KR100870103B1 - A rotary lathe for processing chip sheet - Google Patents

Abstract

The present invention relates to a solid wood rotary cutter for sheet wood lamination.

This wood rotary cutting machine of the present invention, the main shaft electric motor for rotating the main shaft separated on both sides, the worktable electric motor for forward and backward transfer of the wood processing table, and the rotation of the pinion meshed with the main reduction gear installed on the main shaft Pinion electric motor for; A wooden fixing chuck fixed to each end of the main shaft to fix the wood concentrically or eccentrically of the main shaft; Solid wood processing stage for producing a pattern wood thin plate by cutting the outer peripheral surface of the solid wood is fixed to the solid wood chuck continuous or one surface; A transmission gear group configured to transmit the set rotational force to the woodworking table driving means side together with the rotational force setting corresponding to the thickness of the veneer sheet; First power transmission means for reducing the rotational force of the main shaft electric motor and transmitting it to the main shaft; Second power transmission means for reducing the rotational force of the pinion electric motor and transmitting it to the pinion side engaged with the main reduction gear; A wood processing bench driving means for interlocking the wood processing bench by a set thickness of wood veneer while interlocking through the rotational force transmitted from the transmission gear group; It characterized in that it comprises a drive center shaft for rotating the main reduction gear of the main shaft through the pinion while rotating in accordance with the rotational force transmitted by the second power transmission means decelerating.

Therefore, according to the present invention, it is possible to achieve a substitute effect for the import of costly veneer in the domestic production work through a solid wood rotary cutting machine, and through the wood working table driving means which is operated by the transmission gear group connected to the main shaft, As the wood processing table is continuously transported by the thickness of the wood veneer set to the side of the fixed rotation wood, it is possible to produce the wood veneer with uniform thickness and mass production through it.

Solid wood, rotary, cutting machine, veneer, sheet, strip, strip, single plate, continuous cutting, one-sided cutting, concentric, eccentric, solid wood, wood working table, cutting edge, V-belt transmission, chain transmission, gear transmission, clutch, transmission Fish group, transmission gear train, wood processing bench drive means

Description

A rotary lathe for processing chip sheet for sheet wood lamination

1 is a perspective view schematically showing a solid wood rotary cutting machine of the present invention.

2 is a front view and a rear view of a solid wood rotary cutting machine according to the present invention.

3 is a plan view and side view of a solid wood rotary cutter for the present invention.

Figure 4 is a power transmission state diagram for a solid wood rotary cutting machine of the present invention.

Figure 5 is a perspective view and detail of the solid wood chuck of the solid wood rotary cutting machine of the present invention.

Figure 6 is a fixed state diagram of the wood through the wood fixing chuck shown in FIG.

7 is a front and side cross-sectional view of a solid wood working table of the rotary cutting machine of the present invention.

Figure 8 is a state diagram showing the operation of the solid wood rotary cutting machine according to the present invention.

9 is a veneer thin plate cut by the solid wood rotary cutter of the present invention.

Explanation of symbols on the main parts of the drawings

1. Solid wood rotary cutting machine 3. Main shaft electric motor

4, 21. Drive pulley 5. Main shaft

6. 1st reduction sprocket 7. Main reduction gear

8. Main drive sprocket 10. First connecting shaft

11. 1st reduction pulley 12. 1st drive sprocket

20. Pinion electric motor 22. Second connecting shaft

23. 2nd reduction pulley 24. Follower pulley

25. Drive center shaft 26. Third reduction pulley

27. Pinion 30. Transmission Gear Coupling Shaft

31. Connection sprocket 32. Second drive sprocket

33. Gearboxes 34, 36. Gearboxes

34a. 2nd reduction sprocket 35. Connecting gear

36a. Third drive sprocket 40a, 40b. driving axle

41.Clutches Sprockets 42.Clutches

43. Fourth Drive Sprocket 44. Power Motor

45. Work table feeder 46. Third connecting shaft

47. 3rd reduction sprocket 48. Driving bevel gear

49. Follower bevel gear 50. Guide screw rod

53. Solid Wood Processing Plant 54. Adjustment Handle

55. Body 56. Cutting edge seat

57. Cutting edge 58. Veneer outlet

59. Slide Outlet 60. Solid Wood Reclamation

61. Main Shaft Insert Groove 62. Solid Wood Bolt

63. L. Wood

C. veneer

The present invention relates to a wooden rotary cutting machine, and more particularly, a fixed wood fixing chuck installed at one end of the main shaft and the main shaft in a state in which the rotational force of each electric motor is decelerated through the first and second power transmission means connected to each other. The wooden workbench is fixed by the thickness of the wood veneer set by the wooden workbench driving means operated by the gear shifting gear group connected to the main shaft while simultaneously rotating the wood fixedly concentrically or eccentrically to the wooden fixing chuck. The solid wood rotary cutter is configured by cutting the outer peripheral surface of the solid wood through the cutting edge of the wood processing table and cutting only one surface to produce a strip of thin strip or single plate in the form of a patterned wood. Through domestic production operations through the replacement effect of expensive veneer import The wood processing table driven by the transmission gear group connected to the main shaft to produce a wood of uniform thickness according to the continuous transfer of the wood processing table by the thickness of the wood veneer set to the wood fixedly fixed to the wood fixed chuck A solid wood rotary cutting machine for sheet metal lamination, which may be possible as well as mass production.

In general, wood veneer is a kind of environmentally friendly indoor interior materials, such as cutting the solid wood into a flat plate, that is, a thin plate form, and then bonding the solid wood to building materials and floorboards, finishing materials, doors, furniture, and furniture.

In the case of such wood veneer, all materials are imported and used abroad, and the material cost of the wood veneer is greatly increased according to the import, and building materials and finishing materials such as plywood, doors, furniture, furniture, etc. are increased due to the increase in the material cost. There was a big problem such as the manufacturing cost and the selling price for the finished product also increased significantly.

