Abstrict
A portable electric heater for providing a heated exhaust air stream
at an elevation above a support surface is provided. The heater
comprises an elongate housing having a sidewall, a top end, a bottom
end, and a longitudinal length extending substantially upward from
the bottom end to the top end, and a horizontal cross sectional
area. A base supports the elongate housing in a vertical and upright
position on the support surface. There is at least one inlet opening
in the housing allowing inlet air to enter the interior of the housing.
An air blower assembly is disposed within the housing interior for
receiving the inlet air. At least one outlet opening in the elongate
housing allows the exhaust air stream to exit the interior space.
At least one electric heating element is disposed within the interior
space between the air blower assembly and the outlet opening. A
substantial portion of the exhaust air stream passes through the
at least one electric heating element and thermal energy is transferred
from the at least one electric heating element to the exhaust air
stream. The heated exhaust air stream exits the elongate housing
at an elevation above the support surface, the elevation being defined
by a distance from where the base contacts the support surface to
a highest vertical exit point of the heated exhaust air stream from
the housing interior.
Claims
What is claimed:
1. A portable electric heater for providing a heated exhaust air
stream at an elevation above a support surface, said portable electric
heater comprising: an elongate housing having at least one sidewall,
a top end, a bottom end, and a longitudinal length extending substantially
upward from said bottom end to said top end, and a horizontal cross
sectional area; a base for supporting said elongate housing in a
vertical and upright position on said support surface, said base
contacting said support surface; at least one interior space within
said elongate housing; at least one inlet opening in said elongate
housing allowing inlet air to enter said at least one interior space;
an air blower assembly disposed within said at least one interior
space for receiving said inlet air, said air blower assembly comprising:
i) at least one air impeller, and ii) at least one motor for rotating
said air impeller to generate an exhaust air stream; at least one
outlet opening in said elongate housing allowing said 18 exhaust
air stream to exit said at least one interior space; and at least
one electric heating element disposed within said at least one interior
space between said air blower assembly and said at least one outlet
opening, wherein a substantial portion of said exhaust air stream
passes through said at least one electric heating element and thermal
energy is transferred from said at least one electric heating element
to said exhaust air stream as said exhaust air stream flows through
said at least one electric heating element forming said heated exhaust
air stream, said heated exhaust air stream exits said elongate housing
at an elevation above said support surface, said elevation being
defined by a distance from where said base contacts said support
surface to a highest vertical exit point of said heated exhaust
air stream from said at least one interior space; and said elevation
of said heated exhaust air stream being about 20 inches or greater.
2. The portable electric heater of claim 1, wherein an overall
length is defined by the distance from where said base contacts
said support surface to said top end of said elongate housing.
3. The portable electric heater of claim 2, wherein said overall
length is about 25 inches or greater.
4. The portable electric heater of claim 3, having a vertical aspect
ratio defined by said overall length to a maximum width dimension
of said horizontal cross sectional area of said elongate housing,
wherein said vertical aspect ratio is greater than about 2 to 1.
5. The portable electric heater of claim 3, wherein said base comprises
a maximum width dimension of a horizontal cross section through
said base, and said maximum width dimension of said horizontal cross
section through said base is less than about 60% of said overall
length.
6. The portable electric heater of claim 1, wherein a first comparative
ratio is defined by said elevation of said heated exhaust air stream
to a maximum width dimension of said horizontal cross sectional
area of said elongate housing, said first comparative ratio being
greater than about 2 to 1.
7. The portable electric heater of claim 1, wherein said air blower
assembly further comprises a transverse blower assembly.
8. The portable electric heater of claim 7, wherein said air blower
assembly is a pre-assembled cartridge, and said pre-assembled cartridge
is pre-tested and installed in said elongate housing during assembly
of said portable electric heater.
9. The portable electric heater of claim 1, wherein said air blower
assembly further comprises a centrifugal blower assembly.
10. The portable electric heater of claim 1, wherein said air impeller
further comprises a diameter of said air impeller and a length of
said air impeller and a ratio of said length of said air impeller
to said diameter of said air impeller being greater than about 2:1
11. The portable electric heater of claim 1, further comprising
a controller for controlling at least one function of said portable
electric heater.
12. The portable electric heater of claim 11, wherein said controller
is mounted to one of said elongate housing and said base.
13. The portable electric heater of claim 11, wherein said controller
is a remote control device.
14. The portable electric heater of claim 11, wherein said motor
further comprises a variable speed motor having one or more rotational
speeds, and said controller controls said rotational speeds.
15. The portable electric heater of claim 1, wherein said elongate
housing rotates or oscillates relative to said support surface,
wherein said rotation or oscillation is about an axis of rotation,
said axis of rotation being substantially aligned with a vertical
longitudinal axis of said elongate housing.
16. The portable electric heater of claim 15, wherein said axis
of rotation of said elongate housing is substantially parallel to
the axis of rotation of said at least one impeller of said air blower
assembly.
17. The portable electric heater of claim 15, further comprising
a mechanism for rotating or oscillating said elongate housing relative
to said support surface.
18. The portable electric heater of claim 17, wherein said mechanism
is disposed between said bottom end of said elongate housing and
said base.
19. The portable electric heater of claim 17, further comprising
a controller for controlling a function of said mechanism for rotating
or oscillating said elongate housing with respect to said support
surface.
20. The portable electric heater of claim 1, wherein said at least
one outlet opening further comprises an elongate outlet opening
in said at least one sidewall and oriented substantially along said
longitudinal length of said elongate housing, wherein said elongate
outlet opening allows said exhaust air to exit said interior space
as an elongate exhaust air stream.
21. The portable electric heater of claim 1, further comprising
a grill covering said at least one outlet opening.
22. The portable electric heater of claim 21, wherein a highest
elevation of an extent of said grill above said support surface
is about 21 inches or greater.
23. The portable electric heater of claim 21, wherein said grill
further comprises air directing vanes that can be positioned to
direct said heated exhaust air stream exiting said elongate housing
to a desired location.
