CN216702314U - Pan component, pan and cooking utensil - Google Patents

Abstract

The utility model discloses a cookware component, a cookware and a cooking utensil, wherein the cookware component is a cooker cover or a cooker body, the cookware component comprises a mounting wall, a detection device and a heat insulation structure, the mounting wall is provided with a mounting part, and the mounting part is provided with a mounting hole; the detection device comprises a detection seat arranged on the outer side of the installation wall and a detection part arranged on one side of the detection seat and extending into the installation hole, wherein the detection seat is internally provided with an electric assembly electrically connected with the detection part, and the detection device is integrated on the installation wall and is close to food materials cooked, so that the monitoring precision of the detection device is improved during cooking, but the operating environment temperature of the electric assembly cannot be too high, and the heat insulation structure is arranged between the detection seat and the installation wall and used for blocking heat conduction of the installation wall to the detection seat, so that the normal environment temperature of the operation of the electric assembly can be guaranteed.

Description

Pan component, pan and cooking utensil

Technical Field

The utility model relates to the technical field of cooking appliances, in particular to a cooker component, a cooker and a cooking appliance.

Background

At present along with quality of life's promotion and the development of science and technology level, cooking utensil on the market is on its basis of culinary art function, and the designer optimizes the pan with improving culinary art experience as the purpose to increase each item additional function, the most common have the pot body antiseized, the even heat conduction etc. of pot body. However, there are still some disadvantages to optimizing and improving the cookware body, for example, in the current cooking, the purpose is not only for satiety, but also for making more delicious food based on satiety, and the cooking conditions of many food needs to be grasped about temperature, humidity and cooking time in the cooking process in addition to the food material.

Of course, in the prior art, there is also a device additionally installed on the cooking appliance and having various monitoring functions, but in the prior art, the device is generally placed at the tail end of the handle of the pot far away from the pot or integrated on the cooking appliance, so as to avoid the device from malfunctioning due to high temperature, but such an installation would cause the device to be too far away from the food material being cooked, so that the functional accuracy of the device on the cooking appliance is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a cooker component, a cooker and a cooking utensil, and aims to realize that a device with a monitoring function is arranged close to cooking materials by ensuring the operating environment of the device so as to solve the problem of low functional accuracy of the device in the prior art.

In order to achieve the above object, the present invention provides a cookware member, wherein the cookware member is a pot cover or a pot body, and the cookware member comprises:

the mounting wall is provided with a mounting part, and the mounting part is provided with a mounting hole;

the detection device comprises a detection seat arranged on the outer side of the installation wall and a detection part arranged on one side of the detection seat and extending into the installation hole, and an electrical assembly electrically connected with the detection part is arranged in the detection seat; and the number of the first and second groups,

and the heat insulation structure is arranged between the detection seat and the installation wall and used for blocking the installation wall from conducting heat to the detection seat.

Optionally, the heat insulation structure includes a heat insulation sleeve, the heat insulation sleeve is sleeved on the periphery of the detection portion, and is located between the detection seat and the installation wall, so that the detection seat and the installation wall are spaced apart from each other.

Optionally, a supporting step portion is arranged on the inner side wall of the heat insulation sleeve;

the heat insulation structure further comprises a heat insulation supporting structure, and the heat insulation supporting structure is arranged between the supporting step portion and the detection seat.

Optionally, one end of the heat insulation sleeve, which is far away from the installation wall, extends to the outer side of the detection seat, and is spaced from the outer side of the detection seat.

Optionally, the thermally insulated support structure comprises:

the heat insulation plate penetrates through the periphery of the detection part, is positioned between the supporting step part and the detection seat and is used for supporting the detection device; and (c) a second step of,

and a heat insulation pad positioned between the heat insulation board and the supporting step portion.

Optionally, the electrical component comprises a battery,

the battery with be provided with thermal-insulated subassembly between the detection seat, thermal-insulated subassembly includes:

the heat insulation sleeve is sleeved and coated on the battery and used for absorbing heat outside the battery; or the like, or, alternatively,

the heat insulation sleeve seat is arranged on the inner side of the detection seat and is positioned between the battery and the detection seat.

