Abstract:
Plurality of discs shaped permanent magnet polefaces are disposed on a armature shaft, plurality of discs shape armatures are also disposed on said armature shaft. Each armature is situated between two polefaces with endframes supporting each end of said shaft, elongated support strut are fixedly attached between both endframes and also secured each poleface. The shaft and its armatures rotate on bearing in each endframe.

Description:
BACKGROUND OF THE INVENTION 
   1. Field of Invention 
   This invention relate to an apparatus for the generating of electricity. But more specifically, the invention relate to discs shape poleface made from permanent magnet, reacting with discs shape armature or multiple armatures. Where a armature may be placed between two polefaces and disposed on a armature shaft and rotate to produce electricity, the number of armature and poleface may be increase as required. 
   2. Description of the Prior Art 
   The prior art electric generator, a device which resist rotation; this resistance cause losses which reduce efficiency. This device generally incorporate a single cylindrical rotor per unit which is not cost effective, and is therefore inadequate; for the generating of electricity with respect to the growing energy consumption in general. 
   Accordingly, the desire and need exists to develop a new form of generator on a format which will produce large amount of electricity at a low cost. My present innovation was designed to fulfill that need as its objective. 
   SUMMARY OF THE INVENTION 
   This innovation present a new format on which to build electric generator for the present and distance future. This device incorporate plurality of permanent magnet discs used as polefaces are disposed on a armature shaft. Plurality of discs with windings form the armature which are also disposed on said armature shaft, with each armature situated between two permanent magnet polefaces. The armatures are attach to the shaft, said shaft is supported at each end by endframe and rotate there-between. elongated support struts are placed between both endframes and fixedly attach thereto, said struts are part of the framework which support the endframes and also each poleface in the unit attach thereto. The wiring from the armature is taken along a duct cut in the length of the shaft, to a commutator and brush assembly at the output end of said shaft. When a torque is applied to the input shaft, said shaft and all its connected armatures rotate between each set of poleface; current is generated in each armature and is also available at the output. 
   Unlike the prior art device with its single armature, it is the object of this invention to produce an electric generator having any required number of armature rotating on a single shaft as a unit. 
   Another object of this invention is to provide an electric generator, so configured to supply electricity to all form of electric powered transportation. 
   Still another object of this invention is to provide an electric generator which can be constructed to meet the need of Residential, Commercial, and Industrial consumer. 
   Preferably, the endframes and polefaces are substantially the same size. Preferably, the endframes and polefaces are substantially circular and situated substantially in the same plane. Preferably, the support struts are substantially curve to the contour of both the endframes and polefaces. 
   Preferably, the duct section of the armature shaft is substantially square. 

   
     BRIEF-DESCRIPTION OF THE DRAWINGS 
       FIG. 1  is an isometric view showing the preferred embodiment of the disk armature electric generator with four armatures of the present invention; 
       FIG. 2  is a said isometric view of  FIG. 1  but with three armatures; 
       FIG. 3  is a said isometric view of  FIG. 1  but with two armatures; 
       FIG. 4  is a said isometric view of  FIG. 1  but with one armature; 
       FIG. 5  is a isometric view of a magnetic poleface with opening throughout which the armature shaft intersect; 
       FIG. 6  is a isometric view of the disk type armature with windings and opening from which armature shaft is attach; 
       FIG. 7  is a isometric view showing one of two endframes with opening for armature shaft; 
       FIG. 8  is a isometric view of the elongated support strut with brace attach to each end; 
       FIG. 9  is a isometric view of the poleface sleeve; 
       FIG. 10  is a isometric view showing the armature shaft having two different section and also a duct. 
   

