CH323089A - Eddy current brake - Google Patents

Description

  

  <B> </B> eddy current brake The invention relates to <B> </B> an eddy current <B> </B> brake, the rotor of which turns between two groups of parts poles arranged in a plane perpendicular to <B> to </B> the shaft <B> to </B> brake consists of two discs integral with the shaft and spaced apart from each other, openings formed in these discs in the vicinity of the shaft allowing <B> </B> a current of air to pass radially through the space between the discs. The purpose of this air flow is to produce energetic cooling at least of the rotor itself and preferably also of the shaft, the shaft bearings and the pole pieces with their coils.

   In fact, when the said pole pieces are supplied with current, eddy currents are generated in the rotor which brake the rotor, which is the desired effect and which, at the same time, heat the rotor, which makes its necessary. cooling.



  The brake, object of the invention, is characterized in that the discs are provided, on their internal face (face opposite <B> to </B> that which is opposite the pole pieces), with ribs which s 'extend from the periphery of each dis that up to its hub, the part, adjacent to the hub, of these ribs extending along the arms which separate said openings while the peripheral part of these ribs extends beyond the periphery of the corresponding disc to form peripheral fins which extend beyond the outer surface of the disc, the whole being arranged in such a way <B> to </B> to give the disc great rigidity. The appended drawing represents, <B> by </B> by way of example, some embodiments of the brake forming the subject <B> of </B> the invention.



  Fig. <B> 1 </B> shows, in axial section, a first embodiment of the brake.



  Fig. 2 shows, in its upper half, the <B> A </B> side of one of the discs and, in its lower half, the B side of this disc.



  Fig. <B> 3 </B> shows the disc represented by fig. 2, in section along line III-III of FIG. 2. <B> - </B> Fig. 4 is a plan view on part of the periphery of the disc shown in FIGS. 2 and <B> 3. </B>



  Figs. <B> 5 </B> and <B> 6 </B> are views analogous to figs. 2 and <B> 3, </B> of a disc variant for a <B> to </B> double disc rotor.



  Fig. <B> 7 </B> represents in cross section the upper half of a <B> with </B> double disc rotor as well as the fans located on either side of this rotor, in the immediate vicinity of the 'tree.



  Fig. <B> 8 </B> is a horizontal section along the <I> line </I> VIII-VIII of fig. <B> 7. </B> Figs. <B> 9 </B> and <B> 10 </B> show respectively in radial and horizontal section along the line X-X of FIG. <B> 9 </B> a variant of one of the two discs that make up the rotor.



  Fig. <B> 11 </B> shows a similar cut <B> to </B> that along line X-X <B> to </B> through a variant of the latter disc.



  An electric brake is used <B> to </B> slow down, for example, the movement of a vehicle such as a truck, a bus, etc. of a crane, a mining sounding device, etc.



  The brake shown comprises, on the one hand, an inductor having pole pieces and, on the other hand, an armature in which are generated, as a result of a relative movement between the inductor and the armature, currents eddy or similar currents. The armature is connected <B> to </B> the member <B> to </B> to brake so that it rotates with respect to <B> to </B> the inductor which does not perform rotary movement. The rotating armature is referred to in what follows as the brake rotor.



  The inductor comprises two groups of pole pieces <B> 1, </B> provided with coils and fixed in a frame, preferably in magnetic metal, consisting of two flanges 2 located on either side of the rotor and supports the bearings <B> 3 </B> of Parbre 4 of the rotor which, in this way, turns, during the rotation of this shaft, between the pole pieces <B> 1 </B> of the inductor which, for their part, do not rotate, given that the frame 2 is fixed to the frame of the positive device (truck, etc.), comprising the brake in question.



  When the coils of the pole pieces are crossed by an electric current, the magnetic flux thus obtained generates eddy currents or similar currents in the rotor which induce, <B> at </B> at the same time, a braking effect on the rotor. rotor and the heating of the latter.



  As regards the rotor itself, it consists of two discs <B> 5., </B> and 5 #, integral with the shaft 4 and spaced apart from one another. Openings 6a, <B> 6b </B> separated from each other by arms 7a, <B> 7b </B> are made in these discs in the vicinity of the shaft 4, in order to allow <B> to </ B> a current of air to pass radially through the space between the discs. The number of openings and of the arms separating them is preferably an odd number, for example equal to <B> to </B> five.

