CN215777442U - Beverage container and beverage heating container - Google Patents

Abstract

The application relates to the technical field of cooking appliances, in particular to a drink container and a drink heating container. This drink container includes: the container body is provided with an opening, and the container cover can be covered on the opening; the temperature measuring component can detect the temperature of the liquid in the container body; wherein, the temperature measuring component is arranged on the container cover and/or the container body. This temperature measurement part of drink container can the direct detection container body inside liquid's temperature, improves the temperature measurement accuracy.

Description

Beverage container and beverage heating container

Technical Field

The application relates to the technical field of cooking appliances, in particular to a drink container and a drink heating container.

Background

At present, beverage heating container receives people's liking more and more owing to have multiple culinary art function to along with the improvement of people's standard of living, also the taste to cooking food is required more and more. In order to improve the cooking effect of the drink heating container, the heating time and temperature of the drink heating container need to be strictly controlled, and the temperature of the food in the container body needs to be measured in real time. The temperature measuring part is generally arranged on the base of the existing beverage heating container, and because the base comprises various parts such as the heating part and the fan, the heat generated by the heating part and the heat blown away by the fan can interfere with the detection result, so that the temperature error is relatively large, the actual temperature of the cooked food is higher or lower than the temperature set by a program, and the taste of the cooked food in the beverage heating container is influenced.

SUMMERY OF THE UTILITY MODEL

The application provides a beverage container and beverage heating container, this beverage heating container's temperature measurement part can the direct detection container body internal portion liquid's temperature, improves the temperature measurement accuracy.

The present application provides in a first aspect a beverage container comprising:

a container body having an opening;

a container cover capable of covering the opening;

the temperature measuring component is used for detecting the temperature of the liquid in the container body;

wherein the temperature measuring member is mounted to the container cover and/or the container body.

In this scheme, when the container lid was located to the temperature measurement part, the container lid had the opening, and the temperature measurement part can detect the temperature of the internal liquid of container and/or steam through the opening, and when the temperature measurement part was located the container body, the temperature measurement part can directly detect the temperature of the internal liquid of container. Therefore, the temperature measuring component is arranged on the container cover and/or the container body and can directly detect the temperature of liquid and/or steam in the beverage container, the transmission error of the intermediate medium is reduced, the accuracy of temperature detection of the temperature measuring component can be improved, namely, the temperature measured by the temperature measuring component is the temperature of food materials in the container body, so that the heating temperature of the food materials in the container body is as close as possible to the temperature set by a program, and the taste of the food materials can be guaranteed. Meanwhile, compared with the base, the container cover and/or the container body part are fewer, and flexible arrangement of the temperature measuring part is facilitated.

In one possible embodiment, the container lid and/or the container body are provided with a through-opening, through which at least part of the temperature measuring element protrudes into the interior of the container body.

In this scheme, at least part of temperature measurement part stretches into the container internally through the through-hole, can reduce the distance between temperature measurement part and the liquid, makes the temperature that temperature measurement part detected more closely the true temperature of liquid, improves the accuracy of temperature measurement part testing result.

In one possible design, the container body further comprises a first circuit board and a first controller connected with the first circuit board, and the temperature measuring component is connected with the first circuit board; the first controller is used for controlling the temperature measuring component to start measuring the temperature or stop measuring the temperature through the first circuit board.

In this scheme, temperature measurement part and first controller all are connected with first circuit board, and first controller can carry out the temperature measurement according to the control program control temperature measurement part of drink container to can stop the temperature measurement according to the control program control temperature measurement part of drink container. Therefore, the temperature measuring component can be stopped in time by controlling the temperature measuring component to start measuring the temperature or stop measuring the temperature through the first controller, and the waste of electric energy is avoided. Meanwhile, the temperature measuring component and the first controller are both connected with the first circuit board, so that the connection structure between the temperature measuring component and the first controller can be simplified, and the connection accuracy between the temperature measuring component and the first controller as well as the first circuit board is improved.

