CN217389989U - Modularization atomizing device - Google Patents

Abstract

The utility model relates to the technical field of electronic atomization, in particular to a modularized atomization device, which comprises a shell, an oil storage module and a power module, wherein a placement cavity is arranged in the shell; the oil storage module comprises an oil cup, oil storage cotton arranged in the oil cup, a glass fiber tube arranged in the oil storage cotton, air guide columns respectively connected to two ends of the glass fiber tube, and a bottom sealing element, wherein the oil storage cotton is placed in the oil cup by the bottom sealing element, the air guide columns are communicated with an air nozzle, and an atomization assembly is arranged in the glass fiber tube; the power supply module comprises a bottom shell, a connecting support connected with the bottom shell, a battery arranged on the connecting support, and a control panel arranged on the bottom shell and extending to the bottom shell, wherein the control panel is connected with the atomizing assembly, and a gas conducting cavity is formed between the connecting support and the bottom sealing element; the utility model discloses in the shell of directly packing into again after accomplishing the equipment with oil storage module and power module in the assembling process, encapsulate through the drain pan at last can, whole equipment is convenient, and the packaging efficiency is high.

Description

Modularization atomizing device

Technical Field

The utility model relates to an electronic atomization technical field especially relates to a modularization atomizing device.

Background

Traditional electronic atomizer structure generally includes host computer and atomizer, and the host computer is used for power supply and control connection atomizer, sets up tobacco tar and atomizing structure in the atomizer. Wherein, the host computer and the atomizer of the electronic atomizer on current market generally including integral type structure and split type structure, and the split type is removable atomizer, and the integral type then generally is disposable more. In disposable use, mass production is needed, manual assembly is mostly carried out in the production process, the manual assembly efficiency is low, and the assembly efficiency can be improved by aiming at the modularized design of the existing atomization device.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a in the shell of directly packing into again after accomplishing the equipment with oil storage module and power module in the assembling process, at last through the drain pan encapsulate can, whole equipment is convenient, the modularization atomizing device that packaging efficiency is high.

The utility model adopts the technical proposal that: a modularized atomization device comprises a shell, an oil storage module and a power supply module, wherein a mounting cavity is formed in the shell, and an air nozzle is formed in the shell and communicated to the mounting cavity; the oil storage module comprises an oil cup, oil storage cotton arranged in the oil cup, a glass fiber pipe arranged in the oil storage cotton, air guide columns respectively connected to two ends of the glass fiber pipe, and a bottom sealing element, the oil storage cotton is placed in the oil cup by the bottom sealing element, the air guide columns are communicated to an air faucet, and an atomization assembly is arranged in the glass fiber pipe; the power module comprises a bottom shell, a connecting support connected to the bottom shell, a battery installed on the connecting support, and a control panel installed on the bottom shell and extending to the bottom shell, wherein the control panel is connected with the atomizing assembly, a gas guide cavity is formed between the connecting support and the bottom sealing element, and the gas guide cavity is communicated with the glass fiber tube.

The further improvement of the scheme is that a sealing cavity is arranged in the arrangement cavity, a sealing platform is arranged on the upward bulge of the oil cup, a sealing ring is arranged on the sealing platform, and the outer diameter of the sealing ring is in sealing butt joint with the inner wall of the sealing cavity.

The further improvement of the scheme is that the sealing platform is provided with an oil filling hole, the oil filling hole is provided with an oil filling plug, and the oil filling hole is communicated to the oil storage cotton.

The sealing platform is further improved to the scheme that an oil suction cavity is formed in the sealing platform, oil suction cotton is installed in the oil suction cavity, and the oil suction cotton is used for communicating the air nozzle with the air guide column.

The oil cup is characterized in that the bottom sealing element comprises a sealing inner edge, a sealing outer lip and an extension boss, the sealing inner edge is inserted into the oil cup, the sealing outer lip is clamped on the bottom surface of the oil cup, and the extension boss is connected to the connecting support.

The technical scheme is further improved in that an air guide groove is formed in the sealed inner edge, a sealed air guide seat is arranged in the air guide groove, and the sealed air guide seat is arranged to communicate the air guide cavity with the glass fiber tube.

