CN213850021U - Cooking utensil capable of ensuring uniform heating of food - Google Patents

Abstract

The utility model relates to a guarantee cooking utensil of even heating of food, the computer comprises a host computer, the host computer includes the host computer casing and sets up in the coil panel structure of host computer casing upper end, the structural detachably of coil panel is equipped with the container subassembly, the container subassembly includes the container lid of heating container and lock on heating container, the coil panel is structural evenly to be provided with 2-6 temperature-sensing elements along its circumferencial direction, temperature-sensing element is telescopic and runs through the assembly in the coil panel structurally, still be equipped with the locking structure that is used for locking the container lid and pushes down the inseparable laminating of heating container and temperature-sensing element's temperature sensing portion on the host computer. The utility model discloses can furthest with stirring speed control at reasonable within range, the dynamic adjustment rotational speed guarantees food uniform heating.

Description

Cooking utensil capable of ensuring uniform heating of food

Technical Field

The utility model belongs to the technical field of the kitchen electricity, especially, relate to a cooking utensil of guaranteeing food even heating.

Background

The mode that the machine of cooking on the market at present adopted fixed stirring speed to give mostly makes food be heated evenly, but has the edible material of different weight and different kinds to eat material heating temperature homogeneous degree different to and cook the homogeneous degree also different in different stages, give fixed stirring speed and can't influence the culinary art effect at any time dynamic adjustment rotational speed.

Therefore, based on the problems, the cooking utensil which can control the stirring speed within a reasonable range to the maximum extent, dynamically adjust the rotating speed and ensure that the food is uniformly heated has important practical significance.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that exists among the above-mentioned prior art, provide one kind can furthest with stirring speed control in reasonable within range, the cooking utensil of dynamic regulation rotational speed and assurance food even heating.

The utility model discloses a solve the technical scheme who takes of this problem and be:

the utility model provides a guarantee cooking utensil of even heating of food, includes the host computer, the host computer includes the host computer casing and sets up in the coil panel structure of host computer casing upper end, the structural detachably of coil panel is equipped with the container subassembly, the container subassembly includes heating container and the container lid of lock on heating container, the coil panel is structural evenly to be provided with 2-6 temperature-sensing elements along its circumferencial direction, temperature-sensing element is the telescopic assembly that runs through in the coil panel is structural, still be equipped with the locking structure that is used for locking the container lid and pushes down the inseparable laminating of heating container and temperature-sensing element's temperature sensing portion on the host computer.

Preferably, the heating container is a container structure with an arc surface formed by arc transition of the side wall and the bottom wall, an installation shell is installed on the outer side of the heating container, the heating container is detachably assembled on the coil panel structure through the installation shell, an arc hollow heating space is formed between the heating container and the coil panel structure, and a container assembly space used for matching and installing the heating container is formed in the installation shell.

Further preferably, a motor control unit and a heating control unit are assembled in the main machine shell, a handle shell and a control shell are fixedly connected to two sides of the main machine shell respectively, cover closing gaps for inserting the cover of the container are formed among the handle shell, the control shell and the container assembly respectively, and a main control unit for controlling the cooking utensil to work is assembled in the control shell.

Further preferably, the heating control unit comprises a coil group assembled in the coil panel structure, the motor control unit is a switched reluctance motor, and the heating control unit and the motor control unit are respectively and electrically connected with the main control unit.

Preferably, the coil panel structure is uniformly provided with 2-6 coil panel assembling holes along the circumferential direction, the temperature sensing elements are correspondingly inserted into the coil panel assembling holes one by one, and the temperature sensing element below the coil panel structure is also sleeved with an elastic structure for controlling the temperature sensing element to move up and down at the working height.

Preferably, a temperature sensor is arranged on the temperature sensing part of each temperature sensing element, the temperature sensing part of each temperature sensing element extends into the arc-shaped hollow heating space, and each temperature sensor is electrically connected with the main control unit.

Preferably, the locking structure comprises a gear box structure and a locking structure which is matched with the gear box structure in a sliding mode and can move forwards/backwards relative to the gear box structure, and a driving structure which drives the locking structure to move forwards/backwards is arranged in the gear box structure.