In one possible design, the beverage container further comprises a power module and a first alarm device which are connected with the first circuit board, wherein the power module is used for supplying power to at least one of the temperature measuring component, the first controller and the first alarm device;

the first alarm device is connected with the first controller, and when the power module is insufficient in electric quantity or full of electric quantity, the first controller is used for controlling the first alarm device to give out a prompt.

In this scheme, power module is used for the temperature measurement part, at least one power supply among first controller and the first alarm device, can simplify the temperature measurement part, the structure that first controller and first alarm device and power are connected, when power module is used for the temperature measurement part, when first controller and the power supply of first alarm device three, after drink container and power disconnection, the temperature measurement part, first controller and first alarm device still can continue work, make the temperature measurement part just can detect the liquid temperature in the drink container before the drink container is placed in the base, be convenient for formulate reasonable heating procedure according to the testing result. First alarm device and power module all are connected with first circuit board, and first alarm device is connected with first controller, and when power module electric quantity was not enough or when being full of the electricity, first alarm device can be controlled to first controller and the suggestion is sent, reminds the user to charge or pull out power module's charging wire to power module.

In a possible design, the temperature measuring component comprises a switch, and after the switch is turned on, the first controller is used for controlling the temperature measuring component to start measuring the temperature or stop measuring the temperature through the first circuit board.

In this scheme, the switch is used for controlling the temperature measurement part to open or close, and after the switch was opened, first controller control temperature measurement part began the temperature measurement or stopped the temperature measurement, and the user of being convenient for opens or closes the temperature measurement part at any time, opens the temperature measurement part and real-time measurement container internal liquid's temperature through the switch when needing, closes the temperature measurement part through the switch when not needing, accomplishes the using electricity wisely.

In one possible design, the temperature measurement component is an infrared temperature measurement component.

In this scheme, when the temperature measurement part was infrared temperature measurement part, the in-process of the temperature of the liquid in the temperature measurement part detection container body need not with liquid contact, can avoid the liquid in the container body to produce corruption, oxidation etc. to the temperature measurement part to improve the life of temperature measurement part, can also avoid the temperature measurement part to produce the pollution to the liquid in the container body simultaneously.

The second aspect of the present application provides a beverage heating container, which comprises a base and the beverage container described above, wherein the beverage container can be placed on the base.

In this scheme, the existence of base makes drink container and base can separate, prevents that the user from soaking the power cord and causing the safety problem at the in-process that uses drink container to promote liquid drink heating container's safety in utilization.

In one possible design, the beverage container comprises a first controller, the first controller is connected with the temperature measuring component, the base comprises a second controller and a heating component, the second controller is connected with the heating component, and the first controller is connected with the second controller;

when the temperature measuring component detects that the liquid in the beverage container is heated to a preset temperature or the second controller detects that the heating component is heated to a preset time, the second controller is used for controlling the temperature measuring component to measure the temperature or stopping measuring the temperature through the first controller.

In this scheme, the base is equipped with the second controller, and when base switch on, when the heater block began to heat, the second controller began to detect the temperature through first controller control temperature measurement part to feed back the second controller with the testing result, the temperature of the internal liquid of container can be received to the second controller promptly, when liquid temperature was heated to preset temperature or the heater block heats to preset time in the drink container, the second controller can also stop the temperature measurement through first controller control temperature measurement part. Therefore, the temperature measuring component is convenient to control due to the arrangement of the second controller, so that the temperature measuring component can work synchronously with the heating component, and the control flow is simplified.

In one possible design, one of the first controller and the second controller is provided with a transmitter, and the other is provided with a receiver, and the first controller and the second controller transmit signals through the transmitter and the receiver.

