable is provided with a push-to-position approach switch to determine whether the push rod has entered the cavity of the peeling turntable, so as to determine whether the peeling process of the wood is completed.

7. The method as claimed in claim 1, wherein the lifting height of the lifting plate is adjusted by a lower lifting hydraulic cylinder, and a lifting pressure sensor is provided between the lifting hydraulic cylinder and the lifting plate to determine whether the lifting plate is lifted in place on the wood to be processed.

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