TR201615946A1 - INDUCTION HEATER - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention provides a top plate (3) made of material such as glass or ceramic, a plurality of induction coils (2), placed underneath the top plate (3), for heating the ferromagnetic cookware (2), which is placed on it by the magnetic field formed, of induction coils (2). at least one electronic board (4) for energizing, a plurality of switching elements (5) connected to the electronic board (4) and carrying electrical current, heating by the effect of the current it carries, and at least one heat distributor (6) for cooling the switching elements (5). ) and an induction heater (1).

Description

DESCRIPTION OVEN WITH AN INDUCTION HEATER This invention relates to a cooktop with an induction heater, which is provided for safe operation. A ferromagnetic cooktop, such as cast iron or steel, is an induction hob. your cabin. effect of the magnetic field created by the induction coil. It works according to the principle of heating. The heat required for cooking. on the stove It is not produced in gas or electric combustibles, but directly in the cooking cabinet. Since it is produced, the energy efficiency of induction heater hobs is quite high.

Electronic board for driving magnetic field generating induction coils such as IGBT (Insulated Gate Bipolar Transistor) and diode bridge on large amount of electric current through electronic switching elements being passed, and therefore the mentioned switching elements are extremely is warming up. For the safe operation of the switching elements An effective cooling system is needed. To ensure that the induction heater stove works in safe conditions The temperature of the switching elements must be kept under control.

When the switching elements reach the critical temperature defined by the manufacturer The current passed over it is interrupted by the control unit.

European patent numbered EP1936283 in the state of the art In the application, the heat spreader should cover at least a part of the heat spreader. switching elements of a part of the cold air placed on the a cooking appliance containing a router to direct is defined.

The aim of this invention is to provide a safe operation by providing effective cooling. is the realization of the induction heater stove.

The first request and dependent on this request, carried out in order to achieve the purpose of the invention. The induction heater hob as defined in the claims, such as glass or ceramic a worktop made of material, placed under the worktop, of the ferromagnetic cooking cabinet placed on it with a magnetic field. multiple induction coils that provide heating, induction at least one electronic card, electronic connected to the card and carrying an electric current, suddenly being heated by the effect of the current it carries. cooling of a large number of switching elements and switching elements It includes at least one heat spreader that provides

The subject of the invention is the induction heater cooker, - a refrigerant line in the heat sink, - refrigerant by compressing the refrigerant, one end of which is connected to the refrigerant line a pump that circulates through the line and - The refrigerant, which is heated by passing through the refrigerant line, is cooled and transferred to the pump. a fan group, which includes at least one fan, It includes a cooling system. Pump preferably of the solenoid type The refrigerant transmitted to the cooling line by the while it draws heat from the switching elements and thus switching It provides cooling of the elements. Warm up after leaving the heat sink The refrigerant is carried to the fan group with the refrigerant line, After it is cooled again, it is transmitted to the pump. Preferably in the fan group refrigerant line through multiple bends It is cooled effectively by the fan group and transported to the pump.

In one embodiment of the invention, the cooling system is - One end connected to the pump, extending parallel to the switching elements a small inlet refrigerant pipe and - The one end of which is connected to the fan group, extending parallel to the inlet refrigerant pipe. It includes a refrigerant line with a small return refrigerant pipe. Electronic card Each of the switching elements placed side by side on the at a distance predetermined by the manufacturer between The inlet refrigerant pipe, which is placed and made of high thermal conductivity material, Effective heat transfer between the refrigerant and the switching elements enables its realization. Heat from switching elements heat transfer between the refrigerant, the switching elements and the drawing-heated refrigerant position away from the switching elements in such a way as to prevent rotation It is transferred to the fan group by passing through the refrigerant pipe. find one In its application, the hob with induction heater is located on both sides of the heat distributor. switching elements, where the switching elements of the heat sink are located the two inlet refrigerant pipes and the inlet refrigerant piping It contains two return refrigerant pipes extending between

In another embodiment of the invention, the hob with an induction heater is above the heat distributor. A temperature sensor located in the room measures the temperature value measured by the temperature sensor. by comparing with the limit temperature value predetermined by the manufacturer. that controls the activation or deactivation of the cooling system. includes a control unit. Temperature with preferably NTC or PCT sensor control unit via sensor during the operation of the induction heater hob It controls the temperature of the switching elements.

