CN213882878U - Portable fruit juice extractor - Google Patents

Abstract

The utility model relates to the technical field of fruit juice extractors, in particular to a portable fruit juice extractor; the stirring device comprises a container and a stirring assembly, wherein the stirring assembly is connected with the container in a matching way, the stirring device also comprises an inflating assembly, the inflating assembly comprises an air bomb seat, an air bottle and an inflating channel are arranged on the air bomb seat, and the inflating assembly is connected with the container in a matching way so that the air bottle is communicated with the inner cavity of the container through the inflating channel; the utility model discloses a portable fruit juice machine, stirring subassembly in the casing can realize the stirring of fruit juice drink and mix the preparation operation, and the gas cylinder on the subassembly of aerifing is through aerifing the passageway and with gas injection container inner chamber, can obtain the fruit juice drink or soda water etc. that contain carbonic acid after filling carbon dioxide gas in water in the container or the fruit juice to make the user can obtain the beverage that the taste is abundant in the open air.

Description

Portable fruit juice extractor

Technical Field

The utility model relates to a fruit juice extractor technical field indicates a portable fruit juice extractor very much.

Background

Along with the improvement of the consumption level and the life quality of people, people can take part in outdoor activities in the spare time after having a meal after drinking tea to reduce fatigue and reduce blood pressure. The portable juicer which can be carried around becomes a necessary choice for supplementing water and nutrition when people do outdoor activities. The prior portable fruit juice machine cannot fill gas into fruit juice after the fruit juice is prepared, and cannot prepare carbonated fruit juice drinks.

Chinese patent CN208176488U discloses a portable small steel cylinder soda water machine, which comprises a soda water bottle, wherein the bottom of the soda water bottle is provided with a gas filling mechanism, and the upper part of the soda water bottle is provided with a gas discharging mechanism; the gas filling mechanism comprises a connecting disc fixedly connected to the bottom of a soda bottle, an outer base is sleeved outside the connecting disc, a gas bomb seat is arranged inside the outer base, a gas bomb storage cavity is formed in the gas bomb seat, the gas bomb storage cavity is provided with a gas bomb with a downward gas outlet, a gas bomb piercing needle is arranged at a position, close to the gas bomb gas outlet, of the gas bomb seat, a gas bomb sealing ring is sleeved on the gas bomb piercing needle, a positioning needle seat is arranged on one side of the gas bomb piercing needle, a vertical positioning needle arranged downwards is inserted into the positioning needle seat, a gas inlet channel is arranged above the gas bomb seat, and one end of the gas inlet channel is communicated with the gas bomb gas outlet through an inner cavity of the positioning needle seat. The portable small steel cylinder soda water machine can inject carbon dioxide gas into a soda water bottle through a gas filling mechanism at the bottom of the soda water bottle so as to realize the preparation of soda water, and can also output spray through a spraying structure at the head of the soda water bottle. The existing portable beverage cups are complex in structure, single in function and inconvenient to use.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a defect and not enough to prior art, provide a rational in infrastructure, can prepare the portable fruit juice machine that contains carbonic acid fruit juice drink.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a portable fruit juice mixer, including container and stirring subassembly, the stirring subassembly is connected with the container cooperation, still includes gas charging component, gas charging component includes the gas bomb seat, is equipped with gas cylinder and inflation channel on the gas bomb seat, thereby gas charging component and container cooperation are connected and are made the gas cylinder communicate the container inner chamber through inflation channel. Stirring subassembly is through stirring and mixing the preparation fruit juice drink to the edible material in the container, and the gas cylinder passes through gas charging channel and pours into gas into the container inner chamber into, can obtain the fruit juice beverage or soda water etc. that contain carbonic acid behind the carbon dioxide gas filling in water or the fruit juice in the container to make the user can obtain the beverage that the taste is abundant in the open air.

According to the scheme, the stirring assembly comprises a machine shell, the inflation assembly is arranged in the machine shell, the gas spring seat is fixedly connected with the machine shell, an air inlet hole is formed in a bottom plate of the machine shell, and the gas cylinder is communicated with the inner cavity of the container through the inflation channel via the air inlet hole. The stirring assembly and the gas charging assembly are integrally arranged in the machine shell, the machine shell is arranged on an upper port of the container and is sealed, materials in the container are mixed and prepared through the stirring assembly, then the gas charging assembly is opened, gas in the gas cylinder enters the inner cavity of the container through the gas charging channel through the gas inlet hole, and therefore the gas is mixed with fruit juice or water in the container to prepare carbonated beverages.