24. The portable electric heater of claim 21, wherein said grill
is an integral part of said elongate housing.
25. The portable electric heater of claim 21, further comprising
an air containment frame disposed between said at least one electric
heating element and said grill, wherein said air containment frame
is a distinct and separate part from said grill.
26. The portable electric heater of claim 25, further comprising
air alignment elements disposed between said at least one electric
heating element and said grill, wherein said alignment elements
are distinct and separate parts from said grill.
27. The portable electric heater of claim 26, wherein said air
containment frame and said air alignment elements are integral to
each other as a single part.
28. The portable electric heater of claim 26, wherein at least
one of said air containment frame or said air alignment elements
are integral to at least one of said housing or said at least one
electric heating element.
29. The portable electric heater of claim 1, wherein heated exhaust
air stream exiting said elongate housing comprises a single substantially
contiguous elongated column of heated exhaust air.
30. The portable electric heater of claim 1, wherein said at least
one electric heating element is a positive temperature coefficient
(PTC) heating element capable of producing about 1500 watts of energy.
31. The portable electric heater of claim 30, wherein said at least
one electric heating element comprises an elongate electric heating
element disposed proximate said outlet opening and is oriented substantially
along said longitudinal length of said elongate housing, said elongate
electric heating element further comprising a vertical aspect ratio
defined by a length of said elongate electric heating element being
greater than a width of said elongate electric heating element.
32. The portable electric heater of claim 31, wherein said vertical
aspect ratio of said elongate electric heating element is greater
than about 7.5:1.
33. The portable electric heater of claim 31, wherein said length
of said elongate electric heating element is about 13 inches or
greater.
34. The portable electric heater of claim 31, wherein said width
of said elongate electric heating element is about 1.5 inches or
less.
35. The portable electric heater of claim 31, wherein said elongate
electric heating element utilizes a row of PTC ceramic stones flanked
on at least one side by heat dissipation fins.
36. The portable electric heater of claim 35, wherein said row
of PTC ceramic stones is a single row aligned substantially linearly
in a substantially vertical orientation.
37. The portable electric heater of claim 31, wherein a second
comparative ratio is defined by said elevation of said heated exhaust
air stream to said width of said elongate electric heating element,
said second comparative ratio being at greater than about 12 to
1.
38. The portable electric heater of claim 1, wherein said base
is a unitary part of said elongate housing.
39. The portable electric heater of claim 1, wherein said base
is detachably coupled to said elongate housing having i) an operating
configuration when said base is coupled to said elongate housing
and ii) a non-operating configuration when base is detached from
said elongate housing.
40. The portable electric heater of claim 39, wherein said non-operating
configuration is disposed in a package for shipment.
41. The portable electric heater of claim 39, wherein said base
further comprises a split base having at least a first portion and
a second portion that can be separated.
42. The portable electric heater of claim 1, wherein said support
surface is a substantially vertical surface and further comprising
at least one mounting means for mounting said portable electric
heater to said substantially vertical surface.
43. The portable electric heater of claim 42, wherein said at least
one mounting means and said base comprise a unitary component.
44. The portable electric heater of claim 42, wherein said at least
one mounting means and said elongate housing comprise a unitary
component.
45. The portable electric heater of claim 42, wherein said at least
one mounting means is a bracket.
46. A portable electric heater for providing a heated exhaust air
stream at an elevation above a support surface, said portable electric
heater comprising: an elongate housing having at least one sidewall,
a top end, a bottom end, and a longitudinal length extending substantially
upward from said bottom end to said top end, and a horizontal cross
sectional area; a base for supporting said elongate housing in a
vertical and upright position on said support surface, said base
contacting said support surface; at least one interior space within
said elongate housing; at least one elongate electric heating element
disposed within said at least one interior space and oriented substantially
along said longitudinal length of said elongate housing, a length
of said at least one elongate electric heating element being about
13 inches or greater; at least one inlet opening in said elongate
housing allowing inlet air to enter said at least one interior space;
an air blower assembly disposed within said at least one interior
space between said at least one inlet opening and said at least
one elongate electric heating element, said air blower assembly
comprising: i) at least one air impeller; ii) at least one motor
for rotating said air impeller to receive said inlet air and generate
an exhaust air stream; and at least one outlet opening in said elongate
housing allowing said heated exhaust air stream to exit said at
least one interior space, wherein a substantial portion of said
exhaust air stream passes through said at least one elongate electric
heating element and thermal energy is transferred from said at least
one elongate electric heating element to said exhaust air stream
as said exhaust air stream flows through said at least one elongate
electric heating element to form said heated exhaust air stream.
47. The portable electric heater of claim 46, wherein said heated
exhaust air stream exits said elongate housing at an elevation above
said support surface, said elevation being defined by a distance
from where said base contacts said support surface to the highest
vertical exit point of said heated exhaust air stream from said
at least one interior space.
48. The portable electric heater of claim 47, comprising a comparative
ratio defined by said elevation of said heated exhaust air stream
to a width of said elongate electric heating element, said comparative
ratio being at greater than about 12 to 1.
49. The portable electric heater of claim 47, wherein said elevation
of said heated exhaust air stream is about 20 inches or greater.
50. The portable electric heater of claim 46, wherein said at least
one electric heating element is a positive temperature coefficient
(PTC) heating element.
51. The portable electric heater of claim 50, wherein a width of
said at least one elongate electric heating element is about 1.5
inches or less.
52. The portable electric heater of claim 50, further comprising
a row of PTC ceramic stones flanked on at least one side by heat
dissipation fins, wherein said row of PTC ceramic stones is a single
row aligned substantially linearly in a substantially vertical orientation.
53. The portable electric heater of claim 50, wherein said at least
one elongate electric heating element further comprises a vertical
aspect ratio greater than about 7.5:1, defined by said length of
said at least one elongate electric heating element being greater
than a width of said at least one elongate electric heating element.
54. The portable electric heater of claim 46, wherein said heated
exhaust air stream exiting said elongate housing comprises a single
substantially contiguous elongated column of heated exhaust air.
