TR2024009778U5 - INDUCTION TEA MACHINE - Google Patents

Abstract

The invention relates to an induction tea machine that has the features of remote control of the tea machine, inputting the brew rate to be filled into the cup, automatic filling of water into the brew chamber and heating of water by induction.

Description

DESCRIPTION INDUCTION TEA MAKER Technical Field to Which the Invention Relates The invention relates to an induction tea maker that features remote control of the tea maker, input of the brewing rate to be poured into the cup, filling of water into the brewing chamber, and heating of water via induction. State of the Art A tea maker is a household appliance, usually powered by electricity, designed to facilitate tea making. It essentially enables tea brewing by heating water and allowing the tea leaves or tea bag to come into contact with the water. A tea maker generally includes a water reservoir, a heating element, a teapot or tea container, and sometimes a timer or adjustable temperature controls. The operating principle of a tea maker is generally as follows: The user fills the water reservoir and turns on the machine. The machine heats the water to a specific temperature. Some models allow for adjustable water temperature, allowing different temperature levels to be selected for different tea types. The heated water typically comes into contact with the tea leaves or tea bags inside the teapot, allowing the tea to steep. At the end of the steeping period, the tea maker typically automatically stops or maintains the temperature, keeping the tea fresh. Tea makers make tea making quick and convenient, while preserving the tea's aroma and flavor, providing convenience for users. There are many electronic tea brewing machines. These machines typically boil water using a resistance element. The boiled water is then transferred to the teapot chamber, which is then infused manually, via a pump, or valve. Because the resistance element comes into direct contact with the water, this poses a safety concern. Because the resistance element is in direct contact with the water, calcification is very rapid, leading to hygiene problems and loss of flavor. Resistances operating at constant high temperatures can deteriorate very quickly, resulting in the need for frequent new machine purchases or maintenance. Application number TR2017/16519, which is included in the state of the art, concerns the induction heating of hot water for hot beverage preparation. However, this application lacks the components and operation of a complete machine. It lacks a mains connection for water filling, water transfer to the different reservoirs, or a sensor for measuring the temperature of the heated or boiling water. Hot beverages require the water to reach a specific temperature. This application lacks a microprocessor, and therefore lacks a control system. Application number CN208598168, which is included in the state of the art, concerns an automatic tea-making machine consisting of induction-type lines. Application number CN208598168 states that tea is brewed in a single chamber and only once. It is not suitable for mass consumption areas. For continuous tea to be ready to drink, it requires at least two brewing chambers. There is no timer-controlled automatic brewing feature. The brewed tea is poured into a cup. Water cannot be refilled to adjust the tea strength. This demonstrates that the machine is not user-friendly. Therefore, to meet the high-capacity tea needs in mass consumption areas such as hotels, dining halls, and cafes, it is crucial to develop a tea machine with multiple brewing chambers, an alarm for instant tea brewing, and microprocessor control. Brief Description and Objectives of the Invention The invention relates to an induction tea maker that features remote control of the tea maker, input of the brewing rate to be poured into the cup, automatic filling of water into the brewing chamber, and induction heating of water. One purpose of the invention is to enable continuous tea brewing using temperature sensors and water level sensors. Another purpose of the invention is to enable tea to be filled into cups automatically by hot water motors, and to enable dosing by filling each cup with separate tea and water. Another purpose of the invention is to enable automatic tea brewing at the desired time by setting a timer. Another purpose of the invention is to enable low-energy water boiling using induction heating. Another purpose of the invention is to automatically send water to the teapot according to the amount of dry tea put into the teapot. Another purpose of the invention is to provide automatic water filling with mains water and a water level sensor. Explanation of the Figures Figure 1. Drawing showing the internal front view of the tea machine which is the subject of the invention. Figure 2. Drawing showing the front view of the tea machine which is the subject of the invention. Figure 3. Drawing showing the internal side view of the tea machine which is the subject of the invention. Explanation of the References in the Figures 1. Motor for filling hot water from the water reservoir to the first cup reservoir 2. Motor for filling hot water from the water reservoir to the second cup reservoir 3. Motor that transfers hot water from the hot water reservoir to the first brew chamber 4. Motor that transfers hot water from the hot water reservoir to the second brew chamber. Brew filling motor from first brew chamber to first cup chamber 6. Brew filling motor from first brew chamber to second cup chamber 7. Brew filling motor from second brew chamber to first cup chamber 8. Brew filling motor from second brew chamber to second cup chamber 9. Cooling fan. Induction circuit 11. Induction coil 12. Valve 13. First tea brew chamber liquid level sensor Water chamber First tea brew chamber First tea sieve chamber Water chamber water level sensor Temperature sensor Circuit board Solenoid Valve Cover of removable first tea sieve chamber Cover of removable second tea sieve chamber Machine Body . Waste water drain chamber Second glass filling chamber First glass filling chamber First glass filling chamber water filling pipe First glass brewing pipe from the first brewing chamber Second glass pouring chamber water filling pipe Second glass brewing pipe from the second brewing chamber Second tea brewing chamber Second tea sieve chamber Second tea brewing chamber liquid level sensor Safety valve First glass brewing pipe from the second brewing chamber 37. Second glass brewing pipe from the first brewing chamber Detailed Description of the Invention The invention relates to an induction tea machine having the features of remotely controlling the tea machine, entering the brewing rate to be filled into the cup, filling water into the brewing chamber and heating the water by induction. The valve (12), used to automatically fill the water tank from the mains line, is used to fill the water tank (14) for