Rotary magnetic water filter and kettle
By controlling the water-sealing ball through the magnetic relationship of the magnetic component, the operation of the kettle spout is simplified, solving the problem of the complex structure of existing kettles and realizing a convenient tea-water separation and tea-pouring process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LISA (YINGDE) HOUSEHOLD PROD CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-07-10
AI Technical Summary
Existing kettles have complex control structures for their switches, making operation cumbersome and hindering the simple and effective sealing and opening of the water outlet.
By utilizing the magnetic relationship between the first and second magnetic components, the water-sealing ball can be controlled to block or open the water outlet through a rotating component, simplifying the operation process.
It enables the water outlet to be blocked or opened by rotation without the need for a lever mechanism, improving the applicability of the rotary magnetic water filter and the convenience of making tea.
Smart Images

Figure CN224474262U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of kettle equipment, specifically relating to a rotary magnetic water filter and a kettle. Background Technology
[0002] A kettle is a utensil used for brewing tea. To better control the brewing time, a kettle with a separate tea and water compartment is usually used. This type of kettle has a brewing compartment and a water collection compartment, with the brewing compartment located above the water collection compartment. The key feature is that the bottom of the brewing compartment needs to have a switch that can be controlled to open or close. After the required brewing time, the switch is opened, allowing the tea in the brewing compartment to flow into the water collection compartment.
[0003] In related technologies, a lever mechanism is typically used to control the switch. A pressing element is installed on the lid, and pressing this element transmits the control to the lever assembly, thus controlling the switch. This structural design is complex, requiring continuous pressing of the pressing element to control the switch, making operation cumbersome. Utility Model Content
[0004] To address the problems existing in the prior art, this utility model provides a rotary magnetic water filter. The technical problem to be solved by this utility model is: how to achieve the sealing ball to block or open the water outlet, thereby improving the applicability of the rotary magnetic water filter.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A rotary magnetic water filter includes:
[0007] The filter chamber has a water outlet structure at its bottom and an installation cover at its top. A water sealing ball is installed inside the water outlet structure to block the water outlet of the water outlet structure.
[0008] A first magnetic suction element is installed inside the water-sealing ball;
[0009] The second magnetic component is mounted on the mounting cover and is disposed opposite to the first magnetic component.
[0010] A rotating component is mounted on the mounting cover and is used to rotate the second magnetic component.
[0011] Specifically, when the rotating component rotates the second magnetic component to the first position, the magnetism of the first magnetic component is the same as that of the second magnetic component, and the water-sealing ball blocks the water outlet; when the rotating component rotates the second magnetic component to the second position, the magnetism of the first magnetic component is different from that of the second magnetic component, and the water-sealing ball separates from the water outlet.
[0012] In the aforementioned rotary magnetic water filter, the water outlet structure includes a water-sealing cap and a water-sealing cover; the bottom of the filter chamber is provided with an installation hole, the water-sealing cap is installed in the installation hole, the water-sealing cover is closed on top of the water-sealing cap, and the water-sealing cover is provided with a plurality of water-filtering holes; the bottom of the water-sealing cap is provided with the water outlet, the bottom of the water-sealing ball has a water-sealing part adapted to the water outlet, the water-sealing ball is provided with an installation cavity, and the first magnetic suction component is installed in the installation cavity.
[0013] In the aforementioned rotary magnetic water filter, the sealing cap includes a base and a connecting seat; the base is located below the mounting hole, the connecting seat is located above the mounting hole, and the bottom of the connecting seat passes through the mounting hole and is threadedly connected to the base; the interior of the base and the connecting seat encloses a receiving cavity, the sealing ball is disposed in the receiving cavity, and the bottom of the base is provided with the water outlet.
[0014] In the aforementioned rotary magnetic water filter, the sealing cap further includes a sealing ring, which is fitted onto the bottom of the connecting seat and is located between the bottom of the filter chamber and the top of the base.
[0015] In the aforementioned rotary magnetic water filter, the first magnetic element includes a first magnet, which is installed inside the mounting cavity.
