U.S. patent application number 10/776723 was filed with the patent office on 2005-08-11 for thermal ice scraper.
Invention is credited to Trunecek, Scott D..
Application Number | 20050172442 10/776723 |
Document ID | / |
Family ID | 34808656 |
Filed Date | 2005-08-11 |
United States Patent
Application |
20050172442 |
Kind Code |
A1 |
Trunecek, Scott D. |
August 11, 2005 |
THERMAL ICE SCRAPER
Abstract
A thermal ice scraper includes a body portion, a blade portion,
and a heatable material in the body portion that can heat the edges
of the blade portion. The body and blade portions may be
permanently or removably attached, and a conductive element may be
included to aid in transferring heat to the edges of the blade
portion. When in use, the body portion is heated in a microwave
oven, causing the heatable material to become hot. This heat is
then transferred to the edges of the blade portion. The thermal ice
scraper is held in a hand and used to scrape a smooth surface, such
as an automobile windshield. The blade portion allows
multi-directional usage of the scraper, and the heat along the
edges of the blade portion facilitates the removal of frost, ice,
or snow. The body portion comfortably accommodates the hand.
Inventors: |
Trunecek, Scott D.;
(Wichita, KS) |
Correspondence
Address: |
HARSHAW RESEARCH INCORPORATED
P O BOX 418
OTTAWA
KS
66067
US
|
Family ID: |
34808656 |
Appl. No.: |
10/776723 |
Filed: |
February 11, 2004 |
Current U.S.
Class: |
15/236.02 |
Current CPC
Class: |
A47L 1/16 20130101 |
Class at
Publication: |
015/236.02 |
International
Class: |
A47L 013/02 |
Claims
1. A heatable ice scraping apparatus, comprising: a body portion
defining a chamber; a blade portion connected to said body portion
and defining an interior space in communication with said chamber,
said blade portion having at least one peripheral blade edge; a
heatable material positioned in said chamber for temporarily
storing thermal energy whereby to cause a heat transfer to said at
least one peripheral blade edge; a conductive element sandwiched
between said body and blade portions for transferring said thermal
energy from said heatable material to said peripheral blade edge;
wherein said conductive element is in communication with said
heatable material; and wherein said conductive element extends
beyond said at least one peripheral blade edge whereby to form a
scraping blade.
2. The ice scraping apparatus as in claim 1 wherein said heatable
material includes a microwavable gel.
3. The ice scraping apparatus as in claim 1 wherein said body
portion and said blade portion include a monolithic
construction.
4-6. (canceled)
7. The ice scraping apparatus as in claim 1 wherein said body
portion includes: an outer wall; and an inner wall spaced apart
from said outer wall so as to define an intermediate space
therebetween, said intermediate space being a vacuum.
8. The ice scraping apparatus as in claim 1 wherein said body
portion includes: an outer wall; an inner wall spaced apart from
said outer wall so as to define an intermediate space therebetween;
and an insulating material in said intermediate space.
9. The ice scraping apparatus as in claim 1 wherein said body
portion is releasably connected to said blade portion.
10. The ice scraping apparatus as in claim 1 wherein said blade
portion includes a configuration that is round.
11. (canceled)
12. A heatable ice scraping apparatus, comprising: a body portion
defining a chamber and including a configuration for comfortably
accommodating a person's hand, said body portion including an outer
wall and an inner wall spaced apart from said outer wall so as to
define an intermediate space therebetween, said space being a
vacuum; a blade portion connected to said body portion and defining
an interior space in communication with said chamber, said blade
portion having at least one peripheral blade edge; and a heatable
material positioned in said chamber for temporarily storing thermal
energy whereby to cause a heat transfer to said at least one
peripheral blade edge, said heatable material including a moist
substance that contains some water and retains heat.
13. (canceled)
14. The ice scraping apparatus as in claim 12 wherein said body
portion and said blade portion include a monolithic
construction.
15. The ice scraping apparatus as in claim 12 further comprising a
conductive element sandwiched between said body and blade portions
for transferring said thermal energy from said heatable material to
said peripheral blade edge.
