CH246531A - Speed regulator, especially for small musical pieces. - Google Patents

Description

  

  Speed regulator, especially for small <B> music </B> rooms. The presently known small speed regulators are, for example, formed of a propeller rotating very quickly and producing a braking effect in the ambient air. They are used almost exclusively on small <B> music </B> rooms.



  Others comprise weights fixed <B> to </B> elastic blades and which, rotating with an axis from which they seek <B> to </B> move away, cause the axial displacement of a disc coming from rub against a hoof. This type of regulator is found on all talking machine engines; it allows the desired operating speed to be varied and therefore does not apply to other small <B> music </B> rooms, in which the speed must remain uniformly the same, determined by construction.



  Others, finally, also include weights fixed <B> to </B> elastic blades and rotating with an axis, but the braking is effected there by the friction of the weights against a cylindrical wall surrounding them. These regulators, not adjustable, have been applied to the call discs of telephone devices, as well as to small music <B> </B> rooms.



  The two aforementioned types of regulators, <B> at </B> invariable speed, adjust the operating speed according to their constructive characteristics, in the sense that each desired operating speed corresponds to a regulator of predetermined dimensions.



  The subject of the invention is a speed regulator, in particular for small <B> music </B> rooms. It is characterized in that its rotary axis carries a cage and -a disc. coaxial <B> to </B> the whole and normally placed against the cage, from which it can move away axially, while being, like the latter, rotatably secured to the axis, the cage finally comprising housings having a wall inclined on the axis and moving away from the latter by moving closer to the disc, at least part of these housings containing a ball that centrifugal force moves along said inclined wall in the direction of the disc,

   these balls coming to act on the disc in order to press it axially against a plane element perpendicular to <B> to </B> the axis and not participating in the rotational movement of the latter.



  The appended drawing shows an embodiment of the regulator forming the subject of the invention, given <B> to </B> by way of example.



  Fig. <B> 1 </B> is a cross-section of the shown regulator, taken <B> through </B> through two diametrically opposed housings of its cage, each containing a ball.



  Fig. 2 is a similar section with diametrically opposed ribs separating two neighboring housings.



  Fig. <B> 3 </B> is a plan view of the cage without the drive.



  The regulator shown consists of an axis <B> 1, </B> which can be driven by means of a toothing 2, and supports a cage <B> 3 </B> driven above and comprising six housings 4, <B> 5, 6, 7, </B> <B> 8 </B> and <B> 9, </B> arranged in a star. Two of them, the housings <B> 5 </B> and <B> 8, </B> are seen in section <B> at </B> in fig. <B> 1 </B> and appear as inclined grooves moving away from the axis <B> 1 </B> as and <B> to </B> as they come closer to 'a <B> 10 </B> coaxial disc of the assembly and placed against the cage <B> 3, </B> by which it will be seen that it is rotatably driven.



  In these two housings are placed balls <B> 11 </B> and 12, and it is without other clear that the rotation of the whole will tend <B> to </B> drive these balls outwards, which 'they will then move along the inclined wall of their respective housing and will tend <B> to </B> come and place themselves in <B> Il' </B> and 12 'against the disc <B> 10 < / B> thus pushed back against the separation <B> 13 </B> forming a flat surface perpendicular <B> to </B> the axis <B> 1 </B> and not participating in the rotational movement < B> of </B> the latter.



  The greater the speed, the more the balls thus driven out will press strongly against the disc.



  Fig. 2, which corresponds <B> to </B> a section taken between the housings <B> 5, 6 </B> and <B> 8, 9, </B> shows how the pegs 14, <B> there </B> planted in the cage <B> 3 </B> and crossing openings in the disc <B> 10, </B> force the latter <B> to '</B> to rotate with the axis < B> 1. </B>



  It follows from what has just been described that the action of the balls on the disc <B> 10 </B> pressed against the separation <B> 13 </B> will ultimately result in an action of braking increases both with pressure, therefore with rotational speed.



  In each case, a balance will be established between the driving force and the braking force, tending <B> to </B> keep the speed of the assembly constant.



