TR201706344A2 - Inductive cooking device and method. - Google Patents

Abstract

The present invention provides an inductive cooking device (100, 200, 300) comprising a glass plate (101) comprising a number of cooking vessel spots (102, 103, 104, 105, 302), a number of liquid conduits (106, 107, 108, 109, 206, 207, 208, 209, 215, 216, 217, 218, 219, 220, 306) arranged in or under the glass plate (101) for every one of the cooking vessel spots (102, 103, 104, 105, 302), and a measurement device (110, 210) configured to circulate a liquid (111, 211) containing magnetic particles (221, 222, 223, 224, 225) in the liquid conduits (106, 107, 108, 109, 206, 207, 208, 209, 215, 216, 217, 218, 219, 220, 306) and to determine the presence of a ferromagnetic cooking vessel on the respective cooking vessel spot (102, 103, 104, 105, 302) based on the amount of magnetic particles (221, 222, 223, 224, 225) flowing into the liquid conduits (106, 107, 108, 109, 206, 207, 208, 209, 215, 216, 217, 218, 219, 220, 306) and the amount of magnetic particles (221, 222, 223, 224, 225) flowing out of the liquid conduits (106, 107, 108, 109, 206, 207, 208, 209, 215, 216, 217, 218, 219, 220, 306). Further, the present invention provides a respective method.

Description

TECHNICAL FIELD The invention relates to an induction cooking device and a related method. PRIOR ART Any system that uses energy transfer by induction to heat an item While applicable, the present invention is mainly related to induction cookers. will be disclosed.

Induction cookers are generally used to heat cookware by magnetic induction. is used. Usually a high frequency power signal to an induction coil is provided. This is a conductor like a pan placed on the induction coil. or around the induction coil magnetically connected to the ferromagnetic cooking cabinet creates a magnetic field. On top of that, the magnetic field, in the cooking cabinet, Eddy It provides heating of the cooking cabinet by creating currents.

Induction cookers have a coil of copper wire under the cooking zone and The cooking bowl must be positioned relative to the coil limit, where the diameter of the coil is identifies the region. There is usually a ceramic glass between the coil and the cooking pot. is placed. Induction cookers are made of ferromagnetic material only. It works with cookware and the heating operation is only for one user cooking zone. it should start working if it puts a ferromagnetic material on it.

The size, location and magnetic feature of the cooking cabinet placed on the cooking surface, It affects the working power and the heat transferred to the cooking cabinet. separately unsuitable using cookware (e.g. small, non-ferromagnetic cookware) and 2933ITR incorrect placement can cause malfunctions (eg coil saturation and overvoltage). and may damage the induction cooker. Therefore, do not cook Detection of the cabinet is an important function in induction cookers.

Accordingly, for the detection of the improved cooking cabinet in induction cookers, there is a need.

BRIEF DESCRIPTION OF THE INVENTION The present invention is an induction cooking appliance having the features of claim 1 and provides a method that has

Therefore, the following are provided: - A glass plate containing a series, ie one or more cooking cabinets, a series of fluids arranged in or under the glass plate for each of the container locations channel and for a liquid containing magnetic particles to circulate in the liquid channels and the liquid according to the amount of magnetic particles flowing into the channels and the liquid flowing out of the channels a ferromagnetic plate on the relevant cooking cabinet according to the amount of magnetic particles. containing a measuring device configured to detect the presence of the cooking cabinet. induction cooker.

Also provided are: - Detecting the presence of a cooking cabinet on an induction cooker A method for inducing a liquid containing magnetic particles circulating the cooker in the liquid channels in or under the glass plate, where the glass plate contains a series of cooking cabinets, magnetic flowing into the liquid channels the amount of particles and the amount of magnetic particles flowing out of the liquid channels. and according to the amount of magnetic particles flowing into the liquid channels and the liquid One of the cooking pot places according to the amount of magnetic particles flowing out of the channels It includes detecting the presence of the ferromagnetic cooking cabinet on it. 2933ITR Common pot detection algorithms for induction cookers It is based on the electrical power consumption analysis of induction coils. Instead of The present invention is with a cooking vessel on the glass plate of the induction cooking appliance. based on a separate or special sensor arrangement that improves the information that can be obtained about takes.

