Electronic Hookah

The present application claims priority from Chinese Patent Application No. 202410515416.0 filed on Apr. 26, 2024, the contents of which are incorporated herein by reference in their entirety.

The present disclosure relates to the technical field of hookahs, and in particular, to an electronic hookah.

Arabian hookahs are originated in India and mainly popular in Arab countries. Similar hookahs can also be found in Turkey, Iran, and Central Asia. Traditional smoking utensils for smoking Arab hookahs usually have tobacco materials loaded at the top and have water at the bottom. When in use, burning charcoal fire is placed on the tobacco to heat and atomize the tobacco to form smoke, which is filtered by water. Finally, hookahs are smoked through a pipe.

An electronic hookah has been developed in the existing market, which is an electronic device that mimics a traditional cigarette by mixing water vapor and nicotine into an aerosol that allows a user to inhale. Unlike traditional hookahs, the electronic hookah is controlled electrically.

However, tobacco materials inside the electronic hookahs in the prior art cannot be replaced or cleaned easily, which is troublesome to use and has electrical hazards.

In view of the above problems, embodiments of the present disclosure are put forward an electronic hookah that overcomes or at least partially solves the above problems.

An electronic hookah, including a first component and a second component detachably connected to the first component, where

Preferably, the first component is provided with a power-off assembly and a circuit board;

Preferably, a battery is provided inside the first component, and the battery is detachably connected to the first component.

Preferably, the first snap-in portion includes a pivot portion, a base, and a slot;

Preferably, the second snap-in portion includes a snap hook member and a mounting groove for accommodating the first snap-in portion;

Preferably, the second snap-in portion further includes a mounting button and an elastic member;

Preferably, the battery is detachably connected to the first component via a battery mounting structure; and the battery mounting structure includes a spring plate, a push button, and a locking snap hook configured to fix the battery within the first component;

Preferably, the power-off assembly includes an elastic thimble, and the elastic thimble is arranged at the bottom of the first component;

Preferably, a display is arranged at one side of the first component, and the display is electrically connected to the circuit board.

The present disclosure further includes an electronic hookah, including above the electronic hookah and a container, where

The present disclosure specifically includes the advantages as follows:

In the embodiments of the present disclosure, compared with the fact in the prior art that “the tobacco materials inside cannot be replaced or cleaned easily, which is troublesome to use and has electrical hazards”, the present disclosure provides a solution that “the first component and the second component are detachably connected”. Specifically, the electronic hookah includes a first component and a second component detachably connected to the first component, where the first component and the second component are connected via a main unit mounting structure; the main unit mounting structure includes a first snap-in portion arranged on the first component and a second snap-in portion arranged on the second component; a heating component is provided inside the first component; a cavity for accommodating tobacco materials is provided inside the second component; the heating component is arranged opposite to the cavity; an adapter portion configured to connect a container is provided at the bottom of the second component; and when the first snap-in portion and the second snap-in portion rotate relative to each other to a preset position, the first component and the second component are unlocked. With the detachable connection of the first component and the second component, the problem that the tobacco materials inside cannot be replaced or cleaned easily, which is troublesome to use and has electrical hazards is solved, achieving easy replacement of the tobacco materials during use and better cleaning of the electronic hookah. The electronic hookah is easy to use, and the stability of connection is improved.

Reference numerals:, electronic hookah;, main unit;, first component;, battery compartment;, battery;, battery body;, bayonet;, battery housing;, battery mounting structure;, spring plate;, push button;, locking snap hook;, control assembly;, main control board;, function key;, left button;, main button;, right button;, heating component;, heating assembly;, heater;, connecting cord;, air vents;, electrothermal material;, temperature sensing assembly;, protective cover;, air vents;, heat insulation assembly;, heat insulator;, positioning holes;, heat insulation bracket;, heat insulation bracket body;, protrusion;, connecting posts;, mica sheet assembly;, first mica sheet;, air vents;, second mica sheet;, support tube;, fixing bracket;, top;, bottom;, heat insulation cover;, first airway;, first air inlet hole;, rotating structure;, pivot shaft;, rotating connection portion;, connecting end;, limit block;, snap hook;, torsion spring;body;, common end;free end;, second component;, heating compartment;, heat insulation member;, heat insulation cavity;, inner gear;, atomizing pot;′, tobacco material pot;, pot body;, air vent;, top;, convex portion;, flat portion;, air tube;, rivet;, side wall;, accommodating cavity;, opening;, tobacco material;, pot lid;, snap-in portion;, isolation mesh;, mesh bottom;, mesh rim;, curved mesh hole;, mounting hole;, adapter portion;, air outlet;, adapter portion body;, socket;, second air inlet hole;, edge;, second airway;, main unit mounting structure;, first snap-in portion;, pivot portion;, pivot plate;, pivot hole;, base;, front side;, back side;side wall;,guide positioning groove;, connecting wall;, first cross arm;, second cross arm;, slot;, second snap-in portion;mounting groove;, actuating hole;, assembly port;positioning block;, snap hook member;, elastic member;, mounting button;, main unit opening and closing structure;, first snap-fit portion;, second snap-fit portion;, opening and closing button;, elastic snap hook;, first mating end;, mounting bracket;, second mating end;, display;, container;, smoke pipe;, mouthpiece;, filtrate;, kettle body;, support table;, adapter;, elastic thimble.

