CN217447319U - Constant temperature cup - Google Patents

Abstract

The utility model relates to a constant temperature cup, which comprises a cup body component, wherein the cup body component is provided with a liquid storage cavity; the film heating assembly is positioned below the liquid storage cavity and comprises a heating film and a temperature control element, the heating film is arranged on the cup body assembly, the temperature control element is arranged on the heating film and/or the cup body assembly, and the film heating assembly is used for heating substances in the liquid storage cavity; the power supply assembly is arranged on the cup body assembly and is electrically connected with the film heating assembly; the control assembly, the control assembly with heat the membrane the accuse temperature subassembly is connected with the power supply unit electricity, the control assembly is used for controlling the operating condition who heats the membrane. The utility model discloses a constant temperature cup passes through the setting of membrane heating element, realizes carrying out high efficiency heating and temperature regulation and control to the constant temperature cup, provides the power for the constant temperature cup through the power supply unit, through the heating of the accurate accuse temperature of control assembly.

Description

Constant temperature cup

Technical Field

The utility model relates to a drinking cup field especially relates to a constant temperature cup.

Background

The existing vacuum cup generally has a heat preservation function besides the basic function of water storage, heating tools such as a heating kettle and the like are often needed when hot water is drunk in the using process, the method is inconvenient to carry outdoors, the heating rate is high, and the temperature is not easy to adjust, so that a portable constant-temperature cup with the heating and temperature control functions is needed.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a portable thermostatic cup with temperature-adjustable heating and heat-preserving functions for solving the problems that a cup kettle with heating and heat-preserving functions has a large volume and is too fast in heating speed and not suitable for control.

A constant temperature cup comprises a cup body assembly, wherein the cup body assembly is provided with a liquid storage cavity, the cup body assembly is provided with an opening, and the opening is communicated with the liquid storage cavity; the film heating assembly is positioned below the liquid storage cavity and comprises a heating film and a temperature control element, the heating film is arranged on the cup body assembly, the temperature control element is arranged on the heating film and/or the cup body assembly, and the film heating assembly is used for heating substances in the liquid storage cavity; the power supply assembly is arranged on the cup body assembly and is electrically connected with the film heating assembly; the control assembly, the control assembly sets up on the cup body subassembly, the control assembly with heat the membrane the accuse temperature subassembly is connected with the power supply unit electricity, the control assembly is used for control the operating condition of heating the membrane.

The utility model discloses a constant temperature cup is through setting up membrane heating element and power supply unit, and the power supply unit is connected with membrane heating element electricity, thereby the power supply unit during operation enables membrane heating element and generates heat and reach the effect of heating to the stock solution chamber. The film heating component comprises a heating film and a temperature control element, wherein the heating film is a planar heating element consisting of an electric insulating material and a heating resistance material packaged in the heating film, the thickness is thin, the occupied space of a heating part can be greatly saved due to the use of the heating film, and the space utilization rate is improved; the temperature control element is arranged on the heating film or the cup body assembly, and the temperature in the liquid storage cavity is sensed by the temperature control element, so that the heating condition of the heating film in the liquid storage cavity is regulated and controlled, and the effects of temperature control and heat preservation are achieved. Carry out electric power regulation to power supply unit through setting up control module to control film heating element's intensification size and speed, control mode is simple reliable. On the other hand, the direct contact between the heating component and the liquid can be avoided through the use of the membrane heating component, and the pollution to the liquid can not be generated.

In one embodiment, the heating film is one of a PI heating film, a silica gel heating film, a PET heating film, or a graphene heating film. The heating film can adopt a PI heating film, a silica gel heating film, a PET heating film or a graphene heating film, the PI heating film is preferred, and the PI electric heating film is formed by taking a polyimide film as an outer insulator and a metal foil or a metal wire as an inner conductive heating body through high-temperature and high-pressure heat sealing, so that the PI electric heating film has excellent insulating strength, electric resistance strength, heat conduction efficiency and resistance stability, can be widely applied to the heating field and can obtain quite high temperature control precision.

In one embodiment, the temperature control element is disposed on the heater film. Accuse temperature component and heating membrane integrated into one piece, accuse temperature component can more accurate detection heating membrane's the heating condition to can more accurate heating membrane's heating state, can more effectively improve the heating efficiency of heating membrane, reduce the heat consume, temperature control element sets up on heating membrane simultaneously, reduces heating and temperature control assembly's occupation space, is favorable to controlling the volume of constant temperature cup.

