CN111096695A

CN111096695A - Multifunctional cup capable of mixing and stirring in one direction

Info

Publication number: CN111096695A
Application number: CN202010001788.3A
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: 2020-05-05

Abstract

The invention provides a multifunctional water cup with unidirectional mixing and stirring, which comprises a water cup and a stirring device, wherein the water cup comprises a cup shell and an inner container, the inner container is coaxially fixed in the cup shell, the open end of the inner container and the open end of the cup shell are positioned in the same plane, the area between the closed end of the inner container and the cavity bottom of the cup shell is an installation area of the water cup, the outer circular surface of the cup shell is also provided with a handle, the plane of the handle is parallel to the axial direction of the cup shell, the stirring device comprises a manual driving mechanism and a stirring mechanism, the manual driving mechanism is arranged on the handle, the output end of the manual driving mechanism penetrates through the wall of the cup shell and is positioned in the installation area of the water cup, the stirring mechanism is arranged in the water cup, the stirring mechanism is also in power connection with the output end of the manual driving mechanism, and the manual driving mechanism, the stirring mechanism is used for stirring the liquid in the inner container under the driving of the power provided by the manual driving mechanism.

Description

Multifunctional cup capable of mixing and stirring in one direction

Technical Field

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

Background

The cup is a container for containing drinking liquid, generally adopts a cylindrical shape with the height larger than the width so as to be convenient to take by one hand and keep the temperature of the liquid, some cups also have handles and have additional anti-scalding, heat-preserving and other functional structures, the cup is generally small in size, wide in cup bottom and capable of being stably placed on a table, the cup body is made of firm and water-insoluble materials such as glass, plastics, ceramics, metal and the like and can safely contain various drinkable liquids, when drinking coffee, milk tea and other drinks, stirring objects such as spoons, chopsticks and the like are required to be stirred so as to achieve a good drinking effect, the traditional cup is not provided with a stirring tool and can only be prepared separately, inconvenience is brought to use, most of the water cups are electric stirring cups on the market, and because the volume and the weight of batteries and electric equipment are large, the water storage capacity of the cup is correspondingly reduced, the weight of the cup is increased, electric energy is consumed, energy waste is caused, the battery has certain pollution, and if the water is leaked, the water is not beneficial to human health; two groups of speed-increasing gear structures are arranged in the power transmission member between the stirring member and the handle, so that a user does not need to perform reciprocating action of quickly pressing/loosening the handle, and the stirring member can quickly rotate around the self axial direction and fully stir the liquid in the water cup by performing the reciprocating action of pressing/loosening the handle at a normal speed; the power transmission member is also provided with an overrunning clutch for transmitting power in a single direction, and the overrunning clutch enables the stirring member to rotate in a single direction, so that the stirring member can be prevented from rotating forwards and backwards at higher frequency to cause liquid to spill outwards through the cup mouth; in addition, this stirring drinking cup still possesses the decompression effect.

Disclosure of Invention

In order to solve the disadvantages of the prior art, an object of the present invention is to provide a mixing cup, which can sufficiently mix the liquid in the cup, and the power of the mixing cup is derived from the reciprocating action of the user manually pressing/releasing the handle, and the force required by the user to press the handle is small, and compared with the mixing cup of the prior motor driving type, the mixing cup is simple to operate, is suitable for any environment, and does not generate battery infiltration or electric leakage accidents.

