A portable hand warmer charging bin and hand warmer assembly

The portable hand warmer charging case design solves the problems of hand warmers not being able to warm multiple body parts at the same time and the inconvenience of outdoor charging, achieving convenient charging and multi-body warming functions, thus improving the user experience.

CN224481492UActive Publication Date: 2026-07-10GUANGDONG AOYUN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG AOYUN TECHNOLOGY CO LTD
Filing Date
2025-07-15
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing hand warmers cannot simultaneously warm both hands or multiple body parts, and charging them outdoors is inconvenient.

Method used

The portable hand warmer charging case is designed, including a case body, a first circuit board, a first charging unit and a first battery. By opening a placement cavity in the case body, the hand warmer unit can be stored and charged. The first charging unit is adapted to the charging unit on the hand warmer unit to transmit electrical energy.

Benefits of technology

It enables convenient charging of hand warmers in outdoor conditions, meeting the user's need for warmth in multiple body parts and improving the user experience.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a portable hand warmer charging case and a hand warmer assembly. The charging case includes a case body with a placement cavity for placing and charging the hand warmer unit. The case body is equipped with a first circuit board, a first charging unit, and a first battery, both electrically connected to the first circuit board. When the hand warmer unit is placed in the placement cavity, the first circuit board outputs electrical energy from the first battery through the first charging unit. The case body is equipped with a display screen indicating the battery level and / or the charging status of the hand warmer unit; the case body includes a main body and a transparent cover connected to the main body to form the placement cavity; and / or the case body is equipped with a charging interface for charging other electrical appliances besides the hand warmer unit, which facilitates user use and improves the user experience.
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Description

Technical Field

[0001] This utility model relates to the technical field of hand warmers, and in particular to a portable hand warmer charging case and hand warmer components. Background Technology

[0002] Currently available hand warmers, whether double-sided or single-sided, typically only provide warmth to one hand or one body part. They are difficult to use simultaneously for both hands or multiple body parts, especially when users need to perform different actions or warm multiple parts of their body. Furthermore, existing hand warmers require an external power source, which is often difficult to find, particularly outdoors. Therefore, there is an urgent need for a portable charging case that can also power hand warmers. Utility Model Content

[0003] The main purpose of this utility model is to provide a portable hand warmer charging case and hand warmer components to solve the problem of inconvenient charging of existing hand warmers outdoors.

[0004] To solve the above-mentioned technical problems, the technical solution provided by this utility model embodiment is as follows:

[0005] A portable hand warmer charging case includes a case body, wherein the case body has a placement cavity for placing and charging the hand warmer unit;

[0006] The chamber is provided with a first circuit board, a first charging unit and a first battery, and the first battery and the first charging unit are both electrically connected to the first circuit board.

[0007] The housing also has an opening through which the hand warmer unit is inserted into the placement cavity. When the hand warmer unit is placed in the placement cavity, the first circuit board is used to output electrical energy from the first battery through the first charging unit. The first charging unit is adapted to be used with a second charging unit on the hand warmer unit and to transfer electrical energy output from the first circuit board to the second charging unit on the hand warmer unit.

[0008] The indicator unit is a display screen; the compartment includes a main body and a transparent cover connected to the main body to form the placement cavity; and / or the compartment is provided with a charging interface for charging other electrical appliances besides the hand warmer unit.

[0009] A hand warmer assembly includes a portable hand warmer charging case as described in the above embodiments and at least one hand warmer unit.

[0010] This invention offers the following advantages: Compared to existing technologies, this invention features a placement cavity in the charging case for storing the hand warmer unit, and a first charging unit for supplying power to the hand warmer unit. When the hand warmer unit is placed in the placement cavity, the first charging unit can approach or contact it, allowing it to transfer electrical energy from the first circuit board (from the first battery) to the second charging unit, thus charging the hand warmer unit. This allows users to carry the charging case and charge the hand warmer unit when it runs out of power. The indicator unit is a display screen, the case includes a main body and a transparent cover connected to the main body to form the placement cavity, and / or the case is provided with a charging interface for charging other electrical appliances besides the hand warmer unit, which facilitates user use and improves the user experience. Attached Figure Description

[0011] Figure 1 This is a perspective view of the charging compartment of this utility model;

