One man circular saw mill

The circular saw mill has an engine driven circular saw on a carriage. The carriage has a table that catches the sawn lumber and caries it back to the operator. The saw mill is laid out so one man can operate the mill, which eliminates the necessity for extra help. The set works for the saw mill has a hand lever at the operator station so the operator can advance the log towards the saw, controlling the thickness of the board to be cut. The log is held in a position for cutting by conventional dog asssemblies. The carriage is moved by a conventional chain and sprocket mounted on a hydraulic motor powered by a hydraulic power unit.

CROSS-REFERENCES TO RELATED APPLICATIONS 
None. 
STATEMENT AS TO RIGHTS TO INVENTIONS MADE UNDER FEDERALLY SPONSORED 
RESEARCH AND DEVELOPMENT 
Not applicable. 
BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention is a saw mill with a circular saw that is operable by 
one man. 
2. Description of Prior Art 
A screening search was run by Richard C. Litman, Registered Patent 
Attorney, and the following patents were discovered: 
______________________________________ 
4,753,144 
06/28/88 May 
5,036,738 08/06/91 May 
5,046,391 09/10/91 Lewis et al. 
5,109,899 05/05/92 Henderickson 
5,568,759 10/29/96 Peterson 
______________________________________ 
Owners of tree farms want to maximise their return on investment in land 
and labor growing the trees. Owners of relatively small scale tree farms, 
under 500 acres for example, have a problem in maximising their returns on 
investments if they sell the trees directly to saw mills, or indirectly 
through logging contractors. Logging contractors usually want to clear 
cut, as opposed to selectively cut timber. Harvesting a few trees at a 
time is not of interest to most logging contractors. 
Existing saw mill technology is such there is not an efficient one man saw 
mill. By this is meant that there is not, presently, a saw mill that can 
be efficiently operated by one man. Small mills exist, that are somewhat 
efficient, but they are typically set up so that for efficient operation, 
as many as four men would be required. The four men would include a 
sawyer, a log turner, and two men loading and unloading lumber. While 
devices exist for automating some of those functions requiring the 
manpower, those devices are expensive. Without an efficient one man saw 
mill, an owner of a relatively small scale tree farm cannot selectively 
harvest individual trees and process them into lumber in an efficient 
manner. Also, the extra help required for efficient operation of existing 
small mills increase the possibility of accidents. The kind of extra help 
an owner of a relatively small scale tree farm is able to hire is not 
necessarily the most safety conscious help available on the labor market. 
Mills exist that use band saws as well as electric motor driven saw blades. 
Limitations to band saw blades includes a relatively short service life 
between sharpenings as compared to circular saws. Circular saws are much 
faster than band saws. Also, many people, such as the Amish, do not favor 
electricity. 
As will be seen in the subsequent description of the preferred embodiment 
of the present invention, these and other deficiencies in the prior art 
are overcome. 
SUMMARY OF THE INVENTION 
The present invention is a circualr saw mill operable by one person wherein 
an engine powered circular saw is mounted on a carriage that includes a 
platform for catching boards or slabs as they are sawn from a stationary 
log. The carriage mounted circular saw is moved through the log to saw 
slabs or boards from the log. The platform on the carriage catches the 
board or slab as it is sawn from the log. When the carriage returns to the 
operator of the saw mill, the operator can unload the sawn wood from the 
carriage as convenient.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
FIGS. 1 through 5 show the preferred embodiment of the present invention, a 
one man circular saw mill. The saw mill comprises a carriage frame 5 which 
is mounted on wheels 3 which ride on tracks 22. As shown in FIG. 1, the 
carriage frame 5 comprises a circular saw assembly 40 which comprises an 
engine 1, a small pulley 2, a large pulley 4, a saw shaft 6, a lumber 
table 24, a saw guide 21, a circular saw blade 7, a lumber splitter 23, 
and bearings 31. The bearings 31 are used to mount the saw shaft 6 
horizontally on the carriage frame 5. The circular saw blade 7 is mounted 
on one end of the shaft 6 and secured by an inside stationary collar 27 
(Ref. FIG. 4) and a removable collar 28 (Ref. FIG. 5) on the outside of 
the saw blade 7 secured by a large nut 29 (Ref. FIG. 4). 