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

The multifunctional water cup with unidirectional mixing and stirring comprises a water cup and a stirring device, wherein the stirring device is used for stirring liquid in the water cup;

the water cup comprises a cup shell and an inner container, wherein the cup shell and the inner container are both of a cylindrical shell structure with one open end and one closed end, the inner container is coaxially fixed in the cup shell, the open end of the inner container and the open end of the cup shell are positioned in the same plane, the area between the closed end of the inner container and the cavity bottom of the cup shell is an installation area of the water cup, a handle is further arranged on the outer circular surface of the cup shell, and the plane where the handle is positioned is parallel to the axial direction of the cup shell;

agitating unit include manual formula actuating mechanism, rabbling mechanism, manual formula actuating mechanism installs on hand and its output passes the cup shell conch wall and lies in the installing zone of drinking cup, rabbling mechanism installs in the drinking cup and the rabbling mechanism still with power connection between manual formula actuating mechanism's the output, manual formula actuating mechanism is used for by the user reciprocal press/unclamp and produce the power of ordering about the rabbling mechanism operation, the rabbling mechanism is used for stirring the processing to the liquid in the inner bag under the power that manual formula actuating mechanism provided orders about.

The technical scheme is further improved and optimized.

The handle is of a hollow structure, an avoiding area penetrating the thickness of the side surface of the handle facing the cup shell is formed in the side surface of the handle, and the manual driving mechanism comprises a handle and a connecting rope;

the handle consists of three parts, namely a pressing section, a linkage section and a connecting section, wherein the connecting section is arranged in the handle and is obliquely arranged, the distance between the connecting section and the cup shell is gradually reduced along the axial direction of the cup shell and from the closed end of the cup shell to the open end of the cup shell, the end part with the largest distance between the connecting section and the cup shell is a connecting end, the end part with the smallest distance between the connecting section and the cup shell is a hinged end, the hinged end of the connecting section is hinged with the handle, and the axial direction of a hinged shaft formed at the hinged connection position between the hinged end of the connecting section and the handle is vertical to the plane of the handle;

one end of the handle linkage section is fixedly connected with the hinged end of the connecting section, the other end of the handle linkage section is a fixed end, the end penetrates through an avoidance area arranged on the handle and is positioned in an area between the handle and the cup shell, the linkage section is obliquely arranged, the distance between the linkage section and the cup shell is gradually reduced along the axial direction of the cup shell and the direction from the closed end of the cup shell to the open end of the cup shell, and a V-shaped structure with an acute included angle is formed between the linkage section and the connecting section;

one end of the handle pressing section is fixedly connected with the fixed end of the linkage section, the other end of the handle pressing section is suspended, the pressing section is obliquely arranged, the distance between the pressing section and the cup shell increases along the axial direction of the cup shell and in the direction from the closed end of the cup shell to the open end of the cup shell, and a V-shaped structure with an obtuse inner included angle is formed between the pressing section and the linkage section;

the cup shell outer disc set up run through its radial thickness and with the wearing hole of drinking cup installing zone switch-on, the one end of connecting rope and handle linkage segment between the link fixed connection, the other end be the installation end and this end passes the wearing hole and is located the installing zone of drinking cup.

The technical scheme is further improved and optimized.

The handle in be provided with the limiting plate, set up the perforation that runs through its thickness on the limiting plate, the link of one end of connection rope and handle linkage segment between fixed connection, the other end pass and set up the perforation on the limiting plate and set up in the wearing to establish hole of the outer disc of cup shell and lie in the installing zone of drinking cup, the limiting plate matches and is provided with a plurality of groups and a plurality of groups limiting plate cooperation and make the connection rope keep away from on the chamber wall of cup shell near the handle.

The technical scheme is further improved and optimized.

The stirring mechanism comprises a stirring member which is arranged in the inner container and used for stirring the liquid in the inner container, and a power transmission member which is arranged in the water cup mounting area and used for receiving the power generated by the manual driving mechanism and transmitting the power to the stirring member for stirring operation of the stirring member;

the sealed end of the inner container is coaxially arranged in a rotating hole penetrating through the thickness of the inner container, the stirring component comprises a stirring piece and a stirring shaft, the stirring shaft and the inner container are coaxially arranged, the power output end of the stirring shaft is positioned in the inner container and fixedly connected with the stirring piece, the power input end of the stirring shaft penetrates through the rotating hole formed in the sealed end of the inner container and is positioned in an installation area of a water cup, the stirring shaft can rotate around the axial direction of the stirring shaft, and a sealed rotating fit is formed between the stirring shaft and the rotating hole formed in the sealed end of the inner container.

