CN220069510U - Intelligent frying pan cover - Google Patents

Abstract

The utility model relates to the technical field of intelligent kitchen ware, in particular to an intelligent frying pan cover, which comprises a cover body and a stirring shovel, wherein the cover body comprises a cover body which can be closed with the cover body, and further comprises a driving device, an operation panel and an MCU (micro control unit) which are arranged on the cover body, the driving device drives the stirring shovel to act, the stirring shovel is spliced with the driving device, and the contact surfaces of the stirring shovel and the driving device are respectively provided with an electric connection surface; the stirring shovel is provided with a temperature sensor, and the temperature sensor detects the temperature of the inner wall of the pot body and is electrically connected with the electric connection surface; the driving device, the electric connection surface and the operation panel are electrically connected with the MCU. According to the intelligent pot heating temperature measuring device, the plurality of temperature sensors are arranged in the stirring shovel, so that the temperature of the bottom of the intelligent pot is directly measured, the accuracy of intelligent pot heating temperature measurement is improved, and accurate recording and control of intelligent pot heating are facilitated; the stirring shovel is detachably connected with the cover body through the inserting groove, and after cooking is completed, the stirring shovel can be conveniently detached for cleaning.

Description

Intelligent frying pan cover

Technical Field

The utility model relates to the technical field of intelligent kitchen ware, in particular to an intelligent frying pan cover.

Background

With the improvement of the life quality of people, the requirements on household kitchen appliances are also higher and higher, and an intelligent cooking system is gradually developed into important equipment in a kitchen, wherein the intelligent cooking system comprises a cooking bench part and an intelligent pot part. The scheme of the existing intelligent pot for recording temperature is that a temperature measuring sensor is arranged at the bottom edge of the intelligent pot or in high-temperature resistant rubber below a stirring shaft. The intelligent cooker is characterized in that a data transmission module is arranged in a handle of the intelligent cooker, a sensor is connected to the data transmission module, the data transmission module transmits data to a controller of a cooking bench in a Bluetooth mode and the like, and the controller performs identification processing on collected data and performs corresponding actions. However, this solution has some drawbacks: 1. the gas pressure of the fuel gas can influence the size of the flame, when the flame is smaller, the flame is mainly concentrated at the center position of the bottom of the pot, and then the temperature acquired by the temperature sensor is lower; when the flame is larger, the flame can directly burn to the position of the temperature sensor, and then the temperature collected by the temperature sensor is higher. 2. Whether the intelligent pot is placed flat or not or whether the intelligent pot is placed right or not can also influence the accuracy of the temperature sensor in acquiring the temperature, and when the intelligent pot is placed obliquely or is placed askew, the temperature acquired by the temperature sensor is higher when the sensor is close to flame; when the sensor is far away from the flame, the temperature collected by the temperature sensor is lower. Therefore, the technical problem that the accuracy of the temperature detection of the intelligent pot is not high is also needed to be solved.

The prior art discloses a pot bottom temperature measuring method, a cooking robot, equipment and a storage medium, and relates to the technical field of stoves. The bottom temperature measuring method is realized by using a dry-heating preventing temperature measuring probe which comprises a plurality of temperature measuring pieces arranged along the radial direction of the temperature measuring probe, wherein the temperature measuring pieces are used for measuring the bottom temperature of the pot at the position of the temperature measuring pieces. The temperature measuring method of the pan bottom comprises the following steps: judging whether the temperature measured values of all the temperature measuring pieces exceed the threshold value, if so, cutting off the gas supply of the burner, otherwise, continuing to measure the temperature. Through set up a plurality of temperature measurement pieces on preventing dry combustion method temperature measurement probe to realize the multiple spot temperature measurement of bottom of a boiler, reduce the temperature measurement error, improve the accuracy of bottom of a boiler temperature measurement, avoid taking place the erroneous judgement. However, in the technical scheme, the temperature measuring part is positioned at the bottom of the pot, and can not directly detect the temperature in the pot. The accuracy of the temperature measurement is still low.

Disclosure of Invention

Aiming at the technical problem of poor temperature detection accuracy of the existing intelligent frying pan, the utility model provides an intelligent frying pan cover, and the temperature sensor is arranged in the stirring shovel arranged on the pan cover, so that the detection accuracy of the heating temperature of the intelligent frying pan is improved.