16. The ice scraping apparatus as in claim 12 wherein: said body
portion and said blade portion are removably connected; said
conductive element is in communication with said heatable material;
said conductive element is situated proximate to at least one
outside surface of said at least one peripheral blade edge; and
said conductive element is brass, bronze, or copper.
17. The ice scraping apparatus as in claim 12 wherein: said body
portion and said blade portion are removably connected; said
conductive element is in communication with said heatable material;
said conductive element extends beyond said at least one peripheral
blade edge to act as a scraping blade; and said conductive element
is a highly conductive that will not scratch glass.
18. The ice scraping apparatus as in claim 12 wherein said body
portion and said blade portion are removably connected.
Description
BACKGROUND OF THE INVENTION
[0001] This invention relates generally to windshield ice scrapers
and, more particularly, to a thermal ice scraper that may be heated
in a microwave oven to facilitate the removal of frost, ice, or
snow from a smooth surface such as an automobile windshield.
[0002] The standard method of removing ice and frost from
automobile windshields involves chipping away at the ice with a
flat plastic ice scraper that is difficult to hold and ineffective
on thick ice. Many people use a de-icing spray to weaken the ice,
but this can be expensive and sometimes messy. There is a very high
demand for new and innovative means of removing ice and frost from
automobile windshields, and car owners everywhere would welcome any
improvement made to the standard ice scraper.
[0003] Some improved models, however, have other drawbacks.
Electric heated ice scrapers are known in the art, such as in U.S.
Pat. No. 3,711,679, U.S. Pat. No. 3,935,425, and U.S. Pat. No.
4,930,176, but they require electricity from the automobile, are
sometimes difficult or cumbersome to use, and are often expensive.
Other electric heated ice scrapers are battery operated, such as in
U.S. Pat. No. 5,357,646, but batteries are expensive and can leak,
which causes safety concerns and can potentially ruin the scrapers.
Additionally, other products that improve upon the standard ice
scraper by adding features such as a snow brush or a squeegee are
usually too large to conveniently store in the vehicle, too
expensive, or simply not useful.
[0004] Microwave ovens offer a fast and easy way to heat materials
that can be used to supply heat to another object. In general,
these materials are either a gel or another moist substance that
contains some water and retains heat. Popular uses for such
materials include hot packs for muscle pain relief and for keeping
food warm. U.S. Pat. No. 5,369,257 uses a microwave-heatable
material placed directly on a windshield to defrost the windshield,
but it has poor scraping characteristics; when its material cools
off from use, it must be reheated in the microwave to continue
clearing the windshield.
[0005] Therefore, it is desirable to have an ice scraper that
transfers heat to windshields to aid in snow and ice removal, is
heated in microwave ovens to provide its source of thermal energy,
does not require electricity from automobiles or batteries, has
good scraping characteristics, is comfortable and easy to use, can
be conveniently stored in vehicles, and is relatively
inexpensive.
SUMMARY OF THE INVENTION
[0006] A thermal ice scraper for use in cleaning frozen
precipitation from automobile windshields according to the present
invention includes a body portion, a blade portion, and a heatable
material in the body portion that can heat the edges of the blade
portion. When in use, the thermal ice scraper is heated in a
microwave oven, causing the heatable material in the body portion
to become hot and transfer heat to the edges of the blade portion.
The thermal ice scraper is then held in a hand and used to scrape a
smooth surface, such as an automobile windshield. The heat along
the edges of the blade portion facilitates the removal of frost,
ice, or snow while the body portion comfortably accommodates the
hand and the blade portion allows multi-directional usage of the
scraper. The body and blade portions may be permanently or
removably attached, and a conductive element may be included to aid
in transferring heat to the edges of the blade portion. The thermal
ice scraper further includes a vacuum air space for insulating the
body portion to keep the hand from being burned.
[0007] Therefore, a general object of this invention is to provide
an ice scraper that can retain heat and transfer the heat to the
edges of a blade portion to facilitate snow and ice removal.