Further preferably, the gear box structure is arranged in the handle shell and/or the control shell, and an opening for the locking structure to extend out or retract is formed in one side of the handle shell and/or the control shell facing the cover closing gap.

Further preferably, the outer wall of the container cover is bent outwards and downwards at least once to form a container cover clamping wall with at least one layer of annular step surface structure.

Further preferably, the side face of the locking structure, which is in contact with the container cover, is matched with the shape of the clamping wall of the container cover, and the side face of the locking structure, which is in contact with the container cover, is also provided with an anti-overflow detection element, and the anti-overflow detection element is electrically connected with the main control unit.

The utility model has the advantages and positive effects that:

1. the utility model discloses in, locking structure locking container lid pushes down the temperature sensing portion of heating vessel and temperature-sensing element and closely laminates, helps the temperature of the detection heating vessel bottom that the temperature sensing portion of temperature-sensing element can be more accurate.

2. The utility model discloses in, coil panel evenly is provided with 2-6 temperature-sensing elements along its circumferencial direction structurally, through a plurality of temperature-sensing element sampling heating container temperature all around of evenly distributed in cooking machine heating container bottom to calculate the difference in temperature, the speed of stirring through the difference in temperature control motor and/or the power of heating guarantee that the food in the cooking machine heating container can be heated more evenly, help improving the culinary art effect then.

3. Through this technical scheme can furthest with the stirring speed control of cooking machine in reasonable within range, the dynamic adjustment rotational speed improves the culinary art effect then, prevents that the stirring speed from resulting in being heated inhomogeneous and sticking with paste the end etc. too slowly, and the stirring speed is then stirred garrulous food easily too fast.

Drawings

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and examples, but it should be understood that these drawings are designed for illustrative purposes only and thus are not intended to limit the scope of the present invention. Furthermore, unless otherwise indicated, the drawings are intended to be illustrative of the structural configurations described herein and are not necessarily drawn to scale.

FIG. 1 is a schematic view of a cooking appliance;

FIG. 2 is a schematic cross-sectional view of FIG. 1;

FIG. 3 is a schematic structural view of the main body case;

FIG. 4 is a system block diagram of embodiment 1;

FIG. 5 is a four-way NTC temperature sampling circuit diagram;

FIG. 6 is a circuit diagram of a master control unit;

FIG. 7 is a schematic sectional view showing a lock structure in example 2;

FIG. 8 is a circuit diagram of a pressure sensor strain gage bridge circuit;

fig. 9 is a circuit diagram of an AD sampling circuit.

In the figure: 1. the anti-overflow device comprises a heating container, 2. a container cover, 3. a main machine shell, 4. a switched reluctance motor, 5. a handle shell, 6. a control shell, 7. a cover closing gap, 8. a display screen assembly, 9. a mounting shell, 10. a container cover clamping wall, 11. a sealing ring, 12. a gear box structure, 13. a locking structure, 1301. a support body, 1302. a locking body, 1303. a sliding body, 14. a rack, 15. a gear, 16. a locking motor, 17. a PCB fixing plate, 18. an anti-overflow detection element, 19. a stirring structure, 20. an upper clutch, 21. a lower clutch, 22. a coil disc structure, 23. a coil group, 24. a temperature sensing element, 25. a temperature sensor and 26. an elastic structure.

Detailed Description

First, it should be noted that the specific structures, features, advantages, etc. of the present invention will be described in detail below by way of example, but all the descriptions are only for illustrative purpose and should not be construed as forming any limitation to the present invention. Furthermore, any single feature described or implicit in any embodiment or any single feature shown or implicit in any drawing may still be combined or subtracted between any of the features (or equivalents thereof) to obtain still further embodiments of the invention that may not be directly mentioned herein. In addition, for the sake of simplicity, the same or similar features may be indicated in only one place in the same drawing.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations. The present invention will be described in detail with reference to the accompanying drawings.