The further improvement of the scheme is that the connecting support is provided with a pneumatic inductor, the pneumatic inductor is connected to the control panel, the pneumatic inductor is provided with a through hole, the through hole is communicated to the air guide cavity, and the air guide cavity is internally provided with an oil suction seat.

The further improvement of the scheme is that the control panel is connected with a charging interface, the bottom shell is provided with a fixed port corresponding to the charging interface, the charging interface corresponds to the fixed port, the control panel is connected with an electrode, and the electrode is connected with the atomization assembly.

The further improvement of the scheme is that connecting buckles are arranged on two sides of the bottom shell, connecting clamping grooves are formed in the arrangement cavities corresponding to the connecting buckles, and the connecting buckles are clamped into the connecting clamping grooves.

The assembly method of the modular atomization device comprises a shell, an oil storage module and a power supply module, wherein a mounting cavity is formed in the shell, and an air nozzle is formed in the shell and communicated with the mounting cavity; the oil storage module comprises an oil cup, oil storage cotton arranged in the oil cup, a glass fiber pipe arranged in the oil storage cotton, air guide columns respectively connected to two ends of the glass fiber pipe, and a bottom sealing element, the oil storage cotton is placed in the oil cup by the bottom sealing element, the air guide columns are communicated to an air faucet, and an atomization assembly is arranged in the glass fiber pipe; the power supply module comprises a bottom shell, a connecting support connected with the bottom shell, a battery arranged on the connecting support, and a control panel which is arranged on the bottom shell and extends to the bottom shell, wherein the control panel is connected with the atomizing assembly, a gas guide cavity is formed between the connecting support and the bottom sealing element, and the gas guide cavity is communicated with the glass fiber tube;

the assembling method comprises the following steps:

step S1, assembling a power supply module, preparing a connecting bracket, and loading a battery and a control panel into the connecting bracket;

step S2, assembling an oil storage module, preparing an oil cup, loading the oil storage cotton with the glass fiber tube into the oil cup, and loading the atomization component into the atomization component;

step S3, the oil storage cotton is sealed and loaded into the oil cup through the bottom sealing element;

step S4, combining the assembled power supply module and the oil storage module;

step S5, buckling the shell outside the oil storage module, specifically, fixing the oil cup inside the shell;

and step S6, the bottom shell is matched with the power module and is connected with the bottom of the shell at the same time, so that the assembly of the atomization device is completed.

The utility model has the advantages that:

compare current atomizing device equipment, the utility model discloses with atomizing device's structural module, with wholly divide into several modules of shell, oil storage module, power module and drain pan, in the shell of directly packing into again after the equipment is accomplished to oil storage module and power module in the assembling process, at last encapsulate through the drain pan can, whole equipment is convenient, and the packaging efficiency is high, and simple structure is reliable, is fit for mass production. The oil storage device is characterized by comprising a shell, an oil storage module and a power supply module, wherein a mounting cavity is arranged in the shell, and the shell is provided with an air nozzle communicated to the mounting cavity; the oil storage module comprises an oil cup, oil storage cotton arranged in the oil cup, a glass fiber tube arranged in the oil storage cotton, air guide columns connected to two ends of the glass fiber tube respectively, and a bottom sealing element, wherein the oil storage cotton is placed in the oil cup by the bottom sealing element, the air guide columns are communicated with an air nozzle, and an atomization assembly is arranged in the glass fiber tube; the power module comprises a bottom shell, a connecting support connected to the bottom shell, a battery installed on the connecting support, and a control panel installed on the bottom shell and extending to the bottom shell, wherein the control panel is connected with the atomizing assembly, a gas guide cavity is formed between the connecting support and the bottom sealing element, and the gas guide cavity is communicated with the glass fiber tube. The oil storage module is used for assembling an internal structure as an inner shell through the oil cup, the internal oil storage structure is assembled and then further assembled, the assembly is convenient, the sealing is carried out through the bottom sealing element, the structural sealing coefficient is high, and the oil storage module is stable and reliable and convenient to use.

