HANDHELD TIME-DELAY INHALATION ATOMIZING CUP

Description

1. TECHNICAL FIELD

The invention relates to the technical field of e-cigarettes, in particular to a handheld time-delay inhalation atomizing cup.

2. BACKGROUND ART

With the development of society and the advancement of technology, e-cigarettes are becoming more and more popular among consumers as a new type of smoking. E-cigarettes are seen as a healthier alternative as they reduce the inhalation of tar and other harmful substances compared to traditional tobacco products. Currently, e-cigarette products on the market are mainly classified into e-cigarette devices, electronic hookah devices and medical atomization devices. Most of these devices use instant atomized inhalation, which means that the device atomizes at the same time as the user inhales.

However, there are certain limitations in this instant atomized inhalation method. First, it requires the user to inhale instantly during the atomization process, which limits the user's control over the inhalation time and environment; second, for substances that require specific atomization treatment (such as certain medications or specially formulated opium paste), the instant atomization may not be able to achieve the optimal absorption effect; and lastly, most of the existing devices are for desktop use, which is not easy to carry around and use at any time.

3. SUMMARY OF THE INVENTION

In order to solve said problems, the invention provides a handheld time-delay inhalation atomizing cup, which not only provides temporal separation between atomization and inhalation, but also provides unprecedented portability and flexibility to the user through its integrated handheld design.

The invention is realized through the following technical scheme, a handheld time-delay inhalation atomizing cup, comprising

• • a base component; an electrical control component and an air pump are mounted in said base component; an atomizing docking port is arranged at one end of said base component;
  • an atomizing cup, detachably mounted on said base component, which internally forms an atomizing storage chamber for storing the smoke produced by the atomizer, and one end of the atomizing cup forms the smoking port;
  • The output end of said air pump is connected with the airway of said atomizer, and the output end of said atomizer is connected with said atomizing storage chamber, and the smoke produced by the atomizer is sent into the atomizing storage chamber via said air pump for storage.

As a preferred technical solution, said electrical control component comprises:

A battery, a PCBA board, and a charging panel, wherein said PCBA board connects the battery and the charging panel, said atomizer and the air pump are both connected to the PCBA board and are controlled as well as powered through said PCBA board, and said battery is charged through the charging panel.

As a preferred technical solution, said base component includes a base, a housing and a bracket, said housing is sleeved on the outside of the base, said bracket is mounted in said base, and said electrical control component is mounted in said base.

As a preferred technical solution, the bottom of said atomizer is provided with an adapter, said atomizer is assembled with said adapter via screwed connection, and the bottom of said adapter is provided with a threaded connection post;

In said atomizing docking port is mounted with a host threaded head, and said threaded connection post is in threaded connection with said host threaded head.

As a preferred technical solution, in said atomizing docking port is also provided with an exhaust output port, wherein the input end of said exhaust output port and the outlet end of said air pump are connected via silicone hose, and the output end of said exhaust output port is connected to the atomizing docking port; the bottom of said adapter is provided with an air intake docking channel, wherein one end of said air intake docking channel is connected to the atomizing docking port, and the other end thereof is connected to the atomizer fitted in the adapter.

As a preferred technical solution, the top of said atomizer is mounted with the atomizing hood, and the atomizing hood is detachably sleeved on the top of the atomizer.

As a preferred technical solution, a rotating buckle groove is provided on the inner circle of the bottom of said atomizing cup, and the corresponding buckle is provided on the top outer side of said base component; said atomizing cup is rotatably assembled with said base component by means of the buckle and rotating buckle groove.

As a preferred technical solution, said PCBA board is provided with a display screen, a cover plate is mounted outside the display screen, and a plurality of control buttons are also provided on said PCBA board.

As a preferred technical solution, a plurality of air outlet nozzles are provided on the atomizing hood, and the output end of said atomizer is provided with an atomizing outlet for atomizing, and said atomizing outlet communicates with the atomizing hood, and the smoke ejected from the atomizing outlet passes through the plurality of air outlet nozzles and enters into the atomizing storage chamber for storage.

As a preferred technical solution, the output ends of the plurality of air outlet nozzles are directed toward the bottom of the atomizing storage chamber, and the smoke ejected from the air outlet nozzles is stored from the bottom of the atomizing storage chamber and gradually piled upward.

