A shaver with a magnetic battery compartment

By employing a magnetic battery compartment design and an innovative connection method for conductive components, the problem of easily damaged connectors during battery replacement in existing shavers has been solved. This simplifies battery replacement, improves stability, and ensures the safety and waterproof performance of the battery compartment.

CN224323148UActive Publication Date: 2026-06-05ZHEJIANG ANDA ELECTRIC

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG ANDA ELECTRIC
Filing Date
2025-05-10
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing shavers are prone to damage to the locking mechanism when changing batteries, and the operation process is complicated, affecting the stability and safety of use.

Method used

The battery compartment adopts a magnetic suction design, which uses the attraction between the first and second magnets to easily install and fix the battery compartment. Combined with the stable connection between the conductive components and the conductive sheet, it avoids the use of additional tools, and improves structural stability and waterproof performance through sealing rings and clamping parts.

Benefits of technology

It simplifies the battery replacement process, shortens replacement time, avoids damage to components, improves the stability and safety of battery installation, enhances waterproof performance, and ensures a reliable connection between the battery compartment and the power source.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of shavers, and discloses a shaver with a magnetic battery compartment, which comprises a cutter head, an upper inner shell arranged on the cutter head, a lower inner shell connected with the upper inner shell, an outer shell arranged outside the upper inner shell and the lower inner shell, and a battery compartment capable of being inserted into the lower inner shell, a power supply is arranged in the battery compartment, an electric conduction assembly is arranged on the side of the upper inner shell close to the lower inner shell, the electric conduction assembly is inserted into the lower inner shell, a first magnet is arranged in the lower inner shell, a second magnet is arranged on the battery compartment and is attracted to the first magnet, and an electric conduction sheet electrically connected with the power supply in the battery compartment is further arranged on the battery compartment; when the battery compartment is inserted into the lower shell, the first magnet is attached to the second magnet, and the electric conduction assembly is electrically connected with the electric conduction sheet; the application has the effects of shortening the power supply replacement time and not damaging the parts of the shaver.
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Description

Technical Field

[0001] This application relates to the technical field of shavers, and in particular to a shaver employing a magnetic battery compartment. Background Technology

[0002] Hair shavers are a common personal care appliance widely used in shaving, hair removal, and other similar applications.

[0003] In the prior art, the shaver includes a housing, a battery, a snap-fit ​​component, and a battery cover. The housing has a battery slot, the battery is installed in the battery slot, the battery cover seals the battery slot, and the snap-fit ​​component uses its own elasticity to fix the battery cover to the housing.

[0004] When the battery needs to be replaced, the battery cover must be removed from the casing before the battery can be replaced. Removing the battery cover from the casing causes deformation of the latches, which can easily damage them. Utility Model Content

[0005] To address the issue of easily damaging the locking mechanism when changing batteries in existing shavers, this application provides a shaver employing a magnetic battery compartment.

[0006] This application provides a shaver with a magnetic battery compartment, employing the following technical solution:

[0007] A shaver with a magnetic battery compartment includes a blade head, an upper inner shell disposed on the blade head, a lower inner shell connected to the upper inner shell, an outer shell disposed outside the upper and lower inner shells, and a battery compartment that can be inserted into the lower inner shell. A power source is provided in the battery compartment. A conductive component is disposed on the side of the upper inner shell near the lower inner shell. The conductive component is inserted into the lower inner shell. A first magnet is disposed in the lower inner shell. A second magnet attracted to the first magnet is disposed on the battery compartment. A conductive sheet electrically connected to the power source within the battery compartment is also disposed on the battery compartment. When the battery compartment is inserted into the lower shell, the first magnet and the second magnet are engaged, and the conductive component is electrically connected to the conductive sheet.

[0008] By adopting the above technical solution, when the power in the battery compartment is depleted, the user can easily pull the battery compartment out of the lower inner shell for replacement. After the battery is replaced, simply reinsert the battery compartment into the lower inner shell, and use the attraction between the first and second magnets to make them fit together, and make the conductive components abut against the conductive plates to achieve the installation and fixation of the battery compartment. No additional tools are needed, which greatly simplifies the power replacement process, significantly shortens the replacement time, and does not damage the parts of the shaver.

