CN210018972U - Pan and electromagnetism stove cooking utensil - Google Patents

Abstract

The utility model provides a pan and electromagnetism stove cooking utensil, the pan includes: a pot body (20) and a pot cover (10), wherein the pot body (20) is provided with an anti-overflow probe (23) which is insulated from the pot body (20) and is electrically connected with the control panel, and the anti-overflow probe (23) is contacted with a metal area (11) arranged on the pot cover (10), the pan body (20) is insulated from the metal area (11) and is electrically connected with the control board, when the soup overflowing from the pot body (20) contacts the anti-overflow probe (23) or the metal area (11) of the pot cover (10), the pot body (20) is communicated with the anti-overflow probe (23), so that the control panel is according to the heating state of on-signal control electromagnetism stove, the utility model provides a pan has solved in the current electromagnetism stove cooking utensil because NCT subassembly and anti-overflow electrode establish on the pot cover and just can't carry out the problem of anti-overflow when causing the pot cover to take off.

Description

Pan and electromagnetism stove cooking utensil

Technical Field

The utility model relates to a household electrical appliances field, in particular to pan and electromagnetism stove cooking utensil.

Background

An electromagnetic oven cooker is a widely used cooking appliance, which is an electric cooking appliance heated by electromagnetic induction and consists of a high-frequency induction coil panel (namely an excitation coil), a controller, a ferromagnetic material pot bottom cooker and other units, when the electromagnetic oven cooker is used, alternating current is introduced into the coil panel, an alternating magnetic field is generated around the coil, magnetic lines of the alternating magnetic field penetrate through a metal pot body (20), a large amount of eddy current is generated in the pot bottom, and heat required by cooking is generated, wherein in order to better control heating power in the using process of the electromagnetic oven cooker, the temperature in the pot is required to be detected.

At present, in the electromagnetic oven cooker with accurate temperature control, an NTC component with accurate temperature control Negative Temperature Coefficient (NTC) is arranged on a cooker cover, food can generate steam and raise the temperature of air in the cooker during heating, the NTC component detects the change of the steam or the temperature of the air in the cooker, the NTC component is also used as an electrode for anti-overflow detection, the other electrode is connected with a cooker body through the metal edge of the cooker cover, water bubbles can be generated when soup overflows, the current change is generated when the water bubbles contact the NTC component and is fed back to a circuit on the cooker cover, a wireless transmitting device in a cooker cover handle transmits the temperature change signal and the overflow signal to a circuit in the cavity of the electromagnetic oven cooker, an intelligent chip processes information, and according to the information, different heating modes of the electromagnetic oven cooker are instructed so as to achieve the purposes of accurate temperature control and overflow prevention.

However, in the above electromagnetic oven cooker, the NTC component detects the temperature of the surrounding air in the cooker instead of the temperature of the cooker, and there is an error in detection, which easily causes the soup in the cooker to overflow, and once the lid is taken away, the temperature measurement and the overflow prevention cannot be performed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem mentioned in the background art that relates to in the electromagnetism stove cooking utensil because NCT subassembly and anti-overflow electrode establish on the pot cover and cause the pot cover to take off just can't carry out the at least one of temperature measurement and anti-overflow, the utility model provides a pan and electromagnetism stove cooking utensil of anti-overflow.

The utility model provides a cooker, include: pot body and pot cover, wherein:

the utility model discloses a pot cover, including pot body, control panel, anti-overflow probe, pot cover, pot body, be equipped with on the pot body with the pot body is insulating and the anti-overflow probe that links to each other with the control panel electrical property, just the anti-overflow probe with the regional contact of the metal that sets up on the pot cover, the pot body with the regional insulation of metal and with electrical property links to each other between the control panel, and works as the soup that overflows in the pot body contacts the anti-overflow probe perhaps during the metal region of pot cover, the pot body with the anti-overflow probe switches on, so that the control panel.

The pan that this embodiment provided, through be equipped with on the pot body with the pot body is insulating and the anti-overflow probe that links to each other with the control panel electrical property, just the anti-overflow probe with the metal area contact that sets up on the pot cover, the pot body with metal area is insulating and with electrical property links to each other between the control panel, works as like this the internal soup that overflows of pot contacts the anti-overflow probe perhaps during the metal area of pot cover, the pot body with the anti-overflow probe switches on, so that the control panel is according to the heating state of turn-on signal control electromagnetism stove, even the pot cover is taken off like this, but when soup contacts the anti-overflow probe, anti-overflow probe and pot body switch on, and the control panel still can control electromagnetism stove heating state according to the turn-on signal, has realized still can carry out the mesh of anti-overflow when the pot cover is taken off, consequently, the pan that this embodiment provided has solved because NCT subassembly and anti-overflow electrode establish on the pot cover and cause The problem of overflow prevention is solved.

Optionally, the metal region is divided into a metal outer edge and a metal inner edge, the metal outer edge is located outside the pot body, one end of the anti-overflow probe extends out of the pot body and contacts with the metal outer edge, the metal inner edge is located inside the pot body, and when soup overflowing in the pot body contacts with the metal inner edge, the pot body is conducted with the anti-overflow probe.

Or one end of the anti-overflow probe extends into the pot body and is in contact with the inner metal edge, and when soup overflowing from the pot body contacts the inner metal edge or the anti-overflow probe, the pot body is communicated with the anti-overflow probe.

Optionally, one end of the metal inner edge in the pot body is lower than the outer edge of the pot opening of the pot body.

Optionally, the metal inner edge is a ring-shaped metal inner edge;

the metal outer edge is a metal sheet, or the metal outer edge is an annular metal outer edge.

Optionally, an insulating member is arranged between the pot cover and the pot body, and the insulating member is used for insulating the metal region from the pot body when the pot cover is covered on the pot body;

the insulating piece is arranged on the metal area and used for being insulated from the pot body, or the insulating piece is arranged on the pot body and used for being insulated from the metal area.

Optionally, the method further includes: the temperature measurement subassembly, the temperature measurement subassembly is established the lateral wall of the pot body, the temperature measurement subassembly with the control panel electrical property links to each other, just the temperature measurement subassembly is used for detecting the temperature of pan.

Optionally, be equipped with the cover on the lateral wall of the pot body and establish assembly box on the temperature measurement subassembly, the one end of anti-overflow probe is located in the assembly box, the other end is followed the top of assembly box stretch out with the metal area contacts, perhaps the other end of anti-overflow probe stretches into in the pot body.

Optionally, the assembly box includes bottom, mount pad and upper cover, wherein, the bottom with the mount pad passes through the fastener to be fixed on the lateral wall of the pot body, the upper cover lid is established on the mount pad, the scalable the establishing of anti-overflow probe is in on the bottom, temperature measuring component is located the bottom with between the external lateral wall of pot body.

Optionally, a plurality of connecting pieces are arranged on the outer side wall of the pot body, and the bottom cover and the mounting seat are fixedly connected to the pot body through the fastening pieces and the connecting pieces in a fastening mode.

