CN111165875A - A temperature-controlled high-frequency heating integrated hookah - Google Patents

Abstract

The invention discloses a temperature-controlled high-frequency heating integrated hookah, comprising: a high-frequency heating component (A), a battery component (B), and an electromagnetic induction heating component is arranged in the high-frequency heating component (A), the electromagnetic induction heating The assembly uses the conductor heating sheet (6) to generate an electromagnetic induction effect when the magnetic induction coil (9) is energized to make the conductor heating sheet (6) generate heat, and the heat reaches the ignition point of the tobacco to achieve ignition of the tobacco, and the electromagnetic induction generates heat. The component is also provided with a temperature sensor (11), which can sense temperature changes and play a high temperature protection function; a booster circuit component is arranged in the battery component (B), and the booster circuit component is composed of six or more battery cells (25) The combination of series and parallel can output high voltage to improve heating efficiency.

Description

Integrative shredded tobacco for water pipes of control by temperature change high frequency heating

Technical Field

The invention discloses a temperature-control high-frequency heating integrated hookah.

Background

At present, the conventional hookah heater is ignited by naked fire, the heated tobacco ignited by the design without electromagnetic induction high-frequency heating also has no over-temperature protection function, and a power supply circuit has small voltage, small power and low heat productivity; the heating cartridge has no exhaust and intake structure, and does not meet the related market requirements.

Disclosure of Invention

The invention aims to solve the technical problem of providing a temperature-control high-frequency heating integrated hookah, which is used for solving the technical problems in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a temperature-controlled high-frequency heating integrated hookah, comprising: the high-frequency heating device comprises a high-frequency heating assembly (A) and a battery assembly (B), wherein an electromagnetic induction heating assembly is arranged in the high-frequency heating assembly (A), and is also provided with a temperature sensor (11) which can sense temperature change and plays a role in high-temperature protection; a boosting circuit assembly is arranged in the battery assembly (B), and the boosting circuit assembly is formed by connecting six or more than six electric cores (25) in series and in parallel, can output high voltage and improve heating efficiency.

Preferably, the electromagnetic induction heating assembly includes: the tobacco ignition device comprises a conductor heating sheet (6) and a magnetic induction coil (9), wherein the magnetic induction coil (9) generates an electromagnetic induction effect in a power-on state to enable the conductor heating sheet (6) to generate heat, and the heat reaches an ignition point of tobacco to realize ignition of the tobacco.

Preferably, the electromagnetic induction heating assembly further includes: glass upper cover (5), glass (7), glass lower cover (8), big glass (10), mesochite (12), big glass (10) dress is used for protecting magnetic induction coil (9) in magnetic induction coil (9), conductor heating plate (6) dress is fixed in glass (7), glass (7) dress is used for holding the tobacco in big glass (10), glass upper cover (5) and glass lower cover (8) are covered respectively and are used for covering the tobacco in glass (7) top and bottom, magnetic induction coil (9) dress is fixed and the lead wire runs through in mesochite (12) on mesochite (12), control panel (16) output welding is used for magnetic induction coil (9) circular telegram on magnetic induction coil (9) lead wire.

Preferably, the electromagnetic induction heating assembly further includes: an insulating ring (14), an anode piece (15), a control board (16) and a cathode piece (17), wherein a temperature sensor (11) is arranged in a middle shell (12) and is arranged at the bottom of a magnetic induction coil (9) for inducing the temperature change of a conductor heating sheet (6) in the magnetic induction coil (9) to perform over-temperature protection, the insulating ring (14) is arranged on the middle shell (12) and is used for isolating a positive lead and a negative lead of the temperature sensor (11), the anode piece (15) is arranged in the insulating ring (14) and is used for connecting the positive lead of the temperature sensor (11) and connecting the input positive of the control board (16), the cathode piece (17) is arranged on the periphery of the insulating ring (14) and is used for connecting the negative lead of the temperature sensor (11) and connecting the input negative of the control board (16, the control plate (16) is screwed on the thread of the negative pole piece (17) and fixed in the middle shell (12) for receiving the temperature information of the temperature sensor (11) so as to control the temperature change.

Preferably, the booster circuit assembly further includes: the battery negative pole piece (20), the battery insulating ring (21), the power panel (22), the battery positive pole piece (23), the battery insulating ring (21) is installed and is used for keeping apart battery negative pole piece (20) and battery positive pole piece (23) on power panel (22), battery positive pole piece (23) dress is used for contacting power panel (22) anodal output in battery insulating ring (21), battery negative pole piece (20) dress is used for contacting power panel (22) negative pole output in battery insulating ring (21) periphery, electric core (25) welding is supplied power at power panel (22) input, the voltage that electric core (25) output outputs high voltage after the boost circuit through power panel (22).

Preferably, the electromagnetic induction heating assembly is connected with the boosting circuit assembly, a positive pole piece (15) and a negative pole piece (17) of the electromagnetic induction heating assembly are in contact with a battery positive pole piece (23) and a battery negative pole piece (20) of the boosting circuit assembly for conducting electricity, and high voltage output by a power supply board (22) of the boosting circuit assembly is converted by an inverter circuit and an oscillating circuit of a control board (16) of the electromagnetic induction heating assembly and then transmitted to the magnetic induction coil (9) to enable the conductor heating sheet (6) to generate heat in a high frequency mode.

