CN113287923A

CN113287923A - Magnetic control type cup cover and water cup

Info

Publication number: CN113287923A
Application number: CN202110646397.1A
Authority: CN
Inventors: 龚柱
Original assignee: Jinjiang Sanjing Gude Industrial Design Co ltd
Current assignee: Zhejiang Yunuo Industry And Trade Co ltd
Priority date: 2020-06-15
Filing date: 2021-06-10
Publication date: 2021-08-24
Anticipated expiration: 2041-06-10
Also published as: CN113287923B

Abstract

The invention belongs to the field of water cups, and particularly relates to a magnetic control type cup cover which comprises a first seat body, a sealing gasket, a sleeve, a first magnet, a second seat body, a support, a first gear, a second gear, a rack, a connecting rod and a third seat body, wherein the sleeve is partially wrapped on the first seat body, the second seat body is used for accommodating and fixing the first magnet, the support is rotationally connected with the second seat body, the first gear is connected with the second seat body, the second gear is meshed with the first gear, the rack is meshed with the second gear, the connecting rod enables the rack to slide, the third seat body is coaxially rotationally connected with the third seat body which enables the connecting rod to rotate, the third seat body rotates relative to the sleeve under the action of external force, magnetic lines of force in the first magnet are always perpendicular to the axis of the first gear and the axis of the second gear, and the support is fixedly connected with the first seat body. The invention also discloses a water cup comprising the cup cover. The invention changes the magnetic pole through the rotation of the third seat body, so that the fixed magnetic pole in the cup body is under the action of the attraction or the repulsion of the first magnet in the cup cover, and further the opening or the closing of the valve in the cup body is realized, thereby realizing the separation and the isolation of the tea and the water.

Description

Magnetic control type cup cover and water cup

Technical Field

The invention belongs to the field of water cups, and particularly relates to a magnetic control type cup cover for a water cup.

Background

In the field of water cups, in particular for making tea, such as business cups, cups usually have a cup body and a cup cover, wherein a movable filter screen is arranged in the cup body, tea leaves are placed in the cup body, the tea leaves are retained in the cup body by the filter screen, and tea water is poured into a drinking vessel or directly drunk through the filter screen. Because part of tea is not suitable for long-time soaking, the tea needs to be placed on a filter screen, then the tea is brewed by boiled water, tea water enters a cup body, the tea leaves are kept on the filter screen, and when the tea water needs to be drunk, the filter screen is lifted out of the cup body and placed at a proper position, and then the tea water is poured into a drinking vessel or directly drunk. Such a tea making method may be suitable for use in a fixed location, where the filter screen needs to be placed back into the cup body and the cup cover screwed together when the tea making device needs to be carried around, and where the tea leaves in the cup are re-soaked with tea water when the cup is in a non-upright state, such as an inclined or flat state. In order to prevent tea leaves from being soaked again by tea water when the water cup is carried about, the water cup with the tea water separated is designed, the water cup is provided with a tea leaf bin, a tea water bin and a cup cover, the tea leaf bin and the tea water bin are isolated through a valve, after the tea leaves are well brewed in the tea leaf bin, the tea water enters the tea water bin by opening the valve, the valve is closed after the tea water completely enters the tea water bin, and then the tea leaves are isolated from the water to be prevented from being soaked again.

Disclosure of Invention

The invention aims to provide a magnetic control type cup cover, which enables a valve between a tea leaf bin and a tea water bin to be opened or closed through magnetic pole transformation inside the cup cover.

Therefore, the invention provides a magnetic control type cup cover, which comprises a first seat body in threaded fit with the mouth part of a water cup, a sealing gasket arranged between the first seat body and the mouth part of the water cup, a sleeve partially wrapping the first seat body, a first magnet, a second seat body receiving and fixing the first magnet, the magnetic force line in the first magnet is always vertical to the axis of the first gear and the axis of the second gear, and the bracket is fixedly connected with the first seat body.

The invention also aims to provide a magnetic control type water cup, which enables a valve between a tea leaf bin and a tea water bin to be opened or closed through magnetic pole transformation inside a cup cover.

Therefore, the invention provides a magnetic control type water cup which comprises a cup body and a cup cover, wherein a tea leaf bin, a tea water bin and a valve arranged between the tea leaf bin and the tea water bin are arranged in the cup body. The cup cover comprises a first seat body in threaded fit with the mouth of the water cup, a sealing gasket arranged between the first seat body and the mouth of the water cup, a sleeve partially wrapping the first seat body, a first magnet, a second seat body receiving and fixing the first magnet, a support in rotary connection with the second seat body, a first gear which is connected to the second seat body and enables the second seat body to drive the first magnet to overturn, a second gear which is connected to the support in a rotary mode and is meshed with the first gear, a rack which is connected to the support in a sliding mode and is meshed with the second gear, a connecting rod which is connected to the support in a rotary mode and enables the rack to slide and a third seat body which is connected to the sleeve in a coaxial rotary mode and enables the connecting rod to rotate, the third seat body rotates relative to the sleeve under the action of external force, magnetic lines inside the first magnet are perpendicular to the axis of the first gear and the axis of the second gear all the time, and the support is connected with the first seat body in a fastening mode.