The present invention provides fluid channels in or on a glass plate. “glass plate The expression “in” refers to the fact that the liquid channels are integrated into the glass plate. are available. The expression "on a glass plate" means that the fluid channels are on a surface, for example. as pipes, referring to the fact that they are arranged, for example, on the lower surface of the glass plate are available. Such pipes are made of any glass plate without complicated manufacturing processes. can be edited easily. In addition, when such pipes are required, e.g. It can be in the form of a magnetically shielded section.

The glass plate may contain cooking cabinet spaces. Such cooking cabinets, for example There may be visual indications of where cookware should be placed. The induction cooker is used to transfer energy to a cooking cabinet placed on a glass plate. One or more induction coils located under the cooking pots used for may contain.

Alternatively, the glass plate may contain only one cooking cabinet. This is glass means that the entire surface of the plate can be used to place cookware. is coming. Multiple small induction coils under the glass plate can be provided and after the position of the cooking cabinet is detected, the corresponding induction coils can be activated. Thanks to such induction cooking appliances, the user The cooking cabinet can be placed freely on the glass plate. The measuring device now detects the liquid channels, the presence of a cooking cabinet on the glass plate. It can be used as a sensor or detection device to detect. measuring device For example, it can circulate the liquid containing magnetic particles in the liquid channels. Liquid For example, it can be a ferrofluid or a magneto-rheological fluid. Ferrofluids, 2933ITR nanoscale ferromagnetic or ferrimagnetic suspended in a carrier fluid may contain particles. Magneto-rheological fluid particles in micrometer scale can happen.

The magnetic particles in the liquid are placed on the glass plate `on the liquid channels` any ferromagnetic cooking cabinet will be affected, for example, it will be attracted. This Therefore, magnetic particles can be trapped in liquid channels. Therefore, liquid The amount of magnetic particles entering the channels, magnetic particles leaving the liquid channels amount may differ.

Therefore, the measuring device depends on the amount of magnetic particles flowing into the liquid channels and the liquid the glass plate of a cooking cabinet according to the number of magnetic particles flowing out of its channels. can detect its presence.

Therefore, the present invention is based, for example, on the induction coils of an induction cooking appliance. for induction cookers, rather than indirect measurements of power or current consumption provides a direct measurement of the presence of a cooking cabinet.

In this context, the “cooking cabinet” is a device that can be used with induction cooking appliances. It is understood that it refers to the ferromagnetic cooking cabinet.

Other embodiments of the present invention refer to other subclaims and figures. is the subject of the following explanation.

In one application, the liquid channels will be intertwined in the cooking cabinet places. can be edited. referring to the envelopment of the liquid channels with smaller diameters can be found. The liquid duct with the largest diameter is as large as, for example, the cooking cabinet can happen. 2933ITR The interlocking of the liquid channels only means that the induction cooker of a cooking cabinet Not only does it allow to detect that it is on the glass plate, but also the interior With the help of the inward liquid channels, the size of the cooking cabinet can also be determined. For example, a cooking pot that is smaller than the size of the floor can be placed on the cooking pot. only internal liquid channels, magnetic particle flowing into liquid channels There is a significant difference between the amount of magnetic particles flowing out of the liquid channels and the can show. For this reason, the size of the cooking cabinet is the difference between the individual liquid channels. can be detected by a solution determined by distance.

In one embodiment, the fluid channels are of a circular shape, particularly a circular section-like shape. may contain. Most cookware contains circular nerves. Therefore, circular shaped liquid The use of ducts allows the sensing elements to adapt to the shape of the cookware. allows for customization.

