Temperature control vacuum cup

By incorporating a thermostat and heating device within the base of the thermos, combined with a retractable support structure, the problems of short-lasting heat retention and easy tipping are solved, achieving precise control of liquid temperature and preventing tipping.

CN224461443UActive Publication Date: 2026-07-07永康市金鹰科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
永康市金鹰科技有限公司
Filing Date
2025-07-29
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing thermos cups do not keep food warm for long enough and are prone to tipping over and breaking on tabletops.

Method used

The thermostat and heating pads are installed inside the base of the thermos, along with a heating column. The support structure automatically expands and contracts through a pressing ring, a conical platform, and a reset assembly, combined with a vacuum chamber design to maintain the temperature.

Benefits of technology

It enables temperature control of the liquid inside the thermos and prevents tipping, improving the thermos's performance and practicality.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224461443U_ABST
    Figure CN224461443U_ABST
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Abstract

The utility model belongs to the technical field of vacuum cup, concretely relates to a temperature control vacuum cup, including cup cover, the bottom of cup cover is fixedly installed with the base through cup body, the inside of base is provided with temperature control and anti -tilt mechanism, wherein, temperature control and anti -tilt mechanism include the temperature controller of fixed mounting in the inside of base, the top of temperature controller is fixedly installed with heating patch and heating column, and heating column is inserted with cup body, and one side of base is clamped with support plate, and the top rod of support plate one side fixed connection is slidably installed with conical table, and the top of conical table is provided with reset subassembly. The utility model can carry out temperature control to the solution in the vacuum cup through the temperature controller, heating patch and heating column set up in the inside of base, and through the linkage of press ring, conical table and reset subassembly, can make support structure automatic expansion and shrink, avoid the vacuum cup to appear to pour.
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Description

Technical Field

[0001] This utility model belongs to the field of thermos cup technology, specifically relating to a temperature-controlled thermos cup. Background Technology

[0002] A thermos flask is a common container in daily life, primarily used to keep beverages at a warm temperature. It utilizes special insulating materials and technologies to reduce heat conduction, convection, and radiation, thus maintaining the internal temperature of the beverage for an extended period. Typically, thermos flasks are made of double-walled stainless steel or other metals, with a vacuum between the two layers. This vacuum environment significantly reduces heat conduction and convection, resulting in superior heat retention.

[0003] Problems with existing technology:

[0004] Currently available thermos cups only achieve heat preservation through the vacuum cavity between their inner liner and outer shell. However, this structure does not provide long-lasting heat preservation, thus affecting the effectiveness of the thermos cup. In addition, when existing thermos cups are placed on a table, they do not have a retractable support structure, making them easy to tip over and cause damage. Utility Model Content

[0005] The purpose of this invention is to provide a temperature-controlled thermos cup that can control the temperature of the solution inside the cup through a thermostat, heating pads, and heating column installed inside the base. At the same time, the support structure can automatically expand and contract through the linkage of the pressing ring, the conical platform, and the reset component, so as to prevent the thermos cup from tipping over.

[0006] The specific technical solution adopted by this utility model is as follows:

[0007] A temperature-controlled insulated cup, including a lid;

[0008] The bottom of the cup lid is fixedly mounted with a base through the cup body, and the base is equipped with a temperature control and anti-tipping mechanism.

[0009] The temperature control and anti-tilt mechanism includes a temperature controller fixedly installed inside the base, a heating pad and a heating column fixedly installed on the top of the temperature controller, and the heating column is inserted into the cup body;

[0010] A support plate is snapped onto one side of the base, and a top rod fixedly connected to one side of the support plate is slidably installed with the conical platform. A reset assembly is provided on the top of the conical platform.

[0011] The base is equipped with a wireless charging module at its bottom, which is electrically connected to the thermostat. A pressing ring is slidably installed at the bottom of the base.

[0012] The pressing ring is used to push the conical platform to move vertically, so that the conical platform pushes the support plate to move outward through the top rod.

[0013] The reset assembly includes a connecting rod fixedly installed on the top of the conical platform. The connecting rod is slidably installed on the cylinder via a sliding column. A spring is abutted against the top of the sliding column, and a limit block is fixedly installed on one side of the sliding column.

[0014] The conical platform pushes the connecting rod, causing the sliding column to move vertically, which in turn causes the sliding column to move the limiting block along the track groove.

[0015] The cup body includes an outer shell, and a stainless steel inner liner is fixedly installed inside the outer shell through a vacuum cavity. A heat-conducting shell is fixedly connected inside the stainless steel inner liner, and the interior of the heat-conducting shell is inserted into a heating column.

[0016] The top of the stainless steel inner liner is threaded onto the cup lid, and the bottom of the outer shell is threaded onto the base.

