TR2021006200Y - A DEVICE WITH MULTIPLE OPERATING MODES THAT CIRCULATES WATER UNTIL IT REACHES THE DESIRED TEMPERATURE, A SYSTEM WITH THE SAID DEVICE - Google Patents

Abstract

The invention subject to the application is a device that prevents the wasted flow of cold water and/or water that has not reached the desired temperature value until the temperature of the water flowing from the battery (4) reaches a certain value, thus saving both energy and water and improving the comfort conditions in our daily lives (10). ) relates to a system with the said device (10). The device (10) included in the system subject to the application; In addition to preventing wasted hot water in user-centered, tank-tankless, central-individual systems, it is a small, compact, easy-to-install product that can be used for different purposes and/or integrated into these systems and operate in different modes. etc. It includes the working system as well as the user-friendly features.

Description

DESCRIPTION A DEVICE WITH MULTIPLE OPERATING MODES THAT CIRCULATES WATER UNTIL IT REACHES THE DESIRED TEMPERATURE, A SYSTEM INCLUDED WITH THE MENTIONED DEVICE Technical Field The invention subject to the application prevents the wasted flow of cold water or water that has not reached the desired temperature value until the temperature of the water flowing from the battery reaches a certain value. which enables both energy It is about a device that not only saves water but also improves the comfort conditions in our daily lives, and a system that has the said device. Known Status of the Technology With the development of technology, our comfort conditions are increasing day by day. In this context, domestic hot water has become an indispensable part of our lives. Domestic hot water systems were first used in the industrial field with the industrial revolution in the early 19th century, and then entered our lives in public buildings and complex structures. At the beginning of the 21st century, with the development of more compact heating devices, domestic hot water and the hot water needed by heating systems can be provided with a single heat source. Individual and central systems used today to obtain domestic hot water; They can be grouped according to whether water is heated directly or indirectly and whether the heated water is stored or not. Systems where water is heated away from the point of use are considered as central heating systems. In order to obtain domestic hot water with a central system, the water must be heated by a heat source and this heated water must be delivered to the place of use by recirculating through a third recirculation line via a pump. We can also consider systems in which water is heated closest to the point of use and where there is a single demand point, as individual systems. In individual systems, domestic hot water is generally collected without a tank, via combi boilers, electric heaters, etc. in our homes. provided through devices. In central use hot water systems, hot water must be constantly circulated in the circulation line via a pump. Otherwise, the domestic hot water in the pipes in the system will cool down over time. Obtaining hot water for individual use without a tank is achieved by directing the cold water for use to the heating device with the mains pressure in case of instant need, heating it in this device and giving it to the system. As the need for energy increases exponentially over the years, more environmentally friendly, sustainable and smart systems need to be developed. Operation, maintenance and labor costs in central use hot water preparation systems are much higher than in individual systems. In addition, since there must be a third recirculation line, the initial investment costs (pipe, pump, system, etc. costs) are higher. Heat losses occurring in the circulation of domestic hot water and efforts to keep the water warm by consuming fuel and energy even when it is not used for a long time (heating the water that will not be used and operating the pumps, etc. devices in the system) make these systems inefficient. Individual use hot water heating systems are more efficient than central use hot water preparation systems. However, in individual use hot water systems, during the time it takes to heat the water, the water in the pipe is wasted until the domestic hot water reaches the desired temperature (8-10 liters on average, depending on the length of the line) and it is necessary to wait for a while to prepare the domestic hot water. This situation provides a more uncomfortable use for individual use, where comfort conditions come to the fore. Considering the conditions of our country, in individual use hot water preparation systems, pipes running under the handle without insulation causes the hot water remaining in the pipes to cool rapidly and increases the time to wait to obtain hot water. This situation repeats every time the tap is turned off and on and hot water is requested to flow. Extending the intervals between using hot water causes the hot water in the pipes to cool down. This situation creates a disadvantage in terms of water saving and energy. Droughts experienced in the world have begun to increase due to the gradual decrease in water resources. As we have become accustomed to hearing in recent years, even in our country, as the water level in dams decreases day by day, one day our water resources will not be enough for us. Water is the most valuable treasure of the future. This invention is related to this subject. In the current situation, when the projects related to the known state of the art related to the draining of water heated by a heat source by the user until it reaches the desired temperature are investigated, some of the applications in the records of the Turkish Patent and Trademark Office that are similar to the energy-saving device that is the subject of the invention are given in the table below. No Application No. Invention Title 2015/ 16982 A 2 Armature that Prevents the Flow of Water Until It Reaches the Desired Temperature, A System Equipped with the Said Armature and the Working Method of the Said System 2017/02571 When the invention titled "System that Saves Water in Taps and Obtains Hot Water Immediately" is examined, it is seen that the system has more than one number of parts. It is seen that the direction of the hot water is changed by the 2-way motorized valve and the 3-way motorized valve used, and a closed circuit is created with a pump, electronic command device and switch added to the system.For the system designed in the invention that is the subject of this application, more than one 2-way valve is used, which has high prices. A more costly and complex system has been designed by using a 3-way motorized valve; the pump and the electronic control device must be connected with only one cable for all uses, and external professional support must be sought to install the system, to draw cables between the switches and the electronic control device, etc. (labor and cost), the fact that it is possible to connect all hot water lines by bypassing the T connection piece by drawing a new line for each battery requires external professional support (labor and cost), as can be understood from the description and pictures of the invention, the system can only be installed near the heat source. Due to the fact that it is being