Optionally, a sealing member is disposed between the bottom cover and the mounting seat, and the sealing member is used for sealing between the bottom cover and the mounting seat.

Optionally, a pressing block is arranged between the bottom cover and the temperature measuring component, and the temperature measuring component is tightly attached to the outer side wall of the pot body through the pressing block.

Optionally, the bottom end of the assembly box is provided with a telescopic connecting electrode which is connected with the anti-overflow probe and the temperature measuring component, and the connecting electrode is used for connecting the anti-overflow probe, the temperature measuring component and the pot body with the control panel which is arranged in the electromagnetic oven and is electrically connected with the control panel.

Optionally, the number of the assembly boxes is two, and the two assembly boxes are symmetrically arranged on the outer side wall of the pot body;

and the connecting electrode, the anti-overflow probe and the temperature measuring component are arranged in at least one assembling box.

Optionally, the method further includes: the two ends of the anti-overflow lead are respectively connected with the metal shell of the temperature measuring component and the connecting electrode, the pot body is connected with the connecting electrode through the metal shell and the anti-overflow lead, or,

and two ends of the anti-overflow lead are respectively connected with the pot body and the connecting electrode.

Optionally, the number of the connecting electrodes is three, wherein the anti-overflow probe is connected with one of the connecting electrodes, two electrodes of the temperature measuring assembly are respectively connected with the other two connecting electrodes, and one end of the anti-overflow lead is connected with one of the connecting electrodes connected with the temperature measuring assembly.

Optionally, be equipped with wireless transmission module in the assembly box, wireless transmission module be used for with anti-overflow probe with switch on signal between the pot body and the temperature signal that temperature measurement component detected sends for the electromagnetism stove, so that the electromagnetism stove is according to switch on signal with temperature signal control heating state.

The utility model also provides an electromagnetism stove cooking utensil, including electromagnetism stove and the aforesaid arbitrary pan.

Optionally, be equipped with on the electromagnetism stove with the response electrode that connecting electrode corresponds on the pan, anti-overflow probe and temperature measurement subassembly on the pan pass through response electrode with connecting electrode contact with the electromagnetism stove electrical property links to each other.

Optionally, be equipped with on the electromagnetism stove with assembly box complex adaptation portion on the pan, so that the pan is in realize the location on the electromagnetism stove, just the response electrode is established on the adaptation portion.

Optionally, the method further includes:

the control panel is arranged in the electromagnetic oven, the anti-overflow probe, the temperature measuring component and the pot body are electrically connected with the control panel through the contact of the connecting electrode and the induction electrode, or,

further comprising: first control panel and second control panel, wherein, first control panel is established in the assembly box on the pan and with connect the electrode and link to each other, the anti-overflow probe the temperature measurement subassembly and the pan body all with first control panel electrical property links to each other, the second control panel is established in the electromagnetism stove and with the response electrode links to each other, first control panel with the second control panel passes through connect the electrode with response electrode contact realizes that the electrical property links to each other, perhaps, first control panel with the second control panel passes through wireless mode transmission signal.

The structure of the present invention and other objects and advantages thereof will be more clearly understood from the following description of the preferred embodiments taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1A is a schematic view of a disassembled structure of a pot provided in an embodiment of the present invention;

fig. 1B is a schematic cross-sectional view of a pot lid in a pot provided in an embodiment of the present invention;

fig. 1C is a schematic structural view of a pot body in a pot provided in an embodiment of the present invention;

fig. 2 is a schematic sectional view of a pot body in a pot provided in the second embodiment of the present invention;

fig. 3A is a schematic view of a disassembled structure of an electromagnetic oven cooker provided by the third embodiment of the present invention;

fig. 3B is a schematic structural diagram of an induction cooker in the induction cooker according to the third embodiment of the present invention.

Description of reference numerals:

100-a pot;

10-a pot cover;

11-a metal region;

111-metal outer edge;

112-metal inner edge;

20-a pot body;

21-assembling a box;

211-upper cover;

212-a mounting seat;

213-bottom cover;

214 — a seal;

215-a compression block;

216 — a connector;

22-connecting electrodes;

23-an anti-overflow probe;

24-a temperature measuring component;

30-an induction cooker;

31 — an adaptation portion;

32-sensing electrode.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are embodiments of a unit of the present invention, rather than embodiments of a whole unit. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As described in the background art, the existing electromagnetic oven cooker with the anti-overflow function has the problem that the soup in the cooker is easy to overflow, and the reason for the problem is that: the electromagnetism stove cooking utensil of current accurate accuse temperature is individual, NTC subassembly and anti-overflow electrode are established on the pot cover, the temperature that NIC subassembly detected like this is the temperature of surrounding air in the pan, and not the temperature of pan, detect there is the error, lead to the in-process of cooking like this, the hot water juice in the pan easily spills over, another reason lies in, because NTC subassembly and anti-overflow electrode are located the pot cover, when the pot cover takes away like this, just can't carry out temperature measurement and anti-overflow to the pan this moment, make the hot water juice in the pan easily spill over.

For the above reasons, the present embodiment provides a pot, which is exemplified as follows:

example one

Fig. 1A is the utility model discloses the split structure sketch map of the pan that embodiment one provided, fig. 1B is the utility model provides a section structure sketch map of pot lid in the pan that provides, fig. 1C is the utility model provides a pan body in the pan that provides.

In this embodiment, as shown in fig. 1A-1C, the pot 100 includes a pot body 20 and a pot cover 10, and an anti-overflow probe 23 insulated from the pot body 20 and electrically connected to a control board (not shown) is disposed on the pot body 20, the anti-overflow probe 23 is in contact with a metal region 11 disposed on the pot cover 10, i.e. in this embodiment, the pot cover 10 has a metal region 11, when the pot cover 10 is covered on the pot body 20, the anti-overflow probe 23 is in contact with the metal, and at this time, the anti-overflow probe 23 is electrically connected to the metal region 11, wherein, in order to form an anti-overflow loop, in this embodiment, the pot body 20 is specifically used as another electrode, i.e. in this embodiment, the pot body 20 is specifically a conductive metal pot body 20, and when the pot cover 10 is covered on the pot body 20, the pot body 20 is insulated from the metal region 11 of the pot cover 10 and electrically connected to the control board, so that, at this time, the anti-overflow probe 23, the pot body 20, and the soup are conducted to form an anti-overflow loop, the control board determines that the pot body 20 and the anti-overflow probe 23 are conducted according to a conduction signal (e.g. current change or voltage change), the soup has contacted the anti-overflow probe 23 or the metal region 11 of the pot cover 10, at this time, the control board controls the heating state of the electromagnetic oven 30 (see fig. 3A), the heating state may be, for example, a state of suspending heating or reducing heating power, etc., so as to reduce the temperature in the pot 100 and prevent the soup from overflowing outwards from the pot body 20, in this embodiment, the anti-overflow probe 23 is disposed on the pot body 20, so that once the soup in the pot body 20 contacts the anti-overflow probe 23 or the metal region 11 of the pot cover 10, the control board controls the electromagnetic oven 30 according to the conduction signal of the anti-overflow probe 23 and 20, thereby performing a good anti-overflow effect, and the anti-overflow probe 23 is established on the pot body 20, even the pot cover 10 is taken away like this, but when the cooking liquor contacts the anti-overflow probe 23, the anti-overflow probe 23 switches on with the pot body 20, the control panel still can control the heating state of electromagnetism stove 30 according to the switch-on signal, in this embodiment, even the pot cover 10 is taken away, but the pan 100 still can play the anti-overflow effect, prevented that the cooking liquor can't carry out the problem of anti-overflow when the pot cover 10 is taken away, consequently, the pan 100 that this embodiment provided, still can carry out the mesh of anti-overflow when having realized the pot cover 10 and taken away.