In order to solve the technical problems, the utility model adopts the following technical scheme: an intelligent frying pan cover is matched with an intelligent frying pan for use, the intelligent frying pan comprises a pan body, the pan cover comprises a pan cover body and a stirring shovel,

the pot cover body comprises a cover body capable of being covered with the pot body, and further comprises a driving device, an operation panel and an MCU, wherein the driving device is arranged on the cover body and drives the stirring shovel to act, the stirring shovel is connected with the driving device in an inserting mode, and the contact surfaces of the stirring shovel and the driving device are respectively provided with an electric connection surface;

the stirring shovel is provided with a temperature sensor, and the temperature sensor detects the temperature of the inner wall of the pot body and is electrically connected with the electrical connection surface;

the driving device, the electric connection surface and the operation panel are all electrically connected with the MCU.

Preferably, the driving device comprises a driving motor and a plug seat, the driving motor is fixedly arranged on the cover body, the driving motor is provided with a driving shaft, the plug seat is fixedly connected with the driving shaft and synchronously rotates, and the stirring shovel is provided with a plug groove in plug fit with the plug seat;

the socket and the plug groove are respectively provided with an electric connection surface, and when the socket and the plug groove are plugged, the electric connection surfaces of the socket and the plug groove form electric connection.

Preferably, the socket and the socket groove are provided with magnetic parts which attract each other.

Preferably, the plugging groove is provided with a driving groove, a positive electrode groove, a negative electrode groove and an insulating rubber protrusion; the driving groove, the positive electrode groove, the negative electrode groove and the insulating rubber bulge are all arranged at the end part of the stirring shovel, and the insulating rubber bulge is arranged between the positive electrode groove and the negative electrode groove to separate the positive electrode groove from the negative electrode groove;

the socket is in plug-in fit with the driving groove, a driving key is arranged on the driving shaft, a key groove matched with the driving key is formed in the side face of the driving groove, a positive metal ring is arranged in the positive groove, a negative metal ring is arranged in the negative groove, the positive metal ring is electrically connected with the positive electrode of the temperature sensor, and the negative metal ring is electrically connected with the negative electrode of the temperature sensor;

the socket is provided with an anode metal contact and a cathode metal contact, and the anode metal contact and the cathode metal contact are electrically connected with the MCU; when the plug seat is plugged with the plug groove, the positive metal contact is abutted with the positive metal ring, and the negative metal contact is abutted with the negative metal ring.

Preferably, a plurality of temperature sensors are installed at the bottom of the stirring shovel, the number of the positive electrode metal rings and the number of the negative electrode metal rings are the same as the number of the temperature sensors, and each temperature sensor is connected with one positive electrode metal ring and one negative electrode metal ring.

Preferably, three temperature sensors are arranged at the bottom of the stirring shovel.

Preferably, the three temperature sensors are respectively positioned at the center of the bottom of the stirring shovel, the edge of the bottom of the stirring shovel and the middle part of the bottom of the stirring shovel.

Preferably, a blind mounting hole for mounting the temperature sensor is formed in the bottom of the stirring shovel, a spring is arranged in the blind mounting hole, and the temperature sensor is mounted in the blind mounting hole and is abutted to the spring.

Preferably, the pot body is provided with a connecting clamping groove and a connecting lug, the connecting clamping groove and the connecting lug are distributed along the radial direction of the pot body, and the cover body is provided with a bulge matched with the connecting clamping groove and a clamping groove matched with the connecting lug.

Preferably, the utility model further comprises a power supply device, wherein the power supply device comprises a charging circuit, a charging interface, a storage battery and a voltage stabilizing module, the charging interface is arranged on the cover body, the storage battery is connected with the charging interface through the charging circuit, and the voltage stabilizing module is connected with the storage battery.

The beneficial technical effects of the utility model include: the temperature inside the intelligent pot is directly measured by arranging the plurality of temperature sensors in the stirring shovel, so that the accuracy of measuring the heating temperature of the intelligent pot is improved, the heating problem of the intelligent pot is accurately recorded and controlled, and the taste of dishes is improved; the stirring shovel is connected with the cover body through the inserting groove, so that the stirring shovel is convenient to disassemble and assemble, and can be disassembled and cleaned conveniently after cooking is finished; the temperature sensor is abutted to the inner wall of the intelligent pot through the spring, so that the accuracy of temperature detection is improved.

Other features and advantages of the present utility model will be disclosed in the following detailed description of the utility model and the accompanying drawings.

Drawings

The utility model is further described with reference to the accompanying drawings:

fig. 1 is a schematic view of a structure of an intelligent stirring shovel according to an embodiment of the utility model.

FIG. 2 is a schematic diagram of the structure of an intelligent wok cover according to an embodiment of the utility model.