[0016] In the aforementioned rotary magnetic water filter, the mounting cover includes a base plate and a cover plate, which together form a cavity. The second magnetic suction component is mounted on the base plate, and the rotating component is mounted on the cover plate.
[0017] In the aforementioned rotary magnetic water filter, the second magnetic component includes a fixed frame, a magnet frame, and a second magnet; the fixed frame is fixedly connected to the base plate, the magnet frame includes a mounting groove and a rotating shaft disposed on the mounting groove, the rotating shaft is rotatably connected to the fixed frame, the second magnet is installed in the mounting groove, and the second magnet is correspondingly disposed to the first magnet; the rotating component is drively connected to the rotating shaft.
[0018] In the aforementioned rotary magnetic water filter, the rotating component includes a knob, a first bevel gear, and a second bevel gear; a rotating hole is provided on the cover plate, and the knob is rotatably connected to the rotating hole; the first bevel gear is located in the cavity and is fixedly connected to the bottom of the knob; the second bevel gear is located in the cavity and is mounted on the rotating shaft; the first bevel gear and the second bevel gear mesh with each other.
[0019] In the aforementioned rotary magnetic water filter, the rotary magnetic water filter further includes a limiting component, which includes a limiting frame and a limiting block. The limiting frame is fixedly connected to the base plate, one end of the limiting block is fixedly connected to the limiting frame, and the other end of the limiting block is located on the side of the second bevel gear away from the second magnet, so as to limit the second bevel gear.
[0020] The second objective of this utility model is to provide a kettle:
[0021] A kettle, comprising:
[0022] The body of the pot;
[0023] The aforementioned rotary magnetic water filter is installed at the opening of the kettle body;
[0024] A handle, which is mounted on the kettle body.
[0025] In the aforementioned kettle, a pressure groove is provided at the pouring spout of the kettle body, and the pressure groove is inclined toward the bottom of the kettle body.
[0026] The beneficial effects of this utility model are:
[0027] This utility model of a rotary magnetic water filter utilizes the magnetic relationship between the first and second magnetic components to rotate the second magnetic component, thereby sealing or opening the water outlet with a sealing ball. It eliminates the need for a lever mechanism, resulting in a simple structure, easy operation, and significantly improved applicability of the rotary magnetic water filter.
[0028] This utility model of a kettle utilizes the magnetic relationship between a first magnetic component and a second magnetic component to seal or open the outlet of a rotary magnetic water filter. When brewing tea, the second magnetic component is rotated to the first position, sealing the outlet with the water-sealing ball, allowing tea to be brewed within the filter chamber. When pouring the brewed tea into the kettle, the second magnetic component is rotated to the second position, allowing the brewed tea to flow into the kettle through the outlet, greatly improving the convenience of tea brewing. Attached Figure Description
[0029] Figure 1 This is a schematic diagram of the kettle's structure;
[0030] Figure 2 A cross-sectional view of the kettle when the second magnetic component is in the first position;
[0031] Figure 3 A cross-sectional view of the kettle when the second magnetic component is in the second position;
[0032] Figure 4 This is a schematic diagram of a rotary magnetic water filter.
[0033] Figure 5 An exploded view of a rotary magnetic water filter when the second magnetic element is in the first position;
[0034] Figure 6 An exploded view of a rotary magnetic water filter when the second magnetic element is in the second position;
[0035] Figure 7 A cross-sectional view of the rotary magnetic water filter when the second magnetic element is in the first position;
[0036] Figure 8 for Figure 7 Enlarged view of section A in the middle;
[0037] Figure 9 for Figure 7 Enlarged view of section B in the middle;
[0038] Figure 10 A cross-sectional view of the rotary magnetic water filter when the second magnetic element is in the second position;
[0039] Figure 11 for Figure 10 Enlarged view of section C;
[0040] Figure 12 for Figure 10 Enlarged view of section D in the middle;
[0041] Figure 13 This is an exploded view of the water outlet structure.
