WO2023016497A1 - 一种雾化用容器及雾化装置 - Google Patents

一种雾化用容器及雾化装置 Download PDF

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Publication number
WO2023016497A1
WO2023016497A1 PCT/CN2022/111495 CN2022111495W WO2023016497A1 WO 2023016497 A1 WO2023016497 A1 WO 2023016497A1 CN 2022111495 W CN2022111495 W CN 2022111495W WO 2023016497 A1 WO2023016497 A1 WO 2023016497A1
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WO
WIPO (PCT)
Prior art keywords
channel
cover
mist outlet
auxiliary
outlet
Prior art date
Application number
PCT/CN2022/111495
Other languages
English (en)
French (fr)
Inventor
高晓扬
哈贝尔山姆
Original Assignee
广州驰扬香氛科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN202121875154.7U external-priority patent/CN216394853U/zh
Priority claimed from CN202121875207.5U external-priority patent/CN216417896U/zh
Application filed by 广州驰扬香氛科技有限公司 filed Critical 广州驰扬香氛科技有限公司
Priority to US18/247,327 priority Critical patent/US20230311142A1/en
Publication of WO2023016497A1 publication Critical patent/WO2023016497A1/zh

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/0012Apparatus for achieving spraying before discharge from the apparatus
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/24Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas with means, e.g. a container, for supplying liquid or other fluent material to a discharge device
    • B05B7/2489Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas with means, e.g. a container, for supplying liquid or other fluent material to a discharge device an atomising fluid, e.g. a gas, being supplied to the discharge device
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L9/00Disinfection, sterilisation or deodorisation of air
    • A61L9/14Disinfection, sterilisation or deodorisation of air using sprayed or atomised substances including air-liquid contact processes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/02Spray pistols; Apparatus for discharge
    • B05B7/04Spray pistols; Apparatus for discharge with arrangements for mixing liquids or other fluent materials before discharge
    • B05B7/0416Spray pistols; Apparatus for discharge with arrangements for mixing liquids or other fluent materials before discharge with arrangements for mixing one gas and one liquid
    • B05B7/0433Spray pistols; Apparatus for discharge with arrangements for mixing liquids or other fluent materials before discharge with arrangements for mixing one gas and one liquid with one inner conduit of gas surrounded by an external conduit of liquid upstream the mixing chamber
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/24Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas with means, e.g. a container, for supplying liquid or other fluent material to a discharge device
    • B05B7/2489Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas with means, e.g. a container, for supplying liquid or other fluent material to a discharge device an atomising fluid, e.g. a gas, being supplied to the discharge device
    • B05B7/2491Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas with means, e.g. a container, for supplying liquid or other fluent material to a discharge device an atomising fluid, e.g. a gas, being supplied to the discharge device characterised by the means for producing or supplying the atomising fluid, e.g. air hoses, air pumps, gas containers, compressors, fans, ventilators, their drives

Definitions

  • the invention relates to the field of atomization equipment, in particular to an atomization container and an atomization device capable of atomizing liquid.
  • Existing atomizers generally include an essential oil bottle and an atomizing head, and the essential oil bottle is connected with the atomizing head.
  • the atomizing head needs to be connected with the essential oil bottle so that the atomizer can atomize the essential oil in the essential oil bottle, and then the atomizing head and the essential oil bottle are installed in the atomizer housing, which is inconvenient to use.
  • One aspect of the present invention provides an atomization container, which includes a container body and an atomizer.
  • the container body has an accommodation chamber inside.
  • the atomization container also has an air inlet channel and a mist outlet channel. One end of the channel is used to connect to an external air source, and the other end is connected to the atomizer for providing airflow to the atomizer, and the atomizer is used to connect the airflow provided by the air inlet channel with the accommodation chamber
  • the liquid in the container is mixed and atomized to form an aerosol
  • the mist outlet channel is used to discharge the aerosol out of the container body
  • the atomizer is located in the accommodating cavity, and in the first state, the The air inlet channel and the mist outlet channel are opened, so that the airflow of the air pump can enter the atomizer through the air inlet channel, and the aerosol formed by the atomizer can be discharged out of the container body through the mist outlet channel;
  • the air intake channel and/or the mist outlet channel are closed.
  • the atomization container further includes a first cover, the first cover is connected to the container body to close the opening of the container body, and the atomizer is connected to the first cover , the air inlet channel and the mist outlet channel are set in the first cover, and the first cover is also provided with a first valve body and a second valve body, and the first valve body and the inlet The air channel cooperates to open or close the air intake channel, and the second valve body cooperates with the mist outlet channel to open or close the mist outlet channel.
  • the first The valve body and the second valve body are closed, the first cover seals the container body, the second valve body is movably installed in the first cover body, and the atomizer is fixed on the first cover body.
  • the second valve body can move relative to the container body along with the second valve body.
  • the first valve body includes a first sealing member and a first elastic member
  • the first elastic member is connected to the first sealing member
  • the second valve body includes a second sealing member and a second an elastic member
  • the second elastic member is connected to the second sealing member
  • the first sealing member closes the air intake passage
  • the second sealing member closes the mist outlet channel
  • the first seal member and the second seal member are pressed down by an external force
  • the air intake passage communicates with the atomizer and the outer space of the container body
  • the mist outlet The channel communicates with the accommodating chamber and the outer space of the container body.
  • the first cover is provided with a hollow installation cylinder, the upper and lower ends of the installation cylinder are open, the second valve body is movably installed in the installation cylinder, and the second valve body includes An air pipe and a sealing body fixed on the outer peripheral side of the air pipe, the air inlet passage is formed in the air pipe, the first valve body is arranged in the air inlet passage, and the installation cylinder is formed with
  • the mist outlet channel is located outside the ventilation pipe; the upper end of the ventilation pipe protrudes outward through the opening of the upper end of the installation cylinder, and the sealing body is closely matched with the inner wall of the installation cylinder , the atomizer is fixed at the lower end of the ventilation pipe, in the first state, the sealing body opens the mist outlet channel, and the aerosol formed by the atomizer can be discharged from the mist outlet channel through the mist outlet channel.
  • the outside of the atomization container in the second state, the sealing body blocks the mist outlet channel, and the aerosol formed by the atomizer cannot be discharged
  • the upper section of the ventilation pipe is in clearance fit with the opening at the upper end of the installation cylinder, and a connection through hole is opened on the side wall of the installation cylinder, and the connection through hole communicates with the accommodation cavity, and the second The valve body can move relative to the connection through hole under the action of external force.
  • the sealing body opens the passage from the connection through hole to the opening at the upper end of the installation cylinder, and the gas formed by the atomizer The mist enters the installation cylinder from the accommodation chamber through the connection through hole, and the opening at the upper end of the installation cylinder is discharged out of the first cover body.
  • the sealing body makes the connection through hole The passage to the opening at the upper end of the installation cylinder is closed, and the aerosol formed by the atomizer is enclosed in the accommodation cavity.
  • the atomization container further includes a third cover, the third cover is a sealed cover, the third cover is detachably connected to the first cover, and the third cover When sealingly connected with the first cover body, the atomizer, the air inlet passage and the mist outlet passage are sealed in the accommodation chamber.
  • the atomization container further includes a second cover
  • the second cover is provided with a top column, an auxiliary air intake channel, an auxiliary mist outlet channel and a mist outlet
  • the auxiliary air intake channel is arranged on
  • the mist outlet is connected to the auxiliary mist outlet channel
  • the second cover is connected to the first cover
  • the top column presses down on the first valve body and the second valve body.
  • the auxiliary air intake channel communicates with the air intake channel
  • the auxiliary mist outlet channel communicates with the mist outlet channel
  • the air intake channel and the auxiliary air intake channel communicate with the mist outlet channel It is isolated from the auxiliary mist outlet.
  • the first cover is provided with a hollow installation cylinder, the upper and lower ends of the installation cylinder are open, the second valve body is installed in the installation cylinder so as to move up and down, and the second valve body It includes an air pipe and a sealing body fixed on the outer peripheral side of the air pipe, the air inlet passage is formed in the air pipe, the first valve body is arranged in the air inlet passage, and the installation cylinder is formed with The mist outlet channel, the mist outlet channel is located outside the ventilation pipe; the upper end of the ventilation pipe protrudes outward through the opening at the upper end of the installation cylinder, and the sealing body is tightly connected to the inner wall of the installation cylinder
  • the atomizer is fixed on the lower end of the air pipe, when the second cover is connected with the first cover, the top column presses down the second valve body to make the mist discharge
  • the channel is opened, the lower end of the top column is inserted into the second valve body and abuts against the first valve body, so that the auxiliary intake channel is connected to
  • the first valve body includes a first sealing member and a first elastic member, the first elastic member is connected to the first sealing member, the first sealing member is a spherical sealing member, and the top
  • the first sealing member is pressed down, and a gap is provided at the contact position between the lower end of the top post and the first sealing member, and the air inlet passage is connected to the first sealing member.
  • the auxiliary air intake channels are connected through the gaps.
  • the second cover is provided with an air intake joint, the air intake joint is connected to the auxiliary air intake channel, and the second cover is provided with an auxiliary air outlet surrounding the mist outlet And an auxiliary air inlet located on one side of the second cover, the auxiliary air inlet communicates with the auxiliary air outlet.
  • the atomizer has a gas passage and a liquid passage
  • the gas passage has an air inlet and an air outlet connected to each other
  • the liquid passage has a liquid inlet and a liquid outlet connected to each other
  • the atomizer also includes a liquid suction pipe, one end of which extends to the bottom of the containing chamber, and the other end communicates with the liquid inlet
  • the air inlet is connected to the liquid inlet.
  • the gas outlet is connected to the air inlet passage, the air outlet is located above the liquid level of the accommodation chamber, the airflow provided by the inlet passage and the liquid in the accommodation chamber are mixed and atomized near the air outlet, and discharged to the in the holding chamber.
  • the embodiment of the present invention also provides an atomization device, which includes an atomization device body and an atomization container, the body of the atomization device is provided with an installation hole, and the atomization container is inserted into the installation hole.
  • An air pump is also provided in the body of the atomization device, wherein the atomization container is the atomization container described in the above embodiment, one end of the air inlet channel is connected to the air pump, and the other end is connected to the air pump.
  • the air pump provides airflow to the atomizer through the air inlet passage, and the mist outlet passage discharges the aerosol out of the container body, and finally out of the atomization device body .
  • the atomizer has a gas passage and a liquid passage
  • the gas passage has an air inlet and an air outlet connected to each other
  • the liquid passage has a liquid inlet and a liquid outlet connected to each other
  • the atomizer also includes a liquid suction pipe, one end of which extends to the bottom of the containing chamber, and the other end communicates with the liquid inlet
  • the air inlet is connected to the liquid inlet.
  • the gas outlet is connected to the air inlet passage, the air outlet is located above the liquid level of the accommodation chamber, the airflow provided by the inlet passage and the liquid in the accommodation chamber are mixed and atomized near the air outlet, and discharged to the in the accommodating cavity;
  • the atomizer includes an atomizer body and a blocking member, the atomizer body is provided with a liquid channel and a gas channel; the end of the liquid channel is provided with a liquid outlet, and the end of the gas channel is provided with an outlet
  • the gas outlet, the liquid outlet is distributed on the peripheral side of the gas outlet;
  • the barrier is arranged opposite to the gas outlet and the liquid outlet and separated by a preset distance, and the barrier makes the gas ejected from the gas outlet Airflow refraction, the liquid outlet is located downstream of the refraction direction of the air outlet;
  • the atomization device body includes a first body and a second body, the first body and the second body are detachably connected, the The second body is sleeved on the outside of the first body; the gas channel is opened on the first body, and the liquid channel is opened on the second body or the outer wall of the first body.
  • the side wall of the installation hole is provided with an air outlet joint connected with the air pump
  • the atomization container is provided with an air intake joint connected with the air inlet channel, and the atomization container is inserted into When the hole is installed, the air inlet joint is connected with the air outlet joint.
  • the atomization container further includes a first cover, the first cover is connected to the container body to close the opening of the container body, and the atomizer is connected to the first cover , the air inlet channel and the mist outlet channel are set in the first cover, and the first cover is also provided with a first valve body and a second valve body, and the first valve body and the inlet The air channel cooperates to open or close the air intake channel, and the second valve body cooperates with the mist outlet channel to open or close the mist outlet channel.
  • the first The valve body and the second valve body are closed, and the first cover seals the container body;
  • the atomization container also includes a second cover, the second cover is provided with a top column, an auxiliary air intake channel, an auxiliary mist outlet channel and a mist outlet, and the auxiliary air intake channel is arranged on the top
  • the mist outlet is connected with the auxiliary mist outlet channel
  • the top column presses down the first valve body and the second valve body
  • the auxiliary air intake channel is connected to the air intake channel
  • the auxiliary mist outlet channel is connected to the mist outlet channel
  • the air intake channel and the auxiliary air intake channel are connected to the mist outlet channel and the auxiliary mist outlet channel.
  • the fog channel is isolated;
  • the air intake joint is arranged on the second cover, and the air intake joint is connected to the auxiliary air intake channel, and the second cover is provided with an auxiliary air outlet surrounding the mist outlet and An auxiliary air inlet located on one side of the second cover, the auxiliary air inlet communicates with the auxiliary air outlet, and an auxiliary air blowing device is provided on the body of the atomization device, and the auxiliary air blowing device is connected to the auxiliary air outlet.
  • the auxiliary air inlet is opposite to the auxiliary air inlet, blowing air to the auxiliary air inlet, and blowing air out of the atomizing device body through the auxiliary air outlet.
  • the atomizing device body includes an inner cylinder and a rebounder, the inner cylinder is inserted into the installation hole, and the inner cylinder is provided with a rebounding portion that protrudes toward the circumference of the inner cylinder, and the rebounder
  • the device is installed in the body of the atomization device, and is located outside the inner cylinder, against the rebound part from bottom to top, the atomization container is partially inserted into the inner cylinder, and the rebounder is Under action, it has a compressed state and a bouncing state, and the height of the atomization container relative to the installation hole when the rebounder is in the bouncing state is higher than the height relative to the installation hole when the rebounder is in a compressed state.