[0008] Another object of this invention is to provide an ice
scraper, as aforesaid, that does not require electricity from
automobiles or batteries.
[0009] Still another object of this invention is to provide an ice
scraper, as aforesaid, that can be heated in microwave ovens to
provide a source of thermal energy.
[0010] Yet another object of this invention is to provide an ice
scraper, as aforesaid, that has good scraping characteristics.
[0011] A further object of this invention is to provide an ice
scraper, as aforesaid, that is ergonomic and easy to use.
[0012] A still further object of this invention is to provide an
ice scraper, as aforesaid, that can be conveniently stored in
vehicles.
[0013] Other objects and advantages of this invention will become
apparent from the following description taken in connection with
the accompanying drawings, wherein is set forth by way of
illustration and example, embodiments of this invention.
BRIEF DESCRIPTION OF THE DRAWINGS
[0014] FIG. 1a is a front perspective view of a thermal ice scraper
according to a now preferred embodiment of the present
invention;
[0015] FIG. 1b is a top view of the thermal ice scraper as in FIG.
1a;
[0016] FIG. 1c is a sectional view taken along line 1c-1c of FIG.
1b;
[0017] FIG. 2a is an exploded view of a thermal ice scraper
according to another embodiment of the present invention;
[0018] FIG. 2b is a top view of the thermal ice scraper as in FIG.
2a;
[0019] FIG. 2c is a sectional view taken along line 2c-2c of FIG.
2b;
[0020] FIG. 2d is an isolated sectional view of a snap-type
connection between a body portion and a blade portion of the
thermal ice scraper as in FIG. 2c;
[0021] FIG. 3a is front perspective view of a thermal ice scraper
according to still another embodiment of the present invention;
[0022] FIG. 3b is a front view of the thermal ice scraper as in
FIG. 3a;
[0023] FIG. 4a is a top view of a thermal ice scraper according to
yet another embodiment of the present invention;
[0024] FIG. 4b is a sectional view taken along line 4b-4b of FIG.
4a;
[0025] FIG. 4c is a top view of a thermal ice scraper according to
a further embodiment of the present invention;
[0026] FIG. 4d is a sectional view taken along line 4d-4d of FIG.
4c;
[0027] FIG. 5a is a front perspective view of a body portion
according to an embodiment of the present invention;
[0028] FIG. 5b is a front perspective view of a blade portion
according to an embodiment of the present invention;
[0029] FIG. 5c is a front perspective view of a blade portion
according to another embodiment of the present invention;
[0030] FIG. 5d is a front perspective view of a blade portion
according to still another embodiment of the present invention;
[0031] FIG. 5e is a front perspective view of a blade portion
according to yet another embodiment of the present invention;
[0032] FIG. 5f is a front perspective view of a blade portion
according to a further embodiment of the present invention;
[0033] FIG. 6a is a top view of a thermal ice scraper according to
a still further embodiment of the present invention;
[0034] FIG. 6b is a sectional view taken along line 6b-6b of FIG.
6a; and
[0035] FIG. 6c is a front perspective view of the thermal ice
scraper as in FIG. 6a.
DESCRIPTION OF THE PREFERRED EMBODIMENT
[0036] A thermal ice scraper according to the present invention
will now be described with reference to FIG. 1a through 6c of the
accompanying drawings. More particularly, a thermal ice scraper 100
according to a now preferred embodiment includes a body portion 110
fixedly attached to a blade portion 120 having at least one
peripheral blade edge 121 (FIGS. 1a-1c). Thus, the body 110 and
blade 120 portions have a monolithic construction although other
removable configurations are possible as will be further described
later. The body portion 110 defines a chamber 112 that is in
communication with an interior space 122 defined by the blade
portion 120.