In addition, in the veneer, when the damage to the veneer caused by the external shock occurs, it is not possible to recycle it, but must discard the imported material at a high cost, such as disposing of it, and the economic burden due to the material loss is also greatly increased. There were also problems such as working.

Moreover, when loading the imported veneer, the place for loading veneer is limited since it is highly dependent on the external weather conditions, and when veneers having different thicknesses are stacked in one place, In the process of adhering to building materials and finishing materials, doors, furniture, furniture, etc., it is necessary to select only veneers of the same thickness and glue them together. .

The present invention has been made in order to solve the above-mentioned problems, the wood is fixed to the main shaft and one end of the main shaft in a state in which the rotational force of each electric motor is decelerated through the first and second power transmission means connected to each other The wooden workbench as much as the thickness of the wood veneer set by the wooden workbench driving means operated by the transmission gear group connected to the main shaft at the same time as the rotational action of the wood fixedly concentrically or eccentrically fixed to the wooden fixing chuck is transmitted. The solid wood rotary cutting machine is constructed by cutting the outer peripheral surface of the solid wood through the cutting edge of the wood processing table and cutting only one surface to produce a strip of thin strip or single plate in the form of a solid wood. It is possible to produce domestic thin plate wood veneer through cutting machines, which is why Yirum to the import substitution effect of imports on the neck as well as to be able to significantly reduce the high costs of the veneer in economic terms it is an object.

In addition, in the present invention, in the production of thin plate-like patterned wood using the solid wood slab thickness set to the side of the solid wood is fixed to the solid wood fixed rotation through the wood working table driving means operated by a gear group connected to the main shaft By transporting the engineering, it is possible to mass-produce the veneer with a uniform thickness, as well as the mass production of the veneer as described above, there is another purpose to significantly reduce the cost of the veneer according to the conventional import.

In addition, in the present invention, the method of fixing the solid wood, that is, the main shaft and the fixed wooden chuck concentrically or eccentrically fixed the wood, such as cutting the outer circumferential surface of the fixed wood through the cutting edge of the wood processing table or only one surface According to the method, since a single strip cutting machine can produce a strip or veneer sheet metal sheet, it is possible to greatly reduce the work process and work time according to each production type of the veneer, and furthermore, by using the solid wood rotary cutting machine of the present invention. Another aim is to reduce the overall working time of different veneer production.

The solid wood rotary cutting machine for sheet wood lamination of the present invention includes a main shaft electric motor for rotating the main shaft separated from both sides, a working table electric motor for forwarding and forwarding the wood processing bench, and a main reduction gear installed on the main shaft. A pinion electric motor for rotating the pinion; A wooden fixing chuck fixed to each end of the main shaft to fix the wood concentrically or eccentrically of the main shaft; Solid wood processing stage for producing a pattern wood thin plate by cutting the outer peripheral surface of the solid wood is fixed to the solid wood chuck continuous or one surface; A transmission gear group configured to transmit the set rotational force to the woodworking table driving means side together with the rotational force setting corresponding to the thickness of the veneer sheet; First power transmission means for reducing the rotational force of the main shaft electric motor and transmitting it to the main shaft; Second power transmission means for reducing the rotational force of the pinion electric motor and transmitting it to the pinion side engaged with the main reduction gear; A wood processing bench driving means for interlocking the wood processing bench by a set thickness of wood veneer while interlocking through the rotational force transmitted from the transmission gear group; It characterized in that it comprises a drive center shaft for rotating the main reduction gear of the main shaft through the pinion while rotating in accordance with the rotational force transmitted by the second power transmission means decelerating.

Hereinafter, a solid wood rotary cutting machine (hereinafter referred to as a solid wood rotary cutting machine) for processing a sheet wood thin plate of the present invention will be described in detail with reference to the drawings.

1 is a perspective view schematically showing a solid wood rotary cutting machine of the present invention, Figure 2 is a front view and a rear view of a solid wood rotary cutting machine for the present invention, Figure 3 is a plan view and side view of a solid wood rotary cutting machine for the present invention It is shown.

In addition, Figure 4 shows a power transmission state diagram for the solid wood rotary cutting machine of the present invention, Figure 5 shows a perspective view and a detailed view of the solid wood fixed chuck of the solid wood rotary cutting machine of the present invention, Figure 6 is shown in Figure 5 It shows a fixed state of the solid wood through the wood fixing chuck, Figure 7 shows a front view and a side cross-sectional view of the wood working table of the solid wood rotary cutting machine of the present invention.

The solid wood rotary cutting machine 1 of the present invention is a continuous cutting of the outer circumferential surface of the solid wood (L) rotated and fixed to the solid wood chuck 60 in the form of a strip, or cut one surface in the form of a single plate veneer (C) sheet In addition to producing and as a device to be used to adhere to building materials and finishing materials, doors, furniture, appliances, etc., as shown in Figures 1 to 3 to rotate the main shaft (5) separated on both sides A main shaft electric motor 3 for supplying power; A worktable electric motor 44 for supplying power to transfer the wood working bench 53 back and forth; A pinion electric motor 20 for supplying power to rotate the pinion 27 engaged with the main reduction gear 7 installed on the main shaft 5; A wooden fixing chuck 60 fixed to each end of the main shaft 5 to fix the log L concentrically or eccentrically of the main shaft 5; Solid wood processing table 53 for producing a pattern (C) sheet through the cutting of the continuous or one surface of the outer peripheral surface of the solid wood (L) to be fixed to the solid wood chuck 60 and; A transmission gear group 33 for transmitting the set rotational force to the woodworking table driving means side together with the rotational force setting corresponding to the thickness of the wood veneer C; First power transmission means for reducing the rotational force of the main shaft electric motor (3) and transmitting it to the main shaft (5); Second power transmission means for reducing the rotational force of the pinion electric motor 20 and transmitting it to the pinion 27 which is engaged with the main reduction gear 7; A wood workbench driving means for transferring the wood workbench 53 by the set thickness of the wood veneer C while being interlocked through the rotational force transmitted from the transmission gear group 33; It is composed of a drive center shaft 25 for rotating the main reduction gear 7 of the main shaft 5 via the pinion 27 while rotating according to the rotational force transmitted by the second power transmission means.