Therefore, in the pot 100 provided in this embodiment, the anti-overflow probe 23 insulated from the pot body 20 and electrically connected to the control board is disposed on the pot body 20, and the anti-overflow probe 23 is in contact with the metal region 11 disposed on the pot cover 10, and the pot body 20 is insulated from the metal region 11 and electrically connected to the control board, so that when soup overflowing from the pot body 20 contacts the anti-overflow probe 23 or the metal region 11 of the pot cover 10, the pot body 20 and the anti-overflow probe 23 are conducted, so that the control board controls the heating state of the electromagnetic oven 30 according to the conduction signal, even if the pot cover 10 is taken away, when the soup contacts the anti-overflow probe 23, the anti-overflow probe 23 is conducted to the pot body 20, and the control board can still control the heating state of the electromagnetic oven 30 according to the conduction signal, thereby achieving the purpose of preventing overflow when the pot cover 10 is taken away, therefore, the pot 100 provided in this embodiment solves the problem that the existing electromagnetic oven cooker 200 has the problem that when the pot cover 10 is The overflow prevention can not be carried out.

In this embodiment, when the anti-overflow probe 23 contacts the metal region 11 of the pot cover 10, specifically, the anti-overflow probe 23 may be located outside the pot body 20 and contact the metal region 11 of the pot body 20, or the anti-overflow probe 23 may extend into the pot body 20 and contact the metal region 11 of the pot cover 10, in this embodiment, specifically, the metal region 11 of the pot cover 10 is divided into a metal outer edge 111 and a metal inner edge 112, when the pot cover 10 is covered on the pot body 20, the pot outer edge of the pot body 20 abuts against the metal outer edge 111, and the pot body 20, the metal outer edge 111 and the metal inner edge 112 are both insulated, where it should be noted that, in this embodiment, the metal outer edge 111 and the metal inner edge 112 are metal edges connected together, that is, the metal inner edge 112 and the metal 111 are not disconnected, where, in this embodiment, when the pot cover 10 is covered on the pot body 20, the metal outer edge 111 is located, 112 is located the pot body 20 in the metal, the one end of anti-overflow probe 23 stretches out and contacts with metal outside 111 from the pot body 20 towards pot cover 10, in this embodiment promptly, anti-overflow probe 23 is located outside the pot body 20, and when pot cover 10 lid was established on the pot body 20, anti-overflow probe 23 contacts with metal outside 111 of pot cover 10, at this moment, because 112 is located the pot body 20 in the metal, when soup in the pot body 20 contacts 112 in the metal like this, at this moment, anti-overflow probe 23, metal outside 111, 112 in the metal, soup and pot body 20 switch on and constitute the anti-overflow return circuit, the control panel is according to the heating state of switching on signal control electromagnetism stove 30 between anti-overflow probe 23 and the pot body 20.

In the embodiment, when one end of the anti-overflow probe 23 extends out of the pot body 20 toward the pot cover 10, the outward extending length of the anti-overflow probe 23 may be between 1mm and 10mm, for example, the outward extending length of the anti-overflow probe 23 may be 1mm or 5 mm.

In this embodiment, it should be noted that, when the pot cover 10 is taken away, since the soup in the pot body 20 does not contact the metal inner edge 112, at this time, the anti-overflow probe 23 cannot be conducted through the metal region 11 of the pot cover 10, but since the anti-overflow probe 23 is still disposed on the pot body 20, when the soup overflows and contacts the anti-overflow probe 23 outside the pot body 20, the anti-overflow probe 23 can still be conducted with the pot body 20 and start the anti-overflow function, so in this embodiment, the anti-overflow function can still be achieved even if the pot cover 10 is taken away.

In this embodiment, when the anti-overflow probe 23 is disposed outside the pot body 20 and contacts with the metal outer edge 111, the soup inside the pot body 20 can be prevented from overflowing only by contacting with the metal inner edge 112, so that the contact between the anti-overflow probe 23 and the soup is avoided, therefore, in this embodiment, when the anti-overflow probe 23 is disposed outside the pot body 20 and contacts with the metal outer edge 111 to realize the anti-overflow function, since the anti-overflow probe 23 is located outside the pot body 20, the damage of the high temperature or the soup inside the pot body 20 to the anti-overflow probe 23 is avoided, and the service life of the anti-overflow probe 23 is prolonged.

In the embodiment, specifically, when the soup in the pot body 20 contacts the inner metal edge 112, the anti-overflow probe 23 is conducted with the pot body 20 to achieve anti-overflow, so when the pot cover 10 is covered on the pot body 20, the inner metal edge 112 extends into the pot body 20, but when the inner metal edge 112 extends into the pot body 20 too much, the soup in the pot body 20 is easily contacted with the anti-overflow probe 23 to cause misjudgment, and when the inner metal edge 112 extends into the pot body 20 too little, the soup is easily contacted with the inner metal edge 112 when the pot body 20 has overflowed, so that the anti-overflow function of the pot 100 is delayed, therefore, in the embodiment, one end of the inner metal edge 112 located in the pot body 20 is lower than the outer edge of the pot mouth of the pot body 20, and the distance between one end of the inner metal edge 112 located in the pot body 20 and the pot mouth is between 5mm to 50mm, the height of the inner metal edge 112 on the pot cover 10 is between 5mm to 50mm, for example, in this embodiment, the height of the inner edge 112 of the metal on the pot cover 10 can be 30mm or 40mm, that is, when the pot cover 10 covers the pot body 20, the height that the inner edge 112 of the metal on the pot cover 10 extends into the pot body 20 is 30mm or 40mm, thus, when the soup in the pot body 20 rises to 30mm or 40mm away from the pot mouth, the anti-overflow probe 23 is communicated with the pot body 20, the anti-overflow function is started, the heating state of the electromagnetic oven 30 is adjusted, the temperature in the pot body 20 is reduced, and thereby the soup in the pot body 20 is prevented from overflowing outwards.

In this embodiment, the metal area 11 may be a metal covering edge disposed on an outer edge of the pot cover 10, and the rest of the pot cover 10 may be made of glass or ceramic material, and the metal covering edge is disposed along an outer edge of the glass portion by a circle, or in this embodiment, the whole pot cover 10 is made of metal material, so that the whole outer surface of the pot cover 10 is the metal area 11.