The technical scheme is further improved and optimized.

The power transmission component comprises a housing, a power conversion component and a power acceleration component, the power conversion component is used for receiving power generated by the operation of the manual driving mechanism and converting the power into driving force for driving the stirring shaft to rotate, and the power acceleration component is used for receiving the driving force, accelerating the driving force and transmitting the driving force to the stirring shaft;

the housing be both ends open-ended circular shell structure and the housing is coaxial to be fixed in the installing zone of drinking cup, the housing is coaxial to be fixed with the end cover towards the open end of inner bag coaxial, the end cover is coaxial to be seted up runs through its axial thickness dodge hole one, and the power input end of (mixing) shaft passes and dodges the hole and lie in the housing in the lump, the (mixing) shaft with dodge and constitute sealed normal running fit between the hole one, the outer disc of housing is still seted up runs through its radial thickness dodge hole two, dodge hole two and set up and be coaxial arrangement and connect the installation end of rope and pass and dodge hole two and lie in the housing between the hole of wearing to establish of the outer disc of cup.

The technical scheme is further improved and optimized.

The power conversion assembly comprises guide slide bars, a movable support and a return spring, the guide direction of each guide slide bar is perpendicular to the axial direction of the cup shell and is also parallel to the plane of the handle, the guide slide bars are fixedly arranged in the housing, and two groups of guide slide bars are arranged, and the distance direction between the two groups of guide slide bars is perpendicular to the plane of the handle;

the movable support is movably arranged outside the guide slide rod, a sliding guide fit is formed between the movable support and the guide slide rod, the reset springs are sleeved outside the guide slide rod, two groups of reset springs are correspondingly arranged, one end of each reset spring is abutted with a part of the wall of the housing cavity close to the handle, the other end of each reset spring is abutted with the movable support, and the elastic force of each reset spring drives the movable support to move away from the handle along the guide direction of the guide slide rod;

the movable bracket is fixedly connected with the mounting end of the connecting rope;

the power conversion assembly further comprises a driving rack, a gear shaft and a driven straight gear, the extending direction of the driving rack is parallel to the guiding direction of the guide sliding rod, the driving rack is fixedly installed on the movable support, the axial direction of the gear shaft is parallel to the axial direction of the cup shell, the gear shaft is movably installed in the housing and can rotate around the axial direction of the gear shaft, and the driven straight gear is coaxially and fixedly installed outside the gear shaft and is meshed with the driving rack.

The technical scheme is further improved and optimized.

The power speed increasing assembly comprises an overrunning clutch, an input straight gear, a transmission shaft, an output straight gear, a receiving straight gear and a transmission straight gear;

the gear shaft is coaxially and fixedly connected with the inner ring body of the overrunning clutch, the input straight gear is coaxially and fixedly connected with the outer ring body of the overrunning clutch, and the torque force of the gear shaft can be transmitted in a one-way mode from the gear shaft to the input straight gear through the overrunning clutch;

the axial direction of the transmission shaft is parallel to the axial direction of the gear shaft, the transmission shaft is movably arranged in the housing and can rotate around the self axial direction, the output straight gear is coaxially fixed outside the transmission shaft, the input straight gear and the output straight gear are meshed and form a speed-increasing gear structure;

the receiving spur gear is coaxially fixed outside the transmission shaft, the transmission spur gear is coaxially fixed outside the power input end of the stirring shaft, and the receiving spur gear and the transmission spur gear are meshed and form a speed-increasing gear structure.

The technical scheme is further improved and optimized.

The overrunning clutch is a ball type overrunning clutch.

