Abstract:
A tilt-able-central-planar-reflector, a tilt-able-auxiliary-left-planar-reflector, and a tilt-able-auxiliary-right-planar-reflector are hingely attached to a solar-absorbing-thermal-mass. The sun&#39;s light is made horizontal to reflect to the interior wall of a reflecting-curved-overhang, capturing the sun&#39;s sunrise light and sun&#39;s sunset light, and to reflect to the interior wall of a reflecting-parabolic-half-shell capturing the sun&#39;s noon light, so as to redirect the sun&#39;s light to a solar-absorbing-thermal-mass. The net result provides heat 24 hours a day, 7 days a week for utilization.

Description:
FIELD OF INVENTION 
       [0001]    A tilt-able-central-planar-reflector, a tilt-able-auxiliary-left-planar-reflector, and a tilt-able-auxiliary-right-planar-reflector are utilized to reflect the sun&#39;s light to the interior wall of a reflecting-curved-overhang, and a reflecting-parabolic-half-shell, so as to redirect the sun&#39;s light to heat a solar-absorbing-thermal-mass. 
       PRIOR ART 
       [0002]    The invented device improves upon existing art. 
         [0003]    Nix (U.S. patent application Ser. No. 12/459,719 Filing date Jul. 7, 2009) illustrates a reflecting-parabolic-half-shell with a reflecting-curved-overhang. Positioned from the open-void created by the interior wall of the reflecting-parabolic-half-shell and the interior wall of the reflecting-curved-overhang is a heliostat or a tilt-able-planar-reflector rotating on a turntable. The result is the sun&#39;s light is redirected to a solar-absorbing-thermal-mass. The solar-absorbing-thermal-mass contains embedded pipe, which heat a working fluid as air, gas or a transfer fluid. Nix does not show a tilt-able-central-planar-reflector, a tilt-able-auxiliary-left-planar-reflector, or a tilt-able-auxiliary-right-planar-reflector, hinged, adjacent and attached to the solar-absorbing-thermal-mass. While Nix moves in four degrees of freedom, the invented device moves in two degrees of freedom. 
         [0004]    Nix (U.S. Pat. No. 8,360,052, issued Jan. 29, 2013) illustrates a reflecting-parabolic-half-shell with a tilt-able-planar-reflector, which is round in shape, and rotating about a central axis. The tilt-able-planar-reflector is hinged, adjacent and attached to the reflecting-parabolic-half-shell. Nix does not show a tilt-able-central-planar-reflector that is centrally located, hinged, adjacent and attached to a solar-thermal-absorbing-thermal-mass. Nor does Nix show a tilt-able-central-planar-reflector, a tilt-able-auxiliary-left-planar-reflector nor a tilt-able-auxiliary-right-planar-reflector, hinged, adjacent and attached, to a solar-absorbing-thermal-mass, moving in unison. Nor does Nix show a reflecting-curved-overhang. While Nix moves in four degrees of freedom, the invented device moves in two degrees of freedom. 
         [0005]    Nix (U.S. patent application Ser. No. 11/634,312, Filing date Dec. 5, 2006) illustrates the use of various renewable energy sources to convert a fossil fuel burner firebox. Combustion air is preheated by renewable energy sources. FIG. 11 and Paragraph [0211] illustrate the use of wind energy to heat a hot air oven. The wind turbines power a heating element embedded in an underground oven. FIG. 9A and FIG. 9B and Paragraph [0209] illustrate a reflecting-parabolic-half-shell with a tilt-able-planar-reflector hinged, attached, and rotatable about a central axis on a turntable that moves in four degrees of freedom. The invented device moves in two degrees of freedom. 