In this embodiment, when the metal region 11 includes the metal inner edge 112 and the metal outer edge 111, and the pot cover 10 is covered on the pot body 20, the metal outer edge 111 is located outside the pot body 20, that is, the metal outer edge 111 of the pot cover 10 extends outward from the pot opening of the pot body 20, and the diameter of the outer edge of the pot cover 10 is larger than that between the pot openings of the pot body 20, so that water condensed from the exhaust hole can drip outward from the metal outer edge 111 of the pot cover 10.

Wherein, in this embodiment, when the NTC component is used as one of the electrodes of the anti-overflow, since the electrode is a point and the contact point is small, only when contacting the electrode, the anti-overflow can be achieved, but in the actual cooking process, the position of the pot 100 placed on the heating area of the induction cooker 30 is not correct, so that the position of the overflow of the soup in the pot 20 is different, and the phenomenon that the overflow of the soup is staggered with the electrode is likely to occur, so that the accurate anti-overflow effect cannot be achieved, therefore, in order to solve this problem, in this embodiment, specifically, the inner metal edge 112 is the inner annular metal edge, the inner annular metal edge can be arranged around the inner wall of the pot 20 for a circle, so that the anti-overflow function can be triggered when the soup at any position in the pot 20 overflows and contacts the inner metal edge 112, the anti-overflow is more comprehensive, so, in this embodiment, when the inner metal edge 112 is arranged in an annular shape, the contact range of the soup in the pot body 20 and the metal inner edge 112 is enlarged, the purpose of sensing foam at 360 degrees is realized, and the anti-overflow is more comprehensive.

In this embodiment, the metal outer edge 111 may be a metal sheet, that is, the anti-overflow probe 23 may be in contact with the metal sheet, or in this embodiment, in order to facilitate the contact between the anti-overflow probe 23 and the metal outer edge 111, the metal outer edge 111 is also set to be an annular metal outer edge 111, so that when the pot cover 10 is covered on the pot body 20, a certain position of the metal outer edge 111 facilitates the contact between the metal outer edge 111 to achieve electrical connection, and the position where the anti-overflow probe 23 is in contact with the metal outer edge 111 is not limited to a specific position, thereby facilitating the contact between the anti-overflow probe 23 and the metal outer.

In this embodiment, in order to realize the insulating arrangement of the pot body 20 and the metal region 11 of the pot cover 10, specifically, an insulating member (not shown) is arranged between the pot cover 10 and the pot body 20, and the insulating member is used for insulating the metal region 11 from the pot body 20 when the pot cover 10 is covered on the pot body 20, in this embodiment, the insulating member may be arranged on the metal region 11 of the pot cover 10 and is used for insulating from the pot body 20, specifically, the insulating member may be arranged on a region of the metal outer edge 111 corresponding to the outer edge of the pot body 20, and it should be noted that, when the insulating member is disposed on the metal outer edge 111, the contact between the anti-overflow probe 23 and the metal outer edge 111 cannot be affected, alternatively, in this embodiment, an insulating member is provided on the outer edge of pan body 20 for insulating from metal region 11, in this embodiment, the insulating member may be a silicone member, or the insulating member is an insulating layer coated on the metal outer edge 111 or the pot opening of the pot body 20.

Wherein, in this embodiment, when the insulating part is the silica gel spare, because the silica gel spare has certain elasticity, at this moment, like this, when pot cover 10 lid is established on pot body 20, can avoid pot cover 10 metal limit and the direct contact on the metal limit of pot mouth and produce the noise, the silica gel spare has played the effect of preventing the abnormal sound promptly, and simultaneously, the clearance that pot mouth or glass metal limit had warp the production is great, and the silica gel spare is softer, can fill the clearance, and finally, pot cover 10 metal limit and pot body metal limit direct contact and UNICOM have been avoided through the silica gel spare, and make pot cover 10 metal limit and the distance that the pot body switched on enlarge through the silica gel spare, thereby make pot body 20 and pot cover 10 should not switch on.

Among them, in the prior art, because the NCT subassembly is established on pot cover 10, so, the NTC subassembly detects the temperature of ambient air, and is not the temperature of food, and there is an error in the test, especially under cryogenic state, the steam that liquid produced is few, and the temperature of air is lower again, and the temperature of test is inaccurate, does not have the function of accurate accuse temperature and anti-overflow when pot cover 10 removes away, and in this embodiment, in order to solve above-mentioned problem, it is concrete, still include: the temperature measuring component 24 is arranged on the outer side wall of the pot body 20, the temperature measuring component 24 is electrically connected with the control panel, and the temperature measuring component 24 is used for detecting the temperature of the pot 100, namely in the embodiment, the temperature measuring component 24 is arranged on the pot body 20, so that the temperature of the pot body 20 can be always detected even if the pot cover 10 is taken away in the cooking process, wherein in the embodiment, in order to realize that the temperature detected by the temperature measuring component 24 is close to the temperature in the pot body 20, specifically, the temperature measuring component 24 is arranged at the bottom end of the outer side wall of the pot body 20, and because the temperature at the bottom end of the pot body 20 solves the actual temperature of the pot body 20, in the embodiment, the accurate temperature measurement is realized by arranging the temperature measuring component 24 at the bottom end of the outer side wall of the pot body 20, wherein in the embodiment, the temperature measuring component 24 specifically comprises a metal, wherein, when temperature measurement subassembly 24 established on the lateral wall of the pot body 20, temperature measurement subassembly 24's metal casing hugs closely on the lateral wall of the pot body 20, the metal casing of temperature measurement subassembly 24 is given in the temperature transmission of the pot body 20 like this, temperature measurement component realizes the detection to pot body 20 temperature through the temperature that detects metal casing, therefore, in this embodiment, through set up anti-overflow probe 23 and temperature measurement subassembly 24 on the pot body 20 and realized the purpose of accurate temperature measurement and anti-overflow to pan 100, just can't carry out the problem of temperature measurement and anti-overflow when having solved among the current electromagnetism stove cooking utensil 200 because NCT subassembly and anti-overflow electrode establish on pot cover 10 and cause pot cover 10 to take off.

In this embodiment, when the anti-overflow probe 23 and the temperature measuring component 24 are disposed on the pot body 20, in order to prevent the anti-overflow probe 23 and the temperature measuring component 24 from being damaged in the using process, specifically, in this embodiment, the assembly box 21 covered on the temperature measuring component 24 is disposed on the outer sidewall of the pot body 20, that is, in this embodiment, the assembly box 21 is covered on the temperature measuring component 24, so as to shield and protect the temperature measuring component 24 from being exposed outside the pot body 20, meanwhile, in this embodiment, one end of the anti-overflow probe 23 is located in the assembly box 21, and the other end of the anti-overflow probe 23 extends out of the top end of the assembly box 21 to contact with the metal outer edge 111, or the other end of the anti-overflow probe 23 extends into the pot body 20, wherein the situation that the other end of the anti-overflow probe 23 extends into the pot body 20 is specifically described in the following second embodiment, in this embodiment, the other end protrudes from the top end of the fitting box 21.