Optionally, the insulating nest comprises:

the heat insulation seat is arranged in the detection seat; and the number of the first and second groups,

the heat insulation cotton is arranged on the heat insulation seat, is positioned between the battery and the heat insulation seat and is used for blocking the heat conduction of the heat insulation seat to the battery.

Optionally, the electrical assembly comprises:

the display device is used for displaying the detection result of the detection device; and/or the presence of a gas in the gas,

and the communication device is used for being in communication connection with the control device of the cooking appliance.

Optionally, the detection device is a temperature measurement device, and the detection part is a temperature probe.

The present invention also provides a cookware, including a cookware member, the cookware member including:

the mounting wall is provided with a mounting part, and the mounting part is provided with a mounting hole;

the detection device comprises a detection seat arranged on the outer side of the installation wall and a detection part arranged on one side of the detection seat and extending into the installation hole, and an electrical assembly electrically connected with the detection part is arranged in the detection seat; and (c) a second step of,

and the heat insulation structure is arranged between the detection seat and the installation wall and used for blocking the installation wall from conducting heat to the detection seat.

The utility model also provides a cooking appliance comprising a pot, the pot comprising a pot component, the pot component comprising:

the mounting wall is provided with a mounting part, and the mounting part is provided with a mounting hole;

the detection device comprises a detection seat arranged on the outer side of the installation wall and a detection part arranged on one side of the detection seat and extending into the installation hole, and an electrical assembly electrically connected with the detection part is arranged in the detection seat; and the number of the first and second groups,

and the heat insulation structure is arranged between the detection seat and the installation wall and used for blocking the installation wall from conducting heat to the detection seat.

According to the technical scheme, the pot cover or the pot body is provided with the mounting wall for mounting the detection device, so that the detection device can be mounted on the pot cover or the pot body, and the detection device is close to cooked food materials in the cooking process to improve the detection accuracy of the detection device; in addition, the detection part of the detection device extends into the mounting wall from the mounting hole on the mounting wall, so that the detection part is positioned in the environment of the food in the pot during the cooking process, the condition of the food in the pot or the environment in the pot can be detected, and the detection precision is high due to no shielding during the detection process; when guaranteeing to detect the precision, need ensure the safety of detection device place environment install the wall with set up one between the detection device thermal-insulated structure will heat on the installation wall carries out the separation, avoids the heat to follow install the wall to detection device conduction to ensure the culinary art in-process detection device's temperature is maintained in normal operating range, avoids in the detection device electrical component is heated and is become invalid.

Drawings

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

Fig. 1 is a perspective view of a pot component according to an embodiment of the present invention;

FIG. 2 is a schematic half-section view of FIG. 1;

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is a perspective view of two embodiments of the insulation assembly of FIG. 1.

The reference numbers indicate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1000	Pot component	242	Heat insulation sleeve seat
1	Mounting wall	2421	Heat insulation seat
				11	Mounting part	2422	Heat insulation cotton
11a	Stud bolt		2423					Heat insulation wall
				111	Mounting hole	2424	Gap
112	Flange	3	Heat insulation structure
				2	Detection device	31	Heat insulation sleeve
2a	Temperature measuring device	311	Supporting step part
				21	Detection seat	312	Convex rib
211	Positioning column	313	Limiting groove
				22	Probe unit	314	Positioning projection
22a	Temperature probe		315					Heat insulation cavity
				23	Electrical assembly	32	Heat insulation support structure
231	Battery with a battery cell	321	Heat insulation board
				232	Display device	3211	Positioning notch
24	Thermal insulation assembly	3212	Spacing protrusion
				241	Heat insulation sleeve	322	Heat insulation pad

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

At present along with quality of life's promotion and the development of science and technology level, cooking utensil on the market is on its basis of culinary art function, and the designer optimizes the pan with improving culinary art experience as the purpose to increase each item additional function, the most common have the pot body antiseized, the even heat conduction etc. of pot body. However, there are still some disadvantages to optimizing and improving the cookware body, for example, in the current cooking, the purpose is not only for satiety, but also for making more delicious food based on satiety, and the cooking conditions of many food needs to be grasped about temperature, humidity and cooking time in the cooking process in addition to the food material.

