Temperature digital display thermos cup

By using a magnetic connector to fix the thermos cup to the lower slot, and combining liquid and steam temperature probes to automatically switch the temperature measuring components, the problems of poor sealing and unstable temperature display are solved, achieving high sealing performance and accurate temperature display for the thermos cup, and reducing the risk of burns.

CN121003366BActive Publication Date: 2026-06-09ZHEJIANG HAOKE METAL PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ZHEJIANG HAOKE METAL PROD CO LTD
Filing Date
2025-09-11
Publication Date
2026-06-09

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    Figure CN121003366B_ABST
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Abstract

This invention belongs to the field of vacuum thermos cup technology, specifically a thermos cup with digital temperature display. It includes a lid, with a cup body threadedly connected to the bottom of the lid, and further includes: a water reservoir inside the lid for storing hot water, with a sliding groove at the bottom of the water reservoir; a locking block slidably engaged with one side of the lid for digital temperature display; a turntable rotatably connected to the locking block for displaying the hot water temperature from a forward view; and an adjusting component movably connected to the turntable. This application improves the threaded sealing accuracy between the lid and the cup body by using a magnetic suction component that is inserted and fixed to the lower slot, preventing leakage of hot water inside the cup body due to poor sealing and improving the sealing effect. Simultaneously, when the lid is inverted and hot water is poured in for drinking, the adjusting component drives the turntable to rotate, facilitating user observation. The magnetic suction component is inserted and fixed to the upper slot, allowing the sliding frame to slide and the temperature measuring component to be replaced, further improving the accuracy of hot water temperature measurement and facilitating subsequent drinking.
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Description

Technical Field

[0001] This invention belongs to the field of vacuum thermos cup technology, specifically a thermos cup with digital temperature display. Background Technology

[0002] Vacuum insulated cups are generally made of stainless steel with a vacuum layer to hold water. They have a lid on top that is tightly sealed. The vacuum insulation layer slows down the heat dissipation of the liquid inside, thus achieving the purpose of keeping it warm. A temperature-display insulated cup is a smart insulated cup that integrates a temperature sensor and a display screen. It can display the temperature of the liquid inside the cup in real time, making it convenient for users to know the temperature of the beverage and avoid scalding or drinking excessively cold drinks.

[0003] Chinese invention application 202410343013.2 discloses a digital display thermos cup, including a flip-top, a lid base, and a straw assembly. The flip-top is rotatably connected to one side of the lid base. The straw assembly passes through the lid base from top to bottom and connects the upper and lower spaces of the lid base. It also includes a digital display component, which includes a circuit board and a power supply, a display screen and a temperature sensor. The circuit board and the power supply are enclosed inside the lid base. The temperature sensor is connected to the circuit board and the power supply and extends from the lower surface of the lid base. The display screen is embedded in the lid base or the surface of the flip-top and is electrically connected to the circuit board and the power supply. This digital display thermos cup has low display accuracy and poor display effect.

[0004] Thermos cups with temperature display functions usually have the temperature display on the lid. However, when users want to drink, they need to remove the lid and pour hot water into it. This makes it difficult for users to intuitively judge whether the hot water inside is suitable for drinking, causing considerable inconvenience to users.

[0005] At the same time, when the cup lid shakes with the cup body, the temperature display will also shake, which will reduce the structural stability of the temperature display. Furthermore, if the user only turns the cup lid to achieve a threaded seal with the cup body, the number of turns may not be enough, which may result in poor sealing between the two. In addition, when the cup body is shaken, hot water may leak and cause scalding.

[0006] When the lid is closed, the temperature probe detects the temperature of the water vapor above the lid. When the lid is opened and hot water is poured into the lid for drinking, the temperature probe detects the temperature of the hot water inside the lid. The temperature measurement logic for water vapor and hot water is different, and the temperature probe required is different depending on whether there is hot water inside the lid. Therefore, the temperature value displayed on the digital temperature display is different in different states and cannot make it convenient for users to accurately know the temperature of the hot water. Summary of the Invention

[0007] To address the above problems, this invention provides a thermos cup with a digital temperature display.