[0042] In the diagram, 1 is the filter chamber; 11 is the water outlet structure; 111 is the water seal cap; 1111 is the base; 1112 is the connecting seat; 1113 is the receiving cavity; 1114 is the sealing ring; 112 is the water seal cover; 1121 is the filter hole; 12 is the water seal ball; 121 is the water seal part; 122 is the mounting cavity; 13 is the mounting cover; 131 is the base plate; 132 is the cover plate; 1321 is the rotating hole; 133 is the cavity body; 4. Water outlet; 15. Mounting hole; 2. First magnetic component; 21. First magnet; 3. Second magnetic component; 31. Fixing bracket; 32. Magnet bracket; 321. Mounting groove; 322. Rotating shaft; 33. Second magnet; 4. Rotating component; 41. Knob; 42. First bevel gear; 43. Second bevel gear; 5. Limiting component; 51. Limiting bracket; 52. Limiting block; 6. Kettle body; 61. Pressure groove; 7. Handle. 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] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in this utility model embodiment are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.
[0045] Example 1:
[0046] like Figure 4-12As shown, this rotary magnetic water filter includes a filter chamber 1, a first magnetic element 2, a second magnetic element 3, and a rotating element 4. The bottom of the filter chamber 1 has a water outlet structure 11, and the top of the filter chamber 1 has a mounting cover 13. A water-sealing ball 12 is disposed inside the water outlet structure 11, and the water-sealing ball 12 can block the water outlet 14 of the water outlet structure 11. The first magnetic element 2 is installed inside the water-sealing ball 12; the second magnetic element 3 is installed on the mounting cover 13, and the second magnetic element 3 is opposite to the first magnetic element 2. The rotating component 4 is mounted on the mounting cover 13 and is used to rotate the second magnetic component 3. When the rotating component 4 rotates the second magnetic component 3 to the first position, the magnetism of the first magnetic component 2 is the same as that of the second magnetic component 3, and the water-sealing ball 12 blocks the water outlet 14. When the rotating component 4 rotates the second magnetic component 3 to the second position, the magnetism of the first magnetic component 2 is different from that of the second magnetic component 3, and the water-sealing ball 12 separates from the water outlet 14.
[0047] It should be noted that the rotary magnetic water filter can be combined with the kettle body 6 to form a teapot. Tea can be brewed in the filter chamber 1 of the rotary magnetic water filter, and the brewed tea can flow into the kettle body 6 through the water outlet 14 of the water outlet structure 11. In this embodiment, the water-sealing ball 12 can block the water outlet 14 of the water outlet structure 11. The first magnetic component 2 is installed inside the water-sealing ball 12, and the second magnetic component 3 is installed on the mounting cover 13. The second magnetic component 3 is arranged opposite to the first magnetic component 2. The rotating component 4 can drive the second magnetic component 3 to rotate, thereby changing the magnetic attraction of the second magnetic component 3 towards the first magnetic component 2; for example... Figure 7-9 As shown, when the rotating component 4 rotates the second magnetic component 3 to the first position, that is, the magnetism of the first magnetic component 2 is the same as that of the second magnetic component 3, the first magnetic component 2 and the second magnetic component 3 are the same and repel each other. At this time, the first magnetic component 2 has a force that moves away from the second magnetic component 3. Under the action of this force, the water-sealing ball 12 blocks the water outlet 14 of the water outlet structure 11; as Figure 10-12As shown, when the rotating component 4 rotates the second magnetic component 3 to the second position, that is, the magnetism of the first magnetic component 2 and the second magnetic component 3 are different, the first magnetic component 2 and the second magnetic component 3 are different and want to attract each other. At this time, the first magnetic component 2 has a force facing the second magnetic component 3. Under the action of this force, the water sealing ball 12 cannot block the water outlet 14 of the water outlet structure 11, that is, there is a channel for water to flow between the water sealing ball 12 and the water outlet 14. In other words, when brewing tea, the second magnetic element 3 is rotated to the first position by the rotating component 4. At this time, the water-sealing ball 12 blocks the water outlet 14 of the water outlet structure 11, allowing tea to be brewed in the water filter chamber 1. When pouring tea into the pot body 6, the second magnetic element 3 is rotated to the second position by the rotating component 4. At this time, there is a water-flowing channel between the water-sealing ball 12 and the water outlet 14, allowing the brewed tea to flow into the pot body 6. This rotary magnetic water filter uses the rotating component 4 to rotate the second magnetic element 3, utilizing the magnetic relationship between the first magnetic element 2 and the second magnetic element 3 to seal or open the water outlet 14 with the water-sealing ball 12. It eliminates the need for a lever mechanism, has a simple structure, is easy to operate, and greatly improves the applicability of the rotary magnetic water filter.
