CN112493806A - Formula tea-water separation cup is inhaled to rotatory coordinated control magnetism - Google Patents

Abstract

The invention discloses a rotary linkage control magnetic tea-water separation cup, which comprises a cup body, a cup cover and a tea bin, wherein a chute is arranged in the cup cover body, a sliding block and an elastic component are arranged in the chute, a first magnet block is fixed at the bottom of the sliding block, a knob capable of rotating in the circumferential direction is arranged in a through hole in the middle of the cup cover body, the knob is positioned above the chute, a connecting rod is arranged between the knob and the sliding block, and two ends of the connecting rod are respectively hinged with the top of the sliding block through the bottom of the knob; the tea bin is provided with a second magnet block, and the position of the second magnet block corresponds to the position of the first magnet block in a natural state; through rotating the knob, under the effect of connecting rod, drive the slider and make a round trip to slide in the spout for first magnet piece staggers mutually with the second magnet piece on the tea storehouse, and the tea storehouse falls into in the cup under the action of gravity. The invention has the advantages that: the adsorption and the separation of the tea bin and the cup cover are conveniently and quickly controlled.

Description

Formula tea-water separation cup is inhaled to rotatory coordinated control magnetism

Technical Field

The invention relates to a water dispenser, in particular to a rotary linkage control magnetic tea-water separation cup.

Background

In the existing tea making cup with the function of magnetically controlling tea water separation, after the tea water is generally made to reach a required concentration, the tea making cup is inverted, a tea bin in the cup body is in contact with the cup cover under the action of gravity and is adsorbed by the cup cover, and then the tea making cup is inverted, so that the effect of tea water separation is achieved; but if will put into the internal tea making of cup once more with the tea storehouse, then need open the bowl cover, manually take off the tea storehouse from the bowl cover, put into the cup again internally, complex operation uses and experiences poorly, and need touch the tea storehouse with the hand, can pollute tea, and is very unhygienic.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a rotary linkage control magnetic tea-water separation cup, so that the adsorption and separation of a tea bin and a cup cover can be conveniently and quickly controlled.

The invention is realized by the following technical scheme:

a rotary linkage control magnetic tea-water separation cup comprises a cup body, a cup cover and a tea bin, wherein the cup cover comprises a cup cover body, a sliding groove extending in the left-right direction is formed in the cup cover body, a sliding block and an elastic component are arranged in the sliding groove, the sliding block is elastically pressed at one end of the sliding groove through the elastic component, a first magnet block is fixed at the bottom of the sliding block, a knob capable of rotating in the circumferential direction is arranged in a through hole in the middle of the cup cover body, the knob is located above the sliding groove, a connecting rod is arranged between the knob and the sliding block, one end of the connecting rod is hinged to the bottom of the knob through a first hinged shaft, the other end of the connecting rod is hinged to the top of the sliding block through a second hinged shaft, the first hinged shaft and the second;

the tea bin is provided with a second magnet block, the position of the second magnet block corresponds to the position of the first magnet block in a natural state, and the tea bin and the cup cover are adsorbed together through the magnet adsorption effect; through rotating the knob, under the effect of connecting rod, drive the slider and make a round trip to slide in the spout for first magnet piece staggers mutually with the second magnet piece on the tea storehouse, and the tea storehouse falls into in the cup under the action of gravity.

Further, first articulated shaft sets up in the knob bottom, the second articulated shaft sets up at the slider top, connecting rod top both ends are equipped with two convex erection columns that make progress, and it has the commentaries on classics hole to open at every erection column center, the connecting rod rotates the suit respectively on first articulated shaft and second articulated shaft through two commentaries on classics holes.

Further, the spout is formed by the clearance between two blocks of front and back slip baffle, and two blocks of slip baffle are fixed in the bowl cover main part around, and one of them slip baffle's one end top is equipped with the convex spacing bead that makes progress, the knob bottom is equipped with the spacing ring of downward bulge, and it has one section and spacing bead complex spacing groove to open on the spacing ring, blocks the spacing groove both ends through spacing bead both sides, realizes spacing to knob rotation angle.