[0009] Optionally, the battery compartment includes an exposed portion that abuts against the outer casing, and the connection between the exposed portion and the outer casing is smoothly transitioned.

[0010] By adopting the above technical solution, the battery compartment is tightly fitted to the bottom wall of the outer casing through the exposed part, and the exposed part is flush with the outer casing. This effectively prevents the user from accidentally pulling the battery compartment out when their hand slips across the exposed part during the operation of the shaver, further improving the stability and safety of the overall structure.

[0011] Optionally, the battery compartment further includes a sealing ring that can be inserted into the housing. The sealing ring is disposed on the exposed portion, and an elastic ring is embedded on the outer circumferential surface of the sealing ring. The elastic ring is embedded inside the housing.

[0012] By adopting the above technical solution, the connection between the lower inner shell and the outside can be cut off by embedding an elastic ring inside the outer shell, preventing water from entering the lower inner shell, thereby improving the waterproof performance of the shaver and protecting the power supply from water corrosion.

[0013] Optionally, the outer end face of the sealing ring inserted into the inner shell has an inclined surface, which gradually decreases in size from the outside to the inside.

[0014] By adopting the above technical solution, during the process of inserting the sealing ring into the lower inner shell, the inclined surface first abuts against the outer shell, and the sealing ring continues to move. The inclined surface gradually guides the sealing ring to align with the lower inner shell, making it easier for the sealing ring to be inserted into the lower inner shell.

[0015] Optionally, the lower inner shell includes an insertion part, a guide part, and a clamping part. The opening shape of the insertion part is larger than the opening shape of the clamping part. The inner wall of the clamping part abuts against the power source in the battery compartment. The guide part connects the insertion part and the clamping part. The inner wall of one side of the guide part is inclined.

[0016] By adopting the above technical solution, during the process of inserting the battery compartment and power supply together into the lower inner shell, the battery compartment and power supply first pass through the insertion part and contact the guide part; as the battery compartment and power supply are further inserted, the guide part guides the insertion process of the battery compartment and power supply, so that the battery compartment and power supply enter the clamping part, and the clamping part clamps the battery compartment and power supply, effectively preventing the battery compartment and power supply from shaking in the lower inner shell, thereby improving the stability and reliability of the power supply installation.

[0017] Optionally, the lower inner shell is provided with a fixing component for fixing the position of the outer shell and the lower inner shell. The lower inner shell has a locking plate hole. The fixing component includes a fixing plate disposed in the locking plate hole and a fixing block disposed on the fixing plate. A positioning block is disposed on the outer circumferential surface of the battery compartment. The fixing block is located on the side of the fixing plate away from the battery compartment. A fixing groove is provided inside the outer shell for the fixing block to be inserted. The positioning block contacts the fixing plate.

[0018] By adopting the above technical solution, when both the upper inner shell and the lower inner shell are inserted into the outer shell, the fixing block is inserted into the fixing groove to fix the outer shell onto the lower inner shell. When the battery compartment is inserted into the lower inner shell, the locking block abuts against the end face of the fixing plate near the battery compartment, preventing the fixing plate from deforming in the direction of the battery compartment, thereby preventing the fixing block from falling out of the fixing groove and further improving the fixing effect of the outer shell.

[0019] Optionally, the upper inner shell is provided with a connecting assembly for connecting the lower inner shell. The connecting assembly includes a connecting plate disposed on the upper inner shell and a connecting block disposed on the connecting plate. The connecting block is located on the side of the connecting plate away from the battery axis. The end face of the lower inner shell near the upper inner shell is provided with a connecting groove for the connecting plate to be inserted. The inner wall of the connecting groove is provided with a snap-fit ​​hole for the connecting block to be inserted.

[0020] By adopting the above technical solution, inserting the connecting plate into the connecting groove and inserting the connecting block into the snap-fit ​​hole, the upper inner shell can be fixed on the lower inner shell.

[0021] Optionally, a guide surface is provided at the bottom of the connecting block, and the distance from the guide surface to the connecting plate gradually decreases along the direction of battery compartment insertion.