In this embodiment, in order to ensure that the anti-overflow probe 23 is covered on the pot body 20 by the pot cover 10 and tightly contacts with the metal outer edge 111, specifically, the anti-overflow probe 23 is retractable up and down on the assembly box 21, that is, the anti-overflow probe 23 has elasticity, so that when the pot cover 10 is covered on the pot body 20, the anti-overflow probe 23 is compressed by the gravity of the pot cover 10, and the anti-overflow probe 23 tightly abuts against the metal outer edge 111 under the action of the elasticity, wherein in this embodiment, the anti-overflow probe 23 may have elasticity, for example, the anti-overflow probe 23 is made of an elastic material, or the anti-overflow probe 23 is supported by silica gel or a spring to have elasticity.

In the embodiment, when the assembly box 21 is disposed on the outer side wall of the pot body 20, the assembly box 21 not only shields the temperature measuring component 24 and can be used for the anti-overflow probe 23, but also in this embodiment, the assembly box 21 can be used as a handle of the pot 100, that is, the outer surface of the assembly box 21 can be set as a handle for a user to carry, so as to avoid additionally disposing the handle of the pot 100 on the pot body 20, and meanwhile, in order to facilitate carrying, in this embodiment, the number of the assembly boxes 21 can be two, and the two assembly boxes 21 are symmetrically disposed on the outer side wall of the pot body 20, so that the two assembly boxes 21 are used as a pair of handles of the pot 100. In this embodiment, when the number of the assembly boxes 21 is two, the anti-overflow probe 23 and the temperature measuring component 24 may be disposed in one assembly box 21, or the anti-overflow probe 23 and the temperature measuring component 24 may be disposed in both of the two assembly boxes 21, specifically, the temperature measuring components 24 of the anti-overflow probes 23 in corresponding numbers are disposed according to practical applications.

In this embodiment, the assembly box 21 includes a bottom cover 213, a mounting seat 212 and an upper cover 211, wherein the bottom cover 213 and the mounting seat 212 are fixed on the outer sidewall of the pot body 20 by a fastener, the upper cover 211 is covered on the mounting seat 212, the overflow-preventing probe 23 is telescopically arranged at the top end of the bottom cover 213, the temperature measuring component 24 is located between the bottom cover 213 and the outer sidewall of the pot body 20, and specifically, the temperature measuring component 24 is tightly attached to the outer sidewall of the pot body 20 by the extrusion of the bottom cover 213.

In this embodiment, in order to facilitate the bottom cover 213 to be fixed on the outer side wall of the pot body 20 through the fastener, specifically, the outer side wall of the pot body 20 is provided with a plurality of connecting members 216, the bottom cover 213 and the mounting seat 212 are fixed on the pot body 20 through the fastener and the connecting members 216, in this embodiment, the number of the connecting members 216 is set according to the specific actual requirement, the connecting members 216 specifically can be solder bumps, the solder bumps are provided with threaded holes, the fastener is specifically a screw, and thus the bottom cover 213 and the mounting seat 212 are fixed on the pot body 20 through the screw and the solder bump threaded connection.

In the present embodiment, in order to prevent impurities such as liquid from entering the assembly case 21 from the gap between the bottom cover 213 and the mounting seat 212 and damaging the temperature measuring assembly 24 and the anti-overflow probe 23, specifically, a sealing member 214 is disposed between the bottom cover 213 and the mounting seat 212, the sealing member 214 is used for sealing between the bottom cover 213 and the mounting seat 212, and the sealing member 214 is specifically a silicone member.

Wherein, in this embodiment, be equipped with clamp block 215 between bottom 213 and the temperature measurement subassembly 24, temperature measurement subassembly 24 hugs closely on the lateral wall of pot body 20 through clamp block 215, and is concrete, bottom 213 extrusion clamp block 215 hugs closely temperature measurement subassembly 24 on the lateral wall of pot body 20, and wherein, in this embodiment, clamp block 215 specifically is the silica gel piece, and the silica gel piece has certain elasticity, avoided bottom 213 direct extrusion temperature measurement subassembly 24 to hug closely on the lateral wall of pot body 20 when causing temperature measurement subassembly 24 metal casing easily by bottom 213 wearing and tearing or to the not tight problem of temperature measurement subassembly 24 extrusion like this. Therefore, in this embodiment, the purpose that the metal shell of the temperature measurement component 24 is tightly attached to the outer wall of the pot body 20 is achieved through the pressing block 215, and the temperature detected by the temperature measurement component 24 is more accurate.

Wherein, in the prior art, because the NCT assemblies are all arranged on the pot cover 10, the temperature or the anti-overflow signal detected by the NCT assemblies are all sent to the control board in the induction cooker 30 in a wireless manner, but a wireless connection mode is adopted, the cost of the wireless transmitting and receiving device is high, and may be interfered, and the signal is unstable, for this reason, in order to solve the above problems, in this embodiment, specifically, a telescopic connection electrode 22 connected with the anti-overflow probe 23 and the temperature measuring assembly 24 is arranged at the bottom end of the assembly box 21, the connection electrode 22 is used for electrically connecting the anti-overflow probe 23, the temperature measuring assembly 24 and the pot body 20 with the control board arranged in the induction cooker 30, specifically, in this embodiment, the anti-overflow probe 23, the temperature measuring assembly 24 and the pot body 20 are in contact with the induction electrode 32 (see fig. 3A) on the induction cooker 30 through the connection, in this embodiment, the pot body 20 is provided with the connecting electrode 22, the induction electrode 32 is provided on the induction cooker 30, the pot body 20 and the induction cooker 30 are electrically connected through the connecting electrode 22 and the induction electrode 32, so that the anti-overflow probe 23, the temperature measuring component 24 and the pot body 20 are directly electrically connected with the control board in the induction cooker 30 through the connecting electrode 22 and the induction electrode 32, and the problems of high cost and unstable signals when the signals are transmitted between the pot 100 and the induction cooker 30 in a wireless manner are solved.

In this embodiment, when the connection electrode 22 is disposed on the assembly box 21, specifically, the connection electrode 22 is located in the bottom end of the assembly box 21, and one end of the connection electrode 22 extends out from the bottom end of the assembly box 21 and contacts with the induction electrode 32 of the induction cooker 30, wherein the connection electrode 22 may have elasticity itself, or the connection electrode 22 may elastically stretch out and draw back through silica gel or a spring support, wherein in this embodiment, it should be noted that, when the number of the assembly boxes 21 is two, when the anti-overflow probes 23 and the temperature measurement assemblies 24 are disposed in two assembly boxes 21, the connection electrode 22 also needs to be disposed on two assembly boxes 21 at this time.

Wherein, in this embodiment, still include: and an anti-overflow lead (not shown), wherein two ends of the anti-overflow lead are respectively connected with the metal shell of the temperature measuring component 24 and the connecting electrode 22, the pot body 20 is connected with the connecting electrode 22 through the metal shell and the anti-overflow lead, or two ends of the anti-overflow lead are respectively connected with the pot body 20 and the connecting electrode 22.

