CN218106414U - Atomizer capable of being sterilized - Google Patents

Abstract

The application relates to the technical field of atomizers, in particular to a sterilizable atomizer which comprises an atomizer body and a battery, wherein a power supply cavity and an atomization cavity are respectively formed in the atomizer body; electrode plates are arranged on the side walls of the atomization cavity in pairs, the mounting seat is in butt joint with the electrode plates, and an ultraviolet lamp is arranged on the side wall, close to the opening, of the atomization cavity. This application theory of operation is when atomizing bullet is connected on the mount pad, through removing to descend lifting unit for the bullet mouth of atomizing bullet is close to embedded ultraviolet lamp in the atomizing chamber, and when opening control ultraviolet lamp's button, the electric current flows to ultraviolet lamp from the battery, and the ultraviolet light that ultraviolet lamp sent this moment can shine on the bullet mouth of atomizing bullet, disinfects bullet mouth.

Description

Atomizer capable of being sterilized

Technical Field

The application relates to the technical field of aerosol inhalation, in particular to a sterilizable atomizer.

Background

In the prior atomizer, a plurality of bacteria are remained on the bullet nozzle of the atomizing bullet in intermittent use.

The disinfection treatment mode on the bullet mouth of the atomizing bullet is generally a mode of rinsing with clean water or wiping with paper towels and the like, the modes cannot disinfect bacteria, and the disinfection treatment of the bullet mouth should comprise drying and sterilization of the bullet mouth so as to reduce the bacteria to the maximum extent.

Therefore, there is a need to develop a sterilizable atomizer to reduce bacteria on the bullet.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of the disinfection of the bullet mouth of the atomizing bullet, the application provides a atomizer that can disinfect.

The application provides a but sterilizer's atomizer adopts following technical scheme:

a disinfectable atomizer comprises an atomizer body and a battery, wherein a power supply cavity and an atomization cavity are respectively formed in the atomizer body, the battery is arranged in the power supply cavity, a lifting assembly is arranged in the atomization cavity, a mounting seat for mounting an atomization bullet is arranged on the lifting assembly, the mounting seat can slide in the atomization cavity, and the lifting assembly is used for driving the mounting seat to move towards or away from an opening of the atomization cavity; when the lifting assembly drives the mounting base to be close to the opening of the atomization cavity, the mounting base is in butt joint with the electrode plates, so that the mounting base is electrically connected to the battery, an ultraviolet lamp is arranged on the side wall of the atomization cavity close to the opening, and the ultraviolet lamp is electrically connected with the battery.

Through adopting above-mentioned technical scheme, when atomizing bullet is whole when atomizing cavity is inside, after opening control ultraviolet lamp's button, through ultraviolet lamp to the bullet mouth of atomizing bullet shine the sterilization, realize the inside disinfection to playing the mouth of atomizing cavity, when atomizing bullet atomizes, sterile operation makes the bacterium of playing the mouth reduce, when needs carry out the atomizing operation, lifting unit rises, has driven the mount pad that sets up on lifting unit, until mount pad and electrode slice butt, atomizing bullet is connected with the mount pad, battery in the power supply cavity provides the power, the flow direction of electric current does: the battery, the electrode plate, the mounting seat, the atomizing bomb, the mounting seat, the electrode plate and the battery form a complete power-on loop, and atomization is realized.

Optionally, the lifting assembly includes an elastic member, one end of the elastic member is fixed to the mounting seat, and the other end of the elastic member is fixed to the bottom wall of the atomization chamber.

Through adopting above-mentioned technical scheme, the setting up of lifting unit lets the mount pad remove in the direction that stretches out along the atomizing bullet for the atomizing bullet of being connected with the mount pad can realize the ascending and decline of bullet mouth in the atomizing chamber.

Optionally, a sliding hole is formed in one side of the atomizing cavity, which is far away from the power supply cavity, two limiting holes are formed in the atomizer body, and the two limiting holes are respectively corresponding to two ends, which are close to the sliding hole, and are communicated with the sliding hole; the lifting assembly further comprises a moving handle, one end of the moving handle is fixed to the mounting seat, and the end, far away from the mounting seat, of the moving handle penetrates through the sliding hole.