Furthermore, a section of observation groove is formed in the limiting ring at the bottom of the knob.

Furthermore, all be equipped with the spacing arch that the restriction slider upwarped on the lateral wall around the spout.

Furthermore, the center of the top of the knob is provided with an inwards concave depression, and the depression at the top of the knob is provided with an upwards convex operation convex edge.

Furthermore, a spring guide groove is formed in one end, facing the elastic component, of the sliding block, a spring guide post is arranged on the cup cover main body, one end of the elastic component is sleeved in the spring guide groove, and the other end of the elastic component is sleeved on the spring guide post.

Further, be equipped with the annular installation step that is used for installing the knob in the bowl cover main part, the periphery of knob is equipped with the outside convex collar of round, and the knob passes through collar overlap joint on the annular installation step of bowl cover main part, and the collar top of knob is spacing through a clamping ring, fixed connection between clamping ring and the bowl cover main part, the annular gap between clamping ring and the annular installation step forms the ring channel, and the collar of knob can be at the interior circumferential direction of ring channel rotation.

Furthermore, be equipped with two second magnet pieces in the tea storehouse, two second magnet pieces are located the upper end and the lower extreme in tea storehouse respectively.

Compared with the prior art, the invention has the following advantages:

1. the invention provides a rotary linkage control magnetic tea-water separation cup, wherein a cup is inverted, and a tea bin and a cup cover are automatically adsorbed under the action of magnetic attraction; the cup is arranged right side by side, and the automatic separation of the tea cabin and the cup cover can be realized by rotating the knob; realized freely switching the absorption or breaking away from of tea storehouse and bowl cover, whole switching process operation is very convenient, swift, and need not open the bowl cover, more need not contact the tea storehouse, has guaranteed the health of drinking water, has promoted to use and has experienced the sense.

2. According to the rotary linkage control magnetic tea-water separation cup, the tea bin can be separated from the cup cover by horizontally rotating the knob; due to the fact that the longitudinal displacement does not exist in the whole operation process, the longitudinal size of the cup cover can be greatly shortened, and after the tea bin and the cup cover are adsorbed, the tea bin is higher in position, and tea water separation is facilitated.

Drawings

FIG. 1 is an overall main sectional view of the present invention.

FIG. 2 is a main sectional view showing the adsorption state of the tea bin and the cup cover.

Fig. 3 is a main sectional view of the lid portion of the tea caddy of the present invention just after the instant the lid is disengaged.

Fig. 4 is a perspective exploded view of the lid of the present invention.

Fig. 5 is a perspective view of the lid of the present invention with the knob removed.

Fig. 6 is a cross-sectional view of the lid of the present invention taken at two pivot holes of the connecting rod.

Reference numbers in the figures: 1, a cup body; 2, a cup cover; 3, a tea bin; 4, a cup cover body; 5, a chute; 6, a sliding block; 7 an elastic member; 8, a spring guide groove; 9 spring guide posts; 10, limiting a bulge; 11 a first magnet block; 12 through holes; 13 a knob; 14 annular mounting steps; 15 mounting a ring; 16, pressing a ring; 17, sinking; 18 operating the lug; 19 a connecting rod; 20 a first hinge axis; 21 a second hinge axis; 22 mounting a post; 23, rotating the hole; 24 a second magnet block; 25 sliding guide plates; 26 a limit rib; 27 a stop collar; 28, limiting grooves; 29 tea bin body; 30 tea bin covers; 31 a fastener; 32 magnet seal rings; the tank is observed 33.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