[0012] Figure 2 This is a perspective view of the charging compartment of this utility model from another angle;

[0013] Figure 3 This is a schematic diagram showing the state of the hand warmer component of this utility model;

[0014] Figure 4 This is a partial exploded view of the hand warmer component of this utility model;

[0015] Figure 5 This is an exploded view of the main body of this utility model;

[0016] Figure 6 This is a schematic diagram of the assembly of the first inner shell and the first circuit board of this utility model;

[0017] Figure 7 This is a structural diagram of the light guide cover of this utility model;

[0018] Figure 8 This is an exploded view of the cover of this utility model;

[0019] Figure 9 This is a perspective view of the hand warmer unit of this utility model;

[0020] Figure 10 This is an exploded view of the hand warmer unit of this utility model;

[0021] Figure 11 This is a schematic diagram of the first and second hand warmers of this utility model assembled together;

[0022] Figure 12 This is an exploded view of the first and second hand warmers of this utility model;

[0023] Figure 13 This is a perspective view of a hand warmer component according to another embodiment of the present invention;

[0024] Figure 14 This is a perspective view of the charging compartment according to another embodiment of the present invention;

[0025] Figure 15 This is a perspective view of a hand warmer unit according to another embodiment of the present invention;

[0026] Figure 16 A perspective view of the charging compartment and hand warmer unit in charging state according to another embodiment of the present invention;

[0027] Figure 17 for Figure 16 A 3D diagram showing the hand warmer unit separated from the charging case;

[0028] Figure 18 for Figure 17 An explosion diagram;

[0029] Figure 19 A perspective view of the charging compartment and hand warmer unit in charging state according to another embodiment of this utility model;

[0030] Figure 20 for Figure 19 A 3D diagram showing the hand warmer unit separated from the charging case;

[0031] Figure 21 for Figure 20 An explosion diagram;

[0032] Figure 22 A perspective view of the charging compartment and hand warmer unit in charging state according to another embodiment of this utility model;

[0033] Figure 23 for Figure 22 A 3D diagram showing the hand warmer unit separated from the charging case;

[0034] Figure 24 for Figure 23 An explosion diagram;

[0035] Figure 25 A perspective view of the charging compartment and hand warmer unit in charging state according to another embodiment of the present invention;

[0036] Figure 26 for Figure 25 A 3D diagram showing the hand warmer unit separated from the charging case;

[0037] Figure 27 for Figure 26 An explosion diagram;

[0038] Figure 28 A perspective view of the charging compartment and hand warmer unit in charging state according to another embodiment of the present invention;

[0039] Figure 29 for Figure 28 An explosion diagram;

[0040] Figure 30 A perspective view of the charging compartment and hand warmer unit in charging state according to another embodiment of the present invention;

[0041] Figure 31 for Figure 30 An explosion diagram;

[0042] Figure 32 for Figure 31 The diagram shows the structure when the two hand warmer units are magnetically fixed together. Detailed Implementation

[0043] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0044] See attached document Figure 1-8 A portable hand warmer charging case 1 is provided in this embodiment of the present invention.

[0045] The portable hand warmer charging case 1 includes a case body 10, on which a placement cavity 3 is provided for placing and charging the hand warmer unit 2. A first circuit board 13, a first charging unit 131, and a first battery 18 are disposed on the case body 10. The first battery 18 and the first charging unit 131 are both electrically connected to the first circuit board 13. When the hand warmer unit 2 is placed in the placement cavity 3, the first circuit board 13 is used to output electrical energy from the first battery 18 through the first charging unit 131. The first charging unit 131 is adapted to be used with a second charging unit 24 on the hand warmer unit 2, and transmits the electrical energy output from the first circuit board 13 to the second charging unit 24 on the hand warmer unit 2.

[0046] In this embodiment, a placement cavity 3 for storing and placing the hand warmer unit 2 is provided on the charging compartment 1, and a first charging unit 131 for supplying power to the hand warmer unit 2 is arranged on the charging compartment 1. In this way, when the hand warmer unit 2 is placed in the placement cavity 3, the first charging unit 131 can approach or contact the hand warmer unit 2, allowing the first charging unit 131 to transfer the electrical energy output from the first battery 18 to the second charging unit 24 through the first circuit board 13, thereby charging the hand warmer unit 2. This allows users to carry the charging compartment 1 when going out and charge the hand warmer unit 2 when it is low on power, solving the problem of the inconvenience of charging the existing hand warmer unit 2 outdoors.