The beneficial effect of the invention is as follows: the invention provides a more flexible way of using the device by splitting the atomization step and the inhalation step, so that steam generation and inhalation can be carried out successively, and the user can make the smoke before inhaling, thus providing a more flexible way of using the device;

• • secondly, the device realizes a handheld portable design, with the base component integrated with the atomizing cup, which is more portable and compact, making it easy for users to carry and use;

The top air inlet design of the atomizing cup and the unique airway design make it unnecessary for the user to separate the atomizing cup from the atomizing base when using the device, which greatly simplifies the operation process and enhances the convenience of use;

In addition, the replaceable adapter design allows the connection of multiple atomizers, enhancing the compatibility and flexibility of the device.

4. BRIEF DESCRIPTION OF ACCOMPANY DRAWINGS

In order to illustrate the preferred embodiment of the invention or the technical scheme more clearly, the technical scheme of the preferred embodiment or the FIG.s required by the prior art is further described briefly. Obviously, only partial embodiments of the invention are shown and the actual structure is not limited thereto. It is to be understood by those skilled in the art that other drawings can be obtained based on the drawings of the invention with non-creative labor.

FIG. 1 shows the overall schematic diagram of the invention;

FIG. 2 shows the first exploded view of the invention;

FIG. 3 shows the second exploded view of the invention;

FIG. 4 shows the first schematic diagram of the base component of the invention;

FIG. 5 shows the second structural diagram of the base component of the invention;

FIG. 6 shows the sectional diagram of the invention;

FIG. 7 shows the structural diagram of the air outlet end of base component of the invention;

As shown in the accompanying drawings:

1 atomizing cup, 2 housing, 3 cover plate, 4 control button, 5 base, 6 buckle, 7 rotating buckle groove, 8 atomizing hood, 11 adapter, 12 threaded connection post, 13 battery, 14 bracket, 15 PCBA panel, 16 air pump, 17 atomizer, 18 host threaded head, 19 mouth piece, 20 atomizing storage chamber, 81 air outlet nozzles, 171 atomizing outlet, 21 atomizing docking port, 22 exhaust output port.

5. SPECIFIC EMBODIMENT OF THE INVENTION

All features disclosed in this specification, or all steps in a method or process disclosed, may be combined in any manner except for mutually exclusive features and/or steps.

Any of the features disclosed in this specification (including any appended claims, abstract, and accompanying drawings), unless specifically recited, may be replaced by other equivalent or alternative features having similar purposes. That is, unless specifically recited, each feature is but one example of a series of equivalent or similar features.

As shown from FIG. 1 to FIG. 5, the invention discloses a handheld time-delay inhalation atomizing cup, comprising a base component; an electrical control component and an air pump 16 are mounted in said base component; an atomizer 17 is arranged at one end of said base component;

an atomizing cup 1, detachably mounted on said base component, which internally forms an atomizing storage chamber for storing the smoke produced by the atomizer 17, and one end of the atomizing cup forms the smoking port;

The output end of said air pump 16 is connected with the airway of said atomizer, and the output end of said atomizer is connected with said atomizing storage chamber, and the smoke produced by the atomizer 17 are sent into the atomizing storage chamber via said air pump 16 for storage.

In the embodiment, said electrical control component comprises a battery 13, a PCBA board 15, and a charging panel, wherein said PCBA board 15 connects the battery 13 and the charging panel, said atomizer 17 and the air pump 16 are both connected to the PCBA board 15 and are controlled as well as powered through said PCBA board 15, and said battery 13 is charged through the charging panel.

As shown from FIG. 3 to FIG. 5, said base component includes a base 5, a housing 2 and a bracket 14, said housing 2 is sleeved on the outside of the base 5, said bracket 14 is mounted in said base 5, and said electrical control component is mounted in said base 5.

As shown in FIG. 3, the bottom of said atomizer 17 is provided with an adapter 11, said atomizer 17 is assembled with said adapter 11 via screwed connection, and the bottom of said adapter 11 is provided with a threaded connection post 12, and said threaded connection post 12 is in threaded connection with said host threaded head.