Referring to fig. 1 to 6, the embodiment discloses a formula tea-water separation cup is inhaled to rotatory coordinated control magnetism, including cup 1, bowl cover 2 and tea storehouse 3, threaded connection between bowl cover 2 and the 1 oral area of cup. The cup cover 2 comprises a cup cover body 4, a sliding groove 5 extending in the left-right direction is formed in the cup cover body 4, a sliding block 6 and an elastic component 7 are arranged in the sliding groove 5, the sliding block 6 is elastically supported to one end of the sliding groove 5 through the elastic component 7, and the elastic component 7 can adopt a reset spring. One end of the sliding block 6 facing the elastic component 7 is provided with a spring guide groove 8, the main body of the cup cover 2 is provided with a spring guide column 9, one end of the elastic component 7 is sleeved in the spring guide groove 8, and the other end of the elastic component is sleeved on the spring guide column 9. Limiting bulges 10 for limiting the upward tilting of the sliding block 6 are arranged on the front side wall and the rear side wall of the sliding groove 5. A first magnet block 11 is fixed at the bottom of the sliding block 6, a knob 13 capable of rotating in the circumferential direction is arranged in a through hole 12 in the middle of the main body of the cup cover 2, and the knob 13 is positioned above the sliding groove 5. An annular mounting step 14 for mounting a knob 13 is arranged on the cup cover 2 body, a circle of mounting ring 15 protruding outwards is arranged on the periphery of the knob 13, the knob 13 is overlapped on the annular mounting step 14 of the cup cover 2 body through the mounting ring 15, the upper part of the mounting ring 15 of the knob 13 is limited through a pressing ring 16, and the knob 13 is prevented from being upwards separated from the cup cover 2 body through the pressing ring 16. The press ring 16 and the cup cover 2 body are fixedly connected in an interference press-fitting mode, an annular groove is formed in an annular gap between the press ring 16 and the annular mounting step 14, and the mounting ring 15 of the knob 13 can rotate in the annular groove in the circumferential direction. The knob 13 is provided with a concave recess 17 at the top center, and an operation rib 18 protruding upwards is arranged in the concave recess 17 at the top of the knob 13. A connecting rod 19 is arranged between the knob 13 and the sliding block 6, one end of the connecting rod 19 is hinged with the bottom of the knob 13 through a first hinged shaft 20, the other end of the connecting rod 19 is hinged with the top of the sliding block 6 through a second hinged shaft 21, the first hinged shaft 20 and the second hinged shaft 21 extend in the vertical direction, and the axial lead of the first hinged shaft 20 is staggered with the axial lead of the knob 13. First articulated shaft 20 sets up in knob 13 bottom, and second articulated shaft 21 sets up at slider 6 top, and connecting rod 19 top both ends are equipped with two convex erection columns 22 that make progress, and every erection column 22 center is opened there is the commentaries on classics hole 23, and connecting rod 19 rotates the suit respectively on first articulated shaft 20 and second articulated shaft 21 through two commentaries on classics holes 23.

The tea bin 3 is provided with a second magnet block 24, the position of the second magnet block 24 corresponds to the position of the first magnet block 11 in a natural state, and the tea bin 3 and the cup cover 2 are adsorbed together through the magnet adsorption; through rotating knob 13, under the effect of connecting rod 19, drive slider 6 and make a round trip to slide in spout 5 for first magnet piece 11 staggers mutually with second magnet piece 24 on tea storehouse 3, and tea storehouse 3 falls into in cup 1 under the action of gravity.

Specifically, the spout 5 is formed by the clearance between two blocks of front and back slide guide 25, and two blocks of front and back slide guide 25 are fixed in bowl cover 2 main part, and one of them slide guide 25's one end top is equipped with the convex spacing bead 26 that makes progress, and knob 13 bottom is equipped with downward convex spacing ring 27, and it has one section and spacing bead 26 complex spacing groove 28 to open on the spacing ring 27, blocks spacing groove 28 both ends through spacing bead 26 both sides, realizes the spacing to knob 13 rotation angle. A section of observation groove 33 is further formed on the limiting ring 27 at the bottom of the knob 13, so that observation can be performed through the observation groove 33 when the first hinge shaft 20 of the knob 13 is inserted into the rotary hole 23 of the connecting rod 19, and the first hinge shaft 20 and the rotary hole 23 can be conveniently aligned and installed.

