CN213272692U - Molecular sieve oxygen-making lighter - Google Patents

Abstract

The utility model discloses a molecular sieve oxygen-making lighter, which comprises a casing, wherein an electronic ignition device is arranged at the top of the casing; the electronic ignition device comprises a shell, an oxygen generation molecular sieve tower, a miniature air pump and an air pump motor, wherein an electric cavity and an oxygen generation cavity are arranged inside the shell, the oxygen generation cavity is internally provided with the miniature oxygen generation molecular sieve tower, the miniature air pump and the air pump motor connected with the miniature air pump, an air inlet of the miniature oxygen generation molecular sieve tower is connected with an air outlet of the miniature air pump, an air outlet of the miniature oxygen generation molecular sieve tower is connected with an air injection pipe through a connecting hose, and an air outlet end of the air injection pipe extends to the outside of; and a battery for supplying power to the air pump motor and the electronic ignition device is arranged in the electrical cavity. The utility model discloses a miniature system oxygen molecular sieve tower system oxygen, its simple structure, small, the installation of being convenient for carries out combustion-supportingly through providing oxygen for the electron device of striking sparks, the efficiency of lighting of improvement lighter that can be very big, safe in utilization moreover.

Description

Molecular sieve oxygen-making lighter

Technical Field

The utility model relates to a lighter field especially relates to a molecular sieve system oxygen lighter.

Background

Conventional electronic lighters, including arc ignition or heating wire ignition, have a low ignition efficiency due to the absence of fuel. In addition, there are some unsafe factors in the storage and filling of high-pressure oxygen, and the high-pressure oxygen pressure reducing device has a complex structure and a large volume, and is not easy to be applied to a small mobile device such as a lighter, so that it is urgently needed to provide an electronic lighter which can provide oxygen for arc ignition or heating wire ignition and has high ignition efficiency.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a molecular sieve system oxygen lighter has the advantage of lighting efficiently, safe in utilization.

The technical scheme of the utility model is that:

a molecular sieve oxygen-making lighter comprises a casing and a cover, wherein an electronic ignition device is arranged at the top of the casing, a button switch for controlling the electronic ignition device to start and stop is arranged on the side wall of the casing, and a button cover is arranged on the button switch; the electronic ignition device comprises a shell, an oxygen generation molecular sieve tower, a miniature air pump and an air pump motor, wherein an electric cavity and an oxygen generation cavity are arranged inside the shell, the oxygen generation cavity is internally provided with the miniature oxygen generation molecular sieve tower, the miniature air pump and the air pump motor connected with the miniature air pump, an air inlet of the miniature oxygen generation molecular sieve tower is connected with an air outlet of the miniature air pump, an air outlet of the miniature oxygen generation molecular sieve tower is connected with an air injection pipe through a connecting hose, and an air outlet end of the air injection pipe extends to the outside of; the electric cavity is internally provided with a battery for supplying power to the air pump motor and the electronic ignition device, and is also provided with a high-voltage transformer and a control circuit board.

The working principle of the technical scheme is as follows:

the utility model discloses a single tower system oxygen of miniature system oxygen molecular sieve tower, when pressing button switch promptly, control circuit board output voltage to miniature air pump, miniature air pump output compressed air begins to adsorb the system oxygen to miniature system oxygen molecular sieve tower, and control circuit board output control signal (this control signal can postpone 1S-3S for the control signal of miniature air pump, makes system oxygen work begin in advance to do benefit to the stable output of oxygen) produces electric arc or heating wire radiation for the electron ignition device and generates heat, accomplishes some cigarette. After the lighter stops working, the miniature oxygen-making molecular sieve tower is in a normal pressure state and begins to desorb, and in the relatively long time before the lighter is ignited next time, the miniature oxygen-making molecular sieve tower is communicated with the atmosphere, so that the natural discharge of waste gas can be completed.

The utility model discloses a miniature system oxygen molecular sieve tower system oxygen, its simple structure, small, the installation of being convenient for carries out combustion-supportingly through providing oxygen for the electron lighter device, and the efficiency of lighting of improvement lighter that can be very big has solved traditional electronic lighter and has lighted inefficiency, the poor technical problem of safety in utilization.

In a further technical scheme, the electronic ignition device is an arc ignition device or a heating wire ignition device, and the arc ignition device comprises an electrode and an electrode holder for fixing the electrode; the heating wire ignition device comprises a heating wire and a heating wire fixing seat.

In a further technical scheme, a pressure stabilizing valve is arranged between a gas inlet of the miniature oxygen-making molecular sieve tower and a gas outlet of the miniature air pump, so that a gas source with stable gas flow can be obtained by the miniature oxygen-making molecular sieve tower, and the working process of the lighter is more stable.

