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Description  |
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BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a sanding tool, and more particularly to a
sanding tool for making a surface to be repaired into a flat surface.
2. Prior Art
A procedure for repairing flaws and dents on a painted surface in a vehicle
such as an automobile is as follows. As shown in FIG. 10, a primer 51, a
surfacer 52, and paint 53 which have been applied on a steel sheet 50 are
first removed, and then, a dent is filled with a putty 1 or the like in an
amount somewhat larger than a volume of the dent.
Thereafter, a surface (a part damaged) filled with the putty 1 or the like
is sanded to make the same flush with a surface of the vehicle body as
shown in FIG. 11. This step for the procedure is sanding the surface
filled with a putty so as to flatten the same by the use of sandpapers
belonging to several degrees extending over coarse grains to fine grains.
In this respect, it is no exaggeration to say that a result of final
repair is decided by a skill relating to this step.
A tool used for the sanding treatment has a structure wherein a sandpaper
is exchangeably stretched on a base plate 54 having a rectangular flat
surface as shown in FIG. 11. The base plate 54 is provided with a grip 55
on the top thereof, and sanding operation is carried out by an operator
while holding the grip 55 with an operator's hand (or hands) in
reciprocating or circular motion or the like.
Although it seems a reasonable conclusion that since the base plate 54 has
a flat surface, an irregular putty surface can be sanded into a flat
surface. In reality, however, when such a putty surface is sanded, a flat
surface cannot be necessarily realized. This is because the base plate 54
is held by a human hand so that the base plate 54 performs a kind of a
wooden pestle motion, and it results in a very slight irregular surface.
Moreover, such tendency increases because a sanding operation is
principally carried out with a peripheral part of the base plate 54.
In this connection, for eliminating such disadvantage, it is considered
that an irregular surface, particularly a convex surface in a putty-filled
surface is sanded with the use of an edge portion of the base plate 54 (by
inclinedly holding the base plate 54) to smoothen the irregular surface.
However, since the edge portion of the base plate 54 is not a plane, but a
linear configuration, as a matter of course, an area of the edge portion
being in contact with the putty surface is extremely small. Accordingly,
even when an operator intends to execute such a suitable operation while
maintaining a sanding tool at a pertinent angle in order to obtain a
smooth sanded surface, there is insufficient stability, so that high skill
is required to achieve good operation.
Besides, there is also such a problem of easily wearing off sandpaper
occupying the edge portion thereof.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a sanding tool with which
a surface to be repaired can be sanded into a flat surface by a
comparatively easy operation.
Another object of the invention is to provide a sanding tool with which a
surface to be repaired can be sanded into a flat surface for a short
period of time, and in addition, stable feeling in operation therefor can
be provided.
Still another object of the invention is to provide a sanding tool in which
local excessive wear of sandpaper is prevented.
A further object of the invention is to provide a sanding tool having good
operability at a low cost.
The subject matter of the invention resides in a sanding tool for sanding a
surface of apart to be repaired into a prescribed condition, characterized
in that it is provided with a base plate on the front surface side on
which can be stretched sandpaper, and a movable base plate which is
disposed bendably at the end of the base plate and on the front face side
of which can be stretched sandpaper; and the movable base plate is
energized resiliently in a direction wherein the surfaces of the movable
plate become flush with the surface of the base plate.
A movable range of the movable base plate may be arranged to be bent at an
angle which has been previously established within a range extending from
the same plane with that of the base plate (zero degrees) to an angle of
10 degrees with respect to the base plate.
Moreover, a resilient means may be disposed between the base plate and the
movable base plate.
As the resilient means described above, a coil spring or the like is
suitable, and it may arranged to specify a positional relationship between
the movable base plate and the base plate, whereby the movable base plate
becomes flush with the base plate, in the case when no external force is
applied to these plates.
A preferred contour of the base plate is rectangular, and the longer side
of the base plate is preferably hinged to the movable base plate.
Moreover, movable base plates are preferably hinged to opposite sides
(both the longer sides) of the base plate, respectively. In addition, it
is preferred that the movable base plate is formed into a smaller size
than that of the base plate.
Furthermore, a grip may be attached to the top of the base plate such that
an operator can execute an operation of the sanding tool by holding the
same with his (or her) hand(s). Further, it is also possible to apply the
sanding tool to an electrically-driven device or the like which will
produce vibrations or will suck dust through an attachment.
