CN220344129U - Magnetic control type tea water separation cup - Google Patents

Abstract

The utility model provides a magnetic control tea water separation cup, which comprises a normally closed filter screen component and a magnetic control mechanism, wherein the normally closed filter screen component comprises a filter screen piece with a water flowing channel and a water sealing piece, the edge of the filter screen piece is detachably connected with a convex rib on the inner wall of the cup in a sealing way, the middle part of the filter screen piece is provided with a penetrating sleeve, the water sealing piece is arranged on one side of the filter screen piece far away from a lower cover, a push rod in the middle part of the water sealing piece is inserted into the sleeve, a pressure spring is arranged between the filter screen piece and the push rod, and the water sealing piece is positioned at a position for closing the water flowing channel through the pressure spring; the magnetic control mechanism comprises a first magnet arranged at the top of the push rod and a second magnet arranged in the lower cover, the second magnet is driven to horizontally rotate in the lower cover through the transmission mechanism, the second magnet is adjusted to be positioned on the axis of the first magnet, the first magnet and the second magnet repel each other, and the water sealing sheet is pushed to move downwards to open the water flowing channel. The requirements of the structure on the first magnet and the second magnet can be reduced, and the magnet with smaller volume can be selected, so that the production cost is reduced.

Description

Magnetic control type tea water separation cup

Technical Field

The utility model relates to the technical field of manufacturing of daily appliances, in particular to a magnetic control type tea water separation cup.

Background

At present, the existing tea water separation glass generally moves up and down through a magnet, and the water sealing sheet of a filter screen is controlled to move up and down through the attraction of the magnet, so that a filter mesh opening or closing function is achieved, and as disclosed in Chinese patent CN 213696458U, a tea water separation control mechanism has the defects that a magnet with larger magnetic force is needed, the requirement on the magnet is higher, and the production cost is higher; in addition, the magnet moves up and down, so that more space is required to occupy the axial direction of the cup cover, more space is occupied in the cup body, and the problem of large volume of the cup is caused under the condition of the same capacity of the cup.

Disclosure of Invention

The utility model aims to provide a magnetic control tea water separation cup, which solves one or more technical problems in the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a magnetic control tea water separation cup which comprises an upper cover, a lower cover, a cup body with two openings at two ends and a tea water separation control mechanism, wherein the upper cover and the lower cover are respectively detachably sealed and cover the upper opening and the lower opening of the cup body; the tea water separation control mechanism comprises a normally closed filter screen component and a magnetic control mechanism, wherein the normally closed filter screen component is arranged in the cup body and is in sealing connection with the cup wall, and the magnetic control mechanism is arranged in the lower cover and is used for controlling the normally closed filter screen component to be opened;

the magnetic control mechanism comprises a first magnet arranged at the top of the push rod, a second magnet arranged in the lower cover, and a transmission mechanism for driving the second magnet to rotate in the lower cover, and the second magnet is adjusted to be positioned on the axis of the first magnet by rotating the transmission mechanism, so that the first magnet and the second magnet repel each other, and the water sealing sheet is pushed to move downwards so as to open the water flowing channel.

Further, the transmission mechanism comprises a rotating cover, the middle part of the lower surface of the rotating cover protrudes downwards to form a cylindrical boss, a cylindrical accommodating cavity for accommodating the cylindrical boss is formed in the middle part of the upper surface of the outer side of the lower cover, the rotating cover is rotatably buckled to the top end of the lower cover, a radially arranged strip-shaped chute is formed in the bottom of the cylindrical accommodating cavity of the lower cover, the second magnet is a cylinder, the second magnet is vertically arranged, the lower part of the second magnet is positioned at one end in the strip-shaped chute, an arc-shaped conducting bar which is overlapped with the upper edge of the second magnet is formed in the bottom of the cylindrical boss, the arc-shaped conducting bar extends from the edge of the cylindrical boss to the middle part of the boss in a bending mode, and the rotating cover is rotated to push the second magnet to slide to the middle part of the strip-shaped chute from one end of the strip-shaped chute, so that the second magnet is coaxial with the first magnet; and a third magnet with a magnetic pole and the second magnet being arranged in the same direction is fixed at the other end of the strip-shaped chute, and the third magnet is used for resetting the second magnet to the end part of the strip-shaped chute.