Of course, in the prior art, there is also a device additionally installed on the cooking appliance and having various monitoring functions, but in the prior art, the device is generally placed at the tail end of the handle of the pot far away from the pot or integrated on the cooking appliance, so as to avoid the device from malfunctioning due to high temperature, but such an installation would cause the device to be too far away from the food material being cooked, so that the functional accuracy of the device on the cooking appliance is reduced.

In view of the above, fig. 1 to 4 are schematic views of embodiments of a cookware element according to the present invention, which will be described with reference to the accompanying drawings.

Referring to fig. 1 to 3, the pot member 1000 is a pot cover or a pot body, the pot member 1000 includes a mounting wall 1, a detection device 2 and a heat insulation structure 3, the mounting wall 1 is provided with a mounting portion 11, and the mounting portion 11 is provided with a mounting hole 111; the detection device 2 comprises a detection seat 21 arranged on the outer side of the installation wall 1 and a detection part 22 arranged on one side of the detection seat 21 and extending into the installation hole 111, and an electric assembly 23 electrically connected with the detection part 22 is arranged in the detection seat 21; the heat insulation structure 3 is disposed between the detection seat 21 and the mounting wall 1, and is used for blocking the mounting wall 1 from conducting heat to the detection seat 21.

In the technical scheme of the utility model, an installation wall 1 for installing the detection device 2 is arranged on a pot cover or a pot body, so that the detection device 2 can be installed on the pot cover or the pot body, and the detection device 2 is close to cooked food materials in the cooking process to improve the detection precision of the detection device 2; in addition, the detecting part 22 of the detecting device 2 extends into the mounting wall 1 from the mounting hole 111 on the mounting wall 1, so that the detecting part 22 is positioned in the environment of the food in the pot during the cooking process, the condition of the food in the pot or the environment in the pot can be detected, and the detection precision is high due to no shielding in the detection process; when guaranteeing the detection precision, need ensure the safety of detection device 2 environment the installation wall 1 with set up one between the detection device 2 thermal-insulated structure 3 will the heat on the installation wall 1 carries out the separation, avoids the heat follow the installation wall 1 to detection device 2 conduction to the guarantee culinary art in-process detection device 2's temperature is maintained in normal operating range, avoids in the detection device 2 electric component 23 is heated and is become invalid.

It should be noted that the pot member 1000 may be a pot cover or a pot body, when the mounting wall 1 is disposed on the pot body, the mounting portion 11 is disposed at a position of the pot body away from a bottom cooking area, on one hand, the detection device 2 is prevented from directly contacting food materials to affect cooking operations, on the other hand, the detection device 2 is prevented from being too close to a bottom heat source, heat radiation of the bottom heat source acts on the detection seat 21 located outside the mounting wall 1 through air transfer, and the electrical component 23 in the detection seat 21 is caused to be heated and disabled; when the mounting wall 1 is disposed on the cover, the mounting portion 11 can be disposed at any position on the cover while avoiding interference between the detecting portion 22 of the detecting device 2 and the cover. In this embodiment, the pot member 1000 is configured as a pot cover, and the mounting portion 11 is disposed at the center of the pot cover, wherein the pot member 1000 is configured as a pot cover, on one hand, since the pot body needs to be cleaned frequently, various structures disposed on the pot body are easily damaged, and on the other hand, since the pot cover is mature in punching process, the processing cost is low; will installation department 11 sets up in the pot cover center, and the pot cover is the arc setting on the one hand, and center department is high highest, and vapor can not stop in pot cover center department after condensing into water on the pot cover, reduces the probability that detection device 2 intake avoids its damage, on the other hand thermal-insulated structure 3 can regard as the pot cover handle to use, need not additionally to set up pot cover handle, reduce cost.

