DE96766C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21: Electrical apparatus and I

Patented in the German Empire on April 28, 1897.

The present invention relates to a galvanic element, its electrodes immersed in the excitation liquid by inverting the element vessel and through Turning this vessel back into the initial position removed from the said liquid will. * The vessel is made of two cup-like halves that can be separated from one another formed that the one designed as a hollow cylinder and accommodated in one half of the vessel Electrode is held in place by the other half of the vessel and after can be easily exchanged after separating the two halves. The connection of the both halves of the vessel is effected by means of a metal screw ring, which is connected to the Screw rings of other identical elements by means of spacers to form a support frame can be combined, so that the battery formed by several elements is firmly held together and can be hung on a pivot.

On the accompanying drawing, FIG. 1 illustrates a half drawn in section View of a battery formed by two elements of the present type.

FIG. 2 gives a top view of FIG. 1.

Fig. 3 shows a partial view of the left in Fig. 2 element, from the center of the Fig. 2 seen from to the left.

FIG. 4 shows a similar partial view of the element on the right in FIG.

Fig. 5 gives a top view of the annular electrode and

6 is a view of a resistance device.

The vessel, each element (Fig. 1) is formed by the two cup-shaped Gefäfshälften A and A ^1, which are turned with their Oeffnungeh against each other, and of which engages the part A with its recessed edge a ^l in the portion A ^1. Both halves of the vessel are connected to one another by means of the screw-threaded ring B. In half of the A ¹ cylinderförmige carbon electrode C is inserted after against the bottom half of the A, a sealing ring is laid c. ¹ A ring a, angular in cross-section, which fits into the slightly more twisted part of the half A , is then placed against the lower edge of the electrode C , and after a second sealing ring c has been placed against this ring α , the half is placed in Coupling ring B already connected to half A ^{1 is} screwed in. The sealing rings are pressed together so that neither liquid nor gas can escape from the vessel.

The discharge of current is effected by the pin c ¹ (FIGS. 1 and 5), which passes in the projection n ^l through the housing wall and the metal cap covering the projection n ^l.

The zinc electrode D is located inside the hollow carbon electrode. This is inserted in a replaceable manner in the bottom of the housing half A ¹ in a similar manner to that described in English patent no. 9862 of 1894. About those with the zinc

The metal screw d connected to the electrode, the sealing ring m and the washer e are inserted and the nut d ^{1 is} screwed on. The sealing ring m Sleeping the opening m ¹ in the bottom of the housing half and holds the zinc electrode in the correct position, after d compressed ¹ between the electrode D and the washer e by tightening the nut and has been characterized expanded laterally.

The conductive connection between the zinc and carbon electrodes of various elements is made by the lateral approach to the washer e (Fig. 1 and 2).

The screw rings B of the two elements (Fig. 2) are firmly connected to one another by the metal pieces f, f ' ² , which together with the two rings B form a support frame for the two elements. A metal beam screen E , which surrounds an incandescent lamp L, is riveted to the metal piece f. A sleeve f ¹ for a pivot i is connected to the metal strip f ' ² , the latter sitting on a flat, rubber-clad handle g and with this it can be attached to a bicycle hook. A safety pin i ¹ goes through the pivot i , which in combination with a buffer w or a leaf spring / ³ located on the strip / ² (Fig. 4) or, as in the drawing, in combination with the buffer w and the spring / ³ hold the parts securely together. When the battery is reversed, the pin z ' ^1, under the action of the buffer n> and the spring f ^3, enters a groove in the flange of the sleeve / ¹ and holds the battery securely in place.

Regarding the connection of the elements with each other and with the incandescent lamp is still Noticed the following.

The projection n ¹ of the element on the left in Fig. 2 and the projection η of the right element are connected to one another by a resistance wire P (Fig. 6) which is laid twice and wound in a helical manner in such a way that it has an insulating screw inserted into it R serves as a mother. This screw R carries near its upper end a metallic cross piece r which switches off the resistance wire when the screw R is screwed deep enough into the nut P.

The other projection η of the element on the left in FIG. 2 is connected by a conductor S to the screw T, which is insulated in the crosspiece, and through this to one end of the carbon bow of the lamp L. The other end of. Carbon strap is f by the lamp socket, the metal piece, the screw ring B of the right-hand element and an outgoing of this conductor s (Fig. 4) with the projection n ¹ of the connected in Fig. 2 right-hand element. The current therefore runs from the zinc electrode of the element on the left through the excitation liquid into the carbon electrode, from this through the pin c ¹ into the resistance wire P or via the short circuit r directly through the arm e of the element on the right into the zinc electrode of this element here through the excitation fluid to the carbon electrode and from this through the power supply pin c ¹ to the conductor s and the coupling ring B of the right element, from where it enters the lamp socket, flows through the carbon clip and passes through the screw T, the conductor S to arm e of the element on the left and so back to its zinc electrode.

Finally, it should be noted that the screw ring B coupling the two halves of the vessel can be omitted if the edge a ¹ of half A is provided with an external thread and screwed into a corresponding internal thread of half A ¹ .

Claims (2)

Patent Claims: ι. A galvanic element, the electrodes of which are immersed in the excitation liquid by inverting the element vessel, characterized in that the element vessel is formed by two cup-like halves releasably connected to one another by screw threads or a coupling ring, one of which is the ring-shaped halves through its edge (a ^l ) holds both electrodes housed in the other half in place, for the purpose of separating the two halves. To be able to replace the electrode. 2. A galvanic battery, which consists of two or more of the elements mentioned under 1. is formed in such a way that the coupling rings of the element vessels through suitable intermediate members are connected to a support frame which is attached to a pin is rotatably suspended and can be used to form the circuit. 1 sheet of drawings.