In this embodiment, the number of the connecting electrodes 22 is three, wherein the anti-overflow probe 23 is connected to one of the connecting electrodes 22, two electrodes of the temperature measuring assembly 24 are respectively connected to the other two connecting electrodes 22, one end of the anti-overflow lead is connected to one of the connecting electrodes 22 connected to the temperature measuring assembly 24, that is, the anti-overflow lead and one of the electrodes of the temperature measuring assembly 24 share one connecting electrode 22, wherein in this embodiment, when the number of the connecting electrodes 22 is three, the number of the sensing electrodes 32 on the induction cooker 30 is also three.

In this embodiment, the electromagnetic oven 30 is provided with an adapting portion 31 (see fig. 3A) which is engaged with the assembling box 21, specifically, when the pot 100 is placed on the electromagnetic oven 30, the assembling box 21 on the pot body 20 is engaged with the adapting portion 31 on the electromagnetic oven 30, specifically, the assembling box 21 on the pot body 20 is engaged with the adapting portion 31 on the electromagnetic oven 30 in an inserting manner, so that the pot 100 is positioned, and especially when the number of the assembling boxes 21 is two, at this time, the number of the adapting portions 31 on the electromagnetic oven 30 is also two, so that the pot body 20 and the electromagnetic oven 30 realize a better positioning effect through the two assembling boxes 21 and the adapting portions 31, and the pot body 20 is prevented from rotating on the electromagnetic oven 30, wherein in this embodiment, since the connecting electrode 22 is provided on the assembling box 21, when the induction electrode 32 on the electromagnetic oven 30 is specifically provided on the adapting portion 31, when the assembling box 21 is engaged with the adapting portion 31, the connection electrode 22 comes into contact with the sensing electrode 32.

Wherein, in this embodiment, the control board can be disposed in the induction cooker 30, and the control board is connected to the induction electrode 32, so that the overflow prevention probe 23 and the temperature measuring assembly 24 are electrically connected with the control board in the induction cooker 30 through the contact between the connecting electrode 22 and the induction electrode 32, or, in this embodiment, control panels may be disposed on both the pan body 20 and the induction cooker 30, specifically, the control panels may include a first control panel and a second control panel, wherein, the first control board is arranged in the assembly box 21 and is connected with the connecting electrode 22, the anti-overflow probe 23, the temperature measuring component 24 and the pan body 20 are all electrically connected with the first control board, that is, the anti-overflow probe 23 and the temperature measuring component 24 are not directly connected to the connecting electrode 22, but are connected to the first control board, the second control board is disposed in the induction cooker 30 and is connected to the induction electrode 32, and the first control board and the second control board are electrically connected by the contact of the connecting electrode 22 and the induction electrode 32.

In this embodiment, signal transmission can be performed between the pot body 20 and the induction cooker 30 in a wireless manner, specifically, a wireless transmission module can be arranged in the assembly box 21, and the wireless transmission module is used for transmitting a conduction signal between the anti-overflow probe 23 and the pot body 20 and a temperature signal detected by the temperature measurement component 24 to the induction cooker 30, so that the induction cooker 30 controls a heating state according to the conduction signal and the temperature signal, wherein in this embodiment, when the wireless transmission module is set, specifically, the wireless transmission module can be set on the first control board, and the first control board controls the wireless transmission module to transmit a signal to the induction cooker 30.

Example two

Fig. 2 is a schematic sectional view of a pot body in a pot tool according to an embodiment of the present invention.

The difference between this embodiment and the above embodiments is: in this embodiment, as shown in fig. 2, one end of the anti-overflow probe 23 extends into the pot body 20, specifically, one end of the anti-overflow probe 23 extends into the pot body 20 and contacts with the metal inner edge 112, so when the soup overflowing from the pot body 20 contacts with the metal inner edge 112 or the anti-overflow probe 23, the pot body 20 and the anti-overflow probe 23 are conducted, specifically, one end of the anti-overflow probe 23 passes through the pot body 20 and extends into the pot body 20 and contacts with the metal inner edge 112, so when the soup in the pot body 20 contacts with the anti-overflow probe 23, the soup and the pot body 20 are conducted to form an anti-overflow loop, or when the soup in the pot body 20 contacts with the metal inner edge 112, at this time, the anti-overflow probe 23, the metal inner edge 112, the soup and the pot body 20 are conducted to form an anti-overflow loop, and the control board controls.

In this embodiment, when one end of the anti-overflow probe 23 extends into the pot body 20, the length of the anti-overflow probe 23 extending into the pot body may be 1-10mm, for example, the length of the anti-overflow probe 23 extending into the pot body may be 2mm or 6mm, that is, in this application, when one end of the anti-overflow probe 23 extends out of the pot body or extends into the pot body, the length of the anti-overflow probe 23 extending out is 1-10 mm.

Wherein, in the embodiment, one end of the anti-overflow probe 23 is fixed on the pot body 20, and the other end passes through the pot body 20 and extends into the pot body 20, therefore, when the anti-overflow probe 23 is arranged on the pot body 20 and when the anti-overflow probe 23 is arranged at a lower position on the pot body 20 and one end of the anti-overflow probe 23 extends into the pot body 20, the soup and the anti-overflow probe 23 are easy to contact to cause misjudgment, when the position of the overflow prevention probe 23 on the pot body 20 is higher, the situation that the soup is contacted with the overflow prevention probe 23 when the soup overflows from the pot body 20 is easy to occur, so that the problem that the overflow prevention function of the pot 100 is delayed is caused, therefore, in the embodiment, in order to ensure that the anti-overflow probe 23 plays a role of accurately preventing overflow, the anti-overflow probe 23 is arranged at the upper part of the pot body 20, specifically, the vertical distance between the anti-overflow probe 23 and the pot mouth can be 5-50mm, for example, the vertical distance between the spill prevention probe 23 and the pot mouth may be 25mm or 35 mm.

In this embodiment, when one end of the anti-overflow probe 23 passes through the pot body 20 and extends into the pot body 20, specifically, the pot body 20 is provided with a hole through which the anti-overflow probe 23 extends into the pot body 20, and a sealing member is arranged between the anti-overflow probe 23 and the hole, so as to prevent the soup in the pot body 20 from leaking outwards from the hole through the sealing member, wherein in this embodiment, in order to prevent the anti-overflow probe 23 from being too high or too low on the pot body 20 and causing the problem of inaccurate anti-overflow, in this embodiment, specifically, the vertical distance between the hole and the pot mouth is set to be 5-50 mm.

In this embodiment, when one end of the anti-overflow probe 23 extends into the pot body 20 and contacts with the inner metal edge 112, at this time, the metal region 11 on the pot body 20 may only include the inner metal edge 112, the outer metal edge 111 may be used as a supporting edge cover and disposed on the outer edge of the pot mouth, and at this time, the outer metal edge 111 may be metal or non-metal.

In this embodiment, the structures of the temperature measuring component 24, the assembling box 21, the metal inner edge 112, and the like are specifically referred to the above embodiments, and are not described in detail in this embodiment.