55. The portable electric heater of claim 46, further comprising
a grill covering said at least one outlet opening.
56. The portable electric heater of claim 55, wherein a highest
elevation of an extent of said grill above said support surface
is about 21 inches or greater.
57. A portable electric heater for providing a heated exhaust air
stream at an elevation above a support surface, said portable electric
heater comprising: an elongate housing having at least one sidewall,
a top end, a bottom end, and a longitudinal length extending substantially
upward from said bottom end to said top end, and a horizontal cross
sectional area; a base for supporting said elongate housing in a
vertical and upright position on said support surface, said base
contacting said support surface; an overall length defined by the
distance from where said base contacts said support surface to said
top end of said elongate housing, wherein said overall length being
about 25 inches or greater; said elongate housing further comprising
a maximum width dimension of a horizontal cross sectional area,
a vertical aspect ratio defined by said overall length to said maximum
width dimension and being greater than about 2 to 1; at least one
interior space within said elongate housing; at least one inlet
opening in said elongate housing allowing inlet air to enter said
at least one interior space; an air blower assembly disposed within
said at least one interior space for receiving said inlet air, said
air blower assembly comprising: at least one air impeller and at
least one motor for rotating said air impeller to generate an exhaust
air stream; said at least one air impeller further comprising: i)
a length of said at least one air impeller, ii) a diameter of said
at least one air impeller, and iii) an aspect ratio of said length
of said at least one air impeller to said diameter of said at least
one air impeller being greater than 2 to 1; at least one outlet
opening in said elongate housing allowing said exhaust air stream
to exit said at least one interior space; and at least one electric
heating element disposed within said at least one interior space
between said air blower assembly and said at least one outlet opening,
wherein a substantial portion of said exhaust air stream passes
through said at least one electric heating element and thermal energy
is transferred from said at least one electric heating element to
said exhaust air stream as said exhaust air stream flows through
said at least one electric heating element forming said heated exhaust
air stream.
58. The portable electric heater of claim 57, wherein said base
is a unitary part of said elongate housing.
59. The portable electric heater of claim 57, wherein said base
is decoupled from said elongate housing in a non-operating configuration.
60. The portable electric heater of claim 59, wherein said base
further comprises a split base having at least a first portion and
a second portion that can be separated.
61. The portable electric heater of claim 59, wherein said non-operating
configuration is disposed in a package for shipment from a place
of manufacturing to a place of sale.
62. The portable electric heater of claim 57, wherein said base
further comprising a maximum width dimension of a horizontal cross
section through said base and said maximum width dimension of a
horizontal cross section through said base is less than about 60%
of said overall length.
63. The portable electric heater of claim 57, wherein said heated
exhaust air stream exits said elongate housing at an elevation above
said support surface, said elevation being defined by a distance
from where said base contacts said support surface to the highest
vertical exit point of said heated exhaust air stream from said
at least one interior space.
64. The portable electric heater of claim 63, wherein said elevation
of said heated exhaust air stream is about 20 inches or greater.
65. A portable electric heater for providing a heated exhaust air
stream, said portable electric heater comprising: a housing having
at least one sidewall, a top end, a bottom end, and a length extending
substantially upward from said bottom end to said top end, and a
horizontal cross sectional area; a base for supporting said housing
in a upright position on a support surface, said base contacting
said support surface; at least one interior space within said housing;
at least one inlet opening in said housing allowing inlet air to
enter said at least one interior space; an air blower assembly disposed
within said at least one interior space for receiving said inlet
air, said air blower assembly comprising: i) at least one air impeller,
and ii) at least one motor for rotating said air impeller to generate
an exhaust air stream; at least one outlet opening in said housing
allowing said exhaust air stream to exit said at least one interior
space; at least one electric heating element disposed within said
at least one interior space between said air blower assembly and
said at least one outlet opening; a grill covering said at least
one outlet opening; and an air containment frame disposed between
said electric heating element and said grill, wherein said air containment
frame is a distinct and separate part from said grill. wherein a
substantial portion of said exhaust air stream passes through said
at least one electric heating element and thermal energy is transferred
from said at least one electric heating element to said exhaust
air stream as said exhaust air stream flows through said at least
one electric heating element forming said heated exhaust air stream,
and said containment frame prevents the said heated exhaust air
stream from expanding into an area between said heating element
and said grill.
66. The portable electric heater of claim 65, further comprising
air alignment elements disposed between said electric heating element
and said grill, wherein said alignment elements are distinct and
separate parts from said grill.
67. The portable electric heater of claim 66, wherein said air
containment frame and said air alignment elements are integral to
each other as a single part.
68. The portable electric heater of claim 66, wherein at least
one of said air containment frame or said air alignment elements
are integral to at least one of said housing or said at least one
electric heating element.
69. The portable electric heater of claim 65, wherein an overall
length is defined by the distance from where said base contacts
said support surface to said top end of said housing.
70. The portable electric heater of claim 69, further comprising
a vertical aspect ratio defined by said overall length to a maximum
width dimension of said horizontal cross sectional area of said
elongate housing, wherein said vertical aspect ratio is greater
than about 2 to 1.
71. The portable electric heater of claim 70, wherein a highest
elevation of an extent of said grill above said support surface
is about 21 inches or greater.
72. The portable electric heater of claim 65, wherein said grill
is an integral part of said housing.
73. The portable electric heater of claim 65, wherein said at least
one electric heating element comprises an elongate electric heating
element, said elongate electric heating element further comprising
a vertical aspect ratio defined by a length of said elongate electric
heating element being greater than a width of said elongate electric
heating element.
74. The portable electric heater of claim 73, wherein said at least
one electric heating element is a positive temperature coefficient
(PTC) heating element.
75. The portable electric heater of claim 74, wherein said length
of said elongate electric heating element is about 13 inches or
greater.
76. The portable electric heater of claim 74, wherein said vertical
aspect ratio of said elongate electric heating element is greater
than about 7.5:1.
77. The portable electric heater of claim 74, wherein said width
of said at least one elongate electric heating element is about
1.5 inches or less.
