TR202013716A2 - AN INDUCTION COOKER WITH IMPROVED COOLING PERFORMANCE - Google Patents

Abstract

This invention presents a body (2), at least one circuit board (3) in the body (2), at least one IGBT element (4) that provides power switching in the body (2), IGBT 5 element (4) contact at least one heat sink (5), which provides cooling by means of air, at least one fan (6) located in the body, which provides cooling of the elements by air, and an induction cooker with an air directing element (7) located on the air flow from the fan (7) ) contains.

Description

DESCRIPTION COOLING PERFORMANCE] AN IMPROVED INDUCTION STOVE This invention is an induction cooker with better air circulation and cooling performance. It is related to.

Nowadays, induction cooktops serve domestic or industrial purposes. They are home devices that work via electromagnets that create a magnetic field. Basis As a working principle, an open electrical circuit when there is no metal pot on it, When done, they turn into a completed electrical circuit. In this way, magnetic A field is created and heating is provided by the energy transferred to the body of the metal pot.

The energy transferred to the metal pot by changing the magnetic field intensity is the same. The amount of heat can be adjusted at any time.

Adjusting the power and staggering of the hob in home-type induction hobs The power switching that provides it is done with power transistors called IGBT.

IGBT is used to adjust the desired level of the stove while using the induction cooker. It gets hot due to the switching process and as the operating time increases, the temperature increases. is rising. A safety problem caused by heating during the operating period of LGBT When it reaches a certain temperature (usually 90°C) to prevent the formation of is turned off and the component is prevented from heating further. Moreover, IGBT Various cooling systems are already available to prevent the component from overheating. is used. From this point of view, the performance of an induction hob depends on the working of the hob. It depends on the operating time and it is accepted that the furnace performance will increase as the operating time increases. is done. Increasing the operating time of the stove is the power switching of the IGBTaler. It is possible with effective cooling. Induction that cannot provide effective cooling Components that get too hot on stoves prevent food from cooking by turning off the stove. It is known that it reduces user satisfaction. Moreover, inside the furnace As the circuit boards heat up, the lifespan of the stove decreases depending on overheating. It may shorten.

EP2712267A1 European Patent application in the state of the art In the document, it is a system that provides ventilation and cooling thanks to two symmetrical openings. induction cooker is explained.

The purpose of this invention is to provide effective air cooling on power switching elements. It is the realization of an induction cooktop with improved performance by providing

Induction systems realized to achieve the purpose of this invention and explained in the claims. cooker, a body, at least one circuit board located inside the body, At least one IGBT element that provides power switching contacts the IGBT element. At least one heat sink, which provides cooling, is located inside the body and circuit board and An air direction system that allows the air to be directed by being on the flow Contains the element. It is both a heat absorber that allows excess heat to be absorbed and the fan's air The air flow transferred to the directing element ensures that IGBT elements and circuit boards last longer. An uninterrupted furnace by making it possible for it to remain in the ideal operating range for a long time. performance is provided. Induction cooker is also a heat sink and by placing it on the IGBT element, the cooling air coming from the fan is transferred to the IGBT elements. Air direction with hollow-shaped air channels that ensure more even distribution It has the element . Air flow in accordance with the flow direction of the air coming out of the fan IGBT elements are formed by molecules passing through the heat sink surface through air channels. It is intended to be directed on Additionally, induction hob, air It is located between the directing element and the air outlet of the fan, allowing the air to flow to the right and left side of the body. At least one first slot that allows the circuit boards on the left to be directed and the body that allows the air passing over the circuit boards to continue circulating It includes at least one second slit on it. Preferably air direction There are two first slots and two second slots on the parts of the element facing the circuit boards. There may be a crack. In this way, the air coming out of the fan first passes through the IGBT elements and then into the circuit. It is directed to the cards and exits through the second slit, providing a much more efficient air flow. circulation is achieved.

In one embodiment of the invention, the induction cooker is positioned at the first slit exit. which allows the air coming out of the first slit to be directed directly onto the circuit board. Includes a guide. In this way, air is directed dispersedly to the circuit boards. It passes through the guide more smoothly and spreads onto the cards, increasing its cooling efficiency. is being increased.

In an embodiment of the invention, the induction cooker has air ducts in horizontal and vertical axes. It contains a symmetrically distributed air directing element. Located on both sides It is ensured that it opens symmetrically on the vertical axis. In this way, the induction cooker Effectiveness in cooling performance is increased.

In one embodiment of the invention, the induction cooker uses air produced from metal material. Contains a routing element. With a metal air direction element Durability is increased and better cooling is achieved thanks to 151 conductivity. can be done.

In one embodiment of the invention, the induction cooker uses air made of plastic material. Contains a routing element. In this way, a cost-effective and lightweight design is achieved. and ease of production is ensured.

The subject of this invention is the cooling of the elements heated by the induction cooker. An uninterrupted cooking performance is provided.

An induction cooktop designed to achieve the purpose of this invention is shown below. has been shown; Figure 1- is the perspective view of the induction cooktop.

Figure 2- is the schematic view of the induction cooker with the air direction element.

Figure 3- is another schematic view of the induction cooker with the air direction element.