[0048] like Figure 9 , 12 As shown in Figure 13, the water outlet structure 11 includes a water sealing cap 111 and a water sealing cover 112; the bottom of the water filter chamber 1 is provided with an installation hole 15, the water sealing cap 111 is installed in the installation hole 15, the water sealing cover 112 covers the top of the water sealing cap 111, and the water sealing cover 112 is provided with a plurality of water filtering holes 1121; the bottom of the water sealing cap 111 is provided with the water outlet 14, the bottom of the water sealing ball 12 has a water sealing part 121 adapted to the water outlet 14, the water sealing ball 12 is provided with an installation cavity 122, and the first magnetic suction member 2 is installed in the installation cavity 122.
[0049] In this embodiment, the bottom of the filter chamber 1 is provided with an installation hole 15, and the water sealing cap 111 is installed in the installation hole 15. One part of the water sealing cap 111 is located inside the filter chamber 1, and another part of the water sealing cap 111 is located outside the filter chamber 1. The water sealing cover 112 covers the top of the water sealing cap 111. The water sealing cover 112 is provided with a plurality of water filtering holes 1121. The bottom of the water sealing cap 111 is provided with a water outlet 14, and the bottom of the water sealing ball 12 is connected to the water outlet 14. The matching water sealing part 121, when the water sealing part 121 at the bottom of the water sealing ball 12 blocks the water outlet 14, is in the tea brewing state. When the water sealing part 121 does not block the water outlet 14, it is in the tea pouring state. The tea water enters the water sealing cap 111 through the water filter hole 1121 of the water sealing cap 112, and then flows into the pot body 6 through the water outlet 14 at the bottom of the water sealing cap 111. The tea leaves are blocked in the water filter chamber 1 by the water filter hole 1121, thus realizing the function of pouring out the brewed tea water.
[0050] like Figure 9 , 12 As shown in Figure 13, the water-sealing cap 111 includes a base 1111 and a connecting seat 1112; the base 1111 is located below the mounting hole 15, and the connecting seat 1112 is located above the mounting hole 15. The bottom of the connecting seat 1112 passes through the mounting hole 15 and is threadedly connected to the base 1111; the interiors of the base 1111 and the connecting seat 1112 enclose a receiving cavity 1113, the water-sealing ball 12 is disposed in the receiving cavity 1113, and the bottom of the base 1111 is provided with the water outlet 14.
[0051] In this embodiment, the base 1111 is located below the mounting hole 15, and the connecting seat 1112 is located above the mounting hole 15. That is, the base 1111 is located outside the water filter chamber 1, and the connecting seat 1112 is located inside the water filter chamber 1. The bottom of the connecting seat 1112 passes through the mounting hole 15 and is threadedly connected to the base 1111. Specifically, the bottom of the connecting seat 1112 has an external thread, and the interior of the base 1111 has an internal thread that matches the external thread, thereby realizing the threaded connection between the connecting seat 1112 and the base 1111 to form a water-sealing cap 111. The interiors of the base 1111 and the connecting seat 1112 enclose a receiving cavity 1113, and the water-sealing ball 12 is disposed in the receiving cavity 1113. The bottom of the base 1111 is provided with a water outlet 14. The water-sealing ball 12 can block or open the water outlet 14 through the magnetic relationship between the first magnetic suction member 2 and the second magnetic suction member 3, thereby realizing the tea-making or tea-pouring function of the rotary magnetic suction water filter.