Advantageous effects

1. The magnetic poles are changed through the rotation of the sleeve, so that the fixed magnetic poles in the cup body are under the action of attractive force or repulsive force of the first magnet in the cup cover, and then a valve in the cup body is opened or closed, and therefore tea leaves are separated from tea water.

2. Because the magnetic force lines in the first magnet are always perpendicular to the axis of the first gear and the axis of the second gear, under the meshing transmission action of the first gear and the second gear, the first magnet can turn over around the axis of the first shaft of the second seat body under the turning over of the second seat body, and further the change of the magnetic poles is realized.

3. Because the change of the magnetic pole is caused by the overturn of the first magnet of the cup cover, and the magnetic pole of the first magnet fixedly connected with the valve is kept unchanged, when the magnetic pole of the cup cover is different from the magnetic pole of the valve, the valve is under the action of attractive force, the valve is opened, and the tea leaves are separated from the tea water. When the magnetic pole of the cup cover is the same as that of the valve, the valve is under the action of repulsion force, the valve is closed, and the tea leaves are isolated from the tea water.

4. Due to the limiting effect of the connecting rod on the second stand column and the third stand column, when the third seat drives the connecting rod to rotate to the limit position, the magnetic pole surface is always parallel to the plane of the opening part of the water cup, and the maximization of the magnetic force effect between the cup cover and the valve is realized.

5. Because the second seat body for fixing the first magnet is designed in an open manner, the magnetic force loss between the cup cover and the valve is reduced.

6. Because the end cover adopts transparent material, consequently at the in-process of artificial rotation third pedestal, the action process of first magnet upset can demonstrate out directly perceivedly, has increased the interactive between user and the bowl cover, can alleviate some users' vexation mood on the way of traveling.

7. Because a plurality of third hook portions adopt intermittent distribution, when the third seat body is inserted into the sleeve, the third hook portions can be properly deformed so as to realize smooth buckling of the third hook portions and the third grooves.

8. Because the limiting effect of second stand and third stand to the connecting rod and the design of first pedestal embedding support for clockwise rotation third pedestal can fasten the bowl cover in the screw thread department of cup oral area, makes anticlockwise rotation third pedestal can revolve the bowl cover from the screw thread department of cup oral area.

9. Tea leaves in the tea leaf bin are kept in the tea leaf bin under the filtering action of the filter element, tea water made in the tea leaf bin enters the tea water bin through the valve in the filter element, and finally the tea water in the tea water bin can be poured out conveniently for drinking by withdrawing the second cup cover.

Drawings

The invention and its advantages will be better understood in the following description of embodiments given as non-limiting examples with reference to the accompanying drawings, in which:

FIG. 1 is a perspective view of a lid of a magnetron cup disclosed in accordance with an exemplary embodiment of the present application;

FIG. 2 is an assembled perspective view of the first magnet, the second base and the first gear;

FIG. 3 is a cutaway perspective view of the lid with the first magnet in a first state;

FIG. 4 is a cut-away perspective view of the lid with the first magnet in a second state;

FIG. 5 is a cut-away perspective view of another position of the lid;

FIG. 6 is a partial enlarged view at B in FIG. 5;

FIG. 7 is a perspective view of the lid, with the third receptacle not shown;

FIG. 8 is a perspective view of a portion of the interior of the lid with the first magnet in a first state;

FIG. 9 is a perspective view of a portion of the interior of the lid with the first magnet in a first state to a second state;

FIG. 10 is a perspective view of a portion of the interior of the lid with the first magnet in a second state;

FIG. 11 is a perspective view of a drive structure inside the lid with the first magnet in a first state;

FIG. 12 is a perspective view of a drive structure inside the lid with the first magnet in a second state;

FIG. 13 is an exploded perspective view of the lid;

fig. 14 is a perspective view of the first magnet, the second base and the first gear;

FIG. 15 is a perspective view of FIG. 14 from another perspective;

FIG. 16 is an enlarged view of a portion of FIG. 4 at A;

FIG. 17 is an exploded perspective view of the first housing and the sleeve;

FIG. 18 is a perspective view of the link;

fig. 19 is a perspective view of the cartridge;

FIG. 20 is a sectional perspective view of a magnetic cup according to the first embodiment of the disclosure, wherein the first magnet is in a second state and the valve is in an open state;

FIG. 21 is a cutaway perspective view of a magnetic cup in accordance with the first embodiment of the disclosure, wherein the first magnet is in a first state and the valve is in a closed state;

FIG. 22 is a perspective view of the rack engaged with the bracket;

FIG. 23 is a cutaway perspective view of a magnetron cup disclosed in accordance with an exemplary embodiment of the present application, with the filter cartridge not shown;

fig. 24 is an exploded perspective view of the cartridge of fig. 21;

FIG. 25 is a cut-away perspective view of a cup disclosed in accordance with an exemplary embodiment of the present application;

fig. 26 is a sectional perspective view of the magnetic cup disclosed in the second embodiment, in which the first magnet is in the second state and the valve is in the open state;

fig. 27 is a sectional perspective view of the magnetic cup disclosed in the second embodiment, in which the first magnet is in the first state and the valve is in the closed state.