After the scheme is adopted, the high-frequency heating assembly is internally provided with the electromagnetic induction heating assembly, the electromagnetic induction heating assembly utilizes the electromagnetic induction effect generated by the conductor heating sheet in the state of electrifying in the magnetic induction coil to heat the conductor heating sheet, the heat reaches the ignition point of tobacco and realizes the ignition of the tobacco, and the electromagnetic induction heating assembly is also provided with a temperature inductor which can induce the temperature change and has the high-temperature protection function; the battery component is internally provided with a boosting circuit component, and the boosting circuit component is formed by connecting six or more than six battery cells in series and in parallel and can output high voltage to improve the heating efficiency.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The present invention will be described in detail below with reference to the accompanying drawings so that the above advantages of the present invention will be more apparent. Wherein,

FIG. 1 is an exploded view of a temperature controlled high frequency heating integrated hookah of the present invention;

FIG. 2 is a partial schematic view of the temperature controlled high frequency heating integrated hookah of FIG. 1;

FIG. 3 is a partial schematic view of the temperature controlled high frequency heating integrated hookah of FIG. 1;

FIG. 4 is a perspective view of a temperature-controlled high-frequency heating integrated hookah according to the present invention;

FIG. 5 is a sectional view of a temperature-controlled high-frequency heating integrated hookah according to the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

Specifically, in order to solve the disadvantages of the prior art, as shown in fig. 1 to 5, a temperature-controlled high-frequency heating integral water smoke, a high-frequency heating unit (a) includes: handle heat insulation silica gel (1), a handle cover (2), a coil cover (3), sealing silica gel (4), a glass cup upper cover (5), a conductor heating sheet (6), a glass cup (7), a glass lower cover (8), a magnetic induction coil (9), a big glass cup (10), a temperature sensor (11), a middle shell (12), a power supply key (13), an insulating ring (14), a positive pole piece (15), a control panel (16), a negative pole piece (17) and a main body cover (18), wherein the big glass cup (10) is arranged in the magnetic induction coil (9) and used for protecting the magnetic induction coil (9), the conductor heating sheet (6) is arranged in the glass cup (7) for fixation, the glass cup (7) is arranged in the big glass cup (10) and used for containing tobacco, the glass cup upper cover (5) and the glass lower cover (8) are respectively covered at the top and the bottom of the glass cup (7) and used for covering the tobacco, the magnetic induction coil (9) is arranged on the middle shell (12) for fixation and leads penetrate through the middle shell (12), the output end of the control board (16) is welded on a lead of the magnetic induction coil (9) and used for electrifying the magnetic induction coil (9), the temperature sensor (11) is arranged in the middle shell (12) and is arranged at the bottom of the magnetic induction coil (9) and used for sensing the temperature change of the conductor heating sheet (6) in the magnetic induction coil (9) to perform over-temperature protection, the insulating ring (14) is arranged on the middle shell (12) and is used for isolating a positive lead and a negative lead of the temperature sensor (11), the positive piece (15) is arranged in the insulating ring (14) and is used for connecting the positive lead of the temperature sensor (11) and connecting the input positive of the control board (16), the negative piece (17) is arranged on the periphery of the insulating ring (14) and is used for connecting the negative lead of the temperature sensor (11) and connecting the input negative of the control board (16), and the power button (13). The control panel (16) is screwed on the thread of the negative pole piece (17) and fixed in the middle shell (12) for receiving the temperature information of the temperature sensor (11) so as to control the temperature change, the main body cover (18) is arranged at the bottom of the middle shell (12), the sealing silica gel (4) is arranged in the coil cover (3), the coil cover (3) covers the magnetic induction coil (9), the handle cover (2) is arranged at the top of the coil cover (3), and the handle heat insulation silica gel (1) is arranged on the handle of the handle cover (2) body. The elements are combined together to form a high-frequency heating assembly.

The battery pack (B) includes: the power supply comprises power supply plate covers (19), (20), a battery insulating ring (21), a power supply plate (22), a battery anode piece (23), an upper shell (24), a battery core (25), a battery core support (26), a main body shell (27) and connecting silica gel (28), wherein the battery insulating ring (21) is arranged on the power supply plate (22) and used for isolating the battery cathode piece (20) and the battery anode piece (23), the battery anode piece (23) is arranged in the battery insulating ring (21) and used for contacting with the anode output end of the power supply plate (22), the battery cathode piece (20) is arranged at the periphery of the battery insulating ring (21) and used for contacting with the cathode output end of the power supply plate (22), the battery core support (26) is arranged in the main body shell (27), the battery core (25) is arranged on the battery core support (26) and welded at the input end of the power supply plate (22), the upper shell (24) is arranged in the battery core support (26) and fixed on the main body shell (, the power supply board (22) is arranged in the upper shell (24), the power supply board cover (19) is arranged on the upper shell (24), the connecting silica gel (28) is arranged at the bottom of the main body shell (27), and all the components are combined together to form the battery assembly. Wherein the high-frequency heating assembly is positioned at the upper end of the battery assembly and is pressed on the upper shell (24) of the battery assembly by the middle shell (12) of the high-frequency heating assembly for connection.

