FR3034265A1 - GENERATOR AND CONTINUOUS CURRENT MOTOR COMPRISING A FIXED INDUCTO - Google Patents

Abstract

Generator 1 of direct current driven by a motor shaft 2 passing in the center of the generator characterized in that it comprises: -A fixed armature 3 centered on the motor shaft integral with an outer support 9, laminated in a large number of section 4 positioned on a fixed cylinder 7 made of soft iron having two fixed poles 5 and 6 diametrically opposed, sharing the armature 3 in two half-sized sides 16 and 17 equal having the same number of sections 4, the negative pole 6 ensuring the departure a large number of individual electrical son insulated, one half of his son winding in one direction on a half 16 of the cylinder 7, the other half winding in opposite directions on the other half 17 to form the turns 14in each section 4 .. - A mobile inductor 11 rotating around the armature 3, driven by the driving shaft 2 having two cylinders 15,20 solidary concentric soft iron longitudinally divided into two equal parts 24 and 25, one 24 carrying permanent magnets 30 assembled on the cylinder 15 to obtain the same inner polarity 18 for example north, the other part 25 carrying permanent magnets 31 assembled on the cylinder 15 to obtain a reverse polarity 19 for example south, the cylinder 20 longitudinally divided into two equal parts 24 and 25, one 24 carrying permanent magnets 32 assembled on the cylinder 20 to obtain a polarity 27 inverse polarity 18 of the cylinder 15 for example South, the other part 25 carrying permanent magnets 33 assembled on the cylinder 20 to obtain a reverse polarity of the polarity 19 of the cylinder 15, for example North, the outer cylinder of larger diameter surrounding both the magnets and the armature 3, the cylinder inside 20 being surrounded by both the magnets and the armature 3 so as to obtain a magnetic field for example north south between the two cylinders 15 and 20 through the coil s 14 of the armature 3 fixed.

Description

TECHNICAL FIELD The invention relates to a direct current generator capable of producing a current of several thousand kilowaths at room temperature without abnormally heating, which imposes a voltage of the order of 10,000 volts for amperage less than 1000 amperes. BACKGROUND OF THE PRIOR ART Of the foregoing techniques which are close to the invention, the GRAMME machine is its starting point, trying to eliminate the disadvantages thereof and this is the reason why the armature of the generator is fixed, the inductor moving around the armature. In addition, the invention improves the production of the induced current because the turns create the maximum current when they are positioned at the maximum of the magnetic field created by the two north and south poles of the inductor. To our knowledge, this editing does not seem to have been done to date. SUMMARY OF THE INVENTION As we have indicated, the invention relates to the design of a DC generator with a power of several thousand kilowaths. The invention therefore relates to a direct current generator driven by a drive shaft 25 passing through the center of the generator characterized in that it comprises: - A fixed armature centered on the motor shaft integral with an external support, laminated in one a large number of sections positioned on a fixed cylinder of soft iron having two diametrically opposite fixed poles; dividing the armature into two equal half-sides having the same number of sections the negative pole ensuring the departure of a large number of isolated individual electrical son 30, half of his son winding in one direction on a half of the cylinder, the other half winding in opposite directions on the other half, the two halves winding to form the turns arriving at the positive pole of the armature. 3034265 2 - A movable inductor rotating around the armature, driven by the motor shaft comprising two concentric solid iron cylinders shared longitudinally in two equal parts, one carrying permanent magnets assembled on the large cylinder to obtain a same inner polarity for example north, the other part carrying permanent magnets 5 assembled on the cylinder to obtain a reverse polarity for example south, the small cylinder longitudinally divided into two equal parts, one carrying permanent magnets assembled on the cylinder for to obtain an opposite polarity of the polarity of the large cylinder, the other part carrying permanent magnets assembled on the small cylinder to obtain an inverse polarity of the polarity of the large cylinder, the large outer cylinder of larger diameter surrounding both the magnets and the armature, the small inner cylinder being surrounded by both the magnets and the ind uit so as to obtain a magnetic field for example north south important between the two cylinders passing through the turns of the fixed armature. It is noted that by positioning the fixed armature integral with an external support is eliminated the difficulties to recover the current induced by brushes as designed M GRAMME.