In order to make the objects, features and advantages of the present disclosure more obvious and understandable, the present disclosure will be further described in detail with reference to the drawings and the detailed implementations. Obviously, the described embodiments are some embodiments, rather than all of the embodiments of the present disclosure. Based on the embodiments in the present disclosure, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the scope of protection of the present disclosure.

By analyzing the prior art, it is found that traditional smoking utensils for smoking Arab hookahs usually have tobacco materials loaded at the top and have water at the bottom, and when in use, burning charcoal fire is placed on the tobacco to heat and atomize the tobacco to form smoke, which is filtered by water and finally inhaled through a smoke pipe. An electronic hookah has been developed in the existing market, which is an electronic device that mimics a traditional cigarette by mixing water vapor and nicotine into an aerosol that allows a user to inhale. Unlike traditional hookahs, the electronic hookah is controlled electrically. However, tobacco materials inside the electronic hookahs in the prior art cannot be replaced or cleaned easily, which is troublesome to use and has electrical hazards.

In the embodiments of the present disclosure, compared with the fact in the prior art that “the tobacco materials inside cannot be replaced or cleaned easily, which is troublesome to use and has electrical hazards”, the present disclosure provides a solution that “the first component and the second component are detachably connected”. Specifically, the electronic hookah includes a first component and a second component detachably connected to the first component, where the first component and the second component are connected via a main unit mounting structure; the main unit mounting structure includes a first snap-in portion arranged on the first component and a second snap-in portion arranged on the second component; a heating component is provided inside the first component; a cavity for accommodating tobacco materials is provided inside the second component; the heating component is arranged opposite to the cavity; an adapter portion configured to connect a container is provided at the bottom of the second component; and when the first snap-in portion and the second snap-in portion rotate relative to each other to a preset position, the first component and the second component are unlocked. With the detachable connection of the first component and the second component, the problem that the tobacco materials inside cannot be replaced or cleaned easily, which is troublesome to use and has electrical hazards is solved, achieving easy replacement of the tobacco materials during use and better cleaning of the electronic hookah. The electronic hookah is easy to use, and the stability of connection is improved.

Referring to, a schematic structural view of an electronic hookah according to the present disclosure is shown, which may specifically include the following structure. The electronic hookah includes a first componentand a second componentdetachably connected to the first component, where the first componentand the second componentare connected via a main unit mounting structure; the main unit mounting structureincludes a first snap-in portionarranged on the first componentand a second snap-in portionarranged on the second component; a heating componentis provided inside the first component; a cavity for accommodating tobacco materials is provided inside the second component; the heating componentis arranged opposite to the cavity; an adapter portionconfigured to connect a container is provided at the bottom of the second component; and when the first snap-in portionand the second snap-in portionrotate relative to each other to a preset position, the first componentand the second componentare unlocked.

An electronic hookah in this exemplary embodiment will be further described hereinafter.

In the embodiment of the present disclosure, the present disclosure includes a first componentand a second componentdetachably connected to the first component, where the first componentand the second componentare connected via a main unit mounting structure; and the main unit mounting structureincludes a first snap-in portionarranged on the first componentand a second snap-in portionarranged on the second component. The main unit mounting structureincludes the first snap-in portionarranged on the first componentand the second snap-in portionarranged on the second component. With such a structure, the first componentand the second componentcan be easily disassembled and connected, thereby improving the maintainability and maneuverability of equipment.