[0022] By adopting the above technical solution, during the process of inserting the connecting plate into the connecting groove, the guide surface contacts the lower inner shell. As the connecting plate continues to advance, the guide surface can guide the connecting plate to undergo elastic deformation, thereby allowing the connecting block to smoothly enter the connecting groove. When the connecting block moves to the position aligned with the snap-fit ​​hole, the connecting plate resets under its own elastic restoring force, pushing the connecting block to accurately snap into the snap-fit ​​hole, saving the manual action of driving the connecting plate to deform and improving installation efficiency.

[0023] Optionally, the conductive sheet includes a positive conductive sheet connected to the positive terminal of the battery and a negative conductive sheet connected to the negative terminal of the battery. Two conductive components are provided. Each conductive component includes a conductive post disposed on the upper inner shell, a conductive spring disposed within the conductive post, and a conductive rod disposed within the conductive post. A conductive groove is formed on the end face of the conductive post near the lower inner shell. The conductive spring and the conductive rod are both located within the conductive groove. The conductive spring is located on the side of the conductive rod away from the lower inner shell. The conductive spring is in a compressed state. One of the conductive rods abuts against the positive conductive sheet, and the other conductive rod abuts against the negative conductive sheet.

[0024] By adopting the above technical solution, when the battery compartment is installed in the lower inner shell, the conductive spring drives the conductive rod to move towards the battery compartment, so that each of the two conductive rods abuts against a conductive plate, ensuring a stable electrical connection between the two; avoiding poor contact or power outage problems caused by battery compartment shaking, thus improving the reliability and stability of the shaver's operation.

[0025] Optionally, a limiting groove is provided on the side wall of the conductive groove, and a limiting block is slidably disposed in the limiting groove, the limiting block being connected to the conductive rod.

[0026] By adopting the above technical solution, when the limiting block abuts against the inner wall of the limiting groove near the battery compartment, the limiting block is restricted from continuing to move towards the battery compartment, thereby restricting the movement of the conductive rod and preventing the conductive rod from completely detaching from the conductive groove.

[0027] In summary, this application includes at least one of the following beneficial technical effects:

[0028] 1. When the power in the battery compartment is depleted, the user can easily pull the battery compartment out of the lower inner shell for replacement. After the battery is replaced, simply reinsert the battery compartment into the lower inner shell. The attraction between the first and second magnets will cause the first and second magnets to come into contact with each other, and the conductive components will abut against the conductive plates. This will secure the battery compartment without the need for additional tools, greatly simplifying the power replacement process, significantly shortening the replacement time, and preventing damage to the shaver's components.

[0029] 2. When the battery compartment is installed in the lower inner shell, the clamping part can clamp the power supply in the battery compartment, thereby preventing the power supply from shaking when the shaver is in use. Attached Figure Description

[0030] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0031] Figure 1 This is a schematic diagram of the overall structure of a hair shaver;

[0032] Figure 2 It is along Figure 1 Sectional view of line AA in the middle;

[0033] Figure 3 This is a schematic diagram of the overall structure of the hidden outer casing of the shaver;

[0034] Figure 4 yes Figure 2 Enlarged schematic diagram of part B;

[0035] Figure 5 yes Figure 2 An enlarged schematic diagram of section C;

[0036] Figure 6 This is a schematic diagram of the conductive component.

[0037] Figure 7 This is a schematic diagram of the conductive component.

[0038] Reference numerals: 1. Cutting head; 11. Outer shell; 12. On / off switch; 13. Upper inner shell; 14. Lower inner shell; 141. Clamping part; 142. Guide part; 143. Insertion part; 15. Motor; 16. First magnet; 17. Second magnet; 18. Battery slot; 2. Battery compartment; 21. Sealing groove; 22. Power supply; 23. Pull-out switch; 24. Exposed part; 25. Sealing ring; 26. Elastic ring; 27. Embedding groove; 28. Inclined surface; 3. Connecting assembly Components; 31. Connecting plate; 32. Connecting block; 33. Snap-fit ​​hole; 34. Connecting groove; 35. Guide surface; 4. Fixing assembly; 41. Fixing plate; 42. Fixing block; 43. Locking block; 44. Fixing groove; 45. Locking plate hole; 46. Guide surface; 5. Conductive assembly; 51. Conductive post; 52. Conductive rod; 53. Conductive spring; 54. Limiting block; 55. Limiting groove; 56. Conductive groove; 6. Conductive sheet; 61. Positive conductive sheet; 62. Negative conductive sheet. Detailed Implementation

[0039] The following is in conjunction with the appendix Figure 1-7 This application will be described in further detail.

