CN111012215A

CN111012215A - Magnetic vibration assembly for stirring drinks in water cup

Info

Publication number: CN111012215A
Application number: CN202010003121.7A
Authority: CN
Inventors: 潘长霞; 方华椿
Original assignee: Luan Fengkaini Electromechanical Technology Co Ltd
Current assignee: Luan Fengkaini Electromechanical Technology Co Ltd
Priority date: 2020-01-02
Filing date: 2020-01-02
Publication date: 2020-04-17

Abstract

The invention provides a magnetic vibration component for stirring drinks in a water cup, which is characterized by comprising a stirring device (200) arranged in a water cup body (100), wherein the stirring device (200) comprises a stirring component (210) arranged in the water cup body (100), a power transmission mechanism (220) arranged in a mounting shell (120) and a magnetic vibration type driving mechanism (230), the stirring component (210) is used for stirring liquid in the water cup body (100), the power transmission mechanism (220) is movably connected with the connecting end of a handle (110), and the power transmission mechanism (220) is used for receiving power generated when the handle (110) shakes and transmitting the power to the magnetic vibration type driving mechanism (230) for rotation, the magnetic vibration type driving mechanism (230) is used for driving the stirring component (210) to vertically fluctuate and rock along the axial direction of the water cup body (100) by utilizing the magnetic principle that like poles repel each other and opposite poles attract each other and stirring the liquid in the water cup body (100).

Description

Magnetic vibration assembly for stirring drinks in water cup

Technical Field

The invention relates to the field of living appliances, in particular to an assembly for stirring liquid in a water cup.

Background

The existing water cup is diversified, but the function is single, and the use requirements of people cannot be met, for example: people often need to stir by using a spoon when coffee or milk tea is drunk, so that the coffee or milk tea is completely dissolved in water, but when the coffee or milk tea is required to be stirred in the existing water cup, chopsticks or spoons are often needed to be found additionally, which brings inconvenience to practical operation, besides, when the people go out for travel or on a bus, no stirring tools such as spoons, chopsticks and the like are needed, so that the drink is more inconvenient to brew, therefore, the invention needs to provide a stirring water cup which adopts the magnetic principle that like poles repel each other and opposite poles attract each other to drive a stirring assembly to rise and fall and stir the liquid in the water cup, compared with the prior art that the stirring assembly is driven by using a motor as a power source to stir the liquid in the water cup, the bottom of the stirring water cup is not required to be provided with holes, the sealing performance is not affected, the battery leakage phenomenon cannot occur, the stirring, the production cost is low, the stirring process of the stirring water cup is realized by holding the cup body of the water cup by one hand and shaking the handle of the water cup by the other hand of a user, and the pressure reduction effect is achieved; in addition, the power transmission mechanism is provided with two groups of speed-increasing straight gear structures, so that a user can rapidly stir liquid in the water cup by the stirring assembly while shaking the handle, the stirring effect is better, the power transmission mechanism is also provided with the large flywheel, the large flywheel can accumulate kinetic energy, and after the user stops rotating the handle, the stirring assembly can still stir the liquid in the water cup, so that the stirring is more sufficient and the effect is better.

Disclosure of Invention

Compared with the prior art that the stirring component is driven to stir the liquid in the water cup by using a motor as a power source, the stirring water cup does not need to be provided with holes at the bottom, the sealing performance is not affected, the battery leakage phenomenon cannot occur, and meanwhile, the stirring process also has a pressure reduction effect.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

The magnetic vibration assembly is used for stirring drinks in a water cup and comprises a stirring device (200) arranged in the water cup body (100), an installation shell (120) with two ends open and a cylindrical shell structure coaxially extends towards the direction deviating from the cup opening of the water cup body (100), a bottom cover (121) is coaxially fixed at the opening end deviating from the water cup body (100) of the installation shell (120), a first avoidance hole communicated with the inner cavity of the installation shell (120) is formed in the outer circular surface of the installation shell (120), a handle (110) is arranged on the outer circular surface of the water cup body (100), one end of the handle (110) is in contact with the outer circular surface of the water cup body (100), the contact point is close to the cup opening of the water cup body (100), the other end of the handle is a connecting end, and the end of the handle penetrates through the avoidance hole and is located in;

the stirring device (200) comprises a stirring assembly (210) arranged in the water cup body (100), a power transmission mechanism (220) and a magnetic vibration type driving mechanism (230), wherein the power transmission mechanism (220) and the magnetic vibration type driving mechanism (230) are arranged in the installation shell (120), the stirring assembly (210) is used for stirring liquid in the water cup body (100), the power transmission mechanism (220) is movably connected with the connecting end of the handle (110), the power transmission mechanism (220) is used for receiving power generated when the handle (110) shakes and transmitting the power to the magnetic vibration type driving mechanism (230) for rotation, and the magnetic vibration type driving mechanism (230) is used for driving the stirring assembly (210) to axially fluctuate along the water cup body (100) by utilizing the magnetic principle that like poles repel each other and opposite poles attract each other and stirring the liquid in the water cup body (100);