Further preferably, a rotation limiting mechanism is arranged between the side wall of the cylindrical accommodating cavity and the side wall of the cylindrical boss, and the rotation limiting mechanism is used for controlling the rotation stroke of the rotary cover.

Further preferably, the rotation limiting mechanism comprises a limiting block arranged on the side wall of the cylindrical accommodating cavity and a limiting groove arranged on the side wall of the cylindrical boss.

Further preferably, a circle of circular arc guide groove is formed on the side wall of the cylindrical accommodating cavity, two spherical concave holes are uniformly formed in the circular arc guide groove, at least two elastic balls are embedded in the side wall of the cylindrical boss, and the elastic balls are located in the circular arc guide groove.

Still preferably, the upper cover is provided with an exhaust mechanism, the exhaust mechanism comprises a vent hole arranged in the middle of the upper cover and an exhaust valve core arranged in the vent hole, the upper end of the exhaust valve core penetrates through the inner side of the upper cover to the outer side, the exhaust valve core can slide up and down in the vent hole, a sealing ring is arranged between the lower end of the exhaust valve core and the edge of the vent hole, the upper end of the exhaust valve core is connected with a pressing plate through a screw, a second compression spring is arranged between the pressing plate and the outer side surface of the upper cover, and the exhaust valve core is positioned at a position for closing the vent hole through the second compression spring.

Preferably, the upper cover comprises a cover main body and a decorative cover body buckled at the end part of the cover main body, an opening for accommodating the pressing plate is formed in the middle of the decorative cover body, a stainless steel protective sleeve is sleeved outside the cover main body, a decorative disc is embedded in the outer end face of the decorative cover body, and a stainless steel protective cover is sleeved on the outer end face of the pressing plate

Still preferably, the transmission mechanism comprises a rotary cover, an inner gear ring horizontally arranged is formed in the middle of the lower surface of the rotary cover, a cylindrical accommodating cavity for accommodating the inner gear ring is formed in the middle of the upper surface of the outer side of the lower cover, a circular gear mounting seat is arranged in the cylindrical accommodating cavity, the gear mounting seat is connected with the cylindrical accommodating cavity, a penetrating eccentric mounting hole is formed in the gear mounting seat, a gear is arranged on the eccentric mounting hole and is meshed with the inner gear ring, a mounting shaft of the gear penetrates to the lower side of the eccentric mounting hole, and a second magnet is eccentrically clamped at the lower end of the mounting shaft of the gear.

Still preferably, the transmission mechanism comprises a rotary cover, an annular gear is formed in the middle of the lower surface of the rotary cover, a cylindrical accommodating cavity for accommodating the annular gear is formed in the middle of the upper surface of the outer side of the lower cover, a circular gear mounting seat is arranged in the cylindrical accommodating cavity, the gear mounting seat is connected with the inner wall of the cylindrical accommodating cavity in a clamping mode, a penetrating eccentric mounting hole is formed in the gear mounting seat, a mounting shaft of the gear is arranged in the eccentric mounting hole, a magnet rotating frame is horizontally arranged at the lower end of the gear mounting seat, two ends of the magnet rotating frame are hinged to the lower end of the gear mounting seat through rotating shafts, bevel gears are meshed and connected with bevel gears at the lower end of a mounting shaft of the gear in the rotating shaft of the magnet rotating frame, and the second magnet is clamped on the magnet rotating frame at the intersecting position of the axis of the first magnet.

Still preferably, the device further comprises a sounding mechanism, wherein the sounding mechanism comprises a circular arc-shaped rack arranged on the inner side surface of the rotary cover and a spring plate embedded at the top of the gear mounting seat and arranged corresponding to the circular arc-shaped rack, and the lower end of the spring plate is embedded in a mounting groove on the top end surface of the gear mounting seat through a fixed block; when the rotary cover is rotated, the tip of the elastic sheet is stirred between the teeth of the circular arc-shaped racks.

Further, at least three elastic balls distributed in a ring shape are embedded on the upper surface of the edge of the rotary cover, an annular guide groove is formed on the lower surface of the edge of the lower cover, and the elastic balls are located in the annular guide groove.

Further preferably, the middle part of the inner side of the lower cover is nested with a stainless steel sleeve, the opening edge of the stainless steel sleeve is outwards bent and expanded to form a skirt, the skirt is attached to the bottom of a threaded groove connected with the opening of the cup body, and a sealing ring is arranged on the skirt.