The main shaft electric motor 3, the worktable electric motor 44, and the pinion electric motor 20 among the solid wood rotary cutting machine 1 of the present invention configured as described above are shown in FIG. 4. (3) is in a power connection state with the main shaft (5) separated on both sides through the first power transmission means connected and driven by belt transmission and chain transmission so that the rotational force of the main shaft electric motor (3) is the first It is transmitted to the main shaft 5 in the first and second decelerated states by belt transmission and chain transmission of the power transmission means, and the main shaft 5 is rotated in the first and second decelerated states.

In addition, the pinion electric motor 20 is in a power connection state with the drive center shaft 25 in which the pinion 27 is installed through a second power transmission means connected and driven by belt transmission of the pinion electric motor 20. The rotational force is transmitted to the drive center shaft 25 in the first and second decelerated states by the belt transmission of the second power transmission means, and the drive center shaft 25 rotates in the first and second decelerated states. The main reduction gear 7 which is meshed with the pinion 27, that is, the main reduction gear 7 of the main shaft 5 which is rotated first and second by the first power transmission means is rotated in the third reduced state. Done.

In addition, the worktable electric motor 44 is in power connection with the other drive shaft (40b) is provided with a front and rear transfer pulley (44a) at one end of the drive shaft (40a, 40b) separated between the shaft by belt transmission When the clutch 42 installed for power connection of the drive shafts 40a and 40b separated between the shafts is separated, the other driving shaft 40b is driven by the rotational force of the worktable electric motor 44 which is decelerated and transmitted through the front and rear transfer pulley 44a. Rotation) rotates the worktable feeder 45 by chain transmission to perform rapid front and rear feed for the initial setting of the wood processing table 53, but when the clutch 42 is connected, While reducing the gear shafts 40a and 40b connected to the clutch 42 via the gear group 33 from the reduction gear 7 and at the same time by the chain transmission connected to the drive shafts 40a and 40b, 45) to shift the wood processing stage (53) The overall power transmission process of the fish (33) pattern neck (C) wood rotary cutting machine (1), such as that to be transported toward the Night, the log (L) fixed to the timber fixing chuck 60 by a depth set by will be written.

And, in the case of the solid wood chuck 60 of the present invention, the solid wood chuck 60, the main shaft (5) installed separately on both sides, that is, the main shaft (5) is one-way deceleration rotation through each of the first power transmission means It is installed at each end of the fixed element (L) to concentrically or eccentrically fixed to the main shaft (5), is formed in the shape of a disk as shown in Figure 5, the back (背面) is separately installed main The main shaft insertion groove 61 is formed to be inserted into one end of the shaft (5), the front surface of the back in the state that the wooden fixing bolt 62 for fixing both ends of the wood (L) through The nut is fastened on the surface.

In addition, one end of the solid wood fixing bolt 62, as shown in the detailed view of Figure 5 so as to dig the end of the solid wood (L) when tightening the bolts (요) shaped fastener 63 Is integrally formed and protrudes to the front surface of the disc.

When the solid wood (L) is fixed to the solid wood fixing chuck 60 configured as described above, the continuous cutting of the solid wood (L) into a strip-shaped pattern (C) sheet using the cutting blade 57 of the wood processing table 53 is performed. To achieve this, as shown in (a) of FIG. 6, it is installed and fixed at the center of the wood fixing chuck 60 so as to be concentric with the main shaft 5. On the contrary, the wood L is a veneer pattern C having a single plate shape. In order to cut into a thin plate, as shown in (b) of FIG. 6, it is fixed to one side of the wood fixing chuck 60 so as to be eccentric with the main shaft 5.

And, in the case of the wood processing stage 53 of the solid wood rotary cutting machine 1 of the present invention 4 from the main reduction gear (7) to rotate in the third decelerated state in connection with the first power transmission means and the second power transmission means; While the power is connected by the clutch 42 via the transmission gear group 33 in which the vehicle is decelerated, the drive shafts 40a and 40b are rotated in the fifth decelerated state through the clutch sprocket 41 installed at one end thereof. The worktable feeder 45 is operated by a chain drive connected to the rotating drive shafts 40a and 40b to be fixed to the wood fixing chuck 60 by the thickness of only the wood veneer C set by the transmission gear group 33. The wood working table 53 is transferred to the rotating wood L to cut the outer circumferential surface of the wood L through only the cutting edge 57 or only one surface to produce a wood veneer (C) sheet, FIGS. 2 and FIG. As shown in 7, The cutting edge receiving portion 56 is a half-moon shape of the body portion (55) projecting in a triangular shape (前面) and; An adjusting handle (54) for positioning the upper and lower sides of the body portion (55) back and forth and up and down; Cutting edges 57 fixedly installed to face each cutting edge seating portion 56 of the body portion 55; A veneer outlet 58 formed between the cutting edges 57 between the body portion 55 and a rear surface thereof; It consists of the wave-shaped slide discharge path 59 connected from the said veneer discharge port 58 to the lower back side lower side of the body part 55. As shown in FIG.

Here, in the case of the body part 55, cutting edge seating portions 56 are formed in the longitudinal direction to install and fix the cutting edges 57 on their front surfaces while forming a structure in which the upper side and the lower side are separated from each other. At this time, in the case of the cutting edge seating portion 56, as shown in the cross-sectional side view shown in Figure 7 to cut the cutting edges 57 to face each other to cut the wood (L) to rotate with the fixed wood chuck (60) When performing the work when the wood (L) is rotated in the clockwise direction when the cutting is made through the cutting blade 57 fixed to the lower body portion 55 is installed, when rotating in the counterclockwise direction the upper body portion (55) It protrudes forward in a triangular shape so that cutting can be made through the cutting edge 57 fixed to the installation.