  • the atomization container further includes a first cover, the first cover is connected to the container body to close the opening of the container body, and the atomizer is connected to the first cover , the air inlet channel and the mist outlet channel are set in the first cover, and the first cover is also provided with a first valve body and a second valve body, and the first valve body and the inlet The air channel cooperates to open or close the air intake channel, and the second valve body cooperates with the mist outlet channel to open or close the mist outlet channel;
  • the atomization container also includes a second cover, the outer diameter of the second cover is larger than that of the first cover, and the second cover is provided with a top column, an auxiliary air intake channel, and an auxiliary mist outlet.
  • a channel and a mist outlet the auxiliary air intake channel is arranged in the top column, the mist outlet communicates with the auxiliary mist outlet channel, the second cover is connected with the first cover,
  • the top column presses down the first valve body and the second valve body, so that the auxiliary air intake channel communicates with the air intake channel, the auxiliary mist outlet channel communicates with the mist outlet channel, and the The air intake channel and the auxiliary air intake channel are isolated from the mist outlet channel and the auxiliary mist outlet channel;
  • the first cover is inserted into the inner cylinder, the second cover is located outside the inner cylinder, a support step is provided on the inner wall of the inner cylinder, and the second cover is supported on the support step.
  • the atomization container further includes a first cover, the first cover is connected to the container body to close the opening of the container body, and the atomizer is connected to the first cover , the air inlet channel and the mist outlet channel are set in the first cover, and the first cover is also provided with a first valve body and a second valve body, and the first valve body and the inlet The air channel cooperates to open or close the air intake channel, and the second valve body cooperates with the mist outlet channel to open or close the mist outlet channel;
  • the atomization container also includes a second cover, the second cover is provided with a top column, an auxiliary air intake channel, an auxiliary mist outlet channel and a mist outlet, and the auxiliary air intake channel is arranged on the top
  • the mist outlet is connected with the auxiliary mist outlet channel
  • the second cover is connected with the first cover
  • the top column presses down the first valve body and the second valve body, so that
  • the auxiliary air intake channel communicates with the air intake channel
  • the auxiliary mist outlet channel communicates with the mist outlet channel
  • the air intake channel and the auxiliary air intake channel communicate with the mist outlet channel and the auxiliary mist outlet channel Separated;
  • the second cover body is columnar, and the outer surface of the second cover body matched with the installation hole includes a first arcuate area and a first plane area connected with the first arcuate area, the installation
  • the inner wall of the hole is correspondingly provided with a second arcuate area and a second plane area connected with the second arcuate area, and the first arcuate area and the first plane area are respectively connected with the second arcuate area
  • the air inlet joint and the air outlet joint are respectively arranged on the first plane area and the second plane area.
  • the atomization device includes a plurality of the atomization containers, the body of the atomization device is correspondingly provided with a plurality of installation holes, each of the atomization containers is connected to a corresponding air pump, or The multiple atomization containers are connected to the same air pump; the atomization device also includes an auxiliary air blowing device, each of the atomization containers is provided with a mist outlet and an auxiliary air outlet surrounding the mist outlet, The mist outlet is in communication with the mist outlet channel, and the auxiliary air outlet of each atomization container is connected to a corresponding auxiliary air blowing device, or the auxiliary air outlets of the plurality of atomization containers are connected to the same Auxiliary blowing device connection.
  • the atomization container provided by the present invention is provided with an atomizer inside, so it is easier to install in the atomization device, and when replacing the atomization container, the atomizer is replaced, so that the atomization of the atomization device
  • the atomizer is often in a better working condition, and the atomization effect is better.
  • Fig. 1 is the sectional view of the atomization container of the embodiment of the present invention
  • FIG. 2 is a cross-sectional view of the use state of the atomization container according to the embodiment of the present invention.
  • FIG. 3 is a cross-sectional view of a second cover according to an embodiment of the present invention.
  • FIG. 4 is a cross-sectional view of a first cover in an embodiment of the present invention.
  • Fig. 5 is the overall structural diagram of the atomizer of the embodiment of the present invention.
  • Figure 6 is an exploded view of the atomizer of the embodiment of the present invention.
  • FIG. 7 is an overall structural diagram of a second body according to an embodiment of the present invention.
  • Fig. 8 is an overall structural diagram of the first body of the embodiment of the present invention.
  • Fig. 9 is a cross-sectional view of the atomizer of the embodiment of the present invention.
  • Fig. 10 is a schematic structural diagram of an atomizing device according to an embodiment of the present invention.
  • Fig. 11 is a schematic structural view of an atomization container according to another embodiment of the present invention.
  • Fig. 12 is a cross-sectional view of the atomization container of Fig. 11 .
  • Fig. 13 is another partial cross-sectional view of the atomization container of Fig. 11 .
  • Fig. 14 is a cross-sectional view of the atomizing device in Fig. 10 .
  • Fig. 15 is a partially enlarged view of the atomizing device in Fig. 14 .
  • FIG. 16 is another cross-sectional view of the atomizing device of FIG. 10 .
  • FIG. 17 is a partially enlarged view of the atomization device in FIG. 16 .
  • the present invention provides an atomization device, which comprises a body of the atomization device and a container for atomization.
  • An installation hole is opened on the body of the atomization device, and the container for atomization is inserted into the installation hole.
  • An air pump is also arranged in the body of the atomization device.
  • the atomization container includes a container body and an atomizer.
  • the atomization container also has an air inlet channel and a mist outlet channel. One end of the air inlet channel is connected to the air pump, and the other end is connected to the atomizer, so that the air pump passes through the air inlet channel to the atomizer.
  • the atomizer is used to mix and atomize the airflow provided by the air inlet channel with the liquid in the accommodation chamber to form an aerosol, and the mist outlet channel is used to discharge the aerosol out of the container body and finally out of the atomization device body ,
  • the side wall of the installation hole is provided with an air outlet joint connected to the air pump, and the atomization container is provided with an air intake joint connected with the air intake channel.
  • the air intake joint is connected to the air outlet joint .
  • the atomization container is shown in Figures 1-9, the atomization container includes a container body 5 and an atomizer 1000, a housing cavity is formed in the container body 5, and the atomizer 1000 is located in the housing cavity , the atomizer may be partly or completely located in the accommodation cavity, and whether the atomizer is partially or completely located in the accommodation cavity, it all falls within the protection scope of the present invention.
  • the atomization container 5 also has an air inlet channel 61 and a mist outlet channel 62 , the air inlet channel 61 is used to connect an external air source and the atomizer 1000 to provide airflow to the atomizer 1000 .
  • the atomizer 1000 is used to mix and atomize the airflow provided by the air inlet channel 61 and the liquid in the chamber to form an aerosol.
  • the mist outlet channel 62 is connected with the accommodating cavity, and is used to discharge the mist out of the container body 5 .
  • the air inlet channel 61 and the mist outlet channel 62 are opened, so that the airflow from the external air source can enter the atomizer through the air inlet channel, and the aerosol formed by the atomizer can be discharged from the outer space of the container through the mist outlet channel, Generally, it is discharged into the outside air; at this time, the atomization container is generally in use, and the high-pressure gas enters from the air inlet channel 61 to atomize the liquid, and the formed mist diffuses from the mist outlet channel 62 .
  • the air inlet channel 61 and/or the mist outlet channel 62 are closed, and at this time, the atomization container is generally in a non-use state to prevent the liquid in the container body 5 from flowing out.
  • the atomization container further includes a first cover 6 connected to the container body 5 to close the opening of the container body 5, and the atomizer 1000 is connected to the first cover 6 , the air inlet channel 61 and the mist outlet channel 62 are arranged on the first cover 6 .
  • the air inlet channel 61 and the mist outlet channel 62 can also be arranged on the atomizer 1000 or the container body 5 or other components.
  • the first cover body 6 is also provided with a first valve body and a second valve body, the first valve body cooperates with the intake passage 61 to open or close the intake passage 61, the first valve body The second valve body cooperates with the mist outlet channel 62 for opening or closing the mist outlet channel 62 .
  • the first valve body and the second valve body are closed.
  • the atomization container is in a non-use state, which can prevent liquid from leaking out of the container body 5 .
  • the first cover 6 is connected to the opening of the container body 5
  • the second cover 7 is movably connected to the second cover 7 .
  • the air intake channel 61 and the mist outlet channel 62 are arranged in the first cover body 6; the top column 74, the auxiliary air intake channel 71, the auxiliary mist outlet channel 72 and the mist outlet port 73 are arranged on the second cover body 7, and the first cover body Elastic part 8 and sealing part 9 are also arranged in 6, and elastic part 8 is connected with sealing part 9, and specifically, elastic part 8 is arranged with the lower part of sealing part, and second cover body 7 can make elastic by squeezing sealing part 9. The piece shrinks.
  • the air intake channel 61 and the auxiliary air intake channel 71 are blocked by the sealing member, and the mist outlet channel 62 and the auxiliary mist outlet channel 72 are also blocked by the seal member 9 , and the bottle body is in the non-use state at this time.
  • the top column 74 applies pressure to the sealing member, the air inlet channel 61 and the auxiliary air inlet channel 71 are connected, and the mist outlet channel 62 and the auxiliary mist outlet channel 72 are also connected. under use.
  • the elastic member 8 includes a first spring 81 and a second spring 82
  • the sealing member 9 includes a first sealing member 91 and a second sealing member 92
  • the first valve body includes a first sealing member and a first elastic member
  • the second valve body includes a second sealing member and a second elastic member
  • the first spring 81 is connected with the first sealing member 91
  • the second spring 82 is connected with the second
  • the sealing element 92 is connected
  • the auxiliary air intake channel 71 runs through the top column 74 .
  • the top column 74 squeezes the first sealing member 91 and the second sealing member 92, so that the air intake channel 61 and the auxiliary air intake channel 71 are connected, and the mist outlet channel 62 is also communicated with the auxiliary mist outlet channel 72.
  • the second cover 7 move away from the first cover 6 (such as unscrewing the second cover 7), the first spring 81 and the second spring 82 return to deformation, and the first seal 91 and the second seal 92 It can also play the role of sealing partition again, the air inlet channel 61 and the auxiliary air inlet channel 71 are isolated, and the mist outlet channel 62 and the auxiliary mist outlet channel 72 are also isolated.
  • the first sealing member 91 closes the air intake channel 61
  • the second sealing member 92 closes the mist outlet channel 62
  • the first sealing member 91 and the first sealing member 91 are pressed down by external force.
  • the second sealing member 92, the air inlet channel 61 communicates with the atomizer 1000 and the outer space of the container
  • the mist outlet channel 62 communicates with the accommodating chamber and the outer space of the container.
  • the first cover body 6 is provided with a hollow installation tube 65, the upper and lower ends of the installation tube 65 are open, and the mist outlet channel 62 and the air intake channel 61 are formed in the installation tube 65. It is also located in the installation cylinder 65 , and the mist outlet channel 62 is located on the peripheral side of the air intake channel 61 .
  • the gas inlet channel 61 is the gas channel 10 of the nebulizer, and in other embodiments, the gas inlet channel 61 may also be a gas channel communicated with the gas channel 10 .
  • the atomizer 1000 is fixed in the opening of the lower end of the installation cylinder 65, and the second valve body is movably installed in the installation cylinder 65.
  • the second valve body includes a vent pipe 922 and a sealing body 923 fixed on the outer peripheral side of the vent pipe 922.
  • the upper end of the air pipe 922 protrudes outward through the opening of the upper end of the installation cylinder 65 , and the sealing body 923 is tightly fitted with the inner wall of the installation cylinder 65 so that it can seal the connection through hole 9221 on the installation cylinder 65 .
  • the sealing body 923 opens the mist outlet channel 61, and the aerosol formed by the atomizer 1000 can be discharged to the outside of the atomization container through the mist outlet channel 61; in the second state, the sealing body 923 makes the mist outlet The channel 61 is blocked, and the aerosol formed by the nebulizer 1000 cannot be discharged outside the atomization container through the mist outlet channel 61 ; a communication cavity 921 is formed in the vent pipe 922 , and the first valve body is arranged in the communication cavity 921 .
  • the upper section of the air pipe 922 is tapered and fits with the opening gap at the upper end of the installation cylinder 65. Pressing the air pipe 922 downwards will be smoother, and the air pipe 922 will be in contact with the side wall of the installation bar 65. The gap between the openings is larger.
  • the side wall of the installation cylinder 65 is provided with a connecting through hole 9221. The second valve body can move relative to the connecting through hole 9221 under the action of external force.
  • the mist outlet channel 62 Open the aerosol formed by the atomizer 1000 can be discharged from the outside of the atomization container through the mist outlet channel 62; in the second state, the mist outlet channel 61 is blocked, and the aerosol formed by the atomizer 1000 cannot pass through the mist outlet channel 62 is discharged to the outside of the container for atomization.
  • the atomization container also includes a third cover (not shown), the third cover is a sealed cover, that is, the third cover is in contact with the container body 5 or the first cover 6 After the connection, the atomization container can be sealed.
  • the third cover covers the upper part of the container body 5, and seals the atomizer 1000 in the accommodating cavity.
  • the third cover can directly or indirectly cover the upper part of the container body 5, that is, the third cover It can be directly connected to the container body 5, or other components can be arranged between the container body 5 and the third cover, and the third cover is indirectly connected to the container body 5, as long as the third cover can still connect the atomizer If part or all of them are enclosed in the atomizing chamber, then the solution falls within the protection scope of the present application.
  • the third cover covers the upper part of the container body 5, which can prevent the first valve body and/or the second valve body from being accidentally opened, causing the liquid to flow out of the container body; When atomizing with a container, remove the third cover before use.