[0040] This embodiment discloses a shaver employing a magnetic battery compartment. (Refer to...) Figure 1 and Figure 2 A shaver employing a magnetic battery compartment includes a blade head 1, an upper inner shell 13, a lower inner shell 14, an outer shell 11, and a battery compartment 2. The blade head 1 is fixedly connected to the output shaft of a motor 15.

[0041] Reference Figure 2 Both the lower inner shell 14 and the upper inner shell 13 are inserted into the outer shell 11. A motor 15 is installed inside the upper inner shell 13, and an on / off switch 12 is mounted on the upper inner shell 13. The on / off switch 12 extends outside the outer shell 11. A removable power supply 22 is installed inside the battery compartment 2. The power supply 22 is cylindrical.

[0042] Reference Figure 3 and Figure 4 The upper inner shell 13 is provided with three connecting components 3 for connecting to the lower inner shell 14. The three connecting components 3 are distributed circumferentially along the outer shell 11, and the connecting components 3 include connecting plates 31 and connecting blocks 32.

[0043] Reference and 2 and Figure 4 The connecting plate 31 is fixedly connected to the end face of the upper inner shell 13 near the lower inner shell 14, and the connecting plate 31 is made of elastic material. The connecting block 32 is fixedly connected to the end face of the connecting plate 31 near the outer shell 11, and the end face of the connecting block 32 away from the upper inner shell 13 has a guide surface 35. The distance from the guide surface 35 to the axis of the power supply 22 gradually decreases along the insertion direction of the battery compartment 2.

[0044] Reference Figure 4 A connecting groove 34 is provided on the end face of the lower inner shell 14 near the upper inner shell 13. A snap-fit ​​hole 33 is provided on the connecting groove 34 near the inner wall of the outer shell 11. When the upper inner shell 13 abuts against the lower inner shell 14, the connecting plate 31 is inserted into the connecting groove 34 and the connecting block 32 is inserted into the snap-fit ​​hole 33.

[0045] Reference Figure 2 and Figure 3 Two fixing components 4 are provided on the lower inner shell 14. The two fixing components 4 are used to fix the outer shell 11 to the lower inner shell 14. The fixing components 4 include a fixing plate 41 and a fixing block 42.

[0046] Reference Figure 2 and Figure 5 The lower inner shell 14 has two symmetrical locking plate holes 45 along the axis of the power supply 22. One of the locking plate holes 45 is located on the side of the on / off switch 12 closer to the lower inner shell 14. The fixing plate 41 is fixedly connected to the inner wall of the upper inner shell 13 away from the locking plate hole 45, and the fixing plate 41 is made of elastic material.

[0047] Reference Figure 3 and Figure 5 The fixing block 42 is fixedly connected to the fixing plate 41 near the end face of the outer shell 11. The fixing plate 41 has a guide surface 46 at the end face near the upper inner shell 13. The distance from the guide surface 46 to the axis of the power supply 22 gradually decreases along the insertion direction of the battery compartment 2. A fixing groove 44 is provided inside the outer shell 11 for the fixing plate 41 to be inserted.

[0048] Reference Figure 2 and Figure 5 Two locking blocks 43 are fixedly connected to the end face of the battery compartment 2 near the outer shell 11. Both locking blocks 43 are located on the side of the power supply 22 axis away from the on / off switch 12, and the locking blocks 43 abut against the end face of the fixing plate 41 near the power supply 22 axis.

[0049] Reference Figure 2 The lower inner shell 14 has a battery slot 18 on the end face away from the upper inner shell 13 for inserting the battery compartment 2 and the power supply 22 together.

[0050] Reference Figure 2 The lower inner shell 14 includes an insertion part 143 for facilitating the insertion of the battery compartment 2, a guide part 142 for guiding the insertion direction of the battery compartment 2, and a clamping part 141 for clamping the battery compartment 2 and the power supply 22.