In a further technical scheme, a speed regulating switch connected with the air pump motor is arranged on the casing, so that the rotating speed of the air pump motor can be conveniently regulated, the oxygen production amount of the miniature oxygen production molecular sieve tower can be adjusted, and the adjustment of the air output amount of the air outlet is realized.

In a further technical scheme, a USB charging port connected with the battery is arranged on the shell, so that the battery is conveniently charged.

In a further technical scheme, the top of casing still is equipped with chain switch, and this chain switch establishes ties with button switch, and chain switch connects between battery and button switch, and when the lid closes the back, chain switch is in the closed condition, and the electron ignition device can't be opened, prevents that the lid from closing the back, and the mistake is pressed button switch and is leaded to the condition emergence that the electron ignition device struck sparks.

The utility model has the advantages that:

1. the utility model discloses a miniature system oxygen molecular sieve tower system oxygen, its simple structure, small, the installation of being convenient for carries out combustion-supportingly through providing oxygen for the electron device of striking sparks, the efficiency of lighting of improvement lighter that can be very big, safe in utilization moreover.

2. A pressure stabilizing valve is arranged between a gas inlet of the miniature oxygen-making molecular sieve tower and a gas outlet of the miniature gas pump, so that a gas source with stable gas flow can be obtained by the miniature oxygen-making molecular sieve tower, and the working process of the lighter is more stable.

3. The casing is provided with a speed regulating switch connected with the air pump motor, so that the rotating speed of the air pump motor can be conveniently regulated, the oxygen production amount of the miniature oxygen production molecular sieve tower can be regulated, and the regulation of the air outlet amount of the air outlet is realized.

4. The shell is provided with a USB charging port connected with the battery, so that the battery is conveniently charged.

5. The top of casing sets up chain switch, and when the cover closes the back, chain switch is in the closed condition, and the electron ignition device can't be opened, prevents that the cover from closing the back, and the mistake is pressed button switch and is leaded to the condition emergence that the electron ignition device struck sparks.

Drawings

Fig. 1 is a schematic structural view of a molecular sieve oxygen-generating electric arc lighter according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the molecular sieve oxygen-generating electric heating wire lighter according to the embodiment of the present invention;

fig. 3 is a schematic structural view of an air pump type electric arc lighter according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an air pump type electric heating wire lighter according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a dual arc ignition electronic ignition device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an electronic ignition device for three-wire six-arc ignition according to an embodiment of the present invention.

Description of reference numerals:

1. a USB charging port; 2. a battery; 3. a control circuit board; 4. a high voltage transformer; 5. a housing; 6. a machine cover; 7. a chain switch; 8. an electrode holder; 9. an electrode; 10. a gas ejector tube; 11. a square nut; 12. a connecting hose; 13. a push button switch; 14. a button cover; 15. a gas outlet; 16. a micro oxygen-making molecular sieve tower; 17. a pressure maintaining valve; 18. a micro air pump; 19. a speed regulating switch; 20. a heating wire fixing seat; 21. an electric heating wire; 22. an air pump motor; 23. an electrode core; 24. and (4) an arc.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Example 1:

as shown in fig. 1, a molecular sieve oxygen-generating electric arc lighter comprises a casing 5 and a cover 6, wherein an electronic ignition device is arranged at the top of the casing 5, the electronic ignition device is an electric arc ignition device and comprises an electrode 9 and an electrode seat 8 for fixing the electrode 9, the electrode 9 is arranged on an electrode magnetic core 23, a button switch 13 for controlling the electronic ignition device to start and stop is arranged on the side wall of the casing 5, and a button cover 14 is arranged on the button switch 13; an electric chamber and an oxygen generation chamber are arranged inside the machine shell 5, a miniature oxygen generation molecular sieve tower 16, a miniature air pump 18 and an air pump motor 22 connected with the miniature air pump 18 are arranged in the oxygen generation chamber, an air inlet of the miniature oxygen generation molecular sieve tower 16 is connected with an air outlet of the miniature air pump 18, an air outlet 15 of the miniature oxygen generation molecular sieve tower 16 is connected with an air injection pipe 10 through a connecting hose 12, an air outlet end of the air injection pipe 10 extends to the outside of the machine shell 5 and is opposite to the electronic ignition device, and the air injection pipe 10 is fixed by a square nut 11; the electric cavity is internally provided with a battery 2 for supplying power to an air pump motor 22 and an electronic ignition device, and is also provided with a high-voltage transformer 4 and a control circuit board 3.