  The regulator described comprises, <U> as </U> one sees it, six housings and two balls only. The resulting advantage is that the same <B> </B> six-slot cage can be used <B> in </B> the manufacture of regulators that can <B> develop </B> forces. differing braking, depending on the use for which they will be intended.



  -It is indeed clear that by using -three balls instead of two, the regulator will be able to adapt <B> to </B> a more powerful engine, the division into six finally allowing it to be used as well two balls, as three, as four or as six, carrying out in each case the symmetrical distribution of the latter, necessary for the good functioning, that is to say <B> to </B> the well-balanced application of the disc against the surface against which it rubs.



  The disc <B> 10 </B> can be made of fiber or any other material and can in particular include an external lining intended <B> to </B> reduce the noise resulting from friction or <B> to </ B > modify its coefficient., Such a material can be, for example, felt.



  It would also be possible to line <B> the </B> surface of the partition <B> 13 </B> with such a material or to have a <B> determined </B> filling both on the disc only on said separation. Provision can also be made for one to be rough and the other polished, etc.



  The regulator shown and described lends itself particularly well <B> to </B> a construction of very small dimensions, usefully employed in <B> music </B> pieces.



  But despite its small dimensions, it can also be used in more powerful devices, owing to the ease with which the power of adjustment can be changed to a very large extent, simply by adding balls.



  Considering, on the other hand, the low weight of the balls compared to <B> to </B> the whole, it was noticed that this regulator works in all positions, without qi # Cil practically results in a perceptible difference of the adjustment, at least for small regulators.



  <B> A </B> as an indication, let's say that for small <B> music </B> pieces, the cage <B> 3 </B> can have a diameter of the order of magnitude of <B> 10 to </B> 12 mm only.



  In other embodiments, the regulator could comprise two cages, placed back <B> to </B> back on the same shaft and acting so multaneously on two disks, that their balls would tend <B> to </ B> move away from each other. JI would also be possible to provide for this a single cage, having housings extending in two opposite directions, possibly arranged: staggered, so <B> to </B> that the housings of one of the faces are placed at least in part in the ribs remaining between the housings of the other face, which reduces the axial length of the assembly.



  <B> Or </B> well, one could on the contrary oppose two cages one ù, the other, so that their discs clamp between them the planned separation in the example shown and which could consist, for example, of a perforated sheet to provide passage <B> to </B> the axis.



  Instead of driving the axis of the regulator by means of <B> with </B> straight toothed gears, it can <B> there </B> be <B> </B> to </B> use inclined teeth (for example 'helical).



  It is known that such toothings give rise to <B> </B> axial thrust of the meshing mobiles. If, in one embodiment of the re1 #, ulator according to the invention, the teeth are inclined so that this thrust is exerted in the direction of the end of the opposite cage to the disc, the stability and regularity of operation are increased.

   During the adjustment, in fact, while the disc is pressed against the stationary brake surface, the cage and the axis driving it move back, but it is clear that it is preferable to bring said axis by construction. constantly <B> to </B> the press # without waiting for the disc <B> it </B> to press more or less depending on the braking obtained.

 

Claims (1)

CLAIM: <B> speed </B> regulator, in particular for small <B> music </B> pieces, characterized in that its rotary axis carries a cage and a <B> to </B> l coaxial disc 'together and normally placed against the cage, from which it can move away axially while being, like the latter, rotatably secured to the axis, the cage finally comprising housings having a wall inclined on the axis and moving away thereof by moving closer to the disc, at least part of these housings containing a ball that the centrifugal force moves along said inclined wall in the direction of the disc, these balls coming to act on the disc to press it axially against a plane element perpendicular <B> to </B> the axis and not participating in the rotational movement of the latter. SUB-CLAIM, <B> S - </B> <B> 1. </B> Rewinder according to claim, characterized in that the housings of the cage are arranged in a star, the disc being driven in rotation by pins of the cage, along which it moves axially. 2. Regulator according to claim, characterized by the fact that the cage comprises six housings allowing said regulator to operate at will with two, three, four to six balls, distributed in a symmetrical pattern. <B> 3. </B> Regulator according to claim, characterized in <B> ce </B> that it comprises a second group of housings, the balls of which cooperate with a second disc which they move in the opposite direction. from the first.