[0008] To achieve the above objectives, the present invention provides the following technical solution: a temperature digital display thermos cup, including a cup lid, a cup body threadedly connected to the bottom of the cup lid, and further comprising:

[0009] A water storage tank, located inside the cup lid, is used to store hot water. A sliding groove is provided at the bottom of the water storage tank.

[0010] A locking block, which slides and engages with one side of the cup lid, is used for digital temperature display;

[0011] The turntable, which rotates within the card block, is used to display the hot water temperature from a forward-facing perspective.

[0012] An adjusting component is movably connected inside the turntable to drive the turntable to rotate and keep it vertically downward. A magnetic suction component is fixedly connected to the end of the adjusting component.

[0013] The sliding frame is slidably connected to the inner wall of the water storage tank, and different temperature measuring components can be replaced according to different substances inside the water storage tank.

[0014] This application improves the sealing accuracy of the lid and body threads by using a magnetic attachment to fix the lid in place with the lower slot, preventing hot water leakage due to poor sealing and enhancing the sealing effect. When the lid is inverted and hot water is poured in, the adjusting mechanism rotates the turntable for easy observation by the user. The magnetic attachment also allows the sliding frame to slide and the temperature measuring component to be replaced, further improving the accuracy of hot water temperature measurement and making it more convenient for the user to drink the hot water.

[0015] Preferably, the temperature sensing component includes:

[0016] A steam temperature probe is fixedly connected to the side wall of the sliding frame and is used to detect the temperature value of water vapor.

[0017] The liquid temperature probe is fixedly connected to the inner wall of the sliding groove and is used to detect the temperature of hot water. When the magnetic suction component moves into the inside of the card block, the sliding frame moves towards the end of the magnetic suction component under the magnetic attraction force of the magnetic suction component, sealing and blocking the steam temperature probe and opening the liquid temperature probe.

[0018] Preferred options also include:

[0019] A limiting groove is formed inside one side of the turntable and extends to the center of the turntable;

[0020] The first elastic element has one end fixedly disposed on the side of the limiting groove near the center of the turntable, and the other end fixedly connected to the end of the adjusting element. The first elastic element is elastic, the adjusting element is movably connected in the limiting groove, and the magnetic element has magnetic attraction.

[0021] Preferred options also include:

[0022] The mounting slot is located on one side of the bottom of the card block, and the turntable rotates inside it. The diameter of the mounting slot is larger than the diameter of the turntable.

[0023] The rotating rod is rotatably connected to the side wall of the mounting slot, and the other end of the rotating rod is fixedly connected to the side wall of the turntable. The turntable drives the rotating rod to rotate and adjust its own angle.

[0024] Preferred options also include:

[0025] The temperature display system is fixedly connected to the side of the turntable away from the rotating rod, and is electrically connected to both the liquid temperature probe and the steam temperature probe. When the liquid temperature probe is working, the temperature display system displays the temperature value of the hot water detected by the liquid temperature probe; when the steam temperature probe is working, the temperature display system displays the temperature value of the water vapor converted into hot water detected by the steam temperature probe.

[0026] The display panel is fixedly connected to one side of the end cover, and its position corresponds to that of the temperature display system.

[0027] Preferred options also include:

[0028] The upper slot is located on one side of the mounting groove and is used for the magnetic rod to slide inside it. The sliding groove is used to seal and prevent the sliding of the sliding frame. The liquid temperature probe is fixedly connected to the inner wall of the sliding groove. The position of the upper slot corresponds to the side wall of the sliding groove. The magnetic suction component is located inside the upper slot and applies magnetic attraction force to the sliding frame.

[0029] The second elastic element has one side fixedly connected to the side wall of the sliding frame and the other side fixedly connected to the side wall of the sliding groove. The second elastic element is elastic.

[0030] Preferred options also include:

[0031] The first sealing plate is fixedly connected to the side wall of the slide frame and is used to seal and block the liquid temperature probe.

[0032] The second sealing plate is fixedly connected to the side wall of the sliding groove and is used to seal and block the steam temperature probe. When the sliding frame moves along the sliding groove towards the end close to the magnetic suction component under the magnetic attraction force of the magnetic suction component, the sliding frame drives the steam temperature probe past the second sealing plate and seals and blocks it inside the sliding groove. The sliding frame moves and drives the first sealing plate past the liquid temperature probe. The liquid temperature probe is connected to the water storage tank and detects the internal hot water temperature.