   DESCRIPTION OF THE PREFERRED EMBODIMENT 
   The quantum disk armature is part of a new type of electric generator, while its configuration is different in many ways to that of the prior art, its operating principle remain the same. The way in which energy is been used will be profoundly change by the new and simple device shown in the embodiment of  FIG. 1 . This is an isometric view of an electric generator having four disk type armatures  30  with armature windings  36 , a opening  35  is provided in the center of each said armature to receive the armature shaft, said opening  35  is shown at  FIG. 6  and the center is taken as half the diameter. 
   Each magnetic poleface  40  is also of disk form and have opening  34  cut in the center, said holes are large enough from which armature shaft intersect and rotate therethrough without touching said poleface. The center of each poleface is taken as half the diameter, and each said opening is shown at  FIG. 5 . 
   Two endframes  43  and  44  are located one at each end of the generator and have opening  47  and  48  cut in the center of each said endframe where bearings  41  and  42  are fitted. Each endframe  43  and  44  are substantially the same size as poleface  40 , and the centerpoint of said endframes are obtained by using half the length of its diameter. The armature shaft  31  is shown at  FIG. 10  with a square section  45  which carry armature  30 , 
   Each armature  30  is fitted to the shaft  31  and fix in place one poleface  40  is place on each side of armature  30  on the said shaft. 
   Duct  46  is provided along said armature shaft which carry wiring from each armature  30  to the commutator  37  shown at  FIG. 1 . Said commutator  37  is attach to the end of shaft  31  where duct  46  exit, sleeves  39  are made to fit the contour of poleface  40  and serve to secure sleeve  39  to same. 
   Elongated support strut  32  is fashioned to the contour of endframes  43 , 44 , and also to sleeve  39 , the support strut  32  is shown at  FIG. 8 ; the concave curve along its length give additional strength to the strut. Attach to the end of said struts are braces  33  which provide support and anchoring for each endframe, and help to strengthen strut  32 .  FIG. 1  show brush assembly  38  around commutator  37  and attach to the inside of endframe  43 , wiring from each armature  30  to commutator  37  via duct  46  is not shown. 
   To produce and assemble such a device is very simple for anyone verse in the art of electric generator and motors. 
   With all parts for assemble the armature shaft  31  is position with commutator  37  attach to that end from which the duct  46  exit, each poleface  40  and armature  30  are placed on said shaft  31  in such a way that there is always one armature  30  between two polefaces  40 . Said polefaces are of permanent magnet with the sleeves  39  already attach to poleface  40  each endframe  43  and  44  is place on armature shaft  31  through bearings  41  and  42 , with brush assembly  38  in position around commutator  37 , and said shaft extend beyond the second endframe  44 . wiring from armature windings  36  is taken to commutator  37  via duct  46  and connected thereto, each support strut  32  is fixedly attach to each endframe  43  and  44  mainley with brace  33  which defined the perimeter of the device. Armature and polefaces are fixed at designated position, which maintain the air-gap required by electric generator and motors. Each poleface  40 , is situated between supporting struts  32  and means for fixedly mounting said polefaces between said supporting struts, and armature shaft  31  rotate through said opening  34  in poleface  40 . The length of the device is determine by the number of armatures used, an increase in said armature require an increase in the number of polefaces, the length of armature shaft, and supporting strut. 
   Assembling is now finish and a torque is applied which rotate shaft  31  and the armatures attach to it, this rotating armature windings cut the magnetic field set up between the polefaces, and in so doing generate current into the armature windings; this current is available at the output of the generator. 
   Consideration and appreciation to the present invention relating to a disk type armature electric generator, wherein any required number of disk armature can be design to rotate on a single armature shaft which will vastly increases the output current generated, while reducing the size, weight, and input energy requirement; compare to the prior art generatots. 
   Any required number of armature can be utilize without significant modification to the overall design of the device, these are a few of the many advantage that accompany this new application. 
   There are a limited number of preferred embodiments been disclosed for the purpose of illustration, modification dimensional variations can be readily envisioned to achieve an equivalent result, it is therefore intended to cover all of these variations and modifications which fall within the scope of this invention; and define by the appended claims.