boiling. The water tank is filled up to the water level sensor (17), and the valve (12) is closed to prevent further filling. The induction circuit (10) used for boiling water is activated by trigger data from the microprocessor-based circuit board (19). The induction circuit transmits the energy it generates to the induction coil (11). The induction coil (11) heats the hot water tank (14). Heat is transferred to the water contained within the ferromagnetic stainless metal, causing the water to boil quickly. The temperature sensor (18) detects the temperature and boiling state of the water. The solenoid valve (20) is activated simultaneously to reduce the steam pressure generated by the boiling water in the closed container, balancing the pressure. If the valve fails to activate, the safety valve (35) is activated as a safety precaution to balance the pressure. The cooling fan (9) operates simultaneously with the induction circuit (10) to remove any heat and steam that may develop in the induction circuit. A display (23) is located on the machine body (24). Through this display (23), users can select the teapot containing dry tea and the tea to be brewed. The dry tea is placed in the first tea sieve chamber (16) or the second tea sieve chamber (33). The teapots are closed using the lid of the removable first tea sieve chamber (21) or the lid of the removable second tea sieve chamber (22), which are the lids of the teapots used to hold the tea. The boiled water is transferred to the teapot selected by the user on the screen by the motor (3) that transfers hot water from the hot water chamber to the first teapot, and by the motor (4) that transfers hot water from the hot water chamber to the second teapot. When the water level sensor (17) detects that the water level in the water chamber is low, the mains valve (12) operates to open the water level sensor (17) and fill the water. The induction circuit (10) operates again until the tea in the brewing chamber is brewed, and the water is boiled very quickly. The tea brewing chamber (15), the second tea brewing chamber (32), and the hot water chamber (14) are ready for tea. When users place a glass in the first cup holder (27) and select the compartment and size of the cup on the screen (23), the brewing motor (5) from the first to the first cup holder, or the brewing motor (7) from the second to the first cup holder, operates, filling the cup with the amount of brewing water selected by the user on the screen (23). The hot water filling motor (1) from the water chamber to the first cup holder operates, filling the remaining cup with boiled water. When users place a glass in the second cup holder (26) and select the desired cup size and compartment on the screen (23), the brew filling motor (6) from the first to the second cup holder, or the brew filling motor (8) from the second to the second cup holder, operates to fill the cup with the desired amount of brew. The hot water filling motor (2) from the water chamber to the second cup holder operates to fill the remaining cup with boiled water. The liquid level sensor (13) for the first tea brew holder and the liquid level sensor (34) for the second tea brew holder, located in the brew holders, notify users on the screen that there is no more brew in the teapot and that fresh dry tea should be added and brewed. In the invention, the first glass is filled from the second brew chamber through the brew filling pipe (36) or the first glass is filled from the first brew chamber through the brew filling pipe (29). While the brew is being filled into the glass in the first glass chamber (27), hot water is filled from the water filling pipe (28) of the first glass chamber. The water filling pipe (28) of the first glass chamber is connected to the hot water filling motor (1) from the water chamber to the first glass chamber. The brew filling pipe (36) from the first brew chamber to the brew filling motor (5) and the brew filling pipe (29) from the first glass chamber to the brew filling motor (7) from the second brew chamber to the first glass chamber. While the second glass is being filled from the first brew chamber via the brew filling pipe (37) or from the second brew chamber via the brew filling pipe (31) into the glass located in the second glass chamber (26), hot water is filled from the second glass chamber via the water filling pipe (30). The water filling pipe (30) of the second glass chamber is connected from the water chamber to the hot water filling motor (2) from the second glass chamber. The second glass is being connected from the first brew chamber via the brew filling pipe (37) from the first brew chamber to the second glass chamber via the brew filling motor (6), and the second glass is being connected from the second brew chamber via the brew filling pipe (31) from the second brew chamber to the brew filling motor (8). The waste water drain chamber (25) and all its parts are located in the machine body (24) to prevent tea spillage by users, either directly or indirectly. The machine's printed circuit board (19) is the main board controlling the entire system and is connected to the machine body (24). All electronic motors, sensors, and sensors are connected to the circuit board (19). In the preferred embodiment of the invention, the tea machine is connected to the mains or a demijohn, depending on the location or customer preference, to automatically fill the machine with water. Water filling is completed according to the setting of the water level sensor in the water reservoir. The induction circuit operates actively, boiling the water until the temperature sensor in the water reservoir indicates the boiling point. After the water boils, the water is filled from the water reservoir by the motor, depending on the number of people desired by the user, and the tea is brewed. Water exceeding the level sensor in the tea reservoir is not sent to the brew reservoir. The system automatically adjusts the brewing time for the specified number of people. Tea can be drawn from the system after a pre-set waiting time has elapsed. The number of motors connected to the tea and brewing chambers creates a cup holder on the machine. After placing a cup in the cup holder, the customer enters the amount of water and brew to be poured into each chamber on the screen. The information entered on the screen is sent to the circuit board. The circuit board then operates the corresponding motor in the water and tea chambers based on the selected dosage, time-based. Customers can adjust the dosage on the screen and also select the cup size. By selecting the desired amount of water and brew for each cup size, the machine serves tea according to their taste. Customers can set a timer for brewing tea on the machine's screen, allowing them to set specific times each day. To prevent the efficiency of the induction circuit from decreasing, the fan is operated in a way that it can see the induction circuit. TR TR TR TR TR TR TR TR TR TR