Compared with the existing atomization device assembling method, the invention adopts modular assembly, and specifically comprises the following steps: assembling a power supply module, preparing a connecting bracket, and loading a battery and a control panel into the connecting bracket; assembling an oil storage module, preparing an oil cup, filling oil storage cotton filled with a glass fiber tube into the oil cup, and filling an atomization assembly into the atomization assembly; the oil storage cotton is sealed and filled into the oil cup through a bottom sealing element; combining the assembled power supply module and the oil storage module; the shell is buckled outside the oil storage module, and particularly the oil cup is fixed inside the shell; the bottom shell is matched with the power module and is connected with the bottom of the shell at the same time, so that the atomization device is assembled. The whole equipment is convenient, and the packaging efficiency is high, and the modularization equipment is fit for mass production equipment.

Drawings

Fig. 1 is a schematic structural view of the modular atomization device of the present invention;

FIG. 2 is a schematic view of a portion of the modular atomizing apparatus of FIG. 1;

fig. 3 is a schematic assembly flow diagram of the modular atomization device of fig. 1.

Description of reference numerals: the device comprises a shell 1, a mounting cavity 11, a sealing cavity 111, a connecting clamping groove 112, an air tap 12, an oil storage module 2, an oil cup 21, a sealing table 211, a sealing ring 212, an oil filling hole 213, an oil filling plug 214, oil absorption cotton 215, oil storage cotton 22, a glass fiber tube 23, an atomizing assembly 231, an air guide column 24, a bottom sealing element 25, a sealed inner edge 251, a sealed outer lip 252, an extending boss 253, a sealed air guide seat 254, a power module 3, a bottom shell 31, a connecting buckle 311, a connecting bracket 32, an air guide cavity 321, a pneumatic inductor 322, a through hole 323, a battery 33, a control panel 34, a charging interface 341 and a fixing port 342.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are illustrated in the accompanying drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 3, a modularized atomizing device is provided with a housing 1, an oil storage module 2, and a power module 3, wherein a placement cavity 11 is provided in the housing 1, the housing 1 is provided with an air faucet 12, and the air faucet 12 is communicated with the placement cavity 11; the oil storage module 2 comprises an oil cup 21, oil storage cotton 22 arranged in the oil cup 21, a glass fiber tube 23 arranged in the oil storage cotton 22, air guide columns 24 respectively connected to two ends of the glass fiber tube 23, and a bottom sealing element 25, wherein the oil storage cotton 22 is arranged in the oil cup 21 by the bottom sealing element 25, the air guide columns 24 are communicated with the air nozzle 12, and an atomization assembly 231 is arranged in the glass fiber tube 23; the power module 3 comprises a bottom shell 31, a connecting bracket 32 connected to the bottom shell 31, a battery 33 mounted on the connecting bracket 32, and a control board 34 mounted on the bottom shell 31 and extending to the bottom shell 31, wherein the control board 34 is connected to the atomizing assembly 231, an air guide cavity 321 is formed between the connecting bracket 32 and the bottom sealing member 25, and the air guide cavity 321 is communicated with the glass fiber tube 23.

The arrangement cavity 11 is internally provided with a sealing cavity 111, the oil cup 21 is upwards protruded to form a sealing table 211, the sealing table 211 is provided with a sealing ring 212, the outer diameter of the sealing ring 212 is in sealing butt joint with the inner wall of the sealing cavity 111, the sealing cavity 111 is matched with the sealing ring 212 to be used for structural sealing, and the sealing effect is good.

Oil filler point 213 has been seted up to sealed platform 211, oil filler point 214 is installed to oil filler point 213, oil filler point 213 communicates to oil storage cotton 22, and oil filler point 213 and oil filler point 214's cooperation conveniently carries out the oiling when automatic equipment, is fit for being used for automatic equipment.

The sealing table 211 is provided with an oil suction cavity, oil suction cotton 215 is installed in the oil suction cavity, the air tap 12 is communicated with the air guide column 24 through the oil suction cotton 215, and the oil suction cotton 215 is arranged in the oil suction cavity and used for adsorbing condensate.

The bottom sealing element 25 comprises a sealing inner edge 251, a sealing outer lip 252 and an extension boss 253, the sealing inner edge 251 is inserted into the oil cup 21, the sealing outer lip 252 is clamped on the bottom surface of the oil cup 21, the extension boss 253 is connected to the connecting support 32, the sealing inner edge 251 and the sealing outer lip 252 are used for structural sealing, the sealing effect is good, the structure is simple and reliable, the extension boss 253 is arranged for being connected to the connecting support 32 in a sealing mode, the structural sealing coefficient is high, and the connection is stable.

