CN218731620U - Battery device and atomization system with same - Google Patents

Abstract

The embodiment of the utility model discloses a battery device and have this battery device's atomizing system, battery device includes casing, battery, power positive pole, power negative pole, first signal utmost point and second signal utmost point, and the battery is acceptd in the casing, and the casing includes the load spliced eye, and the load spliced eye is used for inserting the atomizer, and power positive pole, power negative pole, first signal utmost point and second signal utmost point all locate in the load spliced eye, and power positive pole, power negative pole, first signal utmost point and second signal utmost point are insulated from each other; the inside wall fixed connection of power negative pole and load jack, the top of power negative pole is equipped with first jack, and the bottom of power negative pole is equipped with the second jack, and first jack and second jack intercommunication just are coaxial, and the first signal utmost point is pegged graft in the second jack, and the positive grafting of power is in the first signal utmost point, and the top of power negative pole is equipped with the third jack, and the second signal utmost point is pegged graft in the third jack. The battery device can meet different user requirements.

Description

Battery device and atomization system with same

Technical Field

The utility model relates to an atomizer field especially relates to a battery device and have this battery device's atomizing system.

Background

At present, a battery device of the atomizer can only be matched with one type of atomizer, and different requirements cannot be met. For example, the battery devices adapted to the paste burning atomizer, the grass burning atomizer and the oil burning atomizer have the same structure, and if the user needs to use different types of atomizers, the battery devices are respectively matched, which is expensive.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the embodiment of the utility model provides a battery device and have this battery device's atomizing system.

A first aspect of the embodiments of the present invention provides a battery device, including a housing, a battery, a power source anode, a power source cathode, a first signal electrode and a second signal electrode, wherein the battery is accommodated in the housing, the housing includes a load insertion hole, the load insertion hole is used for inserting an atomizer, the power source anode, the power source cathode, the first signal electrode and the second signal electrode are all disposed in the load insertion hole, and the power source anode, the power source cathode, the first signal electrode and the second signal electrode are insulated from each other;

the power supply cathode is fixedly connected with the inner side wall of the load plug hole, a first plug hole is formed in the top of the power supply cathode, a second plug hole is formed in the bottom of the power supply cathode, the first plug hole is communicated with and coaxial with the second plug hole, the first signal electrode is plugged in the second plug hole, the power supply anode is plugged in the first signal electrode, a third plug hole is formed in the top of the power supply cathode, and the second signal electrode is plugged in the third plug hole;

when the load plug hole is plugged with a first atomizer, the anode of the first atomizer is plugged in the first plug hole, so that the anode of the first atomizer is electrically connected with the cathode of the power supply, the cathode of the first atomizer is abutted against the anode of the power supply, the cathode of the first atomizer is in short-circuit connection with the first signal electrode, the first atomizer and the second signal electrode are in open-circuit arrangement, and the battery device is in a first working mode;

when the load plug hole is plugged with a second atomizer, the anode of the second atomizer is plugged in the first plug hole, so that the anode of the second atomizer is electrically connected with the cathode of the power supply, the anode of the second atomizer is connected with the first signal electrode through the thermistor of the second atomizer, the cathode of the second atomizer is connected with the anode of the power supply, the second atomizer and the second signal electrode are arranged in an open circuit mode, and the battery device is in a second working mode;

when the load plug hole is plugged with a third atomizer, the anode of the third atomizer is plugged in the first plug hole, so that the anode of the third atomizer is connected with the cathode of the power supply, the cathode of the third atomizer is connected with the anode of the power supply, the cathode of the third atomizer is in short-circuit connection with the second signal electrode, the third atomizer and the first signal electrode are in open-circuit arrangement, and the battery device is in a third working mode;

under different working modes, the battery device provides different power supply voltages, and the first atomizer, the second atomizer and the third atomizer are respectively used for storing atomized materials in different states.

Optionally, the first insertion hole is a threaded hole.

Optionally, a first insulating member is arranged between the first signal pole and the power supply cathode, a second insulating member is arranged between the first signal pole and the power supply anode, and a third insulating member is arranged between the second signal pole and the inner side wall of the third inserting hole.