In one embodiment, the heating area of the heating film surrounds the temperature control element. The temperature control element is arranged around the heating area, so that the temperature control element can accurately detect the heating condition of the heating area, and the temperature in the liquid storage cavity can be better regulated and controlled.

In one embodiment, the cup body assembly comprises a cup cover assembly, a cup body assembly and a base, the cup body assembly is arranged on the base, the liquid storage cavity is formed in the cup body assembly, an opening is formed in the cup body assembly and located on one side, away from the base, of the cup body assembly, the cup cover assembly covers the opening of the cup body assembly, and the power supply assembly and the control assembly are arranged on the base. Be used for storing liquid through setting up the stock solution chamber on cup body subassembly, the membrane heating element sets up on the cup body subassembly, heat the object in stock solution chamber, through the heating condition of placing power supply subassembly and control assembly control to stock solution chamber on the base, the bowl cover subassembly sets up the stock solution chamber opening part of cup body subassembly for seal the stock solution chamber of cup body subassembly, change and use the liquid in stock solution chamber through opening the bowl cover subassembly, seal the liquid in stock solution chamber through closing the bowl cover subassembly.

In one embodiment, the cup body assembly comprises a cup wall assembly and a bottom wall, the cup wall assembly is arranged on the bottom wall, the cup wall assembly and the bottom wall are enclosed to form the liquid storage cavity, the cup wall assembly is provided with the opening, at least part of the cup wall assembly forms a vacuum cavity, and the film heating assembly is arranged on the bottom wall. Through setting up the heating film on the diapire, membrane heating element and stock solution chamber separation realize heating element and hold the separation of intracavity liquid, and this kind of mode of setting has avoided heating film in the heating process because the hot material of high temperature heating messenger intramembranous boils the drinking liquid of stock solution intracavity, improves the edible safety who uses the constant temperature cup. Through set up the vacuum cavity between the wall subassembly of cup, the heat that the heat in the stock solution intracavity that significantly reduces is with external heat transfer heat dissipation, improves the heat preservation performance of thermostatic cup.

In one embodiment, the cup wall assembly comprises a first cup wall and a second cup wall, the first cup wall and the second cup wall are arranged on the cup body assembly, the first cup wall is arranged on the second cup wall, the first cup wall and the bottom wall enclose to form the liquid storage cavity, and the vacuum cavity is formed between the first cup wall and the second cup wall. Through set up first cup wall and second cup wall on the cup wall subassembly, form the stock solution chamber in the first cup wall and be used for depositing liquid, vacuole formation between first cup wall and the second cup wall, this cavity is the vacuum cavity, through increasing the vacuum layer between stock solution chamber and outside air, reduces the heat transfer between stock solution chamber and the air, can effectively improve the thermal insulation performance in the cup body subassembly, can reduce the heating energy consumption of thermostatic cup simultaneously.

In one embodiment, the cup body assembly is stainless steel. The cup body component is made of stainless steel materials, and then the vacuum technology is combined to extract air in the interlayer of the cup wall component so as to achieve a better vacuum heat preservation effect.

In one embodiment, the cup cover assembly further comprises a first sealing element 5, the first sealing element 5 is sleeved on the cup cover assembly, the first sealing element 5 is located between the cup body assembly and the cup cover assembly, and the first sealing element 5 is used for sealing a gap between the cup body assembly and the cup cover assembly. Through set up first sealing member 5 between bowl cover subassembly and cup body subassembly, screw up on cup body subassembly when the bowl cover subassembly, first sealing member 5 is located bowl cover subassembly and cup body subassembly hookup location's tip, enables bowl cover subassembly and cup body subassembly and is connected inseparabler, further makes the stock solution chamber in the cup body subassembly reach better sealed effect, improves the thermal insulation performance of thermostatic cup.