         [0006]    The above art illustrate the concept of a tilt-able-central-planar-reflector adjacent and attached to a tilt-able auxiliary-left-planar-reflector, and a tilt-able-central-planar-reflector adjacent and attached to a tilt-able-auxiliary-right-planar-reflector, so as to reflect the sun&#39;s light to a reflecting-curved-overhang and to a reflecting-parabolic-half-shell, thus redirecting the sun&#39;s light to a solar-absorbing-thermal-mass, is new and novel. While Nix, Nix, and Nix move in four degrees of freedom, the invented device moves in two degrees of freedom. 
       SUMMARY OF THE INVENTION 
       [0007]    An assembly comprising of a tilt-able-planar-reflector, a tilt-able-auxiliary-left-planar-reflector, a tilt-able-auxiliary-right-planar-reflector is described. 
         [0008]    The tilt-able-central-planar-reflector is hingely, adjacent and attached to a solar-absorbing-thermal-mass. The tilt-able-central-planar-reflector is adjustable in tilt to adjust to the elevation of the sun&#39;s noon light above the horizon. Thus, the tilt-able-central-planar-reflector reflects the sun&#39;s noon light, so it is horizontal. The net result is the sun&#39;s noon light is reflected to the reflecting-half-shell-parabolic and thus redirected to the solar-absorbing-thermal-mass. The tilt-able-central-planar-reflector moves in two degrees of freedom. 
         [0009]    The tilt-able-central-planar-reflector has adjacent and attached a tilt-able-auxiliary-left-planar-reflector. The tilt-able-auxiliary-left-planar-reflector is adjustable in tilt to the elevation of the morning sunrise above the horizon. Thus, the morning sun&#39;s sunrise light is made horizontal. The net result is the sun&#39;s sunrise light is reflected to the reflecting-curved-overhang and thus redirected to the solar-absorbing-thermal-mass. The tilt-able-auxiliary-left-planar-reflector move in unison with the tilt-able-central-planar-reflector. The tilt-able-auxiliary-left-planar-reflector moves in two degrees of freedom. 
         [0010]    The tilt-able-central-planar-reflector is adjacent and attached a tilt-able-auxiliary-right-planar-reflector. The tilt-able-auxiliary-right-planar-reflector is adjustable in tilt to the elevation of the afternoon sunset above the horizon. Thus, the afternoon sun&#39;s sunset light is made horizontal. The net result is the sun&#39;s sunset light is reflected to the reflecting-curved-overhang and thus redirected to the solar-absorbing-thermal-mass. The tilt-able-auxiliary-right-planar-reflector move in unison with the tilt-able-central-planar-reflector. The tilt-able-auxiliary-right-planar-reflector moves in two degrees of freedom. 
         [0011]    The tilt-able-central-planar-reflector, the tilt-able-auxiliary-left-planar-reflector, the tilt-able-auxiliary-right-auxiliary-planar-reflector are tilt-able in unison. All three tilt together, thus are able to adjust to the height of the morning, noon, and afternoon sun&#39;s elevation. Thus, are able to make the sun&#39;s light horizontal in unison. To control the tilt angle, actuators are used. These actuators can be mechanical, electrical, hydraulic, compressed air, or manual. These actuators move according to the sun&#39;s elevation in the sky, so as to make the sun&#39;s light horizontal. The tilt-able-central-planar-reflector, the tilt-able-auxiliary-left-planar-reflector, and tilt-able-auxiliary-right-planar-reflector move in two degrees of freedom. 
         [0012]    A reflecting-curved-overhang forming a curved half circle is located centrally, above, adjacent and attached to a solar-absorbing-thermal-mass. The reflecting-parabolic-half-shell is located centrally, adjacent and attached to the reflecting-curved-overhang, creating an open-void. Both the reflecting-curve-overhang and the reflecting-parabolic-half-shell are located centrally, above, adjacent and attached to the solar-absorbing-thermal-mass. The assembly of the tilt-able-central-planar-reflector, tilt-able-auxiliary-left-planar-reflector, and the tilt-able-auxiliary-right-planar-reflector reflect the sun&#39;s light horizontally into the open-void created by the interior wall of the reflecting-curved-overhang and the interior wall of the reflecting-parabolic-half-shell. 
