GR1009257B - Digital thermometer practicable for solar and electric geysers - Google Patents

Abstract

Novelty: there is disclosed a device designed for the real-time continuous surveillance and Led-technology imaging of the temperature of hot water found inside a solar or electric geyser via a remote wired sensing element. Purpose: to know at any time the temperature level of the water, to prevent water wastage, to reduce power consumption, and to control the efficiency of the solar geyser, the water thermal losses and the hot water leaks from piping. Embodiment: the invention finds application to touristic establishments, to domestic, industrial and manufacture sites or wherever needed.

Description

DESCRIPTION

Digital solar and electric water heater thermometer

The present invention refers to a device for monitoring and displaying with LED technology (Light Emitting Diode) the temperature of the hot water located in the tank of a solar or electric water heater in real time, continuously displaying the level of this temperature.

The use and conversion of solar energy into other forms of energy, friendly to the environment, takes place widely, especially in areas where the percentage of sunshine is very high, throughout the year. A typical application is the solar water heater, with the appropriate collectors and hot water storage tank. Solar water heaters produce hot water either entirely or at least partially, from solar radiation. This production, however, stops in the absence of sunshine (cloudiness, rain, etc.) resulting in the need to use an electric water heater, which is usually located inside a covered area (eg warehouse, loft, stairwell). Thus, to heat this energy-intensive alternative water tank, we consume electricity that is often excessive for the need we need to meet. The user who owns both a solar and an electric water heater (or boiler) is faced with several issues every day, making the management of hot water difficult, not meeting his expectations. In particular, not knowing the temperature level of the water inside the solar water heater tank, he usually turns on the bathroom faucet, spending many liters of water per year, so that, through the human touch, he can determine the temperature and decide whether to use it or not. (it has been estimated that in a typical apartment on the second floor of a five-story building, at least two to three times a day, 3 to 4 liters of water are wasted at a time, just to control the temperature). Furthermore, after consuming a certain amount of hot water himself, he does not know how much hot water is left and is suitable for the next users. Most of the time, he assumes that the amount of hot water will be sufficient even for him, which usually does not correspond to reality, creating intense frustration, irritation and suffering. Furthermore, due to the fact that the user has no way of measuring the actual temperature of the hot water, he does not know when he can change its flow, i.e. to switch from the solar to the electric water heater.

When it finally decides to use energy in the electric water heater, and after having already spent several liters of water from the solar tank to control the temperature, the supply of the former usually stops automatically at the preset setting that the thermostat had taken when it was originally installed (about 70 Celsius degrees). In this way, however, the user is led to an unnecessary waste of high-cost electricity, always taking into account that his needs for hot water change daily both during the winter and summer seasons.

He is also unable to know if the performance of the solar panels remains constant throughout their operation, or if it is adversely affected by accumulated dust, mud and bird droppings, which drastically reduce their efficiency. The same applies to the water tank, that is, it is not possible for the user to know whether the level of hot water, especially during the winter months, is ensured at a satisfactory level, due to the thermal losses of the insulation.

Some room thermostats are already on the market, which, as their name indicates, are intended for a different use than the one described here. Some have the possibility, contrary to their usual use, to be connected by the respective technician to display the temperature of the hot water with a remote wired sensor, which on the one hand entails excessive costs and on the other hand makes the correctness of its adjustment uncertain. The indication is displayed on a liquid crystal display (LCD - Liquid Crystal Display) which has reduced visibility, especially when viewed at an angle and becomes hard to read in conditions of intense natural or technical lighting.

There is therefore a need for a reliable, efficient, perfectly adapted and economical device for the presentation and utilization by the user of the temperature data, both of the solar and electric water heater, the creation of which aims to fill in the deficiencies and solve of the problems created by the prior art.

The present invention (figure 1), as defined in the claims, is an integrated system for continuous monitoring, control and display (with LED technology) of the hot water temperature in real time, making it easier for the user to manage it.

Its purpose is to prevent and reduce the wastage of water, which is caused unnecessarily on a daily basis, to determine and only through the touch of its temperature, inside the tank. The indication of the water temperature level directly affects the consumer's decision to use or not the solar water heater. Also, due to the continuous monitoring of the temperature, which is displayed on the device screen in real time, the user is able to find out throughout the consumption and without guesswork, whether the amount of hot water is sufficient or not, both for him, as well as for subsequent users, which creates a feeling of confidence and security. At the same time, the device acts as a digital safety thermometer, avoiding burns that can be caused by extremely hot water. At the same time, reading the indication on the device is equally important for the correct decision to change the hot water flow from the solar to the electric water heater. There is a minimization of electricity consumption since the user sees in real time the rise of the water temperature, judges when it is necessary to interrupt it, according to his needs during the winter or summer season and is not tempted to heat the water for an unreasonably long period of time.