In this scheme, the first controller is located to the transmitter, and the second controller is located to the receiver, and the first controller passes through the transmitter to the work that the second controller can be controlled to receiver transmission signal, when the heater block heats to preset temperature or when presetting the time, stops the heating through the second controller control heater block. Under the condition, the second controller controls the heating component to stop heating only according to the signal sent by the first controller, and does not send a signal to the first controller to control the temperature measurement component to measure the temperature or stop measuring the temperature, at the moment, after the switch is turned on, the temperature measurement component measures the temperature or stops measuring the temperature under the control of the first controller, and when the switch is turned off, the temperature measurement component stops measuring the temperature.

Or the emitter is arranged on the second controller, the receiver is arranged on the first controller, the second controller can control the work of the first controller by transmitting signals to the receiver through the emitter, when the heating component starts to heat, the temperature measuring component is controlled by the first controller to start measuring the temperature, and when the heating component heats to a preset temperature or preset time, the temperature measuring component is controlled by the first controller to stop measuring the temperature. The arrangement of the transmitter and the receiver facilitates the first controller to control the signal transmission between the second controllers. Under the condition, the second controller not only controls the heating part to stop heating, but also can control the temperature measurement part to measure the temperature or stop measuring the temperature through the first controller by sending a signal to the first controller. At the moment, the switch is only used for opening or closing the temperature measuring component, and the temperature measuring component does not need to be controlled by the switch to measure the temperature or stop measuring the temperature, so that the switch can be omitted, and the control flow is simplified.

In a possible design, when the temperature measuring component detects that the liquid in the beverage container is heated to a preset temperature or the second controller detects that the heating component is heated for a preset time, the second controller is further used for controlling the heating component to stop heating.

In this scheme, the second controller can control first controller except that, and then control the temperature measurement part and begin the temperature measurement or stop the temperature measurement, can also stop heating according to the testing result of temperature measurement part or according to the heating time control heater block, can prevent that the user from forgetting to cut off the power of base and make the heater block work always, avoids taking place the danger of dry combustion.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a schematic diagram of a beverage heating container according to one embodiment of the present disclosure;

FIG. 2 is an exploded view of the beverage heating vessel of FIG. 1;

FIG. 3 is a schematic structural view of the beverage container in FIG. 2;

FIG. 4 is a schematic structural view of the container lid of FIG. 2;

FIG. 5 is a schematic view showing the inner structure of the container cover in FIG. 4;

FIG. 6 is a schematic structural diagram of the first circuit board of FIG. 5;

FIG. 7 is a schematic structural diagram of the base in FIG. 2;

FIG. 8 is a schematic view of the base of FIG. 7 from another perspective;

FIG. 9 is a cross-sectional view of the base of FIG. 7;

fig. 10 is a schematic structural diagram of the second circuit board in fig. 9.

Reference numerals:

1-a beverage container;

11-the container body;

111-opening;

12-a container lid;

121-a through hole;

122-upper cover;

123-a lower cover;

2-a first circuit board;

21-a temperature measuring component;

211-a switch;

211 a-an elastic member;

212-an indicator light;

22-a first controller;

23-a transmitter;

24-a first alarm device;

25-a power supply module;

251-a bracket;

252-a battery;

26-a charging socket;

3-a base;

31-a heating means;

32-a second circuit board;

321-a second controller;

322-a receiver;

323-second warning means;

33-a thermal insulation block;

34-a support plate;

35-a fan;

36-a sealing cover;

37-a housing;

371-bottom cap;

371 a-heat dissipation hole;

371 b-cushion;

38-control panel;

39-power line.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all 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 application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

The embodiment of the application provides a beverage container 1, as shown in fig. 1-3, the beverage container 1 includes a container body 11, a container cover 12 and a temperature measurement component 21, the container body 11 has an opening 111, the container cover 12 can cover the opening 111, the temperature measurement component 21 is used for detecting the temperature of liquid in the container body 11, wherein, the temperature measurement component 21 is installed on the container cover 12 and/or the container body 11.