[0051] Reference Figure 2When the power supply 22 is installed into the battery compartment 2, the radial cross-section of the battery compartment 2 is adapted to the opening of the clamping part 141; the radial cross-section of the battery compartment 2 is smaller than the opening of the insertion part 143. The guide part 142 connects the insertion part 143 and the clamping part 141. The guide part 142 is inclined, and the distance from the guide part 142 to the outer casing 11 gradually increases along the insertion direction of the battery compartment 2.

[0052] Reference Figure 2 When the battery compartment 2 is inserted into the battery slot 18, it first passes through the insertion part 143 and then abuts against the guide part 142. The battery compartment 2 continues to move, so that the battery compartment 2 is guided by the guide part 142, so that the battery compartment 2 is aligned with the opening of the clamping part 141, and finally the battery compartment 2 moves into the clamping part 141 and is clamped by the clamping part 141.

[0053] Reference Figure 2 A first magnet 16 is installed on the bottom wall of the battery compartment 18. A second magnet 17 is provided on the end face of the battery compartment 2 that is inserted into the battery compartment 18, and it is attracted to the first magnet 16. When the battery compartment 2 is inserted into the lower inner shell 14, the first magnet 16 and the second magnet 17 come into contact.

[0054] Reference Figure 2 The battery compartment 2 includes an exposed portion 24. The exposed portion 24 is located on the side of the lower inner shell 14 away from the upper inner shell 13, and the exposed portion 24 abuts against the outer shell 11. The shape of the end face of the exposed portion 24 near the outer shell 11 is the same as the shape of the end face of the outer shell 11 near the exposed portion 24.

[0055] Reference Figure 2 and Figure 5 The battery compartment 2 also includes a sealing ring 25. The sealing ring 25 is fixedly connected to the end face of the exposed portion 24 near the power source 22, and the sealing ring 25 has an insert groove 27 along its circumferentially outward side. An elastic ring 26 is installed in the insert groove 27. One side of the elastic ring 26 extends outside the insert groove 27. A sealing groove 21 is provided on the inner wall of the outer casing 11 for the elastic ring 26 to be inserted. The sealing ring 25 can be inserted into the battery compartment 18 together with the elastic ring 26. Through the cooperation of the sealing ring 25, the sealing groove 21, and the elastic ring 26, the outer casing 11 can be sealed.

[0056] Reference Figure 3 and Figure 5 The end face of the sealing ring 25 that is inserted into the battery slot 18 is provided with an inclined surface 28. The inclined surface 28 is located on the side of the sealing ring 25 near the outer casing 11, and the inclined surface 28 gradually increases from the inside to the outside.

[0057] Reference and 1 and Figure 2 Two pull-out switches 23 are symmetrically arranged on the exposed part 24 via the power supply 22 axis. The pull-out switches 23 are made of elastic material, and the side of the pull-out switch 23 near the first magnet 16 is fixedly connected to the sealing ring 25.

[0058] Reference Figure 2 and Figure 6 The battery compartment 2 is provided with a conductive plate 6 that is electrically connected to the power source 22. The conductive plate 6 includes a positive conductive plate 61 and a negative conductive plate 62. The positive conductive plate 61 is connected to the positive terminal of the battery. The negative conductive plate 62 is connected to the negative terminal of the battery.

[0059] Reference Figure 2 and Figure 6 Two conductive components 5 are provided on the end face of the upper inner shell 13 near the lower inner shell 14, and both conductive components 5 are inserted into the lower inner shell 14. When the battery compartment 2 is inserted into the battery slot 18, one of the conductive components 5 is electrically connected to the positive conductive plate 61, and the other conductive component 5 is electrically connected to the negative conductive plate 62.

[0060] Reference Figure 2 and Figure 7 The conductive component 5 includes a conductive post 51, a conductive spring 53, and a conductive rod 52. The conductive post 51 is fixedly connected to the end face of the upper inner shell 13 near the lower inner shell 14, with one side of the conductive post 51 inserted into the lower inner shell 14. The conductive post 51 is electrically connected to the motor 15. A conductive groove 56 is formed on the end face of the conductive post 51 away from the upper inner shell 13 for the conductive rod 52 to be inserted. A limiting groove 55 in the shape of an elongated groove is formed on the side wall of the conductive groove 56. The length direction of the conductive groove 56 is the same as the axial direction of the conductive rod 52.