According to the scheme, the gas bomb storage cavity is formed in the gas bomb seat, the needle seat is arranged in the first end port of the gas bomb storage cavity, the puncture needle tube is arranged on the needle seat, the gas cylinder is arranged in the gas bomb storage cavity, and the gas cylinder is communicated with the inflation channel through the puncture needle tube. The gas cylinder is installed from the second end of the gas bomb storage cavity, the packaging end of the gas cylinder is inserted into the needle seat to form matching positioning and contact sealing, the puncture needle tube punctures the packaging opening of the gas cylinder in the installation process of the gas cylinder so as to enable the gas cylinder to be communicated with the inflation channel, and gas in the gas cylinder can enter the inner cavity of the container through the inflation channel.

According to the scheme, the upper end of the shell is provided with an inner end plate, the inner end plate is provided with a loading hole and a central bolt, and a second end port of the gas bomb storage cavity is arranged corresponding to the loading hole; the inner end plate is provided with a push plate, the push plate is rotatably connected with the central bolt, and one end of the push plate is provided with a wedge-shaped lug matched with the gas cylinder; the upper end of the casing is rotatably provided with an outer ring sleeve, and the outer ring sleeve is in transmission connection with the push plate or the outer ring sleeve and the push plate are integrally formed. The inner end plate is fixedly arranged at the upper end of the shell to form an upper supporting structure, and the gas cylinder is loaded into the gas bomb storage cavity from the bomb loading hole in the inner end plate. The push plate can rotate around the central bolt on the inner end plate, and when the push plate rotates and passes through the bullet loading hole, the tail part of the gas cylinder is extruded through the wedge-shaped convex block so as to move to the needle base along the gas bullet storage cavity, so that the puncture needle tube punctures the packaging opening of the gas cylinder. The push plate can be driven and controlled through the outer ring sleeve, and particularly, the position of the tail of the gas cylinder is limited after the push plate rotates in place.

According to the scheme, the inflation assembly further comprises an inflation seat, the inflation seat is fixedly connected with the lower end or the side wall of the container, the air spring seat is arranged in the inflation seat and is fixedly connected with the inflation seat, and an air inlet hole is formed in the bottom plate or the side wall of the container; the gas spring seat is connected with the container, so that the gas cylinder is communicated with the inner cavity of the container through the gas charging channel and the gas inlet hole. The inflation assembly is arranged at the lower end or the side wall of the container through the inflation seat, and the inflation assembly and the stirring assembly are respectively and independently arranged, so that the integral structure is simplified, the production and the assembly are convenient, and the production cost is reduced.

According to the scheme, the air bomb storage cavity is transversely formed in the air bomb seat, the side wall of the air inflation seat is provided with an bomb loading hole and a push plate, and the push plate is rotatably connected with the air inflation seat. The gas cylinder can be obliquely arranged in the gas bomb storage cavity to effectively reduce the overall height of the container, the gas cylinder is matched with the puncture needle tube after being arranged in the gas bomb storage cavity, and the push plate is rotated to enable the gas cylinder to abut against the tail end of the gas cylinder to enable the gas cylinder to be fixed in the gas bomb storage cavity.

According to the scheme, the stirring device further comprises a cup cover, and the cup cover or the stirring assembly can be installed on the upper port of the container and is connected with the upper port in a matched mode. The stirring subassembly can be dismantled the casing after accomplishing the fruit juice preparation, thereby the reuse bowl cover seals carrying of container upper port container of being convenient for, and casing and stirring subassembly can wash earlier and save, thereby open before the fruit juice of needs drinking and inflate the subassembly and obtain the fruit juice beverage that contains carbonic acid.

According to the scheme, the aeroelastic storage cavity is vertically arranged in the inflating seat, the lower end of the inflating seat is provided with a push plate which can move up and down along the inflating seat under the action of external force, and the push plate is abutted against the tail part of the gas cylinder in the aeroelastic storage cavity; or the lower end of the inflating seat is provided with a push plate which can rotate along the inflating seat under the action of external force, and the push plate is provided with a wedge-shaped lug which can be abutted against the tail part of the gas cylinder in the gas bomb storage cavity. The push plate is arranged at the lower end of the inflating seat, and the push plate can push the gas cylinder up and down movably or horizontally rotate under the action of external force to enable the wedge-shaped lug to push the gas cylinder, so that the gas cylinder is matched with the puncture needle tube to form communication. The vertical arrangement of the gas bomb storage cavity can simplify the structure of the gas charging seat, and is convenient to produce and assemble so as to reduce the production cost.