In this embodiment, when the temperature measuring member 21 is provided in the container cover 12, the container cover 12 has the opening 111, and the temperature measuring member 21 can detect the temperature of the liquid and/or the steam in the container body 11 through the opening 111, and when the temperature measuring member 21 is provided in the container body 11, the temperature measuring member 21 can directly detect the temperature of the liquid in the container body 11. Therefore, the temperature measuring component 21 is arranged on the container cover 12 and/or the container body 11 and can directly detect the temperature of liquid and/or steam in the beverage container 1, the transmission error of an intermediate medium is reduced, the accuracy of temperature detection of the temperature measuring component 21 can be improved, namely, the temperature measured by the temperature measuring component 21 is the temperature of food materials in the container body 11, so that the heating temperature of the food materials in the container body 11 is close to the temperature set by a program, and the taste of the food materials is ensured. Meanwhile, compared with the base 3, the container cover 12 and/or the container body 11 have fewer components, thereby facilitating the flexible arrangement of the temperature measuring component 21.

Specifically, as shown in fig. 3, the container lid 12 and/or the container body 11 are provided with a through hole 121, and at least a part of the temperature measuring member 21 protrudes into the container body 11 through the through hole 121.

In this embodiment, at least part of the temperature measurement component 21 extends into the container body 11 through the through hole 121, so that the distance between the temperature measurement component 21 and the liquid can be reduced, the temperature detected by the temperature measurement component 21 is closer to the real temperature of the liquid, and the accuracy of the detection result of the temperature measurement component 21 is improved.

Specifically, as shown in fig. 6, the beverage container 1 further includes a first circuit board 2 and a first controller 22 connected to the first circuit board 2, the temperature measuring component 21 is connected to the first circuit board 2, and the first controller 22 is configured to control the temperature measuring component 21 to start measuring the temperature or stop measuring the temperature through the first circuit board 2.

In this embodiment, the temperature measuring component 21 and the first controller 22 are both connected to the first circuit board 2, and the first controller 22 can control the temperature measuring component 21 to measure the temperature according to the control program of the beverage container 1, and can control the temperature measuring component 21 to stop measuring the temperature according to the control program of the beverage container 1. Therefore, the temperature measuring component 21 can be stopped in time by controlling the temperature measuring component 21 to start measuring the temperature or stop measuring the temperature through the first controller 22, and the waste of electric energy is avoided. Meanwhile, the temperature measuring component 21 and the first controller 22 are both connected with the first circuit board 2, so that the connection structure between the temperature measuring component 21 and the first controller 22 can be simplified, and the connection accuracy between the temperature measuring component 21 and the first controller 22 as well as the first circuit board 2 can be improved.

Specifically, as shown in fig. 3 and 4, the temperature measuring component 21 includes a switch 211, and after the switch 211 is turned on, the first controller 22 is configured to control the temperature measuring component 21 to start measuring the temperature or stop measuring the temperature through the first circuit board.

In this embodiment, the switch 211 is used for controlling the opening and closing of the temperature measuring component 21, after the switch 211 is opened, the first controller 22 controls the temperature measuring component 21 to start measuring the temperature or stop measuring the temperature, so that the user can open or close the temperature measuring component 21 at any time, the temperature measuring component 21 is opened through the switch 211 and the temperature of the liquid in the container body 11 is measured in real time when needed, and the temperature measuring component 21 is closed through the switch 211 when not needed, so that the power is saved.

As shown in fig. 4 and 5, the temperature measuring component 21 further includes an indicator lamp 212, when the temperature measuring component 21 is turned on, the indicator lamp 212 is turned on to prompt the user that the temperature measuring component 21 can normally operate, and if the indicator lamp 212 is not turned on, the user is prompted that the temperature measuring component 21 cannot normally operate, so that the indicator lamp 212 is convenient for the user to know the status of the temperature measuring component 21, and can timely find and solve problems. Meanwhile, the switch 211 may be a touch switch, the switch 211 is connected to an elastic member 211a, the switch 211 is turned on or off by the expansion and contraction of the elastic member 211a, the touch sensitivity of the switch 211 can be improved, and the switch 211 can be automatically reset.

