Abstract
A delivery chain apparatus of wood-working machine with saw blades is disclosed. The delivery chain apparatus is formed into a loop by pivoting track units. The surface of each track unit is provided at least with a chain, each chain is locked on the track unit, some chains are made of metal, and the surface of a metallic chain is provided with teeth. The delivery device revolves on a desktop by power to send wood boards below the saw blades. The present invention is characterized in that the chains on the track units of the delivery device are combination of non-skid chains and the metallic chains, with the non-skid chains being made of rubber.
Claims
1. A delivery chain apparatus of wood-working machine with saw blades, comprising a table which includes a desktop, a control device, a main shaft, saw blades and a delivery device, wherein a power device transmits power to the main shaft, the saw blades are mounted on the main shaft, a lower side of the saw blades is the delivery device, the delivery device is formed into a loop by pivoting strip-like track units, the surface of each track unit is provided with at least one chain, each chain is locked on the track unit, some of the chains are metallic chains made of metal, the surface of a metallic chain is provided with teeth, and the delivery device revolves on the desktop by power to send wood boards below the saw blades; wherein the chains on the track units of the delivery device are combination of non-skid chains and the metallic chains, with the non-skid chains being made of rubber.
2. The delivery chain apparatus of a wood-working machine with saw blades, according to claim 1, wherein the area of distribution of the non-skid chain is the same as the area of distribution of the metallic chain on the delivery device.
3. The delivery chain apparatus of a wood-working machine with saw blades, according to claim 1, wherein the surface of a track unit is provided with a metallic chain, the surface of an adjacent track unit is provided with a non-skid chain, and the metallic chain is next to the non-skid chain.
4. The delivery chain apparatus of a wood-working machine with saw blades, according to claim 1, wherein the surface of a track unit is provided with a half-length metallic chain and a half-length non-skid chain that are arranged up-down, the surface of an adjacent track unit is provided with a half-length non-skid chain and a half-length metallic chain that are arranged up-down, and the half-length metallic chain of a track unit is next to the half-length non-skid chain of an adjacent track unit.
5. The delivery chain apparatus of a wood-working machine with saw blades, according to claim 1, wherein the surface of a track unit is provided with a one-third-length metallic chain, a one-third-length non-skid chain and a one-third-length metallic chain that are arranged top-middle-bottom, and the surface of an adjacent track unit is provided with a one-third-length non-skid chain, a one-third-length metallic chain and a one-third length non-skid chain; whereas, the one-third-length metallic chain of a track unit is next to the one-third-length non-skid chain of an adjacent track unit.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] FIG. 1 shows a three-dimensional external view of a conventional wood-working machine with saw blades.
[0017] FIG. 2 shows a planar view of the conventional wood-working machine with saw blades, with a shield being dismantled.
[0018] FIG. 3 shows a three-dimensional external view of a conventional delivery device and an all metallic chain seat thereof.
[0019] FIG. 4 shows a planar view of saw marks which are formed on a conventional wood board after cutting the wood board.
[0020] FIG. 5 shows a three-dimensional external view of the conventional delivery device and an all rubber chain thereof.
[0021] FIG. 6 shows a three-dimensional external view of the present invention after dismantling the shield.
[0022] FIG. 7 shows a three-dimensional view of a first embodiment of the delivery device, according to the present invention.
[0023] FIG. 8 shows a top view of the first embodiment of the delivery device, according to the present invention.
[0024] FIG. 9 shows a front view of the first embodiment of the delivery device, according to the present invention.
[0025] FIG. 10 shows a front view of partially enlarged portion of the first embodiment of metallic chains and non-skid chains, according to the present invention.
[0026] FIG. 11 shows a three-dimensional view of a second embodiment of the delivery device, according to the present invention.
[0027] FIG. 12 shows a top view of the second embodiment of the delivery device, according to the present invention.
[0028] FIG. 13 shows a three-dimensional view of a third embodiment of the delivery device, according to the present invention.
[0029] FIG. 14 shows a top view of the third embodiment of the delivery device, according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0030] Referring to FIG. 6, the present invention is a table 20. The table 20 is provided primarily with a desktop 21, a control device 22, a main shaft 23, saw blades 24 and a delivery device 25. A power device (which belongs to a conventional technology and thus is not shown in the drawing) transmits power to the main shaft 23, the saw blades 24 are mounted on the main shaft 23 and rotate simultaneously with the main shaft 23. A lower side of the saw blades 24 is the delivery device 25, and the delivery device 25 is formed into a loop (as shown in FIG. 7) by pivoting strip-like track units 251 parallel. A surface of each track unit 251 is provided at least with a chain 30, and each chain 30 is locked on the track unit 251. Some chain seats are metallic chains 31 made of metal, and a surface of the metallic chain 31 is provided with teeth 310. The delivery device 25 revolves on the desktop 21 by power and sends wood boards below the saw blades 24. The control device 22 controls the activation of power and detects the speed of wood boards and delivery device 25. The present invention is primarily characterized in that the chains 30 on the track units 251 of the delivery device 25 are combination of non-skid chains 32 and the metallic chains 31, with the non-skid chains 32 being made of rubber. In addition, the area of distribution of the non-skid chains 32 and the area of distribution of the metallic chains 31 are the same on the delivery device 25.