the power transmission mechanism (220) comprises a separation housing (2210), a power conversion member (2220) and a power transmission member (2230), wherein the power conversion member (2220) is used for receiving power generated when the handle (110) shakes and converting the power into power for driving the magnetic vibration type driving mechanism (230) to rotate, and the power transmission member (2230) is used for receiving the power output by the power conversion member (2220) and transmitting the power to the magnetic vibration type driving mechanism (230);

the separating cover shell (2210) is of a circular shell structure with an opening at one end and a closed end, the opening end of the separating cover shell (2210) is coaxially fixed on the bottom cover (121), an avoidance hole II communicated with the inner cavity of the separating cover shell (2210) is formed in the outer circular surface of the separating cover shell (2210), and the connecting end of the handle (110) sequentially penetrates through the avoidance hole I/II and is positioned in the separating cover shell (2210);

the power conversion component (2220) and the power transmission component (2230) are both arranged in the separation housing (2210).

The technical scheme is further improved and optimized.

The power conversion component (2220) comprises a movable support (2221), two guide slide bars (2222) and a return spring (2223), a guide groove is formed in the cavity wall of the separation housing (2210) and is close to the avoidance hole II, the guide direction of each guide slide bar (2222) is parallel to the ground and the vertical surface of the handle (110), one end of each guide slide bar (2222) is located in the corresponding guide groove, the other end of each guide slide bar is a fixed end and is located in the separation housing (2210), the guide slide bars (2222) and the guide grooves form sliding guide fit, preferably, the guide slide bars (2222) are provided with two groups, and the guide grooves are correspondingly provided with two groups;

the movable support (2221) is fixedly connected with the fixed end of the guide sliding rod (2222), a guide area with a guide direction parallel to the axial direction of the water cup body (100) is arranged on the movable support (2221), the guide area is close to the avoidance hole II, the reset spring (2223) is sleeved outside the part, located between the guide groove and the movable support (2221), of the guide sliding rod (2222), the elastic force of the reset spring (2223) drives the movable support (2221) to move away from the guide groove along the guide direction of the guide sliding rod (2222), and two groups of reset springs (2223) are correspondingly arranged;

the handle (110) is hinged with the separation housing (2210), a hinge shaft formed at the hinged joint between the handle (110) and the separation housing (2210) is axially vertical to the vertical surface where the handle (110) is located, the connecting end of the handle (110) is provided with linkage protrusions, the linkage protrusions are provided with two groups, the distance direction between the two groups of linkage protrusions is vertical to the vertical surface where the handle (110) is located, the linkage protrusions are arranged between the two groups of linkage protrusions, one end of the linkage rod is fixedly connected with one group of linkage protrusions, the other end of the linkage rod penetrates through a guide area arranged on the movable support (2221) and is fixedly connected with the other group of linkage protrusions, and the linkage rod and the guide area of the movable support (2221) form sliding guide fit.

The technical scheme is further improved and optimized.

The power conversion component (2220) further comprises an input shaft (2228) and an output shaft (2229), the axial directions of the input shaft (2228) and the output shaft (2229) are both parallel to the axial direction of the water cup body (100), the input shaft (2228) and the output shaft (2229) are both movably arranged in the partition housing (2210) and can rotate around the axial direction of the input shaft, and the end part of the input shaft (2228) facing the water cup body (100) penetrates through the partition housing (2210) and is positioned in the area between the partition housing (2210) and the bottom of the water cup body (100);

the power conversion member (2220) further comprises a driving rack (2224) and a driven spur gear (2225), the extension direction of the driving rack (2224) is parallel to the guiding direction of the guide sliding rod (2222), the driving rack (2224) is fixedly arranged on the movable bracket (2221), the driven spur gear (2225) is coaxially and movably arranged outside the input shaft (2228), the driven spur gear (2225) and the input shaft (2228) do not interfere with each other in rotation, and the driven spur gear (2225) and the driving rack (2224) are meshed with each other;

the power conversion component (2220) further comprises an input straight gear (2226) and an output straight gear (2227), the input straight gear (2226) is coaxially and movably mounted outside the input shaft (2228), the input straight gear (2226) and the input shaft (2228) do not interfere with each other in rotation, the input straight gear (2226) is further fixedly connected with the driven straight gear (2225), the output straight gear (2227) is coaxially fixed outside the output shaft (2229), the output straight gear (2227) and the input straight gear (2226) are meshed with each other, and a speed-up gear transmission structure is formed between the output straight gear (2227) and the input straight gear (2226).

The technical scheme is further improved and optimized.