As shown in fig. 5, the temperature measuring part 21, the switch 211 and the first controller 22 are all connected to the first circuit board 2, so that the connection structure among the temperature measuring part 21, the switch 211 and the first controller 22 can be simplified, and the connection accuracy among the temperature measuring part 21, the switch 211 and the first controller 22 and the first circuit board 2 can be improved.

As shown in fig. 3 and 4, the container cover 12 includes an upper cover 122 and a lower cover 123, the first circuit board 2 is disposed on the lower cover 123, the upper cover 122 covers the lower cover 123 to protect the first circuit board 2, the switch 211 is disposed on the upper cover 122, the lower cover 123 is provided with a through hole 121, and the temperature measuring component 21 passes through the through hole 121 of the lower cover 123 to detect the liquid and/or vapor in the container body 11.

In one embodiment, as shown in fig. 3 and 4, the temperature measurement component 21 is an infrared temperature measurement component.

In this embodiment, when the temperature measurement part 21 is the infrared temperature measurement part, the in-process of the temperature of the liquid in the temperature measurement part 21 detection container body 11 need not to contact with liquid, can avoid the liquid in the container body 11 to produce corruption, oxidation etc. to the temperature measurement part 21 to improve the life of temperature measurement part 21, can also avoid the temperature measurement part 21 to produce the pollution to the liquid in the container body 11 simultaneously.

In addition, when the temperature measuring component 21 is an infrared temperature measuring component, the temperature of the liquid in the container body 11 can be detected, and the liquid level in the container body 11 can be calculated through the time for the temperature measuring component 21 to receive signals, so that the concentration of the cooked food in the container body 11 can be controlled by controlling the change of the liquid level in the container body 11 through the temperature measuring component 21, and the beverage container 1 has multiple cooking functions.

The embodiment of the present application further provides a beverage heating container, as shown in fig. 1-2, the beverage heating container includes a base 3 and the beverage container 1 described above, wherein the beverage container 1 can be placed on the base 3. The beverage heating container can be a health preserving cup, an electric stewing cup or an electric cooker, and the like, and the description is only given by taking the beverage heating container as the health preserving cup as an example.

In this embodiment, the existence of base 3 makes drink container 1 and base 3 can separate, prevents that the user from soaking power cord 39 and causing the safety problem at the in-process of using drink container 1 to promote the safety in utilization of liquid drink heating vessel.

The container body 11 can be made of high borosilicate glass, and the high borosilicate glass has good heat resistance, can be used at the temperature of-20 ℃ to 130 ℃, and can further improve the use safety of the drink heating container. And carry out real-time supervision through setting up the temperature measurement part 21 at container lid 12 or container body 11 and carrying out the temperature of the edible material in the container body 11 and the hot water juice, can satisfy the multiple culinary art function of drink heating container: for example, boiling water, brewing and boiling health tea, cooking health soup, heating and boiling milk tea and preserving heat.

Specifically, as shown in fig. 5-10, the beverage container 1 includes a first controller 22, the first controller 22 is connected to the temperature measuring component 21, the base 3 includes a second controller 321 and a heating component 31, the second controller 321 is connected to the heating component 31, and the first controller 22 is connected to the second controller 321. When the temperature measuring component 21 detects that the liquid in the beverage container 1 is heated to the preset temperature or the second controller 321 detects that the heating component 31 is heated to the preset time, the second controller 321 is used for controlling the temperature measuring component 21 to measure the temperature or stopping measuring the temperature through the first controller 22.