Further, the rotary cover and the lower cover are formed by injection molding of food-grade plastics, and the outer side surfaces of the rotary cover and the lower cover are sleeved with stainless steel protection covers.

Compared with the prior art, the utility model has the following technical effects:

according to the utility model, the transmission mechanism drives the second magnet to horizontally rotate in the lower cover, the position of the second magnet is regulated to be positioned on the axis of the first magnet, so that the first magnet and the second magnet repel each other, the water sealing sheet is pushed to move downwards to open the water flow channel, under normal conditions, the first magnet and the second magnet are dislocated in the axis direction, the water sealing sheet closes the water flow channel of the filter screen sheet by the compression spring, the requirement on the elasticity of the compression spring can be reduced, and when the first magnet and the second magnet are arranged, the repulsive force between the two magnets acts on the compression spring, so that the compression spring is further compressed, and the requirement on the first magnet and the second magnet can be reduced due to the smaller elasticity of the compression spring, and the magnet with smaller volume can be selected, so that the production cost is greatly reduced; the second magnet moves in the horizontal direction, so that the moving space of the magnet in the axial direction of the cup cover in the prior art is saved, the volume of the cup cover can be smaller, the volume of the cup is reduced, and the cup is simple in structure and convenient to assemble; the second magnet rotates on the space of the axis of the first magnet by adopting a magnet rotating frame, so that the magnetic pole of the second magnet relative to one end of the first magnet is freely switched, and when the second magnet rotates to be in the same direction with the magnetic pole of the first magnet, the water sealing sheet is opened under the action of repulsive force; when the magnetic pole of the first magnet rotates in opposite directions, the second magnet generates attractive force to the first magnet, so that the sealing effect of the water sealing piece is improved.

Drawings

FIG. 1 is a schematic diagram of the appearance and structure of a magnetic control tea separating cup (cup in the normal state);

fig. 2 is a schematic cross-sectional view of a tea water separation control mechanism (cup upside down) according to the first embodiment;

FIG. 3 is a schematic view of the cross-sectional structure A-A in FIG. 2;

FIG. 4 is a schematic view showing a partially sectional structure of the water seal in the state of closing the water flow passage (upside-down state of the cup) in the present embodiment;

FIG. 5 is a schematic view of the assembled cross-section of the upper lid (cup in the upright position) of the present utility model;

fig. 6 is a schematic cross-sectional view of a tea water separation control mechanism (cup upside down) according to the second embodiment;

FIG. 7 is a schematic cross-sectional view of a tea water separation control mechanism (a water sealing sheet opens a water flow channel) in a second embodiment;

fig. 8 and 9 are schematic structural views of a transmission mechanism in the second embodiment;

fig. 10 is a schematic cross-sectional view of a tea water separation control mechanism (cup in an inverted state) according to a second embodiment;

fig. 11 is a schematic structural diagram of a tea water separation control mechanism in the third embodiment;

FIG. 12 is a schematic view of the cross-sectional structure B-B in FIG. 11;

fig. 13 is a schematic cross-sectional view of a tea water separation control mechanism (cup in a normal state) according to the third embodiment.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1 to 5, the utility model provides a magnetic control tea water separation cup, which comprises an upper cover 1, a lower cover 2, a cup body 3 with two openings at two ends and a tea water separation control mechanism 4, wherein the upper cover 1 and the lower cover 2 are respectively and detachably sealed and sealed on the upper opening and the lower opening of the cup body 3; the tea water separation control mechanism 4 comprises a normally closed filter screen assembly 40 arranged in the cup body 1 and in sealing connection with the cup wall and a magnetic control mechanism 41 arranged in the lower cover 2 and used for controlling the normally closed filter screen assembly to be opened, wherein the normally closed filter screen assembly 40 comprises a filter screen sheet 401 with a water flowing channel 400 in the middle part and a water sealing sheet 402 capable of closing or opening the water flowing channel, the edge of the filter screen sheet 401 is detachably in sealing connection with a convex rib 31 arranged on the inner wall of the cup and close to the lower opening of the cup body, a through hole is formed in the middle part of the filter screen sheet 401, a sleeve 403 facing the direction of the lower cover 2 is arranged outside the through hole, the water sealing sheet 402 is arranged on one side of the filter screen sheet 401 far away from the lower cover, a push rod 404 is arranged in the middle part of the water sealing sheet 402 and can be inserted in the sleeve 403 in a vertical moving manner, and a compression spring is arranged between the filter screen sheet 401 and the push rod 404 positioned above the filter screen sheet 401, and the water sealing sheet 402 is positioned at a position for closing the water flowing channel by the compression spring;