assembled, the cables to be connected to the system (to communicate in case the distance of the electronic command device to the opening switch is long) cause a bad appearance, it does not have a compact structure, communication via wireless and smart phones is not possible and other features mentioned in the description, the invention in question was made in 2014. These are the most important parameters and features that distinguish it from the invention with application number /03294. The invention that is the subject of the application titled "An Armature that Prevents the Flow Until It Reaches the Armature, a System Equipped with the Said Armature and the Working Method of the Said System" is an armature that prevents the wasted flow of cold water or water that has not reached the desired temperature value until the temperature of the water that will flow from the armature reaches a certain value, an armature that has the said armature. It is related to the system and the working method of the said system. In fact, this invention is related to the armature. The main differences that distinguish the invention that is the subject of this application from my invention are stated below. In case a battery different from the battery with the specification is used for hot water in the installation, the flow switch of the pump detects a flow and the pump starts to operate each time. When hot water is requested from a different battery closest to the line, normally the hot water reaches this battery in a very short time. Although there is no need for a pump to operate, electrical energy is consumed by the pump operating. My invention is different from application number 2015/16982 in that it can be activated when only hot water is required and does not contain a flow switch. . As a result of the compatibility of the battery designed in the invention with application number 2015/16982 and its system, water waste can be prevented by using only the battery described in this invention. The fact that other existing batteries cannot be used and that water savings can be achieved by using only the armature (battery) described in this invention instead of existing batteries, brings about the necessity of replacing the existing batteries. The fact that my invention can be applied in the entire system without the need to replace any batteries by mounting it under the furthest battery in the installation makes my invention different from the product with application number 2015/16982. . Since the fixture in the invention with application number 2015/16982 is designed only for wall outlet, if it is intended to be used in other parts of the house, the batteries that are planned to be replaced must also be suitable for wall outlet use. Since my invention can be used in all types of batteries, it eliminates such a problem and makes it different from the product with application number 2015/ 16982. . In the invention with application number 2015/16982, the heat source hot water outlet lines must be at a sufficient distance in order to mount the pump to be placed under the heat source. Under normal circumstances, it is understood from the description that the system in this patent will be used for individual use. Appropriate distance cannot be ensured because the lines coming out of the heat source in individual use go through the wall. My invention is different from the invention with application number 2015/16982 in that the system in this invention is not suitable for use in every existing system, whereas my invention can be integrated into every system. . In the invention with application number 2015/16982, when the system is placed under the combi boiler/heater or near the battery, the pump and the system can be installed professionally by getting help from an expert, requiring labor costs, and thus being integrated into the existing system. My invention is different in that it can be installed without requiring labor and costs. . The fixture and system (pump, flow switch, etc.) in the invention with application number 2015/ 16982 are not a monolithic product, whereas my invention is compact and monolithic and can be carried and used in another fixture (battery) or location if desired. It is one of the important features that distinguishes my invention from invention no. Experts do not recommend using fixtures such as thermostatic valves in gas heaters. The reason for this is that the movement of the part inside the thermostatic armature that expands with temperature causes the gas heater to stop while adjusting the hot and cold water flow rate. If the temperature of the gas heater is higher than the temperature value set in the armature, the flow of hot water is reduced and the flow of cold water is increased by the movement of this part mentioned above, which tries to keep the temperature of the water flowing through the armature constant. In this case, the flow sensor in the gas water heater cannot detect sufficient flow rate (2 l/min) and stops heating the water. The thermostatic cartridge inside the fixture regulates the temperature of the cold water flowing through the fixture by turning down or closing the cold side and opening the hot water side. Meanwhile, the flow sensor inside the gas heater detects the sufficient flow rate and starts ignition again, and heats the domestic cold water passing through it and sends it to the armature. This process continues in a vicious cycle until the armature, whose features are given in this patent application number 2015/ 16982, is turned off. Operating the gas heater in this way will damage the electronic card inside, the pump (due to the sudden stop-and-start of the pump) and other hardware over time. My invention is gas powered, with a tank, without a tank, and with an electric heater. .. etc. It can work integrated with all systems and does not cause any harm to these systems. . As of 2021, the prices of thermostatic batteries start from around 1200 TL on average. The armature in the patent application number 2015/ 16982 consists of more complex and extra circulation parts, the system's pump, flow switch, etc. Since it has devices such as these, it is inevitable that it will be sold at higher prices than the average thermostatic battery prices. This shows that it appeals to people in the high-income group. However, in homes in the low and middle income groups, the cold water coming from the battery is wasted until the domestic hot water reaches the battery. My invention appeals to families in all income groups in terms of price. When the invention titled "Cold Water By Pass Device" is examined, although the aim of this invention is to save water, the differences between it and my invention are given below. 