Single fluid channels can only be part of a circle, i.e. 90° or 180°. If it covers the area of the cooking cabinet, it can be placed off-center on the cooking cabinet floor of a cooking cabinet. It is also possible to detect the absence of For example, three levels of full circular the liquid duct is provided and a small cookware is off-center over the cooking pot. placed, this cooking pot can cover all three circular channels and a large cooking pot can be detected.

With segmented circular liquid channels, only the sections under the cookware the amount of magnetic particles flowing into the channels and the magnetic particles flowing out of the liquid channels will show a significant difference in the number of particles.

Alternatively, a large cooking pot can be combined with multiple smaller diameters containing exactly the same diameter. It can be equipped with liquid channels. Small diameter, under the cooking pot from the surface of the hob so that a specified number of liquid channels can be provided. it refers to a smaller anchor. Small diameter liquid channels e.g. cooking 2933ITR a diameter that is 1/10 - 1/2 the diameter, length or height of the container location may contain. Such small diameter liquid channels will be side by side with each other, that is, they will be intertwined. can be provided in a way that will not be possible.

The shape and size of a cooking cabinet, magnetic particles flowing into the liquid channels with a significant difference in the amount of magnetic particles flowing out of the liquid channels. can be detected by detecting single fluid channels.

This arrangement includes multiple small units under the glass plate that can be operated independently. It is particularly suitable for induction cookers with an induction coil.

Cooker eg induction with the size of small diameter liquid channels contain coils. Therefore, single liquid channels are specially designed for single induction coils. can serve as sensors.

In one embodiment, the fluid channels have a rectangular shape, in particular rectangular section-like may contain a format.

Rectangular liquid ducts, e.g. rectangular for rectangular cookware It can be used together with the cooking cabinet places containing the shape of the bowl.

Alternatively, rectangular fluid channels are described for circular fluid channels. It can be equipped with a small diameter as is.

In a different application, the liquid channels are located in one of the two halves of each of the cooking cabinet spaces. or separately in one of the four quarters of each of the cooking cabinets can be edited.

As explained above, in the sections of the individual hobs of the liquid ducts arrangement is placed off-center with a smaller diameter than the cooktop It allows detecting the cooking cabinet. 2933ITR In one application, the meter is a liquid pump for pumping the liquid through the liquid channels. pump and an input to detect the amount of magnetic particles flowing into the fluid channels. sensor to detect the amount of magnetic particles flowing out of the liquid channels. may include an output sensor.

Liquid pump, any type capable of pumping liquid through liquid channels could be a pump. Such a pump is for example powered by an electric motor or the like. can be operated.

Entry and exit sensors can be provided according to the type of fluid used. For example, liquid in the liquid channels if a ferromagnetic cooking pot is placed on the glass plate. magnetic particles entering and leaving the fluid channels, if retained magnetic particles A Hall-type sensor can be used to measure a magnetic field produced by For example, if a magneto-rheological fluid is used, this fluid will change its viscosity. can be changed and a flow meter is drawn from the fluid channels for a given pump power setting. It can measure the amount of liquid flowing.

In a different application, the measuring device is a cooking unit on one of the cooking cabinet locations. detecting the presence of the cabinet and/or magnetic properties of the cooking cabinet, liquid the amount of magnetic particles flowing into the channels and the magnetic particles flowing out of the liquid channels Configured to detect according to the difference and/or relationship between the amount of particles with a control unit.

In a special application of the induction cooker, the liquid channels and the glass plate are depending on its particular arrangement, the amount of magnetic particles flowing into the liquid channels and the liquid For example, the difference or relationship between the amount of magnetic particles flowing out of the channels During the development of the induction cooker or the use of the induction cooker It can be detected experimentally during a calibration process during manufacture.