Further, the installation portion 11 on the installation wall 1 is used for being connected with the thermal insulation structure 3 in a matching manner, the installation portion 11 can be set to be independent of the installation seat of the installation wall 1, the stud 11a penetrating through the installation wall 1, the accommodating groove formed on the installation wall 1 for accommodating the thermal insulation structure 3, and the matching protrusion formed on the installation wall 1 for being matched with the thermal insulation structure 3, in this embodiment, the installation portion 11 is set to penetrate through the stud 11a of the installation wall 1, the installation hole 111 is formed in the center of the stud 11a, one end of the stud 11a is connected with the thermal insulation structure 3, the other end of the stud 11a is fixed on the inner side of the installation wall 1, the stud 11a further plays a role in fixing the thermal insulation structure 3 on the basis of realizing the penetration of the detection portion 22, need not to set up extra connecting piece and to fix thermal-insulated structure 3, reduce cost.

Furthermore, the end of the stud 11a connected to the heat insulation structure 3 may be abutted or screwed, in this embodiment, a flange 112 is disposed at the end of the stud 11a connected to the heat insulation structure 3, and the flange 112 is abutted to the heat insulation structure 3 to tightly abut the heat insulation structure 3 against the mounting wall 1 to fix the heat insulation structure 3. Compare in threaded connection need the cooperation set up in thermal-insulated structure 3 with elastic washer between the installation wall 1 just can realize firm locking thermal-insulated structure 3 with the condition of installation wall 1 to and during threaded connection double-screw bolt 11a with the unfixed condition of thermal-insulated structure 3 relative position uses the fixed scheme of butt to have simple structure, lock firmly just double-screw bolt 11a can not surpass thermal-insulated structure 3's terminal surface, is convenient for the advantage of detection device 2 connection installation.

In order to achieve a better heat insulation effect, the heat insulation structure 3 includes a heat insulation sleeve 31, the heat insulation sleeve 31 is sleeved on the periphery of the detection part 22 and is located between the detection seat 21 and the installation wall 1, so as to space the detection seat 21 and the installation wall 1. The radiation protection sleeve 31 is close to one side of the installation wall 1 can additionally set up thermal-insulated part for thermal insulation or set up protrusion in the arch on the radiation protection sleeve 31 surface is used for reducing area of contact and then reducing heat conduction for strengthen thermal-insulated ability, in this embodiment, the radiation protection sleeve 31 is close to one side of the installation wall 1 is provided with protruding muscle 312, need not additionally to set up thermal-insulated part in order to play the function that reduces heat conduction, reduce cost.

In addition, the inner side wall of the heat insulating sleeve 31 is provided with a supporting step portion 311, the heat insulating structure 3 further includes a heat insulating support structure 32, and the heat insulating support structure 32 is disposed between the supporting step portion 311 and the detection seat 21. Here, the stud 11a may abut against the supporting step 311 of the heat insulating jacket 31, or may abut against the heat insulating support structure 32, so as to press the heat insulating structure 3 against the mounting wall 1, and in this embodiment, the stud 11a abuts against the supporting step 311, and the heat insulating support structure 32 and the heat insulating jacket 31 sandwich the flange 112 of the stud 11a, so that the heat insulating structure 3 and the stud 11a are preassembled, thereby shortening the tact time on the production line.

Further, the heat insulation support structure 32 includes a heat insulation board 321 and a heat insulation pad 322, the heat insulation board 321 is disposed through the periphery of the detecting portion 22 and located between the supporting step portion 311 and the detecting base 21 for supporting the detecting device 2; the heat insulation pad 322 is located between the heat insulation plate 321 and the supporting step 311. The heat insulation board 321 and one end of the detection device 2 contacting each other are provided with heat insulation protrusions, and the heat insulation protrusions may be disposed at any positions on the heat insulation board 321, and are symmetrically disposed with respect to the detection portion 22, so as to maintain the stability of the detection device 2. In this embodiment, the heat insulation protrusion is annularly disposed at the center of the heat insulation board 321, and the middle opening of the heat insulation protrusion is used for the detection portion 22 to pass through, that is, there is only one side height difference between the heat insulation protrusion and the end surface of the heat insulation board 321, which is convenient for processing. In addition, the heat insulation protrusion is gradually reduced from the end face of the heat insulation plate 321, on one hand, the contact area of the heat insulation protrusion and the detection device 2 is reduced, so that heat conduction is reduced, on the other hand, a boss structure is formed, the support is stable, and on the other hand, a slope is formed, so that the production and the processing are convenient.