Compared with the prior art, the invention has the advantages that the liquid in the water cup can be fully stirred, the power of the water cup is from the reciprocating action of manually pressing/loosening the handle by a user, and the force required by pressing the handle by the user is smaller, compared with the existing stirring water cup in a motor driving mode, the water cup is simple to operate, is suitable for any environment, and cannot generate battery permeation or electric leakage accidents; two groups of speed-increasing gear structures are arranged in the power transmission member between the stirring member and the handle, so that a user does not need to perform reciprocating action of quickly pressing/loosening the handle, and the stirring member can quickly rotate around the self axial direction and fully stir the liquid in the water cup by performing the reciprocating action of pressing/loosening the handle at a normal speed; the power transmission member is also provided with an overrunning clutch for transmitting power in a single direction, and the overrunning clutch enables the stirring member to rotate in a single direction, so that the stirring member can be prevented from rotating forwards and backwards at higher frequency to cause liquid to spill outwards through the cup mouth; in addition, this stirring drinking cup still possesses the decompression effect.

Drawings

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

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic cross-sectional view of the present invention.

Fig. 4 is a schematic diagram of the cooperation of the cup and the manual driving mechanism of the present invention.

Fig. 5 is a schematic diagram of the cooperation of the cup and the manual driving mechanism of the present invention.

Fig. 6 is a schematic view of the handle and manual driving mechanism of the present invention.

Fig. 7 is a schematic structural view of the manual drive mechanism of the present invention.

FIG. 8 is a schematic view of the inner container and the stirring mechanism of the present invention.

FIG. 9 is a schematic view showing the engagement of the inner container and the stirring member of the present invention.

FIG. 10 is a schematic view showing the engagement of the inner container and the stirring member according to the present invention.

Fig. 11 is a schematic structural view of the stirring member of the present invention.

Fig. 12 is a schematic structural view of the stirring mechanism of the present invention.

Fig. 13 is a schematic structural view of the stirring mechanism of the present invention.

Fig. 14 is an internal schematic view of the stirring mechanism of the present invention.

Fig. 15 is an internal schematic view of the stirring mechanism of the present invention.

Fig. 16 is a schematic structural view of the power conversion assembly of the present invention.

Fig. 17 is a schematic structural view of the power conversion assembly of the present invention.

Fig. 18 is a schematic structural view of the power increasing assembly of the present invention.

Fig. 19 is a partial schematic structural view of the power increasing assembly of the present invention.

Fig. 20 is a partial schematic structural view of the power increasing assembly of the present invention.

Detailed Description

The stirring cup has the advantages that the liquid in the cup can be fully stirred, the power of the stirring cup is from the reciprocating action of manually pressing/loosening the handle by a user, and the force required by pressing the handle by the user is small, compared with the existing stirring cup in a motor driving mode, the stirring cup is simple to operate, is suitable for any environment, and cannot generate battery permeation or electric leakage accidents; two groups of speed-increasing gear structures are arranged in the power transmission member between the stirring member and the handle, so that a user does not need to perform reciprocating action of quickly pressing/loosening the handle, and the stirring member can quickly rotate around the self axial direction and fully stir the liquid in the water cup by performing the reciprocating action of pressing/loosening the handle at a normal speed; the power transmission member is also provided with an overrunning clutch for transmitting power in a single direction, and the overrunning clutch enables the stirring member to rotate in a single direction, so that the stirring member can be prevented from rotating forwards and backwards at higher frequency to cause liquid to spill outwards through the cup mouth; in addition, this stirring drinking cup still possesses the decompression effect.

The multifunctional water cup with unidirectional mixing and stirring comprises a water cup 100 and a stirring device, wherein the stirring device is used for stirring liquid in the water cup 100.

The water cup 100 comprises a cup shell 110 and an inner container 120, the cup shell 110 and the inner container 120 are both cylindrical shell structures with one open end and one closed end, the inner container 120 is coaxially fixed in the cup shell 110, the open end of the inner container 120 and the open end of the cup shell 110 are located in the same plane, an area between the closed end of the inner container 120 and the cavity bottom of the cup shell 110 is an installation area of the water cup 100, a handle 130 is further arranged on the outer circular surface of the cup shell 110, and the plane where the handle 130 is located is parallel to the axial direction of the cup shell 110.