[0061] Reference Figure 2 and Figure 7 One side of the conductive spring 53 is fixedly connected to the end face of the conductive rod 52 near the upper inner shell 13, and the other side of the conductive spring 53 is fixedly connected to the bottom of the conductive groove 56. The conductive spring 53 drives the conductive rod 52 to abut against the conductive sheet 6 and electrically connects the conductive rod 52 and the conductive sheet 6. A limiting block 54 is fixedly connected to the end face of the conductive rod 52 near the limiting groove 55. The limiting block 54 is inserted into the limiting groove 55 and can move along the length of the limiting groove 55. The electricity in the power supply 22 can be transmitted to the motor 15 through the conductive sheet 6, the conductive rod 52 and the conductive post 51 to drive the shaver to work.

[0062] The implementation principle of a shaver using a magnetic battery compartment 2 in this application embodiment is as follows: when the power supply 22 is depleted, press the pull switch 23 to deform the sealing ring 25 towards the axis of the power supply 22, so that the elastic ring 26 leaves the sealing groove 21, making it easy to pull the battery compartment 2 out of the lower inner shell 14; when the battery compartment 2 is pulled out of the lower inner shell 14, the power supply 22 can be replaced.

[0063] When the power supply 22 is replaced and the battery compartment 2 needs to be reinserted into the lower inner shell 14, first pass the battery compartment 2 through the insertion part 143 and make the battery compartment 2 abut against the inner wall of the guide part 142. Continue to drive the battery compartment 2 towards the first magnet 16. The guide part 142 guides the movement of the battery compartment 2, so that the battery compartment 2 is aligned with the clamping part 141 and inserted into the clamping part 141. When the first magnet 16 and the second magnet 17 are in contact, the first magnet 16 and the second magnet 17 magnetically attract each other. The clamping part 141 clamps the battery compartment 2 and the power supply 22. The conductive rod 52 abuts against the conductive sheet 6 under the drive of the conductive spring 53, and the electricity in the power supply 22 is conducted to the motor 15 through the conductive sheet 6, the conductive rod 52 and the conductive post 51. The locking block 43 abuts against the fixing plate 41. The sealing ring 25 is inserted into the outer shell 11 and the elastic ring 26 is inserted into the sealing groove 21, thereby fixing the battery compartment 18 into the battery compartment 18.

[0064] Unless otherwise defined, the technical or scientific terms used in this application shall have the ordinary meaning understood by one of ordinary skill in the art to which this application pertains. The terms "first," "second," "third," and similar terms used in this application specification and claims do not indicate any order, quantity, or importance, but are merely used to distinguish different components. The terms "an" or "a" and similar terms do not indicate a quantity limitation, but rather indicate the presence of at least one. The terms "comprising" or "including" and similar terms mean that the elements or objects preceding "comprising" or "including" encompass the elements or objects listed following "comprising" or "including" and their equivalents, and do not exclude other elements or objects. "Above," "below," "left," "right," etc., are used only to indicate relative positional relationships; when the absolute position of the described object changes, the relative positional relationship may also change accordingly.

[0065] The above description is only a preferred embodiment of this application and is not intended to limit this application. Any modifications, equivalent substitutions, improvements, etc., made within the design concept of this application should be included within the protection scope of this application.

Claims

1. A shaver employing a magnetic battery compartment, comprising a blade head (1), an upper inner shell (13) disposed on the blade head (1), a lower inner shell (14) connected to the upper inner shell (13), an outer shell (11) disposed outside the upper inner shell (13) and the lower inner shell (14), and a battery compartment (2) capable of being inserted into the lower inner shell (14), wherein a power source (22) is disposed within the battery compartment (2), characterized in that: A conductive component (5) is provided on the side of the upper inner shell (13) near the lower inner shell (14). The conductive component (5) is inserted into the lower inner shell (14). A first magnet (16) is provided in the lower inner shell (14). A second magnet (17) is provided on the battery compartment (2) and attracted to the first magnet (16). A conductive sheet (6) is also provided on the battery compartment (2) and electrically connected to the power supply (22) in the battery compartment (2). When the battery compartment (2) is inserted into the lower shell, the first magnet (16) and the second magnet (17) are in contact, and the conductive component (5) is electrically connected to the conductive sheet (6).