The advantages of the temperature-control high-frequency heating integrated water cigarette are mainly shown in the following aspects:

1. the electromagnetic induction high-frequency heating technology is utilized to heat and ignite, and the traditional hookah is replaced, and the open fire is utilized to ignite to smoke;

2. the high-frequency heating hookah is internally provided with the temperature sensor, so that the hookah can be protected from over-temperature, and the safety performance of the hookah is improved;

3. the heating cartridge is designed into a water tobacco heating module structure, and is convenient to use.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A temperature-controlled high-frequency heating integrated hookah, characterized in that, comprising: a high-frequency heating assembly (A) and a battery assembly (B), the high-frequency heating assembly (A) is provided with an electromagnetic induction heating assembly, and electromagnetic induction heating The component is also provided with a temperature sensor (11), which can sense temperature changes and play a high temperature protection function; a booster circuit component is arranged in the battery component (B), and the booster circuit component is composed of six or more battery cells (25) The combination of series and parallel can output high voltage to improve heating efficiency. 2. The temperature-controlled high-frequency heating integrated hookah according to claim 1, wherein the electromagnetic induction heating assembly comprises: a conductor heating sheet (6) and a magnetic induction coil (9), and the magnetic induction coil (9) is used to In the state of electrification, an electromagnetic induction effect is generated to make the conductor heating sheet (6) generate heat, and the heat reaches the ignition point of the tobacco, thereby realizing the ignition of the tobacco. 3. The temperature-controlled high-frequency heating integrated hookah according to claim 1 or 2, wherein the electromagnetic induction heating assembly further comprises: a glass upper cover (5), a glass (7), a glass lower cover ( 8) The large glass cup (10), the middle shell (12), the large glass cup (10) is installed in the magnetic induction coil (9) to protect the magnetic induction coil (9), and the conductor heating piece (6) is installed in the glass cup (9). 7) Internally fixed, the glass cup (7) is installed in the large glass cup (10) for holding tobacco, and the glass cup upper cover (5) and the glass lower cover (8) are respectively covered on the top and bottom of the glass cup (7). In order to cover the tobacco, the magnetic induction coil (9) is fixed on the middle casing (12) and the lead wire runs through the middle casing (12), and the output end of the control board (16) is welded on the lead wire of the magnetic induction coil (9) for magnetic induction. The coil (9) is energized. 4. The temperature-controlled high-frequency heating integrated hookah according to claim 3, wherein the electromagnetic induction heating assembly further comprises: an insulating ring (14), a positive electrode piece (15), a control board (16), a negative electrode piece (17), the temperature sensor (11) is installed in the middle shell (12) and placed at the bottom of the magnetic induction coil (9) for sensing the temperature of the inner conductor heating sheet (6) of the magnetic induction coil (9). The ring (14) is installed on the middle shell (12) to isolate the positive and negative leads of the temperature sensor (11), and the positive element (15) is installed in the insulating ring (14) to connect the positive lead of the temperature sensor (11). And connect the control board (16) to the input positive pole, the negative pole piece (17) is installed on the periphery of the insulating ring (14) to connect the negative lead of the temperature sensor (11) and to the control board (16) input negative pole, the control board (16) screw The negative electrode (17) is screwed and fixed in the middle case (12) for receiving the temperature information of the temperature sensor (11) so as to control the temperature change. 5 . The temperature-controlled high-frequency heating integrated hookah according to claim 1 , wherein the booster circuit assembly further comprises: a battery negative part (20), a battery insulating ring (21), a power board (22), The battery positive part (23), the battery insulating ring (21) is installed on the power supply board (22) for isolating the battery negative part (20) and the battery positive part (23), and the battery positive part (23) is installed on the battery insulating ring (22). 21) is used to contact the positive output terminal of the power supply board (22), the battery negative part (20) is installed on the periphery of the battery insulating ring (21) to contact the negative output terminal of the power supply board (22), and the battery core (25) is welded to the power supply The input end of the board (22) supplies power, and the voltage output by the battery cell (25) is boosted by the booster circuit of the power board (22) and then outputs a high voltage. 6. The temperature-controlled high-frequency heating integrated hookah according to claim 1 or 2, wherein the electromagnetic induction heating assembly is connected to the booster circuit assembly, and the positive electrode (15) of the electromagnetic induction heating assembly And the negative part (17) is in contact with the battery positive part (23) and the battery negative part (20) of the booster circuit assembly to conduct electricity, and the high voltage output by the power supply board (22) of the booster circuit assembly passes through the electromagnetic induction heating assembly. The inverter circuit and the oscillation circuit of the control board (16) are converted and transmitted to the magnetic induction coil (9) to make the conductor heating plate (6) generate high frequency heat.

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