the magnetic control mechanism 41 comprises a first magnet 411 arranged at the top of the push rod 404, a second magnet 412 arranged in the lower cover 2, and a transmission mechanism 5 for driving the second magnet 412 to rotate in the lower cover 2, and the second magnet 412 is adjusted to be positioned on the axis of the first magnet 411 by rotating the transmission mechanism 5, so that the first magnet 411 and the second magnet 412 repel each other, and the water sealing sheet 402 is pushed to move downwards to open the water flow channel 400.

Further, the transmission mechanism 5 includes a rotary cover 51, the middle part of the lower surface of the rotary cover 51 protrudes downwards to form a cylindrical boss 501, the lower cover 2 includes a cover main body 21, the middle part of the upper surface of the outer side of the cover main body 21 of the lower cover 2 is provided with a cylindrical accommodating cavity for accommodating the cylindrical boss 501, the rotary cover 51 is rotatably buckled at the outer end of the lower cover 2, the bottom of the cylindrical accommodating cavity of the lower cover 2 is formed with a radially arranged bar-shaped chute 201, the second magnet 412 is a cylinder, the second magnet 412 is vertically arranged and the lower part is positioned at one end in the bar-shaped chute 201, the bottom of the cylindrical boss 501 is formed with an arc-shaped conducting bar 502 overlapped with the upper edge of the second magnet 412, and the arc-shaped conducting bar 502 is bent and extended from the edge of the cylindrical boss 501 to the middle part of the boss 501, in this example, the bending radian of the arc-shaped conducting bar 502 is preferably the involute radian of the second magnet 412, the rotary cover 51 is rotated, and the arc-shaped conducting bar 502 pushes the second magnet 412 to slide from one end of the bar-shaped chute 201 to one end of the bar-shaped magnet 201, so that the second magnet 412 is coaxial with the second magnet 201; the other end of the bar-shaped chute 201 is fixed with a third magnet 413 with a magnetic pole arranged in the same direction as the second magnet 412, the third magnet 413 is used for resetting the second magnet 412 to the end of the bar-shaped chute 201, when the rotary cover 51 rotates reversely, the thrust of the arc-shaped conducting bar 502 acting on the second magnet 412 disappears, the third magnet 413 and the second magnet 412 are arranged in the same direction, and the second magnet 412 slides to the end position along the bar-shaped chute 201 under the repulsive force of the third magnet 413 and the second magnet 412.

Further preferably, a rotation limiting mechanism is disposed between the sidewall of the cylindrical accommodating cavity and the sidewall of the cylindrical boss 501, and the rotation limiting mechanism is used for controlling the rotation stroke of the rotary cover 51.

Specifically, the rotation limiting mechanism includes a limiting block 202 disposed on a side wall of the cylindrical accommodating cavity and a limiting groove disposed on a side wall of the cylindrical boss 501.

Further preferably, a circle of circular arc guide groove 203 is formed on the side wall of the cylindrical accommodating cavity, at least two elastic balls are embedded on the side wall of the cylindrical boss 501, the elastic balls are located in the circular arc guide groove 203, and two spherical concave holes which are oppositely arranged are formed in the circular arc guide groove 203.

Further preferably, at least three elastic balls distributed in a ring shape are embedded on the lower surface of the edge of the rotary cover 51, and an annular guide groove 204 is formed on the top surface of the edge of the lower cover 2, and the elastic balls are located in the annular guide groove 204.

Still preferably, the stainless steel sleeve 205 is nested in the middle of the inner side of the lower cover 2, the opening edge of the stainless steel sleeve 205 is bent outwards and expanded to form the skirt 206, the skirt 206 is attached to the bottom of the threaded groove where the lower cover is connected with the opening of the cup body, and the skirt is provided with the sealing ring 32.

Further preferably, the rotary cover 51 and the lower cover 2 are injection molded by food grade plastic, and the outer side surfaces of the rotary cover 51 and the lower cover 2 are sleeved with stainless steel protection covers.