[0052] like Figure 9 and 12As shown, the water sealing cap 111 also includes a sealing ring 1114, which is sleeved on the bottom of the connecting seat 1112 and is located between the bottom of the water filter chamber 1 and the top of the base 1111.
[0053] In this embodiment, the sealing ring 1114 is fitted onto the bottom of the connecting seat 1112, and the sealing ring 1114 is located between the bottom of the water filter chamber 1 and the top of the base 1111. The sealing ring 1114 ensures that the connection between the connecting seat 1112 and the base 1111 is tight, effectively preventing water from seeping out from the connection gap between the connecting seat 1112 and the base 1111.
[0054] like Figure 9 and 12 As shown, the first magnetic suction member 2 includes a first magnet 21, which is installed in the mounting cavity 122.
[0055] like Figure 8 and 11 As shown, the mounting cover 13 includes a base plate 131 and a cover plate 132, which together form a cavity 133. The second magnetic suction member 3 is mounted on the base plate 131, and the rotating member 4 is mounted on the cover plate 132.
[0056] In this embodiment, the base plate 131 and the cover plate 132 enclose to form a cavity 133, which facilitates the installation of the first magnetic suction component 2. The base plate 131 and the cover plate 132 are connected to form a mounting cover 13, which covers the upper opening of the water filter chamber 1, ensuring the integrity and aesthetics of the rotary magnetic water filter.
[0057] like Figure 8 and 11 As shown, the second magnetic suction component 3 includes a fixing frame 31, a magnet frame 32, and a second magnet 33; the fixing frame 31 is fixedly connected to the base plate 131, the magnet frame 32 includes a mounting groove 321 and a rotating shaft 322 disposed on the mounting groove 321, the rotating shaft 322 is rotatably connected to the fixing frame 31, the second magnet 33 is installed in the mounting groove 321, and the second magnet 33 is correspondingly disposed to the first magnet 21; the rotating component 4 is drively connected to the rotating shaft 322.
[0058] In this embodiment, the fixing frame 31 is fixedly connected to the base plate 131, the rotating shaft 322 is rotatably connected to the fixing frame 31, and the second magnet 33 is installed in the mounting groove 321. The second magnet 33 is correspondingly arranged with the first magnet 21. When the rotating member 4 can rotate the first magnet 21 along the rotating shaft 322, and rotate the second magnet 33 to the first position, the second magnet 33 and the first magnet 21 have the same magnetism. When the second magnet 33 is rotated to the second position, the second magnet 33 and the first magnet 21 have different magnetisms.
[0059] like Figure 8 and 11 As shown, the rotating component 4 includes a knob 41, a first bevel gear 42, and a second bevel gear 43; the cover plate 132 has a rotating hole 1321, and the knob 41 is rotatably connected to the rotating hole 1321; the first bevel gear 42 is located in the cavity 133, and the first bevel gear 42 is fixedly connected to the bottom of the knob 41; the second bevel gear 43 is located in the cavity 133, and the second bevel gear 43 is mounted on the rotating shaft 322; the first bevel gear 42 and the second bevel gear 43 mesh with each other.
[0060] In this embodiment, the first bevel gear 42 is located inside the cavity 133 and is fixedly connected to the bottom of the knob 41, meaning the first bevel gear 42 can rotate as the knob 41 rotates. The second bevel gear 43 is located inside the cavity 133, and the rotating shaft 322 extends outside the fixed frame 31. The second bevel gear 43 is mounted on the rotating shaft 322, and the first bevel gear 42 and the second bevel gear 43 mesh. Specifically, the central axis of the first vertical gear is perpendicular to the central axis of the second bevel gear 43, and the tooth ratio of the first bevel gear 42 to the second bevel gear 43 is 2:1. That is, when the knob 41 rotates... The knob 41 rotates 90 degrees, causing the first bevel gear 42 to rotate 90 degrees, which in turn causes the second vertical gear to rotate 180 degrees. When the second magnet 33 is in the first position, the first magnet 21 and the second magnet 33 have the same magnetism, and the water-sealing ball 12 blocks the water outlet 14. When the knob 41 rotates 90 degrees, the second bevel gear 43 rotates 180 degrees, and the second bevel gear 43 causes the rotating shaft 322 to rotate 180 degrees. At this time, the second magnet 33 is flipped 180 degrees relative to the first position and is in the second position. The first magnet 21 and the second magnet 33 have different magnetisms, and the water-sealing ball 12 separates from the water outlet 14.