Another benefit of continuously viewing the water temperature is seeing how the efficiency of the hot water tank and solar panels decrease over time. In other words, the user is able to know whether the level of hot water in the tank remains constant or changes negatively throughout the day or night, but also whether the absorption of solar radiation continues to be done by the collectors just as effectively and to the same extent over the years of their operation. Sudden changes or a continuous decrease in water temperature without controlled consumption are due to possible problems with the solar water heater, as well as leaks in the piping, with a prompt for control and restoration by the user.

The digital thermometer of a solar and electric water heater (figure 1), according to the present invention, consists of a watertight plastic box (6) of high strength and excellent insulation PVC inside of which, in addition to the necessary wiring and connections, there is a LED digital display thermometer (1), a special toggle switch (2) with its circuit and a watertight gland (3) for the ends of the cables. Two external thermocouples (4+5) can be placed on the solar and electric water heater respectively, so that through a simple bipolar cable, they can transfer the information to the device.

Specifically, the digital temperature measuring instrument (1) receives at its input the changing voltage, representative of the temperature detected by one (4) or the other (5) thermocouple depending on the selected position of the special switch. The electronic circuit converts these changes in voltage, according to the changes in the temperature of the hot water inside the tank and decodes them in such a way as to feed the LED's of the display with the current and actual temperature of the water, in degrees Celsius. The special switching switch (2) in the form of a button, as shown in figure 2, receives at its inputs the two signals from the thermocouples (4+5), of which it directs to the output terminals, only one to the input of the electronic instrument measurement (1). This gives precision to the measurement from each thermocouple and in no case is the information of one affected by the other, creating false interactions. By pressing the button by the user, one thermocouple is instantly switched to another, with an immediate effect of changing the temperature from the solar to the electric water heater and vice versa, immediately displaying the indication on the device's digital screen.

The thermocouples (4+5) detect in real time the temperature level of the water and are placed in the special slots that have several solar systems in the center of the water tank, while in other types inside a tank. Their connection is made through a simple bipolar flexible cable, using as many meters as the distance from the installed device. At the same time, thermocouples are able to perform long-range temperature detection while maintaining a high degree of accuracy. The device is powered directly from the grid of the Greek territory (220VAC) and was designed so that no internal or external power supply is necessary, increasing its consumption, operating temperature and volume. After the electrical connection of the device, the use of which does not require specialized knowledge beyond the ability of the average person, is placed wherever the user wishes with special double-sided silicone tapes, which provide a high degree of adhesion for long-term use. Installation in the above manner without electric drills and support materials (screws, plugs, etc.) aims to remove complexity during installation.

Figure 1 shows the completed and ready-to-use device with the LED digital display thermometer (1), the dedicated toggle switch (2), the sealing gland (3), the solar (4) thermocouple and the electric (5) water heater and the plastic box (6) high strength PVC.

Figure 2 illustrates the arrangement of the toggle switch (2) in the form of a button, when it is fed from the upper inputs with the signals of the two thermocouples (4+5), simultaneously outputting a single signal to the input of the digital temperature measuring instrument ( 1).

It is pointed out that the present invention can be used with different functions but also foresee other possible variations and applications of temperature measurements which are also within the scope of the invention, as described above. Accordingly, the scope of the invention should not be limited by what has been described so far, but expanded according to the needs of users at different levels.

Claims (4)

1. The digital solar and electric water heater thermometer measures, monitors and displays continuously and in real time the temperature of the hot water inside the tank of the solar and electric water heater, it is characterized by including an LED display (1) for visual indication, a toggle switch in the form of a button (2) with the option of selecting the water temperature in the tank of the solar or electric water heater and two remote wired sensors (4+5) to detect the temperature. 2. The digital solar and electric water heater thermometer according to claim 1, has the feature of projecting the hot water temperature level, on a screen (1) of LED (Light Emitting Diode) technology offering perfect visibility with a wide viewing angle, in any condition of natural or technical lighting. 3. The digital solar and electric water heater digital thermometer according to claim 1, is characterized by the use of a special switching switch (2) for measurement accuracy and, depending on the consumer's desire, displays the level of hot water in the tank of the solar or electric water heater . 4. The digital solar and electric water heater thermometer according to claim 1, characterized in that it offers a reliable, integrated and ready-to-use system for monitoring and displaying the temperature in hot water storage tanks.