The power transmission component (2230) comprises an overrunning clutch (2231), a receiving spur gear (2232) and a transmission spur gear (2233), an inner ring body of the overrunning clutch (2231) is coaxially and fixedly connected with an output shaft (2229), the receiving spur gear (2232) is coaxially and fixedly connected with an outer ring body of the overrunning clutch (2231), and the torque force of the output shaft (2229) can be transmitted to the receiving spur gear (2232) in a one-way mode from the output shaft (2229) through the overrunning clutch (2231);

the transmission straight gear (2233) is coaxially fixed outside the input shaft (2228), the transmission straight gear (2233) and the receiving straight gear (2232) are meshed with each other, and a speed-increasing gear transmission structure is formed between the transmission straight gear and the receiving straight gear.

The technical scheme is further improved and optimized.

The overrunning clutch (2231) is a ball type overrunning clutch.

The technical scheme is further improved and optimized.

The magnetic vibration type driving mechanism (230) is positioned on one side, away from the bottom cover (121), of the power transmission mechanism (220), the magnetic vibration type driving mechanism (230) comprises a mounting disc (231), a magnet (232), a magnetic isolation disc (233) and a large flywheel (235), the mounting disc (231) is of a disc body structure, the mounting disc (231) is coaxially fixed to the end portion, facing the water cup body (100), of the input shaft (2228), a mounting hole penetrating through the axial thickness of the mounting disc (231) is formed in the mounting disc (231), the magnet (232) is fixed in the mounting hole, the magnet (232) is provided with four groups in an array mode along the circumferential direction of the mounting disc (231), four groups of the mounting holes are correspondingly arranged, and the magnetic poles of any two adjacent groups of the magnets (232) facing the water cup body (100) in the four groups of magnets;

the large flywheel (235) is coaxially fixed outside the mounting disc (231);

the magnetic isolation disc (233) is made of magnetic isolation materials, the magnetic isolation disc (233) is located on one side, facing the water cup body (100), of the mounting disc (231), the magnetic isolation disc (233) is coaxially and fixedly connected with the mounting disc (231), the magnetic isolation disc (233) is provided with magnetic through holes (234) penetrating through the axial thickness of the magnetic isolation disc, the magnetic through holes (234) are coaxially arranged with the mounting holes formed in the mounting disc (231), and four groups of magnetic through holes (234) are correspondingly arranged.

The technical scheme is further improved and optimized.

The coaxial circular slot that is provided with in chamber end of drinking cup body (100), stirring subassembly (210) including the counter weight ball, the counter weight ball is coaxial to be placed in the circular slot, the sphere of counter weight ball is provided with the stirring arch, logical magnetic hole (234), magnet (232) three are located same straight line and the stirring arch corresponds and is provided with four groups, the stirring arch is made for permanent magnetic material and is opposite between the magnetic pole of two sets of stirring archs towards magnet (232) that lie in same diagonal among the four groups of stirring archs.

The technical scheme is further improved and optimized.

The outer part of the stirring component (210) is provided with an isolation layer made of materials harmless to human bodies.

Compared with the prior art, the stirring cup has the advantages that the stirring component is driven to move up and down and stir liquid in the cup by adopting the magnetic principle that like poles repel each other and opposite poles attract each other, compared with the prior art that the stirring component is driven to stir liquid in the cup by using a motor as a power source, the bottom of the stirring cup is not required to be provided with holes, the sealing performance is not influenced, the battery leakage phenomenon cannot occur, the stirring cup is healthier, meanwhile, the stirring cup is simple in structure and lower in production cost, the stirring process of the stirring cup is realized by holding the cup body by one hand of a user and shaking the handle of the cup by the other hand of the user, and the pressure reduction effect is achieved; in addition, the power transmission mechanism is provided with two groups of speed-increasing straight gear structures, so that a user can rapidly stir liquid in the water cup by the stirring assembly while shaking the handle, the stirring effect is better, the power transmission mechanism is also provided with the large flywheel, the large flywheel can accumulate kinetic energy, and after the user stops rotating the handle, the stirring assembly can still stir the liquid in the water cup, so that the stirring is more sufficient and the effect is better.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of the present invention.

FIG. 3 is a schematic cross-sectional view of the cup body of the present invention.

Fig. 4 is a schematic diagram of the combination of the handle, the stirring device and the limit switch.

Fig. 5 is a schematic diagram of the cooperation among the handle, the power transmission mechanism and the limit switch of the present invention.

Fig. 6 is a schematic diagram of the cooperation among the handle, the power transmission mechanism and the limit switch of the present invention.

Fig. 7 is a schematic diagram of the cooperation among the handle, the power transmission mechanism and the limit switch of the present invention.

Fig. 8 is a schematic view of the engagement between the handle and the movable bracket of the present invention.

Fig. 9 is a schematic structural view of a power conversion member of the present invention.

Fig. 10 is a schematic structural view of the power transmission member of the present invention.

Fig. 11 is a schematic view of the movable bracket of the present invention in cooperation with a limit switch.

Fig. 12 is a schematic structural diagram of a limit switch of the present invention.

Fig. 13 is a schematic view of the engagement between the limiting shaft and the movable bracket according to the present invention.