In this embodiment, the base 3 is provided with the second controller 321, when the power of the base 3 is turned on and the heating component 31 starts to heat, the second controller 321 controls the temperature measuring component 21 to start measuring the temperature through the first controller 22, and feeds back the measurement result to the second controller 321, that is, the second controller 321 can receive the temperature of the liquid in the container 11, and when the temperature of the liquid in the container 11 is heated to a preset temperature or the heating component 31 is heated to a preset time, the second controller 321 can also control the temperature measuring component 21 to stop measuring the temperature through the first controller 22. Therefore, the second controller 321 is arranged to facilitate the control of the temperature measuring component 21, so that the temperature measuring component 21 can work synchronously with the heating component 31, and the control flow is simplified.

Specifically, as shown in fig. 9-10, when the temperature measuring component 21 detects that the liquid in the beverage container 1 is heated to the preset temperature or the second controller 321 detects that the heating component 31 is heated for the preset time, the second controller 321 is further configured to control the heating component 31 to stop heating.

In this embodiment, the second controller 321 can control the first controller 22, further control the temperature measuring component 21 to start or stop measuring temperature, and also control the heating component 31 to stop heating according to the detection result of the temperature measuring component 21 or the heating time of the heating component 31, so as to prevent the heating component 31 from operating all the time when the user forgets to turn off the power supply of the base 3, thereby avoiding the danger of dry burning.

Specifically, as shown in fig. 6 and 10, one of the first controller 22 and the second controller 321 is connected to the transmitter 23, and the other is connected to the receiver 322, and the first controller 22 and the second controller 321 transmit signals through the transmitter 23 and the receiver 322.

In this embodiment, as shown in fig. 5 and 10, the transmitter 23 is disposed on the first controller 22, the receiver 322 is disposed on the second controller 321, the first controller 22 can control the operation of the second controller 321 by transmitting a signal to the receiver 322 through the transmitter 23, and when the liquid in the container 11 is heated to a preset temperature or the heating member 31 is heated to a preset time, the heating member 31 is controlled to stop heating through the second controller 321. In this case, the second controller 321 controls the heating component 31 to stop heating only according to the signal sent by the first controller 22, and does not send a signal to the first controller 22 to control the temperature measuring component 21 to measure or stop measuring the temperature, at this time, after the switch 211 is turned on, the temperature measuring component 21 measures or stops measuring the temperature under the control of the first controller 22, and when the switch 211 is turned off, the temperature measuring component 21 stops measuring the temperature.

Or, the transmitter 23 is arranged on the second controller 321, the receiver 322 is arranged on the first controller 22, the second controller 321 can control the operation of the first controller 22 by transmitting a signal to the receiver 322 through the transmitter 23, when the heating component 31 starts to heat, the temperature measuring component 21 is controlled by the first controller 22 to start measuring the temperature, when the liquid in the container body 11 is heated to a preset temperature or the heating component 31 is heated to a preset time, the second controller 321 sends a signal to the first controller 22, and thus the temperature measuring component 21 is controlled by the first controller 22 to stop measuring the temperature. In this case, the second controller 321 not only controls the heating member 31 to stop heating, but also controls the temperature measuring member 21 to measure the temperature or stop measuring the temperature by the first controller 22 by sending a signal to the first controller 22. At this time, the switch 211 is only used for turning on or off the temperature measuring component 21, and it is not necessary to control the temperature measuring component 21 to measure the temperature or stop measuring the temperature through the switch 211, so that the switch 211 can be omitted, and the control flow can be simplified.

More specifically, as shown in fig. 6, the beverage heating container further comprises a power module 25 and a first alarm device 24 connected to the first circuit board 2, wherein the power module 25 is used for supplying power to at least one of the temperature measuring component 21, the first controller 22 and the first alarm device 24; the first alarm device 24 is connected with the first controller 22, and when the power module 25 is low in electric quantity or fully charged, the first controller 22 is used for controlling the first alarm device 24 to give out a prompt.

