GR1009849B - Automation for the deactivation of geysers - Google Patents

Abstract

Novelty: an automation unit meant for the deactivation of a geyser is disclosed. Technical features-function: the geyser’s deactivation automation unit is interposed between the fuse switch 1 of the installation and the geyser 2; a transformer and a restrain circuit are also provided. When the geyser 2 is set in operative mode via the button 3, the restrain circuit is switched off and the water heated up until the desired temperature. The actuation of the geyser’s thermostat renders the geyser inoperative and interrupts the power supplied to the restrain circuit so that the reactivation of the geyser, when the temperature falls, is impossible.

Description

DESCRIPTION

"HEAT OFF AUTOMATION"

THE FIELD OF TECHNOLOGY

The invention refers to the field of water heater protection and more specifically to automation for the automatic activation - deactivation of water heaters. The invention can be applied to both existing and new water heaters.

THE HISTORY OF THE INVENTION

The water heater shutdown automation disclosed in the present invention has not been disclosed in the prior art.

The electric water heater is nothing more than a container in a cylindrical shape, consisting of double thermally insulated walls and a heating body located in the middle of the container. Supply of electricity heats this radiator, which in turn heats the water inside the cylinder. The water heater is connected to the water supply and for every amount of hot water pumped for use, there is automatic replenishment with cold water. Water heaters are devices found in almost every home and business, to provide hot water and serve the needs of the occupants. Usually, the water heater has an integrated electric resistance, where it heats the water, a water temperature indicator, an indicator light that shows that the water heater is in operation and a thermostat, so that when the water temperature reaches the desired level where it has been set , to interrupt the supply of current to the resistance to stop the boiling of water. The switch where the user controls the operation of the water heater is usually on the main power panel.

One of the biggest problems with water heaters arises from the fact that the user often forgets to switch off the water heater after the end of use, resulting in a burden on the water heater, the possible risk of electric shock to users by using it while it is in operation, unnecessary consumption energy and the increase in the financial burden on the electricity consumption bill.

A further disadvantage arises from the fact that the tenant, usually not having visual contact with the water heater, does not see the temperature of the water on the instrument, as a result of which he often activates it to heat the water when normally this is not necessary.

A further disadvantage presented to date is the fact that the cycle of activating and deactivating the operation of a water heater can be repeated almost continuously, as when the boiling water reaches the predetermined temperature, the thermostat cuts off the power supply and the boiling stops. But when the water temperature decreases over time, the thermostat is activated, putting the water heater back into operation. This, in addition to the obvious strain on the water heater and energy consumption, also strains the thermostat itself, reducing its operational life time.

It is even dangerous for the consumer that the thermostat may fail and not deactivate the circuit. In this case, the water heater has no control element, so it heats the water continuously. Such a process can even lead to the explosion of the water heater, with disastrous consequences for the occupants and the building.

On the other hand, intervention in an electrical installation is not an action that can be performed by anyone, but only by specially trained professionals. But even in this case, intervention in an electrical installation is usually a time-consuming process, with significant costs, which creates disruption for the occupants and repairs that must be made to cover the work later. For the above reasons, this type of intervention is avoided, unless deemed really necessary.

Until today, one of the proposed solutions to deal with the above disadvantages is the use of a timer through which one can control the operating time of a water heater. The user therefore sets a time, after which the water heater's power supply circuit is deactivated, resulting in its shutdown. But the problem that arises is that the definition of this time is arbitrary. In order to be able to set the time correctly one would have to know both the capacity of the water heater in liters of water, the desired water temperature for use, the current water temperature and even the intended consumption. Obviously, the solution of mathematical equations would be further required, so that each time the desired request, i.e. the operating time of the water heater, would be obtained. It becomes apparent that such a thing is difficult to impossible for the average household. The result is the setting of time approximately and thus with similarly approximate results.

It is thus an object of the present invention to advantageously address the aforementioned disadvantages and shortcomings of the prior art by proposing an automation for deactivating a water heater.

A further object of the present invention is to provide an automatic water heater shutdown, which operates automatically, stopping the operation of the water heater when it reaches the desired water heating temperature.

