Patent Grant
10736181
This disclosure relates to heaters. In particular, this disclosure relates to basking heaters selectively and removably attachable to terrariums.
Terrarium/reptile basking heaters are heaters that provide radiated heat from above the animal. Typical prior art basking heaters include generally large and unattractive dome lamps. The domes are typically spun metal to prevent the dome from becoming too hot at the touch.
What is needed is a basking heater that overcomes the problems of the prior art. For example, what is needed is a basking heater that is decreased in sized and increased in aesthetic appeal, without allowing the housing of the heater to become too hot to the touch.
A basking heater is provided including a housing defining a bottom and defining an interior; the bottom having an opening in communication with the interior; the housing including a top opposite the bottom; a heating element within the housing interior; the heating element being connected to a power source; and an attachment arrangement adapted to selectively attach the heater to a terrarium. A height of the housing from the bottom to the top can be not greater than 3 inches.
A basking heater is provided including a housing defining a bottom and defining an interior; the bottom having an opening in communication with the interior; a heating element within the housing interior; the heating element being connected to a power source and oriented to radiate heat through the opening in the bottom; and an attachment arrangement usable to selectively attach the heater to a terrarium; the attachment arrangement including both, a fastener to permit selective attachment to a screen cover on a terrarium; and a mounting bracket adapted to permit selective attachment to a top rim of a terrarium.
A basking heater is provided including a housing defining a bottom and defining an interior; the bottom having an opening in communication with the interior; a heating element within the housing interior; the heating element being connected to a power source and oriented to radiate heat through the opening in the bottom; and a power switch controlling an amount of power to the heating element; the power switch having at least 3 settings including no power, low power, and high power.
The housing bottom can be substantially planar.
The grill can be entirely within the housing interior.
The housing may include a first shell and a second shell that fit together to define the interior; the second shell having the bottom.
The housing can define a vent arrangement.
The vent arrangement can include a plurality of slots in the bottom of the housing.
The vent arrangement can include a slot at an interface between the first shell and second shell.
In some embodiments, there is an insulating arrangement adjacent to the heating element, the heating element being between the insulating arrangement and the porous grill.
The insulating arrangement can comprise a ceramic cloth.
A heat conductor may be adjacent to the insulating arrangement.
The housing includes a top opposite of the bottom; and the heat conductor can include a metal plate between the housing top and the insulating arrangement.
In some embodiments, there can be a temperature probe between the heating element and the porous grid; and a circuit board with control logic to disconnect power from the heating element when the temperature probe exceeds a predetermined value.
In some arrangements, a power switch is provided to control an amount of power to the heating element.
The power switch can have only an on/off (e.g. power or no power) switch in some embodiments; in other embodiments, the power switch can have at least 3 settings including no power, low power, and high power.
The low power can comprise about 27 W, and the high power can comprise about 41 W.
The attachment arrangement can include at least one fastener selectively securable to the housing bottom, adapted to permit selective attachment to a screen cover on a terrarium.
The at least one fastener can include a thumbscrew threadably securable into the housing bottom.
The attachment arrangement can include a mounting bracket adapted to permit selective attachment to a top rim of a terrarium.
The mounting bracket may have a depressable tab to release the mounting bracket from the housing.
A height of the housing from the bottom to an opposite top can be not greater than 2.5 inches.
A height of the housing from the bottom to an opposite top can be not greater than 2 inches.
A height of the housing from the bottom to an opposite top can be not greater than 1.75 inches.
The housing can be made of thermoplastic resin.
A method of use includes removably attaching a basking heater, as variously characterized herein to the terrarium in a position to provide radiant heat from a top of the terrarium.
A terrarium is provided having a bottom, surrounding wall extending from the bottom enclosing an interior volume, and an open top providing access to the interior volume; and a basking heater, as characterized herein, removably attached to the terrarium and positioned to provide radiant heat from the open top into the terrarium interior volume.
A variety of examples of desirable product features or methods are set forth in part in the description that follows, and in part will be apparent from the description, or may be learned by practicing various aspects of the disclosure. Aspects of the disclosure may relate to individual features, as well as to combinations of features. It is to be understood that both the foregoing general description and the following detailed description are explanatory only, and are not restrictive of the claimed invention.
A. Overview,
The terrarium 22 has a bottom 23, a surrounding wall 24 extending from the bottom 23 enclosing an interior volume 25, and an open top 26 providing access to the interior volume 25. The open top 26 can be framed or frameless.