Further, the upper cover 1 is provided with an exhaust mechanism 10, the exhaust mechanism 10 comprises a vent hole 101 arranged in the middle of the upper cover 1, and an exhaust valve core 102 arranged in the vent hole 101, the upper end of the exhaust valve core 102 penetrates through the inner side of the upper cover 1 to the outer side, the exhaust valve core 102 can slide up and down in the vent hole 101, a sealing ring 103 is arranged between the lower end of the exhaust valve core 102 and the edge of the vent hole 101, the upper end of the exhaust valve core 102 is connected with a pressing plate 104 through a screw, a second compression spring is arranged between the pressing plate 104 and the outer side surface of the upper cover 1, and the exhaust valve core 102 is positioned to close the vent hole 101 through the second compression spring.

Further preferably, the upper cover 1 includes a cover main body 11 and a decorative cover body 12 fastened to an end portion of the cover main body 11, an opening for accommodating the pressing plate 104 is provided in a middle portion of the decorative cover body 12, a stainless steel protective sleeve is sleeved outside the cover main body 1, a decorative disc is embedded in an outer end face of the decorative cover body 12, and a stainless steel protective cover is sleeved on an outer end face of the pressing plate 104.

According to the utility model, the transmission mechanism drives the second magnet to horizontally rotate in the lower cover, the position of the second magnet is regulated to be positioned on the axis of the first magnet, so that the first magnet and the second magnet repel each other, the water sealing sheet is pushed to move downwards to open the water flow channel, under normal conditions, the first magnet and the second magnet are dislocated in the axis direction, the water sealing sheet closes the water flow channel of the filter screen sheet by the compression spring, the requirement on the elasticity of the compression spring can be reduced, and when the first magnet and the second magnet are arranged, the repulsive force between the two magnets acts on the compression spring, so that the compression spring is further compressed, and the requirement on the first magnet and the second magnet can be reduced due to the smaller elasticity of the compression spring, and the magnet with smaller volume can be selected, so that the production cost is greatly reduced; the second magnet moves in the horizontal direction, so that the moving space of the magnet in the axial direction of the cup cover in the prior art is saved, the volume of the cup cover can be made smaller, the volume of the cup is reduced, and the cup is simple in structure and convenient to assemble.

The working principle of the utility model is as follows: under normal conditions, the first magnet and the second magnet are not on the same axis, the water sealing sheet closes the water flowing channel of the filter screen sheet under the action of the compression spring, the rotary cover is rotated, the arc-shaped conducting bar at the lower end of the rotary cover pushes the second magnet arranged at one end of the strip-shaped sliding groove in the lower cover to move towards the center of the lower cover, when the first magnet is coaxial, the two magnets repel each other, and the generated repulsive force drives the compression spring to be further compressed, so that the water flowing channel is opened.

Example two

The first embodiment is basically the same as the second embodiment, and the details are not repeated herein, except that, as shown in fig. 6 to 10, the transmission mechanism 5 includes a rotary cover 51, an inner gear ring 52 is formed in the middle of the lower surface of the rotary cover 51, a cylindrical accommodating cavity accommodating the inner gear ring 52 is formed in the middle of the upper surface of the outer side of the lower cover 2, a circular gear mounting seat 53 is disposed in the cylindrical accommodating cavity, the gear mounting seat 53 is connected with the cylindrical accommodating cavity, the gear mounting seat 53 is provided with a through eccentric mounting hole 530, a gear 54 meshed with the inner gear ring is disposed in the eccentric mounting hole 530, a mounting shaft of the gear 54 penetrates to the lower side of the eccentric mounting hole 530, and the second magnet 412 is eccentrically clamped at the lower end of the mounting shaft of the gear 54.

The working principle of the utility model is as follows: under normal conditions, the first magnet and the second magnet are not on the same axis, the water sealing sheet closes the water flowing channel of the filter screen sheet under the action of the compression spring, the rotary cover is rotated, the inner gear ring of the rotary cover drives the gear at the eccentric position to rotate, the second magnet eccentrically arranged at the lower end of the gear horizontally deflects along with the rotation of the gear, when the second magnet deflects to be coaxial with the first magnet, the two magnets repel each other, the generated repulsive force drives the compression spring to further compress, so that the water flowing channel is opened, the rotary cover is continuously rotated or reversely rotated, after the first magnet and the second magnet are misplaced, the water flowing channel of the filter screen sheet is closed under the action of the compression spring, and tea water separation is realized.