By adopting the technical scheme, when the whole atomizing bomb is completely arranged in the atomizing cavity, the elastic part is in a compressed state, the movable handle is positioned in the limiting hole far away from the opening, and the mounting seat is close to the bottom wall of the atomizing cavity; after the removal is slided in the other end of slide opening, will remove to be located the spacing downthehole of being close to the opening part, the elastic component is in normal condition this moment, and the mount pad is close to the opening part in atomizing chamber, consequently can realize the rising and the decline of mount pad through slide opening and the cooperation of removing the handle for the atomizing bullet of being connected with the mount pad can realize the rising and the decline in atomizing chamber.

Optionally, a butting block is arranged on one side, close to the opening, of the side wall of the atomization cavity, and the mounting seat can be butted against the butting block.

Through adopting above-mentioned technical scheme, the setting of butt piece is used for when the mount pad goes up and with the mount pad butt, strengthens the stable effect of structure.

Optionally, the electrode plate is fixed to one side of the abutting block facing the mounting seat, paired mounting pieces used for being electrically connected with the electrode plate in a one-to-one correspondence manner are arranged on the mounting seat, one mounting piece is electrically connected with the input electrode of the mounting seat, and the other mounting piece is electrically connected with the output electrode of the mounting seat.

By adopting the technical scheme, the electrode plate is abutted against the mounting plate, so that current can pass through the electrode plate, the mounting plate, the input electrode of the mounting seat, the atomizing bullet, the output electrode of the mounting seat, the other mounting plate and the electrode plate to form a complete circuit.

Optionally, a notch is formed in the inner side wall of the atomization cavity, the ultraviolet lamp is arranged in the notch, and a button used for controlling the working state of the ultraviolet lamp is arranged on the outer side wall of the atomizer body.

Through adopting above-mentioned technical scheme, ultraviolet lamp's setting can carry out disinfection's operation to the atomizing bullet, reduces the bacterium on atomizing bullet surface, uses also more sanitary.

Optionally, the mount pad includes the installation piece, is used for being connected in order to form the circular telegram outer loop of circular telegram return circuit and being located the circular telegram feeler block of circular telegram inner loop with the connector on the atomizing bullet, be provided with the circular telegram screw thread that is used for being connected with the connector of atomizing bullet on the circular telegram outer loop, circular telegram feeler block with be provided with the insulating part between the circular telegram outer loop, circular telegram feeler block, circular telegram outer loop with the mount pad is fixed, the circular telegram feeler block is the input pole of mount pad, the circular telegram outer loop is the output pole of mount pad the insulating part joint is in between circular telegram feeler block and the circular telegram outer loop.

By adopting the technical scheme, when the atomizing bomb is installed on the installation seat, the current in the power supply cavity can form a complete electrifying loop through the electrifying outer ring, the atomizing bomb, the electrifying contact block, the other installation piece and the other electrode piece on the electrode piece, the installation piece and the installation seat, so that the atomization of atomized liquid in the atomizing bomb is realized.

Optionally, the atomizer body is provided with a push cover near the opening of the atomizing chamber, and the push cover can be slidably connected to the atomizer body.

Through adopting above-mentioned technical scheme, when the atomizing bullet disinfected the operation, the atomizing bullet was located atomizing intracavity portion completely, will push away the lid and push to the opening part in atomizing chamber from one side in power supply chamber for push away the lid and cover completely and form an inclosed space in atomizing chamber's opening top, open ultraviolet lamp this moment, the ultraviolet ray irradiation bullet mouth that ultraviolet lamp sent is disinfected in atomizing intracavity portion. Therefore, through the arrangement of the push cover, a closed space is formed in the atomizing cavity when ultraviolet rays need to be disinfected, and the atomizing bomb is better disinfected and sterilized.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lifting assembly enables the mounting seat to move in the vertical direction, so that the atomizing bullet connected with the mounting seat can realize the ascending and descending of the bullet nozzle in the atomizing cavity;

2. the ultraviolet lamp can perform disinfection and sterilization operation on the atomizing bomb, so that the nozzle part of the atomizing bomb is free from bacteria, and the atomizing bomb can be more sanitary in use;

3. push away the lid and can make the ultraviolet ray when going on disinfecting, form inclosed space in the atomizing chamber, disinfect to the atomizing bullet better.

Drawings

Fig. 1 is a schematic view of the overall structure of an atomizer in the embodiment of the present application.

Fig. 2 isbase:Sub>A sectional view of the atomizer in the present embodiment taken along the directionbase:Sub>A-base:Sub>A of the atomizer body (retaining the internal structure).