An air guide groove is formed in the inner edge 251 of the seal, a seal air guide seat 254 is arranged in the air guide groove, the seal air guide seat 254 is arranged to communicate the air guide cavity 321 with the glass fiber tube 23, and the air guide groove is used for matching with the seal installation of the seal air guide seat 254, so that the structure installation is convenient, and the assembly is convenient.

The connecting bracket 32 is provided with a pneumatic sensor 322, the pneumatic sensor 322 is connected to the control panel 34, the pneumatic sensor 322 is provided with a through hole 323, the through hole 323 is communicated with a gas guide cavity 321, an oil suction seat is arranged in the gas guide cavity 321, and the pneumatic sensor 322 arranged on the control panel 34 is used for sensing touch.

Control panel 34 is connected with the interface 341 that charges, drain pan 31 is equipped with fixed port 342 corresponding to the interface 341 that charges, the interface 341 that charges corresponds fixed port 342, control panel 34 is connected with the electrode, the electrode is connected with atomizing component 231, and the interface 341 that charges and the cooperation of fixed port 342 are used for connecting to charge, and the electrode is used for conductive connection.

Bottom shell 31 both sides are equipped with connect buckle 311, it is equipped with connection slot 112 to settle chamber 11 and correspond connect buckle 311, connect buckle 311 card go into to connection slot 112, through connect buckle 311 and connection slot 112 cooperation, make things convenient for bottom shell 31 to assemble, and the structure equipment is convenient, reliable and stable.

The utility model discloses with atomizing device's structural module, will wholly divide into several modules of shell 1, oil storage module 2, power module 3 and drain pan 31, will store up oil module 2 and power module 3 and accomplish the equipment back and directly pack into shell 1 again in the assembling process, at last through drain pan 31 encapsulate can, whole equipment is convenient, the packaging efficiency is high, simple structure is reliable, is fit for mass production. Specifically, a shell 1, an oil storage module 2 and a power supply module 3 are arranged, a mounting cavity 11 is arranged in the shell 1, an air faucet 12 is arranged on the shell 1, and the air faucet 12 is communicated with the mounting cavity 11; the oil storage module 2 comprises an oil cup 21, oil storage cotton 22 arranged in the oil cup 21, a glass fiber tube 23 arranged in the oil storage cotton 22, air guide columns 24 respectively connected to two ends of the glass fiber tube 23, and a bottom sealing element 25, wherein the oil storage cotton 22 is arranged in the oil cup 21 by the bottom sealing element 25, the air guide columns 24 are communicated with the air tap 12, and an atomization assembly 231 is arranged in the glass fiber tube 23; the power module 3 comprises a bottom shell 31, a connecting bracket 32 connected to the bottom shell 31, a battery 33 mounted on the connecting bracket 32, and a control board 34 mounted on the bottom shell 31 and extending to the bottom shell 31, wherein the control board 34 is connected with the atomizing assembly 231, an air guide cavity 321 is formed between the connecting bracket 32 and the bottom sealing member, and the air guide cavity 321 is communicated with the glass fiber tube 23. The oil storage module 2 is used for assembling an internal structure as an inner shell through the oil cup 21, the internal oil storage structure is assembled and then further assembled, the assembly is convenient, the sealing is carried out through a bottom sealing element, the structural sealing coefficient is high, and the oil storage module is stable and reliable and convenient to use.

