DE686471C - Light relay - Google Patents

Description

Light relay Addendum to patent 671 910 In patent 67I 910 are a method and apparatus for using the photochemical reaction of a photosensitive mixture produced by electrolysis of a liquid for production a light relay has been proposed.

This method is characterized in that the reaction chamber, containing the electrolyte and possibly other liquids or gases, completely gas-tight sealed vascular system is used and that by exposure of the whole, by electrolysis with at least one period of action constant current generated volume of gas depending on the exposure level in connection with the pressure and / or volume changes occurring here States of equilibrium are exploited to mechanical or electrical processes to control.

The present invention is now directed to a number of arrangements whose mode of operation is based on that process of the main patent and which allow Devices with extremely small space requirements with extremely simple and to produce a robust structure. These devices also speak significantly faster than the devices of the same type described in the main patent.

The invention is also directed to a number of embodiments, which make it possible to manufacture technical devices whose mode of operation is based on the in the method proposed in the main patent is based and the a number unite of features that serve to improve their Wirliweise.

The main feature of most arrangements according to the invention is in that the reaction chamber, which is described in For. fi one parallel to a glass membrane Belgium is a flattened type of vessel, structurally with the membrane forms a unified whole.

The arrangement is therefore limited to a number of plates that form a uniform block system, and on a U-tube filled with mercury, which is connected to an opening provided in one of these plates. The U-tube can also be accommodated in the same block system and, if necessary, be formed from one or two plates, as will be shown below, which form a whole with the other panels.

For explanation, various are given below with reference to the drawings Embodiments of the invention will be described.

Fig. I shows a section through part of the arrangement with the Reaction chamber, the membrane and the pipe attachments that make up this part of the apparatus on the one hand with the U-tube containing the mercury and on the other hand with the connect electrical circuit.

Fig. 1 a shows a different embodiment.

Fig. 2 is a top plan view of the portion of the shown in Fig Apparatus.

Fig. 3 shows in plan view how the U-tube, which the mercury takes up, is formed as a cavity between two plates that are connected to the other, the remaining part of the assembly forming plates are combined.

FIG. 4 is a section according to FIG. 3.

Fig. 5 shows in section an embodiment of the main part of the Device.

Fig. 6 shows a plan view of part of the device in which the The pressure of the gases acts directly on the mercury.

FIG. 7 is a section through the device according to FIG. 6.

Fig. 8 and g show a device which consists essentially of plates and is formed by a membrane and in which all other organs are made up of those Plates are shaped.

If one looks first at FIGS. I and 2, one sees two at I and 2 relatively thick panes of glass, between which a thin one, also made of glass formed disc 3 is arranged, which forms the elastic membrane. Such Embodiment is otherwise described in the main patent, and it is therefore intended their structural arrangement will not be discussed. The disks I and 2 show on the inside slight curvatures that allow the glass membrane 3 to be under the Pressure changes a little too varied according to the invention, a glass plate liter disk 4, which is correspondingly profiled (for example, slightly curved in Fig. I), hot fused to the glass plate 1 or applied to it, whereby one or more Cavities are formed between the profiled parts. After the two discs I and 4 and the discs 2 and 3 are placed on top of one another in a suitable manner they are fused to one another at their circumference, possibly in a single operation.

The reaction chamber is located between the disks 1 and 4 Cavity 8 formed; the two electrodes that do the electrolysis inside this vessel can, for example, of two platinum iridium tubes 6 and 7 are formed, which are introduced radially, for example by pass through suitable incisions made in panels I and 4 and which are melted close to the edge of the plate system, these tubes can also be used to fill the vessel 8 with the liquids and gases. It it is now easy to see that the liquid which is in the vessel 8, under the action of capillary forces, hike the narrow, ring-shaped part S "on the circumference3" is, while the gases generated by the electrolysis, also under the action of capillary forces, the middle part of greater height with the formation of a species Gas bubble 8 'will occupy. This gas bubble is completely removed from the surrounding Liquid flows around it and has the shape of the gas bubble of a spirit level. at Such an arrangement will maximize the contact area between the liquid and the gases obtained, the liquid, which is the annular, the gas bubble 8 'occupies the surrounding part, easily under the action of the electrodes 6 and 7 will circulate evolving gas bubbles. So you get a device in which, thanks to the convergence of the walls, the exchange between gas and liquid and accordingly also the absorption of that obtained under the action of light Gases are brought to the greatest possible value by the liquid, so that the Operation of the device is significantly accelerated. In addition, any Risk of explosion under the influence of a sudden exposure to light avoided if one the in general considerations set out in the main patent considered. The plate I is pierced by an opening, which the interior of the space 8 with that formed between the plate 1 and the flexible membrane 3 Chamber contacts.