[0037] A heatable material 150 is positioned in chamber 112 and
interior space 122. The heatable material 150 is preferably a
microwavable gel capable of fitting any shape and reaching very
high temperatures quickly, but other moist substances that contain
some water and retain heat would also be suitable, such as polymer
crystals or various grains, pellets, and granulated materials that
absorb some moisture and can be heated in a microwave. The heatable
material 150 may be directly injected into the body portion 110
during manufacturing of the ice scraper 100, and a safety valve
(not shown) may be necessary to prevent explosion if
overheated.
[0038] The body portion 110 includes an outer wall 116 spaced apart
from an inner wall 117 to create an intermediate space 118 (FIG.
1c). The intermediate space 118 is preferably a vacuum, which does
not disrupt the method of microwave heating, provides an excellent
insulating layer, and still allows some heat to reach the outer
wall 116 to provide a desired hand-warming effect by radiating
through the intermediate space 118 and by conducting up from the
blade portion 120. Alternatively, conventional insulating material
may be positioned in the intermediate space 118.
[0039] It is understood that both the body portion 110 and the
blade portion 120 may utilize one of several ergonomic
configurations. The shape of the body portion 110 determines how
comfortable and easy to use the thermal ice scraper 100 is. The
bell shape 110a, shown throughout the drawings and in FIG. 5a in
particular, and the cylinder shape 110b (FIGS. 4a and 4b) have
rounded tops that fit the palm of a hand well and allow the thermal
ice scraper 100 to be used in any direction. The pistol grip shape
110c (FIGS. 4c and 4d) has the advantage of being at an angle that
is nearly aligned with the bevel angle of the blade, making it much
easier for the user to direct force for digging into the ice, and
prevents the blade from skipping over the top. The tall, narrow
shape of the pistol grip 110c, however, does not provide the best
conditions for heat transfer, as some of the heat would be trapped
near the top instead of moving down to the blade portion 120.
Further, while the bell shape 110a and cylinder shape 110b may be
used in any direction, the pistol grip shape 110c can only be held
one way.
[0040] The shape of the blade portion 120 largely determines the
scraping characteristics of the thermal ice scraper 100. In
general, the round shape 120b (FIG. 5e) has the advantage of
working equally well in all directions. It also contacts the ice in
a different way than a flat edge would; the initial contact is made
at one point and spreads out as it gets under the ice. In some
situations, this will cause the ice to be lifted up in large pieces
rather than being smashed into small pieces as it usually is with a
flat edge. Lip 127 may be added to the round blade 120b to help
deflect and break ice during the aforementioned lifting (FIG. 3a).
In many cases, however, having a flat edge or a wedge shape where
two sides meet would be useful in chipping and splitting up ice.
This is the main advantage of the triangular shape 120c (FIG. 5f).
Another benefit of the triangular shape (or any multi-sided shape)
is that each side could have a unique function. For example, one
side could have teeth for breaking up thick ice while another side
has a rubber squeegee for cleaning water and ice debris from the
windshield. The flat, sharp edges of a triangle would also be
useful in creating a hole in the ice to use as a starting point. A
combination of the two 120a, shown throughout the drawings and in
FIG. 5c in particular, is the preferred shape since it provides the
multi-directional usage of the round blade 120b with the ice
breaking benefits of the triangular blade 120c. The combination
shape 120a may be outfitted with teeth on one flat edge and a
squeegee or other alternative blade on the other flat edge (FIGS.
3a and 3b). The combination shapes 120d (FIG. 5b) and 120e (FIG.
5d) would also offer advantages of both the circular shape 120b and
the triangular shape 120c.
[0041] The body portion 110 and blade portion 120 are preferably
constructed of a durable plastic material that will not chip or
crack during use or melt from the thermal loads imposed by the
microwave oven and the heatable material 150, though other suitable
materials may be used. Further, the body portion 110 and blade
portion 120 may be a monolithic construction, and any combination
of the body portion shapes and blade portion shapes listed above
should be small enough to be conveniently stored in vehicles.