In one embodiment, the cup cover assembly comprises a cup cover seat assembly, a cup cover and a button assembly, the cup cover seat assembly is arranged on the cup body assembly, the cup cover seat assembly is covered on the opening of the cup body assembly, a through hole is formed in the cup cover seat assembly and communicated with the liquid storage cavity, the cup cover is covered on the cup cover seat assembly, the cup cover can move relative to the cup cover seat assembly, the through hole can be opened or closed when the cup cover moves relative to the cup cover seat assembly, the button assembly is arranged on the cup cover seat assembly and the cup cover, and the button assembly is used for locking or opening the cup cover. Through be equipped with the bowl cover seat subassembly on the cup body subassembly, seted up the through-hole on the bowl cover seat subassembly, open the opening that the bowl cover seat subassembly can use the liquid storage chamber to communicate and change liquid, establish bowl cover seat subassembly lid and can use the through-hole on the bowl cover seat subassembly to drink the liquid in liquid storage chamber on the cup body subassembly, the through-hole on the bowl cover seat subassembly is little than the opening that the cup body subassembly was seted up, convenience of customers uses, through set up button assembly on the bowl cover subassembly, button assembly is used for opening and closed bowl cover.

In one embodiment, the lid assembly further includes a second seal disposed on the lid between the lid base assembly and the lid, the second seal fitting the through-hole in the lid base assembly. Through being equipped with the second sealing member on the bowl cover subassembly, the through-hole looks adaptation of seting up on second sealing member and the bowl cover seat subassembly, when using button assembly with the bowl cover block when the bowl cover seat subassembly, the second sealing member is located between bowl cover and the bowl cover seat subassembly, seals the through-hole, can improve the sealing performance between bowl cover and the bowl cover seat subassembly, can reduce the heat of stock solution intracavity better and scatter and disappear to reach better heat preservation effect.

In one embodiment, the control assembly comprises a switch assembly and a control board assembly, the control board assembly is arranged on the cup body assembly, the control board assembly is electrically connected with the power supply assembly, the heating film and the temperature control element, the switch assembly is arranged on the control board assembly, and the switch assembly is used for controlling the film heating assembly. The control panel assembly is arranged on the cup body assembly and is electrically connected with the power supply assembly, the film heating assembly and the temperature control element, so that the heating state of the constant-temperature cup can be regulated and controlled through the control panel assembly. Wherein, including power key and temperature adjustment key on the switch module, the temperature height in the stock solution intracavity can be controlled to the temperature adjustment key, and when the power key closed, the temperature adjustment key can not be used, and the stock solution chamber is in the state of stopping heating, when the power key was opened, can use the temperature adjustment key to carry out temperature control to the liquid in stock solution chamber. The temperature adjusting key has the functions of temperature rising and temperature lowering, so that the temperature in the liquid storage cavity can be adjusted and controlled independently by a user, and various requirements of the user on temperature adjustment and control of the liquid storage cavity are met.

In one embodiment, the power supply assembly comprises a charging port and a power supply battery, the charging port is arranged on the cup body assembly, the charging port is electrically connected with the power supply battery, the power supply battery is arranged at the bottom of the cup body assembly, and the power supply battery is electrically connected with the membrane heating assembly. Through setting up power supply battery and enabling the user to use the heating and the accuse temperature function of constant temperature cup under the condition that does not have external power supply to connect, convenience of customers uses in the open air, can charge power supply battery through setting up the port that charges, makes power supply battery ability used repeatedly, provides user's convenience in utilization.

Drawings

FIG. 1 is a front view of a thermostatic cup;

FIG. 2 is a rear view of the thermostatic cup;

FIG. 3 is a rear view of the thermostatic cup;

FIG. 4 is a cross-sectional view of the thermostatic cup;

FIG. 5 is a schematic view of a membrane heating assembly;

FIG. 6 is an exploded view of the lid assembly;

FIG. 7 is a schematic view of a control assembly;

FIG. 8 is a schematic view of vacuum incubation of a thermostatic cup.

Wherein, the corresponding relation between the reference signs and the component names is as follows:

1, a cup body component, 101 a liquid storage cavity, 11 a cup cover component, 12 a cup body component, 121 a cup wall component, 1211 a first cup wall, 1212 a second cup wall, 122 a bottom wall and 13 bases;

2, a film heating component, 21 heating a film, 22 a temperature control element;

3 power supply assembly, 31 charging port, 32 power supply battery;

4 control assembly, 41 switch assembly, 42 control panel assembly;

5 a first seal;