Example 1:

the utility model provides a guarantee cooking utensil of even heating of food to the cooking machine is for example, includes the host computer, the host computer includes host computer casing 3, sets up in the coil panel structure 22 of host computer casing 3 upper end, detachably is equipped with the container subassembly on the coil panel structure 22, the container subassembly includes heating container 1, the container lid 2 of lock on heating container, evenly be provided with 2-6 temperature-sensing elements 24 along its circumferencial direction on the coil panel structure 22, temperature-sensing elements 24 are the telescopic assembly that runs through on coil panel structure 22, still be equipped with on the host computer and be used for locking container lid 2 and push down the locking structure that heating container 1 and the temperature-sensing portion of temperature-sensing elements 22 closely laminated.

The working principle is as follows: in the technical solution, when the cooking machine is used, the container assembly is installed on the coil disc structure 22 of the host casing 3, at this time, the bottom wall of the heating container contacts with the temperature sensing part of the temperature sensing element 24, and the temperature sensing element is adapted to shrink down under the effect of the weight of the heating container, food is added into the heating container and the container cover 2 is covered, the container cover 2 is locked by the locking structure and presses the heating container 1 to be tightly attached to the temperature sensing part of the temperature sensing element 22, so that the temperature sensing part of the temperature sensing element 2 can more accurately detect the temperature at the bottom of the heating container, during cooking, the coil assembly in the host casing is used for providing heat for the heating container, the switched reluctance motor is used for providing power for the stirring structure, it should be noted that, as shown in fig. 3, 2 to 6 temperature sensing elements 24 are uniformly arranged on the coil disc structure 22 along the circumferential direction thereof, taking this embodiment as an example, the number of the preferred temperature sensing elements 24 is four, evenly distributed is around heating container bottom central point puts, through four temperature-sensing element 24 sampling heating container temperature all around of evenly distributed in cooking machine heating container bottom to calculate the temperature difference, thereby the temperature deviation that makes four temperature-sensing element 24 samplings through the speed of temperature difference control motor stirring and/or the power of heating keeps in certain extent, thereby guarantees that the food in the cooking machine heating container can be heated more evenly. Through this technical scheme can furthest with the stirring speed control of cooking machine in reasonable within range, the dynamic adjustment rotational speed improves the culinary art effect then, prevents that the stirring speed from resulting in being heated inhomogeneous and sticking with paste the end etc. too slowly, and the stirring speed is then stirred garrulous food easily too fast.

Furthermore, it can be considered in this embodiment that the heating container 1 is a container structure in which arc-shaped transition is formed between the side wall and the bottom wall, the heating container 1 is preferably an IH heating cup, and the preferred arc design enables the food material in the heating container to be heated more quickly and uniformly in the heating process, so that the food material is heated more uniformly without food material retention dead angles; installation casing 9 is installed in heating container 1 outside, heating container 1 assembles on coil panel structure 22 through installation casing 9 detachably, be formed with the container assembly space that is used for matcing installation heating container 1 in the installation casing 9, make be formed with arc cavity heating space between heating container 1 and the coil panel structure 22, heat air conduction in the arc cavity heating space is to heating container 1 for 1 inner wall temperature of heating container is more even, and heating area is wide, and the homogeneity of being heated is good.

Furthermore, it can be considered in this embodiment that a motor control unit and a heating control unit are assembled in the main machine housing 3, a handle housing 5 and a control housing 6 are respectively fixedly connected to two sides of the main machine housing, a cover closing gap 7 for inserting a container cover is respectively formed between the handle housing 5, the control housing 6 and the container assembly, a main control unit for controlling the operation of the cooking appliance is assembled in the control housing 6, a cooking program processing module is arranged in the main control unit, the main control unit comprises a PCB board and a micro control unit MCU, and the micro control unit MCU can adopt but is not limited to a chip with a model number of STM32G070 CB; the control shell 6 is externally provided with an angle-adjustable display screen assembly 8, and an electronic board of the display screen assembly 8 is electrically connected with the MCU.

Furthermore, it can be considered in this embodiment that the heating control unit includes a coil assembly 23 assembled in a coil panel structure, the coil panel structure is an arc-shaped panel structure with two open end faces, when the heating container 1 is placed in, the coil assembly is electrified to generate an electromagnetic heating mode, the coil assembly is electrically connected with the micro control unit MCU, the motor control unit is a switched reluctance motor 4, and the heating control unit and the motor control unit are respectively electrically connected with the main control unit.