For keeping pets (e.g., snakes) that would be able to leave the terrarium 22 through the open top 26, some terrariums 22 have a screen cover 28 (
In
The basking heater 30 can be removably attached to the terrarium 22. By “removably attached” it is meant that the heater 30 can be repeatedly attached and removed from the terrarium 22 without destroying or breaking the heater 30 and/or the terrarium 22.
The basking heater 30 can be removably attached to the terrarium 22 in many different ways. In the example shown in
In preferred embodiments, the heater 30 is constructed and arranged such that a heating element is insulated on the housing sides by material of low thermal conductivity (e.g., ceramic), and heat energy is distributed generally evenly along the top of the heating element using heat sinking metal and venting this energy by convection allowed by vents in the side and top of the heater 30. Conventional heaters cannot be made as slim using the present construction, as the surfaces would become too hot to be safe. These features are explained in further detail in Section B.
B. Example Embodiment,
In preferred embodiments, the basking heater 30 includes a housing 32. The housing 32 is preferably made from an insulating material, such as thermoplastic resin. The heater 30 includes a heating element 34 that directs heat down onto basking animals (reptiles). The heating element 34 can be ceramic, zinc oxide coated glass, infrared lamps, nichome wire radiant elements, etc.
In preferred embodiments, the heater 30 will be smaller than the prior art spun metal dome lamps. The use of insulating members and heat radiators in the heater 30 minimizes or eliminates hot spots and dissipates heat through engineered convention vents. The result is a lower profile (overall height of less than 3 inches; and typically less than 2.5 inches; preferably less than 2 inches; and in some embodiments, less than 1.75 inches), smaller, more distinct, and more attractive heater 30 with a housing 32 that has a lower thermal conductivity than the prior art.
The housing 32 defines a bottom 36. In the example illustrated, the bottom 36 is generally substantially planar and flat. Although other arrangements are possible, having a generally flat, planar bottom 36 allows for a maximum heat transfer between the heater 30 and the terrarium 22, particularly when the terrarium 22 is covered with screen cover 28.
The housing 32 defines an interior 38 (
The bottom 36 has an opening 40 (
The heating element 34 is connected to a power source 42, the example depicted in
In accordance with principles of this disclosure, the heater 30 has a porous grill 46. The porous grill 46 is in the housing interior 38 covering the opening 40 in the bottom 36. The grill 46 is between the heating element 34 and the bottom 36. The grill 46 is preferably entirely within the housing interior 38, such that no portion of the porous grill 46 extends out of the boundaries of the housing 32. The porous grill 46 is preferably made of metal.
If the heater 30 accidentally falls from the terrarium 22 onto the floor, the porous grill 46 is contained within the housing 32 so that no portion of the grill 46 directly touches the floor, and no portion of the heater 30 that does touch the floor is excessively hot. Another advantage by this arrangement is that because the porous grill 46 is installed inside of the housing 32, the heater 30 can be mounted directly to the screen cover 28, when used with terrarium 22.
The housing 32 includes a top 48 opposite of the housing bottom 36.
Many embodiments of the housing 32 are possible. In this embodiment, the housing 32 includes a first shell 50 and a second shell 52 that fit together to define the housing interior 38. The first shell 50 defines the housing top 48, while the second shell 52 defines the housing bottom 36.
In reference to
The second shell 52 includes a surrounding sidewall 58 extending from the housing bottom 36 in a generally rectangular configuration. The first shell 50 and second shell 52 can be secured together by, for example, screws 60 (
In accordance with principles of this disclosure, the housing 32 defines a vent arrangement 64 (
In one example, the vent arrangement 64 includes a plurality of slots 66. The slots 66 are in the bottom 36 of the housing 32. In
The vent arrangement 64 can include a slot 68 at an interface between the first shell 50 and second shell 52. Through a review of
The first shell 50 includes a pair of standoffs 75, 76 (
In accordance with principles of this disclosure, the heater 30 preferably includes an insulating arrangement 78 (
In one example, the insulating arrangement 78 includes ceramic cloth 80. The ceramic cloth 80 can act as a ceramic refractive material filling the volume between the element 34 and the housing top 48 to insulate the top, exposed surface of the housing 32. The ceramic cloth 80 provides a barrier for heat flow in the direction that is not intended for heat flow. In the example shown in
The heater 30 can further include a heat conductor 86 (
In accordance with principles of this disclosure, the basking heater 30 can further include a temperature probe 92. The temperature probe 92 is oriented in the path of the radiant heat from the heating element 34. If the heater 30 is placed on a flat surface with the bottom 36 oriented against the flat surface without adequate ventilation, the temperature of the temperature probe 92 will rise, and the power will be disconnected to the heating element 34. This temperature probe 92 is intended to prevent the heater 30 from burning or charring furniture or flooring.