According to the scheme, the inflating assembly further comprises an inflating seat, and the inflating seat or the stirring assembly can be installed on the upper port of the container and is connected with the upper port in a matched mode; the gas spring seat is arranged in the gas charging seat and is fixedly connected with the gas charging seat, so that the gas cylinder is communicated with the inner cavity of the container through the upper port of the container through the gas charging channel. The stirring device and the inflation assembly are respectively arranged on the shell and the inflation seat, and can be respectively assembled on the upper port of the container to prepare the fruit juice and perform inflation operation, so that the integrity of the bottom of the container is ensured, the stirring assembly and the inflation assembly are respectively and independently arranged in the shell and the inflation seat, the structure and the assembly difficulty can be effectively simplified, and the convenience in use is not influenced.

According to the scheme, the air bomb storage cavity is transversely formed in the air bomb seat, the side wall of the air inflation seat is provided with an bomb loading hole and a push plate, and the push plate is rotatably connected with the air inflation seat. The machine shell and the inflating seat are respectively provided with the stirring device and the inflating assembly, and can be respectively assembled on the upper port of the container to carry out fruit juice preparation and inflation operation, so that the integrity of the bottom of the container is ensured, the gas cylinder can be obliquely arranged in the gas bomb storage cavity to effectively reduce the overall height of the container, the gas cylinder is matched with the puncture needle tube after being arranged in the gas bomb storage cavity, and the push plate is rotated to enable the gas cylinder to abut against the tail end of the gas cylinder to enable the gas cylinder to be fixed in the gas bomb storage cavity.

According to the scheme, the aeroelastic storage cavity is vertically arranged in the inflating seat, the upper end of the inflating seat is provided with a push plate which can move up and down along the upper end under the action of external force, and the push plate is abutted against the tail part of the gas cylinder in the aeroelastic storage cavity; or the upper end of the inflating seat is provided with a push plate which can rotate along the inflating seat under the action of external force, and the push plate is provided with a wedge-shaped convex block which can be abutted against the tail part of the gas cylinder in the gas bomb storage cavity. The push plate is arranged at the upper end of the inflating seat, and the push plate can push the gas cylinder up and down movably or horizontally rotate under the action of external force to enable the wedge-shaped lug to push the gas cylinder, so that the gas cylinder is matched with the puncture needle tube to form communication. The vertical arrangement of the gas bomb storage cavity can simplify the structure of the gas charging seat, and is convenient to produce and assemble so as to reduce the production cost.

According to the scheme, the filter element is arranged in the inflation channel, the needle base forms a cavity between the air bomb storage cavity and the air bomb base, the cavity belongs to one part of the inflation channel, and the filter element is arranged in the cavity to filter gas passing through the inflation channel, so that gas purity of the container is guaranteed.

According to the scheme, the one-way valve is arranged in the inflation channel, and the gas cylinder is communicated with the inner cavity of the container through the inflation channel and the one-way valve. The preferred check valve is arranged on the air inlet hole, or the air bomb seat is provided with the check valve, and the air bomb seat is arranged on the air inlet hole in a penetrating way, so that the check valve extends into the inner cavity of the container. When the shell or the inflating seat is arranged at the upper end or the lower end or the side wall of the container, the gas spring seat is connected with the one-way valve, so that the gas cylinder is communicated with the inner cavity of the container through the inflating channel through the one-way valve, and the one-way valve is used for preventing fruit juice or water in the container from flowing back into the shell or the inflating seat.

According to the scheme, the stirring device further comprises a pressure release valve, the pressure release valve can be arranged on a shell of the stirring assembly or an inflating seat of the inflating assembly or a cup cover or a container, and when the pressure of the inner cavity of the container is too high, the inner cavity of the container is communicated with the outside through the pressure release valve. The upper port of the container is sealed through the casing, the inflating seat or the cup cover, when gas in the gas cylinder is input into the inner cavity of the container, the gas pressure between the container and the gas cylinder is balanced, and the one-way valve is automatically closed to prevent liquid from flowing back. The liquid in the container is mixed with the gas to form a carbonated beverage, and the internal pressure of the container is higher than the external gas pressure. In order to prevent the stirring assembly, the inflation assembly or the cup cover at the upper port of the container from being difficult to detach, the active pressure relief or the passive pressure relief of the pressure relief valve enables the pressure in the container to be close to the external air pressure, and the risk of a user caused by overhigh pressure in the container is prevented.