[0033] Preferably, the cup body includes,

[0034] The lower slot, located above the cup body and corresponding to the position of the card block, is used to limit the insertion of the magnetic component;

[0035] A connecting groove is provided on one side of the cup body and communicates with the lower slot. A connecting rod is movably provided inside the connecting groove. A push plate is fixedly connected to the side of the connecting rod near the lower slot. The push plate is magnetically fixed to the magnetic suction component. The height of the push plate is greater than the height of the connecting rod. A push block is fixedly connected to the side of the connecting rod away from the lower slot.

[0036] Compared with the prior art, the beneficial effects of the present invention are as follows:

[0037] 1. This invention, through the cooperation between the rotating rod and the adjusting parts, ensures that when the thermos is normally sealed or when the lid needs to be inverted and filled with water for cooling, the magnetic component, under the action of gravity, keeps the temperature display system at the same angle as the user's normal viewing angle, making it convenient for the user to accurately read the water temperature.

[0038] 2. This invention utilizes the interaction between the magnetic component and the lower slot, etc. When the cup lid is properly connected to the cup body, the adjusting component with the counterweight is inserted into the lower or upper slot for magnetic fixation, preventing the turntable from rotating. This stabilizes the temperature display system, making it convenient for users to read the accurate temperature, and reduces unnecessary movement of the rotating rod and turntable, thus increasing its service life.

[0039] 3. This invention utilizes the cooperation between a liquid temperature probe and a steam temperature probe. When the thermos is being used for normal heat preservation, the steam temperature probe leaks out to detect the steam temperature inside the thermos. When the water needs to be cooled for drinking, the liquid temperature probe leaks out to detect the liquid temperature inside the lid. By employing two different temperature sensors for two different usage conditions, the temperature detection becomes more accurate.

[0040] 4. This invention utilizes the cooperation between the push plate and the magnetic suction component. When the cup lid and cup body need to be closed, the cup lid is rotated and fixed to the cup body by the thread. The magnetic suction component is inserted into the lower limit groove for insertion and fixation, which further improves the accuracy of insertion and fixation and enhances the sealing effect. At the same time, the magnetic suction component is magnetically fixed to the push plate to improve stability, avoid shaking and reduce the sealing effect. Attached Figure Description

[0041] Figure 1 This is a schematic diagram of the overall three-dimensional structure of the present invention;

[0042] Figure 2 This is a schematic diagram of the internal three-dimensional structure of the present invention;

[0043] Figure 3 for Figure 2 Enlarged view of point A in the middle;

[0044] Figure 4 for Figure 2 Enlarged view of point B in the middle;

[0045] Figure 5This is a schematic cross-sectional view of the cup lid inverted in this invention;

[0046] Figure 6 for Figure 5 Enlarged view of point C in the middle;

[0047] Figure 7 This is a three-dimensional structural diagram of the turntable portion of the present invention;

[0048] Figure 8 for Figure 7 Enlarged diagram of point D in the middle.

[0049] In the diagram: 1. Cup lid; 101. Water tank; 102. Mounting slot; 103. Upper slot; 104. Sliding slot; 2. Cup body; 201. Lower slot; 202. Connecting slot; 3. Display panel; 4. Rotating rod; 5. Turntable; 51. Limiting slot; 6. First elastic element; 7. Adjusting element; 8. Magnetic suction element; 9. Steam temperature probe; 10. Sliding frame; 11. Liquid temperature probe; 12. Second elastic element; 13. First sealing plate; 14. Push plate; 15. Connecting rod; 16. Push block; 17. Second sealing plate; 18. Temperature display system; 19. Locking block; 20. End cap. Detailed Implementation

[0050] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by users of ordinary skills in the art without creative effort are within the scope of protection of the present invention.

[0051] This invention provides, for example Figures 1 to 8 The thermos cup with digital temperature display shown includes a lid 1, and a cup body 2 is threadedly connected to the bottom of the lid 1. The lid 1 and the cup body 2 are threadedly sealed and fixed. The cup body 2 has a water storage tank 101 inside for storing hot water. When the user needs to drink hot water, he / she only needs to open the lid 1 and pour the hot water into the water storage tank 101 and wait for it to cool down before drinking. This avoids the problem of the lid 1 being closed to the cup body 2 for a long time, which would prevent the internal temperature of the cup body 2 from dropping and make it impossible to drink.

