Device in guide-bar power saw for cleaving a log, and method for using the device

A device in power saws of the type having a motor-supporting body (2) and a guide bar (4) connected thereto, comprising a guide device (5) cooperating with the guide bar and displaceable towards and away from the guide bar along at least one guide member (6,6'). The guide device (5) is connected to the guide member (6,6') only at one end and has its opposite end free so as to form a free space between the free ends (10,4') of the guide device and the guide bar, the guide member (6,6') being connected to the power saw only by the intermediary of the motor-supporting body (2).

The present invention relates to a device in power saws of the type having 
a motor-supporting body and a guide bar connected thereto, comprising 
guide means which cooperates with the guide bar, extends parallel to it 
and is displaceable towards and away from the guide bar along at least one 
guide member, said guide means being connected to said guide member only 
at one end and having its opposite end free so as to form a free space 
between the free ends of the guide means and the guide bar. 
The invention also relates to a method for initially sawing in a round log, 
by means of a device as described above, one or more cleaving cuts so as 
to form one or more flat surfaces. 
BACKGROUND OF THE INVENTION 
It is previously known to use motor-powered chain saws or power saws for 
cleaving timber, e.g. for sawing boards and planks from round logs. Thus, 
SE 8703174-6, for instance, discloses a sawing device where the power saw 
is mounted on a carriage which is movable along a saw stand parallel to 
the log to be sawn. 
There is however a need for simpler and thus less expensive devices or 
supplementary appliances which are easier to carry along and which can be 
readily mounted on the power saw to permit cleaving timber in flat and 
straight cuts. 
Devices of the type stated by way of introduction exist in many different 
designs. Thus, for instance, supplementary appliances for power saws are 
available under the trade marks ALASKAN MK III and STIHL which have guide 
means cooperating with the guide bar and movable towards and away from the 
guide bar along guide members. Common to all these prior-art appliances is 
that the guide members are connected to the guide bar in two separate 
points, namely in a point immediately adjacent the power saw body and a 
point at the guide-bar tip. Between these two fixing points a free 
guide-bar length is delimited which becomes decisive of how thick logs can 
be sawn by means of the device. It goes without saying that such mounting 
of the device reduces the maximum available guide-bar length that could be 
used in sawing. Since the outer guide member is fixed to the tip of the 
guide bar, this must be so long that the tip projects by a sufficient 
margin on the rear side of the log. Thus, in the case of extremely thick 
timber dimensions or e.g. root swells, it is not possible to carry out the 
cleaving cut in two steps from each side of the log. In order, 
nevertheless, to obtain acceptable sawing widths, extremely long guide 
bars must be used. However, long guide bars suffer from the major drawback 
of requiring high driving power, which means larger and heavier power 
saws. These devices therefore tend to become unnecessarily heavy and 
unwieldy. Furthermore, it generally becomes necessary to provide holes in 
the guide bar in which the guide members can be screwed. 
Similar devices are also known from e.g. U.S. Pat. Nos. 3,225,799, 
4,244,104 and FR 2,298,418. 
When using sawing appliances of the type mentioned by way of introduction, 
a further problem is encountered when the first saw cut is to be made in 
the log. In fact, this saw cut is decisive of the subsequent sawing 
result, since the sawing surface then formed serves as a guiding plane for 
the next saw cut. Some sort of a guiding board or the like has previously 
been fixed to the circumferential surface of the round log, for instance 
by nailing, and the first saw cut has been made immediately under the 
guiding board. It is of course very difficult to fix a guiding board in a 
straight and reliable manner to the round surface of a log. Moreover, the 
nails must not penetrate too deep into the log, since The saw chain could 
be damaged if encountering the nails. Further, it is mostly desirable to 
make the first saw cut in a plane parallel to the log axis. Since the logs 
are usually tapering towards the top end, the guiding board must be 
trestled at this end of the log to compensate for the taper. This of 
course complicates the sawing operation to a great extent. 