The stirring device comprises a manual driving mechanism 200 and a stirring mechanism 300, wherein the manual driving mechanism 200 is installed on the handle 130, the output end of the manual driving mechanism 200 penetrates through the wall of the cup shell 110 and is located in the installation area of the water cup 100, the stirring mechanism 300 is installed in the water cup 100, the stirring mechanism 300 is also in power connection with the output end of the manual driving mechanism 200, the manual driving mechanism 200 is used for being pressed/released reciprocally by a user and generating power for driving the stirring mechanism 200 to operate, and the stirring mechanism 200 is used for stirring the liquid in the inner container 120 under the driving of the power provided by the manual driving mechanism 200.

The handle 130 is a hollow structure, an avoiding area penetrating the thickness of the side surface of the handle 130 facing the cup shell 110 is formed, and the manual driving mechanism 200 comprises a handle 201 and a connecting rope 202.

The handle 201 is composed of three parts which are respectively a pressing section, a linkage section and a connecting section, the connecting section is arranged in the handle 130 and is obliquely arranged, the distance between the connecting section and the cup shell 110 is gradually decreased along the axial direction of the cup shell 110 and the direction from the closed end of the cup shell 110 to the open end of the cup shell 110, the end part with the largest distance between the connecting section and the cup shell 110 is a connecting end, the end part with the smallest distance between the connecting section and the cup shell 110 is a hinged end, the hinged end of the connecting section is hinged with the handle 130, and the axial direction of a hinged shaft formed at the hinged connection position between the hinged end of the connecting section and the handle 130 is vertical to the plane where the handle 130 is located.

One end of the linkage section of the handle 201 is fixedly connected with the hinged end of the connecting section, the other end of the linkage section is a fixed end, the end penetrates through an avoidance area arranged on the handle 130 and is positioned in an area between the handle 130 and the cup shell 110, the linkage section is obliquely arranged, the distance between the linkage section and the cup shell 110 is gradually reduced along the axial direction of the cup shell 110 and the direction from the closed end of the cup shell 110 to the open end of the cup shell 110, and a V-shaped structure with an acute included angle in a V shape is formed between the linkage section and the connecting section.

The handle 201 is characterized in that one end of the pressing section is fixedly connected with the fixed end of the linkage section, the other end of the pressing section is suspended, the pressing section is obliquely arranged, the distance between the pressing section and the cup shell 110 increases progressively along the axial direction of the cup shell 110 and the direction from the closed end of the cup shell 110 to the open end of the cup shell 110, and a V-shaped structure with an obtuse included angle in a V shape is further formed between the pressing section and the linkage section.

The outer circular surface of the cup shell 110 is provided with a through hole which runs through the radial thickness of the cup shell and is communicated with the installation area of the water cup 100, one end of the connecting rope 202 is fixedly connected with the connecting end of the connecting section of the handle 201, the other end of the connecting rope is an installation end, and the end penetrates through the through hole and is positioned in the installation area of the water cup 100.

The user holds the handle 130 by hand and puts fingers on the pressing section of the handle 201, then the fingers exert force and make the handle 201 rotate axially around the hinge axis between the handle 201 and the handle 130, the handle 201 rotates and pulls the stirring mechanism 300 to move through the connecting rope 202; the user loosens the handle 201, the stirring mechanism 300 reversely moves under the action of the elastic force of the spring in the stirring mechanism, and simultaneously, the handle 201 reversely rotates around the hinge shaft between the handle 130 and the handle in the axial direction through the connecting rope 202; the above process is repeated.