However, it is about the mechanical safety of the device against the risk of explosion to erllöhen even further, as shown in Fig. 1 a, the superimposed Disks 1 and 4 with most of their surface except for the extraction part the chamber 8 fused together.

It is also intended to increase security, the connection between this vascular space 8 and that between the plate I and the flexible membrane 3 formed ranin through one of the narrow channels 4 'to produce the inner Edge of the fusion of the plates I and 4 opens. That way, the transfer will be made sudden, temporary overpressure on the membrane caused by the liquid filled and a very small diameter channel is braked.

Furthermore, the one between the membrane 3 and the plate 2 is Space generally filled with an inert gas, for example hydrogen, and connected to the tube in which the column of mercury moves.

This tube is not shown in FIGS. 1 and 2. The connection with the pipe can also, as already indicated in the main patent, through a pipe attachment I0, for example made of glass or an unassailable metal such as platinum and melted down at the periphery of the plate system, or this connection can be made by a pipe socket II, which is in the middle of the for this purpose pierced glass plate 2 is melted. It's easy to see that you can in this way a device with very small dimensions and extremely simple and resistant construction.

It should be emphasized that one can of course be satisfied with the panes or plates I, 3 and 4 to melt together, while the disc 2, if necessary is glued to the periphery of the membrane 3 by a suitable dense putty.

In Fig. 3 is a plan view of a pane of glass 20 is shown, on the surface of which a groove 21 is formed, which the mercury column records. This groove can have any suitable shape and for example Be designed in a U-shape.

At the top of the left leg of this groove, the plate 20 has a bore 22 on (cf.

Fig. 4), which the interior of the fillet with the rest of the Arrangement connects.

The right leg is connected to a compensation chamber 23, which is optionally formed by a recess in the glass plate and serves to to reduce the pressure changes caused by the displacements of the column of mercury develop.

At 24 and 25 you can see two stoppers made of porous material, which if necessary can also be replaced by strong constrictions of the cross sections of the canal and serve to prevent the ingress of mercury at 22 and 23. At 26, 27, 28 and 29 contacts are provided which are embedded in the glass and serve to make the electrical connections by means of the mercury column. The disc 20 is covered with a second disc over most of its surface 30 (see. Fig. 4) fused in such a way that the vessel or the space is formed, in which the column of mercury shifts, and wires 26, 27, 28 and 29 are melted between the two plates. The introduction of mercury can be made across one or more passages, for example from the Contacts are formed, which are made in the form of metal tubes and afterwards can be melted down.

The apparatus can also be filled through a tube 3I, the end of which is on it is hermetically sealed. It should be noted, however, that the disc 30 is also smaller Dimensions than the disc 20 can be and simply of a thin plate or lamella can be formed, which only the hollow parts of the plate 20 concludes.

FIG. 5 shows a modified device from that shown in FIG Art shown, wherein the plate 2 is replaced by a plate system 20-30 and the whole system is melted together at the periphery.

In the devices described above, the movements the flexible membrane is transferred to the mercury by means of an inert gas. According to the invention, however, it is also provided that the flexible membrane directly on the Allow mercury mass to act between the flexible membrane and a thick, solid plate is housed in which a filled with mercury Cavity is formed. Such an embodiment is shown in FIGS.

In these figures, a plate 33 shows one filled with mercury Cavity in the form of a circular field 34 and a channel 35 is, which latter drain into a gas-filled cavity 55 if desired which, by the way, can also be achieved by indenting in the crowd the plate 33 can form. In this channel 35 are the necessary contacts 56 and 57 arranged. The flexible membrane 3 is in direct contact with the surface of the mercury filling the cavity 34 (see FIG. 7).

As a result of the resistance of the capillary forces the mercury fills this completely covers the cavity and does not tend to get between the plates 3 and 33 to flow.