[0047] In one embodiment, since the hand warmer unit 2 is designed to fit the human hand, the thickness of most hand warmer units 2 is generally relatively flat. The thickness of the placement cavity 3 is adapted to the thickness of the hand warmer unit 2, that is, to make the overall shape of the charging case 1 harmonious, the first circuit board 13 is located at the bottom of the placement cavity 3, and the first battery 18 is located at the back of the case 10. Of course, in other embodiments, the first circuit board 13 and the first battery 18 may both be located at the bottom, back, or front of the placement cavity 3, or the first circuit board 13 may be located at the front of the placement cavity 3, and the first battery 18 may be located at the back of the placement cavity 3.

[0048] In one embodiment, the first circuit board 13 is provided with a power indicator light 133 unit 130 for indicating the power status of the first battery 18 and / or the charging status of the hand warmer unit 2, so that the user can know how much power the first battery 18 has and whether the hand warmer unit 2 is fully charged.

[0049] In one embodiment, the indicator light unit 130 includes a plurality of light-emitting elements 135 disposed on the first circuit board 13, with the plurality of light-emitting elements 135 arranged side by side. Of course, in other embodiments, the plurality of light-emitting elements 135 may also be arranged in a surrounding arrangement, irregularly, or in an arc distribution. Thus, when the first battery 18 has only half its charge, the first circuit board 13 can control half of the light-emitting elements 135 to emit light; when the first battery 18 is fully charged, the first circuit board 13 can control all the light-emitting elements 135 to emit light, so that the user can understand the charge level of the first battery 18. Alternatively, the color of the light emitted by the light-emitting elements 135 can also indicate the charge level of the first battery 18; for example, when the first battery 18 is fully charged, the light-emitting elements 135 emit green light, and when the first battery 18 has insufficient charge, the light-emitting elements 135 emit red light, etc. The light-emitting elements 135 may be LEDs or LED beads, etc.

[0050] In one embodiment, the housing 10 is further provided with a light guide cover 14. The light guide cover 14 has a receiving groove 141 at the position corresponding to each light-emitting element 135, and the light-emitting element 135 is located in the receiving groove 141. The light guide cover 14 has a first light guide hole 142 communicating with the receiving groove 141, and the housing 10 has a second light guide hole 1112 at the position corresponding to the first light guide hole 142. Specifically, the light guide cover 14 is made of an opaque material, that is, the light from the light-emitting element 135 can only pass through the first light guide hole 142 and then pass through the second light guide hole 1112, preventing the light from multiple light-emitting elements 135 from interfering with each other and causing poor indication effect.

[0051] In one embodiment, the indicator unit 130 includes a power indicator 133 and a charging status indicator 132, with the charging status indicator 132 located next to the power indicator 133. The power indicator 133 indicates the power level of the first battery 18 based on the number of lights emitted, while the charging status indicator 132 indicates the charging status of the hand warmer unit 2 based on the color of the emitted light, for user convenience.

[0052] In one embodiment, a function button 134 is provided on the first circuit board 13, and a pressing member 15 connected to the function button 134 is provided on the compartment 10. When the hand warmer unit 2 is placed in the placement cavity 3, the user can press the pressing member 15 to press the function button 134. The first circuit board 13 detects the electrical signal of the function button 134 and outputs electrical energy from the first charging unit 131 from the first battery 18 to control the charging of the hand warmer unit 2. Of course, by pressing the function button 134, the first circuit board 13 can also drive the indicator light to illuminate so that the user can know the remaining power of the first battery 18.

[0053] In the above embodiment, a first charging interface 136 is provided on the first circuit board 13, and a first clearance hole 1111 is provided on the housing 10 to avoid the first charging interface 136. The first charging interface 136 is used to connect to an external power source, and after connecting to a power source, the first battery 18 can be charged via the first circuit board 13, so that the user can charge the first battery 18 when the charging housing 1 is low on power. Of course, in other embodiments, the charging housing 1 can also use wireless charging to charge the first battery 18.