In this embodiment, the power module 25 is configured to supply power to at least one of the temperature measurement component 21, the first controller 22 and the first alarm device 24, and can simplify a structure in which the temperature measurement component 21, the first controller 22 and the first alarm device 24 are connected to a power supply, when the power module 25 is configured to supply power to the temperature measurement component 21, the first controller 22 and the first alarm device 24, and after the beverage container 1 is disconnected from the power supply, the temperature measurement component 21, the first controller 22 and the first alarm device 24 can still continue to operate, so that the temperature measurement component 21 can detect the temperature of the liquid in the beverage container 1 before the beverage container 1 is placed on the base 3, and a reasonable heating program can be formulated according to a detection result. First alarm device 24 and power module 25 all are connected with first circuit board 2, and first alarm device 24 is connected with first controller 22, and when power module 25 electric quantity was not enough or when fully charged, first controller 22 can control first alarm device 24 and send the suggestion, reminds the user to charge or pull out power module 25's charging wire to power module 25.

The switch 211, the first controller 22, the emitter 23, the first alarm device 24, the indicator lamp 212 and the power module 25 are all connected with the first circuit board 2, so that the connection structure among the components can be simplified, and the volume of the switch 211, the first controller 22, the emitter 23, the first alarm device 24, the indicator lamp 212 and the power module 25 connected with the first circuit board 2 is reduced. The power module 25 includes a bracket 251 and a battery 252, and the battery 252 is fixed to the first circuit board 2 through the bracket 251, so that the connection stability of the battery 252 and the first circuit board 2 can be improved, the vibration of the battery 252 can be reduced, and the power supply stability of the battery 252 can be improved. The base 3 further comprises a second circuit board 32 and a second alarm device 323, the second controller 321, the receiver 322 and the second alarm device 323 are all connected with the second circuit board 32, so that the connection structure among the second controller 321, the receiver 322 and the second alarm device 323 can be simplified, the connection accuracy of the second controller 321, the receiver 322 and the second alarm device 323 is improved, and the volume after connection is reduced. The second alarm device 323 can give a prompt when the beverage heating container reaches a preset temperature or a preset time, so as to remind a user to cut off the power supply in time, thereby saving electric energy; or when the drink heating container is wrong in the program (for example, the drink container 1 is not placed on the base 3), a prompt is sent, so that the use safety of the drink heating container is improved.

As shown in fig. 9, the base 3 further includes a heat insulating block 33, a support plate 34, a fan 35, a sealing cover 36, and a housing 37. As shown in fig. 8, the housing 37 is used for protecting the internal structure of the base 3, the housing 37 further includes a bottom cover 371, the bottom cover 371 is provided with heat dissipation holes 371a, the internal heat dissipation of the base 3 can be accelerated, so as to protect the electronic components inside the base 3, the bottom cover 371 is provided with a plurality of rubber pads 371b, and the rubber pads 371b can prevent the base 3 from scratching the desktop when moving. The heat insulating block 33 is located on the supporting plate 34, heat transfer from the heating part 31 to the inside of the base 3 is reduced, the internal structure of the base 3 is protected, the fan 35 is sleeved with the sealing cover 36, the fan 35 is controlled to blow to the heat insulating block 33, the heat insulating block 33 is further cooled, and the purpose of protecting the internal structure of the base 3 is achieved. As shown in fig. 7, the base 3 further includes a control panel 38, and the control panel 38 is used to set a cooking type. As shown in fig. 4 and 5, the container cover 12 further includes a charging socket 26, the charging socket 26 is connected to the first circuit board 2 and extends out of the upper cover 122, so as to conveniently charge the battery 252, reduce the use of disposable batteries, and achieve the purpose of protecting the environment.