  • annular sealing groove 741 is provided at the end of the top column 74 close to the sealing member, and the first sealing member 91 is provided with an annular sealing portion 63, when the second cover 7 is pressed down (Press down the second cover body, you can press down directly, or move it down by twisting the second cover body), the annular sealing part 63 is sealingly connected with the annular sealing groove 741, and the air intake passage 61 and the auxiliary air intake passage 71 is used to circulate high-pressure gas, the mist outlet channel 62 and the auxiliary mist outlet channel 72 are used to circulate the mist atomized by the atomizer, and the annular sealing part 63 is connected with the annular sealing groove 741 so that the air inlet passage 61 and the auxiliary air inlet
  • the channel 71 is isolated from the mist outlet channel 62 and the auxiliary mist outlet channel 62, that is, the air intake channel 61 communicates with the auxiliary air intake
  • the channel is isolated to isolate the high-pressure gas and aerosol.
  • a communication port is provided in the mist outlet channel 62, and the second sealing member 92 passes through the communication port; in the first state, the second sealing member 92 is in sealing connection with the side wall of the communication port; in the second state, the second sealing member 92 A gap is formed between 92 and the side wall of the communication port, so that the mist outlet channel 62 and the auxiliary mist outlet channel 72 are connected.
  • a communication chamber 921 is provided in the second sealing member 92 , one end of the communication chamber 921 communicates with the intake passage 61 , and the other end of the communication chamber 921 communicates with the auxiliary intake passage 71 connected, the first sealing member 91 is located in the communicating chamber 921; in the first state, the first sealing member 91 blocks the communicating chamber 921; in the second state, the intake passage 61, the communicating chamber 921 and the auxiliary intake passage 71 are sequentially connected Pass.
  • the first sealing member 91 is a spherical sealing member, and the first sealing member 91 can also be a conical sealing member or a hemispherical sealing member.
  • the lower end of the top post is arranged in a shape with one side long and one side short, so that there is a gap when the top post 74 contacts with the first sealing member 91 .
  • the diameter of the end of the first sealing member 91 close to the top column 74 is gradually reduced.
  • the second sealing member 92 seals the communication port.
  • the second sealing member 92 is in sealing connection with the top post 74 .
  • the container body 5 includes a bottle body 51 and a bottle mouth 52, the diameter of the bottle mouth 52 is smaller than the diameter of the bottle body 51, and one end of the bottle body 51 near the bottle mouth 52 is provided with The bottle body holding groove 511, the bottleneck is opened on the bottle mouth portion 52; the first cover body 6 is provided with an annular sealing portion 64 and a bottle body holding groove 511, the annular sealing portion 64 is connected and fixed with the bottleneck, and the bottle The body clamping groove 511 is clamped, connected and fixed with the bottle body clamping groove 511 .
  • the first cover body 6 is made of elastic plastic or plastic material, and is fixedly connected by clamping, and its interference fit can play a role of connection and seal at the same time.
  • the mist outlet channel 62 and/or the auxiliary mist outlet channel 72 are arranged in a curved shape, so that the large-particle mist droplets can fall back into the container body 5 during the mist-out process, avoiding large-particle mist droplets After coming out, it falls around the container body 5 and causes pollution.
  • the first cover body 6 and the second cover body 7 are provided with threads that cooperate with each other, and the first cover body 6 and the second cover body 7 are fixed by threaded connection, and the connection is more stable.
  • the mist outlet direction of the mist outlet 73 is inclined upwards (upward inclination refers to that when the container is normally placed on the table, the height of the free end of the mist outlet is greater than the height of other positions of the mist outlet), and the large particles falling on the mist outlet 73 The mist droplets can flow back into the container body.
  • an atomizer is also included.
  • the atomizer 1000 is arranged in the air inlet channel 61.
  • the mist outlet 73 of the atomizer 1000 is connected with the mist outlet channel 62.
  • the atomizer is connected with Drainage elements, such as cotton wicks or drainage capillaries.
  • the atomizer 1000 includes an atomizer body 100 and a barrier 3, and the atomizer body 100 is provided with a liquid channel 20 and a gas channel 10.
  • the liquid The channel 20 leads into the liquid to be atomized, and the gas channel 10 leads into the high-pressure gas.
  • the end of the liquid channel 20 is provided with a liquid outlet 202, and the end of the gas channel 10 is provided with a gas outlet 101, and the liquid outlet 202 is distributed on the peripheral side of the gas outlet 101; the blocking member 3 is arranged opposite to the gas outlet 101 and the liquid outlet 202 And separated by a preset distance, the blocking member 3 refracts the airflow ejected from the air outlet 101, that is, after the airflow hits the blocking member, the moving direction of the airflow is changed by the blocking member like the refraction of light.
  • the liquid outlet 202 is located downstream of the air outlet 101 in the direction of refraction, that is, the airflow can hit the liquid outlet 202 after being refracted.
  • the barrier 3 diffuses the high-pressure gas to the surroundings, thereby breaking up and atomizing the liquid coming out of the liquid outlet 202, and the atomized mist follows the high-pressure gas.
  • the air flow diffuses to the surroundings, and because the high-pressure gas flows quickly, the atomized aroma phase will also diffuse very quickly.
  • the atomizer body 100 includes a first body 1 and a second body 2, the first body 1 and the second body 2 are detachably connected, and the second body 2 is sleeved on the The outer side of a body 1 ; the gas channel 10 is opened on the first body 1 , and the liquid channel 20 is opened on the second body 2 or the outer wall of the first body 1 .
  • the liquid channel 20 includes a main channel 203 and a branch channel 204, a plurality of branch channels 204 are provided, and the plurality of branch channels 204 are all connected to the main channel 203.
  • the main flow channel 203 divides into a plurality of branch flow channels 204 , and a small amount or one liquid inlet 201 can supply liquid to the liquid outlet 202 , reducing the number of main flow channels 203 and facilitating processing.
  • the end of each branch flow channel 204 is provided with a liquid outlet 202, and the number of main flow channels 203 is small, so the pore diameter of the main flow channel 203 can be opened relatively larger, reducing the situation that the liquid channel 20 is blocked.
  • the liquid channel 20 includes a main flow channel 203 and a branch flow channel 204, the branch flow channel 204 is arranged in an annular shape, the liquid outlet 202 is also in an annular shape, and the gas outlet is located in the middle of the annular liquid outlet.
  • the liquid outlet 202 is circular, and the difference between the outer diameter and the inner diameter of the annular liquid outlet 202 is 0.2-0.5 mm.
  • the difference between the outer diameter and the inner diameter of the annular liquid outlet 202 is 0.3 mm, and the outer diameter is only The diameter of the outer edge of the annular liquid outlet, and the inner diameter refers to the diameter of the inner edge of the annular liquid outlet.
  • the second body 2 includes a main body 24 and a matching part 25, a connecting rod 4 is arranged between the main body 24 and the matching part 25, and the main body 24 and the matching part 25 is fixedly connected by connecting rod 4, and the main part 24 and the matching part 25 communicate with the outside world for spraying.
  • a connecting rod 4 is arranged between the main body portion 24 and the mating portion 25, except the connecting rod 4, there are openings to facilitate mist diffusion.
  • the blocking piece 3 is fixed on the matching portion 25, and the distance between the blocking piece 3 and the air outlet 101 is 0.1mm-1mm, specifically, the distance between the blocking piece 3 and the air outlet 101 is 0.2mm or 0.3mm or 0.4mm or 0.5mm or 0.6mm or 0.7mm or 0.8mm or 0.9mm.
  • the inlet of the main flow channel 203 is arranged on the matching portion 25 , and the main flow channel 203 extends through the connecting rod 4 to the main body portion 24 .
  • the second body 2 is provided with a holding hole 21, and the peripheral side of the holding hole 21 is provided with a groove extending in the same direction as the holding hole, and the groove Extend to the liquid outlet 202.
  • the groove is formed into the branch channel 204 .
  • the diameters of the liquid channel 20 and the gas channel 10 are very small, especially the liquid channel 20, if the diameter is too large, the liquid cannot be sucked out by negative pressure, and if the diameter is too small, it will be very difficult to process.
  • the method of setting the liquid channel 20 and the gas channel 10 makes it easier to set up the liquid channel 20 and the gas channel 10.
  • the gas outlet 101 of the gas channel 10 is small, and the cross-section of the gas position is large, which is convenient for processing and easy to clean. . Since the branch channel 204 cannot be opened too large, this solution uses the first body 1 and the second body 2 to cooperate to form the branch channel 204, which not only makes opening the branch channel 204 easy, but also facilitates cleaning the branch channel 204.
  • the holding hole 21 includes a first holding hole 211 and a second holding hole 212 communicating with the first holding hole 211, the second holding hole 212 Larger than the cross-sectional area of the first holding hole 211, a first step 22 is formed between the first holding hole 211 and the second holding hole 212, the entrance of the branch channel 204 is located on the step, and the outlet of the main flow channel 203 is also Located on the first step 22.
  • the first body 1 includes a clamping portion 11 and a connecting portion 15 , and the connecting portion 15 protrudes from the clamping hole for connecting with an external air pump.
  • the clamping part 11 includes a first clamping part 111 and a second clamping part 112, the first clamping part 111 is matched with the first clamping hole 211, and the second clamping part 112 is matched with the second clamping hole 212 .
  • a second step 12 is formed between the first clamping part 111 and the second clamping part 112, and a gap is formed between the first step 22 and the second step 12, and the main flow channel 203 communicates with the plurality of branch flow channels 204 through the gap. .
  • the first clamping part 111 is inserted into the first clamping groove, and the first clamping part 111 is attached to the side wall of the first clamping groove, so that the groove located on the peripheral side of the first clamping groove forms a branch channel 204, and The first body 1 and the second body 2 can be fixed.
  • the second clamping portion 112 has an interference fit with the side wall of the second clamping groove, further making the connection between the first body 1 and the second body 2 more stable.
  • a third step 14 is provided between the connecting part 15 and the holding part, and the third step 14 cooperates with the second to limit the length of the holding part inserted into the holding hole, so that the first step 22
  • the gap formed with the second step 12 is not too small, or there is no gap between the first step 22 and the second step 12 .
  • the second holding hole 212 is provided with a positioning groove 23, the second holding portion 112 is provided with a protrusion 13 matching with the positioning groove 23, and the outlet of the main flow channel 203 is located in the positioning groove 23 Inside.
  • the relative positions of the first body 1 and the second body 2 are fixed so that the first body 1 cannot rotate in the holding groove of the second body 2 .
  • the first clamping portion 111 is set in a tapered shape
  • the liquid channel 20 is also set in a tapered shape, which facilitates the opening of grooves, facilitates processing, and makes the liquid outlet 202 of the liquid channel 20 as close as possible Air outlet 101, the atomization effect will be better.
  • the liquid outlet 202 of the liquid channel 20 and the liquid outlet 202 of the gas channel 10 are located on the same plane, and the air flow whose flow direction is changed by the blocking member 3 directly acts on the liquid coming out of the liquid outlet 202, and will not be blocked by other objects , otherwise it will affect the flow rate of the airflow and also affect the effect of atomization.
  • the gas outlet 101 is set opposite to the barrier 3, and a liquid outlet 202 is arranged around the gas outlet 101.
  • the high-pressure gas impacting on the barrier 3 diffuses to the surroundings, thereby breaking up the liquid coming out of the liquid outlet 202, thereby To achieve the purpose of spraying around.
  • the structure of the atomizing device is as shown in Figures 10-17.
  • the atomizing device includes an atomizing device body 3000a and an atomizing container 2000a.
  • a mounting hole 308a is opened on the atomizing device body 3000a, and the mounting hole 308a is exposed outside the casing of the atomizing device body 3000a, that is, the mounting hole 308a can be seen from the outside.
  • the atomization container 2000a is inserted into the installation hole 308a, and an air pump 303a is also arranged in the atomization device body 3000a.
  • the atomization container 2000a includes a container body 5a and an atomizer 1000a.
  • the container body 5a has an accommodating cavity for containing essential oil.
  • the atomization container 2000a also has an air inlet channel 61a and a mist outlet channel 62a.
  • One end of the air inlet channel 61a is connected to the air pump 303a, and the other end is connected to the atomizer 1000a, so that the air pump 303a provides high-speed air to the atomizer 1000a through the air inlet channel. compressed air flow.
  • the atomizer 1000a is used to mix and atomize the airflow provided by the air inlet channel 61a and the liquid (essential oil) in the chamber to form an aerosol.
  • the mist outlet channel 62a is used to discharge the aerosol out of the container body 5a, and finally out of the atomizing device body 3000a.
  • An air outlet joint 305a connected to the air pump 303a is disposed on the side wall of the installation hole 308a, and the air outlet joint 305a is connected to the air pump 303a through an air outlet pipe 304a.
  • the atomization container 2000a is provided with an air inlet joint 77a connected to the air inlet passage 61a. When the atomization container 2000a is inserted into the installation hole 308a, the air inlet joint 77a is connected with the air outlet joint 305a.
  • the connection referred to here may be an indirect connection or a direct connection.
  • the structure of the atomization container 2000a is similar to the structure of the atomization container shown in FIGS. 1-9 above, and the working principle is the same, so the working principle of the atomization container 2000a will not be repeated in the following embodiments.
  • the atomizer 1000a is located in the housing chamber.
  • the air inlet channel 61a and the mist outlet channel 62 are opened, so that the airflow of the air pump 303a can enter the atomizer 1000a through the air inlet channel 61a, and the mist The mist formed by the nebulizer 1000a can be discharged out of the container body 5a through the mist outlet channel 62a.
  • the air intake channel 61a and/or the mist outlet channel 62a are closed.
  • the air inlet channel 61a and the mist outlet channel 62a are closed simultaneously, and in other embodiments, one of the air inlet channel 61a and the mist outlet channel 62a can also be closed.
  • the atomization container 2000a further includes a first cover 6a, the first cover 6a is connected to the container body 5a, and closes the opening of the container body 5a.
  • the first cover body 6a and the container body 5a may be detachably connected, or may form an integral structure by means of ultrasonic welding or the like.
  • the atomizer 1000a is connected to the first cover body 6a, the air inlet channel 61a and the mist outlet channel 62a are set in the first cover body 6a, and the first cover body 6a is also provided with a first valve body 91a and a second valve body 92a .
  • the first valve body 91a cooperates with the air inlet channel 92a for opening or closing the air inlet channel 61a
  • the second valve body 92a cooperates with the mist outlet channel 62a for opening or closing the mist outlet channel 62a.