[0054] In one embodiment, for the sake of structural compactness and aesthetics, the indicator light unit 130, the function button 134, and the first charging interface 136 are arranged side by side along the thickness direction of the charging compartment 1, with the function button 134 located between the indicator light unit 130 and the first charging interface 136.

[0055] In the above embodiment, the housing 10 includes a main body 11 and a cover 12 connected to the main body 11 to form a placement cavity 3. The first circuit board 13, the first battery 18, the pressing member 15, the first clearance hole 1111, and the second light guide hole 1112 are all located on the main body 11. The cover 12, in cooperation with the main body 11, forms a sealed placement cavity 3. When the hand warmer unit 2 is placed on the placement slot, it can completely enclose the hand warmer unit 2, thus protecting it and facilitating its portability. Of course, in other embodiments, the cover 12 may not be necessary; therefore, the structure of the housing 10 is not limited here.

[0056] For structural compactness and ease of product manufacturing, the placement cavity 3 includes a first placement groove 31. The first charging unit 131 is a conductive probe, which is located at the bottom of the first placement groove 31. The main body 11 includes a first outer cover 111 and a first inner shell 112 connected to the first outer cover 111 to form the first placement groove 31, the first mounting cavity 17, and the second mounting cavity 16. The first inner shell 112 is located inside the first outer cover 111. The first mounting cavity 17 is located below the first placement groove 31. The first circuit board 13 and the light guide cover 14 are disposed in the first mounting cavity 17. The first battery 18 is disposed in the second mounting cavity 16, which is located behind the first placement groove 31. The pressing member 15, the first clearance hole 1111, and the second light guide hole 1112 are all located on the first outer cover 111.

[0057] In one embodiment, the cover 12 is rotatably connected to the main body 11. Of course, in other embodiments, the cover 12 and the main body 11 can also be connected by magnetic attraction, snap-fit, or other means.

[0058] In one embodiment, the placement cavity 3 includes a second placement groove 32, and the cover 12 includes a second outer cover 121 and a second inner shell 122 connected to the second outer cover 121 to form the second placement groove 32. The second inner shell 122 is at least partially located inside the second outer cover 121. A connecting panel 1211 extends downward from the bottom of the second outer cover 121, and pivot portions 1212 protrude from both sides of the connecting panel 1211. A limiting pivot hole 1122 is also formed between the first outer cover 111 and the first inner shell 112. The pivot portion 1212 is placed in the limiting pivot hole 1122 to achieve a rotatable connection between the cover 12 and the main body 11. Furthermore, the cover 12 can be stably connected to the main body 11 by magnetic attraction or snap-fit ​​on the side away from the pivot portion 1212 to prevent the cover 12 from opening automatically.

[0059] Based on the charging case 1 described above, this embodiment also provides a hand warmer component.

[0060] See attached document Figure 1-10The hand warmer assembly includes at least one hand warmer unit 2 and a charging case 1 as described above. The hand warmer unit 2 is equipped with a second circuit board 23, a heating element 22, a second battery 21, and a second charging unit 24. The heating element 22, the second battery 21, and the second charging unit 24 are all electrically connected to the second circuit board 23. When the hand warmer unit 2 is placed in the placement cavity 3, the second charging unit 24 is close to or in contact with the first charging unit 131. The first charging unit 131 outputs electrical energy from the first circuit board 13 to the second charging unit 24, and the second charging unit 24 charges the second battery 21 with the electrical energy output from the first charging unit 131 via the second circuit board 23. The charging case 1 allows the user to charge the hand warmer unit 2 when away from home.

[0061] In one embodiment, the first charging unit 131 is a conductive probe disposed at the bottom of the placement cavity 3. The second charging unit 24 is a charging contact located at the bottom of the hand warmer unit 2. When the hand warmer unit 2 is placed in the placement cavity 3, the charging contact contacts the conductive probe, so that the electrical energy output by the first battery 18 can charge the second battery 21 after passing through the first circuit board 13, the conductive probe, the charging contact, and the second circuit board 23.

[0062] In one embodiment, the hand warmer unit 2 is recessed inward at the position corresponding to the charging contact to form a groove 25, and the placement cavity 3 is provided with an embedding block 1121 at the position corresponding to the groove 25. When the hand warmer unit 2 is placed in the placement cavity 3, the embedding block 1121 is placed in the groove 25 to improve the stability of the contact between the conductive probe and the charging contact.