In addition, the back surface of the body portion 55 is also cut out from the log L through a fixed cutting edge 57 installed opposite to the cutting edge seating portion 56 as shown in the side cross-sectional view of FIG. Corrugated sheet (C) in the form of a thin plate that is connected to the lower side of the lower rear side of the body portion 55 from the Mooney wood outlet so that more smoothly transported to the worker through the veneer outlet 58, that is, the veneer outlet A slide discharge path 59 is formed in a corrugated shape in which the inward concave and outwardly convex states are formed from 58, and in the case of the veneer discharge port 58, the cutting blade seat 56 is opposed to each other. When the cutting edge 57 is installed as a space between the cutting edge 57 and the cutting edge 57 which is fixedly installed, it is naturally formed.

On the other hand, the pinion of the drive center shaft 25 is installed on each of the main shaft (5) decelerating rotation through the first power transmission means of the solid wood rotary cutting machine (1) of the present invention, and at the same time rotated by the second power transmission means On one side of the main reduction gear 7 engaged with the (27), as shown in Figure 3 the first power transmission means and the second power transmission means is linked to the main shaft to decelerate rotation through the first power transmission means The third reduction according to the corresponding rotation with the pinion 27 in the state in which the pinion 27 of the drive center shaft 25 deceleratingly rotates through the second power transmission means and the main reduction gear 7 of 5 are engaged. The main drive sprocket 8 is fixedly installed to transmit the rotational force of the main reduction gear 7 in the decelerated state to the transmission gear group 33 through chain transmission.

In addition, between the main reduction gear 7 and the transmission gear group 33, the transmission gear group connecting shaft 30 to transfer the rotational force reduced from the main reduction gear 7 to the transmission gear group 33 through chain transmission. At this time, one side of the transmission gear group connecting shaft 30 is connected to the main sprocket (8) fixed to one side of the main reduction gear (7) is connected to the connection sprocket 31 is connected to the chain On the other side of the transmission gear group connecting shaft 30, a second reduction sprocket 34a formed at one side of the transmission gear group 33, that is, at one end of the transmission gear train 34, arranged in two rows. ) And a second drive sprocket 32 is chained and fixed.

Thus, in the case of the transmission gear group 33 chained with the main reduction gear 7 via the connecting sprocket 31 and the second driving sprocket 32 of the transmission gear group connecting shaft 30, the veneer (C) sheet thickness In addition to the rotational force setting corresponding to the transmission gear set to transfer the set rotational force to the side of the wood processing unit, as shown in Figure 3, the transmission gear train (34) arranged in two rows to correspond to each other to match the thickness of the wood veneer (C) sheet (34) 36); A connection gear 35 configured to connect the gears of the transmission gear trains 34 and 36 to the thickness of the veneer C thin plate; It is formed at one end of the one side gear train row 34 and is connected to the second drive sprocket 32 on the other side of the transmission gear group connecting shaft 30, thereby reducing the rotational force transmitted from the transmission gear group connecting shaft 30 by four times. A second reduction sprocket 34a which is transmitted to the coupling gear 35; It is formed at one end of the other transmission gear train 36 and is chained to the wood workbench drive means, and transmits the rotational force transmitted to the other transmission gear train 36 through the coupling gear 35 to the wood workbench drive means. It consists of three drive sprockets 36a.

In the case of the first power transmission means for forming a power connection state between the main shaft electric motor 3 and the main shaft 5 by belt transmission and chain transmission among the solid wood rotary cutting machine 1 of the present invention, the main shaft electric motor ( It is an element that decelerates the rotational force of 3) by primary and secondary and transmits it to the main shaft 5, which is connected to the drive pulley 4 of the main shaft electric motor 3 by a belt transmission method as shown in FIG. A first connecting shaft 10 which firstly decelerates the rotational force of the main shaft electric motor 3 and transmits it to the main shaft 5 side; The main shaft is connected to the first connecting shaft 10 by a chain transmission method to decelerate the rotational force transmitted from the first connecting shaft 10 to the second speed so that the main shaft 5 is rotated at the same rotational force. It consists of the 1st speed reduction sprocket 6 provided in the end of the shaft 5. As shown in FIG.

Here, one side of the first connecting shaft 10 is connected to the drive pulley 4 of the main shaft electric motor 3 and the belt is transferred from the main shaft electric motor 3 to the first connecting shaft 10 at the same time. The first deceleration pulley 11 is installed and fixed to decelerate the rotational force to be the primary, and the other side of the first connecting shaft 10 is the main shaft transmission which is primarily decelerated and transmitted through the first reduction pulley 11. The first driving sprocket 12 is chained and fixed to the first reduction sprocket 6 installed at one end of the main shaft 5 so as to transmit the rotational force of the motor 3 to the main shaft 5.

In addition, the second power transmission means for forming a power connection state between the pinion electric motor 20 and the drive center shaft 25 in which the pinion 27 is fixed by belt transmission of the solid wood rotary cutting machine 1 of the present invention. As an element that transmits the rotational force of the pinion electric motor 20 to the first and second deceleration and transmits it to the pinion 27 which is engaged with the main reduction gear 7, the pinion electric motor (as shown in FIGS. 2 and 3). The second connection is connected to the drive pulley 21 of the 20 by the belt transmission method to decelerate the rotational force of the pinion electric motor 20 to the drive center shaft 25 to which the pinion 27 is coupled. A shaft 22; The drive is connected to the second connecting shaft 22 by a belt transmission method to secondly decelerate the rotational force transmitted from the second connecting shaft 22 to the rotation of the driving center shaft 25 by the same rotational force. It consists of the 3rd speed reduction pulley 26 provided in the one end of the center shaft 25. As shown in FIG.