  • the first valve body 91a and the second valve body 92a are closed, and the first cover body 6a seals the container body 5a so that even if the container body 5a is turned upside down, the essential oil therein will not leak out.
  • the first valve body 91a includes a first sealing member 911a and a first elastic member 81a
  • the first elastic member 81a is connected to the first sealing member 911a
  • the second valve body 92a includes a second sealing member 923a and a first elastic member 81a.
  • the second elastic member 82a is connected to the second sealing member 923a.
  • a hollow mounting cylinder 65a is disposed in the first cover body 6a, the upper and lower ends of the mounting cylinder 65a are open, and the second valve body 92a is movably installed in the mounting cylinder 65a.
  • the second valve body 92a includes a vent pipe 922a and a sealing body (that is, the second sealing member of the above-mentioned embodiment) 923a fixed on the outer peripheral side of the vent pipe 922a.
  • the air intake passage 61a is formed in the vent pipe 922a, and the first valve body 91a is provided with In the intake passage 61a.
  • a mist outlet channel 62a is formed in the installation cylinder 65a, and the mist outlet channel 62a is located outside the ventilation pipe 922a.
  • the upper end of the ventilation pipe 922a protrudes outward through the opening 655a at the upper end of the mounting cylinder 65a.
  • the sealing body 923a closely fits with the inner wall of the installation cylinder 65a.
  • the atomizer 1000a is fixed in the lower end opening of the installation cylinder 65a, and is fixed relative to the installation cylinder 65a. In this embodiment, the atomizer 1000a is fixed on the lower end of the vent tube 922a, and can move up and down relative to the installation cylinder 65a and the container body 5a along with the vent tube 922a.
  • the sealing body 923a opens the mist outlet channel 62a, and the aerosol formed by the atomizer 1000a can be discharged to the outside of the atomization container 2000a through the mist outlet channel 62a.
  • the sealing body 923a blocks the mist outlet channel 62a, and the mist formed by the atomizer 1000a cannot be discharged to the outside of the atomization container 2000a through the mist outlet channel 62a.
  • the upper section of the ventilation pipe 922a is clearance-fitted with the opening 655a at the upper end of the installation cylinder 65a, and a connection through hole 9221a is opened on the side wall of the installation cylinder 65a, and the connection through hole 9221a communicates with the accommodating cavity, and the second valve body 92a It can move relative to the connection through hole 9221a under the action of external force.
  • the sealing body 923a opens the mist outlet channel 62a between the connection through hole 9221a and the opening 655a at the upper end of the installation cylinder 65a, and the atomizer 1000a forms The gas mist enters the installation cylinder 65a from the accommodating cavity through the connection through hole 9221a, and is discharged out of the first cover 6a through the opening at the upper end of the installation cylinder 65a.
  • the sealing body 923a connects the connection through hole 9221a to the upper end of the installation cylinder 65a.
  • the mist outlet channel 62a between the openings 655a is closed, and the aerosol formed by the nebulizer 1000a is enclosed in the accommodating cavity, and may also partially enter the installation cylinder 65a.
  • the atomization container 2000a also includes a third cover (not shown in the figure), the third cover is a sealed cover, the third cover is detachably connected to the first cover 6a, the third When the cover body is sealed with the first cover body 6a, the atomizer 1000a, the air inlet channel 61a and the mist outlet channel 62a are sealed in the accommodation cavity.
  • the third cover is connected to the upper part of the first cover 6a, which can prevent the first valve body 91a and/or the second valve body 92a from being accidentally opened, causing the liquid to flow out of the container. Outflow from the main body 5a; when using the atomization container 2000a for atomization, remove the third cover before use.
  • the atomization container 2000a also includes a second cover 7a, on which a top post 74a, an auxiliary air intake channel 71a, an auxiliary mist outlet channel 72a and a mist outlet Mouth 73a.
  • the auxiliary air intake channel 71a is arranged in the top column 74a, and the mist outlet 73a communicates with the auxiliary mist outlet channel 72a.
  • the top post 74a presses down the first valve body 91a and the second valve body 92a, so that the auxiliary air intake channel 71a communicates with the air intake channel 61a, and the auxiliary mist outlet channel 72a communicates with the mist outlet channel 62a, and the air inlet channel 61a and the auxiliary air inlet channel 71a are isolated from the mist outlet channel 62a and the auxiliary mist outlet channel 72a.
  • the second cover 7a may be threadedly connected to the first cover 6a.
  • a filter 76a may also be provided in the second cover body 7a, and the filter 76a is used to filter coarse mist particles.
  • the filter 76a may have a labyrinth structure.
  • the first cover body 6a is provided with a hollow installation cylinder 65a, the upper and lower ends of the installation cylinder 65a are open, and the second valve body 92a is installed in the installation cylinder 65a so that it can move up and down.
  • the second valve body 92a Including a vent pipe 922a and a sealing body 923a fixed on the outer peripheral side of the vent pipe 922a, an air intake passage 61a is formed in the vent pipe 922a, the first valve body 91a is arranged in the air intake passage 61a, and a mist outlet passage is formed in the installation cylinder 65a 62a, the mist outlet channel 62a is located outside the ventilation pipe 922a.
  • the upper end of the air pipe 922a protrudes outward through the opening 655a at the upper end of the installation cylinder 65a, the sealing body 923a closely fits with the inner wall of the installation cylinder 65a, and the atomizer 1000a is fixed in the lower opening of the installation cylinder 65a or on the air pipe 922a the lower end.
  • the top post 74a presses down the second valve body 92a to open the mist outlet channel 62a, and the lower end of the top post 74a is inserted into the air intake channel 61a of the second valve body 92a And abut against the first valve body 91a, so that the auxiliary intake passage 71a is connected to the intake passage 61a.
  • the first valve body 91a includes a first sealing member 911a and a first elastic member 81a, the first elastic member 81a is connected to the first sealing member 911a, the first sealing member 911a is a spherical seal, and the top column
  • the first sealing member 911a is pressed down, and a gap is provided at the contact position between the lower end of the top post 74a and the first sealing member, and the air intake passage 61a and the auxiliary air intake passage 71a pass through.
  • the gaps are connected.
  • the atomizer 1000a has a gas channel and a liquid channel, the gas channel has an air inlet and a gas outlet connected to each other, the liquid channel has a liquid inlet and a liquid outlet connected to each other, and the gas outlet and the liquid outlet Adjacent, the atomizer 1000a also includes a suction pipe, one end of which extends to the bottom of the chamber, the other end communicates with the liquid inlet, the air inlet is connected to the air inlet passage 61a, and the air outlet is located above the liquid level of the chamber.
  • the gas flow provided by the air inlet passage 61a is mixed with the liquid in the accommodation chamber and atomized near the air outlet, and discharged into the accommodation chamber.
  • the atomizer 1000a may also have other structures.
  • the air intake joint 77a is arranged on the second cover 7a, and the air intake joint 77a is connected to the auxiliary air intake channel 71a, and the second cover 7a is provided with an auxiliary air outlet 781a surrounding the mist outlet 73a And the auxiliary air inlet 78a located on one side of the second cover 7a.
  • the auxiliary air inlet 78a communicates with the auxiliary air outlet 781a, and the atomizer body 3000a is also provided with an auxiliary air blowing device 79a.
  • the tuyere 781a blows out the atomizer body 3000a.
  • the auxiliary blowing device 79a can be a fan, which is used to form an auxiliary airflow near the mist outlet 73a, so that the essential oil mist can be diffused farther.
  • the atomizer body 3000a includes an inner cylinder 302a and a rebounder 301a, and the inner cylinder 302a is inserted into the installation hole 308a.
  • the inner cylinder 302a is provided with a rebounding portion 3021a that protrudes toward the periphery of the inner cylinder 302a.
  • the rebounder 301a is installed in the atomizer body 3000a and is located outside the inner cylinder 302a, abutting against the rebounding portion 3021a from bottom to top.
  • the atomization container 2000a is partially inserted into the inner cylinder 302a.
  • the rebounder 301a has a compressed state and a bouncing state under the action of an external force, and alternately enters the compressed state and the bouncing state under the action of an external force, that is, it is in a compressed state when it is pressed once, and it is in a bouncing state when it is pressed again, thereby driving the inner
  • the cartridge 302a and the atomization container 2000a move up and down in the mounting hole 308a.
  • the height of the atomizing container 2000a relative to the installation hole 308a when the rebounder 301a is in the bounced state is higher than the height relative to the installation hole 308a when the rebounder 301a is in the compressed state, so that the atomization container 2000a can be easily removed from the installation hole 308a. take out.
  • the atomization container 2000a also includes a first cover 6a, the first cover 6a is connected to the container body 5a to close the opening of the container body 5a, and the atomizer 1000a is connected to the first cover 6a , the air intake channel 61a and the mist outlet channel 62a are arranged in the first cover body 6a, and the first valve body 91a and the second valve body 92a are also arranged on the first cover body 6a, and the first valve body 91a and the air intake channel 61a Cooperate to open or close the air intake channel 61a, and the second valve body 92a cooperates with the mist outlet channel 62a to open or close the mist outlet channel 62a;
  • the atomization container 2000a also includes a second cover 7a, the outer diameter of the second cover 7a is larger than that of the first cover 6a, and the second cover 7a is provided with a top post 74a, an auxiliary air intake channel 71a, and an auxiliary mist outlet channel.
  • the auxiliary air intake channel 71a is set in the top column 74a, the mist outlet 73a is connected with the auxiliary mist outlet channel 72a, the second cover 7a is connected with the first cover 6a, and the top column 74a is pressed down
  • the first valve body 91a and the second valve body 92a make the auxiliary air intake channel 71a communicate with the air intake channel 61a, the auxiliary mist outlet channel 72a communicate with the mist outlet channel 62a, and the air intake channel 61a and the auxiliary air intake channel 71a Isolated from the mist outlet channel 62a and the auxiliary mist outlet channel 72a;
  • the first cover 6a is inserted into the inner tube 302a, the second cover 7a is located outside the inner tube 302a, and the inner wall of the inner tube 302a is provided with a supporting step 3021a, and the second cover 7a is supported on the supporting step 3021a.
  • the support step 3021a By providing the support step 3021a, the atomization container 2000a can be positioned more easily.
  • the atomization container 2000a further includes a first cover 6a, the first cover 6a is connected to the container body 5a to close the opening of the container body 5a, the atomizer 1000a is connected to the first cover 6a, and further
  • the air channel 61a and the mist outlet channel 62a are arranged in the first cover body 6a, and the first cover body 6a is also provided with a first valve body 91a and a second valve body 92a, the first valve body 91a cooperates with the air inlet channel 61a, Used to open or close the air intake channel 61a, the second valve body 92a cooperates with the mist outlet channel 62a, and is used to open or close the mist outlet channel 62a;
  • the atomization container 2000a also includes a second cover body 7a.
  • the second cover body 7a is provided with a top post 74a, an auxiliary air intake channel 71a, an auxiliary mist outlet channel 72a and a mist outlet port 73a.
  • the auxiliary air intake channel 71a is arranged on the top In the column 74a, the mist outlet 73a is connected with the auxiliary mist outlet channel 72a, the second cover body 7a is connected with the first cover body 6a, and the top column 74a presses down the first valve body 91a and the second valve body 92a, so that the auxiliary inlet
  • the air passage 71a communicates with the air intake passage 61a
  • the auxiliary mist outlet passage 72a communicates with the mist outlet passage 62a
  • the air inlet passage 61a and the auxiliary air inlet passage 71a are isolated from the mist outlet passage 62a and the auxiliary mist outlet passage 72a;
  • the second cover body 7a is columnar, and the outer surface of the second cover body 7a matched with the mounting hole 308a includes a first arcuate area and a first planar area 79a connected with the first arcuate area, and the mounting hole
  • the inner wall of 308a is provided with a second arcuate area and a second plane area connected with the second arcuate area
  • the first arcuate area and the first plane area 79a are connected with the second arcuate area and the second plane area respectively.
  • the air inlet joint 77a and the air outlet joint 305a are respectively arranged in the first plane area 79a and the second plane area.
  • the second cover 7a can be inserted into the mounting hole 308a only when the first plane area 79a and the second plane area are aligned. , so as to ensure that the air inlet joint 77a and the air outlet joint 305a can be aligned.
  • the atomizing device includes a plurality of atomizing containers 2000a, and a plurality of mounting holes 308a are correspondingly opened on the atomizing device body 3000a, and each atomizing container 2000a is connected to a corresponding air pump 303a, or A plurality of atomizing containers 2000a are connected with the same air pump 303a; the atomizing device also includes an auxiliary air blowing device 79a, and each atomizing container 2000a is provided with a mist outlet 73a and an auxiliary air outlet 781a surrounding the mist outlet 73a, and the outlet The mist outlet 73a communicates with the mist outlet channel 62a, and the auxiliary air outlet 781a of each atomization container 2000a is connected to a corresponding auxiliary air blowing device 79a, or the auxiliary air outlet 781a of multiple atomization containers 2000a is connected to the same auxiliary air blower.
  • Air device 79a is connected. That is, the atomization container 2000a and the air pump 303a may have a one-to-one correspondence, or multiple atomization containers 2000a may be connected to one air pump 303a, and the corresponding relationship between the atomization container 2000a and the auxiliary blowing device 79a is also the same.
  • the atomization container provided by the present invention is provided with an atomizer inside, so it is easier to install in the atomization device, and when replacing the atomization container, the atomizer is replaced, so that the atomization of the atomization device
  • the atomizer is often in a better working condition, and the atomization effect is better.