In the embodiment of the present disclosure, the first snap-in portionincludes a pivot portion, a base, and a slot, where the pivot portionis connected to the base, and the slotconfigured to snap the second componentis provided in an inner side of the base. The second snap-in portionincludes a snap hook memberand a mounting groovefor accommodating the first snap-in portion, where the snap hook memberis arranged on an inner side of the mounting groove; the mounting grooveis adapted to the first snap-in portion; the slotis adapted to the snap hook member; and when the first componentand the second componentare opened or closed, the first componentrotates to a preset position, and the slotis separated from or embedded with the snap hook member. The preset position may be customized by the user or may be a specific angle, such as 30 degrees and 60 degrees. When the first snap-in portionand the second snap-in portionrotate relative to each other to the preset position, the first componentand the second componentare unlocked. When the first snap-in portionand the second snap-in portiondo not rotate to the preset position, the first componentand the second componentare locked.

As an example, the stability of connection can be improved by using the present disclosure: with the connecting structure adopted in the present disclosure, the first componentand the second componentcan be connected more stably through the mutual cooperation of the first snap-in portionand the second snap-in portion. In particular, with the design of the pivot portionand the baseof the first snap-in portion, as well as the design of the snap hook memberand the mounting grooveof the second snap-in portion, the connecting structure is less prone to loosening when subjected to an external force, thereby improving the stability of the connection. The disassembly and assembly is convenient: with the connecting structure adopted in the present disclosure, the first componentand the second componentcan be disassembled and assembled more conveniently through the mutual cooperation of the first snap-in portionand the second snap-in portion. In particular, when the first componentand the second componentare opened or closed, the first componentrotates by a preset angle, so that the slotis separated from or embedded with the snap hook member, thereby facilitating disassembly and assembly. The connecting structure of the present disclosure not only can ensure the stability of the connection, but also facilitates disassembly and assembly, having obvious superiority over the prior art.

In a specific embodiment, this embodiment provides a component mounting structure capable of being detachably connected, with specific steps as follows. Step 1: a first componentand a second componentare prepared. The material of the first componentand the second componentmay be selected from metal or plastic, and the specific material can be selected according to actual needs. The shapes of the first componentand the second componentmay be designed according to actual needs, such as round and square shapes. Step 2: a first snap-in portionis provided on the first component, and a pivot portion, a base, and a slotare provided on the first snap-in portion. The pivot portionand the basemay be fixedly connected by welding or bolting, and the slotmay be arranged in an inner side of the base. The shape of the slotmay be designed according to the shape of the second component, such as a U shape. Step 3: a second snap-in portionis provided on the second component, and a snap hook memberand a mounting grooveare provided on the second snap-in portion. The snap hook memberand the mounting groovemay be fixedly connected by welding or bolting, and the shape of the mounting groovemay be designed according to the shape of the first snap-in portion, such as a U shape. Step 4: the first componentand the second componentare connected together via the main unit mounting structure, where the main unit mounting structureincludes the first snap-in portionand the second snap-in portion. When the first componentand the second componentare opened or closed, the first componentcan rotate around the pivot portionby a preset angle. The preset angle can be set according to actual needs, such as 30 degrees or 60 degrees. Step 5: when the first componentand the second componentare opened or closed, the slotwill be separated from or embedded with the snap hook member; when the slotis separated from the snap hook member, the first componentand the second componentcan be disassembled; and when the slotis embedded with the snap hook member, the first componentand the second componentare connected together. The above are the specific steps of this embodiment. In this way, the first componentand the second componentcan be detachably connected while the stability and interchangeability of the connection are improved.

In the embodiment of the present disclosure, the second snap-in portionfurther includes a mounting buttonand an elastic member, where the mounting buttonis connected to the snap hook membervia the clastic memberand penetrates through the mounting groove, and the elastic memberand the snap hook memberare arranged on the inner side of the mounting groove; and the mounting grooveis adapted to the first snap-in portion.

As an example, when the first componentand the second componentare opened or closed, the mounting buttonis pressed and the elastic memberdrives the snap hook memberto move, and the slotis separated from or embedded with the snap hook member. When the first componentand the second componentare opened, the mounting buttonis pressed and the clastic memberdrives the snap hook memberto move, and the slotis separated from the snap hook member. When the first componentand the second componentare closed, the mounting buttonis pressed and the elastic memberdrives the snap hook memberto move, and the slotis embedded with the snap hook member.