In another embodiment of the invention, the control unit is controlled by the temperature sensor. If the measured temperature value is higher than the limit temperature value, turn off the pump and the fan. It enables the cooling system to be activated by operating the group. When the measured temperature value exceeds the limit temperature value, the switching induction elements and switching elements It is detected that the coils are overheated. Switching elements and To prevent the induction coils from being switched off as a result of overheating For this purpose, the control unit activates the cooling system and pumps and the fan. runs the group. Thus, switching elements and induction Uninterrupted operation of the induction heater hob by preventing the coils from being switched off. It is ensured that the stove with induction heater is operated in this way. performance is improved.

In another embodiment of the invention, the control unit is controlled by the temperature sensor. It enables the fan speed to be changed according to the measured temperature value. Control switching unit by comparing the measured temperature value with the limit temperature value It evaluates the cooling need of the elements. With the measured temperature value The greater the difference between the limit temperature value, the greater the control unit fan speed. increases, so that the refrigerant in the refrigerant line is cooled better, limit temperature value of switching elements by means of cooling system It is provided to cool the bottom in a shorter time.

In another embodiment of the invention, the control unit is controlled by the temperature sensor. the measured temperature value is the limit temperature predetermined by the manufacturer value of the cooling system by stopping the pump and fan group. ensures its deactivation. Measured temperature value limit temperature when it is below the value, at the safe temperature value of the induction heater hob operation is provided. Therefore, the measured temperature value is the limit temperature. When the value falls below the control unit, the pump and fan group are stopped. It disables the cooling system. Thus, the cooling system needs In case of absence, operation is prevented, the use of the cooling system lifespan is improved.

With this invention, it is possible to make the switching elements effective by using liquid refrigerant. A hob with an induction heater, which is cooled is carried out.

In order to achieve the aim of this invention, the induction heater hob is attached. shown in the figures, from these figures; Figure 1 - Perspective view of an induction heater stove.

Figure 2 - Schematic of an induction heater furnace in an embodiment of the invention is the view.

Figure 3 - is a schematic view of the cooling system in one embodiment of the invention.

Figure 4 - Perspective of an induction heater stove in an embodiment of the invention is the view.

Figure 5 - is a perspective view of the cooling system in an embodiment of the invention.

The parts in the figures are numbered one by one and the corresponding numbers are given below.

Cooker with induction heater induction coil Top plate Electronic card switching element So gutkan hat fan group . Cooling system . Inlet refrigerant pipe . Outlet refrigerant pipe . temperature sensor . Control unit The hob with induction heater (1) is a top made of material such as glass or ceramic. The table (3) is placed under the upper table (3) with the magnetic field it creates. a device that provides heating of the ferromagnetic cooking cabinet placed a large number of induction coils (2), induction coils (2) at least one electronic card (4), which enables its energizing, to the electronic card (4) connected and carrying electric current, heated by the effect of the current it carries. a number of switching elements (5) and cooling of the switching elements (5) It includes at least one heat distributor (6) that provides Switching elements (S) high carrying an electrical current of high value, overheated by the effect of the current, preferably elements (Figure 1 and Figure 2).