According to the present invention, a sanding tool thereof is constituted
such that movable base plates are disposed on the opposite ends of a base
plate, and when a movable base plate side is pressed, it is bent upwardly
with respect to the base plate (or the base plate is bent upwardly with
respect to the movable base plate). Thus, it is possible that an edge
portion of the sanding tool is allowed to be in contact with a surface to
be repaired as a plane in a condition where the sanding tool is allowed to
bend.
For this reason, even if a surface to be repaired has been in a fine
irregular surface, such irregular surface can be efficiently sanded, so
that the surface to be repaired can be sanded into a flat surface with a
comparatively easy operation.
Furthermore, in accordance with the present invention, it becomes possible
to provide a sanding tool which brings about a feeling of stable
operation, and at the same time, by which a surface to be repaired can be
sanded into a flat surface in a short period of time.
Moreover, since sandpaper used in a sanding tool according to the present
invention is in contact with a surface to be repaired in a plane, it is
possible to prevent local excessive wear of the sandpaper, so that a life
of the sandpaper can also be prolonged.
In addition to the above description, it is possible to provide a sanding
tool having good operability at a low cost according to the present
invention.
The present inventor has found in the case where a surface to be repaired
is sanded with a sanding tool that when a sort of dot sanding is
continued, it brings about a sort of linear sanding, and further when a
sort of linear sanding is continued, it brings about a sort of planar
sanding. In other words, when it is intended to perform planar sanding at
a blast (sanding over a wide area at a blast), it is difficult to carry
out a fine sanding operation. In this respect, when a sanding tool
according to the present invention is used, stable linear sanding can
easily be continuously carried out, so that an extremely good finish can
be realized over the whole surface to be repaired for a short period of
time.
In this connection, even if a surface to be repaired is a curved surface, a
good sanding operation can be easily effected in accordance with a sanding
tool of the present invention.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view showing the entirety of a sanding tool
according to an embodiment of the present invention;
FIG. 2 is a front view wherein the sanding tool according to the embodiment
is partially exploded;
FIG. 3 is a sectional view showing a bending part of the sanding tool
according to the embodiment;
FIG. 4 is a sectional view showing a partially enlarged sanding tool
according to the embodiment;
FIG. 5 is a cross-sectional view showing the sanding tool according to the
embodiment;
FIG. 6 is a planar view showing an internal structure of the sanding tool
according to the embodiment;
FIG. 7 is a side view showing the whole of the sanding tool according to
the embodiment;
FIG. 8 is a sectional view showing the sanding tool according to the
embodiment in use;
FIG. 9 is a planar view for explaining the sanding tool according to the
embodiment in use;
FIG. 10 is a sectional view showing a putty-filled surface applied to a
vehicle; and
FIG. 11 is a sectional view showing a general sanding state of a
putty-filled surface applied to a vehicle.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
The present invention will be described in detail hereinafter by referring
to the accompanying drawings.
In preferred embodiments of the present invention, an example wherein an
ultraviolet curing material has been applied to a putty or a surfacer as a
repairing material will be explained.
First, a step for filling a damaged part with a putty (forming a
putty-filled surface 1) is simply described.
In the step for filling a damaged part with a putty, a pretreatment is
effected in response to a state of such damaged part. An example of the
pretreatment includes a degreasing treatment of a coating film 8 which has
been originally applied (hereinafter referred also optionally to "old
coating film"), a removing treatment of an old coating film, a forming
treatment of a feather edge 7 and the like.
A degreasing treatment of an old coating film is a pretreatment which is
executed in most cases in also an ordinary repairing process where no
ultraviolet-curing resin is used.
Next, a removing treatment of an old film 8 differs from the degreasing
treatment, and is applied to an old film extending over a damaged part and
the periphery thereof in response to a condition of the damaged part. In
the case where damage is in a concave configuration, an old film extending
over the concave part is removed in most cases. On one hand, in the case
where damage is in linear flaws, scratches, or pricks damaged by a nail
and the like, an old coating film has already been removed. Hence, it is
judged whether or not further removal of the old coating film 8 is
necessary in accordance with a condition of the damage.
In this respect, a removing treatment of an old coating film being a
conventional pretreatment may be carried out in accordance with a
conventional manner by, for example, the use of a motor sanding machine
such as disc sander, and double acting sander.