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Abstract

本发明提供一种雾化用容器及雾化装置。雾化用容器包括容器本体和雾化器,容器本体内具有容纳腔,雾化用容器还具有进气通道和出雾通道,进气通道的一端用于连接外部气源,另一端连接雾化器,用于向雾化器提供气流,雾化器用于将进气通道提供的气流与容纳腔内的液体混合雾化,形成气雾,出雾通道用于将气雾排出容器本体外,雾化器位于容纳腔中,在第一状态下,进气通道和出雾通道打开,使气泵的气流可通过进气通道进入雾化器,雾化器形成的气雾可通过出雾通道排出容器本体外;在第二状态下,进气通道和/或出雾通道关闭。该雾化用容器及雾化装置使用时更方便。

Description

一种雾化用容器及雾化装置
本申请要求在2021年8月11日提交至中国专利局、申请号为202121875207.5和202121875154.7的中国专利申请的优先权,这些申请的全部内容通过引用结合在本申请中。
技术领域
本发明涉及雾化设备领域,特别涉及一种可雾化液体的雾化用容器及雾化装置。
背景技术
随着生活水平的不断提高,越来越多的人对生活质量更加重视,人们不仅仅需要漂亮干净的生活工作场所,还需要洁净无气味污染的空气。为了改善空气环境,人们大多采用的在房间内喷洒香水或者精油等方法来改善空间内的空气质量,从而保持房内空气清新、消除异味以及杀菌消毒的作用。然而,在房间内喷洒香水或者精油比较麻烦,需要经常进行喷洒才能保持住香味,且由于喷洒出来的香水颗粒较大,能够漂动的范围很小,因此这种方法的效率低、且浪费较多。基于此,人们发明可以自动喷雾的雾化器。
现有的雾化器一般包括精油瓶和雾化头,精油瓶与雾化头连接。使用时,需要将雾化头与精油瓶连接,使雾化器能够雾化精油瓶内的精油,然后再将雾化头和精油瓶安装到雾化器壳体内,使用起来不太方便。
发明内容
基于此,有必要提供一种使用比较方便、雾化效果比较好的雾化用容器及雾化装置。
本发明一方面提供一种雾化用容器,其包括容器本体和雾化器,所述容器本体内具有容纳腔,所述雾化用容器还具有进气通道和出雾通道,所述进气通道的一端用于连接外部气源,另一端连接所述雾化器,用于向所述雾化器提供 气流,所述雾化器用于将所述进气通道提供的气流与所述容纳腔内的液体混合雾化,形成气雾,所述出雾通道用于将所述气雾排出所述容器本体外,所述雾化器位于所述容纳腔中,在第一状态下,所述进气通道和出雾通道打开,使所述气泵的气流可通过所述进气通道进入所述雾化器,雾化器形成的气雾可通过所述出雾通道排出所述容器本体外;在第二状态下,所述进气通道和/或出雾通道关闭。
优选地,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道,在自由状态下,所述第一阀体和第二阀体关闭,所述第一盖体密封所述容器本体,所述第二阀体可移动地安装在所述第一盖体中,所述雾化器固定在所述第二阀体上,可随所述第二阀体相对于所述容器本体移动。
优选地,所述第一阀体包括第一密封件和第一弹性件,所述第一弹性件与所述第一密封件相连接,所述第二阀体包括第二密封件和第二弹性件,所述第二弹性件与所述第二密封件相连接,所述第一弹性件和第二弹性件处于自由状态下时,所述第一密封件封闭所述进气通道,所述第二密封件封闭所述出雾通道,外力下压所述第一密封件和所述第二密封件,所述进气通道连通所述雾化器与容器本体外空间,所述出雾通道连通所述容纳腔与容器本体外空间。
优选地,所述第一盖体中设置有中空的安装筒,所述安装筒的上下两端开口,所述第二阀体可移动地安装在所述安装筒中,所述第二阀体包括通气管和固定于所述通气管外周侧的密封体,所述通气管中形成有所述进气通道,所述第一阀体设置在所述进气通道中,所述安装筒中形成有所述出雾通道,所述出雾通道位于所述通气管外;所述通气管的上端穿过所述安装筒上端的开口向外凸出,所述密封体与所述安装筒的内壁紧密配合,所述雾化器固定在所述通气管的下端,在第一状态下,所述密封体使所述出雾通道打开,雾化器形成的气雾可通过所述出雾通道排出所述雾化用容器的外部;在第二状态下,所述密封 体使所述出雾通道隔断,雾化器形成的气雾不能通过所述出雾通道排出所述雾化用容器的外部。
优选地,所述通气管的上段与所述安装筒上端的开口间隙配合,所述安装筒的侧壁上开设有连接通孔,所述连接通孔与所述容纳腔连通,所述第二阀体可在外力作用下相对于所述连接通孔移动,在第一状态下,所述密封体使所述连接通孔至所述安装筒上端的开口的通道打开,雾化器形成的气雾从所述容纳腔通过所述连接通孔进入所述安装筒中,并所述安装筒上端的开口排出所述第一盖体外,在第二状态下,所述密封体使所述连接通孔至所述安装筒上端的开口的通道封闭,所述雾化器形成的气雾封闭在所述容纳腔内。
优选地,该雾化用容器还包括第三盖体,所述第三盖体为密封式盖体,所述第三盖体与所述第一盖体可拆卸连接,所述第三盖体与所述第一盖体密封连接时,将所述雾化器、进气通道及出雾通道封闭在所述容纳腔内。
优选地,所述雾化用容器还包括第二盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,将所述第二盖体与所述第一盖体连接时,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离。
优选地,所述第一盖体中设置有中空的安装筒,所述安装筒的上下两端开口,所述第二阀体可上下移动地安装在所述安装筒中,所述第二阀体包括通气管和固定于所述通气管外周侧的密封体,所述通气管中形成有所述进气通道,所述第一阀体设置在所述进气通道中,所述安装筒中形成有所述出雾通道,所述出雾通道位于所述通气管外;所述通气管的上端穿过所述安装筒上端的开口向外凸出,所述密封体与所述安装筒的内壁紧密配合,所述雾化器固定在所述通气管的下端,将所述第二盖体与所述第一盖体连接时,所述顶柱下压所述第二阀体使所述出雾通道打开,所述顶柱的下端部插入所述第二阀体中且抵顶所述第一阀体,使所述辅助进气通道与所述进气通道对接连通。
优选地,所述第一阀体包括第一密封件和第一弹性件,所述第一弹性件与 所述第一密封件相连接,所述第一密封件为球形密封件,所述顶柱的下端部插入所述第二阀体中时,下压所述第一密封件,所述顶柱的下端部与所述第一密封件相接触位置设置有缺口,所述进气通道与所述辅助进气通道通过所述缺口相连通。
优选地,所述第二盖体上设置有进气接头设置,所述进气接头与所述辅助进气通道连接,所述第二盖体上设置有环绕所述出雾口的辅助出风口以及位于所述第二盖体一侧的辅助进风口,所述辅助进风口与所述辅助出风口连通。
优选地,所述雾化器具有气体通道和液体通道,所述气体通道具有互相连通的进气口和出气口,所述液体通道具有互相连通的进液口和出液口,所述出气口与所述出液口邻近,所述雾化器还包括吸液管,所述吸液管一端伸至所述容纳腔底部,另一端与所述进液口连通,所述进气口与所述进气通道连接,所述出气口位于所述容纳腔的液面上方,所述进气通道提供的气流与所述容纳腔内的液体在所述出气口附近混合雾化,并排放到所述容纳腔中。
本发明实施例还提供一种雾化装置,其包括雾化装置本体和雾化用容器,所述雾化装置本体上开设有安装孔,所述雾化用容器插入所述安装孔中,所述雾化装置本体内还设置有气泵,其特征在于,所述雾化用容器为上述实施例所述的雾化用容器,所述进气通道的一端连接所述气泵,另一端连接所述雾化器,使所述气泵通过所述进气通道向所述雾化器提供气流,所述出雾通道将所述气雾排出所述容器本体外,并最终排出所述雾化装置本体外。
优选地,所述雾化器具有气体通道和液体通道,所述气体通道具有互相连通的进气口和出气口,所述液体通道具有互相连通的进液口和出液口,所述出气口与所述出液口邻近,所述雾化器还包括吸液管,所述吸液管一端伸至所述容纳腔底部,另一端与所述进液口连通,所述进气口与所述进气通道连接,所述出气口位于所述容纳腔的液面上方,所述进气通道提供的气流与所述容纳腔内的液体在所述出气口附近混合雾化,并排放到所述容纳腔中;
所述雾化器包括雾化器本体和阻挡件,所述雾化器本体上设置有液体通道和气体通道;所述液体通道的末端设置有出液口,所述气体通道的末端设有出气口,所述出液口分布于所述出气口的周侧;所述阻挡件与所述出气口和出液 口相对设置且间隔预设距离,所述阻挡件使所述出气口喷出的气流折射,所述出液口位于所述出气口的折射方向下游;所述雾化装置本体包括第一本体和第二本体,所述第一本体和所述第二本体可拆卸连接,所述第二本体套设在所述第一本体的外侧;所述气体通道开设于所述第一本体上,所述液体通道开设于所述第二本体上或者第一本体的外壁上。
优选地,所述安装孔的侧壁上设置有与所述气泵连接的出气接头,所述雾化用容器上设置有与所述进气通道连接的进气接头,所述雾化用容器插入所述安装孔时,所述进气接头与所述出气接头接通。
优选地,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道,在自由状态下,所述第一阀体和第二阀体关闭,所述第一盖体密封所述容器本体;
所述雾化用容器还包括第二盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,将所述第二盖体与所述第一盖体连接时,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离;
所述进气接头设置在所述第二盖体上,且所述进气接头与所述辅助进气通道连接,所述第二盖体上设置有环绕所述出雾口的辅助出风口以及位于所述第二盖体一侧的辅助进风口,所述辅助进风口与所述辅助出风口连通,所述雾化装置本体上还设置有辅助吹气装置,所述辅助吹气装置与所述辅助进风口相对,向所述辅助进风口吹气,并通过所述辅助出风口吹出所述雾化装置本体外。
优选地,所述雾化装置本体包括内筒和反弹器,所述内筒插入所述安装孔中,所述内筒上设置有向所述内筒周侧凸出的反弹部,所述反弹器安装在所述雾化装置本体中,并位于所述内筒的外侧,自下而上抵顶所述反弹部,所述雾 化用容器部分插入所述内筒中,所述反弹器在外力作用下具有压缩状态和弹起状态,所述雾化用容器在反弹器弹起状态时相对于所述安装孔的高度高于在反弹器压缩状态时相对于所述安装孔的高度。
优选地,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道;
所述雾化用容器还包括第二盖体,所述第二盖体的外径大于所述第一盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,所述第二盖体与所述第一盖体连接,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离;
所述第一盖体插入所述内筒中,所述第二盖体位于内筒外,所述内筒的内壁上设置有支撑台阶,所述第二盖体支撑在所述支撑台阶上。
优选地,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道;
所述雾化用容器还包括第二盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,所述第二盖体与所述第一盖体连接,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离;
所述第二盖体呈柱状,所述第二盖体与所述安装孔相配合的外侧表面包括 第一弧面区及与所述第一弧面区连接的第一平面区,所述安装孔的内壁上相应地设置有第二弧面区及与所述第二弧面区连接的第二平面区,所述第一弧面区、第一平面区分别与所述第二弧面区和第二平面区对应配合接触,所述进气接头和所述出气接头分别设置在所述第一平面区和第二平面区。
优选地,所述雾化装置包括多个所述雾化用容器,所述雾化装置本体上相应地开设有多个安装孔,每一所述雾化用容器与一对应的气泵连接,或者所述多个雾化用容器与同一气泵连接;所述雾化装置还包括辅助吹气装置,每个所述雾化用容器设置有出雾口及环绕所述出雾口的辅助出风口,所述出雾口与所述出雾通道连通,每个所述雾化用容器的辅助出风口与一对应的辅助吹气装置连接,或者所述多个雾化用容器的辅助出风口与同一辅助吹气装置连接。
本发明提供的雾化用容器,其内部就设置有雾化器,因此安装到雾化装置中时更加简单,而且更换雾化用容器的同时就更换了雾化器,使雾化装置的雾化器经常处于比较好的工作状态,雾化效果较好。
附图说明
通过附图中所示的本发明优选实施例更具体说明,本发明上述及其它目的、特征和优势将变得更加清晰。在全部附图中相同的附图标记指示相同的部分,且并未刻意按实际尺寸等比例缩放绘制附图,重点在于示出本的主旨。
图1为本发明实施例的雾化用容器的剖面图;
图2为本发明实施例的雾化用容器的使用状态的剖面图;
图3为本发明实施例的第二盖体的剖面图;
图4为本发明实施例的第一盖体的剖面图;
图5为本发明实施例的雾化器的整体结构图;
图6为本发明实施例的雾化器的爆炸图;
图7为本发明实施例的第二本体的整体结构图;
图8为本发明实施例的第一本体的整体结构图;
图9为本发明实施例的雾化器的切面图。
图10为本发明实施例的雾化装置的结构示意图。
图11为本发明另一实施例的雾化用容器的结构示意图。
图12为图11的雾化用容器的剖视图。
图13为图11的雾化用容器的另一局部剖视图。
图14为图10的雾化装置的剖视图。
图15为图14的雾化装置的局部放大图。
图16为图10的雾化装置的另一剖视图。
图17为图16的雾化装置的局部放大图。
具体实施方式
下面结合附图和具体实施例对本发明技术方案作进一步的详细描述,以使本领域的技术人员可以更好的理解本发明并能予以实施,但所举实施例不作为对本发明的限定。