1. This invention is related to the domestic water circulation flow system (general) circulation flow unit-1, recirculation A (by-pass, side pass, bridge) channel (pipe) line-1 connected to the pump inlet-output and this (by-pass) channel (pipe) line-1 and on the circulation pump circuit and its connection points; at least one three flow valve-2, flow (direction, flow adjustment (throttling), on-off) elements such as expansion tank, safety valve, strainer, and at least one flow sensor and flow switch-l that enable flow measurement, monitoring and control operations. When the equipment and devices used are examined, it is different from the invention in question. In the invention with application number 2017/00021, although the by-pass (general) circulation flow unit-l7 is designed to provide easy assembly and disassembly, the heating source (heat pump, boiler, Although it is mentioned that it can be installed in a place away from the heat source, either integrated into the domestic water heating device or separately, it is difficult for people from all walks of life to do this under current conditions, since the hot and cold water connections of combi boilers and heating devices are PPRC and/or steel pipes. This process needs to be done by an expert in the field (plumbing master), and in my invention, it is much easier for people from all walks of life to install the device on existing hot and cold water lines easily by closing the intermediate taps of the hot and cold water lines. In order for the heating source (heat pump, boiler, combi boiler, etc.) to be integrated into the domestic water heating device, there must be sufficient space inside the device, and in case of separate installation, the heating source (heat pump, boiler, combi boiler, etc.) ) Before continuing the plaster-mounted lines under the plaster, there must be sufficient space for the circulation flow unit-l. In my invention, hot and cold water lines are more innovative and different in that they can be easily installed in intermediate taps and can be positioned near the appropriate battery thanks to its small and compact structure. . In the invention with application number 2017/00021, the (local) circulation flow unit-2 related to the domestic water circulation flow system consists of at least one three-way valve-2 and flow rate adjustment (throttling), on-off elements and (hot-cold water temperature and At least one water temperature indicator (which enables flow measurement, monitoring and control) thermometer and an electric switch connected to the mixer disc battery arm, flywheel head, thermostatic head, solenoid (electric coil) head or servomotor head, flow sensor and flow switch It contains -2 elements. In my invention, this equipment mentioned above, which has high maintenance and cost while saving water, was not used. . In the invention with application number 20 l 7/ 00021, it is mentioned that fixed and portable circulation control units have both separate and common program algorithms and connections with the space and domestic water heater control unit. In my invention, there is no connection or communication between the heat source and my device. The device in my invention allows it to defrost itself without interfering with the heat sources (combi boiler, etc.) and to adjust the temperature of the hot water in the heat source to high without being connected to the heat source, etc. It is completely different and innovative from this invention in terms of solving problems such as. . In the invention with application number 2017/00021, if the (general) circulation flow unit-l7 related to the domestic water circulation flow system is used by the user in a system without a circulation line, its battery must either have a by-pass battery feature or it must have a by-pass (by-pass) battery. local) circulation flow unit-27 must be installed on the battery from which it wants to use hot water. Likewise, in the opposite case of this process, in this invention, if the (local) circulation flow unit-27 related to the domestic water circulation flow system is used by the user in an installation where circulation is not provided by the circulation pump, the (general) circulation flow unit-1 is connected to the existing system. needs to be integrated. In this case, the user needs to replace the existing battery or integrate the by-pass (local) circulation flow unit-27 into his system. This situation makes the system complex (increase in the number of control units, increase in the number of devices to be installed, etc.) and increases the cost. Additionally, if there are batteries that require hot water from the user, this process should also be applied to these batteries. My invention differs from this invention by introducing an innovation in that it is not subject to any conditions for being integrated into any system, whether it is a by-pass or non-by-pass installation, and by increasing the number of buttons, hot water can be provided from the battery desired by the user. . In the invention with application number 2017/00021, when the technical drawings of the system, its operating modes, its structure, the operation of the device and its parameters are different, and the issues mentioned in the purpose and description of the invention are considered as a whole; It is clearly seen that my invention differs from the invention with application number 2017/00021. . In the invention with application number 2017/00021, in water installations that do not have a "hot" circulation water pipeline system centered on the domestic water heating device; When an example operating mode given in the description of the by-pass (local) circulation flow unit-2 and the by-pass (general) circulation flow unit-1, connected in parallel to a standard non-bypass battery, is examined, 1. This In the invention, the operation of the system is triggered when the hot water side of the mixer handle or rotary battery flywheel is opened, or by the signal sent to the circulation control unit by the manually opened battery electrical switch and/or flow sensor and switch-1,2. With the action of the two-way and 3-way motorized valves belonging to the (local) circulation flow unit-27 and the circulation flow unit-1, the water is directed from the hot water line to the cold water line and heated by inserting it into the heater. If the water reaches sufficient temperature, the 2-way and 3-way valves are reset and hot water is delivered to the user. However, in my invention, the system works with a button and/or multi-user modes. In this invention, there are 3-way, more than one 2-way valve, flow sensor and circulation pump, etc., which need to be controlled one by one by the control unit during the heating of the water. There are many controlled variables such as. In my invention, the circuit board controls the pump with only the temperature sensor and/or only one two-position proportional motor valve. In this invention, moving so many devices also increases electrical energy consumption. However, it also causes a noise problem because the system operates loudly when the servomotors turn the gears under normal conditions. In my invention, the number of equipment that consumes electrical energy is much less than in this invention and the fact that there is only one servomotor (if used) provides a quiet operation, keeping the sound problems at a much lower level than in this invention. Due to the high number of equipment used in this invention, the system requires a much higher initial investment cost than my invention. In addition, depending on the number of devices used in this invention, the number of maintenance and breakage parts also increases. However, in my invention, the small number of parts reduces the amount of maintenance and the number of parts that will break down. The invention titled "System that Provides and Produces Hot Water Immediately" is about establishing a system that prevents cold water from flowing in vain until hot water comes from kitchen, sink and shower taps in homes and workplaces, and