In the illustrated embodiment, the temperature probe 92 is between the heating element 34 and the porous grid 46. In
Still in reference to
The second frame piece 98 can be made from plastic, such as thermal plastic resin. The second frame piece 98 includes a plurality of legs 102 extending in a direction away from the heating element and toward the housing bottom 36. The legs 102 are illustrated as being on each of the four sides of the second frame piece 98. The legs 102 can be used to pin down or hold the porous grill 46 in place against an inside surface 104 of the bottom 36 of the second shell 52.
Also illustrated in
Further visible in
In accordance with principles of this disclosure, the heater 30 includes a power switch 108. The power switch 108 will control the amount of power being supplied to the heating element 34. While in a simple form, the power switch 108 can simply provide an on/off switch, in preferred embodiments, the power switch 108 will have at least three settings. The three settings include no power; low power; and high power.
The nominal power at the high setting can be about 41 W+/−10% . The nominal power at the low setting can be about 27 W+/−10%. The wattages correspond to tested target basking temperatures at 10 inches from the bottom 36 of the heating element 34. Tropical reptiles prefer to bask at about 85° F., while desert reptiles prefer to bask up to 105° F. The high setting accommodates the desert reptiles, while the low setting accommodates the tropical reptiles and turtles. Basking temperatures based on species include:
In preferred embodiments, the heating element 34 may take time to achieve a steady state temperature. The heating element, in some embodiments, does not light up or otherwise indicate that it is on, other than by the heat, especially when initially turned on. Indicator lights, such as LEDS, illuminate through the housing top 48 beside high and low text on the housing 32 to provide feedback to the end user that the heater is turned on and at what setting. The power switch 108 is preferably a 3-position switch with positions for high, off, and low.
In accordance with principles of this disclosure, the basking heater 30 includes a mounting or an attachment arrangement 110 (
In a first embodiment of the attached arrangement 110, the attachment arrangement 110 includes at least one fastener 112 (
As embodied herein, the fastener 112 includes a thumbscrew 114 threadably securable into the housing bottom 36. In the example shown, the thumbscrew 114 includes first and second thumbscrews 114, 115.
To attach the heater 30 to a screen cover 28, the thumbscrews 114, 115 are removed from the housing 32. The heater 30 is mounted directly against the screen cover 28, and then the thumbscrews 114, 115 are threadably secured through the screen cover 28 and into the housing 32. This allows the heater 30 to be mounted directly against the screen cover 28 to allow for effective heat transfer. See
When the thumbscrews 114, 115 are not used, in the example that an alternate attachment arrangement 110 is used, the thumbscrews 114, 115 are mountable flush against the housing bottom 36, as can be seen in
In another embodiment, the attachment arrangement 110 comprises a mounting bracket 120 adapted to permit selective attachment to the top rim 27 of the terrarium 22. The bracket 120 includes a depressable tab 122 to release the mounting bracket 120 from the housing 32, when it is desirable to remove the housing 32 from the bracket 120. The tab 122 must be depressed to release the housing 32 from the bracket 120, which prevents the possibility of accidental release or immersion if the heater 30 is bumped, or the power cord 44 is pulled.
Many embodiments of mounting bracket 120 are possible. In the illustrated embodiment, the mounting bracket 120 includes a first bracket member 124. The first bracket member 124 has an L-shaped profile which includes a top plate 126 and a side plate 128 generally orthogonal to each other. The top plate 126 defines the spring tab 122, which is deflectable toward and away from a remaining portion of the top plate 126.
The mounting bracket 120 further includes a second bracket member 130. In
The second bracket member 130 defines a C-shaped opening 136, which faces the side plate 128, when the first bracket member 124 and second bracket member 130 are connected to each other. The C-shaped opening 136 can accommodate a frame for terrarium 22. Further, if the terrarium 22 does not have a frame, then the surrounding wall 24 of the terrarium 22 can fit in the space 138 between the wall 140 that faces the first bracket member 124 and the side plate 128 of the first bracket member 124.
The mounting bracket 120 further includes a threaded bolt 142 with an adjustment knob 144. The bolt 142 passes through a hole 146 in the side plate 128 of the first bracket member 124 and is received by a threaded aperture 148 in the second bracket member 130. The first bracket member 124 can be slid within the slide rails 134, 135 of the second bracket member 130 in order to adjust the space 138 to accommodate the appropriate thickness of the surrounding wall 24 of the terrarium 22, with or without a frame. Once the surrounding wall 24 is fit in the space 138 between the second bracket member 130 and the side plate 128 of the first bracket member 124, the knob 144 can be rotated so that the bolt 142 is moved within the threaded aperture 128, and which will tighten the side plate 128 against an outside surface of the surrounding wall 24, while the second bracket member 130 is tightened against an inside surface of the surrounding wall 24 of the terrarium 22.