In one application, the control unit determines which of the liquid channels of the respective hob spaces the amount of magnetic particles flowing into the respective channels and the amount of fluid flowing out of the respective channels 2933ITR Cookware according to the information that it contains a difference between the amount of magnetic particles 'to detect the position of a cooking cabinet on one of its can be configured.

Different from the liquid channels of the individual hob, as mentioned above, or only a few of them drain into the liquid ducts when the cookware is on the cooktop. the amount of magnetic particles and the number of magnetic particles flowing out of the liquid channels may contain a significant difference between This is the case, for example, cookware cookware. It can occur when it is smaller than its place.

Therefore, the control unit determines which of the liquid channels of a single hob the amount of magnetic particles flowing into the channels and the magnetic particles flowing out of the liquid channels a small cooking by detecting that there is such a significant difference between the number of particles It can detect that the cabinet is placed off-center.

BRIEF DESCRIPTION OF THE FIGURES For a better and full understanding of the present invention and its advantages, it is now appended Reference is made to the following explanation in connection with the figures. Invention, your drawings More detailed below using the `example applications' indicated in their schematic figures. will be explained here: Figure 1 is a block of an embodiment of an induction cooker according to the present invention. it shows the sky; Figure 2 is an example of a different embodiment of an induction cooker according to the present invention. shows the block diagram; Figure 3 is an illustration of a different embodiment of an induction cooker according to the present invention. shows the block diagram; and 2933ITR Figure 4 shows a block diagram of an implementation of a method according to the present invention. shows.

Like reference marks in the figures do not include like elements unless otherwise indicated. states.

DETAILED DESCRIPTION OF THE FIGURES Figure 1 shows a block diagram of an embodiment of an induction cooker 100. shows. The induction cooker 100 includes a glass plate 101. Pine For example, on the glass plate (101) so that it can determine where to put it. can be marked. Liquid channels (106, 107, 108, 109) are issued. Although not shown, under the glass plate (101), It can be arranged induction coils that create a magnetic field to transfer it. it can detect the presence of a cooking pot on one of them.

As explained above, the presence of the ferromagnetic cooking cabinet will cause the particles to be attracted and slowed down. A ferromagnetic cooker number will be higher. 2933ITR The 'measuring device 110' can then detect the presence of a cooking cabinet, for example, and or if the relationship is above a predetermined threshold value, the relevant presence signal (112) can provide. it is understood that it is given as an example and that different arrangements can be provided. or a form sufficient for a particular induction cooker (100). allows to do so. This situation is further elaborated with reference to Figures 2 and 3. will be disclosed.

Figure 2 shows a block diagram of a different induction cooker 200, here only one cooking cabinet (not referred to separately) as an example is shown. With the desired number of cookware locations, the principle explained with reference to Figure 2 It is understood that they can be used together. form, a semicircle upstream portion and a semicircle running roughly parallel 219, 220) are cited. 2933ITR In the group, the internal fluid channels (215, 220) have a larger diameter than their respective sides. are surrounded by channels (209, 219), which are more in diameter than their respective sides. the larger one is surrounded by liquid channels (208, 218) and continues in this way. includes level.

The induction cooker 200 also includes an exemplary measuring device 210. Measurement It is understood that it can be dispersed homogeneously in the liquid (211). includes an input sensor (233) and an output sensor (235) for the assembly. is used to measure. device 210, for example a control device or processor, to detect the presence of a cooking cabinet can. Measuring device (210) with arrangement of induction cooker (200) approximate position of a cooking cabinet by detecting that it is being affected by the cookware. 2933ITR can detect. In addition, it is necessary to put the cooking cabinet on the cooking cabinet place. ferromagnetic properties of the cooking cabinet can be determined.

Figure 3 shows a block diagram of a different induction cooker 300.

Only one hob (302) is shown. The cooking cabinet (302) is a rectangular contains format. Multiple, fifteen liquid channels for this single hob (302) (306) (referring to only one) is provided.