Fig. 3 is a cross-sectional view of the top structure of the intelligent stirring shovel in accordance with the embodiment of the present utility model.

Wherein: 1. positive electrode grooves, 2, insulating rubber protrusions, 3, negative electrode grooves, 4, positive electrode buried wires, 5, negative electrode buried wires, 6, a temperature sensor, 7, springs, 8, positive electrode metal contacts, 9, negative electrode metal contacts, 10, insulating rubber grooves, 11, positive electrode wires, 12, negative electrode wires, 13, negative electrode metal rings, 14, positive electrode metal rings, 15 and driving grooves.

Detailed Description

The technical solutions of the embodiments of the present utility model will be explained and illustrated below with reference to the drawings of the embodiments of the present utility model, but the following embodiments are only preferred embodiments of the present utility model, and not all embodiments. Based on the examples in the implementation manner, other examples obtained by a person skilled in the art without making creative efforts fall within the protection scope of the present utility model.

In the following description, directional or positional relationships such as the terms "inner", "outer", "upper", "lower", "left", "right", etc., are presented for convenience in describing the embodiments and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model.

An intelligent frying pan cover is matched with an intelligent frying pan for use, the intelligent frying pan comprises a pan body, the pan cover comprises a pan cover body and a stirring shovel, refer to fig. 1 and fig. 2, in the embodiment, the pan cover body comprises a cover body capable of being covered with the pan body, a driving device, an operation panel, a power supply device and an MCU, the driving device is arranged on the cover body, the stirring shovel is connected with the driving device in an inserting mode, and the stirring shovel is driven by the driving device to act. When the stirring shovel is inserted into the driving device and the pot cover is covered on the intelligent frying pot, the bottom of the stirring shovel is abutted with the inner wall of the pot body.

The contact surface of stirring shovel and drive arrangement all has the electric connection face, and simultaneously, stirring shovel bottom is provided with temperature sensor 6, and temperature sensor 6 and the electric connection face electric connection on the stirring shovel for detect the internal wall temperature of pot. The driving device, the electric connection surface of the driving device and the operation panel are connected with the MCU, and the power supply device supplies power for the driving device, the operation panel and the MCU and supplies power for the temperature sensor 6 after the stirring shovel and the driving device are inserted. According to the intelligent pot heating temperature measuring device, the plurality of temperature sensors 6 are arranged in the stirring shovel, so that the temperature inside the intelligent pot is directly measured, the accuracy of intelligent pot heating temperature measurement is improved, the heating problem of the intelligent pot can be accurately recorded and controlled, and the dish taste is improved.

In this embodiment, drive arrangement includes driving motor and socket, and driving motor fixed mounting is at the lid, and socket and driving motor drive shaft fixed connection, synchronous rotation. The top of the stirring shovel is provided with a splicing groove matched with the splicing seat. The socket and the socket groove are respectively provided with an electric connection surface, and when the socket and the socket groove are connected in an inserting mode, the electric connection surfaces of the socket and the socket groove form electric connection.

Through the spliced groove with stirring shovel and lid detachable connection, after the culinary art is accomplished, can conveniently dismantle the washing with stirring shovel, when demountable installation, the electric elements of stirring shovel and lid also can automatic electric connection or separation.

In this embodiment, the socket is provided with a magnetic portion, specifically a magnetic attraction block fixed at the bottom of the socket. The top of the stirring shovel is also provided with a magnetic part, and specifically, the top of the stirring shovel or the whole stirring shovel is made of a magnetic material. The magnetic attraction force is generated between the plug-in base and the stirring shovel through the magnetic part, and when the top of the stirring shovel is close to the plug-in base, the plug-in base is automatically attracted and installed in place, so that the stirring shovel can be conveniently and rapidly installed.

In a more specific embodiment of the utility model, the structure of the socket is as follows:

the jack groove includes drive recess 15, anodal recess 1, negative pole recess 3 and insulating rubber protruding 2, please refer to fig. 3, drive recess 15, anodal recess 1, negative pole recess 3 and insulating rubber protruding 2 all set up at the stirring shovel top, anodal recess 1 and negative pole recess 3 are separated by insulating rubber protruding 2, be provided with on the lid be used for with insulating rubber protruding 2 matched insulating rubber recess 10, have the interval between drive recess 15 and the anodal recess 1, the jack seat is provided with drive recess 15 complex drive shaft, the keyway that is used for with drive key complex is all seted up to the side of drive shaft and drive recess 15, install the drive key in the keyway, make jack seat and jack groove coaxial coupling, synchronous rotation. The electric connection surface of the plug-in groove comprises a positive metal ring 14 arranged in the positive groove 1 and a negative metal ring 13 arranged in the negative groove 3. The electrical connection surface of the socket comprises a positive metal contact 8 and a negative metal contact 9 which are arranged on the cover body. The positive electrode metal ring 14 and the negative electrode metal ring 13 are respectively connected with the positive electrode and the negative electrode of the temperature sensor 6, and the positive electrode metal contact 8 and the negative electrode metal contact 9 are both connected with the MCU.