In most cases, it is further desirable from a round log to produce square 
boards and planks, i.e. with four orthogonal boundary surfaces. This means 
that, in addition to a first flat or plane guiding cut, at least a second 
guiding cut must be made at right angles to the first. Hitherto, this has 
been done by turning the log 90.degree. and replacing the guiding board on 
the circumferential surface of the log and accurately positioning it 
thereon, after which a new saw cut is made. It goes without saying that 
this process of having the two guiding planes orthogonal to each other 
involves substantial difficulties. Although it is known in the art to 
employ a device, sold under the trade mark LUMBERMAKER, in the form of a 
supplementary appliance for power saws which permits sawing a flat or 
plane saw cut at right angles to a guiding board or a guiding plane, this 
known device is not capable of making parallel saw cuts. It is highly 
desirable, by means of one and the same device, in the form of a 
supplementary appliance for power saws, to be able to cleave a log both 
parallel and perpendicular to a guiding plane. 
U.S. Pat. No. 3,134,409 discloses a combined device having on one side of 
the guide bar a first guide means to be applied and guided against a 
surface perpendicular to the guide bar, and on the other side of the guide 
bar a second guide means to be guided against a surface parallel to the 
guide bar. The second guide means is displaceable towards and away from 
the guide bar along a guide member and is connected to the guide member 
only at one end. However, this device is most unwieldy and, moreover, 
connected to the saw via the guide bar, more specifically in that the 
guide member is screwed substantially in the centre of the guide bar. 
Naturally, this highly restricts the usefulness and the performance of the 
saw, since the free guide-bar space available for sawing becomes very 
small. To compensate for this, the guide bar must be made longer, which in 
turn necessitates a larger and more powerful motor for driving the chain. 
This results in a heavy and most unwieldy construction consisting of the 
saw and the supplementary device. 
SUMMARY OF THE INVENTION 
The present invention aims at overcoming the abovementioned inconveniences 
and drawbacks by providing a device in the form of a supplementary 
appliance in power saws which is easy and inexpensive to manufacture, is 
lightweight and does not require for its use an excessively long guide bar 
making the power saw unnecessarily large and heavy. It is also an object 
of the invention to provide a device which allows using substantially the 
entire length of the guide bar during sawing. These and other objects are 
achieved by means of a device as set forth in the claims. 
In a preferred embodiment of the invention, it is a further object to 
permit mounting the device without necessitating any modifications to the 
power saw, and to enable simple and quick mounting and dismounting of the 
guide means on the guide members. Yet another object of the invention is, 
in addition to sawing a plane cut parallel to a guiding plane, to also 
permit sawing a cut at right angles to a guiding plane. These objects are 
achieved by means of a device as set forth in the claims. 
The invention also has for its object, by means of a device as set forth in 
the claims, to initially permit sawing two mutually perpendicular cuts in 
a round log, and in a simple manner allow locating the cuts parallel to 
the log axis. According to the invention, these objects are achieved by 
means of a method having the features set forth in the claims.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION 
Reference is now made to FIG. 1 showing an embodiment of the inventive 
device. A power saw, generally designated 1, has a body 2 with a motor 
driving a saw chain 3 on a guide bar 4. The device comprises an abutment 
or guide means 5, two guide members 6, 6', and a fixing plate 7. The guide 
means 5 is supported by the guide members 6, 6' and is displaceable 
thereon towards and away from the guide bar 4. Preferably, the guide 
members extend at right angles to the guide bar, while the guide means 5 
is parallel to the guide bar. The guide members 6, 6', in turn, are 
connected to the fixing plate 7 which, as illustrated, is fixed to the 
power saw body, more specifically by means of the same bolts or nuts 8 as 
are holding the guide bar 4. It is also seen that the fixing plate and the 
guide members are located on opposite sides of the guide bar and that one 
guide member 6' extends underneath the guide bar whereas the other guide 
member 6 extends over it. 