The crux of the invention is the carriage 5 with the lumber table 24 which 
catches each piece of lumber as it is sawn and then carries the lumber 
back to an operator as the operator is positioning the carriage 5 with the 
circular saw assembly 40 for the next saw cut through a log. The sawed off 
piece of lumber falls naturally in place on the lumber table 24 as it is 
sawn from the log. The operator controls everything from his station near 
a hand lever 17, except for installing a log into the dog assemblies 10 as 
required. Means of setting, holding, and positioning the log, and the 
means of transporting the carriage 5 are not inventive in themselves, but 
are detailed in this specifictation to provide sufficient information for 
one skilled in the art to duplicate what is required to support the 
invention and make it work efficiently. The circular saw assembly 40 on 
the carriage 5 along with the table 24, powered by an engine, sawing 
through and catching lumber as it is sawn from a log held stationary is 
unique. An arrow shows the direction of rotation of the circular saw blade 
7 in the preferred embodiment of the present invention. This is a safety 
precaution to preclude lumber thrown by the circular saw blade 7 in the 
direction of the operator. This is fast and efficient as compared to the 
prior art discussed earlier. 
FIGS. 4 and 5 show that blocks 8 are mounted high enough on a frame 12 to 
allow the end of the saw shaft 6, the large nut 29, and the removable saw 
collar 28 to pass under the beveled end of the blocks 8 when the circular 
saw assembly 40 is moved through the log to make a cut. A saw guide 21 is 
mounted on the carriage frame 5 at the front of the circular saw blade 7 
which prevents lateral movement of the circular saw blade 7 when it is 
cutting a line. At the back edge of the circular saw blade 7 is the lumber 
splitter 23 which is a knife type lumber splitter, thin on the front edge, 
3.5 inches wide and 12 inches high and aligned with the circular saw blade 
7 so as to enter the kerf just made by the circular saw blade 7, in the 
preferred embodiment of the present invention. The flat surface of the 
lumber splitter 23 is against the log with the thicker part at the back 
edge keeping the board away from the saw teeth. 
FIG. 3 shows a board which has been sawed off laying on the lumber table 24 
which is mounted on the carriage frame 5. When the carriage frame is 
returned to the operator end for another cut, this lumber is carried back 
for removal by the operator. The operator end is the same end as a ratchet 
wheel 18 shown to the right of the FIG. 3. A large pulley 4 is mounted on 
the opposite end of the saw shaft 6 which is being driven by a smaller 
pulley 2 secured to the engine 1 shaft by a key and setscrew, in the 
preferred embodiment of the present invention. Power is transferred from 
the small pulley 2 to the large pulley 4 by V belts, in the preferred 
embodiment of the present invention. 
Logs are supported by a log support frame 12 constructed of heavy gauge 
angle iron in the preferred embodiment of the present invention. The log 
support frame 12 is rectangular standing on upright support members 25 
secured to a frame of like construction at the bottom. All corners at the 
bottom have right angles with the upright square and plumb, having cross 
members 26 to maintain its stance. The log support frame 12 is located 
parallel to and on a common plane to the track 22. The log support frame 
is located along a track 22 at a place which allows the carriage frame 5 
to move back far enough to the operator end to leave a space between the 
circular saw blade 7 and an end of a log. A rail 19 is secured at the top 
of the log support frame 12 on the side next to the carriage frame 5 under 
which a roller 20 runs which is secured to the carriage frame 5 to prevent 
any vertical movement of the carriage frame 5. 
