CH97146A - Electric steam generator with submerged electrodes. - Google Patents

Description

  

  Electric steam generator <B> with </B> submerged electrodes. The object <B> of </B> the invention is an electric generator of steam <B> with </B> submerged electrodes, comprising at least one pair of fixed electrodes surrounded by a common tubular screen, the form of one of the electrodes being such that a small variation in the level of the water contained in the screen corresponds to a strong variation <B> of </B> the submerged surface.



  The appended drawing represents an embodiment of the object of the invention, given <B> to </B> by way of example.



       Fig. <B> 1 </B> is a vertical section of the generator; Fig. 2 is a horizontal section, and FIG. <B> 3 </B> is a vertical section of a central electrode given as a variant.



  Figs. <B><I>1</I> </B> and 2 show that the generator consists of a metal receptacle, fitted <B> at </B> its base with an intake manifold of water, the opening of which can be regulated by means of a valve <B> k </B> and at the top of a vapor outlet <B> g. </B> This container is hermetically closed, < B> at </B> its upper part, by a cover crossed in its center by a rod carrying a central electrode a, <I> electrode </I> trode from which it is electrically insulated by suitable insulators.



  <B> b </B> is a lower cup-shaped electrode, mounted so that it can <B> </B> be easily changed and receives current from the receptacle to which it is attached, which receptacle is connected <B> at </B> one of the poles of the installation. <B> ô '</B> is a screen made from electrically insulating material, taking the form of a tube without any continuity solutions and exceeding the highest level that the water can reach in the generator.



  The central electrode a is formed by a hollow metal core <B> d </B> having a wall e having the shape of a truncated cone provided with fins i; both core <B> d </B> and wall e have / * slots.



  The operation of the generator is as follows: The electric current, which <B> y </B> is introduced by the two electrodes, travels vertically through the water column contained between the same electrodes <B> to </B> the inside the tube or the insulating screen <B> c. </B> The intensity of this current, being a function of the submerged surface of the electrode a, is minimal when the tip only of said electrode has dipped in the water - to increase it it is enough to raise the level of Peau in cry introducing by the valve <B> I .. </B> Faith divergent from the core,

   of the fins and of the wall e was chosen such that a small variation in the level of the water corresponds to a large variation in electrical resistance and therefore in the power absorbed and in the steam productidu; in other words the sensitivity of the adjustment is very high, which allows key to substitute <B> for </B> the valve <B> k </B> an automatic pressure regulator like the one described in the Swiss patent rio <B> 91203 </B> for example.



  The purpose of the <B> f </B> slots is to facilitate the release of steam; they are preferably in planes passing through the axis. of the electrode. The fins i forming baffles help <B> </B> stabilize the water level, even when the device is subjected to strong shocks.



  Fig. <B> 3 </B> represents another form of wall e, a wall which has been assumed to be pierced with holes h instead of slits.



  Thanks <B> to </B> the insulating screen c which eliminates the electrical point of view of the walls of the device, we can reduce the diameter of the latter and therefore all the bulk, which is very advantageous in the application that is made for example to high voltage electric locomotives. In addition, the insulating screen is particularly robust and able to withstand the vibrations and shocks to which the device is subjected in this same application.



  It goes without saying that the minimum distance between the two electrodes will be proportioned <B> to </B> the voltage of the supply current.



  We can also imagine other shapes for the upper electrode and give it, for example, that of a helicoidal surface, provided that these shapes are capable of producing strong variations of the submerged surface for a small variation in level. .



  Finally, if there is a poly-phased current, a generator like this will be connected to each phase. has just been described, the various generators may or may not be electrically connected by one of their electrodes cry a neutral point and each feed a separate steam line, or, on the contrary, a common line. Several pairs of electrodes, each provided with a <B> c </B> screen to combine devices between them, are also small, in the same container, according to the voltage or the type of current.

 

Claims (1)

CLAIM, Electric steam generator <B> with </B> submerged electrodes, characterized by at least one pair of fixed electrodes, surrounded by a common tubular screen, the faith of one of the electrodes being such that 'a small variation in the level of the water contained in the screen corresponds to a large variation in the submerged surface. SUB-CLAIMS <B> - </B> <B> 1 </B> Electric steam generator according to claim, characterized in that the walls constituting the upper electrode have slots located in vertical planes passing through the 'axis. 2 Electric steam generator according to claim, characterized in that the walls of the upper electrode have openings of any shape. <B> 3 </B> Electric steam generator according to claim, characterized in that the upper electrode comprises fins of the tines <B> to </B> stabilize the surface of the water.