According to the scheme, the stirring assembly comprises a motor, a stirring blade, a power supply assembly and a control unit, the motor is fixedly arranged in the shell, the stirring blade is arranged outside the shell, and an output shaft of the motor penetrates through the shell and is fixedly connected with the stirring blade; the control unit is respectively electrically connected with the motor and the power supply assembly. The machine shell is fixedly connected with the container after being installed on the container, the machine shell seals the upper port of the container to enable the inner cavity of the container to be independent and sealed, and the motor drives the stirring blade to crush and squeeze fruits in the container, so that fruit juice is obtained. The control unit is used for controlling the power supply assembly driving motor to work, and the independent power supply assembly is arranged in the shell, so that the juicer can be conveniently carried without being powered by an external power supply.

The utility model discloses a portable fruit juice machine, stirring subassembly in the casing can realize the stirring of fruit juice drink and mix the preparation operation, and the gas cylinder on the subassembly of aerifing is through aerifing the passageway and with gas injection container inner chamber, can obtain the fruit juice drink or soda water etc. that contain carbonic acid after filling carbon dioxide gas in water in the container or the fruit juice to make the user can obtain the beverage that the taste is abundant in the open air.

Drawings

Fig. 1 is a schematic view of an exploded structure ofembodiment 1 of the present invention;

fig. 2 is a schematic sectional structure diagram ofembodiment 1 of the present invention;

fig. 3 is a schematic view of the internal structure of the housing according toembodiment 1 of the present invention;

FIG. 4 is a schematic structural view of an inflation assembly ofembodiment 2 of the present invention disposed at the lower end of a container;

fig. 5 is a schematic sectional structure view of an inflation mode ofembodiment 2 of the present invention;

FIG. 6 is a schematic structural view of an inflation assembly disposed on a side wall of a container according toembodiment 3 of the present invention;

fig. 7 is a schematic sectional structure diagram according toembodiment 3 of the present invention;

fig. 8 is a schematic sectional structure diagram ofembodiment 4 of the present invention;

fig. 9 is a schematic sectional structure diagram according to embodiment 5 of the present invention.

In the figure:

1. a container; 2. a housing; 3. an inflation assembly; 4. a gas cylinder; 11. an inflation seat; 12. a cup cover; 13. an air inlet; 21. a motor; 22. a stirring blade; 23. a power supply assembly; 24. a control unit; 25. an inner end plate; 26. a loading hole; 27. a central bolt; 28. pushing the plate; 29. an outer ring sleeve; 31. a gas spring seat; 32. a gas bomb storage chamber; 33. puncturing a needle tube; 34. a needle seat; 35. a one-way valve; 36. a filter element; 37. and an inflation channel.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1-3, a portable juicer comprises acontainer 1 and a stirring assembly, wherein the stirring assembly is connected with thecontainer 1 in a matching manner, the portable juicer further comprises aninflation assembly 3, theinflation assembly 3 comprises anair spring seat 31, anair bottle 4 and aninflation channel 37 are arranged on theair spring seat 31, and theinflation assembly 3 is connected with thecontainer 1 in a matching manner, so that theair bottle 4 is communicated with an inner cavity of thecontainer 1 through theinflation channel 37. Stirring subassembly is through stirring and mixing the edible material in thecontainer 1 and prepare the fruit juice drink, andgas cylinder 4 is through inflating thepassageway 37 and pour into gas into the 1 inner chamber of container, can obtain the fruit juice beverage or soda water etc. that contain carbonic acid after filling carbon dioxide gas in the water or the fruit juice in thecontainer 1 to make the user can obtain the beverage that the taste is abundant in the open air.

The stirring assembly comprises amachine shell 2, theinflation assembly 3 is arranged in themachine shell 2, thegas spring seat 31 is fixedly connected with themachine shell 2, agas inlet hole 13 is formed in a bottom plate of themachine shell 2, and thegas cylinder 4 is communicated with the inner cavity of thecontainer 1 through aninflation channel 37 via thegas inlet hole 13. The stirring component and theinflating component 3 are integrally arranged in themachine shell 2, themachine shell 2 is arranged on the upper port of thecontainer 1 and is sealed, materials in thecontainer 1 are mixed and prepared through the stirring component, then theinflating component 3 is opened, gas in thegas bottle 4 enters the inner cavity of thecontainer 1 through the inflatingchannel 37 through thegas inlet 13, and therefore the carbonated beverage is prepared by mixing the gas with fruit juice or water in thecontainer 1.