         [0013]    As an alternative, the tilt-able-central-planar-reflector can be tilted in the approximately 90 degree angle, enclosing the open-void at night, in winter, in storms, and like. The open-void is created by the interior wall of the reflecting-parabolic-half-shell and the interior wall of the reflecting-curved-overhang. Thus, enclosing the open-void, and thus helping to keep wind from cooling the solar-absorbing-thermal-mass, and thus helping to keep the solar-absorbing-thermal-mass hot. In the alternative, when the tilt-able-central-planar-reflector is in the approximately 90 degree angle, a wind turbine can generate electricity to heat an embedded-heating-element. This embedded-heating-element can add heat to the solar-absorbing-thermal-mass at night, in winter, or storms, and like. The embedded-heating-element adds addition heat for utilization. Placing the tilt-able-central-planar-reflector in the approximately 90 degree angle helps to keep the wind from cooling the solar-absorbing-thermal-mass, and helps to trap the heat from the embedded-heating-element. 
         [0014]    The solar-absorbing-thermal-mass receives and captures the sun&#39;s light redirected from the reflecting-curved-overhang interior wall and the reflecting-parabolic-half-shell interior wall, thus heating the solar-absorbing-thermal-mass. The solar-absorbing-thermal-mass contains embedded-pipe to heat a working fluid, as air, gas, water, or a transfer fluid. The solar-absorbing-thermal-mass is surrounded by an insulating-foundation, topped by a transparent-and-insulating-floor, and underplayed by an insulating-layer, so as to better absorb the sun&#39;s light. 
         [0015]    The solar-absorbing-thermal-mass contains a centrally located crucible for capturing the sun&#39;s concentrated light redirected from the interior wall of the reflecting-curved-overhang and from the interior wall of the reflecting-parabolic-half-shell. The crucible is located at the foci of the reflecting-curved-overhang and the reflecting-parabolic-half-shell. 
         [0016]    The tilt-able-central-planar-reflector reflects the sun&#39;s noon light horizontally to the reflecting-parabolic-half-shell. The tilt-able-auxiliary-left-tilt-able-planar-reflector reflects the sun&#39;s sunrise light horizontally to the reflecting-curved-overhang. The tilt-able-auxiliary-right-planar-reflector reflects the sun&#39;s sunset light horizontally to the reflecting-curved-overhang. In turn, the reflecting-curved-overhang and the reflecting-parabolic-half-shell redirect the sun&#39;s noon light, sun&#39;s sunrise light, and sun&#39;s sunset light to the solar-absorbing-thermal-mass and to the centrally located crucible. 
         [0017]    It should be noted that when the sun&#39;s sunrise light is directly East, and when the sun&#39;s sunset light is directly West, none of the sun&#39;s light will enter the open-void. None of the sun&#39;s light will reflect to the reflecting-curved-overhang. This is not disadvantageous. The tilt-able-auxiliary-left-planar-reflector will capture the sun&#39;s sunrise light, when the sun is at the late morning elevation. The tilt-able-auxiliary-right-planar-reflector will capture the sun&#39;s sunset light, when the sun is at the early afternoon elevation. When the sun&#39;s elevation is directly behind the invented device, the tilt-able-central-planar-reflector will start closing to the 90 degree tilt, in unison with the tilt-able-auxiliary-left-planar-reflector and in unison with the tilt-able-auxiliary-right-planar-reflector. Thus, closing for the night. 