78. The portable electric heater of claim 74, further comprising
a row of PTC ceramic stones flanked on at least one side by heat
dissipation fins, wherein said row of PTC ceramic stones is a single
row aligned substantially linear in a substantially vertical orientation.
Description [0001] This application is a Continuation-in-Part of U.S. patent
application Ser. No. 10/322,169, filed Dec. 18, 2002.
FIELD OF THE INVENTION
[0002] This invention relates generally to heaters. More specifically,
the present invention relates to an elongated electric heater in
which thermal energy is imparted to exhaust air as it passes through
an elongated heating element.
BACKGROUND OF THE INVENTION
[0003] Portable heating devices have been utilized to elevate the
temperature in a living space for many years. Conventional portable
forced hot air heaters for consumer use are well-known and are comprised
of an electrical heating element and a fan within a housing. Ambient
air is forced to pass through or over the heating element thus raising
the temperature of the air. As sufficient air passes through the
heating element the ambient temperature of the room is raised as
desired.
[0004] One goal of a portable heating device is to pass a sufficient
quantity and velocity of air over or through the heating element
to allow the user to experience the produced heat quickly and to
achieve the desired temperature levels in a given space. Another
goal is the ability to achieve the heating of the air in an efficient
manner. This implies the efficient distribution of the airflow over
the maximum amount of heating element surface. In addition, it is
desirable to increase the volume and velocity of air that is heated
during a given time period. This allows the desired ambient temperatures
to be reached more quickly. Further, it is advantageous to project
heated air from the heater to allow the user to experience an immediate
heating effect. One manner to achieve this aspect is to raise the
elevation of the heated air stream, this allows the heated air to
effect the users upper body. The upper body is more exposed and
therefore will experience the effects of the heating device quickly.
Moreover, it is desirable to manufacture the device at a cost and
with features (such as a space saving design and consistent heat
output) that are appealing to consumers.
[0005] One type of conventional portable heater has a low elevation
with respect to a support surface, such as the floor. This low profile
increases the distance that the heat must travel (i.e., the heat
path) to reach the upper trunk of the users body. The added heat
path distance does not produce the desired effect of heating the
upper trunk and extremities of the user's body efficiently.
[0006] Another type of conventional portable heater elevates the
heated exhaust air stream somewhat. The aspect ratio of the heating
element used in such a design, however, limits the height to which
the heated air stream can be elevated. The conventional aspect ratios
of the heating element do not allow for greater length of the element
because of the need to maintain the proper watt density within the
electric heating element to efficiently heat the air steam. The
inability to increase the length of the heating element limits the
elevation of the heating element.
[0007] An additional problem with conventional portable heaters
is that many utilize a "hot wire" or "glow wire"
heating element. These elements can have surface temperatures that
reach and exceed 1250 degrees Fahrenheit (676 degree Celsius). This
elevated element temperature is inherently more susceptible to problems
if the device malfunctions.
SUMMARY OF THE INVENTION
[0008] In light of the aforementioned problems there is a need
for a forced air heater having a heated exhaust air stream at a
height sufficient to shorten the heat path to an upper portion of
the user's body. This heating device should desirably have a vertical
aspect ratio. The vertical aspect ratio would also provide the portable
heater with a space saving design. Another need is for the heating
device to have the ability to move a sufficient volume and velocity
of air over or through the heating element, thus efficiently achieving
the desired ambient temperature level. Another need is for the electric
heating element to have a vertical aspect ratio that would allow
the device to achieve the desired height. Yet another need for the
heating device is to have the ability to utilize a heating element
with a lower surface temperature while achieving the desired air
stream heating characteristics. There is also a need for the heating
device to utilize an air generator design that will have the desired
characteristics for a portable heating device with a vertical aspect
ratio.
[0009] In short what is needed is a heater that combines one or
more of these characteristics at a desirable retail cost for the
consumer.
[0010] According to one aspect of the present invention a portable
electric heater for providing a heated exhaust air stream at an
elevation above a support surface comprises an elongate housing
having at least one sidewall, a top end, a bottom end, and a longitudinal
length extending substantially upward from the bottom end to the
top end, and a horizontal cross sectional area. A base supports
the elongate housing in a vertical and upright position on the support
surface with the base contacting the support surface. The elongate
housing has at least one interior space with at least one inlet
opening in the elongate housing allowing inlet air to enter the
at least one interior space. An air blower assembly is disposed
within the at least one interior space for receiving the inlet air.
The air blower assembly comprises at least one air impeller, and
at least one motor for rotating the air impeller to generate an
exhaust air stream. At least one outlet opening is in the elongate
housing allowing the exhaust air stream to exit the at least one
interior space, and at least one electric heating element disposed
within the at least one interior space between the air blower assembly
and the at least one outlet opening. A substantial portion of the
exhaust air stream passes through the at least one electric heating
element and thermal energy is transferred from the at least one
electric heating element to the exhaust air stream as the exhaust
air stream flows through the at least one electric heating element
forming the heated exhaust air stream, the heated exhaust air stream
exits the elongate housing at an elevation above the support surface,
the elevation being defined by a distance from where the base contacts
the support surface to a highest vertical exit point of the heated
exhaust air stream from the at least one interior space; and the
elevation of the heated exhaust air stream being about 20 inches
or greater.
[0011] According to another aspect of the present invention, a
first comparative ratio is defined by the elevation of the heated
exhaust air stream to a maximum width dimension of the horizontal
cross sectional area of the elongate housing, the first comparative
ratio being greater than about 2 to 1.
[0012] According to a further aspect of the present invention,
the air blower assembly further comprises a transverse blower assembly.
[0013] According to a still another aspect of the present invention,
the air blower assembly further comprises a centrifugal blower assembly.
[0014] According to a yet further aspect of the present invention,
the air blower assembly is a pre-assembled cartridge, and the pre-assembled
cartridge is pre-tested and installed in the elongate housing during
assembly of the portable electric heater.