Optionally, the power negative electrode is provided with a first step portion, the first signal electrode is provided with a second step portion, the first insulating member is L-shaped, the first insulating member includes a first inner bending portion and a first outer bending portion, the first inner bending portion abuts against the first step portion, and the first outer bending portion abuts against the second step portion.

Optionally, the first insulating member, the second insulating member, and the third insulating member are all rubber members.

Optionally, the heights of the first signal pole and the power supply positive pole are both lower than the power supply negative pole, and the heights of the first signal pole and the power supply positive pole are equal.

Optionally, the top end of the second signal electrode protrudes from the top end of the power supply negative electrode.

Optionally, the second signal electrode is a pogo pin.

A second aspect of embodiments of the present invention provides an atomization system, comprising the battery device, the first atomizer, the second atomizer, and the third atomizer of any one of the first aspects;

at the same time, the battery device is capable of cooperating with one of the first atomizer, the second atomizer, and the third atomizer.

The embodiment of the utility model provides an among the technical scheme, through setting up the positive pole of power, power negative pole, the first signal utmost point and the second signal utmost point, can match the atomizer of different grade type, satisfy different user demands, save cost and integrated level height.

Drawings

Fig. 1 is a schematic structural diagram of a battery device according to an embodiment of the present invention;

FIG. 2 is an enlarged partial schematic view of FIG. 1;

fig. 3 is a schematic view of a connection state between the battery device and the first atomizer according to the present invention;

fig. 4 is an enlarged schematic view of the junction between the battery device and the first atomizer according to the present invention;

fig. 5 is a schematic view of the connection state between the battery device and the second atomizer according to the present invention;

fig. 6 is an enlarged schematic view of the junction between the battery device and the second atomizer according to the present invention;

fig. 7 is a schematic view of a connection state between the battery device and the third atomizer according to the present invention;

fig. 8 is an enlarged schematic view of the junction between the battery device and the third atomizer according to the present invention.

Reference numerals:

100. a battery device; 1. a housing; 11. a load socket; 2. a battery; 3. a power supply cathode; 31. a first plug hole; 32. a second plug hole; 4. a power supply positive electrode; 5. a first signal pole; 6. a second signal pole; 7. a first insulating member; 8. a second insulating member; 9. a third insulating member; 10. pressing a key; 20. a shift key; 30. an LED screen; 40. a kettle; 200. a first atomizer; 210. a positive electrode of the first atomizer; 220. a negative electrode of the first atomizer; 300. a second atomizer; 310. a positive electrode of the second atomizer; 320. a negative electrode of the second atomizer; 400. a third atomizer; 410. a positive electrode of a third atomizer; 420. a negative electrode of a third atomizer; 430. and a conductive magnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that the following embodiments may be combined without conflict.

Referring to fig. 1 to 8, the present invention provides a battery device 100, and the battery device 100 may include a housing 1, a battery 2, a power negative electrode 3, a power positive electrode 4, a first signal electrode 5, and a second signal electrode 6. The battery 2 is accommodated in the housing 1, the housing 1 includes a load plug hole 11, the load plug hole 11 is used for inserting the atomizer, the power positive electrode 4, the power negative electrode 3, the first signal electrode 5 and the second signal electrode 6 are all arranged in the load plug hole 11, and the power positive electrode 4, the power negative electrode 3, the first signal electrode 5 and the second signal electrode 6 are mutually insulated.

In the embodiment of the present invention, the power cathode 3 is fixedly connected to the inner sidewall of the load insertion hole 11, the top of the power cathode 3 is provided with the first insertion hole 31, the bottom of the power cathode 3 is provided with the second insertion hole 32, the first insertion hole 31 is communicated with the second insertion hole 32 and is coaxial, the first signal electrode 5 is inserted into the second insertion hole 32, and the power anode 4 is inserted into the first signal electrode 5. The top of the power supply cathode 3 is also provided with a third plug hole (not marked), and the second signal electrode 6 is plugged in the third plug hole. Wherein the third mating hole is located at one side of the first mating hole 31.