Description of the reference numerals

1. A first cup cover; a first seat body; 3, sealing gaskets;

4. sleeving; a first magnet; 6, a second seat body;

7. a support; a first gear; 9. a second gear;

10. a rack; a connecting rod; 12. a third seat;

13. a first vertical wall; a second vertical wall; a first groove;

16. a first hook portion; a first shaft; a second shaft;

19. a second hook portion; a third vertical wall; a fourth standing wall;

22. a second groove; a first upright; a fifth upright wall;

25. a second upright post; a third column; a fourth column;

28. a strip hole; a first via hole; a second via hole;

31. a fifth column; a sixth standing wall; a third groove;

34. a third hook portion; a first pit; a first boss;

37. a second boss; a projection; an end cap;

40. a sleeve; a second pit; a third boss;

43. a tea leaf bin; a tea water bin; 45. a filter element;

46. mounting a plate; a support plate; 48, a support column;

49. a support frame; a second magnet; a valve;

52. a nut; 53. a fourth boss; a first flange;

55. a third through hole; 56. a second flange; a fourth via hole;

58. a fifth through hole; a third flange; a fourth groove;

61. a second cup cover; and 62, sealing rings.

Detailed Description

Implementation mode one

Referring to fig. 21, a water cup according to an aspect of the present invention is described, which has a cup body, a cup cover and a filter element 45 disposed in the cup body, wherein a tea leaf bin 43 and a tea water bin 44 are disposed in the cup body, the filter element 45 is disposed between the tea leaf bin 43 and the tea water bin 44, a valve 51 is disposed in the filter element 45, and the valve 51 is used for isolating or communicating the tea leaf bin 43 and the tea water bin 44. When the valve 51 is in a closed state, the tea leaf chamber 43 is isolated from the tea water chamber 44, and when the valve 51 is in an open state, the tea leaf chamber 43 is communicated with the tea water chamber 44, and the tea water brewed in the tea leaf chamber 43 enters the tea water chamber 44 through the filter screen, as shown in fig. 20 and 21.

After the cup cover is matched with the cup body and screwed, the third seat body 12 arranged at the end part of the cup cover can rotate relative to the cup cover, the third seat body 12 has a rotation amount within a certain angle range, such as a first rotation angle and a second rotation angle, in the embodiment, the first rotation angle is set to be 0 degree, and the second rotation angle is set to be 45 degrees. During the rotation of the third seat 12 in the range of 0-45 degrees, the valve 51 is correspondingly switched between the closed state and the open state. When the third seat 12 is at 0 degree, the valve 51 is closed; when the third seat 12 is at 45 degrees, the valve 51 is open. When the third base 12 is rotated clockwise at 45 degrees, the cup cover can be screwed on the thread of the cup opening. When the third seat 12 is at 0 degree, the third seat 12 is rotated counterclockwise, so that the cup cover can be delivered and removed from the cup body.

Referring to fig. 1, the cup lid disclosed in this embodiment includes a first seat 2, a sealing gasket 3, a sleeve 4 and a third seat 12, the first seat 2 is in threaded fit with the mouth of the cup, the sealing gasket 3 is used for airtight connection between the first seat 2 and the mouth of the cup, the sleeve 4 partially wraps the first seat 2, and the sleeve 4 is fixedly fitted with the first seat 2. The third seat body 12 is rotatably connected with the sleeve 4, and the third seat body 12 coaxially rotates relative to the sleeve 4 under the action of external force.

Referring to fig. 3, the first receiving body 2 has a first side portion coupled to the cup and a second side portion coupled to the third receiving body 12. The part of the first seat body 2, which is connected with the mouth of the cup, extends coaxially towards the inner cavity of the cup to form a protrusion 38, i.e. the protrusion 38 is arranged at the first side part of the first seat body 2, and the sealing gasket 3 is arranged around the root part of the protrusion 38. As shown in fig. 13, the cup lid disclosed in this embodiment further includes a first magnet 5, a second seat 6, a bracket 7, a first gear 8, a second gear 9, a rack 10, a link 11, a sleeve 4, and an end cover 39. Referring to fig. 3, the second seat 6 receives the first magnet 5 and is fixedly coupled to the first magnet 5, the second seat 6 is rotatably coupled to the bracket 7, the first gear 8 is coupled to the second seat 6, the first gear 8 rotates the second seat 6 to turn, the second gear 9 is rotatably coupled to the bracket 7 and is engaged with the first gear 8, the rack 10 is slidably coupled to the bracket 7 and is engaged with the second gear 9, the link 11 is rotatably coupled to the bracket 7 to slide the rack 10, the third seat 12 is coaxially and rotatably coupled to the sleeve 4, and the link 11 is rotated by the third seat 12. The support 7 is arranged between the first seat body 2 and the third seat body 12, the support 7 is tightly connected with the first seat body 2, the sleeve 4 is arranged between the support 7 and the protruding part 38 of the first seat body 2, the support 7 is attached to the sleeve 4 and supports the sleeve 4, the sleeve 4 is coaxially arranged inside the protruding part 38, the end cover 39 is arranged between the protruding part 38 of the first seat body 2 and the sleeve 4, the end cover 39 and the protruding part 38 are coaxially arranged and extend to protrude towards the inner cavity of the water cup, the support 7 axially extrudes the sleeve 4 to enable the sleeve 4 to axially extrude the end cover 39, and the end cover 39 is closely attached to the protruding part 38 of the first seat body 2. The first magnet 5, the second seat 6, the first gear 8 and the second gear 9 are arranged in a cavity formed by the end cover 39, the sleeve 4 and the bracket 7, and the third seat 12 rotates relative to the sleeve 4 under the action of external force.