Fig. 3 is a schematic structural diagram of a lifting assembly and a mounting base in an embodiment of the present application.

Description of the reference numerals:

1. an atomizer body; 11. a power supply cavity; 12. an atomizing chamber; 13. a butting block; 131. an electrode sheet; 14. a lifting assembly; 141. an elastic member; 142. moving the handle; 143. a slide hole; 144. a limiting hole; 15. a mounting base; 151. mounting a sheet; 152. an electrified outer ring; 153. a power-on contact block; 154. electrifying the screw thread; 16. an ultraviolet lamp; 161. a notch; 17. a button; 18. pushing the cover;

2. a battery;

3. and (4) atomizing projectiles.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The present embodiment discloses a sterilizable atomizer.

Referring to fig. 1 and 2, a sterilizable atomizer comprises an atomizer body 1 and a battery 2, wherein a power supply cavity 11 and an atomization cavity 12 are respectively formed in the atomizer body 1, one end of the power supply cavity 11 is communicated with the atomization cavity 12, the battery 2 is installed in the power supply cavity 11, a lifting assembly 14 is installed in the atomization cavity 12, a mounting seat 15 for mounting an atomization bomb 3 is arranged on the lifting assembly 14, the mounting seat 15 can slide in the atomization cavity 12, and the lifting assembly 14 is used for driving the mounting seat 15 to face or be far away from an opening of the atomization cavity 12; be provided with an electrode slice 131 near mount pad 15 on the lateral wall of atomizing chamber 12, electrode slice 131 electricity is connected in battery 2, and when lifting unit 14 drove mount pad 15 and is close to the opening of atomizing chamber 12, mount pad 15 and electrode slice 131 looks butt to make mount pad 15 electricity connect in battery 2, be provided with ultraviolet lamp 16 on the lateral wall that atomizing chamber 12 is close to the opening, ultraviolet lamp 16 electricity is connected in battery 2.

Referring to fig. 2, in some embodiments, the connection manner of the mounting seat 15 and the cartomizer 3 may be a threaded connection, a magnetic connection, a snap connection, or the like, as long as the connection of the mounting seat 15 and the cartomizer 3 can be achieved.

Referring to fig. 2, the mounting seat 15 slides in the atomizing chamber 12 through the lifting assembly 14, and the distance between the mounting seat 15 and the opening of the atomizing chamber 12 is also changed through the lifting and lowering of the lifting assembly 14, when the lifting assembly 14 is lifted, the mounting seat 15 is close to the opening of the atomizing chamber 12, and when the lifting assembly 14 is lowered, the mounting seat 15 is far from the opening of the atomizing chamber 12. When the atomizing bullet 3 is connected on the mounting seat 15, the lifting component 14 descends, so that the bullet mouth of the atomizing bullet 3 is close to the ultraviolet lamp 16 embedded in the atomizing cavity 12, when the button 17 for controlling the ultraviolet lamp 16 is opened, the current flows to the ultraviolet lamp 16 from the battery 2, and at the moment, the ultraviolet light emitted by the ultraviolet lamp 16 can irradiate on the bullet mouth of the atomizing bullet 3 to disinfect the bullet mouth. When atomization is needed, the atomizing bomb 3 is connected to the mounting seat 15, the lifting assembly 14 rises, the bomb nozzle of the atomizing bomb 3 protrudes out of the opening of the atomizing cavity 12, the mounting seat 15 abuts against the electrode plate 131, current flows from the battery 2 to the electrode plate 131, the mounting seat 15, the atomizing bomb 3, the mounting seat 15 and the electrode plate 131, and finally the current returns to the battery 2 to form a complete power-on loop.

Referring to fig. 1 and 2, the lifting assembly 14 includes an elastic member 141, one end of the elastic member 141 is fixed to the mounting seat 15, and the other end of the elastic member 141 is fixed to the bottom wall of the atomizing chamber 12. The elastic member 141 may be made of a material having elasticity and high hardness, such as spring steel. The lifting assembly 14 further comprises a moving handle 142, a sliding hole 143 is formed in one side of the atomization cavity 12, which is far away from the power supply cavity 11, a limiting hole 144 is formed in the atomizer body 1, the limiting hole 144 is close to the end portion of the sliding hole 143 and is communicated with the sliding hole 143, one end of the moving handle 142 is fixed on the mounting seat 15, and one end of the moving handle 142, which is far away from the mounting seat 15, penetrates through the sliding hole 143. When the movable handle 142 is positioned in the limiting hole 144 far away from the opening and the mounting seat 15 is close to the bottom wall of the atomizing chamber 12, the elastic member 141 is in a compressed state when the whole atomizing bomb 3 is in the atomizing chamber 12; after the moving handle 142 slides to the other end of the sliding hole 143, the moving handle 142 is located in the limiting hole 144 close to the opening, at this time, the elastic member 141 is in a natural extension state, and the mounting seat 15 is close to the opening of the atomizing chamber 12. The raising and lowering of the mount 15 can thus be achieved by the cooperation of the slide hole 143 and the shift knob 142, so that the cartridge 3 connected to the mount 15 can be raised and lowered in the atomizing chamber 12.