In addition, the heat insulating board 321 with be provided with a heat insulating mattress 322 between the heat insulating cover 31, the material of heat insulating mattress 322 can be thermal-insulated rubber, thermal-insulated sponge or other high temperature resistant materials, in this embodiment, heat insulating mattress 322 chooses the thermal-insulated rubber material for use, plays supplementary thermal-insulated effect on the one hand, and on the other hand will when heat insulating cover 31, heat insulating mattress 322 and heat insulating board 321 carry out fixed connection, heat insulating mattress 322 compression is exerted the heat insulating cover 31 with heat insulating board 321 pressure makes the connection stable difficult pine take off.

Specifically, the heat insulating board 321, the heat insulating pad 322 with the connected mode between the heat insulating sleeve 31 can be draw-in groove joint and screw connection, and screw connection can be set up screw connection between two liang, also can be three and connect simultaneously, in this embodiment, use the screw will the heat insulating board 321 the heat insulating pad 322 with fixed connection is carried out simultaneously to the heat insulating sleeve 31, simple structure and connection are stable. The flange 112 of the stud 11a is arranged between the heat insulation plate 321 and the heat insulation sleeve 31, when the screw locks the heat insulation plate 321, the heat insulation pad 322 and the heat insulation sleeve 31, the heat insulation plate 321 and the heat insulation sleeve 31 tightly support and fix the stud 11a, the heat insulation pad 322 is located between the stud 11a and the heat insulation plate 321, the heat insulation pad 322 is compressed under the stress, the elastic force of the stud 11a tightly supports the stud 11a, and the stud 11a is prevented from shaking.

In addition, be provided with spacing arch 3212 on the heat insulating board 321, the last correspondence of heat insulating sleeve 31 is provided with spacing recess 313, just spacing arch 3212 with be provided with the screw hole on the spacing recess 313, the screw hole is used for wearing to establish the screw with fixed connection the heat insulating board 321 with heat insulating sleeve 31, be convenient for heat insulating board 321 with location between the heat insulating sleeve 31, simultaneously, correspond on the heat insulating pad 322 the through-hole is worn to be equipped with in the position of spacing arch 3212, so that the heat insulating pad 322 with the cooperation installation of heat insulating board 321. It should be noted that the number of the limiting protrusions 3212 and the limiting grooves 313 is not limited, and may be two, three or four, in this embodiment, the limiting protrusions 3212 and the limiting grooves 313 are provided in four groups to improve the stability of connection. In addition, a positioning protrusion 314 extending in a direction away from the mounting wall 1 is further disposed on the inner wall of the heat insulation sleeve 31, a positioning notch 3211 is disposed on the edge of the heat insulation plate 321 corresponding to the positioning protrusion 314, and the positioning protrusion 314 is matched with the positioning notch 3211 to position the heat insulation plate 321 in advance when the heat insulation plate 321 is disposed in the heat insulation sleeve 31, so that the limiting groove 313 is matched with the limiting protrusion 3212.

To facilitate the installation of the detecting device 2, one end of the heat insulating sleeve 31 away from the installation wall 1 extends to the outside of the detecting seat 21 and is spaced from the outside of the detecting seat 21. Will the radiation shield 31 extends the setting, has increaseed the handheld area as the pot cover handle on the one hand, is convenient for take, and on the other hand has deepened detection device 2 install in the degree of depth of the thermal-insulated chamber 315 in the radiation shield 31, through the spacing of radiation shield 31 lateral wall, and then be convenient for detection device 2's location installation. In addition, after the detection device 2 is installed and fixed, a gap exists between the detection device 2 and the inner wall of the heat insulation sleeve 31, so that contact conduction heat is avoided, heat conduction is further reduced, and the detection device 2 is protected. It should be noted that the detection device 2 and the fixed connection mode between the heat insulation structure 3 can be a clamping groove clamping connection or a threaded connection, in this embodiment, the detection device 2 and the clamping groove clamping connection is selected for use between the heat insulation structure 3, and the operation is convenient and stable.