Preferably, in order to avoid the reciprocating motion process of the handle 201, the handle 201 and the connecting rope 202 are wound and knotted, and further influence is caused on the whole stirring process, the handle 130 is internally provided with a limiting plate, the limiting plate is provided with a through hole penetrating through the thickness of the limiting plate, one end of the connecting rope 202 is fixedly connected with the connecting end of the connecting section of the handle 201, the other end of the connecting rope passes through the through hole arranged on the limiting plate and the through hole arranged on the outer circular surface of the cup shell 110 and is located in the mounting area of the water cup 100, and the limiting plate is provided with a plurality of groups in a matching manner, and the limiting plates are matched with each other and the connecting rope 202 is matched with.

The stirring mechanism 300 includes a stirring member 310 disposed in the inner container 120 for stirring the liquid in the inner container 120, and a power transmission member 320 disposed in the installation area of the cup 100 for receiving the power generated by the manual driving mechanism 200 and transmitting the power to the stirring member 310 for stirring operation.

The blind end of inner bag 120 coaxial set up in running through its thickness the trompil, stirring component 310 include stirring, (mixing) shaft, be coaxial arrangement between (mixing) shaft and the inner bag 120, the power take off end of (mixing) shaft be located inner bag 120 and with stirring fixed connection, the power take off end of (mixing) shaft passes the trompil that sets up in the blind end of inner bag 120 and is located the installing zone of drinking cup 100, the (mixing) shaft can rotate around self axial, constitute sealed normal running fit between (mixing) shaft and the trompil that sets up in the blind end of inner bag 120.

The power transmission member 320 receives the power generated by the operation of the manual driving mechanism 200 and transmits the power to the stirring shaft, so that the stirring shaft rotates around the self axial direction, the stirring shaft rotates and pulls the stirring piece to synchronously rotate, and the stirring piece rotates to stir the liquid in the inner container 120.

The power transmission member 320 includes a housing, a power conversion assembly 3210 and a power speed increasing assembly 3220, the power conversion assembly 3210 is configured to receive power generated by the operation of the manual driving mechanism 200 and convert the power into a driving force for driving the stirring shaft to rotate, and the power speed increasing assembly 3220 is configured to receive the driving force and increase the speed of the driving force, and then transmit the driving force to the stirring shaft.

The housing be both ends open-ended circular shell structure and the housing is coaxial to be fixed in the installing zone of drinking cup 100, the housing is coaxial to be fixed with the end cover towards the open end of inner bag 120, the coaxial hole of dodging that runs through its axial thickness that has seted up of end cover is one, and the power input end of (mixing) shaft passes and dodges the hole and lie in the housing in the lump, constitute sealed normal running fit between (mixing) shaft and the hole of dodging one, the hole of dodging two that runs through its radial thickness is still seted up to the outer disc of housing, dodge the hole two with set up to be coaxial arrangement between the wear-to-establish hole of the outer disc of cup shell 110 and the installation end of connecting rope 202 passes and dodges.

The power conversion assembly 3210 includes guide sliding rods 3211, a movable bracket 3212, and a return spring 3213, wherein the guide direction of the guide sliding rods 3211 is perpendicular to the axial direction of the cup shell 110 and is also parallel to the plane of the handle 130, the guide sliding rods 3211 are fixedly mounted in the housing, and two sets of guide sliding rods 3211 are provided, and the distance direction between the two sets of guide sliding rods 3211 is perpendicular to the plane of the handle 130.

The movable support 3212 is movably mounted outside the guide sliding rod 3211 and forms a sliding guide fit therebetween, the return spring 3213 is sleeved outside the guide sliding rod 3211, two sets of return springs 3213 are correspondingly provided, one end of the return spring 3213 abuts against a portion of the housing cavity wall close to the handle 130, the other end of the return spring 3213 abuts against the movable support 3212, and the elastic force of the return spring 3213 drives the movable support 3212 to move away from the handle 130 along the guiding direction of the guide sliding rod 3211.