Still preferably, the device further comprises a sounding mechanism 6, wherein the sounding mechanism 6 comprises a circular arc-shaped rack 61 arranged on the inner side surface of the rotary cover, and a spring piece 62 embedded at the top of the gear mounting seat 53 and arranged corresponding to the circular arc-shaped rack 61, and the lower end of the spring piece 62 is embedded in a mounting groove on the top end surface of the gear mounting seat through a fixed block; when the rotary cover 51 is rotated, the tip of the elastic piece 62 is pushed between the teeth of the circular arc rack 61. When the rotary cover 51 is rotated, the tip of the elastic piece 62 is stirred between the teeth of the circular arc-shaped racks 61, so that a crisp and mechanical transmission-like sound is generated, the structure is light and simple, the installation is simple, and the space is saved, and meanwhile, a stronger mechanical sense is brought to a user.

Example III

The second embodiment is basically the same as the third embodiment, and the details are not repeated herein, except that, as shown in fig. 11 to 13, the transmission mechanism 5 includes a rotary cover 51, a ring gear 52 is formed in the middle of the lower surface of the rotary cover 51, a cylindrical accommodating cavity accommodating the ring gear 52 is formed in the middle of the upper surface of the outer side of the lower cover 2, a circular gear mounting seat 53 is disposed in the cylindrical accommodating cavity, the gear mounting seat 53 is connected with the inner wall of the cylindrical accommodating cavity in a clamping manner, the gear mounting seat 53 is provided with a through eccentric mounting hole 530, a gear 54 is connected with the gear mounting seat 53 through a mounting shaft 540 in the eccentric mounting hole 530, a magnet rotating frame 55 is horizontally disposed at the lower end of the gear mounting seat 53, two ends of the magnet rotating frame 55 are hinged with the lower end of the gear mounting seat 53 through a rotating shaft, a bevel gear 541 on the rotating shaft of the magnet rotating frame 55 is meshed with a bevel gear 541 at the lower end of a mounting shaft 540 of the gear 54, and the second magnet 412 is clamped with the magnet 411 on the magnet rotating frame 55 intersecting with the magnet rotating frame 55 at the first position.

In the embodiment, the second magnet rotates on the space of the axis of the first magnet by adopting the magnet rotating frame, so that the magnetic pole of the second magnet relative to one end of the first magnet is freely switched, and when the second magnet rotates to be in the same direction with the magnetic pole of the first magnet, the water sealing sheet is opened under the action of repulsive force; when the magnetic pole of the first magnet rotates in opposite directions, the second magnet generates attractive force to the first magnet, so that the sealing effect of the water sealing piece is improved.

The working principle of the utility model is as follows: under normal conditions, the axes of the first magnet and the second magnet are perpendicular to each other, at the moment, the water sealing sheet closes the water flowing channel of the filter screen sheet under the action of the compression spring, the rotary cover is rotated, the inner gear ring of the rotary cover drives the gear to rotate, the magnet rotary frame rotates along with the gear through the bevel gear group, after the magnet rotary frame rotates for 90 degrees, the first magnet and the second magnet are coaxial, the magnetic poles of the first magnet and the second magnet are oppositely arranged, the two magnets repel each other, and the generated repulsive force drives the compression spring to be further compressed, so that the water flowing channel is opened; or the first magnet and the second magnet are positioned on the same axis, but the magnetic poles of the second magnet are in the same direction as the magnetic poles of the first magnet, at the moment, the water sealing sheet closes the water flowing channel of the filter screen sheet under the combined action of the compression spring and the attractive force of the second magnet to the first magnet, the rotating cover is rotated, the inner gear ring of the rotating cover drives the gear to rotate, the magnet rotating frame rotates along with the gear through the bevel gear group, the magnet rotating frame rotates 180 degrees, the first magnet and the second magnet are coaxial, the magnetic poles of the two magnets are oppositely arranged, the two magnets repel each other, and the generated repulsive force drives the compression spring to be further compressed, so that the water flowing channel is opened. The rotary cover is continuously rotated or reversely rotated, so that the axes of the first magnet and the second magnet are vertical or coaxial and are in the same direction, and the water flow channel of the filter screen sheet is closed under the action of the compression spring, so that tea water separation is realized.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly, in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other without conflict;

finally, the foregoing description of the preferred embodiment of the utility model is provided for the purpose of illustration only, and is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (14)