Here, one side of the second connecting shaft 22 is connected to the belt and the drive pulley 21 of the pinion electric motor 20 and at the same time the rotational force transmitted from the pinion electric motor 20 to the second connecting shaft 22. The second deceleration pulley 23 is installed and fixed to decelerate the primary, and the other side of the second connecting shaft 22 receives the rotational force of the pinion electric motor 20 which is first decelerated and transmitted through the second deceleration pulley. The driven pulley 24, which is belt-connected with the third deceleration pulley 26 provided at one end of the drive center shaft 25, is fixed to be installed so as to be transmitted to the drive center shaft 25.

In addition, in the case of the pinion 27 fixed to the drive center shaft 25, the main reduction gear 7 is rotated to the third speed through the rotational force transmitted from the second power transmission means. It is installed and fixed on both sides of the drive center shaft 25 so as to be spaced apart from each other so as to correspond to the main reduction gear 7.

Further, in the wooden rotary cutting machine 1 of the present invention, it is preferable in the case of the power transmission belt used for the main shaft electric motor 3, the workbench electric motor 44 and the pinion electric motor 20 and the belt transmission. For example, V-belt with greater friction than flat belt is used.

In addition, in the case of the wood workbench driving means of the wood rotary cutting machine 1 of the present invention, the workbench installed on both sides of the wood workbench 53 through the rotational force decelerated and transmitted from the transmission gear group 33 by chain transmission and gear transmission. As the guide screw rod 50 of the transfer device 45 is rotated, the wood processing bench 53 is moved in accordance with the transfer action of the transfer nut parts 55a of both sides of the wood processing bench 53 which are fastened corresponding to the guide screw rod 50. An element for transferring to the side of the solid wood (L) which is fixedly rotated by the wood fixing chuck 60 by the set thickness of the pattern wood (C), as shown in FIGS. 3 and 4, that is, the other side of the transmission gear train 33 (36) drive shafts (40a, 40b) which are interaxially separated on both sides with a clutch sprocket (41) chained with a third drive sprocket (36a) at one end; A clutch 42 which connects the drive shafts 40a and 40b separated between the shafts and transfers the fifth reduction rotational force transmitted to the one drive shaft 40a through the clutch sprocket 41 to the other drive shaft 40b; A fourth driving sprocket 43 installed and fixed to both sides of the other driving shaft 40b, and transmitting a fifth reduction rotational force of the other driving shaft 40b to the wood processing table 53 through chain transmission; Correspondingly installed on both sides of the wood processing table 53 and connected to the fourth drive sprocket 43 of the other drive shaft (40b), and is operated according to the rotational force transmitted from the other drive shaft (40b) while the veneer (C) sheet thickness The wood processing table 53 is composed of a processing table transfer device 45 for transferring the fixed wood (L) side.

Here, one side of the clutch 42 is provided with a clutch sprocket 41 which is chained with a third drive sprocket 36a of one end of the other transmission gear train 36, and the drive shafts 40a and 40b separated from each other on both sides are mutually connected. Clutch operating lever (42a) for the inter-power transmission can be made is fixed.

In addition, the front and rear transfer pulley 44a, which is connected to the workbench electric motor 44 and the belt, is fixed to one end of the other drive shaft 40b among the drive shafts 40a and 40b, and the drive shafts 40a and 40b separated between the shafts. When the clutch 42 installed for the power connection is separated, the other drive shaft 40b is rotated by the chain drive while the other side drive shaft 40b is rotated by the rotational force of the worktable electric motor 44 which is reduced and transmitted through the front and rear feed pulley 44a. By operating the work table feeder 45 is a rapid front and rear feed of the wood processing table 53 for the initial setting of the wood (L) is made.

In addition, in the case of the worktable feeder 45, a third connecting shaft 46 having a third reduction sprocket 47 at one end thereof so as to be connected to the fourth driving sprocket 43 of the other driving shaft 40b. and; A driving bevel gear 48 fixed to the other end of the third connecting shaft 46; A driven bevel gear 49 that is engaged with the driving bevel gear 48 and finally decelerates the sixth reduced rotational force transmitted to the third connecting shaft 46 through the third reduction sprocket 47; It is formed integrally at the center of the driven bevel gear 49 and installed on both sides of the wood processing bench 53, while rotating in accordance with the final rotational force transmitted from the driven bevel gear 49, the wood processing table 53 to the veneer ( C) It is composed of a guide screw rod (50) for transferring to the solid wood (L) side fixed by the thickness of the thin plate.

Hereinafter, the operation of the solid wood rotary cutting machine 1 according to the present invention will be described in detail with reference to the drawings.

Figure 8 is a state diagram showing the operation of the solid wood rotary cutting machine according to the present invention, Figure 9 shows a thin wood veneer cut by the solid wood rotary cutting machine of the present invention.

The solid wood rotary cutting machine 1 of the present invention configured as shown in FIG. 1 is used to cut the solid wood L to a thin thickness to produce a strip of veneer (C) sheet in the form of a strip or single plate. Solid wood (L) in the solid wood chuck 60 is located concentrically or eccentrically of the main shaft (5), as shown in Figure 8 (a) of the solid wood fixing bolt 60 installed through the solid wood chuck ( Both ends of the solid wood (L) through the binding port 63 of 62) to secure the solid wood (L) to the solid wood chuck 60.

Then, when the wooden rotary cutting machine 1 of the present invention is operated while the solid wood L is fixed to the solid wood chuck 60 as described above, the main shaft electric motor 3 and the pinion electric motor 20 and The worktable electric motor 44 is driven, respectively. In this case, the process of transmitting power to the rotary wood cutting machine 1 according to the driving of each electric motor will be described in detail with reference to FIG. 4 for each electric motor.