本发明提供一种雾化装置,其包括雾化装置本体和雾化用容器,雾化装置本体上开设有安装孔,雾化用容器插入安装孔中,雾化装置本体内还设置有气泵,雾化用容器包括容器本体和雾化器,雾化用容器还具有进气通道和出雾通道,进气通道的一端连接气泵,另一端连接雾化器,使气泵通过进气通道向雾化器提供气流,雾化器用于将进气通道提供的气流与容纳腔内的液体混合雾化,形成气雾,出雾通道用于将气雾排出容器本体外,并最终排出雾化装置本体外,安装孔的侧壁上设置有与气泵连接的出气接头,雾化用容器上设置有与进气通道连接的进气接头,雾化用容器插入安装孔时,进气接头与出气接头接通。
在一些实施例中,雾化用容器如图1-9所示,该雾化用容器包括容器本体5和雾化器1000,容器本体5内形成有容纳腔,雾化器1000位于容纳腔中,雾化器可以部分或者全部位于容纳腔内,无论雾化器部分或者全部位于容纳腔内,其都落入本发明的保护范围。雾化用容器5还具有进气通道61和出雾通道62,进气通道61用于连接外部气源与雾化器1000,向雾化器1000提供气流。雾化器1000用于将进气通道61提供的气流与容纳腔内的液体混合雾化,形成气雾。出雾通道62与容纳腔连接,用于将气雾排出容器本体5外。在第一状态下,进气通道61和出雾通道62打开,使外部气源的气流可通过进气通道进入雾化器, 雾化器形成的气雾可通过出雾通道排出容器外空间,一般是排到外界空气中;此时,该雾化用容器一般处于使用状态,从进气通道61进入高压气体将液体雾化,形成的气雾从出雾通道62扩散。在第二状态下,进气通道61和/或出雾通道62关闭,此时,该雾化用容器一般处于非使用状态,避免容器本体5内的液体流出。
作为对上述实施例的进一步改进,雾化用容器还包括第一盖体6,第一盖体6与容器本体5连接,封闭容器本体5的开口,雾化器1000与第一盖体6连接,进气通道61和出雾通道62设置于第一盖体6上。当然,在其他实施例中,进气通道61和出雾通道62也可以设置在雾化器1000或者容器本体5或者其他部件上。
作为对上述实施例的进一步改进,第一盖体6上还设置有第一阀体和第二阀体,第一阀体与进气通道61配合,用于打开或关闭进气通道61,第二阀体与出雾通道62相配合,用于打开或关闭出雾通道62。在自由状态下,第一阀体和第二阀体关闭,此时,该雾化用容器处于非使用状态,可以避免液体从容器本体5内漏出。
作为对上述实施例的进一步改进,第一盖体6连接于容器本体5的开口,第二盖体7活动连接于第二盖体7上。第一盖体6内设置进气通道61和出雾通道62;第二盖体7上设置有顶柱74、辅助进气通道71、辅助出雾通道72和出雾口73,第一盖体6内还设置有弹性件8和密封件9,弹性件8与密封件9相连接,具体地,弹性件8设置与密封件的下部,第二盖体7通过挤压密封件9可以使弹性件收缩。第一状态下,进气通道61和辅助进气通道71被密封件隔断,且出雾通道62和辅助出雾通道72也被密封件9隔断,此时该瓶体在不使用状态下。第二状态下,顶柱74向密封件施加压力,进气通道61和辅助进气通道71被相连通,且出雾通道62和辅助出雾通道72也相连通,此时,该瓶体在使用状态之下。
参考图1-4,作为对上述实施例的进一步改进,弹性件8包括第一弹簧81和第二弹簧82,密封件9包括第一密封件91和第二密封件92。第一阀体包括第一密封件和第一弹性件,第二阀体包括第二密封件和第二弹性件,第一弹簧 81与第一密封件91相连接,第二弹簧82与第二密封件92相连接,辅助进气通道71贯穿顶柱74。使第二盖体7向第一盖体6靠近时,顶柱74挤压第一密封件91和第二密封件92,使进气通道61和辅助进气通道71相连通,且出雾通道62和辅助出雾通道72也连通。使第二盖体7向远离第一盖体6的方向移动(如旋开第二盖体7),第一弹簧81和第二弹簧82恢复形变,第一密封件91和第二密封件92也重新可以起密封隔断的作用,是进气通道61和辅助进气通道71隔断,且出雾通道62和辅助出雾通道72也隔断。第一弹性件81和第二弹性件82处于自由状态下时,第一密封件91封闭所述进气通道61,第二密封件92封闭出雾通道62,外力下压第一密封件91和第二密封件92,进气通道61连通雾化器1000与容器外空间,出雾通道62连通容纳腔与容器外空间。
参考图4,作为对上述实施例的进一步改进,第一盖体6中设置有中空的安装筒65,安装筒65的上下两端开口,安装筒65中形成出雾通道62,进气通道61也位于安装筒65中,且出雾通道62位于进气通道61的周侧。在一些实施例中,进气通道61为雾化器的气体通道10,在其他实施例中,进气通道61也可以是与气体通道10连通的气体通道。雾化器1000固定在安装筒65的下端开口中,第二阀体可移动地安装在安装筒65中,第二阀体包括通气管922和固定于通气管922外周侧的密封体923,通气管922的上端穿过安装筒65上端的开口向外凸出,密封体923与安装筒65的内壁紧密配合,使其可以密封安装筒65上的连接通孔9221。在第一状态下,密封体923使出雾通道61打开,雾化器1000形成的气雾可通过出雾通道61排出雾化用容器的外部;在第二状态下,密封体923使出雾通道61隔断,雾化器1000形成的气雾不能通过出雾通道61排出雾化用容器的外部;通气管922中形成有连通腔921,第一阀体设置在连通腔921中。
作为对上述实施例的进一步改进,通气管922的上段呈锥形,与安装筒65上端的开口间隙配合,向下按压通气管922会更顺畅,且会使通气管922与安装条65侧壁之间的开口间隙更大一些,安装筒65的侧壁上开设有连接通孔9221,第二阀体可在外力作用下相对于连接通孔9221移动,在第一状态下,出雾通道62打开,雾化器1000形成的气雾可通过出雾通道62排出雾化用容器的外部; 在第二状态下,出雾通道61被隔断,雾化器1000形成的气雾不能通过出雾通道62排出雾化用容器的外部。
作为对上述实施例的进一步改进,该雾化用容器还包括第三盖体(未图示),第三盖体为密封式盖体,即第三盖体与容器本体5或第一盖体6连接后可以使该雾化用容器被密封。第三盖体覆盖在容器本体5的上部,将雾化器1000封闭在容纳腔内,需要说明的是,第三盖体可以直接或者间接的覆盖在容器本体5的上部,即第三盖体既可以直接连接在容器本体5上,也可以在容器本体5和第三盖体之间设置其他部件,第三盖体间接连接在容器本体5上,只要第三盖体仍然可以将雾化器部分或者全部封闭在雾化腔内,那么其方案就落入在本申请的保护范围之内。在运输或者销售过程中,该第三盖体覆盖在容器本体5的上部,可以避免第一阀体和/或第二阀体被误打开,导致液体从容器本体中流出;在使用该雾化用容器雾化时,除去第三盖体再使用。
参考图1-3,作为对上述实施例的进一步改进,顶柱74靠近密封件的一端设置有环形密封槽741,第一密封件91设置有环形密封部63,当下压第二盖体7时(下压第二盖体,可以直接下压,也可以通过拧动第二盖体使其向下移动),环形密封部63与环形密封槽741密封连接,进气通道61和辅助进气通道71用于流通高压气体,出雾通道62和辅助出雾通道72用于流通雾化器雾化后的雾气,环形密封部63与环形密封槽741密封连接可以使进气通道61和辅助进气通道71与出雾通道62和辅助出雾通道62相隔离,即进气通道61和辅助进气通道71连通形成一个通道,出雾通道62和辅助出雾通道72连通形成另一个通道,两个通道被隔离开,将高压气体和气雾隔离开。具体地,出雾通道62内设置有连通口,第二密封件92贯穿连通口;第一状态下,第二密封件92与连通口的侧壁密封连接;第二状态下,第二密封件92与连通口的侧壁之间形成间隙,使出雾通道62和辅助出雾通道72相连通。
作为对上述实施例的进一步改进,参考图4,第二密封件92内设置有连通腔921,连通腔921的一端与进气通道61相连通,连通腔921的另一端与辅助进气通道71相连通,第一密封件91位于连通腔921内;第一状态下,第一密封件91隔断连通腔921;第二状态下,进气通道61、连通腔921和辅助进气通 道71依次相连通。具体地,顶柱74与第一密封件91相接触位置设置有缺口,第一密封件91为球形密封件,第一密封件91也可以使锥形密封件或者半球形密封件,在本实施例中,顶柱的下端设置呈一边长、一边短的形状,使顶柱74与第一密封件91接触时具有空隙。当第一密封件91与连通腔921的侧壁密封时,进气通道61和辅助进气通道71密封;当第一密封件91与连通腔921的侧壁之间形成间隙时,顶柱74与第二密封件92密封,出雾通道和辅助出雾通道相连通。第一密封件91靠近顶柱74的一端的直径逐渐缩小,当第一密封件91与连通腔921的侧壁密封时,第二密封件92密封连通口,当第二密封件92与连通口之间形成间隙时,第二密封件92与顶柱74密封连接。
作为对上述实施例的进一步改进,容器本体5包括瓶体部51和瓶口部52,瓶口部52的直径小于瓶体部51的直径,瓶体部51靠近瓶口部52的一端设置有瓶体卡持槽511,瓶口开设于瓶口部52上;第一盖体6上设置有环形密封部64和瓶体卡持槽511,环形密封部64与瓶口卡持连接固定,瓶体卡持槽511与瓶体卡持槽511卡持连接固定。具体地,第一盖体6有具有弹性的塑料或者塑胶材料制成,通过卡持固定连接,且使其过盈配合,能够起到连接作用的同时也起到密封的作用。
作为对上述实施例的进一步改进,出雾通道62和/或辅助出雾通道72呈弯曲设置,使大颗粒的雾滴能够在出雾过程中落回至容器本体5中,避免大颗粒雾滴出来后落在容器本体5周围造成污染。第一盖体6和第二盖体7上设置有相互配合的螺纹,第一盖体6和第二盖体7通过螺纹连接固定,连接更稳固。出雾口73的出雾方向向上倾斜(向上倾斜是指该容器正常放置在台面上时,出雾口的自由端的高度大于出雾口其他位置的高度),落在出雾口73的大颗粒雾滴能够回流至容器本体中。
作为对上述实施例的进一步改进,还包括雾化器,雾化器1000设置于进气通道61内,雾化器1000的出雾口73与出雾通道62相连通,雾化器上连接有导液件,如棉芯或者导液毛细管。
参考图5-9,作为对上述实施例的进一步改进,雾化器1000包括雾化器本体100和阻挡件3,雾化器本体100上设置有液体通道20和气体通道10,使用 时,液体通道20通入需要被雾化的液体,气体通道10通入高压气体。液体通道20的末端设置有出液口202,气体通道10的末端设有出气口101,出液口202分布于出气口101的周侧;阻挡件3与出气口101和出液口202相对设置且间隔预设距离,阻挡件3使出气口101喷出的气流折射,即气流打在阻挡件上之后,像光的折射一样被阻挡件改变气流的运动方向。出液口202位于出气口101的折射方向下游,即气流被折射后可以打在出液口202上。高压气体从气体通道10出来后打在阻挡件3上,阻挡件3使高压气体向四周扩散,从而将出液口202出来的液体都打散雾化,雾化后的雾气随着高压气体的气流向四周扩散,由于高压气体流速快,雾化后的香气相四周扩散的速度也会很快。
参考图9,作为对上述实施例的进一步改进,雾化器本体100包括第一本体1和第二本体2,第一本体1和第二本体2可拆卸连接,第二本体2套设在第一本体1的外侧;气体通道10开设于第一本体1上,液体通道20开设于第二本体2上或者第一本体1的外壁上。
参考图5和图9,作为对上述实施例的进一步改进,液体通道20包括干流通道203和支流通道204,支流通道204设置有多个,多个支流通道204皆与干流通道203相连通。干流通道203分出多个支流通道204,少量或者一个进液口201就可以实现给出液口202供给液体,减少干流通道203的数量,便于加工。,每个支流通道204的末端皆设置有出液口202,干流通道203数量少,那么干流通道203的孔径就可以开得相对大一些,减少液体通道20被堵塞的情况。在另一实施例中,液体通道20包括干流通道203和支流通道204,支流通道204呈环形设置,出液口202也呈环形,且出气口位于环形的所述出液口的中部。出液口202为圆环形,环形的出液口202的外径和内径之差为0.2-0.5mm,优选地,环形出液口202的外径和内径之差为0.3mm,外径只是该圆环性出液口的外边缘的直径,内径是指该环形出液口的内边缘的直径。
参考图6和图7,作为对上述实施例的进一步改进,第二本体2包括主体部24和配合部25,主体部24和配合部25之间设置有连接杆4,主体部24和配合部25通过连接杆4固定连接,主体部24和配合部25之间与外界相通,用于扩散喷雾。具体地,主体部24和配合部25之间除了连接杆4之外的以外都是开 口,方便雾气扩散。阻挡件3固定在配合部25上,阻挡件3与出气口101之间距离0.1mm-1mm,具体地,阻挡件3与出气口101之间距离0.2mm或者0.3mm或者0.4mm或者0.5mm或者0.6mm或者0.7mm或者0.8mm或者0.9mm。
参考图9,作为对上述实施例的进一步改进,干流通道203的入口设置在配合部25上,干流通道203贯穿连接杆4延伸至主体部24。
参考图6和图7,作为对上述实施例的进一步改进,第二本体2上设置有卡持孔21,卡持孔21的周侧设置有与卡持孔延伸方向相同的凹槽,凹槽延伸至出液口202。第一本体1插入卡持孔内后,凹槽即形成为支流通道204。液体通道20和气体通道10的直径都很小,尤其是液体通道20,直径太大的话就无法靠负压将液体吸出,直径太小加工就很困难。该方式设置液体通道20和气体通道10的方式,使开设液体通道20和气体通道10变得更简单,气体通道10的出气口101小,气体位置的横截面都很大,方便加工,容易清理。由于支流通道204不能开设太大,本方案采用第一本体1和第二本体2共同配合形成支流通道204的方式,不仅使开设支流通道204变得简单,而且容易清理支流通道204。