         [0018]    The assembly of the tilt-able-central-planar-reflector, the tilt-able-auxiliary-left-planar-reflector, and the tilt-able-auxiliary-right-planar-reflector are means to heat a solar-absorbing-thermal-mass. The solar-absorbing-thermal-mass contains embedded-pipe, which heat a working fluid, as air, gas, water or transfer fluid for utilization. The assembly of the tilt-able-central-planar-reflector, the tilt-able-auxiliary-left-planar-reflector, and the tilt-able-auxiliary-right-planar-reflector are means to heat a working fluid, as air, gas or water or means to smelt metals, glass and rock or to process chemicals, or to process human or animal waste, as from a toilet. 
     
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         [0019]      FIG. 1  illustrates a side view of the invented device. Shown are the tilt-able-central-planar-reflector, tilt-able-auxiliary-left-planar-reflector, and tilt-able-auxiliary-right-planar-reflector assembly. An actuator adjusts the angle of the assembly to the desired tilt, so as to make the sun&#39;s light from noon, sunrise, and sunset angles horizontal. The horizontal light then enters the open-void created by the interior wall of the reflecting-curved-overhang and the open-void created by the interior wall of the reflecting-parabolic-half-shell, which in turn redirect the sun&#39;s light to the solar-absorbing-thermal-mass. 
           [0020]      FIG. 2  illustrates an overhead view of the invented device. Shown are the tilt-able-central-planar-reflector, tilt-able-auxiliary-left-planar-reflector, and tilt-able-auxiliary-right-planar-reflector assembly. The angle of the assembly is adjusted to the desired tilt, so as to make the sun&#39;s light from noon, sunrise, and sunset angles horizontal. The horizontal light then enters the open-void created by the interior wall of the reflecting-curved-overhang and the open-void created by the interior wall of the reflecting-parabolic-half-shell, which in turn redirect the sun&#39;s light to the solar-absorbing-thermal-mass. 
           [0021]      FIG. 3  illustrates a frontal view of the invented device. Shown are the tilt-able-central-planar-reflector, tilt-able-auxiliary-right-planar-reflector, and the tilt-able-auxiliary-right-planar-reflector assembly. An actuator adjusts the angle of the assembly to the desired tilt, so as to make the sun&#39;s light from noon, sunrise, and sunset angles horizontal. The horizontal sun&#39;s light then enters the open-void created by the interior wall of the reflecting-curved-overhang and the open-void created by the interior wall of the reflecting-parabolic-half-shell, which in turn redirect the sun&#39;s light to the solar-absorbing-thermal-mass. 
           [0022]      FIG. 4  illustrates a functional side view of the invented device. Shown are the tilt-able-central-planar-reflector, tilt-able-auxiliary-left-planar-reflector, and the tilt-able-auxiliary-right-planar-reflector assembly. An actuator adjusts the angle of the assembly to the desired tilt, so as to make the sun&#39;s light from noon, sunrise, and sunset angles horizontal. The horizontal sun&#39;s light then enters the open-void created by the interior wall of the reflecting-curved-overhang and the open-void created by the interior wall of the reflecting-parabolic-half-shell, which in turn redirects the sun&#39;s light to the solar-absorbing-mass. The solar-absorbing-thermal-mass contains a crucible for capturing the sun&#39;s concentrated light. The crucible is located at the foci of reflecting-curved-overhang and the foci of the reflecting-half-shell-parabolic. Thus the crucible is capable of smelting rocks, glass and metals, and to process chemicals, or to process human or animal waste, as from a toilet. The solar-absorbing-thermal-mass contains embedded-pipe to heat a working fluid, as air, gas, water, or a transfer fluid. 