An operation for taking the feather edge 7 (operation for forming the
feather edge 7) is executed simultaneously with or after the above
described removing operation of the old coating film. The operation for
taking the feather edge 7 is realized by applying a smooth slope to a
coating film section, the slope extending from the old coating film to a
steel sheet surface or a resin part surface which was exposed as a result
of removing the old coating film. An angle of the slope ranges generally
from about 27 to 54 degrees. The operation for forming a feather edge has
been also carried out heretofore, and accordingly, a conventional manner
may be adopted in the present embodiment. In this connection, an implement
used therefor may be a double acting sander and the like.
Thereafter, the surface from which has been removed an old coating film and
the periphery thereof are preferably washed by means of air blow or the
like, and further the resulting surface and the periphery thereof are
subjected to a degreasing treatment.
A putty material composed of an ultraviolet polymerizable composition is
filled in a damaged part which has been subjected to pretreatments
according to need as described above, and the putty material is cured with
ultraviolet rays, whereby the damaged part is filled with the putty. An
ultraviolet polymerizable composition used for such putty material may be
the same ultraviolet polymerizable composition used ordinarily as a putty
material for automobile or the like use and it is not particularly limited
to specific materials. An ultraviolet polymerizable composition used
generally for such putty material as described above contains, as
indispensable components, an ultraviolet polymerizable prepolymer, an
ultraviolet polymerizable monomer, and an ultraviolet polymerization
initiator, and may further contain, as optional components, a sensitizer,
a pigment, a filler, a defoamer, a surface modifier, a solvent and the
like.
A specific example of the ultraviolet polymerizable prepolymer contained in
the above described ultraviolet polymerizable composition includes a
radical polymerization type prepolymer such as ester acrylates, urethane
acrylates, epoxy acrylates, amino resin acrylates, acrylic resin
acrylates, and unsaturated polyesters; a cationic polymerization type
prepolymer such as epoxy resin, and resins containing vinyl ether; and a
thiol-ene adduct type prepolymer prepared by combining an oligomer
containing an aryl group or an acryloyl group at the molecular termination
thereof with a polythiol.
Furthermore, a specific example of the ultraviolet polymerizable monomers
includes radical monomers such as 2-ethylhexyl acrylate, ethoxydiethylene
glycol acrylate, phenoxyethyl acrylate, 2-hydroxypropyl acrylate,
tetrahydrofurfuryl acrylate, dicyclopentenyl acrylate, neopentylglycol
diacrylate, polyethylene glycol diacrylate, bis(acryloxyethyl)bisphenol A,
melimethylolpropane triacrylate, pentaerythritol triacrylate, and
dipentaerythritol hexaacrylate; and cationic monomers such as
vinylcyclohexene monoxide, hydroxybutyl vinyl ether, cyclohexane
dimethanol divinyl ether, cyclohexene diepoxide, and caprolactone polyol.
A specific example of the ultraviolet polymerization initiators includes a
variety of carbonyl compounds and the like as radical polymerization
initiators; onium salts and the like as cationic polymerization
initiators. Moreover, examples of an initiator for the thiol-ene adduct
type prepolymers include hydrogen-pulling type initiators.
An ultraviolet polymerizable composition for a putty material is prepared
by incorporating, for example, these indispensable components described
herein in a suitable ratio of amounts as well as the above described
optional components by a suitable amount, respectively, as occasion
demands, with each other. An amount in a variety of components to be
incorporated is suitably selected dependent upon a type or the like of the
indispensable components used.
As an ultraviolet polymerizable composition for putty material, preferable
is one containing about 20 to 30% by weight of an ultraviolet
polymerizable prepolymer, about 15 to 30% by weight of an ultraviolet
polymerizable monomer, about 1 to 10% by weight of an ultraviolet
polymerization initiator, and about 40 to 60% by weight of a pigment with
respect to the total amount of the composition. In this connection, a
pigment used for the above described ultraviolet polymerizable composition
is not particularly limited, but an extender pigment such as calcium
carbonate, barium sulfate, clay, talc, polishing powder, white carbon, and
valoon is generally employed.
Such a putty material is filled in a damaged part, the surface of which has
been pretreated as occasion demands. Such filling-in of a putty material
may be carried out in accordance with a conventional manner. In a
preferred manner, a putty material is filled in a damaged part with a
somewhat larger volume than that to be just filled over several times. A
first suitable amount of the putty material is filled in the damaged part
so as to squeeze the same into a concavity with use of a plastic spatula.