The guide means 5 essentially forms a frame having an inner frame member 9 
and an outer frame member 10, which are interconnected by round rods 11, 
11'. A free space is defined between the outer frame member 10 and the 
guide-bar tip 4'. The inner frame member 9 is made of a tube having 
rectangular cross-section and is the part of the guide means which is 
connected to the guide members 6, 6', more specifically by the guide 
members extending through holes in the frame member 9. The guide means 5 
can be locked, by means of a winged bolt 12, in optional positions in 
relation to the guide bar. The constructional components and the operation 
of the locking device will be described in more detail below. Like the 
frame rods 11, 11', the guide members 6, 6' are made of round rods, and 
rotatable rollers 13, 14 are arranged both on the frame rods and on the 
guide members to reduce the frictional resistance during sawing. The 
rollers may be designed in any optional manner. In the preferred 
embodiment here illustrated, the rollers 13 are elongate and disposed 
singly on the frame rods, whereas the rollers 14 are relatively short and 
disposed pairwise on the guide members. The reason for this is that it 
should be possible to move the rollers 14 together, thus requiring but a 
very limited space when the guide means is moved close to the guide bar. 
Reference is now made to FIG. 2 illustrating a power saw equipped with the 
inventive device during sawing of a plank 15 from a cant. As seen, the 
guide means 5 is located relatively close to the guide bar, and the 
rollers 13 are applied on and rotate against an upper surface 16 of the 
cant, serving as a guiding plane. Since the sawing is performed with a 
pulling chain, that is, the operative or working run of the chain is 
moving towards the motor-supporting body, the power saw will be urged 
against the cant, the rollers 14 being applied and rotating against the 
lateral surface 17 of the cant. Since the guide members 6, 6' are fixed 
only at their ends 18' and have free opposite ends 18, the entire guide 
means can easily be removed from the device. This enables not only sawing 
parallel to the guiding plane 16 but also sawing at right angles to it, as 
will be described in more detail hereinafter with reference to FIG. 5. 
FIG. 3 shows the detail design of the locking device which secures the 
guide means 5 on the guide members 6, 6'. This Figure shows in a part 
sectional view the rectangular tube section 9 in the direction of the 
guide members. As appears, the guide members extend through clamping 
elements 19, 19' arranged in the tube section and interconnected by a 
flexible band 20. The winged bolt 12 is threaded and screwable into and 
out of the tube section. When being screwed inwards, it will engage the 
band 20 which is thus tensioned and tends to move the clamping elements 
towards each other. In this manner, the frictional force between the 
clamping elements and the guide members will increase, thus ensuring 
efficient locking between the guide means and the guide members. To 
eliminate any play that may exist between the clamping elements and the 
tube section, it is preferred that the clamping elements have a shape 
accommodated in the tube section with snug fit. The illustrated locking 
arrangement confers the major advantage of the guide means being lockable 
on both guide members simultaneously with a single manipulation. Of 
course, the inner frame member 9 need not be tubular, but a similar 
locking device is equally obtainable with a U-shaped sectional element 
similar to the outer frame member 10. 
Reference is now made to FIG. 4 illustrating a method and a device for 
initially sawing, by means of the inventive device, a cant from a round 
log 21. The log is shown from one end surface and, as appears from the 
Figure, a square plate 22 is fixed, suitably by nails, on the end surface 
of the log. Although it does not appear from this Figure, a similar plate 
is fixed on the opposite end surface of the log. The plate need not be 
square, as illustrated, but it must have at least two straight, mutually 
perpendicular side edges 23, 23'. An elongate angular element 24, which is 
at least equally long as the log and has two orthogonal portions 25, 25', 
is placed, as illustrated, with the orthogonal portions 25, 25' applied 
against the orthogonal edges 23 and 23', respectively, of the plate 22. 