When the plug seat is in plug fit with the plug groove, the positive electrode metal contact 8 and the negative electrode metal contact 9 are respectively abutted with the positive electrode metal ring 14 and the negative electrode metal ring 13, so that the temperature sensor 6 is electrically connected with the MCU.

When the stirring shovel rotates, the positive electrode metal ring 14 and the negative electrode metal ring 13 rotate along with the stirring shovel, so that the positions of the positive electrode metal ring 14 and the negative electrode metal ring 13 relative to the temperature sensor 6 are unchanged. The positive electrode buried wire 4 and the negative electrode buried wire 5 can thereby be used to connect the positive electrode metal ring 14 and the negative electrode metal ring 13 to both ends of the temperature sensor 6, respectively. The positive electrode metal contact 8 and the negative electrode metal contact 9 are respectively abutted against the positive electrode metal ring 14 and the negative electrode metal ring 13. The positive metal contact 8 rotates relative to the positive metal ring 14 and likewise the negative metal contact 9 rotates relative to the negative metal ring 13. Accordingly, the positive electrode metal contact 8 and the negative electrode metal contact 9 are fixed in position with respect to the cover body, so that the positive electrode metal contact 8 and the negative electrode metal contact 9 can be connected to the MCU using the positive electrode wire 11 and the negative electrode wire 12, respectively.

A plurality of temperature sensors 6 are arranged at the bottom of the stirring shovel, positive electrode metal rings 14 and negative electrode metal rings 13 which are matched with the temperature sensors 6 in number are respectively arranged in the positive electrode groove 1 and the negative electrode groove 3, and each temperature sensor 6 is connected with one positive electrode metal ring 14 and one negative electrode metal ring 13. At this time, the positive buried line 4 and the negative buried line 5 are actually a positive buried line harness and a negative buried line harness, and correspond to the plurality of positive metal rings 14 and the plurality of negative metal rings 13, respectively. The positive electrode lead 11 and the negative electrode lead 12 are also positive electrode lead bundles and negative electrode lead bundles, respectively, corresponding to the plurality of positive electrode metal contacts 8 and the plurality of negative electrode metal contacts 9, respectively.

In a preferred embodiment of the utility model, three temperature sensors 6 are mounted at the bottom of the stirring blade. The three temperature sensors 6 are respectively positioned at the center of the bottom of the stirring shovel, the edge of the bottom of the stirring shovel and the middle part of the bottom of the stirring shovel.

The temperature sensors are not limited to three, but may be arbitrarily arranged in more than one number, and the present embodiment provides only one preferred embodiment of the number of temperature sensors.

In another improved embodiment of the utility model, a blind installation hole for installing the temperature sensor 6 is formed in the bottom of the stirring shovel, a spring 7 is arranged in the blind installation hole, and the temperature sensor 6 is installed in the blind installation hole and is abutted against the spring 7. Through setting up spring 7 with temperature sensor 6 use butt at the inner wall of intelligent pot, improve the degree of accuracy that temperature detected.

In another improved embodiment of the utility model, the power supply device comprises a charging circuit, a charging interface, a storage battery and a voltage stabilizing module, wherein the charging interface is arranged on the cover body, the storage battery is connected with the charging interface through the charging circuit, the voltage stabilizing module is connected with the storage battery, and the voltage stabilizing module supplies power for other components. The voltage stabilizing module has a technology disclosed in the art, and the voltage stabilizing module is not improved in this embodiment, and will not be described herein.

The pot body is provided with a connecting clamping groove and a connecting lug, the connecting clamping groove and the connecting lug are distributed along the radial direction of the pot body, and the cover body is provided with a bulge matched with the connecting clamping groove and a clamping groove matched with the connecting lug. The cover body and the pot body can be quickly disassembled and assembled through the protrusions matched with the connecting clamping grooves and the clamping grooves matched with the connecting protruding blocks, and the use is convenient.