[0017] The technical effects achieved by this utility model are as follows:

[0018] This invention features a base at the bottom of the cup body, with a thermostat installed inside. The thermostat controls the activation of the heating pads and heating column. Since the stainless steel inner liner is bonded to the heating column via a heat-conducting shell, and the heating pads are bonded to the bottom of the stainless steel inner liner, the heating pads and heating column can control the temperature of the solution inside the stainless steel inner liner within a set temperature range, thereby preventing the solution from cooling down.

[0019] This invention utilizes a pressing ring at the bottom of the base. Pushing the pressing ring causes the conical platform to move upwards, which in turn pushes the top rod to extend the support plate outwards. This extension of the support plate provides support for the thermos cup, preventing it from tipping over. During the upward movement of the conical platform, the sliding column moves the limiting block along the track groove. Since the top of the connecting rod is rotatably mounted to the sliding column, and the top of the sliding column abuts against the cylinder via a spring, pushing the pressing ring again causes the sliding column to move the limiting block in the opposite direction to reset, thereby retracting the support plate. Therefore, the thermos cup of this device has a retractable support structure, thus improving its practicality. Attached Figure Description

[0020] Figure 1 This is a three-dimensional view of the overall installation structure of this utility model;

[0021] Figure 2 This is a schematic diagram of the base structure in this utility model;

[0022] Figure 3 This is a schematic diagram of the installation structure of the wireless charging module in this utility model;

[0023] Figure 4 This is a schematic diagram of the installation structure of the reset component in this utility model;

[0024] Figure 5 This is a utility model Figure 4 Enlarged schematic diagram of the structure at point A in the middle;

[0025] Figure 6 This is a schematic diagram of the cross-sectional structure of the cup body in this utility model.

[0026] The attached diagram lists the components represented by each number as follows:

[0027] 1. Lid; 2. Cup body; 21. Outer shell; 22. Stainless steel inner liner; 23. Vacuum chamber; 24. Heat-conducting shell; 3. Base; 4. Temperature control and anti-tipping mechanism; 41. Thermostat; 42. Heating pad; 43. Heating column; 44. Support plate; 45. Pressing ring; 46. Top rod; 47. Conical platform; 48. Reset assembly; 481. Cylinder; 482. Track groove; 483. Sliding column; 484. Spring; 485. Limiting block; 486. Connecting rod; 5. Wireless charging module. Detailed Implementation

[0028] To make the objectives and advantages of this utility model clearer, the following detailed description is provided in conjunction with embodiments. It should be understood that the following text is merely used to describe one or more specific embodiments of this utility model and does not strictly limit the scope of protection specifically claimed by this utility model.

[0029] like Figure 1-5 As shown, a temperature-controlled thermos cup includes a lid 1;

[0030] The bottom of the cup lid 1 is fixedly installed with a base 3 via the cup body 2. The base 3 is equipped with a temperature control and anti-tipping mechanism 4.

[0031] Among them, the temperature control and anti-tilting mechanism 4 includes a temperature controller 41 fixedly installed inside the base 3. A heating pad 42 and a heating column 43 are fixedly installed on the top of the temperature controller 41. The heating column 43 is inserted into the cup body 2.

[0032] A support plate 44 is snapped onto one side of the base 3. A top rod 46 fixedly connected to one side of the support plate 44 is slidably installed with the conical platform 47. A reset assembly 48 is provided on the top of the conical platform 47.

[0033] See attached document Figure 2 , Figure 3 and Figure 4 In this embodiment, a wireless charging module 5 is provided at the bottom of the base 3. The wireless charging module 5 is electrically connected to the temperature controller 41. A pressing ring 45 is slidably installed at the bottom of the base 3.

[0034] In the above embodiments, the wireless charging module 5 makes charging the thermos cup more convenient. At the same time, since the base 3 can drive the temperature control and anti-tipping mechanism 4 to be disassembled from the cup body 2, it is also convenient to repair and replace the temperature control structure if it is damaged.

[0035] Furthermore, since the pressing ring 45 is slidably installed inside the base 3, when the pressing ring 45 is pressed, the pressing ring 45 can push the conical platform 47 to move vertically inside the base 3. Since the contact surface between the conical platform 47 and the top rod 46 is an inclined surface, the movement of the conical platform 47 can cause the top rod 46 to push the support plate 44 to move outward.

[0036] Furthermore, since a reset component 48 is provided between the top of the conical platform 47 and the base 3, the reset component 48 can lock the conical platform 47 at its maximum position, thereby fixing the outward unfolding position of the support plate 44.