EXAMPLE III

Fig. 3A is a schematic view of a split structure of an electromagnetic oven cooker provided by the third embodiment of the present invention, and fig. 3B is a schematic view of a split structure of an electromagnetic oven cooker provided by the third embodiment of the present invention.

The present embodiment provides an induction cooker 200, as shown in fig. 3A-3B, including an induction cooker 30 and any one of the cookers 100, wherein the structure and the anti-overflow process of the cooker 100 can specifically refer to the above embodiments, and no further description is provided in this embodiment.

In this embodiment, the induction electrode 32 contacting the connection electrode 22 on the pot body 20 is disposed on the induction cooker 30, the induction electrode 32 is electrically connected to the control board disposed in the induction cooker 30, and the anti-overflow electrode and the temperature measurement component 24 on the pot body 20 are electrically connected to the control board through the contact between the connection electrode 22 and the induction electrode 32.

Wherein, in this embodiment, be equipped with on the electromagnetism stove 30 with the assembly box 21 complex adaptation portion 31 that sets up on the pan 100, the cooperation of assembly box 21 and adaptation portion 31 makes pan 100 realize the location on electromagnetism stove 30, wherein, in this embodiment, the quantity of adaptation portion 31 can be two, assembly box 21 corresponds to set up two this moment, when pan 100 was placed on electromagnetism stove 30 and was heated like this, only when assembly box 21 was corresponding with adaptation portion 31, pan 100 could be placed on electromagnetism stove 30 accurately, pot body 20 has realized better positioning effect with electromagnetism stove 30 through two assembly boxes 21 and adaptation portion 31, and prevent that pot body 20 from rotating on electromagnetism stove 30, in this embodiment, assembly box 21 specifically fixes a position through the grafting cooperation mode with adaptation portion 31.

In this embodiment, since the connection electrode 22 is disposed on the assembly box 21, in order to realize the contact between the connection electrode 22 and the induction electrode 32, in this embodiment, the induction electrode 32 is specifically disposed on the adapting portion 31, specifically, the induction electrode 32 is disposed on a surface of the adapting portion 31 facing the assembly box 21, so that when the pot 100 is placed on the induction cooker 30, the assembly box 21 is in insertion fit with the adapting portion 31, and the connection electrode 22 is in contact with the induction electrode 32, the anti-overflow probe 23 and the temperature measurement component 24 on the pot 100 are in contact with the connection electrode 22 through the induction electrode 32 and perform signal transmission with the control board in the induction cooker 30.

In the present embodiment, the sensing electrodes 32 are specifically metal sheets, wherein when the number of the connecting electrodes 22 is three, the number of the sensing electrodes 32 is also three, that is, three metal sheets are disposed on one surface of the adapting portion 31 facing the assembling box 21, and the metal sheets are electrically connected to the control board in the induction cooker 30.

In this embodiment, the induction cooker 30 is specifically a square oven, or the induction cooker 30 is a round oven, wherein when the induction cooker 30 is a square oven or a round oven, the two adapting portions 31 are symmetrically disposed on the side wall of the induction cooker 30.

In this embodiment, the adapting portion 31 is specifically a protruding block protruding outward from the sidewall of the induction cooker 30, and two ends of the protruding block extend to the bottom surface of the bottom casing and the panel of the induction cooker 30, and when the induction cooker 30 is a circular cooker, the radian of the outer side surface of the adapting portion 31 is consistent with the radian of the circular sidewall of the induction cooker 30.

Wherein, in this embodiment, when the adapting portion 31 adapted to the assembling box 21 is disposed on the electromagnetic oven 30, the adapting portion 31 not only can position the assembling box 21 of the pot body 20, but also in this embodiment, the adapting portion 31 can be used as a handle of the electromagnetic oven 30, so that when a user carries or moves the electromagnetic oven 30, the user can directly hold the adapting portion 31 to move the electromagnetic oven 30, especially when the number of the adapting portions 31 is two, at this time, the adapting portions 31 are symmetrically disposed on the side wall of the electromagnetic oven 30, and the two adapting portions 31 can be used as two handles for the user to carry the electromagnetic oven 30, meanwhile, in this embodiment, when the adapting portions 31 are disposed on the side wall of the electromagnetic oven 30 in an extending manner, compared with the electromagnetic oven 30 without the adapting portions 31, the area of the electromagnetic oven 30 contacting with the working table is increased, so that the position of the electromagnetic oven 30 is more stable during the cooking process, is not easy to move. In addition, when the adapting portion 31 is arranged on the side wall of the electromagnetic oven 30, at this time, the area of the whole outer side wall of the electromagnetic oven 30 is increased, at this time, an operation area can be arranged on the outer side surface of the adapting portion 31, and an operation key or a display screen can be arranged on the operation area, wherein, in the embodiment, when the operation key or the display area is arranged on the adapting portion 31, the electromagnetic oven 30 avoids the operation area arranged on the panel of the electromagnetic oven 30, and only a heating area needs to be arranged on the panel of the electromagnetic oven 30, so that the size of the electromagnetic oven 30 is reduced, the weight is reduced, and the electromagnetic oven 30 tends to be light and thin.

In this embodiment, when the adapting portion 31 is disposed on the induction cooker 30, the adapting portion 31 and the sidewall of the induction cooker 30 may be fixed by welding, clamping, or fastening with a fastener, or in this embodiment, the adapting portion 31 may be integrally formed with a bottom case of the induction cooker 30.

In this embodiment, in order to control the heating state of the induction cooker, specifically, the electromagnetic cooker further includes a control board, the control board may be disposed in the induction cooker 30, and the control board is connected to the induction electrode 32, such that the anti-overflow probe 23 and the temperature measuring component 24 are in contact with the induction electrode 32 through the connection electrode 22 to be electrically connected to the control board in the induction cooker 30, or in this embodiment, the control board may be disposed on both the cooker body 20 and the induction cooker 30, specifically, the electromagnetic cooker further includes a first control board and a second control board, wherein the first control board is disposed in the assembly box 21 and connected to the connection electrode 22, the anti-overflow probe 23, the temperature measuring component 24 and the cooker body 20 are electrically connected to the first control board, that is, the anti-overflow probe 23 and the temperature measuring component 24 are not directly connected to the connection electrode 22 but connected to the first control board, the second control board is disposed in the induction cooker 30 and, the first control board and the second control board are electrically connected through the contact of the connecting electrode 22 and the induction electrode 32, or the first control board and the second control board transmit signals in a wireless mode, for example, a wireless transmission module is arranged on the first control board, correspondingly, a wireless receiving module is arranged on the second control board, and thus, the wireless transmission of signals is carried out between the pot body 20 and the induction cooker 30 through the wireless transmission module and the wireless receiving module.