Specifically, the holder 7 has a disk structure, and the holder 7 is provided symmetrically in its axial direction toward the cup side with a first standing wall 13 and a second standing wall 14 parallel to each other, as shown in fig. 8. The bracket 7 is provided with a third standing wall 20 and a fourth standing wall 21 parallel to each other on opposite sides of the root of the first standing wall 13, as shown in fig. 22. A second recess 22 for partially receiving the second gear 9 is provided between the third standing wall 20 and the fourth standing wall 21, as shown in fig. 5. The outer peripheral surface of the bracket 7 is provided with a plurality of second recesses 41 radially inward, and the plurality of second recesses 41 are uniformly distributed.

Referring to fig. 2, the second seat body 6 has a disc structure, the second seat body 6 is coaxially provided with a first groove 15, a first hook 16 is axially provided along the first groove 15, a first shaft 17 and a second shaft 18 are radially and outwardly provided along the first groove 15, the first shaft 17 and the second shaft 18 are coaxially provided and distributed on opposite sides of the second seat body 6, the first shaft 17 has a cross-sectional shape corresponding to the first gear 8, for example, the cross-sectional shape of the first shaft 17 is D-shaped, the shape of a hole through which the first gear 8 is matched with the first shaft 17 is also D-shaped, the transmission connection between the first gear 8 and the first shaft 17 is realized through the matching of the D-shaped shaft and the D-shaped hole, and the second seat body 6 is driven to turn by the first gear 8. The first groove 15 is matched with the shape of the first magnet 5, the first magnet 5 is accommodated in the first groove 15, and the first hook part 16 penetrates through the first magnet 5 and tightly couples the first magnet 5 in the first groove 15 through an expansion structure at the end part. The matching surface of the second seat 6 corresponding to the magnetic pole surface of the first magnet 5 has an open feature to display the magnetic pole surface, as shown in fig. 14 and 15, so as to reduce the magnetic force loss, the magnetic pole surface of the first magnet 5 is parallel to the axis of the first shaft 17, and the magnetic force lines inside the first magnet 5 are always perpendicular to the axis of the first gear 8 and the axis of the second gear 9.

Referring to fig. 12 and 10, the first shaft 17 of the second seat 6 is rotatably coupled to the first vertical wall 13 of the bracket 7, the second shaft 18 of the second seat 6 is rotatably coupled to the second vertical wall 14 of the bracket 7, the first shaft 17 is fixedly coupled to the first gear 8, the first gear 8 is located between the first vertical wall 13 and the first groove 15, and the second seat 6 is located between the first vertical wall 13 and the second vertical wall 14. The second gear 9 is coaxially provided with a second hook 19, and the second hook 19 is rotatably coupled with the first vertical wall 13. The rack 10 is located between the third standing wall 20 and the fourth standing wall 21, and as shown in fig. 22, the rack 10 slides relative to the third standing wall 20 and the fourth standing wall 21 by an external force. The rack 10 drives the second gear 9 to rotate through meshing transmission, the second gear 9 drives the first gear 8 to rotate, the first gear 8 drives the second seat body 6 to overturn, and the first magnet 5 overturns along with the second seat body 6, so that the magnetic pole change of the first magnet 5 is realized.

Referring to fig. 18, the link 11 has a sheet-like structure provided with a first through hole 29, a second through hole 30, and an elongated hole 28, the second through hole 30 being located between the first through hole 29 and the elongated hole 28, the elongated hole 28 having a first dimension which is a width-direction dimension of the elongated hole 28 and a second dimension which is a length-direction dimension of the elongated hole 28.

Referring to fig. 22, the bracket 7 is provided with a first upright 23 and a fifth upright 24 coaxially away from the cup side, the fifth upright 24 coaxially surrounds the first upright 23, and a second upright 25 and a third upright 26 are provided between the fifth upright 24 and the fourth upright 21. The rack 10 is provided with a fourth pillar 27 perpendicular to the teeth on the opposite side of the teeth. The first upright 23 is rotatably coupled with the link 11, the link 11 abuts against the second upright 25 or the third upright 26 during rotation, and the second upright 25 and the third upright 26 are used for limiting the rotation range of the link 11. The fourth pillar 27 is engaged with the elongated hole 28 of the link 11, the first size of the elongated hole 28 is identical to the diameter of the fourth pillar 27, the second size of the elongated hole 28 is larger than the diameter of the fourth pillar 27, and the elongated hole 28 of the link 11 pushes the fourth pillar 27 to slide the rack 10, as shown in fig. 7.

Referring to fig. 12, the third seat 12 includes a lateral surface, an edge of the lateral surface vertically extends to form a cylindrical surface, a sixth vertical wall 32 is disposed coaxially with the cylindrical surface at the middle of the lateral surface, a fifth vertical column 31 perpendicular to the lateral surface is disposed between the cylindrical surface and the sixth vertical wall 32, and a third groove 33 is disposed radially outward of the inner side of the cylindrical surface. The fifth upright 31 is in clearance fit with the second through hole 30 of the connecting rod 11 to realize the rotary connection between the fifth upright 31 and the second through hole 30, the fifth upright 31 drives the connecting rod 11 to rotate around the first upright 23 of the bracket 7, and the connecting rod 11 is positioned between the sixth upright wall 32 and the fifth upright wall 24 of the bracket 7 to slide, as shown in fig. 3 and 4.