[0063] In one embodiment, the housing 10 and the hand warmer unit 2 can also be fixed by interference fit, magnetic attraction, or snap-fit ​​connection, which can also improve the stability of the contact between the conductive probe and the charging contact.

[0064] In other embodiments, both the first charging unit 131 and the second charging unit 24 can be coils. That is, when the hand warmer unit 2 is placed in the placement cavity 3, the first charging unit 131 and the second charging unit 24 approach and interact, so that the electrical energy output by the first battery 18 charges the second battery 21 through the first circuit board 13, conductive probe, charging contact, and second circuit board 23, thereby realizing wireless charging of the hand warmer unit 2. Alternatively, the first charging unit 131 and the second charging unit 24 can be a male connector and a female connector that are adapted for use, which can also realize charging of the hand warmer unit 2 when it is placed in the placement cavity 3.

[0065] In one embodiment, the charging contacts can be located at the bottom of the hand warmer unit, meaning the hand warmer unit 2 is inserted vertically into the placement cavity 3, i.e., inserted along the height direction of the hand warmer unit 2. In other embodiments, the charging contacts can be located on the side wall of the hand warmer unit 2, meaning the hand warmer unit 2 can be inserted into the placement cavity 3 along the width direction of the hand warmer unit 2. In other embodiments, the charging contacts can also be located on the upper or lower surface of the hand warmer unit, allowing the hand warmer unit 2 to be placed flat in the placement cavity 3, i.e., the hand warmer unit 2 can be placed in the placement cavity 3 along the thickness direction of the hand warmer unit 2, etc. Figure 13-15 As shown; manufacturers can customize the configuration according to their needs.

[0066] In one embodiment, the number of placement cavities 3 is one, that is, the charging compartment 1 is only suitable for charging one hand warmer unit 2.

[0067] In one embodiment, there are multiple placement cavities 3, and each placement cavity 3 is equipped with a first charging unit 131 for use, that is, the charging chamber 1 can charge multiple hand warmer units 2 at the same time.

[0068] See attached document Figure 11-12 In one embodiment, there are two hand warmer units 2, namely a first hand warmer 201 and a second hand warmer 202. Correspondingly, there are two placement cavities 3.

[0069] In one embodiment, the first hand warmer 201 and the second hand warmer 202 are detachably connected, so that the first hand warmer 201 unit 2 and the second hand warmer 202 unit 2 can be combined into a whole. This allows the first hand warmer 201 unit 2 to be detached from the second hand warmer 202 unit 2 when the user needs to warm both hands / multiple body parts simultaneously, so that the first hand warmer 201 unit 2 and the second hand warmer 202 unit 2 can each be used to warm both hands / multiple different body parts. When the user only needs to warm one hand / one body part, the first hand warmer 201 unit 2 and the second hand warmer 202 unit 2 can be combined into a whole to increase the heating area of ​​the hand warmer for that hand / one body part and improve the heating effect. Furthermore, when users need to carry or store the hand warmers, they can choose to carry or store the first hand warmer 201 and the second hand warmer 202 separately, or combine the first hand warmer 201 and the second hand warmer 202 into a whole for carrying or storing, depending on the actual situation, so as to meet the user's needs in multiple scenarios and greatly improve the user experience.

[0070] Specifically, the first hand warmer 201 includes a first outer surface 2014 and a first connecting surface 2011 opposite to the first outer surface 2014, and a first connecting portion is provided on the first connecting surface 2011. The second hand warmer 202 includes a second outer surface and a second connecting surface 2021 opposite to the second outer surface, and a second connecting portion is provided on the second connecting surface 2021. The first connecting portion and the second connecting portion are connected by a method of mutual magnetic attraction, such as a snap fastener, Velcro, or multiple magnetic components, so that the first connecting inner surface is connected to the second connecting inner surface, thus combining the first hand warmer 201 unit 2 and the second hand warmer 202 unit 2 into a whole.