Referring to fig. 3 and 4, when the load insertion hole 11 is inserted into the first atomizer 200, the positive electrode 210 of the first atomizer is inserted into the first insertion hole 31, so that the positive electrode 210 of the first atomizer is electrically connected to the negative electrode 3 of the power supply. The negative electrode 220 of the first atomizer abuts against the positive power supply electrode 4, and the negative electrode 220 of the first atomizer is electrically connected to the positive power supply electrode 4. The negative electrode 220 of the first atomizer is short-circuited with the first signal electrode 5, the first atomizer 200 is open-circuited with the second signal electrode 6, and the battery device 100 is in the first operating mode.

Referring to fig. 5 and 6, when the load insertion hole 11 is inserted into the second atomizer 300, the positive electrode 310 of the second atomizer is inserted into the first insertion hole 31, so that the positive electrode 310 of the second atomizer is electrically connected to the negative electrode 3 of the power supply. The positive pole 310 of the second atomizer is connected to the first signal pole 5 through the thermistor of the second atomizer 300, the negative pole 320 of the second atomizer is connected to the positive pole 4 of the power supply, the second atomizer 300 and the second signal pole 6 are in an open circuit configuration, and the battery device 100 is in the second operating mode.

Referring to fig. 7 and 8, when the load socket 11 is plugged with the third atomizer 400, the positive electrode 410 of the third atomizer is plugged in the first socket 31, so that the positive electrode 410 of the third atomizer is connected with the negative electrode 3 of the power supply, the negative electrode 420 of the third atomizer is connected with the positive electrode 4 of the power supply, the negative electrode 420 of the third atomizer is connected with the second signal electrode 6 in a short circuit manner, the third atomizer 400 is in an open circuit configuration with the first signal electrode 5, and the battery device 100 is in the third operating mode.

In different operating modes, the battery device 100 provides different power supply voltages, and the first atomizer 200, the second atomizer 300, and the third atomizer 400 are respectively used for storing atomized materials in different states. For example, the first atomizer 200 is a paste burning atomizer for storing paste-like atomized material. The second atomizer 300 is a grass atomizer for storing grass-like atomized material. The third atomizer 400 is a fuel-fired atomizer for storing atomized material in an oil form.

The utility model discloses a battery device 100, through setting up anodal 4 of power, power negative pole 3, first signal utmost point 5 and second signal utmost point 6, can match the atomizer of different grade type, satisfy different user demands, save cost and the integrated level is high.

Note that, at the same time, the battery device 100 can be connected to one of the first nebulizer 200, the second nebulizer 300, and the third nebulizer 400.

The battery device 100 of the embodiment of the invention can be matched with three different types of atomizer devices, and different output modes can be matched according to the different types of atomizers.

Referring to fig. 3 to 4, the paste burning atomizer is connected to the battery device 100 by a screw, and the negative electrode of the paste burning atomizer is short-circuited to the first signal electrode 5. The connection relation between the paste burning atomizer and the second signal electrode 6 does not exist, namely the paste burning atomizer and the second signal electrode 6 are arranged in an open circuit mode. When the load jack 11 is connected to the paste burning atomizer, only the power supply anode 4 and the power supply cathode 3 are electrically connected to the paste burning atomizer, and the battery device 100 judges that the atomizer connected to the jack is the paste burning atomizer, and then outputs a power supply matched with the paste burning atomizer to the paste burning atomizer.

Referring to fig. 5 and 6, the grass atomizer is connected with the battery device 100 through threads, and the thermistor in the grass atomizer is connected with the first signal electrode 5 and the power supply cathode 3. The grass burning atomizer and the second signal electrode 6 are not connected, namely the grass burning atomizer and the second signal electrode 6 are arranged in an open circuit mode. When the load jack 11 is connected to the grass burning atomizer, not only the power supply anode 4 and the power supply cathode 3 are electrically connected with the grass burning atomizer, but also the first signal electrode 5 is electrically connected with the grass burning atomizer. If the battery device 100 is judged to be the grass burning atomizer, the power supply matched with the grass burning atomizer is output to the grass burning atomizer.