The induction cooker 300, for example, has a single may contain an induction coil. For example the size and shape of induction coils may approximately correspond to the size and shape of the liquid channels 306.

A control device (not shown) of the induction cooker 300 is a single induction cooker. It can operate the coils separately.

Therefore, with the arrangement of the induction cooking device 300, the cooking cabinet where it is placed on the cabinet (302) and what size the cooking cabinet is. it is possible to detect it. The controller then only cooks It can operate the induction coils covered by the cabinet specially. Because Cookware with a smaller size than the outer circumference of the cooking pot (302), The cooking cabinet (302) can be freely placed on it. Induction cooker (300) is for example a single bowl as large as the glass plate of the induction cooker (300). the cooking cabinet 302.

For a better understanding of the invention, a description of Figure 1-3 based on the device above The reference marks used throughout are shown in Figure 4 based on the following method. It will also be used in the description. It shows a block diagram of an example of a method for detecting its presence. 2933ITR It includes detecting its presence (S3). (111, 211) a circular form, 'especially comprising a circular section-like shape or a rectangular shape, 'especially in fluid channels containing a rectangular section-like shape' may include circulation. in liquid channels arranged separately in one of the four quadrants of one may include circulation. 2933ITR detecting the presence of the cooking cabinet and/or the magnetic properties of the cooking cabinet, may include detection. The fastening (83) is also the location of the respective cooking cabinets. According to the information that it contains a difference between the amount of cooking pots (102, 103, 104, 105, 302) to determine the position of a cooking cabinet on one may contain.

Although specific applications are described and illustrated here, where various alternative and/or equivalent applications are available by experts will be appreciated. The example application or sample applications are just examples and restrict in any way the scope, applicability or configuration purpose should be appreciated. Instead, the above brief description and detailed disclosure is safe to persons skilled in the art to perform at least one example application. shall provide a roadmap, specified in the accompanying claims and its legal equivalents. function of the elements described in a sample application without leaving the scope, and It should be understood that various changes can be made in the regulation. In general this 2933ITR application, any adaptation of the specific applications discussed here, or It is intended to cover variation. 105, 302) to detect the presence of a ferromagnetic cooking cabinet on 300) provides. The present invention also provides a related method.

List of reference marks 100,200,300 110,210 111,211 230, 231 232, 233 234, 235 81-83 2933ITR Induction cooker glass plate Cooking cabinets fluid channels fluid channels fluid channels measuring device presence signal magnetic particles liquid pump input sensor output sensor Method steps

Claims (1)

A measuring device (110, 210) configured to detect CLIENTS. according to the induction cooker (100, 200, 300). 220, 306) Induction cooking appliance (100, 200, 300) according to any one of the preceding claims, comprising a circular shape, in particular a circular section-like shape. 220, 306) Induction cooking appliance (100, 200, 300) according to any one of the preceding claims, comprising a rectangular shape, in particular a rectangular section-like shape, arranged separately in one. Induction cooking appliance (100, 200, 300) according to any one of claims. Induction cooking appliance (100, 200, 300) according to any one of the preceding claims, comprising a control unit configured to detect the presence of a cooking cabinet on it and/or to detect the cooking cabinet by magnetic relation. The induction cooking appliance (100, 200, 300) according to claim 7, wherein the cooking cabinet is configured to detect a position. a method for detecting its presence, which includes: detecting its presence (83). 11. The method according to any of the circulating (S1), a circular form of the liquid (111, 211), in particular a circular circulating (S1), a rectangular form of the liquid (111, 211), in particular a rectangular. 302) The method of any one of the preceding claims 9 to 11, each comprising circulating in separately arranged fluid channels in one of the four quadrants. The method according to any one of claims 9 to 12. The method according to any of the preceding claims 9 to 13, comprising detecting the presence of a cooking cabinet on it and/or detecting the cooking cabinet by magnetic relation. The method of claim 14, wherein it comprises determining a position of the cooking cabinet.