Thegas bomb seat 31 is provided with a gasbomb storage cavity 32, aneedle seat 34 is arranged in a first end port of the gasbomb storage cavity 32, theneedle seat 34 is provided with apuncture needle tube 33, thegas cylinder 4 is arranged in the gasbomb storage cavity 32, and thegas cylinder 4 is communicated with aninflation channel 37 through thepuncture needle tube 33. Thegas cylinder 4 is loaded from the second end of the gasbomb storage cavity 32, the packaging end of thegas cylinder 4 is inserted into theneedle seat 34 to form matching positioning and contact sealing, thepuncture needle tube 33 punctures the packaging opening of thegas cylinder 4 in the loading process of thegas cylinder 4 so as to enable thegas cylinder 4 to be communicated with theinflation channel 37, and gas in thegas cylinder 4 can enter the inner cavity of thecontainer 1 through theinflation channel 37.

Aninner end plate 25 is arranged at the upper end of theshell 2, anelastic loading hole 26 and acentral bolt 27 are arranged on theinner end plate 25, and a second end port of the gasbomb storage cavity 32 is arranged corresponding to theelastic loading hole 26; apush plate 28 is arranged on theinner end plate 25, thepush plate 28 is rotatably connected with thecentral bolt 27, and a wedge-shaped convex block matched with thegas cylinder 4 is arranged at one end of thepush plate 28; the upper end of thecasing 2 is rotatably provided with anouter ring sleeve 29, theouter ring sleeve 29 is in transmission connection with thepush plate 28 or theouter ring sleeve 29 and thepush plate 28 are integrally formed. Theinner end plate 25 is fixedly arranged at the upper end of thecasing 2 to form an upper supporting structure, and thegas cylinder 4 is loaded into the gascylinder storage cavity 32 from the gascylinder loading hole 26 on theinner end plate 25. Thepush plate 28 is rotatable on theinner end plate 25 about thecentral pin 27, and thepush plate 28 is rotated past theloading aperture 26 to press the tail of thecylinder 4 against the wedge-shaped projection to move it along thecylinder storage chamber 32 towards theneedle seat 34, thereby causing thepuncture needle tube 33 to puncture the sealed mouth of thecylinder 4. Thepush plate 28 can be driven and controlled by anouter ring sleeve 29, and particularly, thepush plate 28 forms a position limit for the tail part of thegas cylinder 4 after rotating to the proper position.

Theinflation channel 37 is internally provided with afilter element 36, theneedle seat 34 forms a cavity between theballoon storage cavity 32 and theballoon seat 31, the cavity belongs to a part of theinflation channel 37, and thefilter element 36 is arranged in the cavity to filter gas passing through theinflation channel 37, so that the purity of the gas entering thecontainer 1 is ensured.

A one-way valve 35 is arranged in theinflation channel 37, and thegas bottle 4 is communicated with the inner cavity of thecontainer 1 through theinflation channel 37 and the one-way valve 35. Preferably, thecheck valve 35 is arranged on theair inlet hole 13, or thecheck valve 35 is arranged on theair bomb seat 31, and theair bomb seat 31 penetrates through theair inlet hole 13 so that thecheck valve 35 extends into the inner cavity of thecontainer 1. When thehousing 2 or theair charging seat 11 is disposed at the upper or lower end of thecontainer 1, theair spring seat 31 is connected to thecheck valve 35, so that theair cylinder 4 communicates with the inner cavity of thecontainer 1 through theair charging passage 37 via thecheck valve 35, and thecheck valve 35 prevents juice or water in thecontainer 1 from flowing back into thehousing 2 or theair charging seat 11.