As shown in FIG. 2, the cutting blocks 8 are mounted on the top of the 
frame 12 with the back end block 8 being slideable to allow for logs of 
different lengths. Each of two dog assemnblies 10 moves vertically up or 
down on an upright 9. The part of the dog assembly 10 that engages a log 
to hold it secure while sawing can be moved in or out horizontally to the 
needed position determined by the size of the log. The blocks 8 have a 
hole (Ref. FIGS. 4 and 5) bored through both sides at the back through 
which a long shaft 13 is inserted. Each block 8 has an upright portion 9 
which is L shaped, having a groove on each side at its (9) base which runs 
the full length of the base of the upright portion 9 on the outside. A 
lever 11 attached to the uprights 9 can be moved back and forth to adjust 
the block 8 to compensate for log taper. A tongue runs the full length of 
the block 8 on the inside portion at the top at the flat surface with one 
tongue on each side. These mate with the groove on the bottom part of the 
upright portion 9 allowing the upright portion 9 to slide back and forth 
on the block 8. There is also a rack on the bottom side of the upright 
portion 9. Just below the grooves reaching the full length of the upright 
portion 9, the racks engage the pinion which is mounted in each block 8 on 
the shaft 13 with a key in a keyway. The keyway runs the length of the 
shaft 13 and the shaft 13 goes through each block 8. Thus when the shaft 
13 is turned the upright portion 9 will move back or forth on the blocks 
8. The front block 8 is welded in place which prevents any movement of the 
block 8 which would allow it to move out in front of the circular saw 
blade 7. The back block 8 has a guide welded to it (8) onto the bottom 
side against the parallel rails. The guide is at both ends of the block 8, 
allowing the block 8 to be slideable but preventing any lateral movement 
of the block 8. 
Setworks 15, mounted on a setworks frame 14 which is constructed of a heavy 
gauge of angle iron, is a ratchet type system operated by manually pulling 
a hand lever 17. It has a bearing surface graduated in 1/4 inch increments 
with a hole and movable pin at each gradation. A slidable stop on the 
bearing surface stops the movement of the hand lever 17 when it comes to 
rest against the pin. The hand operated ratchet wheel 18 located on the 
end of the shaft 13 at the setworks 15 moves back the uprights 9 on the 
blocks 8. The shaft 13 extends through the hole 30 (Ref. FIGS. 4 and 5), 
provided in the blocks 8 and through the ratchet wheel 18 in the setworks 
15 which is secured to the shaft 13 by a key and setscrew. On the shaft 13 
inside each of the blocks 8 the pinion with a key in the keyway meshes 
with a rack on the bottom of the uprights 9. When the hand lever 17 is 
pulled, pawls in the lever assembly 16, engage the ratchet wheel 18 and 
the ends of the pawls drop into grooves on the ratchet wheel. This is how 
the log is moved out in front of the circular saw blade 7 so that the 
desired thickness is sawed. 
While not shown in the drawings, a safety panel should be mounted at the 
operator end of the saw mill to reduce the possibility of the operator 
coming into contact with the saw. 
Not shown in the drawings is a prior art drive for the carriage, which in 
the preferred embodiment of the invention is a hydraulic motor, powered by 
a small engine driven power unit, which has a sprocket and chain 
arrangement for moving said carraige back and forth. A conventional 
hydraulic gear or vane pump controlled by a directional valve suffices for 
direction and speed control. 
As stated earlier in this specification, the crux of the invention is the 
carriage 5 with the lumber table 24 which catches each piece of lumber as 
it is sawn and carries it back to the operator as the operator is 
positioning the carriage 5, which also carries the circular saw assembly 
40, for the next saw cut through a log. The operator controls everything 
from his station near the hand lever 17, except for installing a log into 
the dog assemblies 10 as required. The present invention makes it possible 
for a small tree farmer to cut lumber on a commercial basis with a minimum 
of investment and without hiring labor. With only one person operating the 
mill, as opposed to four as a usual miminum for other small mills, it is a 
much safer operation, as the operator only has to worry about himself, not 
about other people getting in the way. Experience is a major factor in 
working safely. Inexperienced help, which is often the best a small scale 
operator can afford, tends to be accident prone. 
These descriptions and drawings were taken from a prototype which meets the 
objective, which is to provide a circular saw mill that can be efficiently 
operated by one person. It is to be understood that various changes in the 
shape, size and arrangement of parts may be made without departing from 
the spirit of the invention, or the scope of the subjoined claims. 
Although the description above contains some specificities, these should 
not be construed as limiting the scope of the invention but as merely 
providing illustrations of some of the presently preferred embodiments of 
this invention. 
Thus the scope of the invention should be determined by the appended claims 
and their legal equivalents rather than by the examples given.