In the embodiment of the present disclosure, the first componentis provided with a power-off assembly and a circuit board. The circuit board is electrically connected to the power-off assembly. The power-off assembly is arranged on a side of the first componentin connection with the second component. When the first componentand the second componentare opened/closed, the power-off assembly is turned on/off. The power-off assembly includes an elastic thimble. As shown inand, the clastic thimbleis arranged at the bottom of the first component. The clastic thimbleis electrically connected to the circuit board. When the first componentand the second componentarc closed, the elastic thimblepushes inwards against the second componentso that the power-off assembly is turned off. When the first componentand the second componentare opened, the elastic thimbleresets and pushes downwards, such that the power-off assembly is turned on.

In the embodiment of the present disclosure, a batteryis provided inside the first component, and the batteryis detachably connected to the first component. The batteryis detachably connected to the first componentvia a battery mounting structure. The battery mounting structureincludes a spring plate, a push button, and a locking snap hookconfigured to fix the battery within the first component, where the push buttonis connected to the locking snap hook; the batteryis arranged at the top of the spring plate; the batteryis provided with a bayonet, and the bayonet is adapted to the locking snap hook; and when the batteryis unlocked from the first component, the push buttonis pushed, the locking snap hookdeflects in a direction away from the batteryand is disengaged from the bayonet, and the spring platepops the batteryup.

In the embodiment of the present disclosure, a display is arranged at one side of the first component, and the display is electrically connected to the circuit board. As shown inand,illustrates an electronic hookahprovided in an embodiment of the present disclosure. The electronic hookahincludes a main unitand a container. The main unitis an electronic device assembled in the container. The main unitholds tobacco materials, and heats the tobacco materialsduring operation to form smoke and allows the smoke to flow into the container. The containerholds an edible filtrate, such as water, and the smoke flows into the containerand is filtered by the filtrate. The containeris provided with a smoke pipehaving a sunction nozzle, and the user can inhale the filtered smoke through the sunction nozzle. In the embodiment of the present disclosure, the discharge power of the electronic hookahis 100 W. In the embodiment of the present disclosure, the containerincludes a kettle bodythat holds the filtrate, a support table, and an adapterwhich is arranged on the support tableand communicates with the kettle body. The containeris assembled with the main unitvia the adapter, so that the main unitis carried on the support table.

In a specific embodiment, referring toandin conjunction, schematic views in different states are shown respectively. The main unitincludes a first componentand a second componentassembled with the first component. The first componentand the second componentcan rotate relative to each other so as to make the main unitopened or closed. In the embodiment of the present disclosure, the first componentand the second componentare operably and completely separated. Specifically, the main unitfurther includes a main unit mounting structureand a main unit opening and closing structure. The main unit mounting structureis configured to assemble the first componentand the second componentin a detachable manner. The main unit opening and closing structureis configured to operably control the first componentand the second componentto open or close.

In a specific embodiment, referring toandin conjunction, the main unit mounting structureincludes a first snap-in portionrotationally connected to the first componentand a second snap-in portionarranged on the second component. The first snap-in portionand the second snap-in portionare positioned opposite to each other, and either of the first snap-in portionand the second snap-in portionis provided with a mounting button. The mounting buttonoperably controls the first snap-in portionand the second snap-in portionto be engaged or disengaged, so that the first componentand the second componentare assembled together or completely separated. In the embodiment of the present disclosure, the second snap-in portionhaving the mounting buttonis illustrated as an example.

In a specific embodiment, the first snap-fit portionincludes a pivot portionpivotally connected to the first component, a baseconnected to the pivot portion, and a slotprovided in the first snap-in portion. The pivot portionincludes two opposite disc-shaped pivot platesprotruding from an end of one side of the base, and the pivot platesare provided with two pivot holes.

In a specific embodiment, the baseis in substantially rectangular block shape. The baseincludes a back sidefacing inwards and a front sidefacing away from the back side. The pivot portionprotrudes from the front sidein a direction facing away from the back side. The middle of the baseis recessed from the front sideand the back siderelatively, so that the baseis thin in the middle and thick on both sides. It is understandable that the baseincludes two side wallsarranged opposite to each other, and a connecting wallconnected between the two side walls. The connecting wallis thinner than the two side wallsStrip guide positioning groovesare formed in two sides, facing away from the connecting wall, of the two side wallsand the guide positioning groovesare provided in an extension direction of the base. The slotis provided in the connecting walland penetrates through both of the front sideand the back side, thereby partitioning the connecting wallinto a first cross armclose to the pivot portionand a second cross armaway from the pivot portion. The bottom of the second cross armaway from the slotinclines.