   In order to have a great rigidity the discs% and <B> 5b </B> are provided on their internal face, with ribs 8 #, and <B> 8b </B> extending from the periphery of the discs to at their hub% 'or 5b', the central part of these ribs being <B> at </B> the location of the arms <B> 7., OR 7b, </B> so that they constitute a kind of extension of the ribs between the hub 5 ,, 'or <B> 5b' </B> and the disc itself% or <B> 5 .. </B>



  Furthermore, the peripheral part of these ribs continues beyond the periphery of the corresponding disc to form fins 9 # ,, <B> 9. </B> which protrude from the outer surface of the discs <B> 5., < / B> or <B> 5b </B> and even some of the pole pieces and their coils, as shown in fig. <B> 1. </B>



  The disks proper <B> 5, </B> and <B> 5b, inside which are generated eddy currents and which are subjected <B> to </B> a very high temperature, are thus turned on three of their sides by a rigid frame subjected <B> to </B> an intense cooling by the drafts, and they thus retain their rigidity.



  This rigidity can be further reinforced by a circular stiffening rib 5 ,, "or <B> 5b" </B> originating on the outer face of the respective discs 5. or <B> 51, </B> at the level of the periphery of the openings 6 ,, <B> 6b </B> and extending <B> to </B> inside the area delimited by the crown of the pole pieces <B> 1 </B> ( see. fig. <B> 9). </B>



       Given the rigidity thus obtained, it is possible to give <B> to </B> each of the <B>% </B> and <B> 5b </B> discs a relatively reduced thickness, which reduces the differences temperature prevailing between the outer surfaces, located opposite the pole pieces and relatively hot, and the inner surfaces of the relatively cold disks.



  It is obvious that the aforementioned elements born, serving <B> to </B> stiffen the discs which constitute the double rotor, and in particular the ribs <B> 8. ,, 8. </B> and the fins 9a , <B> 9b, </B> increase the cooling surfaces of these disks and have a strong fan effect. These cooling surfaces as well as the fan effect can be further increased by inserting between ribs 8. and <B> 8b, </B> additional ribs <B> 8, '</B> and < B> 8J </B> whose inner ends stop at the level of the periphery of the openings 6 ,, or <B> 6b, </B> while their outer ends can also be extended by peripheral fins <B > bordering </B> 9 ,, or <B> 9 ,. </B>



  The ribs 8., <B> 8. </B> and 8 ,, ', 8b' of the two discs constituting the rotor <B> with </B> double disc have such an axial length and such an arrangement that these ribs are intercalated when the two discs are mounted on the shaft 4.



  In the case where the disks 5 ,, and <B> 5b </B> are fixed <B> to </B> their periphery one <B> to </B> the other by ears 10 ,, and <B> 10, </B> assembled by bolts <B> 11, </B> at least some of these ears should be completed by some of the aforementioned fins 9 ,, or <B> 9b </ B> to form with each fin and ear an angular element promoting the cooling of the corresponding ear.



  As regards the ribs <B> 8 ,,, 8b </B> and 8z, ', 8b, they may be radial and rectilinear (see fig. 2 <B> to </B> 4) or they may have a curved shape (see fig. <B> 5 </B> and <B> 6) </B> to better adapt <B> to </B> the shape of the air streams which, under the fan effect of the rotor, pass through the space between the discs <B> 5., 5b. </B> In the latter case, the fins <B> 9., </B> and <B> 9b < / B> provided <B> to </B> the periphery of the discs have an inclination corresponding <B> to </B> that of the ends of the ribs 8a, <B> 8b </B> or 8 ,, ' , <B> 8j. </B>



  Of course, care must be taken to allow the periphery of the rotor to communicate freely with the outside air so that the cooling air currents can escape freely into the ambient air.