Referring to fig. 4, the electrical assembly 23 is disposed in the detection device 2, the electrical assembly 23 includes a battery 231, and in order to prevent the battery 231 from being heated and failed, a heat insulation assembly 24 is disposed between the battery 231 and the detection seat 21, in one embodiment, the heat insulation assembly 24 is configured as a heat insulation sleeve 241, and in another embodiment, the heat insulation assembly 24 is configured as a heat insulation sleeve seat 242.

Specifically, in an embodiment, the heat insulating sleeve 241 covers the battery 231 to absorb heat outside the battery 231, and the heat insulating sleeve 241 may be made of a colloid, a sponge, or a sealed cooling liquid, in this embodiment, the heat insulating sleeve 241 is configured to cover the colloid of the battery 231, and absorbs heat outside the battery 231 through a high specific heat capacity property of the colloid itself to reduce the temperature of the battery 231 and ensure an operating environment of the battery 231.

In another embodiment, the heat insulation sleeve seat 242 is disposed inside the detection seat 21 and between the battery 231 and the detection seat 21. The battery 231 is fixed on the heat insulation sleeve seat 242, and a raised heat insulation wall 2423 is further disposed on the heat insulation sleeve seat 242 between the battery 231 and the side wall of the detection seat 21, and the heat insulation wall 2423 is combined with the bottom end of the heat insulation sleeve seat 242 to isolate the battery 231 from the detection seat 21 so as to isolate the heat of the detection seat 21. Here, a positioning portion is disposed on the heat insulation sleeve seat 242, an engaging portion is correspondingly disposed on the detection seat 21, and the positioning portion is engaged with the engaging portion to limit the heat insulation sleeve seat 242, so as to prevent it from shaking. In this embodiment, the positioning portion is provided as a notch 2424, the matching portion is provided as a positioning column 211, the positioning column 211 can be clamped into the notch 2424 to limit the thermal insulation sleeve holder 242, the two notches are symmetrically provided along the detecting portion 22, and the positioning columns 211 are correspondingly provided to ensure a limiting effect.

Specifically, the heat insulation socket 242 includes a heat insulation seat 2421 and heat insulation cotton 2422, and the heat insulation seat 2421 is disposed in the detection seat 21; the heat insulation cotton 2422 is disposed on the heat insulation seat 2421 and located between the battery 231 and the heat insulation seat 2421 for blocking the heat conduction from the heat insulation seat 2421 to the battery 231. In this embodiment, the heat insulation seat 2421 is provided with a heat insulation cotton 2422, the heat insulation cotton 2422 is disposed on one side of the heat insulation wall 2423, the heat insulation cotton 2422 is used for fixedly supporting the battery 231, and simultaneously, the battery 231 and the heat insulation wall 2423 are separated, the battery 231 and the heat insulation seat 2421 are isolated, so that the possibility of heat conduction to the battery 231 is further reduced, and the normal operation environment of the battery 231 is maintained.

In addition, the electrical assembly 23 includes at least one of the display device 232 and the communication device, the display device 232 is used for displaying the detection result of the detection device 2, and the detection result of the detection device 2 is converted into a visual signal to be displayed on the display device 232, so that the state of the cooked food material can be intuitively understood, conveniently and quickly; the communication device is used for being in communication connection with a control device of the cooking appliance, the specific state of the cooking food can be transmitted to the control device through the communication device, so that the data record is transmitted for subsequent control operation, for example, when the transmitted data and the set data have deviation, the control device correspondingly adjusts cooking parameters according to the deviation value of the transmitted data and the set data. In the present embodiment, the electrical component 23 includes the display device 232.