[0015] These and other aspects and objects will become evident
in light of the following detailed description.
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] The invention is best understood from the following detailed
description when read in connection with the accompanying drawing.
It is emphasized that, according to common practice, various features
of the drawing are not to scale. On the contrary, the dimensions
of various features are arbitrarily expanded or reduced for clarity.
Included in the drawing are the following Figures:
[0017] FIG. 1 is a perspective view of a first exemplary embodiment
of the present invention;
[0018] FIG. 2 is an exploded view of the exemplary embodiment of
FIG. 1;
[0019] FIGS. 3A and 3B illustrate the dimensional aspects of exemplary
heating elements;
[0020] FIG. 4 illustrates dimensional aspects of the external structure
of an exemplary electric heater in accordance with the present invention;
[0021] FIGS. 5A, 5B, 5C and 5D illustrate various exemplary configurations
for protective grills;
[0022] FIGS. 6A and 6B show horizontal cross sections through the
present invention illustrating typical air flow patterns through
the protective grill;
[0023] FIGS. 7A and 7B illustrate the elevated heated exhaust air
stream of a electric heater according to the present invention compared
to a conventional heater; and
[0024] FIG. 8 illustrates another exemplary embodiment of the electric
heater which includes a bracket for mounting to a surface.
DETAILED DESCRIPTION OF THE INVENTION
[0025] This application is a Continuation-in-Part of U.S. patent
application Ser. No. 10/322,169, filed Dec. 18, 2002, the contents
of which is incorporated by reference as if set forth in full.
[0026] The following description is of an electric heater that
is portable and has a vertical aspect ratio which allows the generated
heat to effect the users upper body. The vertical aspect ratio also
provides a space saving design. The electric heating element of
the described electric heater has the proper vertical aspect ratio
to allow the generated heat to effect the user's upper body. The
electric heater so described achieves the desired air volume and
air velocity over or through a low surface temperature heating element.
The air generator within the unit is designed so as to be have the
desired performance characteristics for a portable heater that has
a vertical aspect ratio.
[0027] FIG. 1 shows a perspective view of an exemplary electric
heater 100. As shown in FIG. 1, electric heater 100 includes housing
102, air blower assembly 110, and elongated heating element 116.
Housing 102 includes one or more sidewalls 105 extending between
a bottom 107b and a top 107t thereby defining an interior space
103. Housing 102 includes an elongated construction, preferably
extending vertically upward from the bottom 107b to the top 107t.
Housing 102 also includes one or more air inlet openings 108 and
at least one air exit which may be for example, elongated air outlet
104. Protective grill 106 is preferably disposed over elongated
air outlet 104 for preventing foreign objects from entering the
interior space 103 of housing 102. Disposed within interior space
103 is air blower assembly 110 and at least one heating element
which may be for example elongated heating element 116. Electric
heater 100 also includes power cord 140 and control assembly 126.
Control assembly 126 controls one or more operations of electric
heater 100.
[0028] FIG. 2 shows an exploded perspective view of electric heater
100. As shown in FIG. 2, housing 102 may be constructed of more
than one component, such as, for example, two halves 102a, 102b
that are assembled together. Housing 102 has at least one air inlet
opening 108 and an elongated air outlet 104.
[0029] Disposed within interior space 103 of housing 102 is at
least one air blower assembly 110. Air blower assembly 110 includes
at least one motor 114 and at least one air impeller 112 connected
to motor 114. Air blower assembly 110 may also include, as in this
example, blower housing structure 113 and other components (not
shown). The use of air blower assembly 110 preferably allows for
the pre-assembly and pre-testing of air blower assembly 110 thereby
allowing the manufacture and assembly of electric heater 100 to
be less costly when compared to assembling motor 114, air impeller
112 and blower housing structure 113 into electric heater 100 as
separate components. In one embodiment, air blower assembly 110
is a transverse type blower. It is contemplated that other types
of blowers may be used, such as for example a centrifugal type blower.
[0030] Also disposed within interior space 103, proximate elongated
air outlet 104 is elongated heating element 116. Preferably, elongated
heating element 116 extends substantially along the length of the
elongated air outlet 104 and a substantial portion of all the air
being discharged from air blower assembly 110 flows through elongated
heating element 116.
[0031] In one embodiment, elongated heating element 116 uses a
Positive Temperature Coefficient (PTC) type heat generation technology.
The use of a PTC heating element assures a self-regulating low surface
temperature of approximately 450 degrees Fahrenheit (232 degrees
Celsius).
[0032] The rotation of air impeller 112 causes air to be drawn
into housing 102 through air inlet opening(s) 108. The air flow
passes through blower assembly 110, passes through elongated heating
element 116, and exits housing 102 through elongated air outlet
104. As the air flow passes through elongated heating element 116,
thermal energy (i.e. heat) is imparted to the air flow.
[0033] Preferably, protective grill 106 is located proximate elongated
air outlet 104. Protective grill 106 is preferably designed to minimize
its impedance of the air flow as it exits electric heater 100, while
at the same time protecting electric heater 100 from the internal
penetration of foreign objects. Protective grill 106 may include
air directing vanes, such as louvers for example, that can be used
to control the direction of the heated exhaust air stream as it
exits housing 102. Protective grill 106 may be a separate piece
or formed as an integral part of another component of electric heater
100, for example housing 102.
[0034] In one exemplary embodiment, base 128 may be used to support
housing 102 in a vertical elongate upright position relative to
a support surface. Such a base 128 may be either fixed or rotatably
coupled to housing 102.
[0035] Base 128 may be comprised of one or multiple pieces attached
to one another. Base 128 may be made of materials such as metals
or polymers or a combination of various materials. Base 128 sits
on a support surface thus allowing the entire structure of electric
heater 100 to be positioned in a substantially vertical, upright
and elongate position.
[0036] Although the exemplary embodiment shown in FIG. 2 illustrates
base 128 and housing 102 as separate pieces, the invention is not
so limited. It is contemplated that the support of housing 102 may
be accomplished in a variety of ways, such as forming base 128 as
a unitary member having a variety of predetermined shapes.