Referring to fig. 7 and 8, the oil-burning atomizer is connected to the battery device 100 through magnetic attraction, and the oil-burning atomizer is not connected to the first signal electrode 5, that is, the oil-burning atomizer is open-circuited with the first signal electrode 5. When the load jack 11 is connected to the oil atomizer, not only the power supply anode 4 and the power supply cathode 3 are electrically connected to the oil atomizer, but also the second signal electrode 6 is short-circuited to the oil atomizer with the power supply cathode 3, specifically, referring to fig. 8, the power supply cathode 3 and the second signal electrode 6 are short-circuited by the conductive magnet 430. The battery device 100 determines that the fuel-fired atomizer is available, and outputs a power supply matched with the fuel-fired atomizer to the fuel-fired atomizer.

The first insertion hole 31 may be a threaded hole or a non-threaded hole. For example, the first inserting hole 31 is a threaded hole, the positive electrode 210 of the first atomizer, the positive electrode 310 of the second atomizer and the positive electrode 410 of the third atomizer all include external threads, and the external threads are matched with the internal threads of the threaded hole to realize connection between the positive electrode of the corresponding atomizer and the first inserting hole 31, so that the corresponding atomized positive electrode is electrically connected with the power supply negative electrode 3.

In order to realize the insulation between the power positive electrode 4, the power negative electrode 3, the first signal electrode 5 and the second signal electrode 6, referring to fig. 2, a first insulating member 7 is arranged between the first signal electrode 5 and the power negative electrode 3, and a second insulating member 8 is arranged between the first signal electrode 5 and the power positive electrode 4. A third insulating part 9 is arranged between the second signal electrode 6 and the inner side wall of the third inserting hole, and specifically, the third insulating part 9 wraps the second signal electrode 6 to realize insulation between the second signal electrode 6 and the power supply cathode 3.

The power negative electrode 3 can be provided with a first step part, the first signal electrode 5 can be provided with a second step part, the first insulating member 7 is in an L shape, the first insulating member 7 comprises a first inner bending part and a first outer bending part, the first inner bending part is abutted against the first step part, and the first outer bending part is abutted against the second step part. By such a design, insulation between the first signal electrode 5 and the power supply cathode 3 and insulation between the first signal electrode 5 and the power supply anode 4 are ensured.

In some embodiments, the first insulator 7, the second insulator 8, and the third insulator 9 are all rubber. It should be understood that the first insulating member 7, the second insulating member 8, and the third insulating member 9 may be insulating members made of other materials.

Referring to fig. 2, the heights of the first signal pole 5 and the power supply positive pole 4 are lower than the power supply negative pole 3, and the heights of the first signal pole 5 and the power supply positive pole 4 are equal. By such a design, the electrical connection between the battery device 100 and the atomizer is easier to realize.

Referring back to fig. 2, the top end of the second signal electrode 6 protrudes beyond the top end of the power supply cathode 3, so that the electrical connection between the battery device 100 and the third atomizer 400 is easier to achieve.

The second signal electrode 6 may be a pogo pin or a sheet structure. The second signal electrode 6 of this embodiment is a pogo pin, which is easy to connect.

Referring to fig. 1 and 2, the battery device may further include a button 10, and the button 10 is used to control on and off of the battery device.

Referring again to fig. 1 and 2, the battery device may further include a shift key 20 and an LED screen 30, wherein the LED screen 30 is disposed on an outer surface of the housing, and the shift key 20 covers the LED screen 30. The LED screen 30 can be used to display the operating status of the battery device and the output supply voltage of the battery device. The shift key 20 is operated to adjust the magnitude of the supply voltage output from the battery device.

Referring to fig. 1, the battery device may further include a water bottle 40 for storing water. When the battery device and the atomizer work in a matching way, the generated atomized smoke is output after passing through the kettle 40, so that the humidity in the atomized smoke is improved.