Referring to fig. 2 and 3, the mounting seat 15 includes 2 mounting pieces 151 abutting against 2 electrode plates 131, an electrified outer ring 152 and an electrified contact block 153 located in the electrified outer ring 152, an electrified thread 154 for connecting with a connector of the atomizing bomb 3 is provided on the electrified outer ring 152, an insulating member is provided between the electrified contact block 153 and the electrified outer ring 152, the electrified contact block 153, the electrified outer ring 152 and the mounting seat 15 are fixed, and the insulating member is clamped in the electrified contact block 153 and the electrified outer ring 152. In some embodiments, the insulating member may be a rubber material, a wood material, or the like, as long as insulation can be achieved. The material of the mounting seat 15 may be an iron sheet, a copper sheet, or the like, as long as electrical conduction can be achieved.

Referring to fig. 2 and 3, a contact block 13 is disposed on a side of the side wall of the atomizing chamber 12 close to the opening, and an electrode plate 131 is fixed on a side of the contact block 13 close to the mounting seat 15. The electrode plates 131 are fixed on one side of the abutting block 13 close to the mounting seat 15, and two mounting pieces 151 for one-to-one corresponding electrical connection with the two electrode plates 131 are arranged on the mounting seat 15. When the abutting block 13 abuts against the mounting seat 15, the two electrode plates 131 on the abutting block 13 contact with the two mounting pieces 151 on the mounting seat 15. When atomization is needed, current flows from the battery 2 to an electrode plate 131, a mounting plate 151, an electrified contact block 153, the atomizing bullet 3, an electrified outer ring 152, another mounting plate 151 and another electrode plate 131, and then returns to the battery 2 to form a complete electrified loop. The fixing mode of the abutting block 13 and the mounting seat 15 can be embedded, clamped and the like, as long as the circuit on the abutting block 13 can be communicated with the electrode plate 131 and can be fixed.

Referring to fig. 1 and 2, a notch 161 is formed in an inner side wall of the atomizing chamber 12, the ultraviolet lamp 16 is disposed in the notch 161, a button 17 for controlling the on/off of the ultraviolet lamp 16 is disposed on an outer side wall of the atomizer body 1, and the button 17 is electrically connected to the battery 2. In some embodiments, the ultraviolet lamp 16 may be disposed in-line, or may be clamped, so long as it can achieve the current flowing from the notch 161 to the ultraviolet lamp 16, and achieve the electrical connection between the ultraviolet lamp 16 and the battery 2.

Referring to fig. 2, the push cover 18 is disposed on the same side of the opening of the power supply cavity 11 and the opening of the atomization cavity 12, and the push cover 18 can be slidably connected to the atomizer body 1. In one embodiment, push grooves are formed on two corresponding sides of the outer surface of the atomizer body 1 above the power supply cavity 11, and protruding blocks are arranged on two corresponding sides of the push cover 18, and the protruding blocks slide in the slide grooves and in the length direction of the slide grooves.