Fig. 14 is a schematic diagram of the magnetic vibration type driving mechanism of the present invention engaged with an input shaft.

Fig. 15 is a schematic diagram of the magnetic vibration type driving mechanism of the present invention engaged with an input shaft.

Fig. 16 is a schematic diagram of the magnetic vibration type driving mechanism of the present invention engaged with an input shaft.

Fig. 17 is a schematic diagram of the magnetic vibration type driving mechanism of the present invention engaged with an input shaft.

Fig. 18 is a schematic cross-sectional view of the input shaft and the magnetically resonant drive mechanism of the present invention.

Detailed Description

The stirring cup has the advantages that the stirring assembly is driven to move up and down and stir the liquid in the cup by adopting the magnetic principle that like poles repel each other and opposite poles attract each other, compared with the prior art that the stirring assembly is driven to stir the liquid in the cup by using a motor as a power source, the bottom of the stirring cup is not required to be provided with holes, the sealing performance is not influenced, the battery leakage phenomenon cannot occur, the stirring cup is healthier, meanwhile, the stirring cup is simple in structure and lower in production cost, the stirring process of the stirring cup is realized by holding the cup body with one hand and shaking the cup handle with the other hand of a user, and the pressure reduction effect is realized; in addition, the power transmission mechanism is provided with two groups of speed-increasing straight gear structures, so that a user can rapidly stir liquid in the water cup by the stirring assembly while shaking the handle, the stirring effect is better, the power transmission mechanism is also provided with the large flywheel, the large flywheel can accumulate kinetic energy, and after the user stops rotating the handle, the stirring assembly can still stir the liquid in the water cup, so that the stirring is more sufficient and the effect is better.

Mechanical magnetic vibration formula stirring drinking cup, it includes drinking cup body 100, agitating unit 200, the coaxial extension of the bottom of cup of drinking cup body 100 towards the direction that deviates from self rim of a cup has the installation shell 120 that is both ends open-ended cylindrical shell structure, and the coaxial bottom 121 that is fixed with of the open end that installation shell 120 deviates from drinking cup body 100, the hole of dodging one rather than the inner chamber switch-on is seted up to the excircle face of installation shell 120, the excircle face of drinking cup body 100 is provided with handle 110, the one end of handle 110 and the outer disc contact of drinking cup body 100 and the rim of a cup that the contact point is close to drinking cup body 100, the other end passes for link and this end and dodges the hole and be located installation shell 120.

The stirring device 200 is used for stirring liquid in the water cup body 100, the stirring device 200 comprises a stirring component 210 arranged in the water cup body 100, a power transmission mechanism 220 arranged in the installation shell 120 and a magnetic vibration type driving mechanism 230, the stirring component 210 is used for stirring the liquid in the water cup body 100, the power transmission mechanism 220 is movably connected with the connecting end of the handle 110, the power transmission mechanism 220 is used for receiving power generated when the handle 110 shakes and transmitting the power to the magnetic vibration type driving mechanism 230 for rotation, and the magnetic vibration type driving mechanism 230 is used for driving the stirring component 210 to shake up and down along the axial direction of the water cup body 100 and stir the liquid in the water cup body 100 by utilizing the magnetic principle that like poles repel each other and opposite poles attract each other.

The power transmission mechanism 220 includes a partition housing 2210, a power conversion member 2220, and a power transmission member 2230, wherein the power conversion member 2220 is used for receiving the power generated by shaking the handle 110 and converting it into the power for driving the magnetic vibration type driving mechanism 230 to rotate, and the power transmission member 2230 is used for receiving the power output by the power conversion member 2220 and transmitting it to the magnetic vibration type driving mechanism 230.

The separation cover 2210 is a circular shell structure with an open end and a closed end, the open end of the separation cover 2210 is coaxially fixed on the bottom cover 121, an avoiding hole two communicated with the inner cavity of the separation cover 2210 is formed on the outer circular surface of the separation cover 2210, and the connecting end of the handle 110 sequentially passes through the avoiding hole one/two and is positioned in the separation cover 2210.

Power conversion member 2220 and power transmission member 2230 are disposed within partition housing 2210.

The power conversion member 2220 includes a movable support 2221, a guide sliding bar 2222, and a return spring 2223, wherein a cavity wall of the partition housing 2210 is provided with a guide groove close to the second avoidance hole, a guiding direction of the guide sliding bar 2222 is parallel to the ground and a vertical plane of the handle 110, one end of the guide sliding bar 2222 is located in the guide groove, the other end is a fixed end and is located in the partition housing 2210, and the guide sliding bar 2222 and the guide groove form a sliding guide fit.

The fixed ends of the movable support 2221 and the guide sliding rod 2222 are fixedly connected, a guide area with a guide direction parallel to the axial direction of the water cup body 100 is arranged on the movable support 2221, the guide area is close to the avoidance hole II, the return spring 2223 is sleeved on the part of the guide sliding rod 2222 between the guide groove and the movable support 2221, the elastic force of the return spring 2223 drives the movable support 2221 to move away from the guide groove along the guide direction of the guide sliding rod 2222, and the return spring 2223 is correspondingly provided with two groups.