In a specific embodiment, referring toandin conjunction, the second snap-in portionincludes a mounting grooveprovided in the second component, an actuating holeand an assembly portwhich communicate with the mounting groove, a mounting button, a snap hook member, and an elastic member. The mounting button, the snap hook memberand the elastic memberare mounted in the mounting groove. The assembly portfaces towards the first component; the actuating holeis defined in a direction perpendicular to that of the assembly portand defined inwards from an outer surface of the second component. The mounting buttonextends out of the second componentthrough the actuating hole. The snap hook memberand the mounting buttonare connected together, and the snap hook memberis also rotationally connected to the second componentand exposed through the assembly port. The elastic memberis located on the side of the snap hook memberbacking away from the mounting buttonand between the snap hook memberand a groove wall of the mounting groove. In the embodiment of the present disclosure, the elastic memberis a spring. In some other feasible embodiments, the elastic membermay be elastic foam, a washer, a shrapnel, etc. Positioning blocksare arranged at positions, opposite to the guide positioning groovesof the groove wall of the mounting grooverespectively.

In a specific embodiment, as shown in,and, when it is required to mount the first componentand the second componenttogether, the first snap-in portionextends from the assembly portinto the mounting grooveand is aligned and fit with the positioning blocksthrough the guide positioning groovesand then, the first snap-in portionmay be inserted into the mounting grooveby proceeding along the positioning blocksdownwards, and the first snap-in portionwill squeeze the snap hook member. More specifically, the bottom of the second cross armwill press against the snap hook memberto force the snap hook memberto deflect, so that the snap hook memberis snapped into the slot, thereby snapping the first componentand the second componenttogether.

When it is required to separate the first componentand the second component, the mounting buttondrives the snap hook memberto move to be disengaged from the slotwhen a pressing force is applied to make the mounting buttonmove inwards, and the mounting buttonreturns to its original position under the elastic force of the elastic memberwhen the force applied to the mounting buttonis released.

In a specific embodiment, specifically referring to,, and, the main unit opening and closing structureincludes a first snap-fit portionarranged on the first componentand a second snap-fit portionarranged on the second component. The first snap-fit portionis disposed opposite to the second snap-fit portion. The first snap-fit portionis a first snap-fit portionarranged on one side of the first component. The first snap-fit portionis located at a first mating end, facing the second component, of the first component, protrudes in a direction facing away from the first snap-fit portion, and is located on the inner side of an outer surface of the first component. The second snap-fit portionincludes an elastic snap hookarranged inside the second componentand rotationally connected to the second component, and an opening and closing buttonprovided inside the second componentand connected to the elastic snap hook. The opening and closing buttonextends out of the outer surface of the second component, and the clastic snap hookprotrudes from the second componentand extends towards the second mating endof the first component. The first snap-fit portionis a clamp block.

When the first componentand the second componentrotate until the first mating endand the second mating endare abutted, the elastic snap hookis squeezed to rotate to be snapped together with the first snap-fit portion, thereby snapping the first componentand the second componenttogether.

When pressed, the opening and closing buttonpushes the elastic snap hookto rotate to be disengaged from the first snap-fit portion, so that the first snap-fit portionis disengaged from the second snap-fit portion, causing the first componentand the second componentto be unlocked. At this time, the first componentmay rotate away from the second component, i.e., the first componentand the second componentare opened. In addition, when the pressure applied to the opening and closing buttonis released, the opening and closing buttonreturns to the original position.

In a specific embodiment, as shown in,,, and, the first componentis further provided with a battery compartment, a battery, a battery mounting structure, a control assembly, a heating component, a first airway, a first air inlet holecommunicating the first airway, a rotating structuremaking the first componentrotate relative to the second component, and a mounting bracket. The mounting bracketis integrally molded with the battery compartmentand is used to connect with the heating component, so that the battery compartmentand the heating componentare located at two opposite ends of the mounting bracket, respectively. The rotating structureis disposed on one side of the mounting bracket. The batteryis detachably housed in the battery compartmentfor providing energy for normal operation of the main unit. The battery mounting structureis used to mount the batteryin or remove it from the battery compartment. The control assemblyis used to control the main unitto work, such as turning on, turning off, heating, and adjusting the temperature. The heating componentis disposed at the bottom of the first componentaway from the top, and generates heat under the electrical energy provided by the battery. The first air inlet holeis provided in the surface of the first componentand used for external air to flow into the first airwayand then flow to the heating componentthrough the first airway. The first airwaypenetrates through the first componentfor conveying the external air flowing from the first air inlet holeto the heating component.