6 a second seal.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The thermostatic cup according to some embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in fig. 1 to 8, the present embodiment discloses a thermostatic cup, which includes a cup body assembly 1, the cup body assembly 1 is provided with a liquid storage cavity 101, the cup body assembly 1 is provided with an opening, and the opening is communicated with the liquid storage cavity 101; the film heating assembly 2 is positioned below the liquid storage cavity 101, the film heating assembly 2 comprises a heating film 21 and a temperature control element 22, the heating film 21 is arranged on the cup body assembly 1, the temperature control element 22 is arranged on the heating film 21 and/or the cup body assembly 1, and the film heating assembly 2 is used for heating substances in the liquid storage cavity 101; the power supply assembly 3 is arranged on the cup body assembly 1, and the power supply assembly 3 is electrically connected with the film heating assembly 2; control assembly 4, control assembly 4 sets up on cup body component 1, and control assembly 4 is connected with heating film 21, accuse temperature subassembly 22 and power supply unit 3 electricity, and control assembly 4 is used for controlling the operating condition who heats film 21.

The constant temperature cup disclosed in the application is through setting up membrane heating element 2 and power supply module 3, and power supply module 3 is connected with membrane heating element 2 electricity, thereby the during operation of power supply module 3 enables membrane heating element 2 to generate heat and reaches the effect of heating to stock solution chamber 101. The film heating component 2 comprises a heating film 21 and a temperature control element 22, wherein the heating film 21 is a planar heating element consisting of an electrical insulating material and a heating resistance material packaged in the heating film, the thickness is thin, and the use of the heating film 21 can greatly save the occupied space of a heating part and improve the space utilization rate; the temperature control element 22 is arranged on the heating film 21 or the cup body assembly 1, and the temperature in the liquid storage cavity 101 is sensed through the temperature control element 22, so that the heating condition of the heating film 21 in the liquid storage cavity 101 is regulated and controlled, and the effects of temperature control and heat preservation are achieved. Carry out electric power regulation to power supply unit 3 through setting up control module 4 to the intensification size and the speed of control membrane heating unit 2, control mode is simple reliable. On the other hand, the direct contact between the heating component and the liquid can be avoided through the use of the membrane heating component 2, and the pollution to the liquid can not be generated.

As shown in fig. 3 to 8, in addition to the features of the above embodiment, the present embodiment further defines: the heating film 21 is one of a PI heating film, a silica gel heating film, a PET heating film, or a graphene heating film. The heating film 21 can be a PI heating film, a silica gel heating film, a PET heating film or a graphene heating film, preferably the PI heating film, and the PI electric heating film is formed by using a polyimide film as an outer insulator and using a metal foil or a metal wire as an inner conductive heating body through high-temperature and high-pressure heat sealing, so that the PI electric heating film has excellent insulation strength, electric resistance strength, heat conduction efficiency and resistance stability. This makes it widely applicable to the field of heating and enables a considerably high temperature control accuracy to be obtained.

Further, as shown in fig. 5, a temperature controlling member 22 is provided on the heating film 21. Accuse temperature component 22 and heating film 21 integrated into one piece, accuse temperature component 22 can more accurate detection heating film 21's the heating condition to can more accurate heating film 21's heating state, can more effectively improve heating film 21's heating efficiency, reduce the heat consume, temperature control element 22 sets up on heating film 21 simultaneously, reduces heating and temperature control component's occupation space, is favorable to controlling the volume of thermostatic cup.

Further, the heat generation region of the heating film 21 surrounds the temperature control member 22. The temperature control element 22 is arranged around the heating area, so that the temperature control element 22 can accurately detect the heating condition of the heating area, and the temperature in the liquid storage cavity 101 can be better regulated and controlled.

As shown in fig. 1 to 6, in addition to the features of the above embodiment, the present embodiment further defines: cup body subassembly 1 includes bowl cover subassembly 11, cup body subassembly 12 and base 13, and cup body subassembly 12 sets up on base 13, is equipped with stock solution chamber 101 on the cup body subassembly 12, is equipped with the opening on the cup body subassembly 12, and the opening is located one side that the base was kept away from to cup body subassembly 12, and the opening part at cup body subassembly 12 is established to bowl cover subassembly 11 lid, and power supply subassembly 3 and control assembly 4 set up on base 13. Be used for storing liquid through setting up stock solution chamber 101 on cup body subassembly 12, membrane heating element 2 sets up on cup body subassembly 12, heat the object in stock solution chamber 101, through the heating condition of placing power supply unit 3 and control assembly 4 control to stock solution chamber 101 on base 13, bowl cover subassembly 11 sets up the stock solution chamber 101 opening part at cup body subassembly 12, a stock solution chamber 101 for sealing cup body subassembly 12, change and use the liquid in stock solution chamber 101 through opening bowl cover subassembly 11, seal up the liquid in stock solution chamber 101 through closing bowl cover subassembly 11.