The embodiment of the application also provides a control method of the beverage heating container, which comprises the following steps:

s1: the beverage container 1 is placed on the base 3, the base 3 is powered on, a cooking instruction is set, and the second controller 321 detects whether the corresponding device is matched with the cooking instruction;

s2: the switch 211 is turned on, the temperature measuring component 21 starts to detect the initial liquid level and temperature in the container body 11, the data is sent to the receiver 322 through the emitter 23, the second controller 321 receives the signal of the receiver 322, the temperature, the duration and the concentration are set according to the cooking instruction, and the corresponding heating power and the corresponding heating program are matched;

s3: the second controller 321 controls the heating component 31 to heat according to the heating power and the heating program, the temperature measuring component 21 measures the temperature in real time, the result is fed back to the receiver 322 through the transmitter 23, and the receiver 322 transmits the result to the second controller 321;

s4: when the temperature detected by the temperature measuring part 21 reaches the set temperature or the time length reaches the set parameters but does not reach the concentration, further modifying the program, continuing to heat and continuing for the corresponding time length until the set concentration is reached;

s5: the second controller 321 controls the heating component 31 to stop working, the first controller 22 controls the temperature measuring component 21 to stop measuring temperature, and the second controller 321 controls the second alarm 323 to prompt the cooking to be finished and end.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A beverage container, characterized in that the beverage container (1) comprises:

a container body (11), the container body (11) having an opening (111);

a container cover (12), wherein the container cover (12) can cover the opening (111);

the temperature measuring component (21), the said temperature measuring component (21) is used for detecting the temperature of the liquid in the said container body (11);

wherein the temperature measuring member (21) is attached to the container lid (12) and/or the container body (11).

2. The beverage container according to claim 1, wherein the container cover (12) and/or the container body (11) is provided with a through hole (121), and at least a part of the thermometric component (21) extends into the inner cavity of the container body (11) through the through hole (121).

3. The beverage container according to claim 1, wherein the beverage container (1) further comprises a first circuit board (2) and a first controller (22) connected with the first circuit board (2), the temperature measuring part (21) is connected with the first circuit board (2);

the first controller (22) is used for controlling the temperature measuring component (21) to start measuring the temperature or stop measuring the temperature through the first circuit board (2).

4. The beverage container according to claim 3, wherein the beverage container (1) further comprises a power module (25) and a first alarm device (24) connected to the first circuit board (2), the power module (25) being configured to power at least one of the thermometric component (21), the first controller (22) and the first alarm device (24);

the first alarm device (24) is connected with the first controller (22), and when the power module (25) is insufficient in electric quantity or full of electric quantity, the first controller (22) is used for controlling the first alarm device (24) to give out a prompt.

5. The beverage container according to claim 3, wherein the beverage container (1) comprises a switch (211);

after the switch (211) is turned on, the first controller (22) is used for controlling the temperature measuring component (21) to start measuring the temperature or stop measuring the temperature through the first circuit board (2).

6. Beverage container according to any one of claims 1-5, wherein the thermometric component (21) is an infrared thermometric component.

7. A beverage heating vessel, comprising:

a base (3);

a beverage container (1), the beverage container (1) being a beverage container (1) according to any one of claims 1-6;

wherein the drink container (1) can be placed on the base (3).

8. The heating vessel for beverages according to claim 7, wherein the container (1) comprises a first controller (22) connected to the thermometric component (21), the base (3) comprises a heating component (31) and a second controller (321) connected to the heating component (31), the first controller (22) is connected to the second controller (321);

when the temperature measuring component (21) detects that the liquid in the beverage container (1) is heated to a preset temperature or the second controller (321) detects that the heating component (31) is heated to a preset time, the second controller (321) is used for controlling the temperature measuring component (21) to measure the temperature or stopping measuring the temperature through the first controller (22).

9. The beverage heating container according to claim 8, wherein one of the first controller (22) and the second controller (321) is provided with a transmitter (23) and the other is provided with a receiver (322), and the first controller (22) and the second controller (321) transmit signals through the transmitter (23) and the receiver (322).

10. The heating container for beverages as claimed in claim 8, wherein the temperature measuring part (21) detects that the liquid in the container (1) is heated to a preset temperature or the second controller (321) detects that the heating part (31) is heated for a preset time, and the second controller (321) is further used for controlling the heating part (31) to stop heating.

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