1. Field of the Invention
This invention relates to a support system for a radiant heater assembly and in particular to a radiant heating assembly support system for outdoor use.
2. Discussion of the Prior Art
In general, there are several drawbacks to currently available outdoor radiant tube heater assemblies. Most outdoor patios do not have an overhead structure for the installation of heaters. At present, overhead patio heaters require an awning, roof or a custom made support system for installation. Custom made support systems require on-site cutting, welding and fabrication of material to build an assembly of sufficient structural integrity to support heaters and withstand the elements of nature. Some patio heaters include post mounted “mushroom” style heaters attached to tubes, which are embedded in concrete or surface mounted on a patio. Disadvantages of these types of structures are that a tube or post is required for every heater, taking up space on a patio. Moreover, gas and/or electrical lines include underground pipes and conduits. During new construction, supply lines must be buried prior to the installation of the patio surface. In the case of an installation on an existing patio, the patio surface must be demolished to an extent sufficient to permit installation of underground fuel and/or electrical supply lines which is a costly undertaking.
An object of the present invention is to provide a modular support system for radiant patio heaters which is easy to assemble on site, and which can readily be secured to existing patio surfaces using standard, readily available fasteners.
According to one aspect the invention relates to a variable input, radiant tube heater comprising a housing; a burner in said housing; a reflector connected to said housing; a burner tube in said housing; a gas inlet line for introducing, fuel into said burner; a blower attached to said housing for blowing air into said housing; a 24 volt motor in said blower for operating the blower; a gas pressure regulator in said gas inlet line for regulating the flow of fuel to the burner; and a transformer remote from said heater for supplying 24 volt power to said blower motor.
According to another aspect, the invention relates to a variable input, radiant tube heater comprising a housing; a burner in said housing, a reflector connected to said housing; a burner tube in said housing; a gas inlet line for introducing fuel into said burner; a blower attached to said housing for blowing air into said housing; a gas pressure regulator in said gas inlet line for regulating the flow of fuel to the burner; said regulator including a valve in said gas inlet line, and a valve operator for opening and closing said valve; and an electrical control connected to said valve operator for controlling operation of said valve operator.
According to yet another aspect the invention relates to a modular support system for outdoor radiant heaters comprising a frame including at least one hollow beam for receiving fuel and electrical lines and supporting a radiant heater; a plurality of posts for supporting said beam at ends thereof; and saddles for connecting said beam to said posts, each said saddle having a closed bottom end, side walls and an open top end.
The invention is described below in greater detail with reference to the accompanying drawings, wherein:
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The above described system is cost effective and easy to produce. The space requirements for components is relatively small, and the components are readily available. Finally, the system is simple to operate.
The support system of the present invention is a modular, track system which is easy to assembly on site, and which can readily be secured to existing patio surfaces using industry standard fasteners.
Referring to
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The end mounting saddle 41 includes a baseplate 49 with a sleeve 50 extending downwardly therefrom, an end plate 51 and a pair of side plates 52. The saddle 41 is used on the end of a central beam 37 when the frame 32 is large enough to require two contiguous, rectangular sections.
The intermediate mounting saddle 42 includes a baseplate 54, a sleeve 55 extending downwardly from the baseplate 54 and a pair of sides 56. The saddle 42 is used between the ends of a beam 37 for supporting the beam in an elevated position.
A mounting bracket 58 is used to connect a pair of beams 37 end to end on opposite sides of a third beam 37 perpendicular to the first two beams. The bracket 58 includes a baseplate 59 and a pair of L-shaped sides 60 extending inwardly from each end of the baseplate 59 for attachment to a pair of beams 37. A third beam 37 is inserted between the sides 60 perpendicular to beams resting on the baseplate 59 between the ends of such sides 60.
Beams 37 can be spliced end to end using a generally U-shaped splicer 62 defined by a baseplate 63 and a pair of rectangular sides 64. An L-shaped end cap 66 is used to close any open ends of the beams 37 at the corners of the finished frame 32. A bracket 68 is used to connect the free end of a beam 37 to wall 69 of a building or to another vertical structure such as a fence to anchor the support structure in position. The bracket 68 includes a baseplate 70, side walls 71 and short end walls 72. Bolts or screws extend through the end walls 72 into a vertical support structure, and bolts or screws extending through the sidewall 71 connect the bracket to a beam 37 resting on the baseplate 70.
Referring to
The automatic temperature control system includes a control 77 and an infrared sensor 78 suspended from the center of the frame 32 (
In operation, the patio surface 36 is heated by infrared waves 83 (
This is a divisional of application Ser. No. 12/248,215, filed Oct. 13, 2005. This application claims priority on US Provisional Application 60/618,164 filed Oct. 14, 2004.