Furthermore, it is also considered in this embodiment that the coil panel structure 22 is provided with 2-6 coil panel assembling holes uniformly penetrating along the circumferential direction thereof, as shown in fig. 3, taking this embodiment as an example, the number of the coil panel assembling holes is preferably four, and the coil panel assembling holes are uniformly distributed around the center of the coil panel structure 22, the temperature sensing elements 24 are correspondingly inserted into the coil panel assembly holes one by one, an elastic structure 26 for controlling the temperature sensing elements 24 to move up and down at the working height is further sleeved on the temperature sensing elements 24 positioned below the coil panel structure 22, the elastic structure 26 can be but is not limited to a return spring, the working height of the temperature sensing elements 24 can be changed along with the height of the bottom of the heating container, not only can the temperature detection be more accurate, and the flexibility ratio is high, so that the temperature can be better detected when other heating containers are replaced on the mounting shell.

Furthermore, it is considered in this embodiment that a temperature sensor 25 is disposed on the temperature sensing portion of each temperature sensing element 24, the temperature sensing portion of the temperature sensing element 24 extends into the arc-shaped hollow heating space, and each temperature sensor 25 is electrically connected to the main control unit. The four temperature sensors 25 can sample the temperature around the bottom wall of the heating container, as shown in fig. 5-6, the circuit is a four-way NTC temperature sampling circuit, N1 are connected with the four-way temperature sensors, the type of the temperature sensors is preferably MJRA-104 and 3688-T220, R1 ℃ ═ 100K Ω B1 ℃/50 ℃ ═ 3688 (accuracy: 1%), NTC1 are connected with a single chip machine AD port, R1 are temperature sampling circuit voltage dividing resistors, R1 are temperature sampling circuit current limiting resistors, the four-way temperature is collected through the single chip machine AD sampling port of the main control unit, the heating is controlled, the PA1, PB 1, Y is connected with NTC1, Y is connected with a crystal oscillator circuit, and a main control circuit, the temperature sampling circuit is composed of the NTC1, the NTC sampling circuit, the filter circuit, 1, the filter circuit is composed of the heating circuit 1, the filter circuit is composed of the main control unit 1, the filter circuit 1, the filter circuit is composed of the heating circuit, the filter circuit 1, the main control unit, the filter circuit 1, the filter circuit is composed of the filter circuit 1, the main control circuit 1, the filter circuit is composed of the filter circuit, and calculate the temperature difference of four temperature sensor to thereby the edible material that thereby makes the culinary art can be heated evenly according to four temperature sensor's difference control motor stirring speed.

Furthermore, it is also considered in this embodiment that the locking structure includes a gear box structure 12, a PCB fixing plate 17 disposed on an upper surface of the gear box structure 12, and a latch structure 13 slidably fitted to the gear box structure 12 and capable of moving forward/backward relative to the gear box structure 12, and a driving structure disposed in the gear box structure 12 for driving the latch structure 13 to move forward/backward.

Furthermore, it can be considered in this embodiment that the locking structure 13 includes a supporting body 1301, a locking body 1302 vertically formed at the upper end and the lower end of the supporting body 1301 respectively and extending along the opposite direction, and a sliding body 1303, the gear box structure 12 is disposed in the handle shell 5 and/or the control shell 6, and an opening for extending/retracting the locking structure 13 is opened at one side of the handle shell 5 and/or the control shell 6 facing the cover closing gap 7. Furthermore, it is also considered in this embodiment that the number of the locking structures is at least two, and the locking structures are oppositely arranged in the handle shell 5 and the control shell 6, respectively, so as to improve the stability of locking the container cover.