参考图6-8,作为对上述实施例的进一步改进,卡持孔21包括第一卡持孔211以及与第一卡持孔211相连通的第二卡持孔212,第二卡持孔212比第一卡持孔211的横截面积大,第一卡持孔211和第二卡持孔212之间形成有第一台阶22,支流通道204的入口位于台阶上,干流通道203的出口也位于第一台阶22上。参考图4,第一本体1包括卡持部11和连接部15,连接部15凸出于卡持孔,用于与外部的气泵连接。卡持部11包括第一卡持部111和第二卡持部112,第一卡持部111与第一卡持孔211相配合,第二卡持部112与第二卡持孔212相配合。第一卡持部111和第二卡持部112之间形成有第二台阶12,第一台阶22和第二台阶12之间形成间隙,干流通道203与多个支流通道204通过该间隙相连通。第一卡持部111插入第一卡持槽内,第一卡持部111与第一卡持槽的侧壁贴合,使位于第一卡持槽周侧的凹槽形成支流通道204,且能够将第一本体1和第二本体2固定。第二卡持部112与第二卡持槽的侧壁过盈配合,进一步使第一本体1和第二本体2之间的连接更加稳固。
作为对上述实施例的进一步改进,连接部15和卡持部之间设置有第三台阶 14,第三台阶14与第二配合,限制卡持部插入卡持孔的长度,使第一台阶22和第二台阶12形成的间隙不会太小,或者第一台阶22和第二台阶12之间没有间隙的情况出现。
作为对上述实施例的进一步改进,第二卡持孔212上设置有定位槽23,第二卡持部112上设置有与定位槽23配合的凸起13,干流通道203的出口位于定位槽23内。固定第一本体1和第二本体2的相对位置,使第一本体1不能在第二本体2的卡持槽内转动。
作为对上述实施例的进一步改进,第一卡持部111呈锥形设置,液体通道20也呈锥形设置,方便开设凹槽,加工方便,且使液体通道20的出液口202尽量的靠近出气口101,雾化效果会更好。液体通道20的出液口202和气体通道10的出液口202位于同一平面上,被阻挡件3改变流动方向的气流直接作用在出液口202出来的液体上,不会再被其他物体阻挡,否则影响气流的流速,也影响雾化的效果。
出气口101相对的阻挡件3设置,在出气口101的四周设置有出液口202,冲击在阻挡件3上的高压气体向四周扩散,从而将出液口202出来的液体都打散,从而实现向四周喷雾的目的。
在另一些实施例中,雾化装置的结构如图10-17所示。该雾化装置包括雾化装置本体3000a和雾化用容器2000a。雾化装置本体3000a上开设有安装孔308a,安装孔308a暴露于雾化装置本体3000a的壳体外,也即从外部即可看到该安装孔308a。雾化用容器2000a插入安装孔308a中,雾化装置本体3000a内还设置有气泵303a。雾化用容器2000a包括容器本体5a和雾化器1000a。容器本体5a内具有用于盛装精油的容纳腔。雾化用容器2000a还具有进气通道61a和出雾通道62a,进气通道61a的一端连接气泵303a,另一端连接雾化器1000a,使气泵303a通过进气通道向雾化器1000a提供高速的压缩气流。雾化器1000a用于将进气通道61a提供的气流与容纳腔内的液体(精油)混合雾化,形成气雾。出雾通道62a用于将气雾排出容器本体5a外,并最终排出雾化装置本体3000a外。安装孔308a的侧壁上设置有与气泵303a连接的出气接头305a,出气接头305a通过出气管304a与气泵303a连接。雾化用容器2000a上设置有与 进气通道61a连接的进气接头77a。雾化用容器2000a插入安装孔308a时,进气接头77a与出气接头305a接通。需要说明的是,此处所指的连接,可以是间接连接,也可以是直接连接。雾化用容器2000a的结构与上述图1-9所示的雾化用容器的结构相似,且工作原理相同,此处在下述实施例中不再赘述该雾化用容器2000a的工作原理。
在优选实施例中,雾化器1000a位于容纳腔中,在第一状态下,进气通道61a和出雾通道62打开,使气泵303a的气流可通过进气通道61a进入雾化器1000a,雾化器1000a形成的气雾可通过出雾通道62a排出容器本体5a外。在第二状态下,进气通道61a和/或出雾通道62a关闭。在本实施例中,第二状态时,进气通道61a和出雾通道62a同时关闭,在其他实施例中,进气通道61a和出雾通道62a也可以关闭其一。
在优选实施例中,雾化用容器2000a还包括第一盖体6a,第一盖体6a与容器本体5a连接,封闭容器本体5a的开口。第一盖体6a与容器本体5a可以是可拆卸连接,也可以通过超声波焊接等方式形成一体结构。雾化器1000a与第一盖体6a连接,进气通道61a和出雾通道62a设置于第一盖体6a中,第一盖体6a上还设置有第一阀体91a和第二阀体92a。第一阀体91a与进气通道92a配合,用于打开或关闭进气通道61a,第二阀体92a与出雾通道62a相配合,用于打开或关闭出雾通道62a。在自由状态下,第一阀体91a和第二阀体92a关闭,第一盖体6a密封容器本体5a,使容器本体5a即使被倒放,其中的精油也不会漏出。
在优选实施例中,第一阀体91a包括第一密封件911a和第一弹性件81a,第一弹性件81a与第一密封件911a相连接,第二阀体92a包括第二密封件923a和第二弹性件82a,第二弹性件82a与第二密封件923a相连接。第一弹性件81a和第二弹性件82a处于自由状态下时,第一密封件911a封闭进气通道61a,第二密封件923a封闭出雾通道62a,外力下压第一密封件911a和第二密封件923a时,进气通道61a连通雾化器1000a与容器本体5a外的空间,出雾通道62a连通容纳腔与容器本体5a外空间。
请参考图13,在优选实施例中,第一盖体6a中设置有中空的安装筒65a, 安装筒65a的上下两端开口,第二阀体92a可移动地安装在安装筒65a中。第二阀体92a包括通气管922a和固定于通气管922a外周侧的密封体(即上述实施例的第二密封件)923a,通气管922a中形成有进气通道61a,第一阀体91a设置在进气通道61a中。安装筒65a中形成有出雾通道62a,出雾通道62a位于通气管922a外。通气管922a的上端穿过安装筒65a上端的开口655a向外凸出。密封体923a与安装筒65a的内壁紧密配合。雾化器1000a固定在安装筒65a的下端开口中,相对于安装筒65a固定。在本实施例中,雾化器1000a固定在通气管922a的下端,可随通气管922a相对于安装筒65a及容器本体5a上下移动。在第一状态下,密封体923a使出雾通道62a打开,雾化器1000a形成的气雾可通过出雾通道62a排出雾化用容器2000a的外部。在第二状态下,密封体923a使出雾通道62a隔断,雾化器1000a形成的气雾不能通过出雾通道62a排出雾化用容器2000a的外部。
在优选实施例中,通气管922a的上段与安装筒65a上端的开口655a间隙配合,安装筒65a的侧壁上开设有连接通孔9221a,连接通孔9221a与容纳腔连通,第二阀体92a可在外力作用下相对于连接通孔9221a移动,在第一状态下,密封体923a使连接通孔9221a至安装筒65a上端的开口655a之间的出雾通道62a打开,雾化器1000a形成的气雾从容纳腔通过连接通孔9221a进入安装筒65a中,并安装筒65a上端的开口排出第一盖体6a外,在第二状态下,密封体923a使连接通孔9221a至安装筒65a上端的开口655a之间的出雾通道62a封闭,雾化器1000a形成的气雾封闭在容纳腔内,同时也可能部分进入到安装筒65a内。
在优选实施例中,该雾化用容器2000a还包括第三盖体(图未示),第三盖体为密封式盖体,第三盖体与第一盖体6a可拆卸连接,第三盖体与第一盖体6a密封连接时,将雾化器1000a、进气通道61a及出雾通道62a封闭在容纳腔内。在雾化用容器2000a运输或者销售过程中,该第三盖体连接在第一盖体6a的上部,可以避免第一阀体91a和/或第二阀体92a被误打开,导致液体从容器本体5a中流出;在使用该雾化用容器2000a雾化时,除去第三盖体再使用。
请参考图12,在优选实施例中,雾化用容器2000a还包括第二盖体7a,第 二盖体7a上设置有顶柱74a、辅助进气通道71a、辅助出雾通道72a和出雾口73a。辅助进气通道71a设置在顶柱74a中,出雾口73a与辅助出雾通道72a相连通。将第二盖体7a与第一盖体6a连接时,顶柱74a下压第一阀体91a和第二阀体92a,使辅助进气通道71a与进气通道61a相连通,辅助出雾通道72a与出雾通道62a相连通,且进气通道61a和辅助进气通道71a与出雾通道62a和辅助出雾通道72a相隔离。第二盖体7a与第一盖体6a可以是螺纹连接。在进一步的优选实施例中,第二盖体7a中还可以设置过滤器76a,过滤器76a用于过滤较粗的雾粒。过滤器76a可以呈迷宫结构。
在优选实施例中,第一盖体6a中设置有中空的安装筒65a,安装筒65a的上下两端开口,第二阀体92a可上下移动地安装在安装筒65a中,第二阀体92a包括通气管922a和固定于通气管922a外周侧的密封体923a,通气管922a中形成有进气通道61a,第一阀体91a设置在进气通道61a中,安装筒65a中形成有出雾通道62a,出雾通道62a位于通气管922a外。通气管922a的上端穿过安装筒65a上端的开口655a向外凸出,密封体923a与安装筒65a的内壁紧密配合,雾化器1000a固定在安装筒65a的下端开口中或者固定在通气管922a的下端。将第二盖体7a与第一盖体6a连接时,顶柱74a下压第二阀体92a使出雾通道62a打开,顶柱74a的下端部插入第二阀体92a的进气通道61a中且抵顶第一阀体91a,使辅助进气通道71a与进气通道61a对接连通。
在优选实施例中,第一阀体91a包括第一密封件911a和第一弹性件81a,第一弹性件81a与第一密封件911a相连接,第一密封件911a为球形密封件,顶柱74a的下端部插入第二阀体92a中时,下压第一密封件911a,顶柱74a的下端部与第一密封件相接触位置设置有缺口,进气通道61a与辅助进气通道71a通过缺口相连通。
在优选实施例中,雾化器1000a具有气体通道和液体通道,气体通道具有互相连通的进气口和出气口,液体通道具有互相连通的进液口和出液口,出气口与出液口邻近,雾化器1000a还包括吸液管,吸液管一端伸至容纳腔底部,另一端与进液口连通,进气口与进气通道61a连接,出气口位于容纳腔的液面上方,进气通道61a提供的气流与容纳腔内的液体在出气口附近混合雾化,并 排放到容纳腔中。在其他实施例中,雾化器1000a也可以具有其他的结构。
在优选实施例中,进气接头77a设置在第二盖体7a上,且进气接头77a与辅助进气通道71a连接,第二盖体7a上设置有环绕出雾口73a的辅助出风口781a以及位于第二盖体7a一侧的辅助进风口78a。辅助进风口78a与辅助出风口781a连通,雾化装置本体3000a上还设置有辅助吹气装置79a,辅助吹气装置79a与辅助进风口78a相对,向辅助进风口78a吹气,并通过辅助出风口781a吹出雾化装置本体3000a外。辅助吹气装置79a可以是风扇,用于在出雾口73a附近形成辅助气流,使精油气雾可以飘散更远。
请参考图14和15,在优选实施例中,雾化装置本体3000a包括内筒302a和反弹器301a,内筒302a插入安装孔308a中。内筒302a上设置有向内筒302a周侧凸出的反弹部3021a,反弹器301a安装在雾化装置本体3000a中,并位于内筒302a的外侧,自下而上抵顶反弹部3021a。雾化用容器2000a部分插入内筒302a中。反弹器301a在外力作用下具有压缩状态和弹起状态,且是在外力作用下交替进入压缩状态和弹起状态,也即按一下呈压缩状态,再按一下呈弹起状态,由此带动内筒302a和雾化用容器2000a在安装孔308a中上下移动。雾化用容器2000a在反弹器301a弹起状态时相对于安装孔308a的高度高于在反弹器301a压缩状态时相对于安装孔308a的高度,从而便于将雾化用容器2000a从安装孔308a中取出。
在进一步的优选实施例中,雾化用容器2000a还包括第一盖体6a,第一盖体6a与容器本体5a连接,封闭容器本体5a的开口,雾化器1000a与第一盖体6a连接,进气通道61a和出雾通道62a设置于第一盖体6a中,第一盖体6a上还设置有第一阀体91a和第二阀体92a,第一阀体91a与进气通道61a配合,用于打开或关闭进气通道61a,第二阀体92a与出雾通道62a相配合,用于打开或关闭出雾通道62a;
雾化用容器2000a还包括第二盖体7a,第二盖体7a的外径大于第一盖体6a,第二盖体7a上设置有顶柱74a、辅助进气通道71a、辅助出雾通道72a和出雾口73a,辅助进气通道71a设置在顶柱74a中,出雾口73a与辅助出雾通道72a相连通,第二盖体7a与第一盖体6a连接,顶柱74a下压第一阀体91a和第 二阀体92a,使辅助进气通道71a与进气通道61a相连通,辅助出雾通道72a与出雾通道62a相连通,且进气通道61a和辅助进气通道71a与出雾通道62a和辅助出雾通道72a相隔离;
第一盖体6a插入内筒302a中,第二盖体7a位于内筒302a外,内筒302a的内壁上设置有支撑台阶3021a,第二盖体7a支撑在支撑台阶3021a上。通过设置该支撑台阶3021a,使该雾化用容器2000a更容易定位。
在优选实施例中,雾化用容器2000a还包括第一盖体6a,第一盖体6a与容器本体5a连接,封闭容器本体5a的开口,雾化器1000a与第一盖体6a连接,进气通道61a和出雾通道62a设置于第一盖体6a中,第一盖体6a上还设置有第一阀体91a和第二阀体92a,第一阀体91a与进气通道61a配合,用于打开或关闭进气通道61a,第二阀体92a与出雾通道62a相配合,用于打开或关闭出雾通道62a;
雾化用容器2000a还包括第二盖体7a,第二盖体7a上设置有顶柱74a、辅助进气通道71a、辅助出雾通道72a和出雾口73a,辅助进气通道71a设置在顶柱74a中,出雾口73a与辅助出雾通道72a相连通,第二盖体7a与第一盖体6a连接,顶柱74a下压第一阀体91a和第二阀体92a,使辅助进气通道71a与进气通道61a相连通,辅助出雾通道72a与出雾通道62a相连通,且进气通道61a和辅助进气通道71a与出雾通道62a和辅助出雾通道72a相隔离;