As shown in fig. 4 to 8, in addition to the features of the above embodiment, the present embodiment further defines: the cup body component 12 comprises a cup wall component 121 and a bottom wall 122, the cup wall component 121 is arranged on the bottom wall 122, the cup wall component 121 and the bottom wall 122 enclose to form a liquid storage cavity, an opening is formed in the cup wall component 121, at least a part of the cup wall component 121 forms a vacuum cavity, and the film heating component 2 is arranged on the bottom wall 122. Through setting up heating film 21 on diapire 122, membrane heating element 2 and stock solution chamber 101 separation realize heating element and hold the separation of intracavity liquid, and this kind of mode of setting has avoided heating film 21 to pollute the drinking liquid in the stock solution chamber 101 because the heat of melting in the high temperature heating messenger membrane in the heating process, improves the edible safety who uses the constant temperature cup. By arranging the vacuum cavity between the cup wall components 121, heat in the liquid storage cavity 101 is greatly reduced, heat is transferred and dissipated with the outside, and the heat preservation performance of the constant temperature cup is improved.

In addition to the features of the above embodiments, the present embodiment further defines: the cup wall assembly 121 comprises a first cup wall 1211 and a second cup wall 1212, the first cup wall 1211 and the second cup wall 1212 are arranged on the cup body assembly 1, the first cup wall 1211 is arranged on the second cup wall 1212, the first cup wall 1211 and the bottom wall 122 enclose to form the liquid storage cavity 101, and a vacuum cavity is formed between the first cup wall 121 and the second cup wall 122. Through set up first cup wall 121 and second cup wall 122 on cup wall subassembly 121, form stock solution chamber 101 in the first cup wall 121 and be used for depositing liquid, vacuole formation between first cup wall 121 and the second cup wall 122, this cavity is the vacuum cavity, through increase the vacuum layer between stock solution chamber 101 and the outside air, reduce the heat transfer between stock solution chamber 101 and the air, can effectively improve the heat preservation performance in the cup body subassembly 12, can reduce the heating energy consumption of thermostatic cup simultaneously.

In addition to the features of the above embodiment, the present embodiment further defines: the cup body assembly 12 is stainless steel. The cup body component 12 is made of stainless steel, and the vacuum technology is combined to extract air in the interlayer of the cup wall component 121 so as to achieve the effect of vacuum heat preservation.

As shown in fig. 6, in addition to the features of the above embodiment, the present embodiment further defines: still include first sealing member 5, first sealing member 5 cover is established on bowl cover subassembly 11, and first sealing member 5 is located between cup body subassembly 12 and the bowl cover subassembly 11, and first sealing member 5 is used for the sealed clearance between cup body subassembly 12 and the bowl cover subassembly 11. Through set up first sealing member 5 between bowl cover subassembly 11 and cup body subassembly 12, screw up on cup body subassembly 12 when bowl cover subassembly 11, first sealing member 5 is located bowl cover subassembly 11 and cup body subassembly 12 hookup location's tip, enables bowl cover subassembly 11 and cup body subassembly 12 to be connected inseparabler, further makes stock solution chamber 101 in the cup body subassembly 11 reach better sealed effect, improves the thermal insulation performance of thermostatic cup.