While the utility model has been described in terms of embodiments, it will be appreciated by those skilled in the art that the utility model is not limited thereto but rather includes the drawings and the description of the embodiments above. Any modifications which do not depart from the functional and structural principles of the present utility model are intended to be included within the scope of the appended claims.

Claims (10)

1. An intelligent frying pan cover is matched with an intelligent frying pan for use, the intelligent frying pan comprises a pan body and is characterized in that,

the pot cover comprises a pot cover body and a stirring shovel,

the pot cover body comprises a cover body capable of being covered with the pot body, and further comprises a driving device, an operation panel and an MCU, wherein the driving device is arranged on the cover body and drives the stirring shovel to act, the stirring shovel is connected with the driving device in an inserting mode, and the contact surfaces of the stirring shovel and the driving device are respectively provided with an electric connection surface;

the stirring shovel is provided with a temperature sensor, and the temperature sensor detects the temperature of the inner wall of the pot body and is electrically connected with the electrical connection surface;

the driving device, the electric connection surface and the operation panel are all electrically connected with the MCU.

2. The intelligent frying pan cover of claim 1, wherein,

the driving device comprises a driving motor and a plug seat, the driving motor is fixedly arranged on the cover body, the driving motor is provided with a driving shaft, the plug seat is fixedly connected with the driving shaft and synchronously rotates, and the stirring shovel is provided with a plug groove in plug fit with the plug seat;

the socket and the plug groove are respectively provided with an electric connection surface, and when the socket and the plug groove are plugged, the electric connection surfaces of the socket and the plug groove form electric connection.

3. An intelligent wok cover according to claim 2, characterized in that,

the plug seat and the plug groove are provided with magnetic parts which are attracted with each other.

4. An intelligent wok cover according to claim 2 or 3, characterized in that,

the inserting groove is provided with a driving groove, an anode groove, a cathode groove and an insulating rubber bulge; the driving groove, the positive electrode groove, the negative electrode groove and the insulating rubber bulge are all arranged at the end part of the stirring shovel, and the insulating rubber bulge is arranged between the positive electrode groove and the negative electrode groove to separate the positive electrode groove from the negative electrode groove;

the socket is in plug-in fit with the driving groove, a driving key is arranged on the driving shaft, a key groove matched with the driving key is formed in the side face of the driving groove, a positive metal ring is arranged in the positive groove, a negative metal ring is arranged in the negative groove, the positive metal ring is electrically connected with the positive electrode of the temperature sensor, and the negative metal ring is electrically connected with the negative electrode of the temperature sensor;

the socket is provided with an anode metal contact and a cathode metal contact, and the anode metal contact and the cathode metal contact are electrically connected with the MCU; when the plug seat is plugged with the plug groove, the positive metal contact is abutted with the positive metal ring, and the negative metal contact is abutted with the negative metal ring.

5. The intelligent frying pan cover of claim 4, wherein,

the stirring shovel is characterized in that a plurality of temperature sensors are arranged at the bottom of the stirring shovel, the number of the positive electrode metal rings and the number of the negative electrode metal rings are the same as the number of the temperature sensors, and each temperature sensor is connected with one positive electrode metal ring and one negative electrode metal ring.

6. The intelligent frying pan cover of claim 5, wherein,

three temperature sensors are installed at the bottom of the stirring shovel.

7. The intelligent frying pan cover of claim 6, wherein,

the three temperature sensors are respectively positioned at the center of the bottom of the stirring shovel, the edge of the bottom of the stirring shovel and the middle part of the bottom of the stirring shovel.

8. The intelligent frying pan cover of claim 5, wherein,

the stirring shovel is characterized in that a mounting blind hole for mounting the temperature sensor is formed in the bottom of the stirring shovel, a spring is arranged in the blind hole, and the temperature sensor is mounted in the mounting blind hole and is abutted to the spring.

9. An intelligent wok cover according to any one of claims 1 to 3, characterized in that,

the cooker body is provided with a connecting clamping groove and a connecting lug, the connecting clamping groove and the connecting lug are distributed along the radial direction of the cooker body, and the cover body is provided with a bulge matched with the connecting clamping groove and a clamping groove matched with the connecting lug.

10. An intelligent wok cover according to any one of claims 1 to 3, characterized in that,

the power supply device comprises a charging circuit, a charging interface, a storage battery and a voltage stabilizing module, wherein the charging interface is arranged on the cover body, the storage battery is connected with the charging interface through the charging circuit, and the voltage stabilizing module is connected with the storage battery.