请参考图11,第二盖体7a呈柱状,第二盖体7a与安装孔308a相配合的外侧表面包括第一弧面区及与第一弧面区连接的第一平面区79a,安装孔308a的内壁上相应地设置有第二弧面区及与第二弧面区连接的第二平面区,第一弧面区、第一平面区79a分别与第二弧面区和第二平面区对应配合接触。进气接头77a和出气接头305a分别设置在第一平面区79a和第二平面区。由于安装孔308a的内壁和第二盖体7a的外侧表面均采用弧面加平面的方式,只有当第一平面区79a和第二平面区对准时,第二盖体7a才能插入安装孔308a中,这样可以确保进气接头77a和出气接头305a可以对准。
在优选实施例中,雾化装置包括多个雾化用容器2000a,雾化装置本体3000a上相应地开设有多个安装孔308a,每一雾化用容器2000a与一对应的气泵303a 连接,或者多个雾化用容器2000a与同一气泵303a连接;雾化装置还包括辅助吹气装置79a,每个雾化用容器2000a设置有出雾口73a及环绕出雾口73a的辅助出风口781a,出雾口73a与出雾通道62a连通,每个雾化用容器2000a的辅助出风口781a与一对应的辅助吹气装置79a连接,或者多个雾化用容器2000a的辅助出风口781a与同一辅助吹气装置79a连接。也即雾化用容器2000a与气泵303a可以是一一对应关系,也可以多个雾化用容器2000a连接一个气泵303a,雾化用容器2000a与辅助吹气装置79a的对应关系也是如此。
本发明提供的雾化用容器,其内部就设置有雾化器,因此安装到雾化装置中时更加简单,而且更换雾化用容器的同时就更换了雾化器,使雾化装置的雾化器经常处于比较好的工作状态,雾化效果较好。
以上仅为本发明的优选实施例,并非因此限制本发明的专利范围,凡是利用本发明说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其他相关的技术领域,均同理包括在本发明的专利保护范围内。

Claims (19)

  1. 一种雾化用容器,其特征在于,包括容器本体和雾化器,所述容器本体内具有容纳腔,所述雾化用容器还具有进气通道和出雾通道,所述进气通道的一端用于连接外部气源,另一端连接所述雾化器,用于向所述雾化器提供气流,所述雾化器用于将所述进气通道提供的气流与所述容纳腔内的液体混合雾化,形成气雾,所述出雾通道用于将所述气雾排出所述容器本体外,所述雾化器位于所述容纳腔中,在第一状态下,所述进气通道和出雾通道打开,使所述气泵的气流可通过所述进气通道进入所述雾化器,雾化器形成的气雾可通过所述出雾通道排出所述容器本体外;在第二状态下,所述进气通道和/或出雾通道关闭。
  2. 如权利要求1所述的雾化用容器,其特征在于,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道,在自由状态下,所述第一阀体和第二阀体关闭,所述第一盖体密封所述容器本体,所述第二阀体可移动地安装在所述第一盖体中,所述雾化器固定在所述第二阀体上,可随所述第二阀体相对于所述容器本体移动。
  3. 如权利要求2所述的雾化用容器,其特征在于,所述第一阀体包括第一密封件和第一弹性件,所述第一弹性件与所述第一密封件相连接,所述第二阀体包括第二密封件和第二弹性件,所述第二弹性件与所述第二密封件相连接,所述第一弹性件和第二弹性件处于自由状态下时,所述第一密封件封闭所述进气通道,所述第二密封件封闭所述出雾通道,外力下压所述第一密封件和所述第二密封件,所述进气通道连通所述雾化器与容器本体外空间,所述出雾通道连通所述容纳腔与容器本体外空间。
  4. 如权利要求2所述的雾化用容器,其特征在于,所述第一盖体中设置有中空的安装筒,所述安装筒的上下两端开口,所述第二阀体可移动地安装在所 述安装筒中,所述第二阀体包括通气管和固定于所述通气管外周侧的密封体,所述通气管中形成有所述进气通道,所述第一阀体设置在所述进气通道中,所述安装筒中形成有所述出雾通道,所述出雾通道位于所述通气管外;所述通气管的上端穿过所述安装筒上端的开口向外凸出,所述密封体与所述安装筒的内壁紧密配合,所述雾化器固定在所述通气管的下端,在第一状态下,所述密封体使所述出雾通道打开,雾化器形成的气雾可通过所述出雾通道排出所述雾化用容器的外部;在第二状态下,所述密封体使所述出雾通道隔断,雾化器形成的气雾不能通过所述出雾通道排出所述雾化用容器的外部。
  5. 如权利要求4所述的雾化用容器,其特征在于,所述通气管的上段与所述安装筒上端的开口间隙配合,所述安装筒的侧壁上开设有连接通孔,所述连接通孔与所述容纳腔连通,所述第二阀体可在外力作用下相对于所述连接通孔移动,在第一状态下,所述密封体使所述连接通孔至所述安装筒上端的开口的通道打开,雾化器形成的气雾从所述容纳腔通过所述连接通孔进入所述安装筒中,并所述安装筒上端的开口排出所述第一盖体外,在第二状态下,所述密封体使所述连接通孔至所述安装筒上端的开口的通道封闭,所述雾化器形成的气雾封闭在所述容纳腔内。
  6. 如权利要求2所述的雾化用容器,其特征在于,该雾化用容器还包括第三盖体,所述第三盖体为密封式盖体,所述第三盖体与所述第一盖体可拆卸连接,所述第三盖体与所述第一盖体密封连接时,将所述雾化器、进气通道及出雾通道封闭在所述容纳腔内。
  7. 如权利要求2所述的雾化用容器,其特征在于,所述雾化用容器还包括第二盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,将所述第二盖体与所述第一盖体连接时,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离。
  8. 如权利要求7所述的雾化用容器,其特征在于,所述第一盖体中设置有中空的安装筒,所述安装筒的上下两端开口,所述第二阀体可上下移动地安装在所述安装筒中,所述第二阀体包括通气管和固定于所述通气管外周侧的密封体,所述通气管中形成有所述进气通道,所述第一阀体设置在所述进气通道中,所述安装筒中形成有所述出雾通道,所述出雾通道位于所述通气管外;所述通气管的上端穿过所述安装筒上端的开口向外凸出,所述密封体与所述安装筒的内壁紧密配合,所述雾化器固定在所述通气管的下端,将所述第二盖体与所述第一盖体连接时,所述顶柱下压所述第二阀体使所述出雾通道打开,所述顶柱的下端部插入所述第二阀体中且抵顶所述第一阀体,使所述辅助进气通道与所述进气通道对接连通。
  9. 如权利要求8所述的雾化用容器,其特征在于,所述第一阀体包括第一密封件和第一弹性件,所述第一弹性件与所述第一密封件相连接,所述第一密封件为球形密封件,所述顶柱的下端部插入所述第二阀体中时,下压所述第一密封件,所述顶柱的下端部与所述第一密封件相接触位置设置有缺口,所述进气通道与所述辅助进气通道通过所述缺口相连通。
  10. 如权利要求7所述的雾化用容器,其特征在于,所述第二盖体上设置有进气接头设置,所述进气接头与所述辅助进气通道连接,所述第二盖体上设置有环绕所述出雾口的辅助出风口以及位于所述第二盖体一侧的辅助进风口,所述辅助进风口与所述辅助出风口连通。
  11. 如权利要求1所述的雾化用容器,其特征在于,所述雾化器具有气体通道和液体通道,所述气体通道具有互相连通的进气口和出气口,所述液体通道具有互相连通的进液口和出液口,所述出气口与所述出液口邻近,所述雾化器还包括吸液管,所述吸液管一端伸至所述容纳腔底部,另一端与所述进液口连通,所述进气口与所述进气通道连接,所述出气口位于所述容纳腔的液面上方,所述进气通道提供的气流与所述容纳腔内的液体在所述出气口附近混合雾化,并排放到所述容纳腔中。
  12. 一种雾化装置,其包括雾化装置本体和雾化用容器,所述雾化装置本体上开设有安装孔,所述雾化用容器插入所述安装孔中,所述雾化装置本体内还设置有气泵,其特征在于,所述雾化用容器为权利要求1所述的雾化用容器,所述进气通道的一端连接所述气泵,另一端连接所述雾化器,使所述气泵通过所述进气通道向所述雾化器提供气流,所述出雾通道将所述气雾排出所述容器本体外,并最终排出所述雾化装置本体外。
  13. 如权利要求12所述的雾化装置,其特征在于,所述雾化器具有气体通道和液体通道,所述气体通道具有互相连通的进气口和出气口,所述液体通道具有互相连通的进液口和出液口,所述出气口与所述出液口邻近,所述雾化器还包括吸液管,所述吸液管一端伸至所述容纳腔底部,另一端与所述进液口连通,所述进气口与所述进气通道连接,所述出气口位于所述容纳腔的液面上方,所述进气通道提供的气流与所述容纳腔内的液体在所述出气口附近混合雾化,并排放到所述容纳腔中;
    所述雾化器包括雾化器本体和阻挡件,所述雾化器本体上设置有液体通道和气体通道;所述液体通道的末端设置有出液口,所述气体通道的末端设有出气口,所述出液口分布于所述出气口的周侧;所述阻挡件与所述出气口和出液口相对设置且间隔预设距离,所述阻挡件使所述出气口喷出的气流折射,所述出液口位于所述出气口的折射方向下游;所述雾化装置本体包括第一本体和第二本体,所述第一本体和所述第二本体可拆卸连接,所述第二本体套设在所述第一本体的外侧;所述气体通道开设于所述第一本体上,所述液体通道开设于所述第二本体上或者第一本体的外壁上。
  14. 如权利要求12所述的雾化装置,其特征在于,所述安装孔的侧壁上设置有与所述气泵连接的出气接头,所述雾化用容器上设置有与所述进气通道连接的进气接头,所述雾化用容器插入所述安装孔时,所述进气接头与所述出气接头接通。
  15. 如权利要求14所述的雾化装置,其特征在于,所述雾化用容器还包括 第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道,在自由状态下,所述第一阀体和第二阀体关闭,所述第一盖体密封所述容器本体;
    所述雾化用容器还包括第二盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,将所述第二盖体与所述第一盖体连接时,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离;
    所述进气接头设置在所述第二盖体上,且所述进气接头与所述辅助进气通道连接,所述第二盖体上设置有环绕所述出雾口的辅助出风口以及位于所述第二盖体一侧的辅助进风口,所述辅助进风口与所述辅助出风口连通,所述雾化装置本体上还设置有辅助吹气装置,所述辅助吹气装置与所述辅助进风口相对,向所述辅助进风口吹气,并通过所述辅助出风口吹出所述雾化装置本体外。
  16. 如权利要求12所述的雾化装置,其特征在于,所述雾化装置本体包括内筒和反弹器,所述内筒插入所述安装孔中,所述内筒上设置有向所述内筒周侧凸出的反弹部,所述反弹器安装在所述雾化装置本体中,并位于所述内筒的外侧,自下而上抵顶所述反弹部,所述雾化用容器部分插入所述内筒中,所述反弹器在外力作用下具有压缩状态和弹起状态,所述雾化用容器在反弹器弹起状态时相对于所述安装孔的高度高于在反弹器压缩状态时相对于所述安装孔的高度。
  17. 如权利要求16所述的雾化装置,其特征在于,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所 述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道;
    所述雾化用容器还包括第二盖体,所述第二盖体的外径大于所述第一盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,所述第二盖体与所述第一盖体连接,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离;
    所述第一盖体插入所述内筒中,所述第二盖体位于内筒外,所述内筒的内壁上设置有支撑台阶,所述第二盖体支撑在所述支撑台阶上。
  18. 如权利要求12所述的雾化装置,其特征在于,所述雾化用容器还包括第一盖体,所述第一盖体与所述容器本体连接,封闭所述容器本体的开口,所述雾化器与所述第一盖体连接,所述进气通道和出雾通道设置于所述第一盖体中,所述第一盖体上还设置有第一阀体和第二阀体,所述第一阀体与所述进气通道配合,用于打开或关闭所述进气通道,所述第二阀体与所述出雾通道相配合,用于打开或关闭所述出雾通道;
    所述雾化用容器还包括第二盖体,所述第二盖体上设置有顶柱、辅助进气通道、辅助出雾通道和出雾口,所述辅助进气通道设置在所述顶柱中,所述出雾口与所述辅助出雾通道相连通,所述第二盖体与所述第一盖体连接,所述顶柱下压第一阀体和第二阀体,使所述辅助进气通道与所述进气通道相连通,所述辅助出雾通道与所述出雾通道相连通,且所述进气通道和辅助进气通道与出雾通道和辅助出雾通道相隔离;
    所述第二盖体呈柱状,所述第二盖体与所述安装孔相配合的外侧表面包括第一弧面区及与所述第一弧面区连接的第一平面区,所述安装孔的内壁上相应 地设置有第二弧面区及与所述第二弧面区连接的第二平面区,所述第一弧面区、第一平面区分别与所述第二弧面区和第二平面区对应配合接触,所述进气接头和所述出气接头分别设置在所述第一平面区和第二平面区。
  19. 如权利要求12所述的雾化装置,其特征在于,所述雾化装置包括多个所述雾化用容器,所述雾化装置本体上相应地开设有多个安装孔,每一所述雾化用容器与一对应的气泵连接,或者所述多个雾化用容器与同一气泵连接;所述雾化装置还包括辅助吹气装置,每个所述雾化用容器设置有出雾口及环绕所述出雾口的辅助出风口,所述出雾口与所述出雾通道连通,每个所述雾化用容器的辅助出风口与一对应的辅助吹气装置连接,或者所述多个雾化用容器的辅助出风口与同一辅助吹气装置连接。
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