In addition to the features of the above embodiments, the present embodiment further defines: bowl cover subassembly 11 includes bowl cover seat subassembly 111, bowl cover 112 and button assembly 113, bowl cover seat subassembly 111 sets up on cup body subassembly 12, the opening part of cup body subassembly 12 is located to bowl cover seat subassembly 111 lid, the through-hole has been seted up on bowl cover seat subassembly 111, through-hole and stock solution chamber 101 intercommunication, bowl cover 112 lid is located on bowl cover seat subassembly 111, bowl cover 112 can move for bowl cover seat subassembly 111, bowl cover 112 can open or closed through-hole when moving for bowl cover seat subassembly 111, button assembly 113 sets up on bowl cover seat subassembly 111 and bowl cover 112, button assembly 113 is used for the locking or opens bowl cover 112. Through be equipped with bowl cover seat subassembly 111 on cup body subassembly 12, the through-hole has been seted up on bowl cover seat subassembly 111, open bowl cover seat subassembly 111 and can use the opening of stock solution chamber 101 intercommunication to change liquid, establish bowl cover seat subassembly 111 lid on cup body subassembly 12 and can use the through-hole on bowl cover seat subassembly 111 to drink the liquid in stock solution chamber 101, the through-hole on bowl cover seat subassembly 111 is little than the opening that cup body subassembly 12 seted up, convenience of customers uses, through set up button assembly 113 on bowl cover subassembly 11, button assembly 113 is used for opening and closed bowl cover 112.

In addition to the features of the above embodiments, the present embodiment further defines: lid assembly 11 also includes a second seal 6, second seal 6 is disposed on lid 112, second seal 6 is located between lid base assembly 111 and lid 112, and second seal 6 is fitted to a through-hole in lid base assembly 111. Through being equipped with second sealing member 6 on bowl cover subassembly 11, the through-hole looks adaptation of seting up on second sealing member 6 and the bowl cover seat subassembly 111, when using button assembly 113 with bowl cover 112 block at bowl cover seat subassembly 111, second sealing member 6 is located between bowl cover 112 and the bowl cover seat subassembly 111, seals the through-hole, can improve the sealing performance between bowl cover 112 and the bowl cover seat subassembly 111, can reduce the heat in the stock solution chamber 101 better and scatter and disappear to reach better heat preservation effect.

As shown in fig. 7, in addition to the features of the above embodiment, the present embodiment further defines: control assembly 4 includes switch module 41 and control panel assembly 42, and control panel assembly 42 sets up on cup body component 1, and control panel assembly 42 is connected with power supply unit 3, heating film 21 and temperature control element 22 electricity, and switch module 41 sets up on control panel assembly 42, and switch module 41 is used for controlling membrane heating assembly 2. The control board assembly 42 is arranged on the cup body assembly 1, and the control board assembly 42 is electrically connected with the power supply assembly 3, the membrane heating assembly 2 and the temperature control element 22, so that the heating state of the thermostatic cup can be regulated and controlled through the control board assembly 42. Wherein, including power key and temperature adjustment key on the switch module 41, the temperature that the temperature adjustment key can control in the stock solution chamber 101 is high or low, and when the power key closed, the temperature adjustment key can not be used, and stock solution chamber 101 is in the state of stopping heating, and when the power key opened, can use the temperature adjustment key to carry out temperature control to the liquid in stock solution chamber 101. The temperature adjusting key has the functions of temperature rising and temperature lowering, so that the temperature in the liquid storage cavity 101 can be adjusted and controlled independently by a user, and various requirements of the user on temperature adjustment and control of the liquid storage cavity 101 are met.

As shown in fig. 4, in addition to the features of the above embodiment, the present embodiment further defines: the power supply assembly 3 comprises a charging port 31 and a power supply battery 32, the charging port 31 is arranged on the cup body assembly 1, the charging port 31 is electrically connected with the power supply battery 32, the power supply battery 32 is positioned at the bottom of the cup body assembly 1, and the power supply battery 32 is electrically connected with the membrane heating assembly 2. Through setting up power supply battery 42, enable the user and use the heating and the accuse temperature function of thermostatic cup under the condition that does not have external power supply to connect, convenience of customers uses in the open air, can charge power supply battery 42 through setting up charging port 41, makes power supply battery 42 ability used repeatedly, provides user's convenience in utilization.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A thermostatic cup, comprising:

the cup body assembly (1), the cup body assembly (1) is provided with a liquid storage cavity (101), the cup body assembly (1) is provided with an opening, and the opening is communicated with the liquid storage cavity (101);

the film heating assembly (2) is positioned below the liquid storage cavity (101), the film heating assembly (2) comprises a heating film (21) and a temperature control element (22), the heating film (21) is arranged on the cup body assembly (1), the temperature control element (22) is arranged on the heating film (21) and/or the cup body assembly (1), and the film heating assembly (2) is used for heating substances in the liquid storage cavity (101);

the power supply assembly (3) is arranged on the cup body assembly (1), and the power supply assembly (3) is electrically connected with the film heating assembly (2);

control assembly (4), control assembly (4) set up on cup body component (1), control assembly (4) with heat membrane (21) accuse temperature component (22) and power supply unit (3) electricity are connected, control assembly (4) are used for controlling the operating condition of heating membrane (21).