The assembly method of the modular atomization device comprises a shell 1, an oil storage module 2 and a power supply module 3, wherein a mounting cavity 11 is formed in the shell 1, an air nozzle 12 is formed in the shell 1, and the air nozzle 12 is communicated with the mounting cavity 11; the oil storage module 2 comprises an oil cup 21, oil storage cotton 22 arranged in the oil cup 21, a glass fiber tube 23 arranged in the oil storage cotton 22, air guide columns 24 respectively connected to two ends of the glass fiber tube 23, and a bottom sealing element 25, wherein the oil storage cotton 22 is arranged in the oil cup 21 by the bottom sealing element 25, the air guide columns 24 are communicated with the air nozzle 12, and an atomization assembly 231 is arranged in the glass fiber tube 23; the power module 3 comprises a bottom shell 31, a connecting bracket 32 connected to the bottom shell 31, a battery 33 mounted on the connecting bracket 32, and a control board 34 mounted on the bottom shell 31 and extending to the bottom shell 31, wherein the control board 34 is connected with the atomizing assembly 231, an air guide cavity 321 is formed between the connecting bracket 32 and the bottom sealing member, and the air guide cavity 321 is communicated with the glass fiber tube 23; the assembling method comprises the following steps: specifically, the power module 3 is assembled, the connecting bracket 32 is prepared, and the battery 33 and the control board 34 are both mounted to the connecting bracket 32; assembling the oil storage module 2, preparing an oil cup 21, loading the oil storage cotton 22 with the glass fiber tube 23 into the oil cup 21, and loading the atomizing assembly 231 into the atomizing assembly 231; the oil storage cotton 22 is hermetically arranged in the oil cup 21 through a bottom sealing piece; combining the assembled power supply module and the oil storage module; the shell 1 is buckled outside the oil storage module, and particularly the shell 1 fixes the oil cup 21 inside; the bottom shell 31 is matched with the power module and connected with the bottom of the shell 1 at the same time, so that the atomization device is assembled. The whole equipment is convenient, and the packaging efficiency is high, and the modularization equipment is fit for mass production equipment.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A modular atomization device, comprising: comprises that

The air faucet device comprises a shell, wherein a mounting cavity is arranged in the shell, and the shell is provided with an air faucet which is communicated to the mounting cavity;

the oil storage module comprises an oil cup, oil storage cotton arranged in the oil cup, a glass fiber pipe arranged in the oil storage cotton, air guide columns respectively connected to two ends of the glass fiber pipe, and a bottom sealing element, wherein the oil storage cotton is arranged in the oil cup through the bottom sealing element, the air guide columns are communicated to an air faucet, and an atomization assembly is arranged in the glass fiber pipe;

the power module comprises a bottom shell, a connecting support connected to the bottom shell, a battery installed on the connecting support, and a control panel installed on the bottom shell and extending to the bottom shell, the control panel is connected with the atomizing assembly, a gas guide cavity is formed between the connecting support and the bottom sealing element, and the gas guide cavity is communicated with the glass fiber tube.

2. The modular atomization device of claim 1, wherein: the oil cup is characterized in that a sealing cavity is formed in the arranging cavity, a sealing platform is arranged on the upward bulge of the oil cup, a sealing ring is arranged on the sealing platform, and the outer diameter of the sealing ring is in sealing butt joint with the inner wall of the sealing cavity.

3. The modular atomization device of claim 2 in which: the oil filler point has been seted up to the sealing station, the oil filler plug is installed to the oil filler point, the oil filler point communicates to the oil storage cotton.

4. The modular atomization device of claim 3 in which: the sealing platform is equipped with the oil absorption chamber, install the oil absorption cotton in the oil absorption chamber, the oil absorption cotton is with air cock and air guide post intercommunication.

5. The modular atomization device of claim 1, wherein: the bottom sealing element comprises a sealing inner edge, a sealing outer lip and an extension boss, the sealing inner edge is inserted into the oil cup, the sealing outer lip is clamped on the bottom surface of the oil cup, and the extension boss is connected to the connecting support.

6. The modular atomization device of claim 5, wherein: an air guide groove is formed in the inner edge of the seal, a seal air guide seat is arranged in the air guide groove, and the seal air guide seat is arranged to communicate the air guide cavity with the glass fiber tube.

7. The modular atomization device of claim 1, wherein: the connecting support is provided with a pneumatic inductor, the pneumatic inductor is connected to the control panel, the pneumatic inductor is provided with a through hole, the through hole is communicated to the air guide cavity, and the air guide cavity is internally provided with an oil suction seat.

8. The modular atomization device of claim 1, wherein: the control panel is connected with the interface that charges, the drain pan is equipped with the fixed port corresponding to the interface that charges, the interface that charges corresponds the fixed port.

9. The modular atomization device of claim 8, wherein: the control panel is connected with the electrode, the electrode is connected with atomizing subassembly.

10. The modular atomization device of claim 1, wherein: the drain pan both sides are equipped with connection buckle, it is equipped with connecting slot to settle the chamber to correspond connection buckle, connecting slot card is gone into to connecting slot.

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