The subject of the invention is the induction heater cooker (l), - a refrigerant line (7) located in the heat distributor (6), - by compressing the refrigerant, one end of which is connected to the refrigerant line (7) a pump (8) that circulates the refrigerant line (7) and - the refrigerant heated by passing through the refrigerant line (7), at least one fan group (9) inside, which provides the transmission to the pump (8), and a cooling system (10). Refrigerant by the pump (8) The refrigerant delivered to the line (7) is close to the switching elements (5). It is carried along the refrigerant line (7) positioned so that the refrigerant Thanks to the heat transfer between the line (7) and the switching elements (5) cooling of the switching elements (5) is provided. Refrigerant line (7) The refrigerant, which moves along with heating, is transmitted to the fan group (9), the fan group (9) after it is cooled again, it is moved to the pump (8) and re-cooled. It is transmitted to the refrigerant line (7). Thus, the switching elements (5) Effective cooling is provided by the closed loop cooling system (10). (Figure 3 and Figure 5).

In one embodiment of the invention, the cooling system (10), - Parallel to the switching elements (5), one end of which is connected to the pump (8) extending to at least one inlet refrigerant pipe (11) and - Parallel to the inlet refrigerant pipe (11), one end of which is connected to the fan assembly (9) refrigerant line (7) having at least one outlet refrigerant pipe (12) extending contains. Allows heat transfer between the switching elements (S) and carried along the inlet refrigerant pipe (11) positioned at a distance to provide refrigerant, switching by removing heat from the switching elements (5) It provides cooling of the elements (5). In inlet refrigerant pipe (11) heated refrigerant, outlet running parallel to the inlet refrigerant pipe (11) It is transmitted to the refrigerant pipe (12) and the outlet is passed through the refrigerant pipe (12). It is carried to the fan group (9). In this application, the inlet refrigerant pipe (11), between the switching elements (5) and the outlet refrigerant pipe (12) positioned, thus switching heat transfer between the elements (5) and the outlet refrigerant pipe (12) is avoided. Thus, after heating in the inlet refrigerant pipe (11), the outlet Switching elements (5) of the refrigerant transmitted to the refrigerant pipe (12) heating is prevented (Figure 5).

In another embodiment of the invention, the hob (1) with the induction heater, the heat distributor (6) a temperature sensor (13) located on the the measured temperature value (Tind) is the limit temperature predetermined by the manufacturer. commissioning the cooling system (10) by comparing the value (All) or a control unit (14) controlling its deactivation. Control unit (14) by means of the temperature sensor (13) located on the heat distributor (6). it detects the temperature of the switching elements (5). Control unit (14) by comparing the measured temperature value (Tind) with the limit temperature value (All), It detects the cooling need of the switching elements (5) and enable and disable the cooling system (10) according to its needs. controls (Figure 4 and Figure 5).

In another embodiment of the invention, the control unit (14), the temperature sensor (13) The temperature value measured by (Tind) is higher than the limit temperature value (All) on the other hand, the cooling system (10) is activated by operating the pump (8) and the fan group (9). ensures its receipt. The limit temperature of the measured temperature value (Tind) If the value exceeds (All), the cooling system (10) is started, this In this way, the switching elements (5) are prevented from being damaged by overheating.

In another embodiment of the invention, the control unit (14), the temperature sensor (13) change the fan speed (Vfan) according to the temperature value (Tina) measured by it provides. In this application, certain controls are given to the control unit (14) by the manufacturer. different fan speeds (Vfan) corresponding to temperature ranges is defined. Measured by the control unit (14) temperature sensor (13) temperature value (Timi) with predefined temperature value ranges. of the fan speed (Vfan) corresponding to the temperature value (Tina) measured by comparison and the fan assembly (9) with the detected fan speed (Vfan) makes it work. As the measured temperature value (Tind) increases, the fan speed increases. (Vran) is also increased, thus, through the fan group (9) of the refrigerant. effectively cooled. In this way, the cooling system (10) The cooling performance is improved, the switching elements (5) are overloaded. Safe working conditions for the user by preventing overheating is created.

In another embodiment of the invention, the control unit (14), the temperature sensor (13) temperature value measured by the manufacturer (Tina) is the limit predetermined by the manufacturer If the temperature is lower than (All), by stopping the pump (8) and the fan group (9) It ensures that the cooling system (10) is deactivated. Measures temperature when the value (Tind) falls below the limit temperature value (All), the control unit (14) cooling by detecting that the switching elements (5) do not need cooling deactivates the system (10). Thus, the cooling system (10) Energy consumption of the hob (1) with induction heater by preventing it from being operated as is avoided.