Referring to fig. 3 and 7, a plurality of third hook portions 34 are vertically arranged on the end surface of the sleeve 4 joined with the third seat 12, and the plurality of third hook portions 34 are uniformly arranged. The insertion of the third hook 34 into the third groove 33 of the third seat 12 realizes the rotational coupling of the third seat 12 with respect to the sleeve 4, and due to the cooperation of the third hook 34 and the third groove 33, as shown in fig. 6, the third seat 12 and the sleeve 4 are not separated from each other.

Referring to fig. 17, a plurality of first recesses 35 are disposed on an axial joint surface of the sleeve 4 and the first seat 2, a plurality of first bosses 36 are disposed on an axial joint surface of the first seat 2 and the sleeve 4, and the first bosses 36 are inserted into the first recesses 35 to limit relative rotation between the first seat 2 and the sleeve 4. A plurality of second bosses 37 are radially and inwardly arranged on the inner cylindrical surface of the first seat body 2, the second bosses 37 are uniformly distributed, and the end surfaces, close to the cup mouths, of the second bosses 37 are attached to the support 7, as shown in fig. 16. The cylindrical surface of the first fastening structure 2 is provided with a plurality of third protrusions 42 radially inward, as shown in fig. 17, the plurality of third protrusions 42 are uniformly distributed, and the third protrusions 42 are embedded in the second recesses 41 of the bracket 7 to limit the relative rotation between the first fastening structure 2 and the bracket 7, as shown in fig. 7.

Because the first boss 36 is inserted into the first recess 35 to limit the relative rotation between the first seat 2 and the sleeve 4, the sleeve 4 can be rotated by an external force to drive the first seat 2 to rotate, and therefore, the sleeve 4 can be rotated clockwise to drive the first seat 2 to screw the cup lid on the screw thread of the opening of the cup body. When the cup cover needs to be separated from the cup body, the anticlockwise rotating sleeve 4 can drive the first seat body 2 to separate the cup cover from the thread of the opening of the cup body.

Referring to fig. 7, as shown in the drawing, the connecting rod 11 abuts against the third upright post 26, the third upright post 12 is rotated clockwise at this time, the fifth upright post 31 of the third upright post 12 drives the connecting rod 11 to rotate clockwise, and because the connecting rod 11 abuts against the third upright post 26, the connecting rod 11 applies an acting force to the third upright post 26 to enable the bracket 7 integrated with the third upright post 26 to rotate clockwise, and because the first seat body 2 is embedded into the second recess 41 of the bracket 7 through the third boss 42, the bracket 7 drives the first seat body 2 to rotate clockwise, so as to screw the lid on the thread of the opening of the cup body. When the cup cover needs to be separated from the cup body, the third seat body 12 rotates anticlockwise, the fifth upright post 31 of the third seat body 12 drives the connecting rod 11 to rotate anticlockwise until the connecting rod 11 abuts against the second upright post 25, the third seat body 12 continues to rotate anticlockwise, and the connecting rod 11 abuts against the second upright post 25, so that the connecting rod 11 applies acting force to the second upright post 25 to enable the support 7 integrally connected with the second upright post 25 to rotate anticlockwise, and the first seat body 2 is embedded into the second concave pit 41 of the support 7 through the third boss 42, so that the support 7 drives the first seat body 2 to rotate anticlockwise, and the cup cover is screwed off the thread of the opening of the cup body.

Referring to fig. 11 and 12, an external force is applied to rotate the third seat 12, the fifth upright column 31 drives the connecting rod 11 to rotate, the connecting rod 11 pushes the rack 10 to slide through the matching of the elongated hole 28 and the fourth upright column 27 of the rack 10, the rack 10 drives the second gear 9 to rotate through meshing transmission, the second gear 9 drives the first gear 8 to rotate through meshing transmission, the first gear 8 drives the second seat 6 to turn through transmission connection, and finally the first magnet 5 turns along with the second seat 6. When the third seat 12 is at the first rotation angle, the connecting rod 11 abuts against the second upright post 25, and the first magnet 5 is in the first state, i.e. the first magnetic pole of the first magnet 5 faces the bracket 7, and the second magnetic pole of the first magnet 5 faces the end cap 39. When the third seat 12 is located at the second rotation angle, the connecting rod 11 abuts against the third column 26, and the first magnet 5 is in the second state, that is, the first magnetic pole of the first magnet 5 faces the end cover 39, and the second magnetic pole of the first magnet 5 faces the bracket 7. In this embodiment, the first magnetic pole is set as an S pole, and the second magnetic pole is set as an N pole. When the third seat 12 rotates between the first rotation angle and the second rotation angle, the first magnet 5 turns over following the second seat 6, as shown in fig. 8, 9 and 10. In this embodiment, the end cap 39 is made of a transparent material, such as transparent plastic. In the process of artificially rotating the third seat body 12, the action process of the overturning of the first magnet 5 can be visually displayed, the interactivity between a user and the cup cover is increased, and the vexation of part of users in the process of traveling can be relieved.