Specifically, the data detected by the detection device 2 may be various, such as temperature, humidity, pressure, etc., and the corresponding detection device 2 may be configured as a temperature measurement device, a humidity measurement device, and a pressure measurement device. In cooking utensil's field, what the pan mainly realized is to eating the heating of material, and the temperature is the important factor that influences the dish, compares in humidity and pressure, and the temperature plays decisive role to the taste of dish and the ripe degree of dish, how to realize the temperature of eating the material in the accurate control pan, is the technical problem that technical staff in the field eager to solve and do not solve always, consequently, will detection device 2 sets up to temperature measuring device 2a, will detection portion 22 sets up to temperature probe 22a to can be through the temperature probe 22a real-time detection temperature in the pan, the heating parameter of the temperature adjustment heating platform in the pan that corresponds according to in the pan, thereby can effectually realize the temperature of eating the material in the accurate control pan, simple and practical and effect are obvious.

The utility model further provides a cookware, which comprises a cookware component and a pot cover or a pot body, wherein in the embodiment, the cookware component is set as the pot cover so as to be explained above, namely the cookware comprises the cookware component and the pot body, the specific structure of the cookware component refers to the embodiments, and the cookware adopts all the technical schemes of all the embodiments, so that the cookware at least has all the beneficial effects brought by the technical schemes of the embodiments, and the details are not repeated.

In addition, still provide a cooking utensil in this application, included as above the pan, it is corresponding cooking utensil can be electromagnetism stove, electric rice cooker, the electric pressure cooker etc. of taking the pan, does not do the restriction here.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (11)

1. A pot component that is a pot cover or a pot body, the pot component comprising:

the mounting wall is provided with a mounting part, and the mounting part is provided with a mounting hole;

the detection device comprises a detection seat arranged on the outer side of the installation wall and a detection part arranged on one side of the detection seat and extending into the installation hole, and an electrical assembly electrically connected with the detection part is arranged in the detection seat; and (c) a second step of,

and the heat insulation structure is arranged between the detection seat and the installation wall and used for blocking the installation wall from conducting heat to the detection seat.

2. The cookware member according to claim 1 wherein the thermal insulation structure comprises a thermal sleeve surrounding the probe and located between the detection seat and the mounting wall to space the detection seat from the mounting wall.

3. The cookware member according to claim 2 wherein the inner sidewall of the sleeve is provided with a support step;

the heat insulation structure further comprises a heat insulation supporting structure, and the heat insulation supporting structure is arranged between the supporting step portion and the detection seat.

4. The cookware member according to claim 3 wherein the end of the sleeve remote from the mounting wall extends to the outside of the test seat and is spaced from the outside of the test seat.

5. The cookware member according to claim 3 wherein said thermally insulating support structure comprises:

the heat insulation plate penetrates through the periphery of the detection part, is positioned between the supporting step part and the detection seat and is used for supporting the detection device; and the number of the first and second groups,

and a heat insulation pad positioned between the heat insulation plate and the supporting stepped portion.

6. The cookware member according to claim 1 wherein the electrical assembly includes a battery, and wherein a thermal insulation assembly is provided between the battery and the detection seat, the thermal insulation assembly including:

the heat insulation sleeve is sleeved and coated on the battery and used for absorbing heat outside the battery; or the like, or, alternatively,

the heat insulation sleeve seat is arranged on the inner side of the detection seat and is positioned between the battery and the detection seat.

7. The cookware member according to claim 6 wherein said insulating nest comprises:

the heat insulation seat is arranged in the detection seat; and the number of the first and second groups,

the heat insulation cotton is arranged on the heat insulation seat, is positioned between the battery and the heat insulation seat and is used for blocking the heat conduction of the heat insulation seat to the battery.

8. The cookware member according to claim 1 wherein the electrical assembly includes:

the display device is used for displaying the detection result of the detection device; and/or the presence of a gas in the atmosphere,

and the communication device is used for being in communication connection with the control device of the cooking appliance.

9. The cookware member according to claim 1 wherein said sensing means is a temperature sensing means and said sensing means is a temperature probe.

10. A cookware, characterized in that it comprises a cookware element as claimed in any of claims 1-9.

11. A cooking appliance comprising the pot of claim 10.

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