[0052] The locking block 19 slides and engages with one side of the cup lid 1 for digital temperature display. This allows for easy disassembly and maintenance of the temperature display device. The turntable 5 is rotatably connected inside the locking block 19 and displays the hot water temperature from a forward viewing angle. The turntable 5 rotates according to different operating states of the cup lid 1, facilitating temperature reading for the user. The mounting groove 102 is located on one side of the bottom of the locking block 19, allowing the turntable 5 to rotate within it. The diameter of the mounting groove 102 is larger than the diameter of the turntable 5. The rotating rod 4 is rotatably connected to the side wall of the mounting groove 102, and the other end of the rotating rod 4 is fixedly connected to the side wall of the rotating disk 5. The rotating disk 5 drives the rotating rod 4 to rotate and adjust its own angle. The rotating disk 5 can follow the rotating rod 4 to perform circular motion, and then use the rotating disk 5 to rotate around the rotating rod 4 to adjust the direction of the subsequent display panel 3, so that the user can get the hot water temperature in different usage states. The end cap 20 is snapped into one side of the mounting groove 102 to wrap and protect the internal rotating disk 5. The end cap 20 is set to facilitate the disassembly and maintenance of the rotating disk 5 inside the mounting groove 102.

[0053] Adjustment component 7 is movably connected inside the turntable 5 to drive the turntable 5 to rotate and keep it vertically downward. Adjustment component 7 has its own weight and is always in a vertically downward state. The turntable 5 rotates synchronously under the action of adjustment component 7. A magnetic suction component 8 is fixedly connected to the end of adjustment component 7. That is, during use, due to the setting of adjustment component 7, the turntable 5 will rotate with the cup lid 1 whether it is placed upright or upside down, thereby driving the temperature display system 18 to rotate, ensuring that the user can observe the correct temperature reading in both situations.

[0054] A limiting groove 51 is formed inside one side of the turntable 5 and extends to the center of the turntable 5. A first elastic member 6 is fixedly set at one end of the limiting groove 51 near the center of the turntable 5, and the other end is fixedly connected to the end of the adjusting member 7. The first elastic member 6 is elastic. The adjusting member 7 is movably connected in the limiting groove 51. The adjusting member 7 has weight, and the magnetic suction member 8 has magnetic attraction. The adjusting member 7 slides elastically inside the limiting groove 51 and drives the magnetic suction member 8 to move. The setting of the limiting groove 51 facilitates the sliding of the adjusting member 7 inside it, thereby driving the magnetic suction member 8 to move. In addition, the setting of the first elastic member 6 prevents the adjusting member 7 from having large collision noise and mechanical damage when sliding.

[0055] The upper slot 103, located on one side of the mounting slot 102, is used for the magnetic suction component 8 to slide inside. When the cup lid 1 is inverted, the magnetic suction component 8 rotates 180 degrees under the gravity of the adjusting component 7 and is then inserted into the mounting slot 102 for fixation, thus facilitating subsequent observation of the temperature value by the user. The sliding groove 104, located on the inner wall of the water storage tank 101, is used to seal and prevent the sliding frame 10 from sliding. The sliding frame 10 is slidably connected to the inner wall of the water storage tank 101. Specifically, the sliding groove 104 has a moving groove inside, and the side wall of the sliding frame 10 is symmetrically fixed with moving blocks, which are slidably connected to the moving groove. This setting ensures the stability and accuracy of the sliding frame 10. Different temperature measuring components can be replaced according to different substances stored in the water storage tank 101. The sliding frame 10 is ferromagnetic and can be attracted by magnets. When the magnetic suction component 8 is inserted into the upper slot 103, the magnetic force of the magnetic suction component 8 causes the sliding frame 10 to move closer to the magnetic suction component 8, thus facilitating subsequent replacement of the temperature measuring component.