The stirring device further comprises a pressure relief valve, the pressure relief valve can be arranged on theshell 2 of the stirring assembly or the inflatingseat 11 of the inflatingassembly 3 or thecup cover 12 or thecontainer 1, and when the pressure in the inner cavity of thecontainer 1 is overlarge, the pressure relief valve enables the inner cavity of thecontainer 1 to be communicated with the outside. The upper port of thecontainer 1 is sealed by thecasing 2, the inflatingseat 11 or thecup cover 12, when the gas in thegas bottle 4 is input into the inner cavity of thecontainer 1, the gas pressure between thecontainer 1 and thegas bottle 4 is balanced, and the one-way valve 35 is automatically closed to prevent the liquid from flowing back. The liquid in thecontainer 1 is now mixed with the gas to form a carbonated beverage and the internal pressure of thecontainer 1 is higher than the external gas pressure. In order to prevent the stirring assembly, the inflatingassembly 3 or thecup cover 12 at the upper port of thecontainer 1 from being difficult to disassemble, the pressure in thecontainer 1 is close to the external air pressure through active pressure relief or passive pressure relief of the pressure relief valve, so that the risk to a user caused by overhigh pressure in thecontainer 1 is prevented.

The stirring assembly comprises amotor 21, astirring blade 22, apower supply assembly 23 and acontrol unit 24, themotor 21 is fixedly arranged in themachine shell 2, the stirringblade 22 is arranged outside themachine shell 2, and an output shaft of themotor 21 penetrates through themachine shell 2 and is fixedly connected with the stirringblade 22; thecontrol unit 24 is electrically connected to themotor 21 and thepower supply assembly 23, respectively. Themachine shell 2 is fixedly connected with thecontainer 1 after being installed on thecontainer 1, themachine shell 2 seals the upper port of thecontainer 1 to enable the inner cavity of thecontainer 1 to be independent and sealed, and themotor 21 drives the stirringblade 22 to crush and squeeze fruits in thecontainer 1 to obtain fruit juice. Thecontrol unit 24 is used for controlling thepower supply assembly 23 to drive themotor 21 to work, and the independentpower supply assembly 23 is arranged in themachine shell 2, so that the juicer can be conveniently carried without being powered by an external power supply.

Example 2

As shown in fig. 4 to 5, the present embodiment is different fromembodiment 1 only in that: theinflation assembly 3 further comprises aninflation seat 11, theinflation seat 11 is fixedly connected with the lower end of thecontainer 1, theair spring seat 31 is arranged in theinflation seat 11 and is fixedly connected with the inflation seat, and anair inlet hole 13 is formed in the bottom plate of thecontainer 1; thegas cylinder seat 31 is connected with thecontainer 1, so that thegas cylinder 4 is communicated with the inner cavity of thecontainer 1 through thegas charging channel 37 and thegas inlet hole 13. Theinflation assembly 3 is arranged at the lower end of thecontainer 1 through theinflation seat 11, and theinflation assembly 3 and the stirring assembly are respectively and independently arranged, so that the whole structure is simplified, the production and the assembly are convenient, and the production cost is reduced.

The gasbomb storage cavity 32 is transversely arranged on thegas bomb seat 31, the side wall of thegas bomb seat 11 is provided with abomb loading hole 26 and apush plate 28, and thepush plate 28 is rotatably connected with thegas bomb seat 11. Thegas cylinder 4 can be obliquely arranged in the gasbomb storage cavity 32, so that the overall height of thecontainer 1 can be effectively reduced, thegas cylinder 4 is matched with thepuncture needle tube 33 after being arranged in the gasbomb storage cavity 32, and thepush plate 28 is rotated to abut against the tail end of thegas cylinder 4 so as to be fixed in the gasbomb storage cavity 32.

The stirring device further comprises acup cover 12, wherein thecup cover 12 or the stirring component can be arranged on the upper port of thecontainer 1 and is connected with the upper port in a matching mode. Can dismantlecasing 2 after the stirring subassembly accomplishes the fruit juice preparation, thereby reuse bowl cover 12 seals the carrying of 1 upper port of container convenient tocontainer 1, andcasing 2 can wash earlier and save with the stirring subassembly, thereby open before needs drink the fruit juice andaerify subassembly 3 and obtain the fruit juice beverage that contains carbonic acid.

