DE909379C - Electrode water heater - Google Patents

Description

Electrode water heater The subject of the invention is an electrode water heater with electrodes immersed in a container for any voltage and connection value. The new heater is used for electrical hot water preparation in households and businesses as well as hot water preparation for shower purposes and the like.

So far, it has been used almost exclusively for electrical hot water preparation The related hot water storage tank has a number opposite the gas water heater operational and economic disadvantages affecting the competitiveness of the Affect electricity in the field of hot water preparation. Here creates basically the electrode water heater remedy.

The known water heaters are, however, because they either one: mechanically connected to the tap (not safe to run dry) or else Mechanically operated switch for switching on and off by the flowing water of electricity, expensive and intricate in design. Your price is that Many times that of a gas water heater and is also above the price corresponding hot water storage tank.

This is where the invention comes in. It consists of such an electrode water heater, in which the liquid inlet during the start-up period after opening the The liquid inlet is greater than the decorative liquid outlet by the cross-section the inlet line is larger than that of the outlet line and the container by means of a ball float valve that is in contact with the outside air, after its filling automatic, closed with respect to the outside air and the container remains fully or partially filled during operation, whereby the liquid level regulates the stroke flow without switching devices. Advantageous the liquid runs until the container is filled with the ball float valve open, under line pressure, the liquid entering the container causing this only under the egg flow of the pressure head of the liquid column forming in the container and can leave the outside air and only after the ball float valve closes automatically due to the floating ball, the outflow volume is equal to the inflow volume. According to the invention a ball float valve is arranged in the electrode water heater, the from a tubular formation. arranged within the container, with the Container interior connected, in which is a ball with lesser specific gravity than the liquid can move vertically, and one in the upper Housing part arranged ventilation pipe exists, which with the outside air in. Connection stands in such a way that when the liquid level rises, the ball moves upwards and when the container is full, the lower opening of the ventilation pipe is closed, during the operation of the filled container under the influence of the operating pressure remains pressed in front of the vent pipe and only when the liquid level drops the opening of the ventilation pipe under the influence of the external air pressure again releases, which means that the container is automatically closed when the inflow is shut off emptied. It is advantageous that the cross-section of the liquid drain corresponds to the cross-section of the liquid inlet is adapted in such a way that the container is within a certain start-up time fills and thus initiates heating, in such a way that the drain pipe opposite an intermediate floor of the heater housing, which is advantageous a special liquid chamber is limited, the height is adjustable by means of a thread guide in the outlet base, which is also screwed into the housing: floor by means of a thread can be. According to the invention, the vent pipe of the Kugelschwirmnerventils arranged adjustable in height, so that depending on its setting, the ball earlier or later the vent pipe closes, whereby a more or in the container less strong air cushion forms, which the water-contacting electrode surface and so that the performance of the device is limited. It is advantageous that the liquid guided vertically through the container to the upper part of the container by means of an overflow pipe and only there it crosses into the interior of the container, whereas the liquid does exits at the bottom of the container against the direction of flow, so that in the interior of the container vertical flow from top to bottom results in no vapor bubbles accumulate, as in a current, which is under the influence of the supply of heat and the convection would naturally develop. According to the invention, the overflow pipe optionally made of insulating material or conductive to be used as an auxiliary electrode to act so that the area of application: a certain device dimensions same voltage in terms of power, with the same power in terms of the operating voltage expanded. It is advantageous that only the upper part of the overflow pipe is conductive or provided with: a conductive coating or a Auxiliary electrode that is essentially effective in the upper part of the housing (e.g. conductive Formation of the container inner walls) is arranged so that when this is reached Electrode increased power due to the rising water level in the tank is recorded.

This new arrangement has significant advantages. The entire structure of the water heater becomes extremely simple. There are no moving parts with the exception of a float ball. A special switch to be operated together with the tap or by the water flowing through is not required. The activation or start-up of the heating process is performed only by the rising in the housing interior liquid surface connecting the electrodes conductive, that is, without any special electrical switch solely by the Wasserdurchlaßventil whose closing a waste fall of the liquid level in the container interior will cause, thereby eliminating of the device.