As shown in FIG. 5, in said atomizing docking port 21 inside the base component is mounted with a host threaded head 18; said host threaded head 18 is fixedly connected to the bracket 14, and the atomizer 17 is connected to the host threaded head 18 through the adapter; so the atomizer 17 can be disassembled and assembled; and because of the setting of the adapter 11, it can be matched with different atomizers 17 by replacing different adapters 11, so as to realize generalization, and the model of the adapter can be chosen to be different, but the connecting end with the atomizer 17 are all matched

As shown in FIG. 7, in said atomizing docking port is also provided with an exhaust output port 22, wherein the input end of said exhaust output port 22 and the outlet end of said air pump are connected via silicone hose, and the output end of said exhaust output port 22 is connected to the atomizing docking port 21; the bottom of said adapter 11 is provided with an air intake docking channel, wherein one end of said air intake docking channel is connected to the atomizing docking port 21, and the other end thereof is connected to the atomizer fitted in the adapter; when working, the air pump is turned on, the air pump generates gas, and the gas is discharged through the silicone hose from the exhaust output port into the atomizing docking port 21, and because the adapter seals the atomizing docking port 21 after being installed inside the host threaded head, the gas ejected from the air pump passes through the air intake docking channel at the bottom of the adapter into the bottom of the atomizer, which in turn discharges the smoke generated by the atomizer upwardly and out of the atomizing outlet 171 into the atomizing hood, and ultimately into the atomizing storage chamber.

Wherein the top of said atomizer 17 is mounted with the atomizing hood, and the atomizing hood 8 is detachably sleeved on the top of the atomizer 17; when filling cigarette liquid and replacing the atomizer 17, the atomizing hood can be manually removed and then operate.

As shown in FIG. 2 and FIG. 3, a rotating buckle groove 7 is provided on the inner circle of the bottom of said atomizing cup 1, and the corresponding buckle 6 is provided on the top outer side of said base component; said atomizing cup 1 is rotatably assembled with said base component by means of the buckle 6 and rotating buckle groove 7; installation is realized by simply positioning and then rotating between the atomizing cup 1 and the base 5 component, and removal is realized by reversely rotating and separating.

Wherein, said PCBA board 15 is provided with a display screen, a cover plate 3 is mounted outside the display screen, and a plurality of control buttons 4 are also provided on said PCBA board 15; in order to increase the sealing of the assembly between the atomizing cup 1 and the base 5, in this embodiment, the atomizing cup 1 and the control buttons 4 may include an on/off button, a mode adjustment button, a gear adjustment button, etc.

An O-shaped sealing ring is also mounted between the base components.

Wherein, a plurality of air outlet nozzles are provided on the atomizing hood 8, and the output end of said atomizer is provided with an atomizing outlet 171 for atomizing, and said atomizing outlet 171 communicates with the atomizing hood 8, and the smoke ejected from the atomizing outlet 171 passes through the plurality of air outlet nozzles 81 and enters into the atomizing storage chamber 20 for storage; when the atomizer 17 works, the smoke runs out of the atomizing outlet 171 of the atomizer 17, enters into the atomizing hood 8, and is discharged from a plurality of air outlet nozzles 81 into the atomizing storage chamber 20, the air outlet nozzles 81 being in communication with the inside of the atomizing hood 8.

In order to make the smoke ejected from the air outlet nozzles 81 can be stored from the bottom of the atomizing storage chamber 20, in the embodiment, as shown in FIG. 2 and FIG. 6, the output ends of the plurality of air outlet nozzles 81 are directed toward the bottom of the atomizing storage chamber 20, and the smoke ejected from the air outlet nozzles 81 is stored from the bottom of the atomizing storage chamber 20 and gradually piled upward; therefore, when working, a sufficient amount of smoke is firstly stored in the atomizing storage chamber 20, and then smoking from the position of the smoking port of the atomizing cup, which can be used directly to inhale the smoke, or a mouthpiece 19 can be installed at the smoking port of the atomizing cup, as shown in FIG. 1 and FIG. 2, using the mouthpiece to inhale the stored smoke is sufficient.

The foregoing is only a specific embodiment of the invention, but the protection scope of the invention is not limited thereto, and any changes or substitutions without creative labor shall be covered by the protection scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope limited by the claims.