Example 3

As shown in fig. 6 to 7, the present embodiment differs fromembodiment 2 only in that: theair inlet hole 13 is arranged on the side wall or the bottom plate of thecontainer 1, theair inflation seat 11 is fixedly connected with the side wall or the lower end of thecontainer 1, so that theair bottle 4 is communicated with the inner cavity of thecontainer 1 through theair inflation channel 37 via theair inlet hole 13, and the airbomb storage cavity 32 is vertically arranged in theair inflation seat 11; the upper end or the lower end of the inflatingseat 11 is provided with apush plate 28 which can move up and down under the action of external force, and thepush plate 28 is abutted with the tail part of thegas cylinder 4 in the gasbomb storage cavity 32; or the upper end or the lower end of the inflatingseat 11 is provided with apush plate 28 which can rotate along the inflating seat under the action of external force, and thepush plate 28 is provided with a wedge-shaped convex block which can be abutted against the tail part of thegas cylinder 4 in the gasbomb storage cavity 32. Thepush plate 28 is arranged at the upper end or the lower end of the inflatingseat 11, and thepush plate 28 can push thegas cylinder 4 by up-and-down movement or horizontally rotate under the action of external force to enable the wedge-shaped lug to push thegas cylinder 4, so that thegas cylinder 4 is matched with thepuncture needle tube 33 to form communication. The vertical arrangement of thecartridge storage chamber 32 simplifies the structure of theinflation seat 11, facilitating production and assembly to reduce production costs.

Example 4

As shown in fig. 8, the present embodiment differs fromembodiment 1 only in that: theinflation assembly 3 further comprises aninflation seat 11, and theinflation seat 11 or the stirring assembly can be arranged on the upper port of thecontainer 1 and is connected with the upper port in a matching way; thegas cylinder seat 31 is arranged in thegas filling seat 11 and is fixedly connected with the gas filling seat, so that thegas cylinder 4 is communicated with the inner cavity of thecontainer 1 through the upper port of thecontainer 1 through agas filling channel 37.Casing 2 andaerify seat 11 configuration agitating unit andgas charging component 3 respectively, and can assemble respectively and carry out fruit juice preparation and inflation operation on the last port ofcontainer 1, guaranteed the integrality ofcontainer 1 bottom, stirring component andgas charging component 3 independently set up respectively incasing 2 andaerify seat 11, can effectively simplify the structure and assemble the degree of difficulty, and do not influence the convenience when using.

The gasbomb storage cavity 32 is transversely arranged on thegas bomb seat 31, the side wall of thegas bomb seat 11 is provided with abomb loading hole 26 and apush plate 28, and thepush plate 28 is rotatably connected with thegas bomb seat 11.Casing 2 disposes agitating unit andaerifys subassembly 3 respectively withaerifing seat 11, and can assemble respectively and carry out the fruit juice preparation and aerify the operation on the last port ofcontainer 1, has guaranteed the integrality ofcontainer 1 bottom,gas cylinder 4 inclinable can effectively reduce the whole height ofcontainer 1 in packing into gasbomb storage chamber 32, andgas cylinder 4 forms the cooperation withpuncture needle tubing 33 behind the gasbomb storage chamber 32 of packing into, rotatespush pedal 28 and makes it contradictgas cylinder 4 tail end and make it fix in gasbomb storage chamber 32.

Example 5

As shown in fig. 9, the present embodiment differs fromembodiment 4 only in that: the gasbomb storage cavity 32 is vertically arranged in thegas charging seat 11, the upper end of thegas charging seat 11 is provided with apush plate 28 which can move up and down under the action of external force, and thepush plate 28 is abutted with the tail part of thegas cylinder 4 in the gasbomb storage cavity 32; or the upper end of the inflatingseat 11 is provided with apush plate 28 which can rotate along the inflating seat under the action of external force, and thepush plate 28 is provided with a wedge-shaped convex block which can be abutted against the tail part of thegas cylinder 4 in the gasbomb storage cavity 32. Thepush plate 28 is arranged at the upper end of the inflatingseat 11, and thepush plate 28 can push thegas cylinder 4 up and down through the vertical movement or horizontally rotate under the action of external force to enable the wedge-shaped convex block to push thegas cylinder 4, so that thegas cylinder 4 is matched with thepuncture needle tube 33 to form communication. The vertical arrangement of thecartridge storage chamber 32 simplifies the structure of theinflation seat 11, facilitating production and assembly to reduce production costs.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (15)

1. A portable fruit juice mixer comprises a container and a stirring component, wherein the stirring component is connected with the container in a matching way,

also comprises an air inflation component which is arranged on the air inflation component,

the inflation assembly comprises an air bomb seat, an air bottle and an inflation channel are arranged on the air bomb seat, and the inflation assembly is connected with the container in a matched mode, so that the air bottle is communicated with the inner cavity of the container through the inflation channel.