The handle 110 is hinged to the partition housing 2210, an axial direction of a hinge shaft formed at the hinged joint between the handle 110 and the partition housing 2210 is perpendicular to a vertical surface of the handle 110, the connecting end of the handle 110 is provided with two sets of linkage protrusions, the distance direction between the two sets of linkage protrusions is perpendicular to the vertical surface of the handle 110, the two sets of linkage protrusions are arranged on a linkage rod, one end of the linkage rod is fixedly connected with one set of linkage protrusions, the other end of the linkage rod penetrates through a guide area arranged on the movable support 2221 and is fixedly connected with the other set of linkage protrusions, and the linkage rod and the guide area of the movable support 2221 form sliding guide fit.

A user can hold the cup body 100 with one hand and hold the handle 110 with the other hand, and then, the user shakes the handle 110, i.e., the handle 110 is reciprocally rotated in the axial direction about the hinge axis between the handle 110 and the partition housing 2210, and the handle 110 is rotated and drives the movable bracket 2221 to be reciprocally moved in the guide direction of the guide slide bar 2222 by the cooperation between the linkage lever and the guide area of the movable bracket 2221.

The power conversion member 2220 further includes an input shaft 2228 and an output shaft 2229, the axial directions of the input shaft 2228 and the output shaft 2229 are both parallel to the axial direction of the cup body 100, and both are movably mounted in the partition housing 2210 and can rotate around the axial direction thereof, and the end of the input shaft 2228 facing the cup body 100 passes through the partition housing 2210 and is located in the area between the partition housing 2210 and the bottom of the cup body 100.

The power conversion member 2220 further includes a driving rack 2224 and a driven spur gear 2225, wherein the extending direction of the driving rack 2224 is parallel to the guiding direction of the guide slide bar 2222, the driving rack 2224 is fixedly mounted on the movable bracket 2221, the driven spur gear 2225 is coaxially and movably mounted outside the input shaft 2228, the driven spur gear 2225 and the input shaft 2228 do not interfere with each other during respective rotation, and the driven spur gear 2225 and the driving rack 2224 are engaged with each other.

The power conversion member 2220 further includes an input spur gear 2226 and an output spur gear 2227, the input spur gear 2226 is coaxially and movably mounted outside the input shaft 2228, the input spur gear 2226 and the input shaft 2228 do not interfere with each other during respective rotations, the input spur gear 2226 is further fixedly connected with the driven spur gear 2225, the output spur gear 2227 is coaxially fixed outside the output shaft 2229, the output spur gear 2227 and the input spur gear 2226 are engaged with each other, and a speed-increasing gear transmission structure is formed therebetween.

The movable support 2221 reciprocates in the guiding direction of the guide slide bar 2222 and drives the driven spur gear 2225 to rotate axially around itself through the driving rack 2224, the driven spur gear 2225 rotates and pulls the input spur gear 2226 to rotate synchronously, the input spur gear 2226 rotates and pulls the output shaft 2229 to rotate axially around itself through the output spur gear 2227, and since a speed-increasing gear transmission structure is formed between the output spur gear 2227 and the input spur gear 2226, the rotation speed of the output shaft 2229 is greater than that of the driven spur gear 2225.

The power transmission member 2230 includes an overrunning clutch 2231, a receiving spur gear 2232 and a transmission spur gear 2233, an inner ring body of the overrunning clutch 2231 is coaxially and fixedly connected with the output shaft 2229, and an outer ring body of the receiving spur gear 2232 is coaxially and fixedly connected with the outer ring body of the overrunning clutch 2231, and particularly, the torque of the output shaft 2229 can be transmitted from the output shaft 2229 to the receiving spur gear 2232 in a one-way manner through the overrunning clutch 2231.

In a further embodiment, the overrunning clutch 2231 is a ball type overrunning clutch.

The transmission spur gear 2233 is coaxially fixed to the outside of the input shaft 2228, and the transmission spur gear 2233 and the receiving spur gear 2232 are engaged with each other and form a speed-increasing gear transmission structure therebetween.

The output shaft 2229 rotates and drives the receiving spur gear 2232 to rotate through the overrunning clutch 2231, the receiving spur gear 2232 rotates and drives the input shaft 2228 to rotate axially around itself through the transmitting spur gear 2233, and since a speed-increasing gear transmission structure is formed between the transmitting spur gear 2233 and the receiving spur gear 2232, the output rotation speed of the input shaft 2228 is greater than that of the output shaft 2229.