Fig. 19 shows a filter element 45 disclosed in this embodiment, which is disposed between the tea water chamber 44 and the tea water chamber 43 of the cup, as shown in fig. 21, the filter element 45 filters the tea water brewed in the tea water chamber 43 into the tea water chamber 44 when appropriate, and isolates the tea water chamber 44 from the tea water chamber 43 when appropriate. Referring to fig. 24, the filter element 45 includes a mounting plate 46, a support plate 47, a support column 48, a support bracket 49, a valve 51, a second magnet 50, and a nut 52, and the support column 48 coaxially penetrates the support plate 47, the mounting plate 46, the valve 51, the second magnet 50, the support bracket 49, and the nut 52 in this order. The first end of the support column 48 is provided with a fourth boss 53, the fourth boss 53 abuts against the support plate 47, and the second end of the support column 48 tightly couples the support plate 47, the mounting plate 46 and the support bracket 49 through a nut 52. The end surface of the support frame 49, which is engaged with the nut 52, extends axially to form a cylindrical surface, one end of the cylindrical surface extends radially outward to form a first flange 54, and the cylindrical surface is provided with a plurality of third through holes 55 radially outward. The mounting plate 46 has a disk structure, the edge of the mounting plate 46 protrudes to both sides to form a second flange 56, and the mounting plate 46 is provided with three fourth through holes 57. The support plate 47 has a disk structure, three fifth through holes 58 are arranged along the axial direction of the support plate, the fifth through holes 58 and the fourth through holes 57 are coaxially arranged, and the support plate 47 is attached to the mounting plate 46. The supporting frame 49 and the supporting plate 47 are made of stainless steel, the mounting plate 46 is made of silicon rubber, the first flange 54 of the supporting frame 49 and the supporting plate 47 tightly clamp the mounting plate 46 through fastening of the nut 52, and the mounting plate 46 made of flexible material is in close contact with the first flange 54 of the supporting frame 49 under the support of the supporting plate 47. The cavity that support bracket 49 and mounting panel 46 enclose is used for holding valve 51 and second magnet 50, valve 51 covers the region that fourth through-hole 57 distributes, second magnet 50 and valve 51 fixed connection, second magnet 50 and valve 51 and support column 48 sliding fit, second magnet 50 drives valve 51 under the effect of magnetic force and slides along the axial of support column 48 between mounting panel 46 and support bracket 49, when valve 51 butt mounting panel 46, valve 51 keeps apart fourth through-hole 57 and the cavity of support bracket 49, under the support of backup pad 47, the extrusion of valve 51 can not cause the deformation of mounting panel 46, thereby keep airtight contact. When the valve 51 is removed from the mounting plate 46, the fourth aperture 57 communicates with the cavity of the support bracket 49.

Fig. 23 shows a cup without the filter element 45 mounted thereon, the cup being provided with a radially inward third flange 59 near the lid end of the cup, the third flange 59 being provided with a radially outward fourth groove 60, the fourth groove 60 being engaged with the second flange 56 of the mounting plate 46 of the filter element 45, the mounting plate 46 being made of a flexible material, such as silicone, and the second flange 56 being inserted into the fourth groove 60 to form a sealing contact therewith.

Referring to fig. 22, the third seat 12 of the cup cover is rotated to flip the first magnet 5, when the first magnet 5 is in the second state, the first magnet 5 is parallel to the second magnet 50, the second magnetic pole surface of the first magnet 5 is opposite to the magnetic pole surface of the second magnet 50, the two magnetic poles are opposite to each other, an attractive force is generated between the two magnetic poles, the second magnet 50 drives the valve 51 to slide toward the cup cover, the valve 51 is separated from the mounting plate 46 and is far away from the mounting plate 46, the fourth through hole 57 is communicated with the cavity of the supporting frame 49, the valve 51 is opened, tea water in the tea leaf bin 43 enters the cavity of the supporting frame 49 through the plurality of third through holes 55 on the cylindrical surface of the supporting frame 49, and then enters the tea water bin 44 through the fourth through hole 57 and the fifth through hole 58, as shown by the arrow in fig. 20.

Referring to fig. 21, the third seat 12 of the cup cover is rotated to turn the first magnet 5, when the first magnet 5 is in the first state, the first magnet 5 is parallel to the second magnet 50, the magnetic pole surface of the first magnet 5 is opposite to the magnetic pole surface of the second magnet 50, the magnetic poles of the first magnet 5 and the second magnet are the same, a repulsive force is generated between the first magnet 5 and the second magnet 50, the second magnet 50 drives the valve 51 to slide in a direction away from the cup cover, the valve 51 abuts against the mounting plate 46, the valve 51 covers the fourth through hole 57 to isolate the fourth through hole 57 from the cavity of the support frame 49, the valve 51 is closed, the tea water bin 44 is isolated from the tea leaf bin 43, and water in the tea water bin 44 cannot enter the tea leaf bin 43.