Furthermore, still consider in this embodiment, gear box structure 12 is one end open-ended shell structure, gear box structure 12 includes PCB fixed plate, the gear box that the lock formed from top to bottom, link up on PCB fixed plate 17 and seted up the bar and lead to the groove, gear box inside is formed with the hasp location space that is used for supplying hasp structure 13 to move forward/backward. The driving structure comprises a rack 14 formed at the lower end of the sliding body 1303 and arranged along the length direction of the sliding body 1303, a gear 15 meshed with the rack 14, and a locking motor 16 in transmission connection with the gear 15, wherein the locking motor 16 is assembled at the lower end of the gear box, a motor shaft of the locking motor 16 extends into the locking positioning space and is connected with the gear 15, and the locking motor 16 is connected with the micro control unit MCU. When the locking structure is used for locking the container cover 2, the micro control unit MCU drives the locking motor 16 to rotate, the locking motor 16 drives the gear 15 to rotate, the gear 15 is meshed with the rack 14, then the locking structure 13 is driven to move forwards along the locking positioning space, the locking structure 13 is driven to move towards the cover closing gap 7 through the locking motor 16, and the container cover 2 is in a locking state. When the locking structure is used for unlocking the container cover 2, the MCU drives the locking motor 16 to rotate reversely, and the principle is the same as that of the MCU, so that the locking structure 13 is driven by the locking motor 16 to move towards the direction far away from the cover closing gap 7, the container cover 2 is in an unlocking state, and the container cover 2 and the heating container 1 can move freely.

Further, it is also considered in this embodiment that the sliding body 1303 is inserted into the locking positioning space through the open end of the gear box structure, and the sliding body 1303 is slidably fitted into the locking positioning space and can move forward/backward along the locking positioning space, at this time, the locking structure 13 can extend/retract along the opening on the handle shell 5/the control shell 6, so as to realize the locking/unlocking of the position of the container cover 2 by the locking body 1302 of the locking structure 13 being clamped on the container cover clamping wall 10/away from the container cover clamping wall 10.

Furthermore, it can be considered in this embodiment that the outer wall of the container cover 2 is bent outward and downward at least once to form at least one layer of container cover clamping wall 10 with an annular step surface structure, the container cover 2 is internally sleeved with a sealing ring 11, the lower end of the sealing ring 11 is formed with at least one layer of sealing lip extending outward, when the container cover 2 is fastened on the heating container 1, the free end of the sealing lip is attached to the inner wall of the upper portion of the heating container 1, so that a seal is formed between the container cover 2 and the heating container 1, and the food in the heating container 1 is prevented from overflowing.

Example 2:

embodiment 2 of the present invention is further modified from embodiment 1 so as to fully exert the technical advantages of the present invention, and this will be exemplified below.

For example: as shown in fig. 7-9, the side of the latch structure 13 contacting the container cover 2 is adapted to the shape of the container cover clamping wall 10, and an anti-overflow detecting element 18 is further disposed on the side of the latch structure 13 contacting the container cover 2, and the anti-overflow detecting element 18 is electrically connected to the main control unit.

It should be noted that the anti-overflow detecting element 18 is a pressure sensor, preferably a strain gauge type pressure sensor, the pressure sensor is connected to the main control unit through an AD sampling circuit, as shown in fig. 8-9, U3 is an AD conversion chip, E +, E-, S +, S-are connected to a strain gauge bridge of the pressure sensor, and the main control unit circuit samples the pressure value of the pressure sensor and controls the heating control unit through calculation to prevent overflow. As shown in fig. 7, when the locking structure 13 is locked on the container cover 2, the detection surface of the pressure sensor is in contact with the container cover clamping wall 10, the pressure sensor is used for detecting the pressure generated by the container cover after the gas in the container assembly is expanded, and the method for detecting the anti-overflow comprises the following steps: firstly, cooking is started, a pressure value position P1 detected by a current pressure sensor is recorded after a locking structure is locked in place, the pressure value change of the pressure sensor is detected in real time by a main control unit in the cooking process, when the pressure value P detected by the pressure sensor is larger than 1.05 times of P1, a heating control unit can be controlled, the heating power of a coil panel is reduced to 1/2 of the original heating power, when the pressure value P detected by the pressure sensor is larger than 1.1 times of P1, heating is stopped, and the phenomenon that too much gas in a pot is gathered and overflows is prevented by controlling the maximum pressure of a container cover.

The utility model discloses a pressure sensor who places on hasp structure 13 detects container lid 2 and receives the pressure that the gas inflation produced in the pot, but when detecting pressure grow back reduce power, ensure can not spill over, promptly, thereby can judge in advance whether soon will spill over through pressure and reduce power and reach the purpose that prevents to spill over in advance.