[0061] like Figure 8 and 11As shown, the rotary magnetic water filter also includes a limiting component 5, which includes a limiting frame 51 and a limiting block 52. The limiting frame 51 is fixedly connected to the base plate 131, one end of the limiting block 52 is fixedly connected to the limiting frame 51, and the other end of the limiting block 52 is located on the side of the second bevel gear 43 away from the second magnet 33, so as to limit the second bevel gear 43.
[0062] In this embodiment, by fixing the limiting frame 51 to the base plate 131, fixing one end of the limiting block 52 to the limiting frame 51, and fixing the other end of the limiting block 52 to the side of the second bevel gear 43 away from the second magnet 33, the second bevel gear 43 is limited to prevent it from falling off.
[0063] Example 2:
[0064] like Figure 1-3 As shown, this embodiment provides a kettle, including a kettle body 6, a rotary magnetic water filter as described in Embodiment 1, and a handle 7; the rotary magnetic water filter is installed at the opening of the kettle body 6; the handle 7 is installed on the kettle body 6.
[0065] In this embodiment, using the rotary magnetic water filter of Embodiment 1, the magnetic relationship between the first magnetic component 2 and the second magnetic component 3 can be used to seal or open the water outlet 14 of the rotary magnetic water filter by the sealing ball 12. When it is time to brew tea, the second magnetic component 3 is rotated to the first position, and the water outlet 14 is sealed by the sealing ball 12, allowing tea to be brewed in the water filter chamber 1. When it is time to pour the brewed tea into the pot body 6, the second magnetic component 3 is rotated to the second position, and the brewed tea flows into the pot body 6 through the water outlet 14. Then, the tea in the pot body 6 is poured into the teacup through the handle 7, completing the tea brewing process and greatly improving the convenience of tea brewing.
[0066] like Figure 3 and 5 As shown, a pressure groove 61 is provided at the pouring spout of the kettle body 6, and the pressure groove 61 is inclined toward the bottom of the kettle body 6.
[0067] In this embodiment, a pressure groove 61 is provided at the pouring spout of the pot body 6. The pressure groove 61 is inclined toward the bottom of the pot body 6. When it is necessary to pour tea, the pressure groove 61 can effectively increase the water output, making it convenient for the user to pour tea.
[0068] The above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although the utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of this technical solution, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.
Claims
1. A rotary magnetic water filter, characterized in that, include: A water filter chamber (1) is provided with a water outlet structure (11) at the bottom and an installation cover (13) at the top. A water sealing ball (12) is provided inside the water outlet structure (11) and the water sealing ball (12) can block the water outlet (14) of the water outlet structure (11). The first magnetic suction element (2) is installed inside the water-sealing ball (12); The second magnetic suction member (3) is mounted on the mounting cover (13) and is disposed opposite to the first magnetic suction member (2); Rotating component (4), which is mounted on the mounting cover (13), is used to rotate the second magnetic component (3); When the rotating member (4) rotates the second magnetic member (3) to the first position, the magnetism of the first magnetic member (2) is the same as that of the second magnetic member (3), and the water-sealing ball (12) blocks the water outlet (14); when the rotating member (4) rotates the second magnetic member (3) to the second position, the magnetism of the first magnetic member (2) is different from that of the second magnetic member (3), and the water-sealing ball (12) separates from the water outlet (14).