obtaining hot water immediately. When this invention is examined, it is different from my invention. In particular, the pump must be placed under the heat source, the installation of a device in PPRC and/or steel pipe under the heat source requires an expert and requires labor and a cost, each battery line to be used must be by-passed, the system must be bypassed by the pump, by-pass. The most important parameters that distinguish my invention from this invention with application number 2017/02571 are that it consists of different products such as line and two-way valve and does not have a monolithic compact structure. In addition, my invention has an anti-scald system, is suitable for the use of disabled citizens, and has a domestic hot water heating system. It can be used in all kinds of environments thanks to its ability to work as an integrated circulation system and circulation aid, to be user-based, to be used in central individual heating and usage systems without storage, to be less costly and multi-functional, to kill harmful bacteria in the installation, and to have an outer casing that is resistant to moisture and water. It can be used, it works like a thermostatic valve and increases the comfort conditions by providing a constant water temperature desired by the user, it can be installed without causing any interruption even while the user is using the water in the installation, it can work as a system adapted to any system with a user-oriented changeable algorithm, it can operate with a button. The fact that the number can be increased in line with user demands, that warm water can be used by opening the hot water side of the battery even while the device is operating, and that communication via wireless and smart phones cannot be made, are the other most important parameters that distinguish my invention from this invention with application number 2017/02571. The invention titled "Cold Water By Pass Device" is about a water saving device that aims to prevent the waste of water coming from taps or batteries by draining it to waste until it is heated. When the device that is the subject of this application is examined, it is seen that the motor of the device specified in the description section is connected to the hot water tap between the device and the battery. It is integrated to reach the place where the connection will be made, this will cause a bad appearance in the area where the bathroom faucets are located, if the specified devices to be installed have cables (due to the slippery floor during the bathroom), it may cause safety risk problems such as tripping on these cables, the 3-way valve and its motor. Since it is very rough and takes up space, mounting it behind the faucet increases the distance of the bathroom faucet from the wall, narrows the bathroom area and creates an unusable situation for the user. My invention is that it keeps out all kinds of moisture and dust due to a protected outer casing in order not to pose a security risk in areas such as bathrooms. The fact that it can be placed on the wall or inside the sink cabinet through the tabs on its outer casing is the parameter that distinguishes, differentiates and brings innovation from this invention. In addition, the installation of the pump and check valve in the invention with application number 2017/03546 under the heat source (combi boiler) brings labor and cost, this system creates installation problems due to the lack of sufficient distance for the installation of the boiler and check valve in existing systems, and the system hardware (pump, motor, control) unit, etc.) are dispersed and not monolithic, communication cannot be made via wireless or smart phones, it can only be applied in combi boiler systems, and the other differences I mentioned in the purposes section are the most important parameters that distinguish, differentiate and bring innovation to my invention from the invention with application number 2017/03546. There are similar studies conducted around the world regarding the waste of water in the time it takes to heat water at the heat source. However, due to the innovations in my invention that are not in other inventions, the fact that the invention has a simple design, is user health and nature-friendly, works in harmony with smart building systems, can be used in different systems depending on the need, and other reasons mentioned in the purpose and description of the invention. The invention I designed puts it in a different position than these inventions. Purposes of the Invention The purpose of the invention: 1. When the battery (4) is turned on for hot water use, it provides water saving and energy saving by preventing the wasted flow of cold water or water that does not reach the desired temperature value during the time until the water with the desired temperature value flows. 2. My invention can be used by people in all income groups because it is very low-cost and multi-functional. Moreover, since it has very little volume, it can be used easily in homes with small square meters. In short, it spreads water saving to every segment of society. 3. It is possible to save water and energy without interfering with the heat source (l) ((without connecting a device (10) to the heat source (1) or a device (10) to the control system, etc.)). With wireless communication, there is no need to run any cables even to the farthest battery (4). Even though my invention works without communicating with the heat source (l), it uses the temperature information of the hot water coming from the heat source (l), and receives information that the set value of the hot water in the heat source (l) is high (if it is high) and a signal in the heat source (l). It is different and unique in that it notifies the user that there is a problem. 4. Harmful bacteria (legionella etc.) can live in hot water lines (2) or cold water lines (3) of plumbing with or without recirculation. These bacteria in hot water lines (2) where circulation is made through a third line (with recirculation) or where circulation is not made through a third line (non-recirculation) can be reduced, at least partially, by increasing the temperature of the heat source (l) by a conscious user. However, with the systems given above, especially for individual use, tankless gas heaters, etc. legionella etc. in cold water lines (3) in systems. Bacteria that are harmful to health can only be cleaned by washing the user's installation with liquids containing chemicals. This cleaning process is carried out by experts using special pressurized machines produced for this purpose. Experts recommend that this cleaning process be done more than once a year. This brings an additional cost to the user's budget. However, with my invention, even microscopic creatures that are harmful to health in cold water lines (3) are killed, the lines are cleaned and the user's health is protected. By reminding the user at regular intervals via the phone mobile application (15) and/or device (10), the user is prevented from forgetting to perform this cleaning. In this way, the use of chemicals that are harmful to health in these pipes for cleaning is prevented, thus protecting the user's health and nature, while also saving the user maintenance costs. It is 1-2 OC higher than the temperature value set by . In addition, if the user forgets the hot water usage temperature