[0037] In one embodiment, base 128 can be uncoupled from housing
102. Base 128 can then be stored along with housing 102 and all
other components of electric heater 100 to economize space. The
space economization for storing electric heater 100 can be used
for shipping purposes, thus allowing more units in a given transport
container (i.e. truck) and thereby reducing the overall cost per
unit for transportation.
[0038] In another exemplary embodiment, housing 102 rotates with
respect a support surface. Such rotation may be accomplished either
in an oscillatory fashion (over any angular range that may be desired),
a stepwise positioning of housing 102 (either manually of under
automated control), or in a constant rotation, either in a clockwise
or counter-clockwise direction. As shown, the mechanism for rotation
may be located within or below housing 102 and coupled between housing
102 and base 128.
[0039] FIG. 2 shows oscillating mechanism 118. Oscillating mechanism
118 moves housing 102 of electric heater 100 through oscillation
movement. Oscillation movement allows the heated exhaust air stream
to be dispersed over a larger coverage area. As shown in FIG. 2,
oscillating mechanism 118 includes a motor 124, gear 123, oscillation
plate 120. It is contemplated that other rotating mechanisms, such
as a link and pivot design, may be used to achieve rotation/oscillation
movement.
[0040] Electric heater 100 may also include a controller, such
as control assembly 126 mounted, for example, on top 107t of housing
102 for controlling one or more functions of the device, such as
for example, the speed of blower assembly 110, the rotation or oscillation
of the device, power on/off, etc. Alternatively, control assembly
126 may be mounted in base 128 or lower portion of housing 102,
Alternatively, control of electric heater 100 may be accomplished
by a remote control unit (not shown) in conjunction with or as a
replacement for control assembly 126.
[0041] The position of the control assembly 126 on top 107t of
housing 102 on the substantially vertical, upright and elongate
structure of electric heater 100 also benefits the user in that
the height of the controller above a support surface (floor) allows
convenient accessibility for visual inspection and manual adjustment
of the controller.
[0042] FIGS. 3A and 3B show exemplary embodiments of elongated
heating element 300a and 300b. The heat generation method can be,
for example, Positive Temperature Coefficient (PTC) heat generation
technology. The use of a PTC heating element assures a self-regulating
low surface temperature, approximately 450 degrees Fahrenheit (232
degrees Celsius). Elongated heating element 300a and 300b is shown
having a predetermined length "L", in a vertical orientation,
a predetermined width "W" and a predetermined depth "D".
The ratio of length "L" to width "W" is preferably
greater than about 7.5:1. In one embodiment, the predetermined length
"L" of heating element 300a and 300b is greater than about
13 inches. In one embodiment, the predetermined width "W"
of heating element 300a and 300b is about 1.50 inches or less. The
use of a single elongated heating element minimizes the number of
connections and simplifies the design and assembly of the heating
element.
[0043] FIG. 3B shows another exemplary embodiment of elongated
heating element 300b. As shown in FIG. 3B, elongated heating element
300b may be constructed of one or more segments 304a, 304b, 304c.
As shown, segments 302a, 302b and 302c are preferably arranged substantially
contiguous and aligned end to end. The use of multiple segments
304a, 304b, 304c may require additional connections 305a and 305b
between segments.
[0044] The use of a PTC elongated heating element, for example,
requires that the length "L" to width "W" aspect
ratio be designed to achieve the proper watt density and flow through
characteristics. For example, the use of a 1500 watt PTC elongated
heating element limits length "L" of elongated heating
element 300a or 300b, in that the watt density within the heating
element will not heat the surfaces of heating element 300a or 300b
sufficiently if length "L" is too long and width "W"
is too wide. This insufficient heating of the elongated heating
element will in turn create insufficient heating of the exhaust
air stream. The ratios and dimensions as described allow the elongated
heating element to have the desired vertical aspect ratio while
creating the desired watt density within the elongated heating element.
[0045] In one embodiment, elongate electric heating element 300a
or 300b utilizes a single vertical row of PTC ceramic stones 306.
Ceramic stones 306 can be flanked on at least one side by heat dissipation
fins 308. Heat is generated in ceramic stones 306. Heat dissipation
fins 308 serve to transfer heat from ceramic stones 306 into the
air flow passing through electric heating element 300a or 300b.
The single row of ceramic stones 306, as shown, has an advantage
over a conventional heating element having two or more parallel
rows of ceramic stones and two or more rows of heat dissipation
fins. The single row design does not require that one of the rows
of heat dissipation fins be in contact with a parallel row of heat
dissipation fins. This prevents the migration of heat from one row
of heat dissipation fins to the parallel row of heat dissipation
fins. This in turn allows the available heat dissipation capability
of the heat dissipation fins to be used by the row of ceramic stones
to which it corresponds.
[0046] The elongated heating element so designed in combination
with a blower assembly allows electric heater 100 to have an elongated
vertical aspect ratio (best shown in FIG. 4). The elongated vertical
aspect ratio of electric heater 100 allows the heated air flow to
effect the upper body portion of the user. Thus, increasing the
immediate heating effect experienced by the user. The vertical design
and small diameter of the blower along with the elongated heating
element also allow electric heater 100 to have space saving characteristics.
[0047] FIG. 4 is a perspective view of electric heater 100. As
shown, electric heater 100 has an overall height "H",
an overall housing diameter "E" and a heat elevation "HE".
Overall height "H" is defined as the vertical distance
from support surface 409 to the top of housing 102. The overall
housing diameter dimension "E" is equal to the largest
horizontal cross section dimension through housing 102. All of the
components of and within housing 102, (not including base 128 and
power cord, not shown in this figure) of electric heater 100 reside
within overall housing diameter "E". Dimension "HE"
is defined as the highest point above support surface 409 at which
heated air stream 402 exits housing 102. In one embodiment, dimension
"H" is greater than about 25 inches. In another embodiment,
dimension "HE" is about 20 inches or greater.