2. The shaver with a magnetic battery compartment according to claim 1, characterized in that: The battery compartment (2) includes an exposed portion (24) that abuts against the outer shell (11), and the connection between the exposed portion (24) and the outer shell (11) is smooth.

3. A shaver with a magnetic battery compartment according to claim 2, characterized in that: The battery compartment (2) also includes a sealing ring (25) that can be inserted into the outer shell (11). The sealing ring (25) is arranged around the exposed part (24). An elastic ring (26) is embedded on the outer surface of the sealing ring (25) along the circumferential direction. The elastic ring (26) is embedded inside the outer shell (11).

4. A shaver with a magnetic battery compartment according to claim 3, characterized in that: The outer end face of the sealing ring (25) inserted into the inner shell has an inclined surface (28), which gradually decreases from the outside to the inside.

5. A shaver with a magnetic battery compartment according to claim 1, characterized in that: The lower inner shell (14) includes an insertion part (143), a guide part (142) and a clamping part (141). The opening shape of the insertion part (143) is larger than the opening shape of the clamping part (141). The inner wall of the clamping part (141) abuts against the power source (22) in the battery compartment (2). The guide part (142) connects the insertion part (143) and the clamping part (141). The inner wall of the guide part (142) is inclined on one side.

6. A shaver with a magnetic battery compartment according to claim 1, characterized in that: The lower inner shell (14) is provided with a fixing component (4) for fixing the position of the outer shell (11) and the lower inner shell (14). The lower inner shell (14) is provided with a card hole (45). The fixing component (4) includes a fixing plate (41) disposed in the card hole (45) and a fixing block (42) disposed on the fixing plate (41). A positioning block (43) is provided on the outer circumferential side of the battery compartment (2). The fixing block (42) is located on the side of the fixing plate (41) away from the battery compartment (2). A fixing groove (44) for the fixing block (42) to be inserted is provided in the outer shell (11). The positioning block (43) is in contact with the fixing plate (41).

7. A shaver with a magnetic battery compartment according to claim 1, characterized in that: The upper inner shell (13) is provided with a connecting assembly (3) for connecting the lower inner shell (14). The connecting assembly (3) includes a connecting plate (31) on the upper inner shell (13) and a connecting block (32) on the connecting plate (31). The connecting block (32) is located on the side of the connecting plate (31) away from the battery axis. The lower inner shell (14) has a connecting groove (34) for the connecting plate (31) to be inserted on the end face of the lower inner shell (13). The connecting groove (34) has a snap-fit ​​hole (33) for the connecting block (32) to be inserted on the inner wall of the circumferential direction.

8. A shaver with a magnetic battery compartment according to claim 7, characterized in that: The bottom of the connecting block (32) is provided with a guide surface (35), and the distance from the guide surface (35) to the connecting plate (31) gradually decreases along the direction of insertion of the battery compartment (2).

9. A shaver with a magnetic battery compartment according to claim 1, characterized in that: The conductive sheet (6) includes a positive conductive sheet (57) connected to the positive electrode of the battery and a negative conductive sheet (58) connected to the negative electrode of the battery. The conductive component (5) is provided in two parts. The conductive component (5) includes a conductive post (51) disposed on the upper inner shell (13), a conductive spring (53) disposed in the conductive post (51), and a conductive rod (52). The conductive post (51) has a conductive groove (56) on the end face near the lower inner shell (14). The conductive spring (53) and the conductive rod (52) are both located in the conductive groove (56). The conductive spring (53) is located on the side of the conductive rod (52) away from the lower inner shell (14). The conductive spring (53) is in a compressed state. One of the conductive rods (52) abuts against the positive conductive sheet (57), and the other conductive rod (52) abuts against the negative conductive sheet (58).

10. A shaver with a magnetic battery compartment according to claim 9, characterized in that: A limiting groove (55) is provided on the side wall of the conductive groove (56), and a limiting block (54) is slidably provided in the limiting groove (55). The limiting block (54) is connected to the conductive rod (52).