The movable bracket 3212 is fixedly connected with the mounting end of the connecting rope 202.

The power conversion assembly 3210 further includes a driving rack 3214, a gear shaft 3215, and a driven spur gear 3216, wherein the extending direction of the driving rack 3214 is parallel to the guiding direction of the guide sliding rod 3211 and the driving rack 3214 is fixedly mounted on the movable bracket 3212, the axial direction of the gear shaft 3215 is parallel to the axial direction of the cup shell 110, the gear shaft 3215 is movably mounted in the housing and can rotate around the axial direction thereof, the driven spur gear 3216 is coaxially and fixedly mounted outside the gear shaft 3215 and the driven spur gear 3216 is engaged with the driving rack 3214.

A user presses the handle 201 and pulls the movable bracket 3212 to move close to the handle 130 along the guiding direction of the guide sliding rod 3211 through the connecting rope 202, and the movable bracket 3212 moves and drives the gear shaft 3215 to rotate axially around itself through the matching of the driving rack 3214 and the driven spur gear 3216; when a user releases the handle 201, the elastic force of the return spring 3213 drives the movable bracket 3212 to move away from the handle 130, the movable bracket moves and drives the gear shaft 3215 to rotate reversely around the self-axial direction through the matching of the driving rack 3214 and the driven spur gear 3216, and the movable bracket 3212 moves to restore the manual driving mechanism 200 to the original state through the connecting rope 202; the above process is repeated.

The power increasing assembly 3220 includes an overrunning clutch 3221, an input spur gear 3222, a transmission shaft 3223, an output spur gear 3224, a receiving spur gear 3225, and a transmission spur gear 3226.

The gear shaft 3215 is coaxially and fixedly connected with the inner ring body of the overrunning clutch 3221, and the input spur gear 3222 is coaxially and fixedly connected with the outer ring body of the overrunning clutch 3221, which is particularly important, and the torque force of the gear shaft 3215 can be transmitted from the gear shaft 3215 to the input spur gear 3222 in a single direction through the overrunning clutch 3221.

In a further embodiment, the overrunning clutch 3221 is a ball type overrunning clutch.

The axial direction of the transmission shaft 3223 is parallel to the axial direction of the gear shaft 3215, the transmission shaft 3223 is movably mounted in the housing and can axially rotate around itself, the output spur gear 3224 is coaxially fixed outside the transmission shaft 3223, and the input spur gear 3222 is engaged with the output spur gear 3224 to form a speed-increasing gear structure therebetween.

The receiving spur gear 3225 is coaxially fixed outside the transmission shaft 3223, the transmission spur gear 3226 is coaxially fixed outside the power input end of the stirring shaft, and the receiving spur gear 3225 is engaged with the transmission spur gear 3226 to form a speed-increasing gear structure therebetween.

The gear shaft 3215 rotates and unidirectionally transmits a torque force to the input spur gear 3222 through the overrunning clutch 3221 and causes the input spur gear 3222 to perform unidirectional rotation around its own axial direction, the input spur gear 3222 rotates and drives the transmission shaft 3223 through the output spur gear 3224 and the rotation speed of the transmission shaft 3223 is greater than that of the input spur gear 3222, the transmission shaft 3223 rotates and drives the stirring shaft to rotate through the receiving spur gear 3225 and the transmission spur gear 3226, and the rotation speed of the stirring shaft is greater than that of the transmission shaft 3223.