The magnetic vibration type driving mechanism 230 is located on one side, away from the bottom cover 121, of the power transmission mechanism 220, the magnetic vibration type driving mechanism 230 comprises a mounting disc 231, magnets 232, a magnetic isolation disc 233 and a large flywheel 235, the mounting disc 231 is of a disc body structure, the mounting disc 231 is coaxially fixed to the end, facing the water cup body 100, of the input shaft 2228, mounting holes penetrating through the axial thickness of the mounting disc 231 are formed in the mounting disc 231, the magnets 232 are fixed in the mounting holes, four groups of the magnets 232 are arranged in an array along the circumferential direction of the mounting disc 231, the four groups of the mounting holes are correspondingly arranged, and the magnetic poles, facing the water cup body 100, of any two adjacent groups of the magnets 232 in.

The large flywheel 235 is coaxially fixed to the outside of the mounting plate 231.

The magnetic isolation disc 233 is made of a magnetic isolation material, the magnetic isolation disc 233 is located on one side, facing the water cup body 100, of the mounting disc 231, the magnetic isolation disc 233 is coaxially and fixedly connected with the mounting disc 231, a magnetic through hole 234 penetrating through the axial thickness of the magnetic isolation disc 233 is formed in the magnetic isolation disc 233, the magnetic through hole 234 and the mounting hole formed in the mounting disc 231 are coaxially arranged, and four groups of the magnetic through holes 234 are correspondingly arranged.

The input shaft 2228 rotates and pulls the magnetic vibration type driving mechanism 230 to rotate synchronously, and meanwhile, in the rotating process, because the mass of the large flywheel 235 is relatively large, the rotating speed of the large flywheel 235 is gradually increased from zero to achieve the purpose of energy storage, namely, after a user stops shaking the handle 110, the kinetic energy accumulated by the large flywheel 235 can still drive the magnetic vibration type driving mechanism 230 to continue to rotate for a period of time.

The coaxial circular slot that is provided with in the chamber bottom of drinking cup body 100, stirring subassembly 210 include the counter weight ball, the counter weight ball is coaxial to be placed in the circular slot, the sphere of counter weight ball is provided with the stirring arch, logical magnetic hole 234, magnet 232 three are located same straight line and the stirring arch corresponds and is provided with four groups, the stirring arch is made for permanent magnetic material and two sets of stirring archs that lie in same diagonal among four groups of stirring archs are opposite towards the magnetic pole of magnet 232.

The stirring assembly 210 is externally provided with an isolation layer made of a material harmless to the human body.

Because of the existence of the magnetic separation disc 233, the magnetic field of the magnet 232 can only act on the stirring protrusions through the magnetic through hole 234, and because any two adjacent groups of magnets 232 in the four groups of magnets 232 are opposite to each other in the magnetic poles facing the water cup body 100, and two groups of stirring protrusions on the same diagonal line in the four groups of stirring protrusions are opposite to each other in the magnetic poles facing the magnet 232, the stirring protrusions can reciprocate up and down along the axial direction of the water cup body 100 to stir the liquid in the water cup body 100 according to the magnetic principle that like poles repel each other and opposite poles attract each other.

More specifically, since the stirring cup stirs the liquid through the stirring device 200 by the shaking of the handle 110 by the user, when the user drinks water with the stirring cup, the user can only hold the cup body 100 to lift the cup, if the user accidentally or other people intend to lift the cup by holding the handle 110, the stirring cup cannot be lifted, the cup is easily shaken and the liquid inside the cup is splashed outwards, the cup is seriously overturned and the liquid inside the cup scalds the user or splashes to nearby important objects to damage the objects, and in order to solve the problem, the mounting shell 120 is further internally provided with the limit switch 300 for limiting the movement of the movable support 2221 and further limiting the manual shaking of the handle 110 by the user.

The outer circumferential surface of the mounting housing 120 is provided with a sliding hole communicated with the inner cavity of the mounting housing, and the sliding hole and the handle 110 are respectively located at one side of the mounting housing 120 along the axial direction thereof.

The limit switch 300 comprises a press slide bar, the guide direction of the press slide bar is parallel to the guide direction of the guide slide bar 2222, one end of the press slide bar is positioned in the installation shell 120 and the other end is fixedly provided with an installation block 301, the other end of the press slide bar passes through a slide hole and is positioned outside the installation shell 120 and the other end is fixedly provided with a press cap 302, and the press slide bar and the slide hole form sliding guide fit.

The outside of the pressing slide bar is also sleeved with a limiting spring 303, one end of the limiting spring 303 abuts against the pressing cap 302, the other end of the limiting spring abuts against the outer circular surface of the installation shell 120, and the elastic force of the limiting spring 303 drives the pressing cap 302 to move away from the installation shell 120.

One side of the movable support 2221 facing the sliding hole is provided with a guiding area with a guiding direction parallel to the guiding direction of the guiding sliding rod 2222, the movable support 2221 is further provided with a limiting hole, the limiting hole is of a semicircular hole structure with an axial direction parallel to the axial direction of the mounting shell 120, the limiting hole is positioned on one side of the guiding area along the guiding direction of the guiding area, and the limiting hole and the guiding area are communicated with each other.