Two second magnet blocks 24 are arranged in the tea bin 3, and the two second magnet blocks 24 are respectively positioned at the upper end and the lower end of the tea bin 3. With the arrangement, even if the tea bin 3 is turned over up and down, the tea can be stably adsorbed by the cup cover 2. Tea storehouse 3 includes tea storehouse body 29 and tea storehouse lid 30 of threaded connection from top to bottom, encloses into 3 spaces in tea storehouse by tea storehouse body 29 and tea storehouse lid 30, and two second magnet pieces 24 are installed on tea storehouse body 29 and tea storehouse lid 30 through fastener 31 respectively, and the joint between fastener 31 and tea storehouse body 29 or the tea storehouse lid 30, and set up magnet seal 32 between second magnet piece 24 and fastener 31 and realize sealing.

The working process of the formula tea-water separation cup is inhaled to rotatory coordinated control magnetism that this embodiment provided is as follows:

firstly, the cup cover 2 with the tea bin 3 is screwed out of the cup body 1, the cup cover 2 is placed upside down on a table top, the tea bin cover 30 is unscrewed, tea leaves are put into the tea bin 3, and then the tea bin cover 30 is screwed in; a proper amount of boiled water is injected into the cup body 1, and the cup cover 2 is screwed on.

Then, the operation convex rib 18 is held by hand, the knob 13 is rotated clockwise, the connecting rod 19 acts along with the rotation of the knob 13, under the guiding action of the sliding chute 5 on the sliding block 6, the sliding block 6 is driven by the connecting rod 19 to slide in the sliding chute 5, the first magnet block 11 slides along with the sliding block 6, and after the rotation is in place, the tail end of a limiting groove 28 of a limiting ring 27 at the bottom of the knob 13 is blocked by the limiting convex rib 26, so that the knob 13 is prevented from continuing to rotate; at this time, the first magnet block 11 and the second magnet block 24 in the tea bin 3 are completely staggered in the vertical direction, the second magnet block 24 in the tea bin 3 is no longer adsorbed by the first magnet block 11, and the tea bin 3 falls into the bottom of the cup body 13 under the action of gravity to start to enter a tea making state. Then the knob 13 is loosened, the elastic component 7 rebounds, the sliding block 6 and the knob 13 reset under the elastic force of the elastic component 7, at the moment, the head end of the limiting groove 28 of the limiting ring 27 at the bottom of the knob 13 is blocked and limited by the limiting convex rib 26, and the knob 13 is at the initial position.

Tea making a period of time, after the tea concentration reaches the concentration of needs, invert the cup of making tea, tea storehouse 3 is with sinking down at gravity, contacts with bowl cover 2 again to by bowl cover 2 absorption under the effect of magnetic attraction, just set the cup of making tea again, tea storehouse 3 is adsorbed on bowl cover 2 this moment, hangs on the tea in the cup 1, begins to get into tea separation of water mode.