Second embodiment

Referring to fig. 26 and 27, the cup disclosed in this embodiment is additionally provided with a second lid 61 on the basis of the first embodiment, the lid in the first embodiment is used as the first lid 1, the first lid 1 is detachably coupled to the first end of the cup body through thread fitting, the second lid 61 is detachably coupled to the second end of the cup body through thread fitting, the second lid 61 comprises a lid body and a sealing ring 62, and the sealing coupling of the second lid 61 and the cup body is realized through the sealing ring 62. The filter element 45 is arranged between the first cup cover 1 and the second cup cover 61, the area formed between the filter element 45 and the first cup cover 1 forms the tea leaf bin 43, and the area formed between the filter element 45 and the second cup cover 61 is the tea water bin 44.

The first and second ends of the cup communicate the interior of the cup with the exterior and the wall connects the first and second ends as shown in fig. 25.

The tea making steps of the water cup disclosed in the embodiment are as follows.

Step 1, rotating the first cup cover 1 to separate the first cup cover 1 from the first end of the cup body.

Step 2, a suitable amount of tea leaves is placed into the tea bin 43 from the first end of the cup.

And step 3, placing the first cup cover 1 at the first end of the cup body, and then rotating the first cup cover 1 to fasten the first cup cover 1 at the first end of the cup body.

And 4, rotating the second cup cover 61 to separate the second cup cover 61 from the second end of the cup body.

And 5, rotating the third seat body 12 of the first cup cover 1 to enable the valve 51 in the filter element 45 to be in a closed state.

And 6, enabling the first end of the water cup to face downwards and the second end of the water cup to face upwards, and injecting a proper amount of boiled water into the tea water bin 44 from the second end.

And 7, placing the second cup cover 61 at the second end of the cup body, and then rotating the second cup cover 61 to fasten the second cup cover 61 at the second end of the cup body.

And 8, rotating the third seat body 12 of the first cup cover 1 to enable the valve 51 in the filter element 45 to be in an open state. Boiled water in the tea water bin 44 enters the tea bin 43 through the valve 51 under the action of gravity, and the tea is soaked by the boiled water.

And 9, turning over the water cup after the tea leaves are soaked for a proper time, enabling the first end of the water cup to face upwards and the second end of the water cup to face downwards, enabling the tea water soaked in the tea leaf bin 43 to enter the tea water bin 44 through the valve 51 under the action of gravity, and keeping the tea leaves in the tea leaf bin 43 under the action of the filter element 45.

Step 10, after the tea water in the tea leaf bin 43 completely enters the tea water bin 44, the third seat body 12 of the first cup cover 1 is rotated, so that the valve 51 in the filter element 45 is in a closed state, the tea water in the tea water bin 44 cannot enter the tea leaf bin 43 when the cup is placed at any angle, and the phenomenon that the tea leaves in the tea leaf bin 43 are soaked by the tea water for a long time is avoided.

Step 11, the tea water in the tea water bin 44 can be drunk after the second cup cover 61 is opened.

Claims

1. The utility model provides a magnetic control formula bowl cover, its includes with first pedestal (2) of drinking cup oral area screw-thread fit, set up sealed pad (3) and the cover (4) of partial parcel first pedestal (2) between first pedestal (2) and drinking cup oral area, its characterized in that, magnetic control formula bowl cover still includes first magnet (5), second pedestal (6) of admitting and fixed first magnet (5), rotates support (7) of hookup with second pedestal (6) and couples first gear (8) that second pedestal (6) made second pedestal (6) drive first magnet (5) upset.

2. The lid of claim 1, further comprising a second gear (9) rotatably coupled to the bracket (7) and engaged with the first gear (8), a rack (10) slidably coupled to the bracket (7) and engaged with the second gear (9), a link (11) rotatably coupled to the bracket (7) to slide the rack (10), and a third seat (12) coaxially rotatably coupled to the sleeve (4) to rotate the link (11), wherein the third seat (12) rotates relative to the sleeve (4) under an external force, magnetic lines of force inside the first magnet (5) are always perpendicular to an axis of the first gear (8) and an axis of the second gear (9), and the bracket (7) is fixedly coupled to the first seat (2).

3. The magnetic control type cup cover according to claim 2, characterized in that the bracket (7) is provided with a first vertical wall (13) and a second vertical wall (14) which are parallel to each other along the axial direction thereof, the second seat body (6) comprises a first groove (15) for accommodating the first magnet (5), a first hook (16) for fastening the first magnet (5) along the axial direction of the first groove (15), and a first shaft (17) and a second shaft (18) which are radially and outwardly provided along the first groove (15), the first shaft (17) and the second shaft (18) are coaxially provided, the first shaft (17) is rotatably coupled with the first vertical wall (13), the second shaft (18) is rotatably coupled with the second vertical wall (14), the first shaft (17) is fixedly coupled with the first gear (8), the first gear (8) is positioned between the first vertical wall (13) and the first groove (15), and the second gear (9) is coaxially provided with a second hook (19), the second hook (19) is rotatably connected with the first vertical wall (13), the bracket (7) is provided with a third vertical wall (20) and a fourth vertical wall (21) which are parallel to each other on the opposite sides of the root part of the first vertical wall (13), a second groove (22) for partially receiving the second gear (9) is arranged between the third vertical wall (20) and the fourth vertical wall (21), and the rack (10) is positioned between the third vertical wall (20) and the fourth vertical wall (21) to slide.