[0071] In one embodiment, the first connecting portion includes a first slot 2013 and a first buckle 2012, which are located at both ends of the hand warmer unit 2, respectively. The second connecting portion includes a second slot 2022 and a second buckle 2023. The first buckle 2012 engages with the second slot 2022 when the first hand warmer 201 and the second hand warmer 202 are assembled together, and the second buckle 2023 engages with the first slot 2013 when the first hand warmer 201 and the second hand warmer 202 are assembled together. In this way, the first hand warmer 201 and the second hand warmer 202 can be stably assembled together using the buckle structure at both ends. Of course, in other embodiments, the first connecting portion may include two slots, and the second connecting portion may include two buckles adapted to the slots; or both the first connecting portion and the second connecting portion may be Velcro or magnets, etc., which can also achieve a detachable connection between the first hand warmer 201 and the second hand warmer 202.

[0072] In one embodiment, the hand warmer unit 2 is further provided with a second charging interface 25 for connecting an external power cord. The second charging interface 25 is used to connect an external power source, and after connecting to a power source, the second battery 21 can be charged via the second circuit board 23. This allows both the charging case 1 and the hand warmer unit 2 to charge themselves via the power cord when the charging case 1 is low on power, improving the charging speed. Furthermore, when the hand warmer unit 2 is charged using the second charging interface 25, the power of the charging case 1 is not consumed, ensuring sufficient power for use when out and about. Specifically, both the first charging interface 136 and the second charging interface 25 can be Type-C, Micro USB, Lightning, DC, etc.

[0073] In one embodiment, the capacity of the first battery 18 is at least twice the capacity of the second battery 21, so that the charging case 1 can fully charge both hand warmer units 2 at least once simultaneously. Of course, in other embodiments, the capacity of the first battery 18 can also be at least three times, four times, or so greater than the capacity of the second battery 21, so that the charging case 1 can charge both hand warmer units 2 at least twice simultaneously, making it convenient for users to use when out and about.

[0074] In some embodiments, the portable hand warmer charging case 10 has an open opening 101, through which the hand warmer unit 2 is inserted into or placed into the placement cavity 3. In these embodiments, the open opening is a lidless type, which makes the case 10 more convenient to use and allows it to be stored away to maintain cleanliness after use.

[0075] Please see Figure 16-18 The opening 101 faces upwards, and the conductive probe 131 faces the opening 101 to accommodate the insertion direction of the hand warmer unit 2. The hand warmer unit 2 has a second charging unit 24 that matches the conductive probe 131. The housing 10 is provided with an indicator unit 130a for indicating the first battery power status and / or the hand warmer unit charging status. The indicator unit 130a faces the upper surface of the housing 10. The placement cavity 3 is used for the hand warmer unit 2 to be placed flat into the placement cavity 3. After the hand warmer unit 2 is placed into the placement cavity 3, the upper surface 2f of the hand warmer unit 2 faces upwards and exposes the opening 101.

[0076] The indicator unit 130a is connected to the first circuit board 13. The indicator unit 130a serves as a display screen in the compartment 10, displaying numbers to represent the charging level; for example, displaying 100 indicates that charging is complete. It can be understood that the display screen 130a may include a light-emitting board 130b electrically connected to the first circuit board 13 and a display cover 130c disposed on the light-emitting board 130b. The light-emitting board 130b has multiple light-emitting elements 130d. The first circuit board 13 controls the changes in the numerical display on the display screen 130a by controlling the illumination or deactivation of the multiple light-emitting elements 130d. The upper surface 2f of the hand warmer unit 2 may have buttons or a display component 2c. The buttons are used to control the relevant functions of the hand warmer unit 2, and the display can be used to show the relevant status of the hand warmer unit 2, such as battery status or abnormal alarms.

[0077] In this embodiment, there are two placement cavities 3 and two openings 101. The two placement cavities 3 are arranged in parallel, and the two openings 101 are arranged in parallel and connected to each other, so as to facilitate charging two hand warmer units 2 at the same time. At this time, one hand warmer unit 2 is one hand warmer.

[0078] Figure 18 The charging compartment basically includes a housing 100a, a first circuit board 13, a first battery 18, and a placement cavity 3. The placement cavity 3 is an integral piece that can serve as a surface housing. The housing 100a and the placement cavity 3 together constitute the compartment body 10. The first circuit board 13 and the first battery 18 are built between the housing 100a and the placement cavity 3. These arrangements can be the same as in other embodiments.