[0056] The temperature measuring component includes a steam temperature probe 9, which is fixedly connected to the side wall of the sliding frame 10 and used to detect the water vapor temperature value. The top of the steam temperature probe 9 is flush with the top of the sliding frame 10. That is, when the cup lid 1 is placed upright and closed on the top of the cup body 2, the hot water inside the cup body 2 generates water vapor that flows upward and reaches the inside of the cup lid 1. The steam temperature probe 9 detects the temperature of this water vapor, but this water vapor temperature is not equal to the hot water temperature. At this time, the steam temperature probe 9 converts the water vapor temperature and displays the hot water temperature in the temperature display system 18, thereby accurately obtaining the hot water temperature inside the cup body 2 and improving the subsequent drinking water temperature. To ensure accuracy, the liquid temperature probe 11 is fixedly connected to the inner wall of the sliding groove 104 and is used to detect the hot water temperature value. When the cup lid 1 is inverted, the sliding frame 10 moves under the magnetic attraction of the magnetic suction component 8, retracting the steam temperature probe 9 and opening the liquid temperature probe 11. At this time, when hot water is poured into the cup lid 1, the liquid temperature probe 11 detects the hot water temperature value and displays it with the help of the temperature display system 18, so that the user can accurately obtain the hot water temperature. The above-mentioned different steam temperature probes 9 or liquid temperature probes 11 are all existing technologies, and the corresponding temperature calculation functions are also known, so they will not be described in detail here.

[0057] The liquid temperature probe 11 is fixedly connected to the inner wall of the sliding groove 104. The position of the upper slot 103 corresponds to the side wall of the sliding groove 104. The magnetic suction element 8 is located inside the upper slot 103 and applies a magnetic attraction force to the sliding frame 10. Then the sliding frame 10 drives the steam temperature probe 9 to move into the sliding groove 104 and is sealed and blocked, while the liquid temperature probe 11 is exposed and corresponds to the detection of the hot water temperature value inside the cup lid 1. The second elastic element 12 is fixedly connected to the side wall of the sliding frame 10 on one side and to the side wall of the sliding groove 104 on the other side. The elastic element 12 is elastic. With the help of the elastic setting of the second elastic element 12, it is convenient for the magnetic suction element 8 to disengage from the upper slot 103. The sliding frame 10 loses the magnetic attraction and moves in the opposite direction and returns to its original position under the elastic force of the second elastic element 12. The sliding frame 10 drives the steam temperature probe 9 to leak out and detect the water steam temperature value. At the same time, the sliding frame 10 seals and blocks the liquid temperature probe 11 and stops it from working. This further realizes the adjustment of the temperature measuring component according to different working needs, and improves the accuracy and efficiency of hot water temperature detection and display.

[0058] It also includes: a first sealing plate 13, which is fixedly connected to the side wall of the sliding frame 10 and is used to seal and block the liquid temperature probe 11; it moves with the sliding frame 10 and seals and blocks the liquid temperature probe 11, causing it to stop working; and a second sealing plate 17, which is fixedly connected to the side wall of the sliding groove 104 and is used to seal and block the steam temperature probe 9. When the sliding frame 10 moves along the sliding groove 104 towards the end close to the magnetic suction member 8 under the magnetic attraction force of the magnetic suction member 8, the sliding frame 10 drives the steam temperature probe 9 past the second sealing plate 17 and seals it inside the sliding groove 104. The sliding frame 10 moves and drives the first sealing plate 13 past the liquid temperature probe 11. The liquid temperature probe 11 is connected to the water storage tank 101 and detects the internal hot water temperature, thereby adjusting the temperature measuring component and effectively improving the accuracy and responsiveness of temperature detection.

[0059] The temperature display system 18 is fixedly connected to the turntable 5 on the side away from the rotating rod 4. The temperature display system 18 is electrically connected to the liquid temperature probe 11 and the steam temperature probe 9. The temperature display system 18 is a conventional display device, mainly used to display temperature values ​​for easy reading by the user. When the liquid temperature probe 11 is working, the temperature display system 18 displays the hot water temperature value detected by the liquid temperature probe 11. When the steam temperature probe 9 is working, the temperature display system 18 displays the temperature value of water vapor converted into hot water detected by the steam temperature probe 9. The display panel 3 is fixedly connected to one side surface of the end cover 20, and the position of the display panel 3 corresponds to that of the temperature display system 18. It mainly protects the temperature display system 18 from damage caused by bumps or other impacts.