Similarly, each section of the fixed armature comprises a soft iron blade around which the individual electrical wires are wound to form turns, the blades being integral with the soft-iron cylinder of the armature, the turns winding in one direction on one half side of the armature and winding in opposite direction on the other half side, the number of turns remaining the same for all the sections, the blades carrying a slat in soft iron to facilitate the passage of the field magnetic in the turns. The DC generator is driven by a motor shaft passing in its center, having two diametrically opposed poles, at the beginning of the negative pole can be joined by half, each half winding in each section one after the other in each half of the armature, and in the opposite direction for the other half, of the armature, the set of individual threads being united to the positive pole, ie the set of individual threads being shared by the total number of sections 4 to obtain a number of equal individual threads in each batch that wind in one direction in each section of one half of the armature and in a reverse direction in each section of the other half of the armature from negative pole all its lots ending in the positive pole of the armature, the electro-motor forces produced by each section adding to the positive pole of the armature.

3034265 3 In addition it is necessary that the generator of direct current driven by a motor shaft is regulated to adapt its power to the consumption of the current used by the electric motors that it drives, that is why by connecting the positive exit of certain sections of half a side of the armature to the negative pole corresponding to these same sections of the other half side of the armature 5 is canceled for its sections the production of electric current. As very often in electricity if instead of producing current we send direct current to the generator it becomes an electric motor the direction of rotation of the inductor becomes inverse if the current sent is the same as the one it produced as a generator, and so we have the opportunity to drive electric motors according to the generator that is to say a power of several thousand kilowath. SUMMARY DESCRIPTION OF THE FIGURES The manner of carrying out the invention as well as the advantages which result therefrom will emerge from the description of the embodiment which follows, given in an indicative but non-limiting manner with reference to the figures: FIG. longitudinal sectional view of the generator 1 DC. - Figure 2 is a sectional view perpendicular to the motor shaft 2 of the fixed armature 3. - Figure 3 is a sectional view perpendicular to the motor shaft 2 of the inductor 11 mobile. - Figures 4 and 5 are horizontal plan views of the upper part of a section 4 showing the winding direction of the turns.

DETAILED DESCRIPTION OF THE INVENTION As already mentioned, the invention relates to a high power DC generator 1.

FIG. 1 is a longitudinal sectional view of the DC generator 1 with its drive shaft 2, its laminated fixed armature 3, centered on the motor shaft 2 integral with the external support 9, supporting the drive shaft 2 by its bearing 10, comprising a cylinder 7 of soft iron integral with the support 9 laminated by blades 26 regularly spaced around which 3034265 4 wind turns 14 of individual electrical son and insulated to form sections 4 in large numbers, the inductor 11 of the generator 1, integral with the drive shaft 2 by its drives 21 having two cylinders 15 and 20 soft iron, the cylinder 15 on its inner half 24 assembled permanent magnets 30 to obtain a pole 18 by example 5 north and on the other half of the assembled permanent magnets 31 to obtain a reverse polarity 19 for example, south, the cylinder 20 longitudinally divided into two equal parts 24 and 25, one 24 carrying permanent magnets 32 assembled on the cylinder 20 to obtain a polarity 27 inverse polarity 18 of the cylinder 15, the other part 25 carrying permanent magnets 33 assembled on the cylinder 20 to obtain a polarity 28 inverse polarity 19 10 of the cylinder 15, the larger diameter outer cylinder surrounding both the permanent magnets 30 and 31 and the armature 3, the cylinder 20 being surrounded by both the permanent magnets 32 and 33 and the armature 3, in order to obtain a large magnetic field between the two cylinders 15 and 20 passing through the turns 14 of the fixed armature 3.

FIG. 2 is a sectional view perpendicular to the driving shaft 2 of the fixed armature 3. There are two diametrically opposite positive and negative poles 5 separating the two half-sides 16 and 17 of the armature 3 comprising the same number of section 4, the negative pole 6 ensuring the departure of a large number of isolated individual electrical son, one half of these son winding in one direction on a half 16 of the cylinder 7, the other half winding in reverse direction on the other half 17 of the cylinder 7 to form the turns 14 in each section 4, the positive pole being the point of arrival of all these son, the cylinder 7 of soft iron laminated in a large number of sections 4 by blades 26 soft iron around which wind turns 14 in one direction on a half side 16 of the armature 3 and in a reverse direction on the other half side 17, the blades 26 carrying slats 34 in soft iron to promote the passage of magnetic fields, the suppor t outside 9 supporting the drive shaft 2 by its bearing 10. Figure 3 is a sectional plane perpendicular to the motor shaft 2 of the inductor 11 mobile generator 1 driven by the motor shaft 2 by its fasteners 21 , comprising two cylinders 15 and 20 integral with soft iron bearing permanent magnets 30, 31 and 32, 33 assembled to obtain reverse polarities 18 and 27 for the half 24 of the inductor 11 and 19, 28 for the other half 25 of the inductor. Figures 4 and 5 are horizontal plan views of the upper part of a section 4 showing the blade 26 secured to the cylinder 7 of soft iron and its support 9 outside the generator 1, the turns 14 in Figure 4 s winding in one direction and in the figure winding in the other direction, the blades 26 carrying a blade 34 to promote the passage of the magnetic field in the turns 14. Operation 5 The current induced by the action of the North-South magnetic field created by the permanent magnets 30, 32 and 31, 33 changes direction according to the position of the sections 4 in each half 16 and 17 of the armature 3 and would cancel if one did not change the direction of winding the turns in each half of the armature.