In the induction heater stove (1), which is the subject of the invention, it is controlled by the control unit (14). carried out; - By means of the temperature sensor (13), the switching elements (5) measuring the temperature, - With the limit temperature value (All) of the measured temperature value (Timi) comparison, - If the measured temperature value (Tind) is greater than the limit temperature value (All), operating the pump (8) and the fan group (9), - The measured temperature value (Tind) is 'predetermined' by the manufacturer. comparison with temperature ranges, - Fan corresponding to the detected temperature range of the fan group (9) - Measures temperature value (Timi) below the limit temperature value (All) stopping the pump (8) and the fan group (9) when it falls, active control of the switching elements (5) with a control method cooling is provided.

In the induction heater stove (1), which is the subject of the invention, the switching elements (5) effectively through the refrigerant carried in the cooling system (10) cooling is provided. Thus, the excess of the switching elements (5) It is safer for the user on the hob with induction heater (1) by preventing overheating. Terms of use are created.

Claims (1)

REQUESTS . A worktop (3) made of a material such as glass or ceramic, multiple induction coils (2) placed under the top plate (3), providing the heating of the ferromagnetic cooking cabinet placed on it with the magnetic field it creates, and the most energizing of the induction coils (2). at least one electronic card (4), more than one switching element (5) connected to the electronic card (4) and carrying electric current, heated by the effect of the current it carries, and at least one heat distributor (6) that provides cooling of the switching elements (5) - heat a refrigerant line (7) located in the distributor (6), - a pump (8) that is connected to the refrigerant line (7) at one end, which enables the refrigerant to be circulated in the refrigerant line (7) by being compressed, and - the refrigerant flowing through the refrigerant line (7) with an induction heater, characterized by a cooling system (10) with a fan assembly (9), which allows cooling to be transmitted to the pump (8) - One end is connected to the pump (8). It has at least one inlet refrigerant pipe (11) connected, running parallel to the switching elements (5), and - at least one outlet refrigerant pipe (12), one end of which is connected to the fan assembly (9), running parallel to the inlet refrigerant pipe (11). A . A temperature sensor (13) located on the heat distributor (6) controls the activation or deactivation of the cooling system (10) by comparing the temperature value (Tind) measured by the temperature sensor (13) with the limit temperature value (All) predetermined by the manufacturer. An induction heater cooker (1) as in Claim 1 or 2, characterized by a control unit (14) Claim 3, characterized by the control unit (14) that activates the cooling system (10) by operating the pump (8) and fan group (9) if the temperature value (Tind) measured by the temperature sensor (13) is higher than the limit temperature value (All) Cooker with an induction heater as in Fig (1). An induction heater stove (1) as in Claim 4, characterized by a control unit (14) that enables the fan speed (Vfan) to be changed according to the temperature value (Tind) measured by the temperature sensor (13). If the temperature value (Tim.) measured by the temperature sensor (13) is lower than the limit temperature value (All) predetermined by the manufacturer, the control unit (14) provides deactivation of the cooling system (10) by stopping the pump (8) and the fan group (9). A cooker (1) with an induction heater as in any one of Claims 3 to 5, characterized by. For an induction heater hob (1) as in any one of claims 3 to 6°, - measuring the temperature of the switching elements (5) via the temperature sensor (13), - comparing the measured temperature value (Tind) with the limit temperature value (All), - if the measured temperature value (Tind) is greater than the limit temperature value (All), operating the pump (8) and fan assembly (9), - comparing the measured temperature value (Tina) with the temperature ranges predetermined by the manufacturer, - fan assembly (9) A control method characterized by the steps of fan corresponding to the detected temperature value range - stopping the pump (8) and the fan assembly (9) when the measured temperature value (Tind) falls below the limit temperature value (All).