           [0023]      FIG. 5  illustrates the use of a wind turbine to heat the solar-absorbing-thermal-mass. When the tilt-able-central-planar-reflector is placed in the approximately 90 degree angle, it encloses the open-void created by interior wall of the reflecting-parabolic-half-shell and the interior wall of the reflecting-curved-overhang. The wind turbine generates electricity, which powers an embedded-heating-element, which in turn makes the solar-absorbing-thermal-mass hot. Thus, heat can be stored in the solar-absorbing-thermal-mass at night, in winter, in storms, and like. The approximately 90 degree angle of the tilt-able-central-planar-reflector helps to keep wind from cooling the solar-absorbing-thermal-mass, and helps to trap the heat from the embedded-heating-element. 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0024]      FIG. 1  shows a side view of the invented device. Shown are a reflecting-curved-overhang ( 12 ), and a reflecting-parabolic-half-shell ( 1 ). Shown is a tilt-able-central-planar-reflector ( 2 ), a tilt-able-auxiliary-left-planar-reflector ( 3 ) and a tilt-able-auxiliary-right-planar-reflector ( 4 ), which are adjustable to the sun&#39;s noon light ( 16 ), sun&#39;s sunrise light ( 17 ), and the sun&#39;s sunset light ( 18 ), making the sun&#39;s light ( 16 ,  17 ,  18 ) horizontal. The sun&#39;s light ( 16 ,  17 ,  18 ) then enters the open-void ( 14 ) created by the interior wall of the reflecting-curved-overhang ( 12 ) and the interior wall of the reflecting-parabolic-half-shell ( 1 ). The sun&#39;s light ( 16 ,  17 ,  18 ) is then redirected to the solar-absorbing-thermal-mass ( 6 ), which is bounded by an insulating-foundation ( 10 ). Shown are the hinges ( 11 ) that support the structural weight of the tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ). The hinges ( 11 ) can be attached to the lower body of the reflecting-curved-overhang ( 12 ), or to the solar-absorbing-thermal-mass ( 6 ), or to a post ( 13 ), which bears the structural weight of the tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ) and the tilt-able-auxiliary-right-planar-reflector ( 4 ). An actuator ( 15 ) adjusts the tilt of the tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ). The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ), all tilt in two degrees of freedom. 
         [0025]      FIG. 2  illustrates an overhead view of the invented device. Shown is a tilt-able-central-planar-reflector ( 2 ) that is adjustable to the sun&#39;s noon light ( 16 ) elevation. The tilt-able-central-planar-reflector ( 2 ) reflects the sun&#39;s noon light ( 16 ) to the interior wall of the reflecting-parabolic-half-shell ( 1 ). Also shown is the tilt-able-auxiliary-left-planar-reflector ( 3 ) that is adjustable to the sun&#39;s sunrise light ( 17 ). The tilt-able-left-planar-reflector ( 3 ) reflects the sun&#39;s sunrise light ( 17 ) to the interior wall of the reflecting-curved-overhang ( 12 ). Shown is the foci ( 21 ) of the reflecting-curved-overhang ( 12 ), and the reflecting-parabolic-half-shell ( 1 ). 
         [0026]      FIG. 2  also shows the tilt-able-auxiliary-right-planar-reflector ( 4 ) that is adjustable to the elevation of the sun&#39;s sunset light ( 18 ). The tilt-able-auxiliary-right-planar-reflector ( 4 ) reflects the sun&#39;s sunset light ( 18 ) to the interior wall of the reflecting-curved-overhang ( 12 ). Shown are the hinges ( 11 ), which can be attached hingely to the lower body of the reflecting-curved-overhang ( 12 ) or to a solar-absorbing-thermal-mass ( 6 ) or to a post ( 13 ), which bears the structural weight of the tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ). An actuator ( 15 ) adjusts the tilt of the tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ). The tilt-able-central-planar-reflector ( 2 ) the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ), all tilt in two degrees of freedom. 
         [0027]      FIG. 3  illustrates a frontal view of the invented device. Shown is an integrated and attached reflecting-curved-overhang ( 12 ) and a reflecting-parabolic-half-shell ( 1 ), creating an open-void ( 14 ). Shown is a tilt-able-central-planar-reflector ( 2 ), which is adjustable to the sun&#39;s noon light ( 16 ). When adjusted to the proper tilt angle, the tilt-able-central-planar-reflector ( 2 ) makes the sun&#39;s noon light ( 16 ) horizontal and reflects into the open-void ( 14 ), where the reflecting-parabolic-half-shell ( 1 ) redirects the sun&#39;s noon light ( 16 ) to the solar-absorbing-thermal-mass ( 6 ). 