The implementation principle of the sterilizable atomizer in the embodiment of the application is as follows: when the atomizing bullet 3 is connected on the mounting seat 15, the lifting component 14 is lowered by moving the handle 142, so that the bullet mouth of the atomizing bullet 3 is close to the ultraviolet lamp 16 embedded in the atomizing cavity 12, when the button 17 for controlling the ultraviolet lamp 16 is turned on, the current flows from the battery 2 to the ultraviolet lamp 16, and at the moment, the ultraviolet light emitted by the ultraviolet lamp 16 can irradiate on the bullet mouth of the atomizing bullet 3 to disinfect the bullet mouth. When needs atomize, the atomizing bullet 3 is connected on mount pad 15, through removing to 142 with lifting unit 14 rise for the bullet mouth protrusion in the opening of atomizing chamber 12 of atomizing bullet 3, mount pad 15 and electrode piece 131 butt this moment, the electric current flows to an electrode piece 131, an installation piece 151, atomizing bullet 3, another installation piece 151, another electrode piece 131 from battery 2, gets back to battery 2 at last and forms a complete circular telegram return circuit, makes atomizing operation can normally go on.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The atomizer capable of being disinfected is characterized by comprising an atomizer body (1) and a battery (2), wherein a power supply cavity (11) and an atomization cavity (12) are respectively formed in the atomizer body (1), the battery (2) is installed in the power supply cavity (11), a lifting assembly (14) is installed in the atomization cavity (12), a mounting seat (15) for mounting an atomization bomb (3) is arranged on the lifting assembly (14), the mounting seat (15) can slide in the atomization cavity (12), and the lifting assembly (14) is used for driving the mounting seat (15) to move towards or away from an opening of the atomization cavity (12);

the opening that is close to on the lateral wall of atomizing chamber (12) is provided with electrode slice (131) in pairs, one electrode slice (131) electricity connect in battery (2) are anodal, another electrode slice (131) electricity connect in battery (2) negative pole, work as lifting unit (14) drive mount pad (15) are close to when the opening of atomizing chamber (12), mount pad (15) with electrode slice (131) looks butt, so that mount pad (15) electricity connect in battery (2), be provided with ultraviolet lamp (16) on atomizing chamber (12) are close to the open-ended lateral wall, ultraviolet lamp (16) with battery (2) electricity is connected.

2. A sterilizable nebulizer as claimed in claim 1, wherein the lifting assembly (14) comprises a resilient member (141), one end of the resilient member (141) being fixed to the mounting base (15) and the other end of the resilient member (141) being fixed to the bottom wall of the nebulization chamber (12).

3. The sterilizable atomizer according to claim 2, wherein a sliding hole (143) is formed in a side of the atomizing chamber (12) away from the power supply chamber (11), the atomizer body (1) is formed with two limiting holes (144), and the two limiting holes (144) are respectively corresponding to two ends close to the sliding hole (143) and communicated with the sliding hole (143); the lifting assembly (14) further comprises a moving handle (142), one end of the moving handle (142) is fixed to the mounting seat (15), and one end, far away from the mounting seat (15), of the moving handle (142) penetrates through the sliding hole (143).

4. A sterilizable atomiser according to claim 1, characterised in that an abutment block (13) is arranged on the side wall of the atomising chamber (12) close to the opening, the mounting (15) being able to abut against the abutment block (13) when it is raised.

5. A sterilizable atomizer as claimed in claim 4, wherein said electrode tabs (131) are fixed to a side of said abutment block (13) facing said mounting base (15), said mounting base (15) being provided with pairs of mounting tabs (151) for electrical connection with said electrode tabs (131) in a one-to-one correspondence, one of said mounting tabs (151) being electrically connected to an input electrode of said mounting base (15), and the other of said mounting tabs (151) being electrically connected to an output electrode of said mounting base (15).

6. A sterilizable atomizer as claimed in claim 1, wherein a notch (161) is formed in an inner side wall of the atomizing chamber (12), the ultraviolet lamp (16) is disposed in the notch (161), and a button (17) for controlling an operating state of the ultraviolet lamp (16) is disposed on an outer side wall of the atomizer body (1).

7. The sterilizable atomizer according to claim 1, wherein the mounting base (15) comprises a mounting plate (151), an energization outer ring (152) for connecting with a connector on the atomizing bullet (3) to form an energization loop, and an energization contact block (153) located in the energization outer ring (152), an energization thread (154) for connecting with the connector of the atomizing bullet (3) is provided on the energization outer ring (152), an insulating member is provided between the energization contact block (153) and the energization outer ring (152), the energization contact block (153), the energization outer ring (152) and the mounting base (15) are fixed, the energization contact block (153) is an input electrode of the mounting base (15), the energization outer ring (152) is an output electrode of the mounting base (15), and the insulating member is clamped between the energization contact block (153) and the energization outer ring (152).

8. A sterilizable nebulizer as claimed in claim 1, wherein the nebulizer body (1) is provided with a push cap (18) near the opening of the nebulization chamber (12), the push cap (18) being slidably connected to the nebulizer body (1).

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