  These air currents enter the interior of the brake, for example through openings made in the flanges 2 in the vicinity of the bearings <B> 3 </B> or, according to the drawings, through openings 12 provided <B> at </B> the periphery of the flanges 2. In the latter case, intermediate partitions are provided <B> 13. </B> Consequently, the air flows first in a direction going from the outside to inside, cooling the coils of the pole pieces. Then, this air undergoes, in the vicinity of the shaft 4, a change of direction, to arrive <B> at </B> the central part of the discs 5 ,, and <B> 5. </B> of the rotor.



  Part of this air returns <B> to </B> this place, passing through the openings <B> 6., </B> and 6 ,, in the space which is between the two discs and crosses this space in a direction from the inside to the outside, while some of this air also flows from the inside to the outside, along the outer surfaces of the discs <B>% </B> and <B> 5b- </B> The general direction of the air currents is indicated by arrows in fig. <B> 1. </B>



  The arms <B>%, 7b </B> which separate the openings made in each disc and which connect its peripheral part <B> to </B> its hub have an elongated section whose main axis has <B> <I>-</I></B> <I> a </I> (fig. <B> 8 </B> and <B> 11) </B> is inclined with respect to <B> to < / B> the axis of the shaft 4 supporting the rotor, so as to merge at least approximately with the direction of the air currents passing through the said openings.



  Axial fans 14. ,, 14b <B> with </B> helical blades 15a, 15b are fixed on the shaft 4 of the rotor 5a, <B> 5b </B> on either side thereof and blow air into the openings <B> 6 ,,, 61, </B> of the discs <B>%, 5b, </B> which are formed between the arms 7a, <B> 7b- < / B> The blades <B> 15., </B> and 15b of these fans are arranged, with respect to the arms <B>%, 7b, </B> so <B> to </B> ensure the re-entry of air into the openings between these arms with the least possible impact.



  The blades 15a, <B> 15b, </B> are extended in the direction towards the rotor, beyond the crown <B> 16 ,,, </B> l6b which surrounds them (see fig. <B > 7 </B> and <B> 8), </B> in order to allow <B> to </B> a part <B> of </B> the air having passed through these axial fans 14a, 14b of cool the outer surfaces of the <B> 5. </B> and <B> 5b </B> disks which make up the rotor.

 

Claims (1)

CLAIM <B>: </B> Eddy current brake <B> whose rotor rotates between two groups of pole pieces arranged in planes perpendicular <B> to </B> the shaft < B> to be </B> to be braked consists of two discs integral with the shaft and spaced apart from one another, openings made in these discs in the vicinity of the shaft allowing <B> to </ B> a current of air to pass radially through the space between the discs, characterized in that these discs are provided on their internal face with ribs which extend from the periphery of each disc to its hub, the part , neighbor of the hub, of these ribs extending along the arms which separate said openings while the peripheral part of these ribs extends beyond the periphery of the corresponding disc to form peripheral fins which extend beyond the outer surface of the disc, the whole being arranged in such a way <B> to </B> to give the disc great rigidity. SUB-CLAIMS <B>: </B> <B> 1. </B> Brake according to claim, characterized in that a circular stiffening rib originates on the outer face of each disc, at the level of the periphery of or vertures thereof, and extends <B> to </B> the interior of the area surrounded by the corresponding group of pole pieces. 2. Brake according to claim, characterized in that additional ribs, the inner ends of which stop at the periphery of the openings, are interposed between the ribs of the discs. <B> 3. </B> Brake according to claim in which the discs are assembled together <B> at </B> their periphery by lugs, characterized in that at least some of the peripheral fins are joined together with some said oreil les, so that each set of a peripheral fin and lug thus united constitutes an angular element. 4. Brake according to claim, characterized in that fans <B> with </B> helical blades which blow air into the openings of the discs forming the rotor are fixed on the rotor shaft and on either side. of this rotor. <B> 5. </B> Brake according to claim and sub-claim 4, characterized in that the blades of the fans are extended in the direction towards the rotor, beyond a ring which surrounds them. <B> 6. </B> Brake according to claim, characterized in that the arms which separate the openings made in each disc and which connect its outer part <B> to </B> its hub have an elongated section of which the The main axis is inclined relative to <B> to </B> the axis of the shaft supporting the rotor, so as to coincide at least approximately with the direction of the air currents passing through said openings.