         [0028]      FIG. 3  also shows the tilt-able-auxiliary-left-planar-reflector ( 3 ), which is attached and adjacent to the tilt-able-central-planar-reflector ( 2 ). The auxiliary-left-tilt-able-planar-reflector ( 3 ) tilt angle is adjustable to sun&#39;s sunrise light ( 17 ). The tilt-able-auxiliary-left-planar-reflector ( 3 ) makes the sun&#39;s sunrise light ( 17 ) horizontal, which reflects from the interior wall of the reflecting-curved-overhang ( 12 ), which in turn redirects the sun&#39;s sunrise light ( 17 ) to the solar-absorbing-thermal-mass ( 6 ). 
         [0029]      FIG. 3  also shows the tilt-able-auxiliary-right-planar-reflector ( 4 ), which is attached and adjacent to the tilt-able-central-planar-reflector ( 2 ). The tilt-able-auxiliary-auxiliary-right-planar-reflector ( 4 ) tilt angle is adjustable to the sun&#39;s sunset light ( 18 ). The tilt-able-auxiliary-right-planar-reflector ( 4 ) makes the sun&#39;s sunset light ( 18 ) horizontal, which then reflects the sun&#39;s sunset light ( 18 ) to the interior wall of the reflecting-curved-overhang ( 12 ) and reflecting-parabolic-half-shell ( 1 ), which in turn redirects the sun&#39;s sunset light ( 18 ) to the solar-absorbing-thermal-mass ( 6 ). The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ) are moveable by an actuator ( 15 ). The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-right-planar-reflector ( 4 ), all tilt in two degrees of freedom. The tilt-able-central-planar-reflector ( 2 ) is attached hingely ( 11 ) to the solar-absorbing-thermal-mass ( 6 ), or may in the alternative be attached hingely to a post ( 13 ). The tilt-able-auxiliary-left-planar-reflector ( 3 ) may be attached hingely ( 11 ) to the solar-absorbing-thermal-mass ( 6 ), or may in the alternative be attached hingely to a post ( 13 ). The tilt-able-auxiliary-right-planar-reflector ( 4 ) may be attached hingely ( 11 ) to the solar-absorbing-thermal-mass ( 6 ), or may in the alternative be attached hingely to a post ( 13 ). There can be several posts ( 13 ). 
         [0030]      FIG. 4  shows a functional view of the invented device. Shown is a centrally located tilt-able-central-planar-reflector ( 2 ) that is adjustable to the elevation of the sun&#39;s noon elevation ( 16 ). The tilt-able-central-planar-reflector ( 2 ) makes the sun&#39;s noon light ( 16 ) horizontal, and reflects the sun&#39;s noon light ( 16 ) to the interior wall of the reflecting-parabolic-half-shell ( 1 ), which in turn redirects the sun&#39;s noon light ( 16 ) to the solar-absorbing-thermal-mass ( 6 ) and to the crucible ( 5 ). The crucible ( 5 ) is capable of smelting materials and making them molten, and is located at the foci ( 21 ) of the reflecting-parabolic-half-shell ( 1 ), and is also located at the foci ( 21 ) of the reflecting-curved-overhang ( 12 ). The residual heat of the crucible ( 5 ) helps to heat the solar-absorbing-thermal-mass ( 6 ). Embedded in the solar-absorbing-thermal-mass ( 6 ) is embedded-pipe ( 7 ) that heats a working fluid, as air, gas, water or a transfer fluid. A blower or pump ( 8 ) is illustrated to show the movement of the working fluid in the embedded-pipe ( 7 ). Surrounding the solar-absorbing-thermal-mass ( 6 ) is an insulating-foundation ( 10 ), on top is an insulating-and-transparent-floor ( 22 ) and underneath is an insulating-layer ( 9 ), helping to trap the heat inside the solar-absorbing-thermal-mass ( 6 ). 