First, in the case of the main shaft electric motor (3) is made a power connection state with the main shaft (5) separated on both sides through the first power transmission means driven by belt transmission and chain transmission, wherein the main The rotational force of the shaft electric motor 3 is transmitted to the first connecting shaft 10 in a first decelerated state through the first deceleration pulley 11 belted with the drive pulley 4 of the main shaft electric motor 3. The first deceleration rotation force transmitted to the first connecting shaft 10 may include a first deceleration sprocket having one end of the main shaft 5 chained with the first driving sprocket 12 through the first driving sprocket 12. 6, the second deceleration is made according to the corresponding rotation between the first drive sprocket 12 and the first reduction sprocket 6 by the chain, and the second decelerated rotation force is the first reduction sprocket 6 The first deceleration pulley 11 and the first reduction sprocket ( The main shaft 5 rotates in the 1st and 2nd deceleration state by 6).

In addition, in the case of the pinion electric motor 20 is made a power connection state with the drive center shaft 25, the pinion 27 is installed through the second power transmission means is driven by belt transmission, the pinion transmission The rotational force of the motor 20 is transmitted to the second connecting shaft 22 in a first decelerated state through a second deceleration pulley belted to the drive pulley 21 of the pinion electric motor 20, and the second connection The primary deceleration torque transmitted to the shaft 22 is transmitted to the third reduction pulley 26 of one end of the drive center shaft 25 connected to the driven pulley 24 and the belt through the driven pulley 24 to the belt. Secondary deceleration is made according to the corresponding rotation between the driven pulley 24 and the third deceleration pulley 26, and the second decelerated rotational force is transmitted to the drive center shaft 25 through the third reduction pulley 26. Driven in the first and second decelerated state by the second deceleration pulley and the third deceleration pulley 26, etc. The main reduction gear 7 of the main shaft 5 which is rotated in the primary shaft 5 through the first power transmission means while the shaft 25 is rotated and installed in the drive center shaft 25 to achieve the same rotation. According to the corresponding rotation between the pinion 27 and the main reduction gear 7 connected to each other, the main reduction gear 7 rotates together with the main shaft 5 in a third decelerated state.

In addition, in the case of the worktable electric motor 44, the front and rear feed pulleys 44a are fixed to one end of the drive shafts 40a and 40b separated between the shafts by belt transmission, and the power is connected to the other drive shaft 40b. In addition, the clutch 42 is installed between the driving shaft 40a and 40b by installing a clutch 42 for power connection between the other driving shaft 40b and one side driving shaft 40a on which one end of the clutch sprocket 41 is fixed. The fourth drive sprocket installed on both sides of the other drive shaft 40b while the other drive shaft 40b is rotated by the rotational force of the worktable electric motor 44 which is decelerated and transmitted through the front and rear feed pulley 44a during separation. Deceleration of the other side drive shaft 40b to the third connecting shaft 46 through the worktable feeder 45 chained with 43, that is, the third reduction sprocket 47 chained with the fourth drive sprocket 43; To transmit rotational force, and to the third connecting shaft 46. The transmitted rotational force is transmitted to the driven bevel gear 49 meshed with the driving bevel gear 48 through the driving bevel gear 48 installed at the other end of the third connecting shaft 46, and at the same time, the driving bevel gear 48. ) Is finally decelerated according to the corresponding rotation between the driven bevel gear 49 and the guide screw rod 50 coupled to the transfer nut portions 55a of both sides of the wood processing table 53, thereby rotating the guide screw rod 50. According to the wood processing stage 53 is the initial processing of the wood processing stage 53 is made such that the rapid transport to the side of the wood (L) fixed to the solid wood chuck 60 is made.

On the contrary, the clutch separated to make the power connection between the drive shafts 40a and 40b separated between the shafts for cutting the wood L fixed to the wood fixing chuck 60 in the form of strips or veneers C. In connection with (42), the clutch (4) is decelerated via the transmission gear group (33) where the fourth reduction is performed from the main reduction gear (7) which rotates in the third deceleration state in association with the first power transmission means and the second power transmission means. 42) power connection is made to the drive shafts (40a, 40b) by, the rotational force of the main deceleration gear (7), the third deceleration through the second power transmission means is one side of the main reduction gear (7) The main drive sprocket 8 is connected to the transmission gear group connecting shaft 30 installed between the main reduction gear 7 and the transmission gear group 33 through a connecting sprocket 31 connected to the chain, and the transmission gear group connecting shaft ( The rotational force transmitted to 30 is the second drive sprocket 32 On one side of the transmission gear group 33 chained to the second drive sprocket 32, that is, two gear rows 34, 36 arranged in two rows through one row of the second gear sprocket 34, one end of the second reduction sprocket (34a) The fourth deceleration is performed according to the corresponding rotation between the second drive sprocket 32 and the second deceleration sprocket 34a by the chain, and in the fourth deceleration state through the second deceleration sprocket 34a. The rotational force transmitted to one side gear train row 34 side is the other transmission gear train 36 through the connecting gear 35 which is engaged with the corresponding gears of each gear wheel row 34 and 36 to match the thickness of the veneer (C) sheet thickness. At the same time, the woodworking table driving means chained to the third drive sprocket 36a through the third drive sprocket 36a of the other transmission gear train 36, that is, the drive shafts 40a and 40b separated from each other. Clutch sprocket at one end of drive shaft 40a ( 41, as well as being transmitted to the side, the one side drive shaft 40a and the one side drive shaft 40a through the one side drive shaft 40a and the clutch 42 in a state where the fifth reduction is made according to the corresponding rotation between the third drive sprocket 36a and the clutch sprocket 41. ) Is transmitted to the other drive shaft 40b which is in power connection with the drive shaft 40b and the other drive shaft 40b and the other drive shaft 40b are rotated in the fifth decelerated state.