The limit switch 300 further comprises a limit rack 304, a limit straight gear 305 and a limit shaft 306, the axial direction of the limit shaft 306 is parallel to the axial direction of the installation shell 120, the limit shaft 306 is movably installed in the installation shell 120 and can rotate around the axial direction of the limit shaft, the limit shaft 306 can be divided into three parts along the axial direction of the limit shaft and is respectively a first connecting section/second connecting section and a limit section, the first connecting section/second connecting section is of a smooth round shaft structure, the first connecting section is located on one side, facing the bottom cover 121, of the movable support 2221, the second connecting section is located on one side, facing the water cup body 100, of the movable support 2221, the limit section is of a semi-cylindrical structure matched with a limit hole, one end of the limit section is coaxially and fixedly connected with the first connecting section, and the other end of.

The extending direction of the limiting rack 304 is parallel to the guiding direction of the guide sliding bar 2222, the limiting rack 304 is fixedly connected with the mounting block 301, the limiting spur gear 305 is coaxially fixed outside the limiting shaft 306, and the limiting spur gear 305 is meshed with the limiting rack 304.

The motion state of the limit switch 300 can be divided into a limit state in which the limit section of the limit shaft 306 is located in the limit hole, a withdrawn state in which the limit shaft 306 rotates and enables the limit section to rotate to the guide area of the movable support 2221, and an initial state of the limit switch 300 is a limit state.

The motion state switching process of the limit switch 300 is specifically represented as follows: a user manually presses the pressing cap 302 and enables the pressing cap 302 to move close to the mounting shell 120, the pressing cap 302 moves and pulls the pressing sliding rod/mounting block 301/limiting rack 304 to synchronously move, the limiting rack 304 moves and pulls the limiting shaft 306 to axially rotate around the limiting shaft 306 through the limiting spur gear 305, the limiting shaft 306 rotates and finally enables the limiting section to rotate into a guiding area of the movable support 2221, and the limiting switch 300 is switched to a withdrawing state; when the user cancels the pressing of the pressing cap 302, the limit switch 300 moves reversely and is switched to the limit state under the elastic force of the limit spring 303;

when the limit switch 300 is in the limit state, because the limit section of the limit shaft 306 is located in the limit hole, the movable bracket 2221 cannot move close to the handle 110 along the guiding direction of the guiding slide bar 2222, so that the handle 110 cannot rotate around the hinge shaft between itself and the partition housing 2210 in an axial direction deviating from the outer circumferential surface of the cup body 100, i.e., the user can get up the cup body 100 by holding the end of the handle 110; when the limit switch 300 is in the withdrawn state, since the limit section of the limit shaft 306 is located in the guide area of the movable support 2221, the limit switch 300 does not affect the movement of the movable support 2221, that is, the limit switch 300 does not affect the stirring device 200 and the handle 110.

In actual operation, a user holds the cup body 100 with one hand and presses the limit switch 300 to switch to the withdrawn state, and holds the handle 110 with the other hand, and then swings the handle 110, that is, the handle 110 reciprocates axially around the hinge axis between the handle and the partition housing 2210, the handle 110 rotates and drives the movable bracket 2221 to reciprocate along the guide direction of the guide slide bar 2222 by the cooperation between the coupling lever and the guide area of the movable bracket 2221, the movable bracket 2221 reciprocates along the guide direction of the guide slide bar 2222 and drives the driven spur gear 2225 to rotate axially around itself by the driving rack 2224, the driven spur gear 2225 rotates and drives the input spur gear 2226 to rotate synchronously, the input spur gear 2226 rotates and drives the output shaft 2229 to rotate axially around itself by the output spur gear 2227, and since a speed-increasing gear transmission structure is formed between the output spur gear 2227 and the input spur gear 2226, therefore, the rotation speed of the output shaft 2229 is greater than the rotation speed of the driven spur gear 2225, then, the output shaft 2229 rotates and drives the receiving spur gear 2232 to rotate through the overrunning clutch 2231, the receiving spur gear 2232 rotates and drives the input shaft 2228 to rotate around its own axis through the transmitting spur gear 2233, since the transmitting spur gear 2233 and the receiving spur gear 2232 form a speed-increasing gear transmission structure, the output rotation speed of the input shaft 2228 is greater than the rotation speed of the output shaft 2229, then, the input shaft 2228 rotates and pulls the magnetic vibration type driving mechanism 230 to rotate synchronously, during the rotation of the magnetic vibration type driving mechanism 230, since the mass of the large flywheel 235 is greater, the rotation speed of the large flywheel 235 increases gradually from zero and achieves the purpose of energy storage, even after the user stops shaking the handle 110, the kinetic energy of the large flywheel 235 can still drive the magnetic vibration type driving mechanism 230 to rotate for a while according to the magnetic principle that like poles repel and opposite poles attract each other, during the rotation of the magnetic vibration type driving mechanism 230, the stirring protrusion can perform reciprocating fluctuation and shake along the axial direction of the water cup body 100, so as to stir the liquid in the water cup body 100;

after the stirring is finished, the user releases the handle 110 and the limit switch 300, wherein the limit switch 300 is switched to the limit state under the elastic force of the limit spring 303 in the limit switch, and the user can hold the end of the handle 110 to lift the water cup body 100.