Suitably, the plate is provided with a series of index holes 26 running 
from the corner between and at an angle of 45.degree. to the edges 23, 
23'. The index figure given at each hole indicates the orthogonal distance 
from each of the side edges 23 and 23'. When mounting the plates, it is 
suitably ensured that holes with the same index figures on the two plates 
are aligned with the log centre. In this manner, it is ensured that the 
subsequent sawing is performed parallel to the log axis. As a rule, at 
least two nails are required in each plate to fix it against the log. Of 
course, it is essential that the plates be accurately aligned in relation 
to each other with the side edges 23, 23' of the respective plate parallel 
to each other. Thus, when the plates have been fixed on the log and the 
angular element is extended between the plates, it is possible, by means 
of a power saw and the device described above, to cleave the log in the 
manner illustrated in the Figure. The rollers 13 of the guide means are 
engaged with and rotate against the portion 25' of the angular element, 
the guide bar making a cut parallel to the portion 25' on the opposite 
side of and at an optional distance from the log axis. In this manner, a 
first flat sawing surface is achieved. To obtain a second flat sawing 
surface at right angles to the first, the log is turned 90.degree. and the 
guide means is caused to follow the second portion 25 of the angular 
element. The previously round log now has two flat surfaces which are 
perpendicular to each other and which can be used as guiding planes, 
against which the guide means can be applied during the continued sawing 
operation. Suitably, two further flat, orthogonal surfaces are sawn, thus 
yielding a cant of rectangular cross-section, which can be easily sawn 
into boards or planks of varying thickness. 
As previously mentioned, FIG. 5 shows an alternative method for initially 
sawing, by means of a device according to the invention, a flat or plane 
cut in a round log. This Figure shows a round log 21 on which is located a 
guiding board or plank 27, whose upper surface forms a guiding plane 16 
for guiding the saw. As appears, the guide means has been removed from the 
device and the guide members 6, 6', which extend at right angles to the 
guide bar, and the rollers 14 serve as a second guide means or abutment 
engaging the guiding plane 16. This makes it possible to saw a flat or 
plane cut at right angles to said guiding plane. In order that the saw cut 
should become not only perpendicular to the guiding plane but also 
rectilinear, the guide members are provided with two guide rails 28, 28', 
which can be locked on the guide members by means of screws 29, 29' and 
are intended to guide the saw along the edges of the guiding board 27. In 
the illustrated embodiment, the guide rails are U-shaped, but other shapes 
are of course possible as well. In some cases, it may be sufficient to use 
only one guide rail 28 for guiding the saw along one edge of the board. In 
an alternative embodiment, lateral guiding can be brought about by making 
the rollers 14 lockable in the longitudinal direction of the guide 
members, which are then caused to engage and slide on The guiding plane 
16, while the rollers 14 are located on each side of the guiding board and 
are guided against the side edges thereof. The resulting saw cut can 
thereafter be used as a guiding plane for optionally sawing a further cut 
at right angles to the first one or a cut parallel to the first one in the 
manner described above. 
It goes without saying that the present invention can be modified in many 
different ways within the scope of the accompanying claims. This applies 
both to the choice of material and the design of constructional details, 
and to the angles therebetween. For instance, the guide means need not 
have the shape of a frame with rollers, but may of course equally well be 
designed as a flat plate. In order that the short rollers 14 should remain 
in their intended positions, they may advantageously be lockable in the 
axial direction. Since neither the guide members nor any other part of the 
device are connected to the power saw via the guide bar, but only via the 
motor-supporting body, essentially the entire guide-bar length can be used 
for sawing. The guide members may, for instance, be located substantially 
underneath and above, respectively, the body of the saw and only a portion 
of the circumferential surfaces of the rollers 14 is allowed to be located 
in a plane in front of it. In order yet to allow parallel displacement of 
the guide means towards and away from the guide bar, the guide means, and 
more specifically the inner frame member 9, may have a recess or a curved 
portion in the area in front of the power saw body. Finally, it should be 
pointed out that the number of guide members need not be restricted to two 
but any optional number may be used, thus also only one guide member.