In addition, the rotational force of the other drive shaft 40b transmitted in the fifth decelerated state through the clutch sprocket 41 and the clutch 42 is the same as the transfer process of the wood processing table 53 when the clutch 42 is separated. The third connecting shaft 46 in the state of being decelerated sixth through the third reduction sprocket 47 of the worktable feeder 45 chained with the fourth driving sprocket 43 fixed to both sides of the other driving shaft 40b. ) And the rotational force transmitted to the third connecting shaft 46 is driven by the driving bevel gear 48 through the driving bevel gear 48 installed at the other end of the third connecting shaft 46. A guide screw rod which is transmitted to the bevel gear 49 and is finally decelerated according to the corresponding rotation between the driving bevel gear 48 and the driven bevel gear 49 and coupled to both feed nut portions 55a of the wood processing table 53. The wood processing according to the rotation of the guide screw rod 50 while being transmitted to 50 The front 53 of the wood processing bench 53 while the 53 is transferred to the wood (L) side fixed to the wood fixing chuck 60 by the thickness of the wood (C) only the thickness set by the transmission gear group (33) Main shaft (5) rotated in the third decelerated state through the main reduction gear (7) associated with the first power transmission means and the second power transmission means through the cutting blades 57 opposed to each other in the state spaced apart from each other (5) Continuously processing the outer circumferential surface of the solid wood (L) to make the same rotation or eccentric rotation in one direction by being fixed eccentrically or unilaterally to the solid wood chuck 60 to achieve the same rotation or As shown in Figure 8 (b) according to the cutting operation for processing only one surface of the outer peripheral surface of the solid wood (L) to produce a strip of veneer (C) in the form of a strip or single plate, the produced veneer of the strip or single plate form (C) The thin plate is as shown in Fig. 8C. It is discharged to the bottom of the back of the wood processing bench 53 through the natural wood veneer outlet 58 formed by the space between the cutting edges 57 and connected to the bottom of the back surface of the wood processing bench 53 from the woodless processing outlet 53. All the work of the production of wood veneer (C) by using the rotary rotary cutting machine 1 of the present invention, such as is discharged and supplied to the external worker along the slide discharge path 59 is loaded as shown in FIG. do.

As described above, the above-described embodiments are described with reference to the most preferred examples of the present invention, but are not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention. .

The solid wood rotary cutting machine of the present invention transmits the rotational force of each electric motor through the interlocked first and second power transmission means to a wooden fixing chuck fixed to the main shaft and one end of the main shaft in a decelerated state to fix the wooden. At the same time as the rotation of the wood fixed concentrically or eccentrically to the chuck is carried out, the wood processing bench is moved to the fixed wood side by the set thickness of the wood veneer by means of the wood processing bench driving means operated by the transmission gear group associated with the main shaft. Domestic production of wood veneer through the wood rotary cutting machine by constructing a wood rotary cutting machine to produce a strip of thin strip or single plate in the form of a strip by cutting the outer circumferential surface of solid wood through only the cutting edge of the workbench. Import substitution effect on conventional high-cost veneer imports as work is possible Yirum as well as has an excellent effect such as to significantly reduce the high cost of the veneer in economic terms.

In addition, in the present invention, in the production of thin plate-like patterned wood using the solid wood slab thickness set to the side of the solid wood is fixed to the solid wood fixed rotation through the wood working table driving means operated by a gear group connected to the main shaft By transporting the engineer, it is possible to mass-produce the veneer with a uniform thickness, as well as the mass production of the veneer, as described above, there is also an effect such as to significantly reduce the cost of the high-cost veneer according to the conventional import.

In addition, in the present invention, the method of fixing the solid wood, that is, the main shaft and the fixed wooden chuck concentrically or eccentrically fixed the wood, such as cutting the outer circumferential surface of the fixed wood through the cutting edge of the wood processing table or only one surface According to the method, since a single strip cutting machine can produce strips or strips of veneer pattern, it is possible to greatly shorten the working process and working time according to each production type of the stepless wood cutting machine. There is also an effect that can significantly shorten the overall working time of the production of different veneers used.

Claims (10)