Furthermore, it can be considered in this embodiment that a stirring structure 19 is disposed in the heating container 1, the stirring structure 19 drives the food to stir/turn during the rotation process, which not only helps to improve the stirring performance of the food, but also prevents the bottom of the heating container 1 from being sticky, the stirring structure 19 is in transmission connection with the switched reluctance motor 4 through a clutch structure, and the clutch structure includes:

an upper clutch 20 fitted on the stirring shaft of the stirring structure 19 and located below the heating container 1;

and the lower clutch 21 is assembled on a motor shaft of the switched reluctance motor 4, an assembling groove for the upper clutch 20 to be matched and inserted is formed in the lower clutch 21, and the switched reluctance motor 4 is electrically connected with the MCU.

To sum up, the utility model provides a can furthest with stirring speed control at reasonable within range, the cooking utensil of dynamic adjustment rotational speed and assurance food even heating.

The above embodiments are described in detail, but the above description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides a guarantee cooking utensil of even heating of food, includes the host computer, the host computer includes the host computer casing and sets up the coil panel structure in host computer casing upper end, the structural detachably of coil panel is equipped with the container subassembly, the container subassembly includes heating container and the container lid of lock on heating container, its characterized in that:

the coil panel structure is uniformly provided with 2-6 temperature sensing elements along the circumferential direction, the temperature sensing elements are telescopically assembled on the coil panel structure in a penetrating way, and the host is also provided with a locking structure for locking the container cover and pressing the heating container to be tightly attached to the temperature sensing part of the temperature sensing elements.

2. A cooking appliance for ensuring even heating of food as claimed in claim 1, wherein: the heating device is characterized in that an installation shell is installed on the outer side of the heating container, and the heating container is detachably assembled on the coil panel structure through the installation shell, so that an arc-shaped hollow heating space is formed between the heating container and the coil panel structure.

3. A cooking appliance for ensuring even heating of food as claimed in claim 2, wherein: the main machine shell is internally provided with a motor control unit and a heating control unit, the two sides of the main machine shell are fixedly connected with a handle shell and a control shell respectively, cover closing gaps for inserting the cover of the container are formed between the handle shell, the control shell and the container assembly respectively, and the control shell is internally provided with a main control unit for controlling the work of the cooking utensil.

4. A cooking appliance for ensuring even heating of food as claimed in claim 3, wherein: the heating control unit comprises a coil group assembled in the coil panel structure, the motor control unit is a switched reluctance motor, and the heating control unit and the motor control unit are respectively and electrically connected with the main control unit.

5. The cooking appliance of claim 4, wherein the cooking appliance comprises: the coil panel structure is uniformly provided with 2-6 coil panel assembling holes in a penetrating manner along the circumferential direction, the temperature sensing elements are correspondingly inserted into the coil panel assembling holes one by one, and an elastic structure for controlling the temperature sensing elements to move up and down at the working height is further sleeved on the temperature sensing elements positioned below the coil panel structure.

6. The cooking appliance of claim 5, wherein the cooking appliance comprises: and the temperature sensing part of each temperature sensing element is provided with a temperature sensor, and each temperature sensor is electrically connected with the main control unit respectively.

7. A cooking appliance for ensuring even heating of food according to any one of claims 3 to 6, wherein: the locking structure comprises a gear box structure and a lock catch structure which is matched with the gear box structure in a sliding mode and can move forwards/backwards relative to the gear box structure, and a driving structure for driving the lock catch structure to move forwards/backwards is arranged in the gear box structure.

8. The cooking appliance of claim 7, wherein the cooking appliance comprises: the gear box structure is arranged in the handle shell and/or the control shell, and an opening for the locking structure to extend out or retract is formed in one side, facing the cover closing gap, of the handle shell and/or the control shell.

9. The cooking appliance of claim 7, wherein the cooking appliance comprises: the outer wall of the container cover is bent outwards and downwards at least once to form at least one layer of container cover clamping wall with an annular step surface structure.

10. A cooking appliance for ensuring even heating of food as claimed in claim 9, wherein: the side that the hasp structure and container lid contacted and the shape looks adaptation of container lid joint wall, still be provided with anti-overflow detecting element on the side that the hasp structure and container lid contacted, anti-overflow detecting element is connected with the main control unit electricity.

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