         [0031]      FIG. 4  also shows hinges ( 11 ) which bear the structural weight of the tilt-able-central-planar reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the right-auxiliary-tilt-able-auxiliary-right-planar-reflector ( 4 ). The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ) can be attached hingely to the solar-absorbing-thermal-mass ( 6 ). In the alternative, the tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ) can be attached hingely to a post ( 13 ). There can be several posts ( 13 ). 
         [0032]      FIG. 4  also shows the functional view of the tilt-able-auxiliary-left-planar reflector ( 3 ). The tilt-able-auxiliary-left-planar-reflector ( 3 ) is adjustable to the sun&#39;s sunrise light ( 17 ). The tilt-able-auxiliary-left-planar-reflector ( 3 ) makes the sun&#39;s sunrise light ( 17 ) horizontal. The sun&#39;s sunrise light ( 17 ) is directed to the interior wall of the reflecting-curved-overhang ( 12 ), which redirects the sun&#39;s sunrise light ( 17 ) to the solar-absorbing-thermal-mass ( 6 ). An open-void ( 14 ) is created by the boundaries of the interior wall of the reflecting-curved-overhang ( 12 ), the interior wall of the reflecting-parabolic-half-shell ( 1 ), and the solar-absorbing-thermal-mass ( 6 ). 
         [0033]      FIG. 4  also shows the functional view of the tilt-able-auxiliary-right-planar-reflector ( 4 ). The tilt-able-auxiliary-right-planar-reflector ( 4 ) is adjustable to the sun&#39;s sunset light ( 18 ). The tilt-able-auxiliary-right-planar-reflector ( 4 ) makes the sun&#39;s sunset light ( 18 ) horizontal. The sun&#39;s sunset light ( 18 ) is reflected to the interior wall of the reflecting-curved-overhang ( 12 ) which redirects the sun&#39;s sunset light ( 18 ) to the solar-absorbing-thermal-mass ( 6 ). The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-auxiliary-right-planar-reflector ( 4 ) tilt in unison to the desired angle. The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-right-planar-reflector ( 4 ) are moveable by an actuator ( 15 ). The tilt-able-central-planar-reflector ( 2 ), the tilt-able-auxiliary-left-planar-reflector ( 3 ), and the tilt-able-right-planar-reflector ( 4 ), all tilt in two degrees of freedom. An insulating-and-transparent floor ( 22 ) captures any stray rays ( 24 ) not captured by the focal ( 21 ) inside the crucible ( 5 ). 
         [0034]      FIG. 5  shows a wind turbine ( 19 ) that powers an embedded-heating-element ( 20 ) using electricity generated by the wind turbine ( 19 ), which is embedded inside the solar-absorbing-thermal-mass ( 6 ). The wind turbine ( 19 ) heats the solar-absorbing-thermal-mass ( 6 ). The tilt-able-central-planar-reflector ( 2 ) is shown in the approximately 90 degree angle ( 23 ), moved by an actuator ( 15 ). Thus the open-void ( 14 ) created by the boundaries of the interior wall of the reflecting-curved-overhang ( 12 ), the interior wall of the reflecting-parabolic-half-shell ( 1 ), and the solar-absorbing-thermal-mass ( 6 ) is enclosed by the tilt-able-central-planar-reflector ( 2 ). Shown are a hinge ( 11 ) and a post ( 13 ) to support the structural weight of the tilt-able-central-planar-reflector ( 2 ). Thus the tilt-able-central-planar-reflector ( 2 ) helps to keep the wind from cooling the solar-thermal-absorbing-mass ( 6 ), and helps to trap the heat from the embedded-heating-element ( 20 ). Thus, heat is created at night, in winter, in storms and like.