2. The thermostatic cup according to claim 1,

the heating film (21) is one of a PI heating film, a silica gel heating film, a PET heating film or a graphene heating film; and/or

The temperature control element (22) is arranged on the heating film (21); and/or

The heating area of the heating film (21) surrounds the temperature control element (22).

3. The thermostatic cup according to claim 1, characterized in that the cup body assembly (1) comprises a cup cover assembly (11), a cup body assembly (12) and a base (13), the cup body assembly (12) is arranged on the base (13), the liquid storage cavity (101) is arranged on the cup body assembly (12), an opening is arranged on the cup body assembly (12), the opening is positioned on one side of the cup body assembly (12) away from the base, the cup cover assembly (11) covers the opening of the cup body assembly (12), and the power supply assembly (3) and the control assembly (4) are arranged on the base (13).

4. The thermostatic cup according to claim 3, wherein the cup body assembly (12) comprises a cup wall assembly (121) and a bottom wall (122), the cup wall assembly (121) is disposed on the bottom wall (122), the cup wall assembly (121) and the bottom wall (122) enclose to form the reservoir, the cup wall assembly (121) is provided with the opening, at least a portion of the cup wall assembly (121) forms a vacuum cavity, and the membrane heating assembly (2) is disposed on the bottom wall (122).

5. The thermostatic cup according to claim 4, wherein the cup wall assembly (121) comprises a first cup wall (1211) and a second cup wall (1212), the first cup wall (1211) and the second cup wall (1212) being disposed on the cup body assembly (1), the first cup wall (1211) being disposed on the second cup wall (1212), the first cup wall (1211) and the bottom wall (122) enclosing to form the reservoir chamber (101), the vacuum chamber being formed between the first cup wall (1211) and the second cup wall (1212); and/or

The cup body component (12) is made of stainless steel.

6. The thermostatic cup according to claim 3, further comprising a first sealing member (5), wherein the first sealing member (5) is sleeved on the lid assembly (11), the first sealing member (5) is located between the cup body assembly (12) and the lid assembly (11), and the first sealing member (5) is used for sealing a gap between the cup body assembly (12) and the lid assembly (11).

7. The thermostatic cup of claim 3, wherein the cap assembly (11) includes a cap holder assembly (111), a cap (112), and a button assembly (113), the cup cover seat component (111) is arranged on the cup body component (12), the cup cover seat component (111) is arranged at the opening of the cup body component (12) in a covering manner, the cup cover seat component (111) is provided with a through hole which is communicated with the liquid storage cavity (101), the cup cover (112) is arranged on the cup cover seat component (111) in a covering manner, the cup cover (112) can move relative to the cup cover seat component (111), the through hole can be opened or closed when the cup cover (112) moves relative to the cup cover seat component (111), the button assembly (113) is arranged on the cup cover seat assembly (111) and the cup cover (112), the button assembly (113) is used for locking or unlocking the cup cover (112).

8. The thermostatic cup of claim 7, wherein the cap assembly (11) further includes a second seal (6), the second seal (6) being disposed on the cap (112), the second seal (6) being located between the cap holder assembly (111) and the cap (112), the second seal (6) fitting the through-hole in the cap holder assembly (111).

9. The thermostatic cup according to claim 1, characterized in that the control assembly (4) comprises a switch assembly (41) and a control board assembly (42), the control board assembly (42) being arranged on the cup body assembly (1), the control board assembly (42) being electrically connected with the power supply assembly (3), the heating membrane (21) and the temperature control element (22), the switch assembly (41) being arranged on the control board assembly (42), the switch assembly (41) being configured to control the membrane heating assembly (2).

10. The thermostatic cup according to claim 1, characterized in that the power supply assembly (3) comprises a charging port (31) and a power supply battery (32), the charging port (31) being provided on the cup assembly (1), the charging port (31) being electrically connected with the power supply battery (32), the power supply battery (32) being located at the bottom of the cup assembly (1), the power supply battery (32) being electrically connected with the membrane heating assembly (2).

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