2. The rotary magnetic water filter according to claim 1, characterized in that, The water outlet structure (11) includes a water sealing cap (111) and a water sealing cover (112); the bottom of the filter chamber (1) is provided with an installation hole (15), the water sealing cap (111) is installed in the installation hole (15), the water sealing cover (112) covers the top of the water sealing cap (111), and the water sealing cover (112) is provided with a plurality of water filtering holes (1121); the bottom of the water sealing cap (111) is provided with the water outlet (14), the bottom of the water sealing ball (12) has a water sealing part (121) adapted to the water outlet (14), the water sealing ball (12) is provided with an installation cavity (122), and the first magnetic suction member (2) is installed in the installation cavity (122).
3. The rotary magnetic water filter according to claim 2, characterized in that, The water-sealing cap (111) includes a base (1111) and a connecting seat (1112); the base (1111) is located below the mounting hole (15), the connecting seat (1112) is located above the mounting hole (15), the bottom of the connecting seat (1112) passes through the mounting hole (15) and is threadedly connected to the base (1111); the interior of the base (1111) and the connecting seat (1112) encloses to form a receiving cavity (1113), the water-sealing ball (12) is disposed in the receiving cavity (1113), and the bottom of the base (1111) is provided with the water outlet (14).
4. The rotary magnetic water filter according to claim 3, characterized in that, The water-sealing cap (111) also includes a sealing ring (1114), which is fitted onto the bottom of the connecting seat (1112) and is located between the bottom of the filter chamber (1) and the top of the base (1111).
5. The rotary magnetic water filter according to any one of claims 2-4, characterized in that, The first magnetic suction member (2) includes a first magnet (21), which is installed in the mounting cavity (122).
6. The rotary magnetic water filter according to claim 5, characterized in that, The mounting cover (13) includes a base plate (131) and a cover plate (132). The base plate (131) and the cover plate (132) enclose a cavity (133). The second magnetic suction member (3) is mounted on the base plate (131), and the rotating member (4) is mounted on the cover plate (132).
7. The rotary magnetic water filter according to claim 6, characterized in that, The second magnetic suction component (3) includes a fixing frame (31), a magnet frame (32), and a second magnet (33); the fixing frame (31) is fixedly connected to the base plate (131), the magnet frame (32) includes a mounting groove (321) and a rotating shaft (322) disposed on the mounting groove (321), the rotating shaft (322) is rotatably connected to the fixing frame (31), the second magnet (33) is installed in the mounting groove (321), and the second magnet (33) is correspondingly disposed to the first magnet (21); the rotating component (4) is drivenly connected to the rotating shaft (322).
8. The rotary magnetic water filter according to claim 7, characterized in that, The rotating component (4) includes a knob (41), a first bevel gear (42), and a second bevel gear (43); a rotating hole (1321) is provided on the cover plate (132), and the knob (41) is rotatably connected to the rotating hole (1321); the first bevel gear (42) is located in the cavity (133), and the first bevel gear (42) is fixedly connected to the bottom of the knob (41); the second bevel gear (43) is located in the cavity (133), and the second bevel gear (43) is mounted on the rotating shaft (322); the first bevel gear (42) and the second bevel gear (43) mesh with each other.
9. The rotary magnetic water filter according to claim 8, characterized in that, The rotary magnetic water filter also includes a limiting component (5), which includes a limiting frame (51) and a limiting block (52). The limiting frame (51) is fixedly connected to the base plate (131), and one end of the limiting block (52) is fixedly connected to the limiting frame (51). The other end of the limiting block (52) is located on the side of the second bevel gear (43) away from the second magnet (33) to limit the second bevel gear (43).
10. A kettle, characterized in that, include: Pot body (6); The rotary magnetic water filter according to any one of claims 1-9, wherein the rotary magnetic water filter is installed at the opening of the kettle body (6); A handle (7) is mounted on the kettle body (6).
11. The kettle according to claim 10, characterized in that, A pressure groove (61) is provided at the pouring spout of the kettle body (6), and the pressure groove (61) is inclined toward the bottom of the kettle body (6).