[0079] Please see Figure 19-21 The opening 101 faces upward, the conductive probe 131 faces the direction of the opening 101, the compartment 10 is provided with an indicator unit 130a for indicating the first battery power status and / or the hand warmer unit charging status, the indicator unit 130a faces the side of the compartment 10, the hand warmer unit 2 has an upper surface 2f and an end face 2b perpendicular to the upper surface 2f, the placement cavity 3 is used for the hand warmer unit 2 to be vertically inserted into the placement cavity 3, after the hand warmer unit 2 is placed into the placement cavity 3, the end face 2b of the hand warmer unit 2 faces upward, and a part of the upper surface 2f of the hand warmer unit 2 is exposed through the opening 101.

[0080] In this embodiment, there are two placement cavities 3 and two openings 101. The two placement cavities 3 are arranged in parallel, and the two openings 101 are arranged in parallel and connected to each other, so as to facilitate simultaneous charging of two hand warmer units 2.

[0081] Please see Figure 22-24 The opening 101 faces the side of the housing 10, and the conductive probe 131 faces the opening 101. The housing 10 is provided with an indicator unit 130a for indicating the first battery power status and / or the hand warmer unit's charging status, and the indicator unit 130a faces the side of the housing 10. In this embodiment, the placement cavity 3 is used for the hand warmer unit to be placed into the placement cavity from one side of the housing 10, and after the hand warmer unit 2 is placed into the placement cavity 3, the upper surface 2f of the hand warmer unit 2 faces the side of the housing 10, and the upper surface 2f of the hand warmer unit 2 exposes the opening 101.

[0082] In this embodiment, there are two placement cavities 3 located on the back side of the phase, and two openings 101 located on the back side of the phase. The two hand warmer units 2 are inserted for charging from the back side of the phase.

[0083] Please see Figure 25-27 The placement cavity 3 is a groove with a certain depth, with an opening 101 at one end exposed to the outside. The opening 101 faces the side of the compartment 10, and the conductive probe 130 faces the opening 101. The compartment 10 is provided with an indicator unit 130a for indicating the first battery power status and / or the hand warmer unit charging status. The indicator unit 130a faces the side of the compartment 10. The hand warmer unit 2 has an upper surface 2f and an end face 2b perpendicular to the upper surface 2f. After the hand warmer unit 2 is placed in the placement cavity 3, the upper surface 2f does not expose the opening 101, and the end face 2b of the hand warmer unit 2 exposes the opening 101.

[0084] In this embodiment, there are two placement cavities 3 and two openings 101. The two placement cavities 3 are arranged in parallel, and the two openings 101 are arranged in parallel and connected to each other, so as to facilitate simultaneous charging of two hand warmer units 2.

[0085] Please see Figures 28-29 In another embodiment, the portable hand warmer charging case 10 includes a main body 11 and a cover 12a connected to the main body 11 to form the placement cavity 3. The main body 11 includes the aforementioned outer shell 100a, first circuit board 13, first battery 18 and placement cavity 3, and the cover 12a is transparent, so that the relevant functions, power status or abnormal alarm information of the hand warmer unit 2 can be observed through the transparent cover 12a.

[0086] Please see Figures 30-31 In other embodiments, the portable hand warmer charging case can be replaced by a portable hand warmer charging device 10d, which is lidless but still has a shell 100a, a first circuit board 13, and a first battery 18. The portable hand warmer charging device 10d has a placement portion 3a, which is a flat placement portion 3a and not the cavity of the above embodiment. When two hand warmers 2 are placed in the placement portion 3a, they can be charged by contact or wirelessly. This embodiment mainly uses wireless charging as an illustration.

[0087] from Figure 31 and Figure 32 It can be seen that the wireless charging component 3b with the wireless charging coil 3c is disposed below the planar placement part 3a and electrically connected to the first circuit board 13. The wireless charging component 3b may also include a first magnetic element 3d, which may be a ring magnet but is not limited to the above. Specifically, the first magnetic element 3d may be disposed around the wireless charging coil 3c. The inside of the housing of the hand warmer unit 2 may have a second magnetic element 2a corresponding to the first magnetic element 3d. The first magnetic element 3d and the second magnetic element 2a can magnetically attract and fix the hand warmer unit 3 and the placement part 3a together. When the hand warmer unit 3 and the placement part 3a are magnetically fixed together, the wireless charging coil 3c can correspond to the wireless receiving coil 2b inside the hand warmer unit 2 to wirelessly charge the hand warmer unit 2. Further, as Figure 32As shown in this embodiment, when both hand warmer units 2 have the second magnetic element, they can be magnetically attracted and fixed together during use. This allows the second magnetic element 2a to not only be used for fixing during wireless charging but also for the integrated connection of the two hand warmer units 2. This design is cost-effective, convenient to use, and improves the user experience. In this embodiment, the two hand warmer units 2 are connected by their lower surfaces to form a whole, with the upper surface 2f facing outwards, which can increase the hand warming temperature.