This simple design makes the device very cheap and only one Fraction of the price of the electric water heaters currently on the market, maybe even less than a gas water heater, cost the same performance, so that additional installation costs can easily be borne.

The entire apparatus can largely be made of ceramic and metal Plastics are built up. A preferred embodiment of the invention is in Drawing shown. It shows Fig. A fine longitudinal section through the heater, Fig. 2, a cross section along the line II-II of Fig. I.

The basic structure of the device consists of: the electrode container i, into which the rod electrodes 3 are immersed through the cover z. The star electrode 4 is arranged at the bottom in the housing i. The pressure screws 8, the clamping rings 9 and the terminal lug io are used to connect the rod electrodes 3 in the cover z. The seals at the lead-through points of the electrodes are denoted by i i; 12 is a flange seal between the lid and the container. The water, coming from the line z 5, enters the heater at 1 6 and is guided vertically upwards through the overflow pipe 5 through the container and only emerges in the area of the container cover a at 1 7 from the overflow pipe 5 into the container interior 1 8 of the electrode vessel i over. It runs down at the lowest point i9. In the lid z of the vessel i is the vent tube 13, the inner opening of which is closed when the water level in the electrode vessel i is appropriate by the float ball 14, which floats on the liquid level in a tubular formation 2o of the vessel i that is open on one side. The ventilation pipe 13 is connected to the outside world through a corresponding bore 21 and Zia in the housing cover 2. The tubular design 2o, the vent pipe 13 and the ball 14 together form the ball float valve or vent valve. The outlet base 6 and the outlet pipe 15 are adjustable by means of a thread, the latter by means of the counter nut 7.

This structure results in the following mode of action: If the in the inlet line 25 upstream passage valve, which is not shown, the - \ water flow is released, so the water that is under line pressure enters, at junction 16 in the heater and after flowing through the overflow pipe 5 at 17 in the container interior i 8 of the electrode vessel i. Since the inlet cross-section is larger than the drain cross-section and when the device is started up, the ball 14 of the ball float valve does not yet close the vent pipe 13, whereby the container interior 18 is in communication with the outside air by means of the duct 21, the water that flows vertically down the electrodes occurs only partially, and depending on the size of the drainage cross-section through the outlet pipe 15 from the container again, as on the one hand the water under line pressure and larger cross-section is fed to the heater, but on the other hand only under the Pressure of the water column forming in the vessel and the external pressure of the air the smaller outflow cross-section can escape. This causes the water to rise in the Container interior 18 of the electrode vessel i arrives very quickly and comes with the electrodes 3 and 4. in contact, whereby the passage of current and thus the heating process begins. The start-up process in the device lasts until the ventilation pipe 13 of the ball float valve by the float ball raised with the water level 14 is closed. At this moment the start-up process is finished and the the electrode surface corresponding to the nominal output touches water. The water outlet takes place because the electrode vessel r is now closed off from the outside air is, under full water line pressure, with which the steady-state flow condition is reached is. If the water supply is interrupted, for example by closing the not Drawn passage valve in the inlet line 25, the float valve opens 14 by the sinking of the float ball under the influence of the external air pressure; the electrode vessel i, which is now open again at the top, runs empty, whereby the water connection interrupted between electrodes 3 and 4 and the device switched off automatically is.

The outlet base 6 is for itself within the housing base and together adjustable in height with the drainage pipe 15, the drainage pipe 15 being within the discharge base 6 also by means of a nut; Is arranged independently adjustable in height. Through this Aid can be the outlet cross-section through the pipe edge 22 of the drainage pipe 15 is determined by its distance from the container intermediate floor 23, very can be adjusted precisely. The bottom 6 advantageously delimits a special liquid chamber 24. In Fig. I, the waterway is from its inlet 16 to its outlet i 9 indicated by arrows. By the flow of water running vertically from above going down rin the electrodes 3, the formation of vapor bubbles will occur avoided the electrodes.