[0060] The cup body 2 includes: a lower slot 201, which is provided on one side of the cup body 2 for inserting and limiting the magnetic component 8; and a connecting groove 202, which is located above the cup body 2 and corresponds to the position of the locking block 19. Under normal circumstances, the connecting groove 202 protrudes and corresponds to the locking block 19 (not shown in the figure). A connecting rod 15 is movably disposed inside the connecting groove 202. A push plate 14 is fixedly connected to the side of the connecting rod 15 near the lower slot 201, and the push plate 14 can move within the lower slot 201. When the magnetic component 8 is inserted into the lower slot 201, the push plate 14 is magnetically attracted and fixed to the magnetic component 8, further improving the stability of the adjusting component 7 and the magnetic component 8, and preventing the cup lid 1 and the cup body 2 from shaking. The shaking of the adjusting component 7 and the magnetic component 8 causes the turntable 5 and the temperature display system 18 to shake, affecting the user's temperature observation effect. The height of the push plate 14 is greater than the height of the connecting rod 15, and when the push plate 14 moves upward to the maximum distance, it is flush with the top of the cup body 2. The side of the connecting rod 15 away from the lower slot 201 is fixedly connected to the push block 16. When the user pushes the push block 16 upward, the push block 16 drives the connecting rod 15 to move upward inside the connecting groove 202. The other end of the connecting rod 15 drives the push plate 14 to move upward inside the lower slot 201. The push plate 14 drives the magnetic component 8 to move upward inside the lower slot 201 and disengage from the lower slot 201, thus facilitating the subsequent opening of the cup lid 1.

[0061] In use, the locking block 19 is slidably engaged with the cup lid 1, and the end cap 20 seals and protects the end of the locking block 19. First, hot water is poured into the cup body 2, and then the cup lid 1 is closed with the cup body 2. The cup lid 1 is rotated to make it continuously threadedly connected with the cup body 2. At the same time, the magnetic suction component 8 moves above the outer surface of the cup body 2. When the cup lid 1 and the cup body 2 are threaded to the appropriate number of turns, under the gravity of the adjusting component 7 and the elastic force of the first elastic component 6, the magnetic suction component 8 drives the adjusting component 7 to insert into the lower slot 201, further ensuring that the sealing degree between the cup lid 1 and the cup body 2 meets the requirements, and preventing the hot water inside the cup body 2 from spilling out due to poor sealing between the cup lid 1 and the cup body 2. At the same time, the magnetic suction component 8 is magnetically fixed with the push plate 14, thereby limiting the turntable 5. This makes the temperature display system 18 stable and will not cause the user to be unable to read the accurate reading due to shaking when holding or slightly shaking the hand. It is convenient for the user to quickly and efficiently read the temperature value of the hot water inside the cup body 2 at the temperature display system 18.

[0062] Simultaneously, under the elastic force of the second elastic element 12, the sliding frame 10 is moved to a suitable position. The sliding frame 10, together with the first sealing plate 13, seals and blocks the liquid temperature probe 11, that is, the liquid temperature probe 11 does not work, avoiding the problem of inaccurate detection caused by using the liquid temperature probe 11 to detect the water vapor temperature. The sliding frame 10 moves the steam temperature probe 9 to the inside of the cup lid 1 and separates it from the second sealing plate 17. The steam temperature probe 9 works normally. At this time, the water vapor generated by the hot water inside the cup body 2 rises to the cup lid 1. The steam temperature probe 9 inside the cup lid 1 detects the water vapor temperature and obtains the corresponding hot water temperature, which is then displayed on the temperature display system 18. This allows the user to accurately obtain the hot water temperature inside the cup body 2. Furthermore, when the user slightly shakes the cup body 2 and the cup lid 1, the magnetic attraction of the magnetic element 8 and the sliding frame 10 prevents relative shaking between the two, further improving the accuracy and stability of the digital temperature display.

[0063] When it is necessary to open the cup lid 1, push the push block 16 upward. The push block 16 drives the connecting rod 15 to move upward. The connecting rod 15 drives the push plate 14 to move upward. The push plate 14 pushes the magnetic suction piece 8 to move upward and disengage from the lower slot 201. Then the user rotates the cup lid 1 in the opposite direction, so that the cup lid 1 and the cup body 2 rotate in opposite directions and open, making it convenient for the user to open the cup lid 1 and drink the hot water inside the cup body 2.