4. A lid for a magnetic controlled cup as claimed in claim 3, characterized in that the holder (7) is coaxially provided with a first upright (23) rotatably coupled to the rod (11), a fifth upright (24) coaxially surrounding the first upright (23), and a second upright (25) and a third upright (26) limiting the range of rotation of the rod (11), the rack (10) is provided with a fourth upright (27) on the opposite side of the tooth portion perpendicularly to the tooth portion, the fourth upright (27) is engaged with an elongated hole (28) provided in the rod (11), the first dimension of the elongated hole (28) is identical to the diameter of the fourth upright (27), the second dimension of the elongated hole (28) is larger than the diameter of the fourth upright (27), and the elongated hole (28) of the rod (11) pushes the fourth upright (27) to slide the rack (10).

5. The magnetic control type cup lid as claimed in claim 4, wherein the connecting rod (11) is further provided with a first through hole (29) rotatably engaged with the first pillar (23) of the bracket (7) and a second through hole (30) located between the first through hole (29) and the elongated hole (28), the second through hole (30) is in clearance fit with a fifth pillar (31) provided on the third seat (12), and the fifth pillar (31) drives the connecting rod (11) to rotate.

6. The magnetic control cup cover according to claim 2, characterized in that a third groove (33) is radially outwardly formed on the inner side of the cylindrical surface of the third seat body (12), a plurality of third hook portions (34) are vertically formed on the end surface of the sleeve (4) joined with the third seat body (12), the plurality of third hook portions (34) are uniformly distributed, and the third hook portions (34) are inserted into the third groove (33) to realize the rotational coupling of the third seat body (12) relative to the sleeve (4); a first concave pit (35) is formed in the axial joint face of the sleeve (4) and the first base body (2), a first boss (36) is formed in the axial joint face of the first base body (2) and the sleeve (4), the first boss (36) is inserted into the first concave pit (35) to limit the relative rotation of the first base body (2) and the sleeve (4), a plurality of second bosses (37) are radially and inwardly arranged on the inner cylindrical surface of the first base body (2), the plurality of second bosses (37) are uniformly distributed, and the end face, close to the cup opening, of each second boss (37) is attached to the support (7); a plurality of third bosses (42) are arranged on the inner cylindrical surface of the first seat body (2), and the third bosses (42) are partially embedded into the bracket (7).

7. The magnetic control type cup cover according to claim 2, wherein the portion, which is connected with the mouth of the cup, of the first seat (2) coaxially extends towards the inner cavity of the cup to form a protrusion (38), the protrusion (38) is coaxially provided with an end cover (39) extending towards the inner cavity of the cup, the end cover (39) is hermetically connected with the protrusion (38), a sleeve (4) for pressing the end cover (39) to enable the end cover (39) to be hermetically attached to the protrusion (38) is arranged between the end cover (39) and the bracket (7), and the bracket (7) is attached to the sleeve (4).

8. A magnetic control type water cup, which comprises a cup body and a cup cover, wherein a tea leaf bin (43), a tea water bin (44) and a filter element (45) arranged between the tea leaf bin (43) and the tea water bin (44) are arranged in the cup body, and the cup cover is the cup cover of any one of claims 1 to 7.

9. A magnetic control type water cup, which comprises a cup body, a first cup cover (1) and a second cup cover (61) which are detachably connected with the two ends of the cup body, wherein a tea leaf bin (43), a tea water bin (44) and a filter element (45) arranged between the tea leaf bin (43) and the tea water bin (44) are arranged in the cup body, and is characterized in that the first cup cover (1) is the cup cover of any one of claims 1 to 7.

10. The magnetic control type water cup according to any one of claims 8 or 9, wherein the filter element (45) comprises a mounting plate (46), a support plate (47), a support column (48), a support frame (49), a second magnet (50), a valve (51) and a nut (52), the valve (51) and the second magnet (50) are coaxially arranged and fixedly connected, and the support column (48) coaxially penetrates through the support plate (47), the mounting plate (46), the valve (51), the second magnet (50), the support frame (49) and the nut (52) in sequence; a fourth boss (53) is arranged at the first end of the supporting column (48), the fourth boss (53) is abutted against the supporting plate (47), and the second end of the supporting column (48) is used for fastening and connecting the supporting plate (47), the mounting plate (46) and the supporting frame (49) through a nut (52); the end face of the support frame (49) matched with the nut (52) extends along an axial direction to form a cylindrical surface, one end of the cylindrical surface extends outwards in the radial direction to form a first flange (54), and a plurality of third through holes (55) are formed outwards in the radial direction of the cylindrical surface; the edge of the mounting plate (46) protrudes towards two sides to form a second flange (56), and the mounting plate (46) is provided with three fourth through holes (57); a fifth through hole (58) is formed in the support plate (47) along the axial direction of the support plate, the fifth through hole (58) and the fourth through hole (57) are coaxially arranged, and the support plate (47) is attached to the mounting plate (46); a cavity enclosed by the support frame (49) and the mounting plate (46) accommodates a valve (51) and a second magnet (50), the valve (51) covers the distribution area of the fourth through holes (57), and the second magnet (50) and the valve (51) are in sliding fit with the support column (48); a third flange (59) is arranged on the cup body close to the cup cover end in the radial inward direction, a fourth groove (60) is arranged on the third flange (59) in the radial outward direction, the fourth groove (60) is matched with a second flange (56) of the mounting plate (46), and the second flange (56) is embedded into the fourth groove (60).