[0037] For details, please refer to the attached document. Figure 4 and Figure 5 The reset assembly 48 includes a connecting rod 486 fixedly installed on the top of the conical platform 47. The connecting rod 486 is slidably installed on the cylinder 481 via a sliding column 483. At the same time, a spring 484 abuts against the top of the sliding column 483, and a limit block 485 is fixedly installed on one side of the sliding column 483. Therefore, when the conical platform 47 pushes the connecting rod 486 to drive the sliding column 483 to move vertically, the sliding column 483 can drive the limit block 485 to move along the track groove 482. Since the sliding column 483 and the connecting rod 486 are rotatably installed, the sliding column 483 can rotate inside the cylinder 481. When the conical platform 47 is pressed again, the sliding column 483 can move in the opposite direction along the track groove 482 under the action of the spring 484, thereby causing the support plate 44 to retract into the interior of the base 3, realizing automatic extension and retraction.

[0038] See attached document Figure 1 , Figure 2 and Figure 6 In this embodiment, the cup body 2 includes an outer shell 21, and a stainless steel inner liner 22 is fixedly installed inside the outer shell 21 through a vacuum cavity 23. A heat-conducting shell 24 is fixedly connected inside the stainless steel inner liner 22, and the interior of the heat-conducting shell 24 is inserted into the heating column 43.

[0039] In the above embodiment, since the top of the stainless steel inner liner 22 is threaded to the cup lid 1 and the bottom of the outer shell 21 is threaded to the base 3, the cup body 2 can be easily separated from the cup lid 1 and the base 3.

[0040] It should be noted that since the heating pads 42 and heating columns 43 inside the base 3 are both attached to the stainless steel inner liner 22, the temperature of the solution inside the stainless steel inner liner 22 can be controlled by activating the temperature controller 41 to prevent the solution from cooling down.

[0041] The working principle of this utility model is as follows: After setting the temperature through the built-in wireless communication module in the thermostat 41, the heating pad 42 and heating column 43 can be activated by the thermostat 41 to control the temperature of the solution inside the cup body 2 and prevent the solution from cooling down. The wireless charging module 5 set at the bottom of the thermostat 41 enables the temperature control and anti-tilt mechanism 4 to have wireless charging function. When the thermos cup is in use, simply press the pressing ring 45 once to push the conical platform 47 upward, and the resetting component 48 locks the conical platform 47. During the movement of the conical platform 47, the top rod 46 can push the support plate 44 to unfold outward, thereby supporting the thermos cup. By pressing the pressing ring 45 again, the resetting component 48 can unlock the conical platform 47. Through the elastic element between the support plate 44 and the top rod 46, the support plate 44 can be reset and retracted into the base 3.

[0042] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model, unless otherwise specified or limited, shall be implemented using conventional methods in the field.

Claims

1. A temperature-controlled thermos cup, characterized in that, include: Cup lid (1); The bottom of the cup lid (1) is fixedly installed with a base (3) through the cup body (2), and the base (3) is provided with a temperature control and anti-tipping mechanism (4). The temperature control and anti-tilt mechanism (4) includes a temperature controller (41) fixedly installed inside the base (3). A heating patch (42) and a heating column (43) are fixedly installed on the top of the temperature controller (41). The heating column (43) is inserted into the cup body (2). A support plate (44) is snapped onto one side of the base (3). A top rod (46) fixedly connected to one side of the support plate (44) is slidably installed with a conical platform (47). A reset assembly (48) is provided on the top of the conical platform (47).

2. The temperature-controlled thermos cup according to claim 1, characterized in that: The bottom of the base (3) is provided with a wireless charging module (5), which is electrically connected to the thermostat (41). A pressing ring (45) is slidably installed on the bottom of the base (3).

3. A temperature-controlled thermos cup according to claim 2, characterized in that: The pressing ring (45) is used to push the conical platform (47) to move vertically, so that the conical platform (47) pushes the support plate (44) to move outward through the top rod (46).

4. A temperature-controlled thermos cup according to claim 1, characterized in that: The reset assembly (48) includes a connecting rod (486) fixedly installed on the top of the conical platform (47). The connecting rod (486) is slidably installed on the cylinder (481) via a sliding column (483). A spring (484) abuts against the top of the sliding column (483). A limit block (485) is fixedly installed on one side of the sliding column (483).

5. A temperature-controlled thermos cup according to claim 4, characterized in that: The conical platform (47) pushes the connecting rod (486) to drive the sliding column (483) to move vertically, so that the sliding column (483) drives the limiting block (485) to move along the track groove (482).

6. A temperature-controlled thermos cup according to claim 1, characterized in that: The cup body (2) includes an outer shell (21), and a stainless steel inner liner (22) is fixedly installed inside the outer shell (21) through a vacuum chamber (23). A heat-conducting shell (24) is fixedly connected inside the stainless steel inner liner (22), and the interior of the heat-conducting shell (24) is inserted into the heating column (43).

7. A temperature-controlled thermos cup according to claim 6, characterized in that: The top of the stainless steel inner liner (22) is threaded to the cup lid (1), and the bottom of the outer shell (21) is threaded to the base (3).