A further object of the present invention is to provide an automatic shut-off water heater, which works adjunctively, without affecting any other function of the water heater.

A further object of the invention, in order to make the above water heater deactivation automation useful, is the presentation of a device, which is implemented in such a way that no particular changes are required in the wiring and the existing electrical installation.

A further object of the invention is the presentation of an automation, where the power supply to the water heater is exactly what is required for the temperature of the water, regardless of the existing temperature and the capacity of the water heater.

Another object of the invention is to present an automatic water heater shutdown, where the user is not required to close the water heater's power switch. So we will never have unnecessary power consumption with the reactivation of the thermostat.

A further advantage of the invention is the fact that in case the thermostat switch does not operate to stop the power supply to the water heater, the timer will be activated after the predetermined time.

An additional advantage of the invention is the fact that the existence of automation and safety devices ensures that under no circumstances will there be a risk of electric shock with its use, while it is in operation, just as there will be no risk of the water heater exploding from its prolonged, pointless operation and the increase in temperature and pressure inside the boiler.

Finally, in the event of a short-circuit of the resistor, the electronic fuse automatically stops the operation of the circuit, without even tripping the central fuse.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawing, in which it is illustrated in an illustrative, non-limiting manner.

Figure 1 shows an exemplary implementation circuit of a water heater using the automatic shutdown of the present invention.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawing, an exemplary embodiment of the invention will be described in order to make clear its mode of operation.

The shut-off automation is placed inside the electrical panel and inserted in series with the already existing safety switch (1), Fig. 1 and the water heater (2). The automatic shutdown of the water heater has a button (3) for its activation as well as two lights (4), (5), which indicate the presence of power and the automatic shutdown respectively.

Furthermore, it has an audio notification device (6), to signal its deactivation. The automatic shut-off of the water heater (2) has two sockets for the input of its power supply and two at its output for the power supply of the water heater (2). Based on its operation and as required by law, the shutdown automation makes a simultaneous interruption in both the phase and the neutral. By installing the automation of the invention, the user activates the water heater (2) from the button (3) of the automation and current flows through the voltage transformer of the circuit of the automation of the invention and a self-retaining circuit, with a self-retaining relay, maintains the water heater (2) in operation. At the same time, the lamp (4) is on. As long as there is current flow to the shut-off automation, the water heater (2) operates normally. However, when the water in the water heater (2) reaches the desired temperature, the thermostat within it stops its operation. The voltage transformer of the automation detects the power failure and deactivates the self-retaining circuit. The light (5) then lights up in the automatic switch-off. When, over time or use, the hot water is consumed or its temperature drops, the thermostat of the water heater (2) will be put into operation, but the circuit will not be activated, as the self-retaining circuit of the automatic shutdown, which as mentioned above, it is activated by the button (3), it will not be activated and therefore the water heater will not be put into operation. The automation in question can be installed both in new and existing facilities.

In an alternative implementation of the invention, the shut-off automation has wireless communication, through known protocols, with mobile phones, where through an application the user can remotely control the operation of the automation and thus of the water heater (2).

It will include all of the above features plus the fact that by taking advantage of the built-in thermostat that the water heaters have, the user will be able to determine the desired boiling water temperature, with a maximum of the predetermined one, from the application on their mobile phone. Thus we will have a further economy since you do not always require the use of water at the maximum predetermined temperature.

It should be noted at this point that the description of the invention was carried out with reference to an illustrative example of application, to which it is not limited. Therefore, any change or modification regarding the used materials and construction and assembly components, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered to be included in the aims and objectives of the present invention.

Claims (2)

1. Water heater shut-off automation, inserted between fuse (1) and water heater (2), consisting of a voltage transformer and a self-retaining circuit, with a self-retaining relay, with an activation button (3), characterized by the fact that when activated by the button (3) it sets operate the water heater (2), with current flowing through the current transformer and hold-down circuit, until the water heater thermostat (2) turns off the water heater (2) and the current flow to the hold-down circuit is interrupted, disabling the automation. 2. Water heater shutdown automation, according to claim; 1, characterized by having a circuit for wireless communication with electronic devices.