of the heat source (l) at high temperatures and/or sets it to high temperatures, it causes the user to burn his hand momentarily when the battery (4) is turned on, creating an uncomfortable use. With this invention, domestic hot water will be heated without raising it to high temperatures, thus saving both gas and energy. In this case, it will enable the user to use more comfortable water while using hot water. The invention is different in that the device (10) is simple, does not cause visual pollution and is compact. My invention is unique in that it can be integrated into the existing system without installing a new circulation line or requiring modification. The device (10) is different in that it does not have a large number of parts, and since the system does not operate under dynamic loads, it does not have any parts that require maintenance, and it is a device (10) that works on a plug-and-play basis and does not cause malfunctions in the long term. The outer casing (10c) protects the device (10) against moisture and water, allowing the device (10) to operate even in humid environments. Since its installation can be done even by the user, it does not require extra labor and cost. The device (10) does not reduce the comfort conditions of the user, as it can be used in the domestic hot water line (2) without closing the main shut-off valve (3a) in the cold water line (3) of the installation, and without preventing the use of water from other batteries (4) during the installation of the device (10). The fact that the algorithm in the circuit board (10d) can be changed in line with the user's demands makes it easier for it to adapt to today's developing systems, ensuring that the device (10) remains constantly up-to-date. The fact that the number of buttons (12) can be increased allows cold water to be used without wasting water in the intermediate batteries (4a) without changing the position of the existing device (10) or purchasing a second device (10). In this case, in addition to the intended water saving, meeting the changing user demands completely costs extra money. The device (10) stands out as a disabled-friendly product, as the system includes audio and visual warnings, allowing all features to be used by visually and hearing impaired individuals. Depending on the user's request, the device (10) can be mounted next to other batteries (4) in the installation and hot water can be used from these batteries (4). Thus, the user will be able to save water and energy from intermediate batteries (4a) by purchasing only a button (12) without changing the position of the device (10) or purchasing a second device (10). The user can use water by turning on the hot water side (2) of the battery (4) even when the device (10) is operating. When the user accidentally presses the button (12) or changes his mind and wants the device (10) to stop; By pressing the button (12) again, the circulation pump (10f) in the device can be stopped. This allows the user to control the system as he wishes in line with his instant demands, thus increasing energy saving and meeting the user's instantly changing demands. In addition, the user can use the hot water side of the battery (4) even when the device (10) is operating. The device (10) with or without tank; It can also be used in recirculation-non-recirculation, individual-central, domestic water systems or building heating systems. The device (10) can be integrated into the building heating system and can be used in building heating by providing circulation by working as a circulation pump supporter or circulation pump. In addition, it is solution-oriented in that it can be used where domestic hot water cannot reach and/or by mounting it on the hot water line (2) or cold water line (3) as a domestic water circulation pump. References Flow meter 2. Hot water line 3. Cold water line 3a. Main shut-off valve 4. Battery 4a. Intermediate battery. Coil hot water line 6. Coil cold water line 7. Intermediate tap 8. Device suction line 9. Device discharge line. Device 10a. Display screen 10b. Device on/off button and directional keys 10c. Device outer casing 10c. Heat sensor sensor data transfer cable 10d. Circuit board 10e. Heat-sensing sensor 10f. Circulation pump 10g. At least one cover that limits water passage or two valves that prevent the system from mixing. Device power cable 11. Battery and device connection apparatus and/or battery and device connection apparatus with temperature sensor 11a. Device connection port 11b. Battery connection port 12. Button 12a. Button connection and power supply cable 12b. Lighted warning indicator 12c. Bluetooth and/or Radio Frequency 13. Antenna 13a. Antenna input 14. Modem 14a. Wifi connection . Telephone mobile application Explanation of Figures Figure 1: This is the hot and cold water line operating diagram before connecting the device subject to the application. Figure 2: An example operating diagram of the system after the connection of the device subject to the application is made. Figure 3: The detailed front view of the operating scheme of the device subject to the application after the connection of the wireless button is made. Figure 4: The detailed front view of the operating scheme of the device subject to the application, after the wired button is connected. Figure 5: Cross-sectional view of the device subject to the application (in open view), working with a two-position proportional motor valve, battery with thermal sensor and device connection apparatus. Figure 6: Schematic view of the device subject to the application, managed by a smart mobile phone over a wireless connection. Figure 7: Front view of the device subject to the application. Figure 8: Front view of the device subject to the application (with two-position proportional motorized valve). Figure 9: Front cross-sectional view of the battery and device connection apparatus connection. Figure 10: Front sectional view of the connection of the battery with temperature sensor and device connection apparatus. Detailed Description of the Invention When the invention subject to the application is used in domestic hot water preparation systems, it is equipped with a device (10) that prevents the wasted flow of cold water and/or water that has not reached the desired temperature value until the temperature of the water flowing from the armature (4) reaches a certain value, and at the same time, this said device It is about a system with (10). The device (10) included in the system subject to the application; As shown in Figure 2, by placing at least one intermediate tap (7) at the farthest location from the heat source (l) on the installation or between the hot (2) and cold water lines (3) in the installation, the hot water line (2) and the cold water lines ( 3) It will act as a connection between. The device (10) consists of at least one circulation pump (10I) that circulates the cold water in the hot water line (2) during the heating of the water in the system and circulates the unheated water to the cold water line (3), protecting the device (10) against moisture, dust and all An outer casing (10c) that protects it from external influences against all kinds of impacts, at least one heat-sensing sensor (10e) that measures the temperature, at least one circuit card (10d) that commands and controls the device (10) with the algorithm inside, via the device (10). ) command, at least one display screen (10a) where numbers and values can be seen, at least one device on-off button and direction buttons (lOb) where data is entered for the device (10), from the cold water line (3) to the hot water line. (2) It includes at least one cover (10g) that limits water passage and/or a two-position proportional motorized valve (10g) that prevents the system from mixing. In addition to the mentioned device (10); The battery and device connection apparatus (l l) that enables the water coming from the hot (2) and cold (3) water installation to be distributed to the battery (4) and the device (10) and/or the temperature measurement and/or the battery and device connection apparatus with heat sensor sensor ( l l), at least one device suction line (8) and discharge line (9), which provide water inlet and outlet to the device (10), heat sensor sensor (10e) and/or the information received from the sensors (10e) to the electronic card (1 0d). It contains at least one heat-sensing sensor data transfer cable (10ç) that transmits and at least one electrical cable (th) that provides the electrical supply to the device (10). The said control system consists of a small circuit board (10d) that commands and controls the device (10) with the algorithm contained therein, and a circuit board (10d) that can be mounted on the antenna input (l3a) of the device (10) in line with the user's demands and increases the remote control distance. It contains the antenna (l3). The device (10) is controlled by the user's phone mobile application (l 5) via Wi-Fi connection (l4a) and modem (l4). At least one button (12) in the invention will be mounted at the point of use, in a location that is easily accessible by the user. The energy supply of the button (12) will be provided by the button connection and energy supply cable (12a) or battery. Communication between the button (12) and the device (10) will be provided via Bluetooth and/or Radio Frequency (12c) with at least one Bluetooth and/or radio frequency module within the button (12) and the circuit board (10d). In Figure 17, as an example, the wasted water is discussed in a system where a heat source (l) with a gas heater is used, where the installation of the invention is not made (does not contain a third recirculation line), and where instant hot water is used by the user. It shows the flow of water from the hot water line (2) and cold water lines (3) and its exit from the battery (4) during individual use. When no batteries (4) are initially opened, the system is in pressure equilibrium. When the hot water side of the battery (4) is opened by the user in Figure 17, the pressure in the hot water line (2) decreases. Meanwhile, the water in the cold water line (3) directs to the hot water line (2) where the pressure is low. The water is heated by the heat source (l) when the flow sensor (la) located at the entrance of the cold water line (3) within the heat source (l) detects sufficient flow rate (minimum 2 l/min). The heated water passes over the hot water line (2) and reaches the user from the battery (4). Meanwhile, in the time it takes for the hot water to flow from the battery (4) at the furthest line from the heat source (1), the cold water in the hot water line (2) and the water that has not reached the desired temperature value are wasted. Figure 27 shows the operating diagram of the device (10) subject to the application after it is connected to the system. The device (10) is mounted near the battery (4) lines furthest from the heat source (1) in order to benefit all batteries (4) in the installation with hot water line (2) connection from the heated hot water coming out of the heat source (1), as shown in Figure 27. has been shown. It can also be applied to other batteries (4) in the installation, depending on the user's request. Connection of the device (10) to the existing system; In an existing installation in Figure 17, the battery (4) is used by connecting the battery hot water line (5) and the battery cold water line (6) to an intermediate tap (7). The device (10) can be installed easily without closing the main shut-off valve (3a) in the cold water line (3) of the existing system and without preventing the user from using water from other batteries (4) during installation. For the connection of the device (10) to the installation, each of the battery hot water line (5) and battery cold water lines (6) are placed at the battery connection mouth (1 lb); Each of the device suction line (8) and device discharge lines (9) are mounted to the device connection ports (1a). All these processes can be installed by the user easily and without any help. As a result of the above processes, the device (10) combines the hot water line (2) and cold water lines (3). When the device (10) is operated by the user, the circulation pump (10f) inside the device (10) will circulate the unheated water in the hot water line (2) to the cold water line (3) at a minimum flow rate of 2 lt/min. Since the pressure on the suction side of the circulation pump (10f) ((hot water line (2)) is lower than the pressure on the side of the circulation pump (10f) discharge line ((cold water line (3)), the water circulating in the installation moves towards the heat source (l). The water circulating in the heat source (l) is heated by the heat source (l). The heated water passes over the hot water line (2) and reaches the circulation pump (10f). This process continues until the water reaches the temperature value determined by the user. At the end of a certain period of time, if the temperature of the water does not reach the temperature determined by the user, the circulation pump (10f) will stop and the device (10) will send error information to the user with an audible warning or via the phone mobile application (15). In this case, the user will not be able to detect the heat source (l). You will be informed that there is a problem. If the water reaches the temperature value determined by the user, the operation of the circulation pump (10f) will vary depending on the selected mode. The modes and the operation of the circulation pump (10f) depending on the modes and the progress of the system are explained below; 1. If a constant supply of hot water is required in the installation; operating mode between at least one determined temperature value via the device (10) or phone mobile application (15); For example; Minimum and maximum temperature set values will be entered into the device (10) using the on-off button and directional buttons (1 Gb) on the device (1 0) or via the phone mobile application (15). The device (10) will instantly measure the temperature of the water in the hot water line (2) with the heat sensor sensor (10e) and this data will be processed with an algorithm on the control card (10d). If the temperature of the water in the hot water line (2) drops to the set minimum temperature value, the control card (10d) will operate the circulation pump (10f). When the temperature value reaches the maximum set value, the circulation pump (10f) will stop. This system can be used in individual or central hot water preparation systems, both with and without a tank, if instant hot water is required in the hot water line (2). . The operating mode of at least one installation hot water between the set temperature values according to at least one program determined