When the tea concentration needs to be changed, the tea bin 3 needs to be placed into the cup body 1 again, or a part of tea is drunk, the cup cover 2 is unscrewed, boiled water is added into the cup body 1, and when tea is brewed again, the tea bin 3 only needs to be turned clockwise again, falls into the cup body 1, and then the tea brewing state can be achieved. Thereby achieving the effect of freely switching between two states of tea making and tea water separation.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a formula tea-water separation cup is inhaled to rotatory coordinated control magnetism, includes cup (1), bowl cover (2) and tea storehouse (3), bowl cover (2) include bowl cover body (4), its characterized in that: a sliding groove (5) extending along the left-right direction is arranged in the cup cover body (4), a sliding block (6) and an elastic component (7) are arranged in the sliding groove (5), the sliding block (6) is elastically abutted to one end of the sliding groove (5) through an elastic component (7), a first magnet block (11) is fixed at the bottom of the sliding block (6), a knob (13) capable of rotating in the circumferential direction is arranged in a through hole (12) in the middle of a main body of the cup cover (2), the knob (13) is located above the sliding groove (5), a connecting rod (19) is arranged between the knob (13) and the sliding block (6), one end of the connecting rod (19) is hinged to the bottom of the knob (13) through a first hinged shaft (20), the other end of the connecting rod (19) is hinged to the top of the sliding block (6) through a second hinged shaft (21), the first hinged shaft (20) and the second hinged shaft (21) extend in the vertical direction, and the axial lead of the first hinged shaft (20) is staggered with the axial lead of;

a second magnet block (24) is arranged on the tea bin (3), the position of the second magnet block (24) corresponds to the position of the first magnet block (11) in a natural state, and the tea bin (3) and the cup cover (2) are adsorbed together through the magnet adsorption; through rotating knob (13), under the effect of connecting rod (19), drive slider (6) and make a round trip to slide in spout (5) for first magnet piece (11) stagger mutually with second magnet piece (24) on tea storehouse (3), and tea storehouse (3) falls into in cup (1) under the action of gravity.

2. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: first articulated shaft (20) set up in knob (13) bottom, second articulated shaft (21) set up at slider (6) top, connecting rod (19) top both ends are equipped with two convex erection columns (22) that make progress, and it has commentaries on classics hole (23) to open at every erection column (22) center, connecting rod (19) rotate the suit respectively on first articulated shaft (20) and second articulated shaft (21) through two commentaries on classics holes (23).

3. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: spout (5) are formed by the clearance between two front and back sliding guide (25), and two front and back sliding guide (25) are fixed in bowl cover (2) main part, and the one end top of one of them sliding guide (25) is equipped with convex spacing bead (26) that makes progress, knob (13) bottom is equipped with downward convex spacing ring (27), and it has one section and spacing bead (26) complex spacing groove (28) to open on spacing ring (27), blocks spacing groove (28) both ends through spacing bead (26) both sides, realizes spacing knob (13) rotation angle.

4. The rotary linkage control magnetic tea-water separating cup as claimed in claim 3, characterized in that: and a section of observation groove (33) is also formed in the limiting ring (27) at the bottom of the knob (13).

5. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: and limiting bulges (10) for limiting the upward tilting of the sliding block (6) are arranged on the front side wall and the rear side wall of the sliding groove (5).

6. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: the center of the top of the knob (13) is provided with an inwards concave depression (17), and the concave depression (17) at the top of the knob (13) is internally provided with an upwards convex operation convex rib (18).

7. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: a spring guide groove (8) is formed in one end, facing the elastic component (7), of the sliding block (6), a spring guide column (9) is arranged on the cup cover (2) body, one end of the elastic component (7) is sleeved in the spring guide groove (8), and the other end of the elastic component is sleeved on the spring guide column (9).

8. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: be equipped with annular installation step (14) that are used for installing knob (13) in bowl cover (2) main part, the periphery of knob (13) is equipped with outside convex collar (15) of round, and knob (13) are through collar (15) overlap joint on annular installation step (14) of bowl cover (2) main part, and collar (15) top of knob (13) is spacing through a clamping ring (16), fixed connection between clamping ring (16) and bowl cover (2) main part, annular gap between clamping ring (16) and annular installation step (14) forms the ring channel, and collar (15) of knob (13) can be in the ring channel internal week to rotating.

9. The rotary linkage control magnetic tea-water separating cup as claimed in claim 1, characterized in that: two second magnet pieces (24) are arranged in the tea bin (3), and the two second magnet pieces (24) are respectively positioned at the upper end and the lower end of the tea bin (3).

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