By the slight movements of the membrane, which a pressure on the mercury will exercise with more or less strong compression of the same the mercury is driven more or less into the channel 35 so that it makes the contacts 56 and 57 connects or opens.

If you have two corresponding plates 33 on either side of the flexible Arranges membrane 3, one can achieve that with the movements of the membrane the mercury rises in one vessel and sinks in the other.

You only need one of these vessels or one of these chambers with one Membrane device to connect to the game of closing and opening of contacts.

According to the invention not only the production of arrangements is provided, which are formed simply by placing several glass plates or panes next to each other but also the manufacture of devices made by juxtaposing only two plates are formed, between which a membrane is arranged and in which all cavities and chambers are formed in substantially the same plane will.

Such an embodiment is shown in FIGS.

In these figures, 46 and 47 show two juxtaposed Glass plates in which each half of the two parts 42 and 43 of the reaction chamber 44 are formed.

The membrane I is arranged between the two plates. The between The space lying between the plate 46 and the membrane I communicates with the reaction chamber 44, while the space between the membrane I and the plate 47 has a Passage 49 communicates with a U-shaped channel 50 (see. Fig. 9), which through the plate 47 is formed and the movable mercury column and the contacts, b c takes up. A device of this type, that of two profiled, one below the other fused plates and a membrane inserted between these two plates is formed, represents an even greater structural simplification, which the production of simple, space-consuming devices.

Claims (1)

PATENT CLAIMS: I. Arrangement for carrying out the method of use the photochemical reaction of a produced by electrolysis of a liquid light-sensitive mixture for the production of a light relay according to patent 671 910 with a reaction chamber, one of this chamber from the rest of the apparatus separating and pressure changes transmitting flexible membrane and with a lower the influence of the pressure changes transmitted by the membrane displaceable amount of mercury, the electrical contacts closes or opens, characterized in that the reaction chamber (8) in a vessel of flattened shape as a cavity between two corresponding profiled and stacked glass plates is formed and one of these plates (I) forms a cavity with another plate and in this between them the flexible membrane (3) is arranged on both plates and that all plates (2, 3, I, 4) form a flat continuous block. z. Arrangement according to claim 1, characterized in that the system of panels is connected to one another at its periphery is fused. 3. Arrangement according to claim I and 2, characterized in that the Reaction chamber (8) tapers towards the edges and a central part (s') of greater height, so that the gases form a kind of bubble in the central part. 4. Arrangement according to claim I, characterized in that to increase the mechanical strength of the glass plates forming the reaction chamber do not fused together only on the edge, but also over most of their surface are and only in their middle a cavity with a relatively small surface area leave blank as reaction chamber. 5. Arrangement according to claim I, characterized in that the reaction chamber through a hole (g) in the plate (1) with the one between this plate and the cavity formed is in communication. 6. Arrangement according to claim 5, characterized in that the bore is designed as a very narrow channel (4 ') to allow the transmission of sudden pressure changes to brake on the membrane in the reaction chamber. 7. Arrangement according to claim I to 6, characterized in that also the channel (21) for receiving the sliding mercury leading to the circuit with the associated contacts as a cavity between two superimposed, accordingly profiled and fused or glued together glass plates (20, 30) is formed. 8. Arrangement according to claim 7, characterized in that the Glass plates (20, 30) for forming the mercury channel (2I) with the block system according to claim I are fused into a single block. 9. Arrangement according to claim I to 6, characterized in that the flexible membrane (3) instead of mediated by an inert gas directly an amount of mercury acts in the cavity (34) between the membrane and a profiled glass plate (33) is housed and by means of a channel (35) communicates with a compensation space and in this channel when ascending and descending the contact connections (56, 57) opens or closes (FIGS. 6 and 7). 10. Modified arrangement according to claim I, characterized in that that all chambers or spaces of the arrangement are essentially in the same plane (Fig. 8 and 9) and these rooms are only made up of two adjacent, correspondingly profiled and mutually fused plates (46, 47) are formed are and a thin glass membrane between these two plates (46, 47) inserted in this way is that the space on one side of this membrane (I) with the reaction chamber (44) is in connection, while the one on the other side of the membrane Space via a channel (49) with a compensation space (50) in connection, which the silver column and the contacts.