The parts in the figure are numbered one by one, and the corresponding numbers are shown below. has been given.

induction cooker Circuit board air direction element Air duct first rift . second slit 11. Guide Induction cooker (1), a body (2), at least one circuit board (3) inside the body (2), At least one IGBT element (4) located inside the body (2) and providing power switching, located inside, the circuit board (3) and IGBT element (4) are cooled by air. At least one fan (6), which provides air flow by being located on the air flow coming from the fan It contains an air directing element (7) that enables air direction. too much The heat absorber (4), which ensures the absorption of heat, is connected to the air direction element (7) of both the fan (6). The air flow it transfers ensures that the IGBT element (3) and circuit boards (6) operate ideally for a longer period of time. Providing an uninterrupted cooking performance by making it possible to stay within the range is provided. The induction cooker (1) is also the heat sink (5) and IGBT It is placed on the element (4) and the cooling air coming from the fan (6) is transferred to the IGBT elements (4). air with hollow-shaped air channels (8) that allow it to be distributed more evenly It contains a guidance element (7). Compatible with the flow direction of the air coming out of the fan (6) As a result, air molecules pass through the heat absorber (5) surface through air channels (8). By leaving a distance determined by the manufacturer between the air direction element (8) The airway is created. Additionally induction hob(l), air direction It is located between the element (7) and the air outlet of the fan (6), allowing the air to flow from the right and left side of the body (2). At least one first circuit enables the circuit boards (3) on the sides to be directed. It ensures that the air passing through the slit (9) and circuit boards (3) continues to circulate. It contains at least one second slit (10) located on the body (2) that provides For example weather There are two first ones on the parts of the directing element (7) facing the circuit boards (3). There may be a slit (9) and two second slits (10) and air is distributed equally to both sides of the body (2). path can be created. Thus, the air coming out of the fan (6) first reaches the IGBT elements (3). It is then directed to the circuit boards (6) and exited through the second slit (10) and very A more efficient air circulation is achieved.

In an embodiment of the invention, the induction cooker (l) is placed at the exit of the first slit (9). by positioning the air coming out of the first slit (9) directly onto the circuit board (3). It includes a guide(ll) that provides guidance. In this way, circuit boards (3) The distributed air passes through the guide (1 1) more smoothly and into the circuit. is spread across the cards (6) and the cooling efficiency is increased. The circuit boards (3) are also The performance of the induction cooker (1) is also indirectly increased by good cooling.

In an embodiment of the invention, the induction cooker (l) and air ducts (8) are arranged horizontally and vertically. It contains an air directing element (7) distributed symmetrically on the axis. Both For equal air distribution to the IGBT elements (3) and circuit boards (6) on the side It is ensured that the channels (8) open symmetrically in the horizontal and vertical axes. Right and more identical working conditions for the LGBT staff(3) on the left sides is being created. In this way, efficiency in induction cooker (l) cooling performance is achieved. is increased and its closure is prevented by reaching critical temperatures.

In one embodiment of the invention, the induction cooker (l) uses air produced from metal material. It contains a guidance element (7). A metal air vent, preferably stainless steel With the guidance element (7), both durability is increased and thanks to thermal conductivity, Better cooling can be achieved.

In one embodiment of the invention, the induction cooker (l) uses air produced from plastic material. It contains a guidance element (7). In this way, a cost-effective and lightweight design is achieved. and ease of production is ensured.

With the induction cooker (l) that is the subject of the invention, power switching elements are operated through air. As a result of more efficient cooling, a better baking performance is achieved.

Claims (1)

CLAIMS . A body (2), at least one circuit board (3) located inside the body (2), at least one IGBT element (4) located inside the body (2) and providing power switching, and a device that provides cooling by contacting the IGBT element (4). at least one heat sink (5), at least one fan (6) located inside the body and providing air cooling of the circuit board (3) and IGBT element (4), and an air directing element (located on the air flow coming from the fan) allowing the air to be directed. 7) Air direction element (7) with hollow-shaped air channels (8) placed on the heat sink (5) and IGBT element (4) and ensuring that the cooling air coming from the fan (6) is distributed more evenly to the IGBT elements (4). Air direction element (7) ) and the air outlet of the fan (6) and at least one first slit (9) that allows the air to be directed to the circuit boards (3) and at least one slot on the body (2) that allows the air passing over the circuit boards (3) to continue its circulation. an induction cooktop(l) characterized by the second slit(l()). . An induction cooker (1) as in claim 1, characterized by a guide (11) positioned at the exit of the first slit (9) and ensuring that the air coming out of the first slit (9) is directed directly onto the circuit board1 (3). . An induction cooker (1) as in request 1 or 2, characterized by an air directing element (7) with air ducts (8) distributed symmetrically in the horizontal and vertical axes. . An induction cooker (1) as in any of the above claims, characterized by an air directing element (7) made of metal material. . An induction cooker (1) as in any of the above claims, characterized by an air directing element (7) made of plastic material. CLAIMS . A body (2), at least one circuit board (3) located inside the body (2), at least one IGBT element (4) located inside the body (2) and providing power switching, and a device that provides cooling by contacting the IGBT element (4). at least one heat sink (5), at least one fan (6) located inside the body and providing air cooling of the circuit board (3) and IGBT element (4), and an air directing element (located on the air flow coming from the fan) allowing the air to be directed. 7) Air direction element (7) with hollow-shaped air channels (8) placed on the heat sink (5) and IGBT element (4) and ensuring that the cooling air coming from the fan (6) is distributed more evenly to the IGBT elements (4). Air direction element (7) ) and the air outlet of the fan (6) and at least one first slit (9) that allows the air to be directed to the circuit boards (3) and at least one slot on the body (2) that allows the air passing over the circuit boards (3) to continue its circulation. an induction cooktop(l) characterized by the second slit(l()). . An induction cooker (1) as in claim 1, characterized by a guide (11) positioned at the exit of the first slit (9) and ensuring that the air coming out of the first slit (9) is directed directly onto the circuit board1 (3). . An induction cooker (as in request 1 or 2) characterized by the air ducts (8) and the air directing element (7) distributed symmetrically on the horizontal and vertical axes ( one). . An induction cooker (1) as in any of the above claims, characterized by an air directing element (7) made of metal material. . An induction cooker (1) as in any of the above claims, characterized by an air directing element (7) made of plastic material.