[0088] Please refer to it again. Figure 28 Alternatively, in some embodiments, the portable hand warmer charging case or hand warmer charging device 10d is further provided with a charging interface 10a for charging other electrical appliances besides the hand warmer unit 2. The charging interface 10a is still electrically connected to the first circuit board 13. The charging interface 10a can be a type-C female interface, a USB type-A female interface, etc. This embodiment mainly uses a type-C female interface for illustration. By setting the charging interface 10a, the hand warmer charging device 10d can also charge the hand warmer unit 2 through an external data cable, or charge other electronic devices such as mobile phones through an external data cable, making it multi-functional and providing a better user experience.

Claims

1. A portable hand warmer charging case, characterized in that, Includes a housing, on which a placement cavity is provided for placing and charging the hand warmer unit; The chamber is provided with a first circuit board, a first charging unit and a first battery, and the first battery and the first charging unit are both electrically connected to the first circuit board. The housing also has an opening through which the hand warmer unit is inserted into the placement cavity. When the hand warmer unit is placed in the placement cavity, the first circuit board is used to output electrical energy from the first battery through the first charging unit. The first charging unit is adapted to be used with a second charging unit on the hand warmer unit and to transfer electrical energy output from the first circuit board to the second charging unit on the hand warmer unit. The compartment is provided with a display screen for indicating the power status of the first battery and / or the charging status of the hand warmer unit; the compartment includes a main body and a transparent cover connected to the main body to form the placement cavity; and / or the compartment is provided with a charging interface for charging other electrical appliances besides the hand warmer unit.

2. The portable hand warmer charging case according to claim 1, characterized in that, The first charging unit is a conductive probe, which is disposed at the bottom of the placement cavity.

3. The portable hand warmer charging case according to claim 2, characterized in that, The first circuit board is located at the bottom of the placement cavity, and the first battery is located at the back of the compartment.

4. The portable hand warmer charging case according to claim 1, characterized in that, The opening faces upwards, the display screen faces the upper surface of the compartment, and the hand warmer unit is placed flat into the placement cavity. After the hand warmer unit is placed into the placement cavity, the upper surface of the hand warmer unit faces upwards and exposes the opening.

5. The portable hand warmer charging case according to claim 1, characterized in that, The opening faces upwards, the display screen faces the side of the compartment, the hand warmer unit has an upper surface and an end face perpendicular to the upper surface, the hand warmer unit is vertically inserted into the placement cavity, after the hand warmer unit is placed into the placement cavity, the end face of the hand warmer unit faces upwards, and a part of the upper surface is exposed through the opening.

6. The portable hand warmer charging case according to claim 1, characterized in that, The opening faces the side of the chamber, the display screen faces the side of the chamber, and after the hand warmer unit is placed into the placement cavity, the upper surface of the hand warmer unit faces the side of the chamber and exposes the opening.

7. The portable hand warmer charging case according to claim 1, characterized in that, The opening faces the side of the chamber, the display screen faces the side of the chamber, the hand warmer unit has an upper surface and an end face perpendicular to the upper surface, after the hand warmer unit is placed into the placement cavity, the upper surface does not expose the opening, and the end face exposes the opening.

8. The portable hand warmer charging case according to claim 1, characterized in that, The compartment also includes another placement cavity, the two placement cavities are parallel, and the two openings are parallel.

9. A hand warmer component, characterized in that, It includes the portable hand warmer charging case as described in any one of claims 1-8 and at least one hand warmer unit.

10. The hand warmer component according to claim 9, characterized in that, The first charging unit is charged by contact charging or wireless charging with the second charging unit.