As mentioned above, the tab 122 is used to release the mounting bracket 120 from the housing 32. In
The basking heater 30 can be used to heat an animal in a terrarium. The method includes removably attaching the basking heater 30 to the terrarium 22 in a position to provide radiant heat from the top 26 of the terrarium 22. The basking heater 30 can be constructed according to principles described above.
The above represents principles of this disclosure. Many embodiments can be made using these principles.
This application claims the benefit of provisional application Ser. No. 62/014,370, filed Jun. 19, 2014, which is incorporated herein by reference in its entirety.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3769935 | Johnson | Nov 1973 | A |
| 3842241 | Isaacson et al. | Oct 1974 | A |
| 3890486 | Fitzgerald | Jun 1975 | A |
| 4026243 | Jessop, III | May 1977 | A |
| 4124793 | Colman | Nov 1978 | A |
| 4201153 | Nace | May 1980 | A |
| 4234780 | McCarthy | Nov 1980 | A |
| 4754571 | Riechmann | Jul 1988 | A |
| 5010845 | Azpurua et al. | Apr 1991 | A |
| 5023433 | Gordon | Jun 1991 | A |
| 5121709 | Wechsler | Jun 1992 | A |
| 5183004 | Trent et al. | Feb 1993 | A |
| 5272316 | Chesnut | Dec 1993 | A |
| 5307762 | Englert | May 1994 | A |
| 5315965 | Davis | May 1994 | A |
| 5371340 | Stanfield | Dec 1994 | A |
| 5404839 | Mancuso | Apr 1995 | A |
| 5406054 | Chirdon | Apr 1995 | A |
| 5437001 | Chaney | Jul 1995 | A |
| 5713304 | de Vosjoli et al. | Feb 1998 | A |
| 5794567 | Itzhak | Aug 1998 | A |
| 5842439 | Selstad | Dec 1998 | A |
| 6040564 | Ueda | Mar 2000 | A |
| 6106869 | Botterman et al. | Aug 2000 | A |
| 6637374 | Hawks et al. | Oct 2003 | B2 |
| 6758162 | Van Heygen | Jul 2004 | B1 |
| 7481183 | Van Heygen | Jan 2009 | B2 |
| 9706758 | Barnes, III | Jul 2017 | B1 |
| 20010018081 | Bottarman et al. | Aug 2001 | A1 |
| 20020148410 | Thomas | Oct 2002 | A1 |
| 20060243214 | Van Heygen | Nov 2006 | A1 |
| 20100218728 | Hughes | Sep 2010 | A1 |
| 20120153191 | Kane et al. | Jun 2012 | A1 |
| 20130305605 | Wang | Nov 2013 | A1 |
| 20140001171 | Wang | Jan 2014 | A1 |
| 20140299593 | Casey | Oct 2014 | A1 |
| Number | Date | Country |
|---|---|---|
| 202799911 | Mar 2013 | CN |
| 7003687 | Jun 1970 | DE |
| 82 12 984 | Jul 1982 | DE |
| 20 2004 006 120 | Aug 2004 | DE |
| 10 2009 037 767 | Mar 2011 | DE |
| 2 683 214 | Jan 2014 | EP |
| 2012-43577 | Mar 2012 | JP |
| Entry |
|---|
| Exo Terra Desert Heat Wave Mat Substrate Heater, http://www.drsfostersmith.com/product/prod_display.cfm?c=6016+11148+20114+22806&pcatid=22806, 4 pages (known at least as early as Apr. 18, 2014). |
| http://www.youtube.com/watch?v=I4FM3Z-4VJY (known at least as early as Jun. 2, 2014). |
| International Search Report and Written Opinion for Application No. PCT/US2015/035843 dated Oct. 5, 2015. |
| Reptile Heating & Lighting, http://www.ultimatereptiles.com.au/care-info/42-reptile-heating-a-lighting-.html, 2 pages (known at least as early as Apr. 18, 2014). |
| Terrarium heater, http://www.oocities.org/warmpets/vetnary_reptile.html, 4 pages (known at least as early as Apr. 18, 2014). |
| Zoo Med ReptiTherm® Habitat Heater, http://www.drsfostersmith.com/product/prod_display.cfm?c=6016+11148+20114+22805&pcatid=22805 , 5 pages (known at least as early as Apr. 18, 2014). |
| Number | Date | Country | |
|---|---|---|---|
| 20150373786 A1 | Dec 2015 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62014370 | Jun 2014 | US |