Claims

1. The magnetic vibration assembly is characterized by comprising a stirring device (200) arranged in a water cup body (100), wherein a mounting shell (120) of a cylindrical shell structure with two open ends coaxially extends towards the direction deviating from the cup opening of the water cup body (100) from the cup bottom of the water cup body (100), a bottom cover (121) is coaxially fixed at the opening end deviating from the water cup body (100) of the mounting shell (120), a first avoidance hole communicated with the inner cavity of the mounting shell (120) is formed in the outer circular surface of the mounting shell (120), a handle (110) is arranged on the outer circular surface of the water cup body (100), one end of the handle (110) is in contact with the outer circular surface of the water cup body (100), the contact point is close to the cup opening of the water cup body (100), the other end of the handle is a connecting end, and the end of the handle passes through the avoidance hole and is;

2. The magnetic vibration assembly for stirring the beverage in the cup according to claim 1, wherein the power conversion member (2220) comprises a movable support (2221), a guide sliding rod (2222) and a return spring (2223), the cavity wall of the partition housing (2210) is provided with a guide slot close to the second avoidance hole, the guide direction of the guide sliding rod (2222) is parallel to the ground and the vertical plane of the handle (110), one end of the guide sliding rod (2222) is located in the guide slot, the other end of the guide sliding rod is a fixed end and is located in the partition housing (2210), the guide sliding rod (2222) and the guide slot form a sliding guide fit, preferably, the guide sliding rod (2222) is provided with two groups and the two groups of guide slots are correspondingly arranged;

3. The assembly of claim 2, wherein the power conversion member (2220) further comprises an input shaft (2228) and an output shaft (2229), the axial directions of the input shaft (2228) and the output shaft (2229) are parallel to the axial direction of the cup body (100), and both are movably mounted in the partition housing (2210) and can rotate around the axial direction of the cup body, the end of the input shaft (2228) facing the cup body (100) passes through the partition housing (2210) and is located in the area between the partition housing (2210) and the bottom of the cup body (100);

4. The magnetic vibration assembly for stirring the drinks in the water cup according to claim 3, wherein the power transmission member (2230) comprises an overrunning clutch (2231), a receiving spur gear (2232) and a transmission spur gear (2233), an inner ring body of the overrunning clutch (2231) is coaxially and fixedly connected with the output shaft (2229), the receiving spur gear (2232) is coaxially and fixedly connected with an outer ring body of the overrunning clutch (2231), and the torque force of the output shaft (2229) can be transmitted to the receiving spur gear (2232) in a one-way manner through the overrunning clutch (2231);

5. The magnetic vibration assembly for stirring the beverage in the cup as claimed in claim 4, wherein the overrunning clutch (2231) is a ball type overrunning clutch.

6. The magnetic vibration assembly for stirring the drink in the water cup as claimed in claim 4, the magnetic vibration type driving mechanism (230) is positioned on one side of the power transmission mechanism (220) departing from the bottom cover (121), the magnetic vibration type driving mechanism (230) comprises a mounting disc (231), a magnet (232), a magnetic isolation disc (233) and a large flywheel (235), the mounting disc (231) is of a disc body structure, the mounting disc (231) is coaxially fixed at the end part of the input shaft (2228) facing the water cup body (100), mounting holes penetrating through the axial thickness of the mounting disc (231) are formed in the mounting disc (231), the magnets (232) are fixed in the mounting holes, four groups of magnets (232) are arranged in an array along the circumferential direction of the mounting disc (231), four groups of mounting holes are correspondingly arranged, and the magnetic poles of any two adjacent groups of magnets (232) in the four groups of magnets (232) facing the water cup body (100) are opposite;

the large flywheel (235) is coaxially fixed outside the mounting disc (231);

7. The magnetic vibration assembly for stirring the drinks in the cup according to claim 6, wherein the bottom of the cavity of the cup body (100) is coaxially provided with a circular groove, the stirring assembly (210) comprises a counterweight ball which is coaxially placed in the circular groove, the spherical surface of the counterweight ball is provided with stirring protrusions, the magnetic through holes (234) and the magnets (232) are positioned on the same straight line, four groups of the stirring protrusions are correspondingly arranged, the stirring protrusions are made of permanent magnetic materials, and the magnetic poles of two groups of the stirring protrusions positioned on the same diagonal line among the four groups of the stirring protrusions face the magnets (232) oppositely.

8. The magnetic vibration assembly for stirring the beverage in the cup as claimed in claim 7, wherein the stirring assembly (210) is externally provided with an isolation layer made of a material harmless to human body.