[0064] After opening the lid 1, if the hot water inside the cup body 2 is still too hot to drink, the user inverts the lid 1. The lid 1 inverts the locking block 19, and under the gravity of the adjusting component 7, the turntable 5 rotates 180 degrees around the rotating rod 4. The turntable 5 simultaneously rotates the temperature display system 18 180 degrees. At this time, the temperature display system 18 still maintains a forward viewing angle to display the temperature, so that the user can accurately and timely obtain the temperature value of the hot water inside the lid 1.

[0065] During the rotation of turntable 5, the magnetic suction component 8 rotates synchronously through adjusting component 7. The magnetic suction component 8 is located above the upper slot 103 and is inserted into the upper slot 103 under the elastic force of the first elastic component 6. The magnetic suction component 8 applies magnetic attraction force to the sliding frame 10, causing the sliding frame 10 to squeeze the second elastic component 12 and move closer to the end of the magnetic suction component 8. The sliding frame 10 synchronously drives the steam temperature probe 9 to move and pass over the second sealing plate 17 to the inside of the sliding groove 104 for sealing and blocking. Then the steam temperature probe 9 stops working. During the movement of the sliding frame 10, the first sealing plate 13 moves synchronously and passes over the liquid temperature probe 11. The first sealing plate 13 disengages from the sealing and blocking of the liquid temperature probe 11, and the liquid temperature probe 11 starts working normally.

[0066] Then, hot water from inside the cup body 2 is poured into the cup lid 1. The liquid temperature probe 11 then obtains the temperature value of the hot water inside the cup lid 1 and transmits this temperature value directly to the temperature display system 18 for display. This allows users to accurately and quickly obtain the temperature of the hot water inside the cup lid 1, ensuring the convenience and comfort of subsequent drinking. It also avoids problems such as the hot water inside the cup lid 1 being too hot and causing burns to the user when drinking. At the same time, during the process of pouring hot water into the cup lid 1, the steam temperature probe 9 stops working and is retrieved, effectively avoiding inaccurate data detected by the steam temperature probe 9 when detecting hot water, which could lead to injury to the user. This effectively improves safety and comfort.

[0067] Meanwhile, during this process, the sliding frame 10 and the magnetic suction component 8 use magnetic attraction to ensure the stability of the magnetic suction component 8 inside the upper slot 103. This effectively prevents the magnetic suction component 8 from shaking and detaching from the upper slot 103 when the user drinks hot water from inside the cup lid 1. It also effectively avoids problems such as the sliding frame 10 sliding inside the sliding groove 104 to replace the temperature measuring component, further improving the stability of the cup lid 1 and the accuracy of temperature acquisition.

[0068] After drinking the hot water inside the lid 1, re-screw the lid 1 onto the cup body 2 according to the above process, and repeat the above process to make it convenient for users to accurately obtain the hot water temperature and drink the hot water.