[0031] By the abovementioned structures, a first embodiment of the present invention is shown in FIGS. 7 to 10. The surface of a track unit 251 of the delivery device 25 is provided with a metallic chain 31, and the surface of a neighboring track unit 251 is provided with a non-skid chain 32. The metallic chain 31 is next to the non-skid chain 32, the metallic chain 31 covers the entire surface of the track unit 251, and the non-skid chain 32 also covers the entire surface of the track unit 251. With the combination of metallic chain 31 and non-skid chain 32 that are arranged next to each other, the non-skid chain 32 will achieve the effect of anti-slip and anti-vibration, the wood board will not vibrate, no saw marks will be formed on the cutting plane upon cutting the wood board, and there is no need to do a secondary processing to re-smooth the saw marks on the cutting plane. Therefore, as there is no unnecessary secondary processing, it saves time and labor. In addition, because the area of the metallic chain 31 is the same as the area of the non-skid chain 32, the lifetime of use of the non-skid chain 32 can be extended as a half of the area of the chains belongs to the metallic chain 31.
[0032] A second embodiment of the present invention is shown in FIG. 11 and FIG. 12. The surface of a track unit 2501 of the delivery device 250 is provided with a half-length metallic chain 311 and a half-length non-skid chain 321; the half-length metallic chain 311 and the half-length non-skid chain 321 are arranged up-down. The surface of an adjacent track unit 2501 is provided with a half-length non-skid chain 321 and a half-length metallic chain 311; the half-length non-skid chain 321 and the half-length metallic chain 311 are arranged up-down. The surface of the half-length metallic chain 311 is provided with teeth 3110. The half-length metallic chain 311 of a track unit 2501 is next to the half-length non-skid chain 321 of an adjacent track unit 2501, and the half-length non-skid chain 321 of a track unit 2501 is also next to the half-length metallic chain 311 of an adjacent track unit 2501. This means that the surface of every track unit 2501 is provided with the half-length metallic chain 311 and the half-length non-skid chain 321, and the half-length metallic chain 311 and the half-length non-skid chain 321 on the surface of adjacent track units 2501 compensate to each other. Accordingly, the corresponding contact surface of the wood board is pressed by the half-length non-skid chain 321 and the half-length metallic chain 311, and the effect of anti-slip and anti-vibration can be achieved by the half-length non-skid chain 321. The wood board will not vibrate, and there are no saw marks on the cutting plane upon cutting the wood board. In addition, there is no need to do a secondary processing to re-smooth the saw marks on the cutting plane. As the unnecessary secondary processing is removed, it can save time and labor. Furthermore, the area of half-length metallic chain 311 is equal to the area of half-length non-skid chain 321; therefore, a half area of the surface of track unit 2501 is aided by the half-length metallic chain 311, and the lifetime of use of the half-length non-skid chain 321 can be extended.
[0033] A third embodiment of the present invention is shown in FIG. 13 and FIG. 14. The surface of a track unit 25001 of the delivery device 2500 is provided with a one-third-length metallic chain 3111, a one-third-length non-skid chain 3211 and a one-third-length metallic chain 3111; the one-third-length metallic chain 3111, the one-third-length non-skid chain 3211 and the one-third-length metallic chain 3111 are arranged top-middle-bottom. The surface of an adjacent track unit 25001 is provided with a one-third-length non-skid chain 3211, a one-third-length metallic chain 3111, and a one-third-length non-skid chain 3211; the one-third-length non-skid chain 3211, the one-third-length metallic chain 3111, and the one-third-length non-skid chain 3211 are arranged top-middle-bottom. The surface of the one-third-length metallic chain 3111 is provided with teeth 31110. The one-third-length metallic chain 3111 on top of a track unit 25001 is next to the one-third-length non-skid chain 3211 on top of an adjacent track unit 25001, the one-third-length non-skid chain 3211 in the middle of a track unit 25001 is next to the one-third-length metallic chain 3111 in the middle of an adjacent track unit 25001, and the one-third-length metallic chain 3111 on bottom of a track unit 25001 is also next to the one-third-length non-skid chain 3211 on bottom of an adjacent track unit 25001. Accordingly, the corresponding contact surface of the wood board is pressed by the one-third-length non-skid chain 3211 and the one-third-length metallic chain 3111, and the effect of anti-slip and anti-vibration can be achieved by the one-third-length non-skid chain 3211. The wood board will not vibrate, and there are no saw marks on the cutting plane upon cutting the wood board. In addition, there is no need to do a secondary processing to re-smooth the saw marks on the cutting plane. As the unnecessary secondary processing is removed, it can save time and labor. Furthermore, as the area of one-third-length metallic chain 3111 is equal to the area of one-third-length non-skid chain 3211, and a half area of the surface of track unit 25001 is aided by the one-third-length metallic chain 3111, the lifetime of use of the one-third-length non-skid chain 3211 is extended.
[0034] In the present invention, the conventional all metallic chains or the conventional all rubber chains are replaced by combination of the non-skid chains 32 and the metallic chains 31. The non-skid chains 32 and the metallic chains 31 are arranged next to each other, or the half-length metallic chains 311 and the half-length non-skid chains 321 are arranged alternatingly, or the one-third-length non-skid chains 3211, the one-third-length metallic chains 3111 and one-third-length non-skid chains 3211 are arranged symmetrically top-middle-bottom. The combination can achieve the effect of anti-slip and anti-vibration, and can also extend the lifetime of use of the non-skid chains 32 (half-length non-skid chains 321, one-third-length non-skid chains 3211). In addition, the acute teeth 310 (teeth 3110, teeth 31110) on the surface of metallic chains 31 (half-length metallic chains 311, one-third-length metallic chains 3111) can be also prevented from degenerating into the obtuse teeth 310 (teeth 3110, teeth 31110), which avoids the condition that the wood board cannot be engaged.
[0035] It is of course to be understood that the embodiments described herein is merely illustrative of the principles of the invention and that a wide variety of modifications thereto may be effected by persons skilled in the art without departing from the spirit and scope of the invention as set forth in the following claims.