The working principle of the technical scheme is as follows:

the utility model discloses a 16 single towers oxygenerations in miniature system oxygen molecular sieve tower, when pressing button switch 13 promptly, 3 output voltage of control circuit board to miniature air pump 18 (this voltage is adjusted by high voltage transformer 4), miniature air pump 18 output compressed air begins to adsorb the system oxygen to miniature system oxygen molecular sieve tower 16, 3 output control signal of control circuit board simultaneously (this control signal can postpone 1S-3S for the control signal of miniature air pump, make system oxygen work begin in advance, in order to do benefit to the stable output of oxygen) produce electric arc 24 or heating wire 21 radiation for the electron ignition device and generate heat, accomplish some cigarette. After the lighter stops working, the miniature oxygen-making molecular sieve tower 16 is in a normal pressure state and starts to desorb, and in the relatively long time before the lighter is ignited next time, the miniature oxygen-making molecular sieve tower 16 is communicated with the atmosphere, so that the natural discharge of waste gas can be completed.

The utility model discloses a miniature system oxygen molecular sieve tower 16 carries out system oxygen, its simple structure, small, and the installation of being convenient for carries out combustion-supporting through providing oxygen for the electron lighter device, and the efficiency of lighting of improvement lighter that can be very big has solved traditional electronic lighter and has lighted inefficiency, the poor technical problem of safety in utilization.

A pressure stabilizing valve 17 is arranged between the gas inlet of the miniature oxygen-making molecular sieve tower 16 and the gas outlet of the miniature air pump 18, so that the miniature oxygen-making molecular sieve tower 16 can obtain a gas source with stable gas flow, and the working process of the lighter is more stable.

The casing 5 is provided with a speed regulating switch 19 connected with the air pump motor 22, which facilitates the adjustment of the rotation speed of the air pump motor 22, so that the oxygen production of the miniature oxygen production molecular sieve tower 16 is adjustable, and the adjustment of the air output of the air outlet is realized.

The casing 5 is provided with a USB charging port 1 connected with the battery 2, so that the battery 2 is conveniently charged.

The top of casing 5 still is equipped with interlock switch 7, and this interlock switch 7 establishes ties with button switch 13, and interlock switch 7 is connected between battery 2 and button switch 13, closes the back when lid 6 closes, and interlock switch 7 is in the closed condition, and the electron ignition device can't be opened, prevents that lid 6 from closing the back, and the condition that the mistake pressed button switch 13 and lead to the electron ignition device to strike sparks takes place.

In the arc ignition device used in the present embodiment, a pair of pairs of electrodes is provided to perform single arc ignition.

As shown in fig. 5-6, the number of pairs of electrodes in the arc ignition device used in the present embodiment may be two, three or more pairs, so as to form double arc ignition, three-wire six arc ignition or multiple arc ignition, respectively.

Example 2:

as shown in fig. 2, a molecular sieve oxygen-generating electric heating wire lighter, in this embodiment, the electronic ignition device is an electric heating wire 21 ignition device, which includes an electric heating wire 21 and an electric heating wire fixing base 20, and the rest of the structure is the same as that of embodiment 1.

Example 3:

as shown in fig. 3, in this embodiment, only the micro air pump 18 and the air pump motor 22 connected to the micro air pump 18 are disposed in the oxygen producing chamber, and the micro air pump 18 provides sufficient air for the electronic ignition device to improve the ignition efficiency of the lighter, and the rest of the structure is the same as that of embodiment 1.

Example 4:

as shown in fig. 4, the present embodiment is different from embodiment 3 in that an electric ignition device is replaced with an electric arc ignition device by an ignition device of a heating wire 21, and the rest of the structure is the same as embodiment 3.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not 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.

Claims (5)

1. A molecular sieve oxygen-making lighter comprises a casing, and is characterized in that an electronic ignition device is arranged at the top of the casing; the electronic ignition device comprises a shell, an oxygen generation molecular sieve tower, a miniature air pump and an air pump motor, wherein an electric cavity and an oxygen generation cavity are arranged inside the shell, the oxygen generation cavity is internally provided with the miniature oxygen generation molecular sieve tower, the miniature air pump and the air pump motor connected with the miniature air pump, an air inlet of the miniature oxygen generation molecular sieve tower is connected with an air outlet of the miniature air pump, an air outlet of the miniature oxygen generation molecular sieve tower is connected with an air injection pipe through a connecting hose, and an air outlet end of the air injection pipe extends to the outside of; and a battery for supplying power to the air pump motor and the electronic ignition device is arranged in the electrical cavity.

2. The molecular sieve oxygen-generating lighter according to claim 1, wherein the electronic ignition device is an arc ignition device or a heating wire ignition device.

3. The molecular sieve oxygen-generating lighter according to claim 1, wherein a pressure-stabilizing valve is provided between the gas inlet of the miniature oxygen-generating molecular sieve tower and the gas outlet of the miniature gas pump.

4. The molecular sieve oxygen-generating lighter according to claim 1, wherein a speed regulating switch connected with the air pump motor is provided on the housing.

5. The molecular sieve oxygen-generating lighter according to claim 1, wherein the casing is provided with a USB charging port connected to a battery.

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