In the embodiment of the present disclosure, the rotating structureincludes a rotating connection portionextending from the first component, a pivot shaft, and a torsion spring. Specifically, the rotating connection portionextends at an angle downwards from the mounting bracket. A connecting endof the rotating connection portionaway from the first componentis sleeved with the pivot shaft. The rotating connection portionis provided with a snap hookclose to the first component. The torsion springincludes two helical bodiesarranged side by side, a common endconnected to two adjacent ends of the two bodiesand free ends,of the bodiesarranged opposite to each other. The bodiesare sleeved side by side on the pivot shaftand are located on both sides of the connecting end, respectively. The common endis snapped to the snap hookso as to be connected to the rotating connection portion, and the two free endsare fixed to the two side wallsrespectively. When the first componentrotates to be locked with the second component, the torsion springgenerates an elastic restoring force; when the first componentrotates to be unlocked from the second component, the first componentrotates, under the elastic restoring force generated by the torsion spring, to be opened by a preset angle with the second component. Further, the connecting endis provided with a limit block, and when the first componentrotates to be opened by the preset angle with the second component, the limit blockabuts against the first component, thereby fixing the first componentat the preset angle.

In a specific embodiment, the batteryincludes a battery body, and a battery housingthat encapsulates the battery body. The battery housingis provided with a bayonet. A battery compartmentis disposed within the first componentand away from the second component. The battery compartmentis a hollow column with an opening top and is used to install a battery. In the embodiment of the present disclosure, the internal shape of the battery compartmentis adapted to that of the battery.

In a specific embodiment, the battery mounting structureincludes a spring plate, a push button, and a locking snap hook. The locking snap hookis rotationally connected within the first componentand corresponds to the battery compartment. The push buttonis exposed out of the first componentand is connected to the locking snap hook. The push buttonand the locking snap hookboth are elastically and rotationally connected to the first component. When the batteryis installed in the battery compartment, the locking snap hookis disposed in the bayonetto lock the batteryin the battery compartment. When the push buttonis pushed, the locking snap hookdeflects in a direction away from the battery housingto be disengaged from the bayonet, thereby unlocking the battery. The spring plateis disposed at the bottom of the battery compartment. When the batteryis locked in the battery compartmentby the battery mounting structure, the spring plateaccumulates an elastic restoring force due to the extrusion of the battery; and when the batteryis unlocked by the push button, the spring platepops the batteryout of the battery compartmentunder the elastic force.

As an example, when installed in the main unit, the batteryis pushed into the battery compartmentuntil the locking snap hookis inserted into the bayonetof the battery, so that the batteryis fixed inside the main unitwhile the spring plateis squeezed to generate an elastic force. When the batteryis removed from the main unit, it is only necessary for the user to push the push button, which will cause the locking snap hookto be disengaged from the bayonet. At this time, the batteryis popped out under the elastic force of the spring plate, and thus can be removed.

In a specific embodiment, specifically referring to, the control assemblyincludes a main control boardand a plurality of function keys. The plurality of function keysare disposed at an outer side of the first componentat positions corresponding to the main control board, and the main control boardis electrically connected to the plurality of function keys, the heating assembly, the temperature sensing assembly, and the battery. In the embodiment of the present disclosure, the batteryprovides power for the main control boardto work, and the main control boardcontrols the heating assemblyto generate heat, controls at the same time the temperature sensing assemblyto detect the heating temperature of the heating assembly, receives a temperature value fed back from the temperature sensing assembly, compares the fed back temperature value with a preset temperature value, and adjusts the heating temperature of the heating assemblyaccording to a comparison result. In the embodiment of the present disclosure, the plurality of function keysinclude a left button, a main button, and a right button. The main buttonis used to turn on/off the main unit, and the left buttonand the right buttonare used to increase or decrease the heating temperature of the heating assembly.

In the embodiment of the present disclosure, a displayis further arranged on the outer surface of the first componentfor displaying operating information or status information of the electronic hookah, and displaying the temperature, the power level, the operating status, etc. The displayis electrically connected to the main control board.