[0069] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0070] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A temperature-display insulated cup, comprising a lid, with a cup body threadedly connected to the bottom of the lid, characterized in that, Also includes: A water storage tank, located inside the cup lid, is used to store hot water. A sliding groove is provided at the bottom of the water storage tank. The locking block slides and engages with one side of the cup lid for digital temperature display; the turntable rotates and is connected inside the locking block for displaying the hot water temperature from a forward viewing angle. An adjusting component is movably connected inside the turntable to drive the turntable to rotate and keep it vertically downward. A magnetic suction component is fixedly connected to the end of the adjusting component, and the magnetic suction component has magnetic attraction force. The sliding frame is slidably connected to the inner wall of the water storage tank, and different temperature measuring components can be replaced according to different substances inside the water storage tank. The temperature measuring component includes: a steam temperature probe, which is fixedly connected to the side wall of the sliding frame and is used to detect the water vapor temperature value; The liquid temperature probe is fixedly connected to the inner wall of the sliding groove and is used to detect the temperature value of hot water. When the magnetic suction component moves into the inside of the card block, the sliding frame moves towards the end of the magnetic suction component under the magnetic attraction force of the magnetic suction component, sealing and blocking the steam temperature probe and opening the liquid temperature probe. A limiting groove is formed inside one side of the turntable and extends to the center of the turntable; The first elastic element has one end fixedly disposed on the side of the limiting groove near the center of the turntable, and the other end fixedly connected to the end of the adjusting element. The first elastic element is elastic, and the adjusting element is movably connected in the limiting groove. The mounting slot is located on one side of the bottom of the card block and is used for the turntable to rotate inside it. The diameter of the mounting slot is larger than the diameter of the turntable. The upper slot is located on one side of the mounting slot and is used for the magnetic rod to slide inside it. The sliding groove is used to seal and prevent the sliding of the sliding frame. The liquid temperature probe is fixedly connected to the inner wall of the sliding groove. The position of the upper slot corresponds to the side wall of the sliding groove. The magnetic suction element is located inside the upper slot and applies magnetic attraction force to the sliding frame. The second elastic element is fixedly connected to the side wall of the sliding frame on one side and to the side wall of the sliding groove on the other side. The second elastic element is elastic. The first sealing plate is fixedly connected to the side wall of the sliding frame and is used to seal and block the liquid temperature probe; the second sealing plate is fixedly connected to the side wall of the sliding groove and is used to seal and block the steam temperature probe. When the sliding frame moves along the sliding groove towards the end close to the magnetic suction component under the magnetic attraction force of the magnetic suction component, the sliding frame drives the steam temperature probe past the second sealing plate and seals and blocks it inside the sliding groove. The sliding frame moves and drives the first sealing plate past the liquid temperature probe. The liquid temperature probe is connected to the water storage tank and detects the internal hot water temperature. Pour hot water into the cup body, then close the lid. The magnetic suction device drives the adjusting device to insert into the lower slot. The steam temperature probe inside the lid detects the steam temperature. Invert the lid, causing the locking block to invert as well. Under the gravity of the adjusting device, the turntable rotates 180 degrees. During the rotation of the turntable, the adjusting device synchronously drives the magnetic suction device to rotate. The magnetic suction device is positioned above the upper slot and is inserted into the upper slot under the elastic force of the first elastic element. The magnetic suction device applies magnetic attraction to the sliding frame, causing the sliding frame to press the second elastic element and move closer to the magnetic suction device. The sliding frame synchronously drives the steam temperature probe to move past the second sealing plate and into the sliding groove to seal the obstruction. The steam temperature probe then stops working. During the movement of the sliding frame, the first sealing plate moves synchronously and passes past the liquid temperature probe. The first sealing plate disengages from the sealing obstruction of the liquid temperature probe, and the liquid temperature probe begins to work normally.

2. The temperature digital display thermos cup according to claim 1, characterized in that, Also includes: The rotating rod is rotatably connected to the side wall of the mounting slot, and the other end of the rotating rod is fixedly connected to the side wall of the turntable. The turntable drives the rotating rod to rotate and adjust its own angle. The end cap, which snaps into one side of the mounting slot, is used to enclose and protect the internal turntable.

3. A digital temperature display thermos cup according to claim 2, characterized in that, Also includes: The temperature display system is fixedly connected to the side of the turntable away from the rotating rod, and is electrically connected to both the liquid temperature probe and the steam temperature probe. When the liquid temperature probe is working, the temperature display system displays the temperature value of the hot water detected by the liquid temperature probe; when the steam temperature probe is working, the temperature display system displays the temperature value of the water vapor converted into hot water detected by the steam temperature probe. The display panel is fixedly connected to one side of the end cover, and its position corresponds to that of the temperature display system.

4. A digital temperature display thermos cup according to claim 1, characterized in that, The cup body includes: The lower slot is located above the cup body and corresponds to the position of the locking block, and is used for the insertion and limiting of the magnetic suction component; the connecting slot is located on one side of the cup body and is connected to the lower slot. A connecting rod is movably installed inside the connecting slot. A push plate is fixedly connected to the side of the connecting rod near the lower slot. The push plate is magnetically fixed to the magnetic suction component. The height of the push plate is greater than the height of the connecting rod. A push block is fixedly connected to the side of the connecting rod away from the lower slot.