The vent pipe 13 can be adjusted in height within the bore 21 are arranged to regulate different fluid levels during operation to be able to.

Claims (7)

PATENT CLAIMS: i. Electrode water heater with in a container immersed electrodes for any voltage and connection values, characterized that the liquid inlet during the start-up period after opening the liquid inlet is larger than the liquid drain by making the cross-section of the feed line larger designed as that of the drain line and the container by means of a ball float valve, that is in contact with the outside air, after being filled with the outside air closed automatically by means of float balls (14): is and during operation the container remains completely or partially filled, which is achieved by a. Height adjustability of the vent pipe (13) is achieved, the liquid level in the vessel the Controls current flow without switching devices. 2. Electrode water heater according to claim i, characterized in that the liquid is filled up to the filling of the container open ball float valve under line pressure, with the in the container entering liquid only under the influence of the pressure level in the container forming liquid column and the outside air and only after automatic Close the ball float valve using the float ball (14) to reduce the flow rate becomes equal to the inflow amount. 3. Electrode water heater according to the claims i and 2, characterized by a Kugelschwirnmerventil, which consists of an inside of the container arranged tubular formation (2o), with the container interior (i 8) related, consists in which there is a ball (14) with lesser specific gravity as the liquid flowing through axially to the heater (i) the rising or falling liquid level moves, and continues from one in the upper housing part, preferably in the housing cover (2) arranged ventilation pipe (13) consists of that with the outside air Has connection, for example such that when the liquid level rises, the ball (14) moves upwards and when the container is full, the lower opening of the vent pipe (13) closes, during operation with a filled tank under the influence of the operating pressure remains pressed in front of the lower opening of the ventilation pipe (13) and only when it drops of the liquid level the vent pipe (i3) under the influence of the external air pressure releases again, whereby the container, for example when shutting off the The liquid inflow is emptied automatically. q. Electrode Duxchlauferheater after claims i to 3, characterized in .that the cross section of the liquid drain the cross section of the liquid inlet is adapted in such a way that the Fills the container within a certain start-up time and thus initiates heating, for example in such a way that the outlet pipe (15) opposite an intermediate floor (a3) of the heater housing (i), which advantageously has a special liquid chamber (aq.) limited, adjustable in height by means of a thread guide inside the outlet base (6), which is also screwed into the housing base by means of a thread can be. 5. Electrodes: water heater according to claims i to 4., characterized characterized in that the vent pipe (13) of the ball float valve is adjustable in height , is arranged so that, depending on its setting, the ball sooner or later the ventilation pipe closes, which means that there is more or less in the container A strong cushion of air forms, which avenges the electrodes and touches the water so that the performance of the device is limited. 6. Electrode water heater after the Claims i to 5, characterized in that the liquid is conveyed by means of an overflow pipe (5) is passed vertically through the container into the upper part of the container and only there into the container interior (18), whereas it crosses the container bottom against the Exits the inflow direction, so that a flow is vertical in the container interior from top to bottom, so that no vapor bubbles form on the electrodes as with a current that is under the influence of the supply of heat and convection of course would train. 7. Electrode water heater according to claims i to 6, characterized in that the overflow pipe (5) is optionally made of insulating material Moderately conductive to act as an auxiliary @ electrode, so that the Area of application of a certain device dimension with the same voltage in terms of the power, with the same power in terms of the operating voltage. B. Electrode water heater according to claims i to 7, characterized in that that only the upper part of the overflow pipe (5) is conductive or has a conductive coating There is also another auxiliary electrode that is only effective in the upper part of the housing (For example, conductive formation of the container inner walls) is arranged so that when this .Electrode is reached by the rising water level in the container increased power is consumed.