on certain days and hours by making timed over the device (10) and/or from the phone mobile application (15); For example; You can set the desired time by using the on/off button and directional buttons (10b) on the device (10) or by using options such as minimum and maximum temperature set values and certain days of the week and hours on which you want the circulation pump (10f) to operate, via the phone mobile application (15). The circulation pump (10f) can be operated between The circulation pump (10f) in the device (10) will instantly measure the temperature of the water in the hot water line (2) with the heat sensor sensor (10e) and this data will be processed with the algorithm on the control card. The circulation pump (10f) will be started or stopped between the minimum and maximum temperatures determined by the user. This system can be used in individual or central hot water preparation systems, both with and without a tank, if instant hot water is required in the hot water line (2). . Activation feature mode with a button (12) in the invention; When the user presses the button (12), the circulation pump (10f) will be activated, thanks to the algorithm in the control card (10d) inside the device (10). Meanwhile, the passive lighted warning indicator (12b) on the button (12) will start flashing and inform the user that the circulation pump (10f) is working. By the user using the on/off button and directional buttons (10b) on the device (10) and/or via the mobile phone application (15), the circulation pump (10f) will operate at the temperature predetermined by the user. When the water reaches the temperature desired by the user, the circulation pump (10f) will stop and the lighted warning indicator (12b) located on the button (12) will change color and illuminate in a fixed color for a certain period of time. The circulation pump (10f) will not operate until the next time the button (12) is pressed by the user. In addition, if requested by the user, the audible warning located inside the device (10), which has the feature of being activated/deactivated, will operate. The number of buttons (12) can be increased depending on the user's request. More than one button (12) can be used at the same time in an installation. Depending on the user's request, hot water can be used from these intermediate batteries (4a) by mounting them next to other usage areas in the installation. Thus, the user will be able to benefit from the intermediate batteries (4a) for hot water by purchasing only a button (12) without changing the position of the device (10) or purchasing a second device (10). The visual and audio warnings mentioned above will inform the user that the water has reached the desired water temperature. If the user accidentally presses the button (12) and/or changes his mind and wants the device (10) to stop, he can stop the circulation pump (10f) inside the device (10) by pressing the button (12) again. In this case, the visual warning on the button (12) will also end. The user can use the device (10) by turning on the hot water side of the battery (4) even while it is operating. This enables the user to save energy by allowing him to control the system as he wishes in line with instant demands. At the same time, a system that our disabled citizens with visual impairment and/or hearing impairment can benefit from is aimed. . Disinfection mode: Legionella bacteria is a bacterium that is harmful to human health and can be found at temperature values where the water temperature is between 20°C and 50°C. Legionella bacteria escape from city water treatment systems and multiply rapidly in the pipes of our plumbing systems (in still water) at water temperatures between 25°C and 45°C. These bacteria can be incubated in hot domestic water at 50 °C for 2 hours; 2 min at 60 °C. dies inside. In systems with existing recirculation (where a 3rd line is drawn and the water is circulated), bacteria in the hot water line (2) and the recirculation line can be removed by the user by removing the hot water to the temperatures specified above. However, in hot water systems with and without recirculation, since the temperature in the cold water line (3) cannot be increased, these and similar harmful creatures (bacteria, viruses, etc.) cannot be killed in the cold water lines (2). The device (10) in my invention will prevent the user from forgetting this situation by reminding the user about bacteria protection at regular intervals through the mobile application (l5) and/or the display screen (10a) on both lines mentioned above (with/without recirculation). The user increases the hot water temperature over the heat source (l) at the temperatures specified above, at times determined by the user. The circulation pump (10f) is operated by the user using the on-off button and directional buttons (10b) on the device (10) and/or via the mobile phone application (15). By constantly measuring the temperatures in the circuit with the algorithm on the device (10) circuit board (10d), the device (10) determines the most appropriate time for disinfection protection by making the necessary interpolation calculations with its own algorithm and stops the circulation pump (10f) at the end of the process. When the process is completed, the user will be notified via the device (10) and/or mobile phone application (15). At the end of this process, hot water lines (2), cold water lines (3) and systems ((heat source (l) etc.)) will be cleaned of this bacteria. . Anti-scalding and comfort mode: For example; In systems where hot water is obtained without recirculation with gas heaters, during the first heating of the water at the heat source (l), the first water that reaches the mouth of the battery (4) is 1-2 OC higher than the temperature value set by the user. In addition, as a result of the user forgetting the hot water usage temperature of the heat source (l) at high temperatures or setting it to high temperatures, when the user turns on the battery (4), it causes the user to burn his hand momentarily, creating an uncomfortable use. In line with user demands, the operation of the system, the two-position proportional motorized valve (10g) that prevents the system from mixing, and the temperature-sensing sensitive battery and device connection apparatus (ll) are shown, as shown in Figure 5. The scald prevention and comfort mode will work integrated with the active feature mode with a button (12) mentioned in mode number 3 above. When the circulation pump (10f) stops, the illuminated warning indicator (12b) on the button (12) will turn on. When the user turns on the hot water side of the battery (4); The battery connection port (llb), the device connection port (lla) and the heat sensor sensors (10e) inside the device (10) will measure the temperature instantly. This temperature information will be transferred to the control card (1 0d) via the temperature sensor sensor data transfer cable (1 Three). This information will be evaluated in the algorithm in the control card (10d) and the opening of the two-position proportional motorized valve (10g) will be changed with the signal coming from the control card (10d). The user will control the two-position proportional motorized valve (10g) with the control card (10d) to ensure the temperature previously determined by the user, using the on-off button and directional buttons (10b) on