Main shaft electric motor (3) for rotation of the main shaft (5) separated on both sides, processing table electric motor (44) for forward and backward transfer of the wood processing table 53, and the main reduction gear installed in the main shaft (5) A pinion electric motor 20 for rotation of the pinion 27 engaged with (7); A wooden fixing chuck 60 fixed to each end of the main shaft 5 to fix the log L concentrically or eccentrically of the main shaft 5; Solid wood processing table 53 for producing a pattern (C) sheet through the cutting of the continuous or one surface of the outer peripheral surface of the solid wood (L) to be fixed to the solid wood chuck 60 and; A transmission gear group 33 for transmitting the set rotational force to the woodworking table driving means side together with the rotational force setting corresponding to the thickness of the wood veneer C; First power transmission means for reducing the rotational force of the main shaft electric motor (3) to transmit the reduced rotational force to the main shaft (5); Second power transmission means for reducing the rotational force of the pinion electric motor 20 and transmitting the reduced rotational force to the pinion 27 which is engaged with the main reduction gear 7; A wood workbench driving means for transferring the wood workbench 53 by the set thickness of the wood veneer C while being interlocked through the rotational force transmitted from the transmission gear group 33; And a drive center shaft 25 for rotating the main reduction gear 7 of the main shaft 5 through the pinion 27 while rotating according to the rotational force transmitted by the second power transmission means. Solid wood rotary cutter for sheet wood lamination. According to claim 1, wherein the solid wood chuck 60 is formed on the rear surface of the main shaft insertion groove 61 to be inserted into one end of each main shaft 5, the front of the solid wood (L) The wooden fixing bolt 62 for fixing both ends of the) is formed in the form of a disk fastened to the nut, and one end of the wooden fixing bolt 62 to dig and fix the end of the solid wood (L) when tightening the bolt (凹) ) Solid wood rotary cutting machine for wood veneer processing, characterized in that the fastener (63) of the form formed integrally. According to claim 1, The wood processing table 53 is a half-moon-shaped body portion 55 in which the cutting edge seat portion 56 protrudes in a triangular shape while being separated vertically; An adjusting handle (54) for positioning the upper and lower sides of the body portion (55) back and forth and up and down; Cutting edges 57 fixedly installed to face each cutting edge seating portion 56 of the body portion 55; Veneer discharge port 58 formed from the cutting edge 57 between the body portion 55 back side; And a corrugated slide discharge path 59 connected to the lower rear side of the lower rear surface of the body portion 55 from the Mooney wood discharge port 58. 2. The driving device according to claim 1, wherein one side of the main reduction gear (7) rotates slowly through the main reduction gear (7) and the second power transmission means of the main shaft (5) which are decelerated and rotated by the first power transmission means. The pinion 27 of the center shaft 25 is engaged with the main drive sprocket 8 for transmitting the rotational force of the main reduction gear 7 decelerated by the pinion 27 to the transmission gear group 33 side. Installed, The main drive sprocket 8 of the main reduction gear 7 is configured to transmit the third rotation reduction force from the main reduction gear 7 to the transmission gear group 33 between the main reduction gear 7 and the transmission gear group 33. ) And a transmission gear group connecting shaft 30 having a connection sprocket 31 connected to the chain and a second drive sprocket 32 connected to one side of the transmission gear group 33 is installed. Solid wood rotary cutting machine. 5. The transmission gear group (33) according to claim 4, wherein the transmission gear group (33) comprises: transmission gear trains (34, 36) arranged in two rows so as to correspond to each other according to the thickness of the veneer (C) sheet; A connection gear 35 configured to connect the gears of the transmission gear trains 34 and 36 to the thickness of the veneer C thin plate; It is formed at one end of the transmission gear train 34 of the transmission gear trains 34 and 36 and is connected to the second drive sprocket 32 at the same time, and is connected by reducing the rotational force transmitted from the transmission gear group connecting shaft 30 by a fourth order. A second reduction sprocket 34a which is transmitted to the gear 35 side; It is formed at one end of the other transmission gear train (36, 36) of the transmission gear train (34, 36) and is connected to the wood processing table driving means, the rotational force transmitted to the other transmission gear train (36) through the coupling gear (35) Solid wood rotary cutting machine for wood veneer processing, characterized in that consisting of a third drive sprocket (36a) to be transmitted to the side of the drive means. According to claim 1, wherein the first power transmission means for reducing the rotational force of the main shaft electric motor (3) to the primary shaft 5, the first reduction gear pulley 11 and the first drive on one side and the other side A first connecting shaft (10) having a sprocket (12) and belt connected to the drive pulley (4) of the main shaft electric motor (3); The main shaft is chained with the first driving sprocket 12 of the first connecting shaft 10, and decelerated and transmitted by the first connecting shaft 10 to the main shaft with the same rotational force as the second reduced rotational force. Solid wood rotary cutting machine for wood veneer processing, characterized in that made of a first reduction sprocket (6) installed on one end of the main shaft (5) so that the rotation of the (5). The second speed transmission pulley according to claim 1, wherein the second power transmission means decelerates the rotational force of the pinion electric motor 20 first and transmits it to the drive center shaft 25 to which the pinion 27 is coupled. A second connecting shaft 22 having a 23 and a driven pulley 24 and belt-connected to the drive pulley 21 of the pinion electric motor 20; The drive center shaft is connected to the driven pulley 24 of the second connecting shaft 22 by a belt, and secondly decelerates the rotational force transmitted from the second connecting shaft 22 to the same rotational force as the second reduced rotational force. The rotary rotary cutting machine for wood veneer processing, characterized in that consisting of a third reduction pulley (26) installed at one end of the drive center shaft (25) to achieve the rotation of the 25. The woodworking table drive means includes: drive shafts (40a, 40b) interaxially separated on both sides with a clutch sprocket (41) chained with the other side of the gear group (33); A clutch 42 which connects the drive shafts 40a and 40b separated between the shafts and transfers the fifth reduction rotational force transmitted to the one drive shaft 40a through the clutch sprocket 41 to the other drive shaft 40b; A fourth driving sprocket 43 installed and fixed to both sides of the other driving shaft 40b, and transmitting a fifth reduction rotational force of the other driving shaft 40b to the wood processing table 53 through chain transmission; Correspondingly installed on both sides of the wood processing table 53 and connected to the fourth drive sprocket 43 of the other drive shaft (40b), and is operated according to the rotational force transmitted from the other drive shaft (40b) while the veneer (C) sheet thickness Solid wood rotary cutting machine for wood veneer lamination, characterized in that consisting of a processing table feeder 45 for transferring the wood processing table 53 to the fixed wood (L) side. The third connecting shaft 46 of claim 8, wherein the worktable feeder 45 is provided with a third reduction sprocket 47 at one end thereof so as to be chained with the fourth driving sprocket 43 of the other driving shaft 40b. )and; A driving bevel gear 48 mounted to the third connecting shaft 46; A driven bevel gear 49 that is engaged with the driving bevel gear 48 and finally decelerates the sixth reduced rotational force transmitted to the third connecting shaft 46 through the third reduction sprocket 47; It is formed integrally at the center of the driven bevel gear 49 and installed on both sides of the wood processing bench 53, while rotating in accordance with the final rotational force transmitted from the driven bevel gear 49, the wood processing table 53 to the veneer ( C) Solid wood rotary cutting machine for sheet metal sheet processing, characterized in that consisting of a guide screw rod (50) for transporting to the fixed (L) side of the solid wood thickness. 8. The drive center as set forth in claim 7, wherein the pinion (27) is correspondingly engaged with the main reduction gear (7) in order to rotate the main reduction gear (7) three-degree rotation through the rotational force decelerated from the second power transmission means. Solid wood rotary cutting machine for sheet metal sheet processing, characterized in that each installed separately on both sides of the shaft (25).

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