In actual work, a user holds the handle 130 with a hand and puts fingers on the pressing section of the handle 201, then the fingers exert force to enable the handle 201 to rotate axially around a hinge shaft between the handle 201 and the handle 130, the handle 201 rotates and pulls the movable support 3212 to move close to the handle 130 along the guiding direction of the guide sliding rod 3211 through the connecting rope 202, and the movable support 3212 moves and drives the gear shaft 3215 to rotate axially around the user through the matching of the driving rack 3214 and the driven spur gear 3216; when a user releases the handle 201, the elastic force of the return spring 3213 drives the movable bracket 3212 to move away from the handle 130, the movable bracket moves and drives the gear shaft 3215 to rotate reversely around the self-axial direction through the matching of the driving rack 3214 and the driven spur gear 3216, and the movable bracket 3212 moves to restore the manual driving mechanism 200 to the original state through the connecting rope 202;

repeating the above process to make the gear shaft 3215 rotate around its own axis to reciprocate;

the gear shaft 3215 rotates and unidirectionally transmits torque to the input spur gear 3222 through the overrunning clutch 3221 and enables the input spur gear 3222 to perform unidirectional rotation around the axial direction thereof, the input spur gear 3222 rotates and drives the transmission shaft 3223 through the output spur gear 3224 to rotate, the rotating speed of the transmission shaft 3223 is greater than that of the input spur gear 3222, the transmission shaft 3223 rotates and drives the stirring shaft to rotate through the receiving spur gear 3225 and the transmission spur gear 3226, the rotating speed of the stirring shaft is greater than that of the transmission shaft 3223, the stirring shaft rotates and pulls the stirring member to synchronously rotate, and the rotation of the stirring member stirs liquid in the inner container 120.

Claims

1. The multifunctional water cup with unidirectional mixing and stirring is characterized by comprising a water cup and a stirring device, wherein the stirring device is used for stirring liquid in the water cup;

2. The multifunctional water cup with unidirectional mixing and stirring functions as claimed in claim 1, wherein the handle is of a hollow structure, an avoiding area penetrating the thickness of the handle is formed in the side surface of the handle facing the cup shell, and the manual driving mechanism comprises a handle and a connecting rope;

3. The multifunctional cup with unidirectional mixing and stirring function according to claim 2, wherein a limiting plate is arranged in the handle, a through hole penetrating through the thickness of the limiting plate is formed in the limiting plate, one end of the connecting rope is fixedly connected with the connecting end of the handle connecting section, the other end of the connecting rope penetrates through the through hole formed in the limiting plate and a through hole formed in the outer circumferential surface of the cup shell and is located in the mounting area of the cup, and the limiting plate is provided with a plurality of groups in a matching manner, and the plurality of groups of limiting plates are matched with each other to enable the connecting rope to be close to the wall of the cavity of the.

4. The multifunctional water cup with one-way mixing and stirring function according to claim 2, wherein the stirring mechanism comprises a stirring member disposed in the inner container for stirring the liquid in the inner container, and a power transmission member disposed in the water cup mounting region for receiving the power generated by the manual driving mechanism and transmitting the power to the stirring member for stirring operation thereof;

5. The multifunctional water cup with one-way mixing and stirring function according to claim 4, wherein the power transmission member comprises a housing, a power conversion assembly and a power acceleration assembly, the power conversion assembly is used for receiving power generated by the manual driving mechanism and converting the power into driving force for driving the stirring shaft to rotate, and the power acceleration assembly is used for receiving the driving force, accelerating the driving force and transmitting the driving force to the stirring shaft;

6. The multifunctional water cup with one-way mixing and stirring function as claimed in claim 5, wherein the power conversion assembly comprises two guide slide bars, a movable support and a return spring, the guide direction of the guide slide bars is perpendicular to the axial direction of the cup shell and is also parallel to the plane of the handle, the guide slide bars are fixedly arranged in the housing, the two guide slide bars are provided with two groups, and the distance direction between the two groups of guide slide bars is perpendicular to the plane of the handle;

7. The multifunctional water cup with one-way mixing and stirring function as claimed in claim 6, wherein the power speed increasing assembly comprises an overrunning clutch, an input spur gear, a transmission shaft, an output spur gear, a receiving spur gear and a transmission spur gear;

8. The multi-functional cup with one-way mixing and stirring function as claimed in claim 7, wherein the overrunning clutch is a ball type overrunning clutch.