The embodiment of the present invention further provides an atomization system, which includes the battery device 100, the first atomizer 200, the second atomizer 300, and the third atomizer 400 in the above embodiments. At the same time, the battery device 100 can be engaged with one of the first atomizer 200, the second atomizer 300, and the third atomizer 400.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. A battery device is characterized by comprising a shell, a battery, a power supply anode, a power supply cathode, a first signal electrode and a second signal electrode, wherein the battery is contained in the shell, the shell comprises a load plug-in hole, the load plug-in hole is used for being inserted into an atomizer, the power supply anode, the power supply cathode, the first signal electrode and the second signal electrode are all arranged in the load plug-in hole, and the power supply anode, the power supply cathode, the first signal electrode and the second signal electrode are mutually insulated;

the power supply cathode is fixedly connected with the inner side wall of the load plug hole, a first plug hole is formed in the top of the power supply cathode, a second plug hole is formed in the bottom of the power supply cathode, the first plug hole is communicated with and coaxial with the second plug hole, the first signal electrode is plugged in the second plug hole, the power supply anode is plugged in the first signal electrode, a third plug hole is further formed in the top of the power supply cathode, and the second signal electrode is plugged in the third plug hole;

when the load plug hole is plugged with a first atomizer, the anode of the first atomizer is plugged in the first plug hole, so that the anode of the first atomizer is electrically connected with the cathode of the power supply, the cathode of the first atomizer is abutted against the anode of the power supply, the cathode of the first atomizer is in short-circuit connection with the first signal electrode, the first atomizer and the second signal electrode are in open-circuit arrangement, and the battery device is in a first working mode;

when the load plug hole is plugged with a second atomizer, the anode of the second atomizer is plugged in the first plug hole, so that the anode of the second atomizer is electrically connected with the cathode of the power supply, the anode of the second atomizer is connected with the first signal electrode through the thermistor of the second atomizer, the cathode of the second atomizer is connected with the anode of the power supply, the second atomizer and the second signal electrode are arranged in an open circuit mode, and the battery device is in a second working mode;

when the load plug hole is plugged with a third atomizer, the anode of the third atomizer is plugged in the first plug hole, so that the anode of the third atomizer is connected with the cathode of the power supply, the cathode of the third atomizer is connected with the anode of the power supply, the cathode of the third atomizer is in short-circuit connection with the second signal electrode, the third atomizer and the first signal electrode are in open-circuit arrangement, and the battery device is in a third working mode;

under different working modes, the battery device provides different power supply voltages, and the first atomizer, the second atomizer and the third atomizer are respectively used for storing atomized materials in different states.

2. The battery device of claim 1, wherein the first mating hole is a threaded hole.

3. The battery device of claim 1, wherein a first insulator is disposed between the first signal electrode and the power supply cathode, a second insulator is disposed between the first signal electrode and the power supply anode, and a third insulator is disposed between the second signal electrode and an inner sidewall of the third insertion hole.

4. The battery device according to claim 3, wherein the power negative electrode is provided with a first step portion, the first signal electrode is provided with a second step portion, the first insulating member is L-shaped, the first insulating member comprises a first inner bending portion and a first outer bending portion, the first inner bending portion abuts against the first step portion, and the first outer bending portion abuts against the second step portion.

5. The battery device according to claim 3, wherein the first insulating member, the second insulating member, and the third insulating member are rubber members.

6. The battery device of claim 1, wherein the first signal pole and the positive power pole are both lower in height than the negative power pole, and wherein the first signal pole and the positive power pole are both equal in height.

7. The battery device of claim 6, wherein the top end of the second signal electrode protrudes from the top end of the negative electrode of the power supply.

8. The battery device of claim 1, wherein the second signal electrode is a pogo pin.

9. A nebulizing system comprising the battery device of any one of claims 1-8, a first nebulizer, a second nebulizer, and a third nebulizer;

at the same time, the battery device is capable of cooperating with one of the first atomizer, the second atomizer, and the third atomizer.

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