The voltage of the generator is given by the formula E volt = 108x Number of turns x number of revolutions per sec x flux Since the magnetic flux is that supplied by the permanent magnets, the generator therefore comprises a very large number of turns formed by the individual and isolated electrical wires to increase the voltage of the generator and thus reduce its amperage. This generator 1 may be a clutch to secure it with its motor shaft 2 or to make it independent of its drive shaft 2.

Claims (4)

REVENDICATIONS1. Generator 1 of direct current driven by a motor shaft 2 passing in the center of the generator characterized in that it comprises: -A fixed armature 3 centered on the motor shaft integral with an outer support 9, laminated in a large number of section 4 positioned on a fixed cylinder 7 made of soft iron having two fixed poles 5 and 6 diametrically opposed, sharing the armature 3 in two half-sized sides 16 and 17 equal having the same number of sections 4, the negative pole 6 ensuring the departure a large number of individual electrical son insulated, one half of his son winding in one direction on a half 16 of the cylinder 7, the other half winding in opposite directions on the other half 17 to form the turns 14 in each section 4. - A movable inductor 11 rotating around the armature 3, driven by the motor shaft 2 having two cylinders 15, 20 solid concentric soft iron longitudinally divided into two equal parts 24 and 25, one 24 carrying permanent magnets 30 assembled on the cylinder 15 to obtain the same inner polarity 18 for example north, the other portion 25 carrying permanent magnets 31 assembled on the cylinder 15 to obtain a reverse polarity 19 by southern example, the cylinder 20 longitudinally divided into two equal parts 24 and 25, one 24 carrying permanent magnets 32 assembled on the cylinder 20 to obtain a polarity 27 inverse polarity 18 of the cylinder 15 for example South, the other part 25 carrying permanent magnets 33 assembled on the cylinder 20 to obtain a reverse polarity of the polarity 19 of the cylinder 15, for example North, the outer cylinder of larger diameter surrounding both the magnets 30 and 31 and the armature 3, the inner cylinder 20 being surrounded by both the magnets 32 and 33 and the armature 3 so as to obtain a magnetic field, for example a large north-south magnetic field between the two cylinders 15 and 20 through the turns 14 of the fixed armature 3. 2. DC generator 1 driven by a drive shaft 2 according to the first claim characterized in that each section 4 of the fixed armature 3 comprises a blade 26 of soft iron around which the individual electrical wires are wound to form turns 14 the blades 26 being integral with the cylinder 7 of soft iron armature 3, the turns 14 winding in one direction on a half side 16 of the armature 3 and winding in opposite directions on the other half side 17, the number of turns 14 remaining the same for all sections 4, the blades 26 carrying a strip 34 of soft iron to promote the passage of the magnetic field in the turns 14. 3034265 7 3. Direct current generator 1 according to the first two claims driven by a drive shaft 2 characterized in that the many individual electrical son isolated from the negative pole 6 can be joined by half, each half winding in each section 4 one after the other in each half 16 of the armature 3, and in opposite directions for the other half 17 of the armature 3, the set of individual wires being joined to the positive pole 5, ie the together the individual son being divided by the total number of section 4 to obtain a number of equal individual son in each batch that wind in one direction in each section 4 of a half 16 of the armature 3 and in a reverse direction in each section 4 of the other half 17 of the armature 3, from the negative pole 6 all its batches ending in the positive pole 5 of the armature 3, the electromotive forces produced by each section 4 adding at the positive pole 5 of the armature 3. 4. DC generator 1 driven by a drive shaft 2 according to the first three claims characterized in that it is regulated to adapt its power to the consumption of the current used by the electric motors that it drives by connecting the output 5 positive of certain sections 4 of a half side 16 of the armature 3, to the negative pole 6 corresponding to these same sections 4 of the other half side 17 of the armature 3, so as to cancel for its sections 4 the production of electric current. 20 5 dc generator 1 driven by a drive shaft 2 according to the first three claims characterized in that if instead of producing current is sent direct current to the generator it becomes an electric motor the direction of rotation of the inductor becoming inverse if the current sent is the same as that which it produced as a generator and thus the electric motors will have a power of several thousand kilowaths.