2. The portable juicer of claim 1 wherein the blending assembly comprises a housing, the aerating assembly is disposed in the housing, the cartridge holder is fixedly connected to the housing, an air inlet is disposed on a bottom plate of the housing, and the air cylinder is communicated with the container cavity through the aerating channel via the air inlet.

3. The portable juicer of claim 2 wherein the cartridge holder is provided with a cartridge storage chamber, the first port of the cartridge storage chamber is provided with a hub, the hub is provided with a puncture needle tube, the gas cylinder is disposed in the cartridge storage chamber and is communicated with the inflation channel through the puncture needle tube.

4. The portable juicer of claim 3 wherein the upper end of the housing has an inner end plate, the inner end plate has a loading hole and a central bolt, and the second end port of the gas spring storage chamber is disposed corresponding to the loading hole; the inner end plate is provided with a push plate, the push plate is rotatably connected with the central bolt, and one end of the push plate is provided with a wedge-shaped lug matched with the gas cylinder; the upper end of the casing is rotatably provided with an outer ring sleeve, and the outer ring sleeve is in transmission connection with the push plate or the outer ring sleeve and the push plate are integrally formed.

5. The portable juicer of claim 1 wherein the inflation assembly further comprises an inflation seat fixedly connected to the lower end or the side wall of the container, the air spring seat is disposed in the inflation seat and fixedly connected thereto, and an air inlet is disposed on the bottom plate or the side wall of the container; the gas spring seat is connected with the container, so that the gas cylinder is communicated with the inner cavity of the container through the gas charging channel and the gas inlet hole.

6. The portable juicer of claim 5 wherein the balloon seat is transversely provided with a balloon storage chamber, the sidewall of the balloon seat is provided with a balloon loading hole and a push plate, and the push plate is rotatably connected with the balloon seat.

7. The portable juicer of claim 5 further comprising a cap, said cap or blending assembly being mountable to and matingly connectable with the upper port of the container.

8. The portable juicer of claim 5, wherein the balloon seat is vertically provided with a balloon storage chamber, the lower end of the balloon seat is provided with a push plate which can move up and down under the action of external force, and the push plate is abutted against the tail of the gas cylinder in the balloon storage chamber; or the lower end of the inflating seat is provided with a push plate which can rotate along the inflating seat under the action of external force, and the push plate is provided with a wedge-shaped lug which can be abutted against the tail part of the gas cylinder in the gas bomb storage cavity.

9. The portable juicer of claim 1 wherein the aerator module further comprises an aerator cartridge, the aerator cartridge or blender module being mountable on and matingly connectable to the upper port of the container; the gas spring seat is arranged in the gas charging seat and is fixedly connected with the gas charging seat, so that the gas cylinder is communicated with the inner cavity of the container through the upper port of the container through the gas charging channel.

10. The portable juicer of claim 9 wherein the balloon seat is transversely provided with a balloon storage chamber, the sidewall of the balloon seat is provided with a balloon loading hole and a push plate, and the push plate is rotatably connected with the balloon seat.

11. The portable juicer of claim 9, wherein the balloon seat is vertically provided with a balloon storage chamber, the upper end of the balloon seat is provided with a push plate which can move up and down under the action of external force, and the push plate is abutted against the tail of the gas cylinder in the balloon storage chamber; or the lower end of the inflating seat is provided with a push plate which can rotate along the inflating seat under the action of external force, and the push plate is provided with a wedge-shaped lug which can be abutted against the tail part of the gas cylinder in the gas bomb storage cavity.

12. The portable juicer of any one of claims 1 to 11 wherein the aeration passage includes a filter element.

13. The portable juicer of any one of claims 1 to 11 wherein the gas cylinder is connected to the container interior through the gas charging passage via a one-way valve.

14. The portable juicer of any one of claims 1 to 11 further comprising a pressure relief valve, wherein the pressure relief valve is disposed on the housing of the blending assembly or on the lid or the container of the aerating base or lid of the aerating assembly, and the pressure relief valve allows the interior of the container to communicate with the outside when the pressure in the interior of the container is too high.

15. The portable juicer of any one of claims 1 to 11, wherein the blending assembly comprises a motor, a blending blade, a power supply assembly and a control unit, the motor is fixedly arranged in the casing, the blending blade is arranged outside the casing, and an output shaft of the motor penetrates through the casing and is fixedly connected with the blending blade; the control unit is respectively electrically connected with the motor and the power supply assembly.

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