1. A magnetic control tea water separation cup comprises an upper cover, a lower cover, a cup body with two openings at two ends and a tea water separation control mechanism, wherein the upper cover and the lower cover are respectively detachably sealed and cover the upper opening and the lower opening of the cup body; the tea water separation control mechanism comprises a normally closed filter screen component and a magnetic control mechanism, wherein the normally closed filter screen component is arranged in the cup body and is in sealing connection with the cup wall, and the magnetic control mechanism is arranged in the lower cover and is used for controlling the normally closed filter screen component to be opened, the tea water separation control mechanism is characterized in that the normally closed filter screen component comprises a filter screen piece with a water flowing channel in the middle part and a water sealing piece capable of closing or opening the water flowing channel, the edge of the filter screen piece is detachably connected with a convex rib which is arranged on the inner wall of the cup and is close to an upper opening of the cup body in a sealing manner, a through hole is formed in the middle part of the filter screen piece, a sleeve towards the direction of the lower cover is arranged on the outer side of the through hole, the water sealing piece is arranged on one side, far away from the lower cover, a push rod is arranged in the middle part of the water sealing piece, the push rod is inserted in the sleeve in a vertically movable manner, and a compression spring is arranged between the filter screen piece and the push rod above the filter screen piece, and the compression spring is used for enabling the water sealing piece to be positioned at a position for closing the water flowing channel;

the magnetic control mechanism comprises a first magnet arranged at the top of the push rod, a second magnet arranged in the lower cover, and a transmission mechanism for driving the second magnet to rotate in the lower cover, and the second magnet is adjusted to be positioned on the axis of the first magnet by rotating the transmission mechanism, so that the first magnet and the second magnet repel each other, and the water sealing sheet is pushed to move downwards so as to open the water flowing channel.

2. The magnetic control tea water separation cup according to claim 1, wherein the transmission mechanism comprises a rotary cover, the middle part of the lower surface of the rotary cover protrudes downwards to form a cylindrical boss, the middle part of the upper surface of the outer side of the lower cover is provided with a cylindrical accommodating cavity for accommodating the cylindrical boss, the rotary cover is rotatably buckled at the top end of the lower cover, the bottom of the cylindrical accommodating cavity of the lower cover is formed with a radially arranged strip-shaped chute, the second magnet is a cylinder, the second magnet is vertically arranged and the lower part is positioned at one end in the strip-shaped chute, the bottom of the cylindrical boss is formed with an arc-shaped conducting bar which is overlapped with the upper edge of the second magnet, the arc-shaped conducting bar is bent and extended from the edge of the cylindrical boss to the middle part of the boss, and the rotary cover is rotated to push the second magnet to slide from one end of the strip-shaped chute to the middle part of the strip-shaped chute, so that the second magnet is coaxial with the first magnet; and a third magnet with a magnetic pole and the second magnet being arranged in the same direction is fixed at the other end of the strip-shaped chute, and the third magnet is used for resetting the second magnet to the end part of the strip-shaped chute.

3. The magnetic control tea water separation cup according to claim 2, wherein a rotation limiting mechanism is arranged between the side wall of the cylindrical accommodating cavity and the side wall of the cylindrical boss, and the rotation limiting mechanism is used for controlling the rotation stroke of the rotary cover.

4. A magnetic control tea water separation cup as claimed in claim 3 wherein the rotation limiting mechanism comprises a limiting block arranged on the side wall of the cylindrical accommodating cavity and a limiting groove arranged on the side wall of the cylindrical boss.

5. The magnetic control tea water separation cup according to claim 2, wherein a circle of circular arc guide groove is formed on the side wall of the cylindrical accommodating cavity, two spherical concave holes are uniformly formed in the circular arc guide groove, at least two elastic balls are embedded in the side wall of the cylindrical boss, and the elastic balls are located in the circular arc guide groove.

6. The magnetic control tea water separation cup according to claim 1, wherein the upper cover is provided with an exhaust mechanism, the exhaust mechanism comprises a vent hole arranged in the middle of the upper cover and an exhaust valve core arranged in the vent hole, the upper end of the exhaust valve core penetrates from the inner side of the upper cover to the outer side, the exhaust valve core can slide up and down in the vent hole, a sealing ring is arranged between the lower end of the exhaust valve core and the edge of the vent hole, the upper end of the exhaust valve core is connected with a pressing plate through a screw, a second compression spring is arranged between the pressing plate and the outer side surface of the upper cover, and the exhaust valve core is positioned at a position for closing the vent hole through the second compression spring.