the device (10) and/or via the phone mobile application (15). . Cold water with high pressure passes over the device discharge line (9), device (10) and device suction line (8), mixes with hot water in the appropriate ratio in the heat sensor battery10 and device connection apparatus (1 l) and flows into the hot water line (5). It will flow from the battery (4). If the user opens the cold water side of the battery (4); The pressure drops suddenly on the cold water side of the battery (4). This will cause the water in the hot water line (2) to direct to the cold water line (3). The temperature of this water directed to the cold water line (3) will be instantly measured by the device connection port (11a) and the heat sensor sensors (10e) in the device (10). This temperature information will be transferred to the control card (10d) via the heat sensor sensor data transfer cable (10ç). This information will be evaluated in the algorithm in the control card (lOd). As the temperature information of the heat sensor sensor (10e) inside the device (10) gradually increases, the two-position proportional motorized valve (10g) will move to the closed position and cut off the flow. Likewise, in case the opposite of the situation described above occurs; While the hot water is turned on in the intermediate coils (4a) on the installation and the water in the cold water line (3) is directed to the hot water line (2), the device connection port (1a) and the heat sensor sensors (10e) in the device will instantly measure the temperature. This temperature information will be transferred to the control card (10d) via the heat sensor sensor data transfer cable (10ç). This information will be evaluated in the algorithm in the control card (lOd). As the temperature information of the device connection port (1a) and the heat sensor sensors (10e) inside the device (10) gradually decreases, the two-position proportional motorized valve (10g) will move to the closed position and cut off the flow. Depending on the user's wishes in the operating modes given above, the device (l) can be operated by changing the algorithm in the control card (lOd) and by defining user-specific operating scenarios and modes. The device (10) will be operated in the desired mode by the user from the operating modes explained above. When the process is completed, the user will be notified with a warning via the device (10) and/or mobile phone application (15). If there is a large difference between water temperatures, the user will be notified with an audible warning in the active/deactivable device control card (lOd) and/or a warning in the mobile phone application (15). In this case, the user will understand that the domestic hot water temperature is high and will reduce the temperature value determined for the preparation of domestic hot water via the heat source (l). By heating the domestic hot water without raising it to high temperatures, it will save both gas and energy. In this case, it will enable the user to use more comfortable water while using hot water. My device in question (10) is with or without storage; It can also be used in recirculation-non-recirculation, individual-central, domestic water systems or building heating systems. In some buildings, the pumps in the heating or domestic water systems may be selected incorrectly (with sufficient flow rate and pressure), the pipe diameters in the lines may not be designed correctly, and due to the high losses in the lines, water at sufficient temperature cannot be obtained from the batteries in the farthest line of domestic water, or sufficient heating cannot be provided from heat transmitters such as radiators. In order to solve the problems mentioned above, the device (10) can be integrated into the building heating system and provides circulation by working as a circulation pump supporter or circulation pump, that is, it can also be used in building heating in the modes explained above. It can also be used where domestic hot water does not reach and/or as a domestic water circulation pump by mounting it on the hot water line (2) or cold water line (3). Thanks to the invention subject to the application, users will be able to access hot water at the desired temperature whenever they want, without wasting the water. In this way, water and energy savings will be achieved by preventing water from being wasted while waiting for the hot water to flow. The way the invention is applied to industry. The fact that the number of parts in my invention is low and there is no complex part, the materials and elements of this invention are made of thermoplastic, metal materials, injection, machining and/or molded, etc., which are frequently used in the devices we use in our daily lives. Since it consists of parts and materials produced using different methods, it can be mass-produced. I want to be beneficial to my Country, Homeland and Nation by producing my invention with the simple production methods given above, by supporting applicable inventions for this type of industry in terms of decreasing water resources in our country. TR TR

Claims (3)

1. It is a device (10) with multiple operating modes that circulates water until it reaches the desired temperature and prevents the water from flowing in vain. Its feature includes at least one circulation pump (10I) that circulates the water, and at least one temperature sensor that measures the temperature in the hot water line. sensor (10e), at least one circuit board (10d), at least one display screen (10a) where numbers and values can be seen regarding the command of the device (10), at least one cover that limits water passage ( 10g) and/or a two-position proportional motor valve (10g) that prevents the system from mixing, at least one device suction line (8) that provides 0 water inlet, at least one device outlet line (9) that provides 0 water output, hot water line. (2) and the battery and device connection apparatus (l l), which enables the water coming from the cold water line (3) installation to be distributed to the battery (4) and the device (10) and/or the temperature to be measured, and/or the battery and device connection apparatus with heat sensor (l l). ), at least one on/off button and direction keys (lOb) to which the overflow is accessed, an outer casing (10c) that protects it from external influences against dirt, dust and all kinds of impacts, and at least one that operates the circulation pump (lOI) without wasting water. It is characterized by containing 12 buttons. 2. It is a device (10) mentioned in claim 17 and its feature is; The said circuit board (10d) contains the algorithm that commands and controls the system in accordance with the different operating modes determined by the user (anti-scaling and comfort mode, disinfection mode, the feature of being activated with a button (12) in the invention, etc.), that at least one It is characterized by containing 1 Wifi and/or Bluetooth and/or radio transmission module. 3. It is a device (10) mentioned in claim 17 and its feature is; the said button (12), o the connection and energy supply cable (12a) or battery that will provide the energy supply, o the Bluetooth and/or radio frequency module that will allow the user to control the system remotely, o the lighted warning indicator (which informs that the circulation pump (10I) is working. It is characterized by containing 12b).