Furthermore, a remaining amount of the putty material is divided into
suitable sections, and each section of the putty material is successively
recoated on the previous coated portion so as not to contain air therein
by the use of the plastic spatula. After filling-in of the putty material,
the resulting part filled with the putty material is slightly protuberant
from the old coating film surface, so that a thickness of the putty
material in the part filled with the putty material is around 0.1 to 1 mm
thicker than that of the old coating film, and as a result, a thickness of
the resulting part filled with the putty material is about 0.4 to 3 mm,
depending on a thickness of the old coating film.
After completing filling-in of a putty material, ultraviolet rays are
irradiated on the part filled with the putty material to cure the putty
material, which is an ultraviolet polymerizable composition. Irradiation
of ultraviolet rays may be executed by the use of, for example, a device
which generates light rays containing ultraviolet rays such as a UV lamp.
A period of time required for irradiating ultraviolet rays to cure an
ultraviolet polymerizable composition is about 30 seconds to 60 seconds,
provided that, for example, the above described preferred composition is
used as a putty material, a thickness of a part filled with the putty
material is within the above described range, and a sufficient amount of
ultraviolet rays is irradiated.
As a result of irradiation of ultraviolet rays as described above, the
putty material hardens, so that the above described damaged part which has
been subjected to a pretreatment according to need is filled with the
putty. In this case, when a volume of the putty material somewhat
decreases as a result of curing, there is such a case where protuberance
from the old coating film surface somewhat decreases as compared with that
before the putty material is cured.
Thereafter, a putty surface protuberant from the old coating film surface
is sanded with a sanding tool to make the same flush with the old coating
film surface.
A structure of a sanding tool is, as shown in FIG. 1, composed of a base
plate 3 on the bottom surface of which sandpaper 2 is exchangeably
stretched and which is positioned at the central portion of the sanding
tool, and movable base plates 4 and 4 are disposed on the opposite sides
of the base plate 3, respectively, so as to be bendable.
As shown in FIG. 2, the base plate 3 has a trapezoidal section viewed from
the front thereof, and the opposite sides thereof are notched,
respectively, to define inclined sections 3a and 3a on either side of the
trapezoidal section. A tilt angle D of the inclined sections 3a and 3a is
5.5 degrees. The base plate 3 is integrally molded from polyvinyl
chloride, ABS, polycarbonate or the like so as to have 12 mm thickness,
and a long side of the trapezoid is about four times longer than a short
side. In this connection, the base plate 3 may be prepared from wood.
A grip 55 is disposed on the top of the base plate 3. Two types of the grip
55 are prepared. One type of grip is a wide grip used for both hands, and
the other is a narrow grip used for a single hand.
Moreover, seven bolt holes 3b are defined on each side of the base plate 3.
A coil spring chamber 3c is further defined around the bolt hole 3b.
To the opposite sides of the base plate 3 along the longitudinal direction
thereof are attached movable base plates 4 and 4, respectively. The
movable base plate 4 is prepared from the same material as that of the
base plate 3 with the same thickness as that of the base plate 3. These
movable base plates 4 and 4 are bendably attached to the base plate 3 with
bolts 5, 5, . . . respectively. It is to be noted that the bolt 5 is the
one used for a hexagonal wrench.
A bolt insertion hole 4a for inserting the bolt 5 into the movable base
plate 4 is defined thereon. Furthermore, a concave 4b is defined in the
opening of the bolt insertion hole 4a for seating a bolt head of the bolt
5 therein. In these circumstances, the bolt insertion hole 4a and the
concave 4b are defined into an elongated hole extending along the
longitudinal direction thereof so as to permit movement of the movable
base plate 4 as shown in FIG. 4, respectively. Further, a coil spring 6 is
inserted into a space defined by the base plate 3 and the movable plate 4
where they are in contact with each other.
Thus, a positional relationship determined by the base plate 3 and the
movable base plate 4 is such that these base plates 3 and 4 can be
relatively bent in the direction shown by an arrow F with a limitation of
5.5 degrees as shown in FIG. 3. In this constitution, when a pressing
force onto the movable base plate 4 is removed, the movable base plate 4
returns to the direction where the movable base plate 4 becomes flush with
the base plate 3 due to elastic force of the coil spring 6.