7. The magnetic control tea water separation cup according to claim 6, wherein the upper cover comprises a cover main body and a decorative cover body buckled at the end part of the cover main body, an opening for accommodating the pressing plate is formed in the middle of the decorative cover body, a stainless steel protective sleeve is sleeved outside the cover main body, a decorative disc is embedded in the outer end face of the decorative cover body, and a stainless steel protective cover is sleeved on the outer end face of the pressing plate.

8. The magnetic control tea water separation cup according to claim 1, wherein the transmission mechanism comprises a rotary cover, an annular gear horizontally arranged is formed in the middle of the lower surface of the rotary cover, a cylindrical accommodating cavity for accommodating the annular gear is formed in the middle of the upper surface of the outer side of the lower cover, a circular gear mounting seat is arranged in the cylindrical accommodating cavity and is connected with the cylindrical accommodating cavity, the gear mounting seat is provided with a penetrating eccentric mounting hole, a gear is arranged on the eccentric mounting hole and is meshed with the annular gear, a mounting shaft of the gear penetrates to the lower side of the eccentric mounting hole, and the second magnet is eccentrically clamped at the lower end of the mounting shaft of the gear.

9. The magnetic control tea water separation cup according to claim 8, further comprising a sounding mechanism, wherein the sounding mechanism comprises a circular arc-shaped rack arranged on the inner side surface of the rotary cover, and a spring plate embedded at the top of the gear mounting seat and arranged corresponding to the circular arc-shaped rack, and the lower end of the spring plate is embedded in a mounting groove on the top end surface of the gear mounting seat through a fixed block; when the rotary cover is rotated, the tip of the elastic sheet is stirred between the teeth of the circular arc-shaped racks.

10. The magnetic control tea water separation cup according to claim 1, wherein the transmission mechanism comprises a rotary cover, an annular gear is formed in the middle of the lower surface of the rotary cover, a cylindrical accommodating cavity for accommodating the annular gear is formed in the middle of the upper surface of the outer side of the lower cover, a circular gear mounting seat is arranged in the cylindrical accommodating cavity, the gear mounting seat is connected with the inner wall of the cylindrical accommodating cavity in a clamping manner, a penetrating eccentric mounting hole is formed in the gear mounting seat, a magnet rotating frame is horizontally arranged at the lower end of the gear mounting seat, two ends of the magnet rotating frame are hinged with the lower end of the gear mounting seat through rotating shafts, bevel gears on the rotating shafts of the magnet rotating frame are meshed with bevel gears at the lower end of the mounting shafts of the gears, and the second magnet is connected with the magnet rotating frame at the intersecting position of the magnet rotating frame and the first magnet axis in a clamping manner.

11. The magnetic control tea water separation cup according to claim 10, further comprising a sounding mechanism, wherein the sounding mechanism comprises a circular arc-shaped rack arranged on the inner side surface of the rotary cover, and a spring plate embedded at the top of the gear mounting seat and arranged corresponding to the circular arc-shaped rack, and the lower end of the spring plate is embedded in a mounting groove on the top end surface of the gear mounting seat through a fixed block; when the rotary cover is rotated, the tip of the elastic sheet is stirred between the teeth of the circular arc-shaped racks.

12. The magnetic control tea water separation cup according to any one of claims 2-5 and 8-11, wherein at least three elastic balls distributed in a ring shape are embedded on the upper surface of the edge of the rotary cover, an annular guide groove is formed on the lower surface of the edge of the lower cover, and the elastic balls are located in the annular guide groove.

13. The magnetic control tea water separation cup according to claim 12, wherein a stainless steel sleeve is nested in the middle of the inner side of the lower cover, the opening edge of the stainless steel sleeve is outwards bent and expanded to form a skirt, the skirt is attached to the bottom of a threaded groove connected with the opening of the cup body of the lower cover, and a sealing ring is arranged on the skirt.

14. The magnetic control tea water separation cup as claimed in claim 12, wherein the rotary cover and the lower cover are formed by injection molding of food grade plastics, and stainless steel protection covers are sleeved on the outer side surfaces of the rotary cover and the lower cover.