[0048] To achieve the desired vertical aspect ratio of electric
heater 100, the relationship between these dimensions are described
below:
[0049] i) A vertical aspect ratio of overall height "H"
to overall housing diameter dimension "E" being greater
than about 2:1
[0050] ii) A first comparative ratio of heat elevation "HE"
to overall housing diameter dimension "E" being greater
than about 2:1.
[0051] iii) A second comparative ratio of heat elevation "HE"
to width "W" of elongated heating element 116 being greater
than about 12:1.
[0052] The vertical design of electric heater 100 with the aspect
ratios described allows the heated air flow to effect the upper
body portion of the user. Thus, increasing the immediate heating
effect experienced by the user. The vertical aspect ratio of heater
100 in conjunction with the vertical aspect ratio of elongated heating
element 116 allows the heated air stream 402 to also exit close
to support surface 409. This allows heated air stream 402 to increase
a heating effect on a lower portion of the user. The vertical design
also allows electric heater 100 to have space saving characteristics.
[0053] Also shown in FIG. 4 is protective grill 106. The elevation
of a highest extent of protective grill 106 above support surface
409 may, as in this example, conform substantially to elevation
"HE" of heated air stream 402. It is contemplated that
the elevation of a highest extent of protective grill 106 above
support surface 409 may be greater than elevation "HE"
of heated air stream 402. In this case protective grill 106 may
be used not only for the functional purpose of allowing heated air
stream 402 to exit housing 102 but also for ornamental purposes,
for example to accentuate the vertical aspect ratio of electric
heater 100. In one embodiment the elevation of the highest extent
of protective grill 106 above support surface 409 is about 21 inches
or greater.
[0054] FIG. 4 also illustrates that the rotational axis of oscillation
of housing 102 is preferably substantially co-linear with central
axis "A" of electric heater 100. The vertical aspect ratio
of housing 102 allows oscillation movement to be distributed along
central axis "A". Oscillation movement is defined as the
movement of housing 102 about the rotational axis of oscillation.
The axis of rotation of air impeller 112 of air blower assembly
110 within interior space 103 of housing 102 is preferably oriented
vertically and substantially co-linear with central axis "A"
of electric heater 400. This reduces the effects of gyroscopic precession
during the oscillation of housing 102 and increases the stability
of electric heater 100. Air impeller 112 has a predetermined diameter
and a predetermined length to allow air impeller 112 to have an
elongated aspect ratio. In one embodiment the predetermined length
to the predetermined diameter aspect ratio of impeller 112 is greater
than about 2:1. Maintaining the elongated aspect ratio of air impeller
112 allows air blower assembly 110 to fit within the elongated housing
102 of electric heater 100.
[0055] In one embodiment air impeller 112 is a limited volume impeller.
The velocity of air stream 402 is fixed in that it must be able
to effectively reach the user. The desired temperature of air stream
402 is also fixed in that it must deliver an adequate temperature
differential between ambient air and heated air stream 402. Elongate
heating element 116 may be a PTC heating element with a fixed maximum
wattage of 1500 W for example. This fixed wattage requirement along
with the fixed temperature and velocity requirements of air stream
402 determines a fixed watt density requirement of elongate heating
element 116. The fixed watt density requirement of elongate heating
element 116 is achieved by the proper length "L" and width
"W" of elongate heating element 116. Thus, the area of
elongate heating element 116 is fixed in that it must have the required
watt density to sufficiently heat air stream 402 to the desired
temperature. Air flow through the heating element may be stated:
Q/A=V
[0056] Where: Q is the volume (cubic feet per minute) of air flowing
through elongate heating element 116, A is the area of elongate
heating element 116 and V is the desired velocity of heated air
stream 402. The volume of air Q must be limited for the desired
velocity V to be achieved while not exceeding the 1500 watt output
requirement of elongate heating element 116.
[0057] An effective way to limit volume Q of impeller 112 is to
reduce its diameter. The limited diameter of impeller 112 more easily
allows air blower assembly 110 to fit within the elongated housing
102 of electric heater 100, thus maintaining the desired vertical
aspect ratio.
[0058] The vertical aspect ratio of housing 102, and air impeller
112 of blower assembly 110 allow the oscillating components of electric
heater 100 to be substantially on center with central axis "A"
thus increasing the stability of electric heater 100.
[0059] The substantially vertical, upright and elongate structure
of electric heater 100, (which includes the vertical aspect ratio
of housing 102 and may include an elongated heating element 116
and elongated impeller 112) helps to minimizes the vertical distance
above the support surface, (floor) to the center of gravity of electric
heater 100. This structure, along with substantially centering the
oscillating components along central axis "A", coupled
with the reduced effects of gyroscopic precession during oscillation,
increase the stability of electric heater 100. This increased stability
allows dimension "BB" of base 128 to be minimized. Dimension
"BB" is equal to the largest horizontal cross section
dimension through base 128. The minimized dimension "BB"
of base 128 allows electric heater 100 to have further space saving
characteristics and, to be easily transported from place to place
within a living space or between various living spaces as desired.
In one embodiment Dimension "BB" of base 128 is less than
about 60% of overall height "H" of electric heater 100.
[0060] FIGS. 5A, 5B, 5C and 5D show several exemplary configurations
of protective grill 506. Protective grill 506 is located proximate
elongated air outlet 104 of electric heater 100. Protective grill
506 is preferably designed to minimize its impedance of the air
flow as the air flow exits electric heater 100 while at the same
time protecting electric heater 100 from the internal penetration
of foreign objects. Protective grill 506 could be fabricated from
various materials such as metal or polymer. FIG. 5A illustrates
protective grill 506a having a series of vertical elements 508.
Although protective grill 506a shows vertical elements 508 it is
contemplated that the elements may be horizontal or on an angle
between vertical and horizontal. Although protective grill 506a
shows elements 508 as being straight it is also contemplated that
elements 508 may be of various shapes, such as curved for example.
FIG. 5B shows protective grill 506b having a hole pattern. FIG.