An adhesive-backed sheet is bonded to each bottom of the base plate 3 as
well as the movable base plates 4 and 4, so that sandpaper 2 can be held
detachably on these bottoms. More specifically, an adhesive surface
(either surface) of a single adhesive-backed sheet is bonded and fixed to
the base plate 3 as well as both the movable base plates 4 and 4 in the
side with which a sanding operation is effected so as to be flush with
each other. On the other surface of the adhesive-backed sheet is applied a
linear and fine concavo-convex pattern, so that the sandpaper 2 the back
of which has been applied an adhesive is detachably held thereon.
A movable range of the movable base plate 4 may be arbitrarily set from the
same level as that of the base plate (0 degree) to 10 degrees with respect
thereto. Setting of an inclinable angle is performed by varying an angle
of the inclined section 3a, and a gap defined between the concave 4b and
the bolt head of the bolt 5.
The above described sanding tool for putty surface may be constituted into
either a shape wherein the tool can be operated by holding with an
operator's hand, or a shape wherein the sanding tool can be detachably
attached to an electrically-driven device such as a double acting sander,
an orbital sander, and a straight sander. An adapter for attaching the
present sanding tool to these power assisting type sanders may be arranged
in such that the base plate 3 and the movable base plate 4 are rotated in
increments of 90 degrees thereby to be changeable an angle. As a
consequence, a sanding operation can be effected in the most effective
direction in response to a site to be sanded or a posture of an operator.
In the case where the present sanding tool is actually employed, a sanding
operation is performed while allowing the movable base plate 4 to be
suitably in contact with a putty surface 1 to be sanded as shown in FIGS.
1 and 2. In the case where the putty surface 1 is a flat surface, although
the surface maybe sanded with the base plate 3, if it is difficult to
produce a pertinent plane, fine concave portions may be sanded with the
movable base plate 4.
A sanding operation which is performed by the use of the sanding tool
according to the present invention is carried out in accordance with, for
example, an operational procedure of a cross hand-like pattern as shown in
FIG. 9. In this case, although sanding is realized by one of edge portion
(the movable base plate 4) in the sanding tool, since the movable base
plate 4 has a certain width, a stable sanding operation can be carried out
even if the sanding operation is linear motion. Moreover, a pressing force
of the movable base plate 4 functions with respect to a putty surface as a
result of transmitting the force from the larger base plate 3 to which has
been attached the grip 55 to the smaller movable base plate 4.
Accordingly, the movable base plate 4 is pressed uniformly against the
putty surface without any unevenness. In practice of the present sanding
tool, it is desirable that in the case where an operator intends to sand a
putty surface in such a manner that the sanding tool is pushed from the
operator's side towards the outside, the sanding is executed by allowing
the movable base plate 4 on the operator's side to be forcibly in contact
with a surface to be repaired, while it is also desirable that in the case
where an operator intends to sand a putty surface in such a manner that
the sanding is operated from the outside towards the operator's side, the
sanding is executed by allowing the movable base plate 4 on the outer side
to be forcibly in contact with a surface to be repaired.
In the case of sanding, it is a general rule that several types of
sandpaper degrees of which extend over around No. 80 to No. 180 in
coarseness of sanded surface are gradually exchanged, and no rapid sanding
operation is carried out.
Then, on such flattened putty surface 1 is formed a primer surfacer layer.
In this case, it is preferred that such primer surfacer layer is also
formed on a boundary part defined by putty and an old coating film. More
preferable is that the primer surfacer layer has a constant thickest
thickness in the vicinity defined between the putty and the old coating
film as well as on the putty itself, and it is formed such that a
thickness of the layer becomes gradually thinner in response to increase
of a distance from the vicinity of the boundary.
A primer surface layer is prepared by spray coating homogeneously a primer
surfacer raw material composed of an ultraviolet polymerizable composition
and having a viscosity in which the raw material can be spray coated onto
a surface to be coated which contains the above described putty exposed
surface, and the raw material coating film thus obtained is subjected to
ultraviolet ray curing.
Finally, a coating is applied to the primer surfacer layer, whereby a
repair of a damaged part is completed.
The present invention is not limited to the embodiments as described above.
It will be appreciated by those of ordinary skill in the art that the
present invention can be embodied in other specific forms without
departing from the spirit or essential characteristics thereof.
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