[0042] In use, the thermal ice scraper 100 is heated in a microwave
oven, causing the heatable material 150 to become hot and transfer
heat to the edges of the blade portion 120. The thermal ice scraper
100 is then held in a hand and used to scrape a smooth surface,
such as an automobile windshield. The heat along the edges of the
blade portion 120 facilitates the removal of frost, ice, or snow
while the body portion 110 comfortably accommodates the hand and
the blade portion 120 allows multi-directional usage of the
scraper.
[0043] A thermal ice scraper 200 according to another embodiment of
the present invention is shown in FIGS. 2a through 2d and includes
a construction substantially similar to the construction previously
described except as specifically noted below. More particularly,
the thermal ice scraper 200 according to this embodiment includes a
conductive element 230 to aid in transferring the heat from the
heatable material 150 to the edges of the blade portion 120.
[0044] The conductive element 230 has a contact portion 231, at
least one transfer portion 232, and a rim 233. The transfer portion
232 and rim 233 are positioned inside blade portion 120 and are
sandwiched between an upper blade portion 120a and a lower blade
portion 120b. The contact portion 231 is positioned to be in
communication with the heatable material 150 when the body portion
110 and the blade portion 120 are connected. The body portion 110
and the blade portion 120 are preferably connected in a snap-fit
connection (FIGS. 2c and 2d). Therefore, the body portion 110 is
removably and releaseably coupled to the blade portion 120 (FIG.
2a).
[0045] In use, the body portion 110 is heated in a microwave oven,
causing the heatable material 150 to become hot. The body portion
110 is then connected to the blade portion 120, causing the contact
portion 231 to be in communication with the heatable material 150.
The heat is then transferred down the transfer portion 232 to the
rim 233, causing the edges of the blade portion 120 to become
heated. For maximum heat transfer to the edges of the blade portion
120, the rim 233 would ideally be as close as possible to the
outside surface of the blade portion 120. The conductive element
230 could be relatively thin and tightly sandwiched between the
upper and lower blade portions 120a and 120b to insulate the
interior portion of the blade portion 120 but allow heat to spread
evenly on the outer edges of the blade portion 120, where the
plastic is thinner and thus less insulative.
[0046] With the two-piece embodiment, multiple body portions 110
and blade portions 120 with shapes as discussed above may be
combined to take advantage of different features for different
scraping conditions. The heated body portion 110 may also be
utilized as a warming device (such as a pocketsize hand warmer)
when not connected to the blade, though this may require an
additional component to cover the heatable material 150 and make
the device safe for use. The two-piece embodiment also allows the
heatable material 150 to consist of injected materials as discussed
above or a removable gel pack. The removable gel pack could be
conventional or sodium-acetate, which would allow the pack to be
heated without a microwave for its first use.
[0047] A thermal ice scraper 300 according to still another
embodiment of the present invention is shown in FIGS. 6a through 6c
and includes a construction substantially similar to the
construction previously described except as specifically noted
below. More particularly, the thermal ice scraper 300 according to
this embodiment includes a conductive element 330 that acts as the
scraping blade and transfers the heat from the heatable material
150 to the surface being cleaned. The conductive element 330 should
be made of a conductive material that can be used on glass without
scratching the surface of the glass being cleaned. Brass is one
metal that is capable of this because its hardness (a measure of
how much energy is required to dent a material) is much less than
that of glass. Brass is also an excellent conductor of heat and is
currently the preferred material for this embodiment of the present
invention although bronze or copper are other metals with similar
characteristics. This method would be the most direct way to apply
the heat to the ice as it is being scraped.
[0048] A thermal ice scraper (not shown) according to yet another
embodiment of the present invention includes a construction
substantially similar to the construction previously described
except as specifically noted below. More particularly, the thermal
ice scraper according to this embodiment includes a temperature
indicator on the outside of the thermal ice scraper to show when it
is hot, warm, or cold. This will let the user know if the product
has reached the proper operating temperature and could be many
substances, including stick-on temperature indicators similar to
those found on aquariums.
[0049] It is understood that while certain forms of this invention
have been illustrated and described, it is not limited thereto
except insofar as such limitations are included in the following
claims and allowable functional equivalents thereof.
* * * * *