5C shows protective grill 506c having a slot pattern. FIG. 5D shows
protective grill 506d using a mesh pattern. It is contemplated that
other patterns and configurations can be used for protective grill
506.
[0061] Protective grill 506 may have a vertical aspect ratio wherein
its length is greater than its width. The vertical aspect ration
of protective grill 506 may be substantially similar to the ratios
for elongated heating element 116 or elongated air outlet 104. Protective
grill 106 may be, for example aligned with the longitudinal length
of housing 102 of electric heater 100.
[0062] FIGS. 6A and 6B are horizontal cross sections through housing
102 of electric heater 100 showing the typical air flow pattern
through protective grill 506. Protective grill 506 may have various
hole, slot or mesh patterns. The ability to minimize the impedance
of protective grill 506 on air flow 602 may require additional components
or elements.
[0063] FIG. 6A illustrates the impedance that protective grill
506 places on air flow 602. As shown in FIG. 6A, air flow 602 is
induced to enter interior space 103 of housing 102 through air inlet
openings 108 by the rotation of impeller 112. Air flow 602 exits
impeller 112 and moves through elongated heating element 116 and
toward protective grill 506. Thermal energy (i.e. heat) is imparted
to air flow 602 as it passes through elongated heating element 116.
Air flow 602 expands into the area between elongate heating element
116 and protective grill 506 allowing the velocity of air flow 602
to decrease. The expansion of air flow 602 into the area between
elongate heating element 116 and protective grill 506 also allows
air flow 602 to approach protective grill 506 from various angles
after passing through elongated heating element 116. Protective
grill 506 may not allow air flow 602 to efficiently pass. This impedance
is increased if the flow through area of protective grill 506 is
a structure of various holes, slots or mesh patterns.
[0064] FIG. 6B illustrates the use of air containment frame 604.
Air containment frame 604 is located between elongated heating element
116 and protective grill 506. Air containment frame 604 is located
proximate protective grill 506. In one embodiment air containment
frame 604 is constructed with four portions, (walls) creating a
substantially enclosed channel 604a from elongate heating element
116 to protective grill 506. The form of channel 604a enclosed by
air containment frame 604 may conform substantially to the form
of elongated heating element 116. Air containment frame 604 extends
from elongate heating element 116 to substantially proximate the
interior side 506a of protective grill 506. Air containment frame
604 prevents the air flow 602 from expanding into the area between
elongate heating element 116 and protective grill 506, thus maintaining
the velocity of air flow 602 as it passes through protective grill
506. Maintaining the velocity of air flow 602 allows air flow 602
to more efficiently pass through protective grill 506. This is especially
true when protective grill 506 has a structure that includes various
hole, slot and mesh patterns.
[0065] Also shown in FIG. 6B are air alignment elements 606. Air
alignment elements 606 may be used in conjunction with air containment
frame 604 to enhance the alignment of air flow 602. Air alignment
elements 606 align air flow 602 substantially perpendicular to protective
grill 506. Aligning air flow 602 substantially perpendicular to
protective grill 506 allows air flow 602 to more efficiently pass
through protective grill 506. This is especially true when protective
grill 506 has a structure that includes various hole, slot and mesh
patterns. Although the example shown illustrates air alignment elements
606 as straight it is contemplated that air alignment elements 606
may be for example curved, or have an "air foil" design
that varies in thickness and/or other design shapes to effectively
align air flow 602 as desired. Air alignment elements 606 may also
be used to support protective grill 506.
[0066] Air containment frame 604 and air alignment elements 606
may be separate components or formed together as an integral part.
It is also contemplated that air containment frame 604 and air alignment
elements 606 may be an integral part of another component of electric
heater 100 such as for example, heating element 116 or housing 102.
[0067] The ability to efficiently pass air flow 602 through protective
grill 506 allows air flow 602 to project away from electric heater
100 and into the surrounding area. The thermal energy carried by
air stream 602 will more quickly reach the user, thus allowing the
user to experience an immediate heating effect.
[0068] FIGS. 7A and 7B illustrate the advantages of the electric
heater of FIG. 1 when compared to a standard electric heater design.
FIG. 7A shows an exemplary embodiment of electric heater 100. FIG.
7B illustrates standard electric heater 700. As shown in FIG. 7B,
heated exhaust air stream 704 exits standard electric heater 700
at a low elevation. This low elevation increases the distance that
the heat must traverse to reach an upper portion of user 701. In
contrast, FIG. 7A illustrates the improved performance characteristics
of electric heater 100 in accordance with the present invention.
Heated exhaust air stream 702 exits electric heater 100 at an elevation
"HE" that shortens the distance that must be traversed
by heated exhaust air stream 702 in order to effect an upper potion
of user 701. The upper portion of user 701 is normally more exposed
and therefore will experience the effects of heated exhaust air
stream 702 more readily, contributing to the more immediate relief
of user 701.
[0069] The substantially vertical, upright and elongate structure
of electric heater 100 also benefits user 701 in that the shape
of heated exhaust air stream 702 may be elongate and vertical as
it exits housing 102. An elongate and vertical shape of heated exhaust
air stream 702 generally conforms to the human body.
[0070] FIG. 8. shows another exemplary embodiment of the electric
heater of the present invention. It is contemplated that electric
heater 100 may be so designed as to be mounted via mounting feature
871 to a mounting surface, such as wall 873. As shown, mounting
feature 871 would be connected to wall 873 using screws, adhesive
or other forms of assembly. Alternatively, electric heater 100 could
be inverted so that mounting feature 871 was located above the electric
heater 100 which could hang extending downward from mounting feature
871. Mounting feature 871 may be a separate component or integral
with another part of electric heater 100, for example; base 128
or housing 102. In one preferred embodiment mounting feature 871
is a bracket.
[0071] While preferred embodiments of the invention have been shown
and described herein, it will be understood that such embodiments
are provided by way of example only. Numerous variations, changes
and substitutions will occur to those skilled in the art without
departing from the spirit of the invention. Accordingly, it is intended
that the appended claims cover all such variations as fall within
the spirit and scope of the invention. |