In the description of the present invention, it is to be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, an indirect connection via an intermediary, a connection between two elements, or an interaction between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless specifically stated otherwise.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (20)

1. A pot, includes pot body (20) and pot cover (10), its characterized in that:

be equipped with on the pot body (20) with the pot body (20) is insulating and with control panel electric property continuous anti-overflow probe (23), just anti-overflow probe (23) with the regional (11) contacts of metal that set up on pot cover (10), the pot body (20) with the regional (11) of metal is insulating and with electric property links to each other between the control panel, and works as the soup that overflows in the pot body (20) contacts anti-overflow probe (23) perhaps during the regional (11) of metal of pot cover (10), the pot body (20) with anti-overflow probe (23) switch on, so that the control panel is according to the heating state of switching on signal control electromagnetism stove.

2. The pot as claimed in claim 1, wherein the metal area (11) is divided into a metal outer edge (111) and a metal inner edge (112), the metal outer edge (111) is located outside the pot body (20), one end of the spill-proof probe (23) extends out of the pot body (20) and contacts with the metal outer edge (111), the metal inner edge (112) is located inside the pot body (20), and when the soup overflowing from the inside of the pot body (20) contacts with the metal inner edge (112), the pot body (20) and the spill-proof probe (23) are conducted;

or one end of the anti-overflow probe (23) extends into the pot body (20) and is in contact with the metal inner edge (112), and when soup overflowing from the pot body (20) contacts the metal inner edge (112) or the anti-overflow probe (23), the pot body (20) is communicated with the anti-overflow probe (23).

3. The pot as claimed in claim 2, characterized in that the metal inner rim (112) is located at the end inside the pot body (20) lower than the outer rim of the pot mouth of the pot body (20).

4. The cookware according to claim 2, wherein the metal inner rim (112) is a ring-shaped metal inner rim;

the metal outer edge (111) is a metal sheet, or the metal outer edge (111) is an annular metal outer edge.

5. The cookware according to any of claims 1 to 4, wherein an insulating member is provided between the lid (10) and the body (20) for insulating the metallic area (11) from the body (20) when the lid (10) is placed on the body (20);

wherein the insulating part is arranged on the metal area (11) and used for insulating the pot body (20), or the insulating part is arranged on the pot body (20) and used for insulating the metal area (11).

6. The pot as claimed in any one of claims 1 to 4, further comprising: temperature measurement subassembly (24), establish temperature measurement subassembly (24) the lateral wall of the pot body (20), temperature measurement subassembly (24) with the control panel electrical property links to each other, just temperature measurement subassembly (24) are used for detecting the temperature of pan.

7. The pot as claimed in claim 6, wherein an assembly box (21) covered on the temperature measuring component (24) is arranged on the outer side wall of the pot body (20), one end of the spill-proof probe (23) is positioned in the assembly box (21), the other end of the spill-proof probe extends out of the top end of the assembly box (21) to contact with the metal area (11), or the other end of the spill-proof probe (23) extends into the pot body (20).

8. The pot as claimed in claim 7, wherein the assembly box (21) comprises a bottom cover (213), a mounting seat (212) and an upper cover (211), wherein the bottom cover (213) and the mounting seat (212) are fixed on the outer side wall of the pot body (20) through fasteners, the upper cover (211) is covered on the mounting seat (212), the spill-proof probe (23) is telescopically arranged on the bottom cover (213), and the temperature measuring component (24) is located between the bottom cover (213) and the outer side wall of the pot body (20).

9. The pot as claimed in claim 8, wherein a plurality of connectors (216) are provided on the outer side wall of the pot body (20), and the bottom cover (213) and the mounting seat (212) are fastened and fixed on the pot body (20) through the fasteners and the connectors (216).

10. The pot according to claim 8, characterized in that a seal (214) is provided between the bottom cover (213) and the mounting seat (212), the seal (214) being used to seal between the bottom cover (213) and the mounting seat (212).

11. The pot as claimed in claim 8, wherein a pressing block (215) is arranged between the bottom cover (213) and the temperature measuring component (24), and the temperature measuring component (24) is tightly attached to the outer side wall of the pot body (20) through the pressing block (215).

12. The pot as claimed in claim 11, wherein the bottom end of the assembly box (21) is provided with a telescopic connection electrode (22) connected with the overflow prevention probe (23) and the temperature measurement component (24), the connection electrode (22) is used for electrically connecting the overflow prevention probe (23), the temperature measurement component (24) and the pot body (20) with the control board arranged in the induction cooker.

13. The pot as claimed in claim 12, characterized in that the number of the fitting boxes (21) is two, and the two fitting boxes (21) are symmetrically arranged on the outer side wall of the pot body (20);

and the connecting electrode (22), the anti-overflow probe (23) and the temperature measuring component (24) are arranged in at least one assembling box (21).

14. The cookware of claim 13, further comprising: an anti-overflow lead, wherein two ends of the anti-overflow lead are respectively connected with the metal shell of the temperature measuring component (24) and the connecting electrode (22), the pot body (20) is connected with the connecting electrode (22) through the metal shell and the anti-overflow lead, or,

two ends of the anti-overflow lead are respectively connected with the pot body (20) and the connecting electrode (22).

15. The cookware according to claim 14, wherein the number of the connecting electrodes (22) is three, wherein the spill-proof probe (23) is connected with one of the connecting electrodes (22), two electrodes of the temperature measuring assembly (24) are respectively connected with the other two connecting electrodes (22), and one end of the spill-proof wire is connected with one of the connecting electrodes (22) connected with the temperature measuring assembly (24).

16. The pot as claimed in claim 11, wherein a wireless transmission module is provided in the assembly box (21), and the wireless transmission module is used for transmitting a conduction signal between the overflow prevention probe (23) and the pot body (20) and a temperature signal detected by the temperature measurement component (24) to the induction cooker, so that the induction cooker controls a heating state according to the conduction signal and the temperature signal.

17. An induction cooking appliance, characterized in that it comprises an induction cooking appliance (30) and a cookware according to any of the previous claims from 1 to 16.

18. The induction cooker according to claim 17, wherein the induction cooker is provided with an induction electrode (32) corresponding to the connection electrode (22) on the pot (100), and the spill-proof probe (23) and the temperature measurement component (24) on the pot (100) are electrically connected with the induction cooker through the contact between the induction electrode (32) and the connection electrode (22).

19. The induction cooker according to claim 18, wherein the induction cooker is provided with an adapter (31) which is engaged with a fitting box (21) of the pot (100) to position the pot (100) on the induction cooker, and the induction electrode (32) is provided on the adapter (31).

20. The induction cooker of claim 18 or 19, further comprising:

the control board is arranged in the electromagnetic oven, the anti-overflow probe (23), the temperature measuring component (24) and the pot body are in contact with the induction electrode (32) through the connecting electrode (22) and are electrically connected with the control board, or,

further comprising: first control panel and second control panel, wherein, first control panel is established in assembly box (21) on pan (100) and with connecting electrode (22) link to each other, anti-overflow probe (23) temperature measurement subassembly (24) and the pan body (20) all with first control panel electrical property links to each other, the second control panel is established in the electromagnetism stove and with the induction electrode links to each other, first control panel with the second control panel passes through connecting electrode (22) with induction electrode (32) contact realizes that the electrical property links to each other, perhaps, first control panel with the second control panel passes through wireless mode transmission signal.

Images