Atomizer Pot and Electronic Hookah

The present application claims the benefit of Chinese Patent Application No. 202410515425.X 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 atomizer pot and an electronic hookah.

The most common electronic hookah on the market is mainly a baking-type water pipe smoking device. The baking-type water pipe smoking device is usually provided with smoking materials such as tobacco on a top part and water on a bottom part. When this device is in use, heated charcoal is placed on the tobacco to directly heat the tobacco to produce smoke, which is then filtered through water and finally smoked by a straw.

However, this baking-type water pipe smoking device currently on the market cannot control a temperature at which tobacco is heated. If the temperature of charcoal is too high, the tobacco is burnt; if the temperature of charcoal is too low, an amount of smoke is insufficient. Meanwhile, a container for storing a smoking device is integrated with a water pipe smoking device, which is difficult for daily cleaning.

In view of the above problems, embodiments of the present disclosure are proposed to provide an atomizer pot and an electronic hookah, which overcome the above problems or at least partially solve the above problems.

An atomizer pot includes a pot body and a pot cover adapted to the pot body;

Preferably, a heat distribution structure is provided in the cavity.

Preferably, the heat distribution structure includes a convex part for heat transfer and a concave part for air intake, and a height of the convex part is greater than that of the concave part; and

Preferably, a heat-relief sheet is arranged inside the pot body; and a shape of the heat-relief sheet is adapted to that of the pot body.

Preferably, the atomizer pot further includes an air passing pipe, wherein the air passing pipe is arranged in the cavity and connected to a top part of the pot body.

Preferably, a heat-relief sheet is arranged around the air passing pipe.

Preferably, the pot body has a thickness of 0.4-3 mm.

Preferably, the pot body has a thermal conductivity of 20-600 W/(m·K).

Preferably, the pot body includes a top part and a side wall extending around an edge of the top part; and the side wall and the top part form a cavity for containing the smoking material.

Preferably, the pot cover is detachably mounted at one end of the side wall far away from the top part, the pot cover covers an opening and is positioned at a bottom part of the pot body, and the top part is heated to generate heat.

Preferably, a shape of the heat-relief sheet is adapted to that of the top part.

The present disclosure further includes an electronic hookah, wherein the electronic hookah includes a main unit and the atomizer pot, and the atomizer pot is arranged in the main unit.

The present disclosure specifically includes the following advantages:

In the embodiments of the present disclosure, compared with the prior art that “a container unevenly heated and storing a smoking device is integrated with a water pipe smoking device, which is difficult for daily cleaning”, the present disclosure provides a solution of “individually designing an atomizer pot”, which specifically includes a pot body and a pot cover adapted to the pot body; the pot body and the pot cover form a cavity for containing a smoking material; the pot body and the pot cover are both provided with air passing holes; the pot body is made of a thermally conductive material; and when the atomizer pot is heated, the smoking material is insulated by the pot body, and hot air enters the smoking material from the air passing hole. According to the pot body and the pot cover forming a cavity for containing a smoking material solved, the problem that “a container unevenly heated and storing a smoking device is integrated with a water pipe smoking device, which is difficult for daily cleaning” is solved, and this facilitates the loading of smoking materials and the cleaning of the atomizer pot. Meanwhile, when the atomizer pot is heated, the pot cover is at a bottom and the pot body is at a top. The pot body is heated, so the atomizer pot is heated upside down. The smoking material does not directly contact the high temperature, thus avoiding the problem of the smoking material being burnt.

: electronic hookah;: cavity;: container;: concave part;: mouthpiece;: convex part;: electric heating component;,: air passing pipe;: main unit;: rivet;: smoking material pot;: opening;,,: atomizer pot;,: smoking material;,: pot body;: engaging part;,: pot cover;: mesh bottom;,: mesh sheet;: mesh edge;: air passing hole;: arc-shaped through hole;: top part;: mounting hole;: side wall; and′: heating device.

To make the objectives, features, and advantages of the present disclosure more apparent and understandable, the following describes the present disclosure in detail with reference to the accompanying drawings and specific implementations. It is clear that the described embodiments are merely some but not all of embodiments of the present disclosure. All other embodiments obtained by those of ordinary skill in the art based on embodiments of the present disclosure without creative efforts shall fall within the protection scope of the present disclosure.The inventors have found through analysis of the prior art that the most common electronic hookah on the market is mainly a baking-type water pipe smoking device. The baking-type water pipe smoking device is usually provided with smoking materials such as tobacco on a top part and water on a bottom part. When this device is in use, heated charcoal is placed on the tobacco to directly heat the tobacco to produce smoke, which is then filtered through water and finally smoked by a straw. However, this baking-type water pipe smoking device currently on the market cannot control a temperature at which tobacco is heated. If the temperature of charcoal is too high, the tobacco is burnt; if the temperature of charcoal is too low, an amount of smoke is insufficient. Meanwhile, a container for storing a smoking device is integrated with a water pipe smoking device, which is difficult for daily cleaning.To solve the above technical problems, an atomizer pot adopted by the present disclosure includes a pot bodyand a pot cover, wherein the pot body is provided with a plurality of air passing holesand includes a top part, a side wallextending around an edge of the top part, and a cavityhaving an opening and enclosed by the top partand the side wall, and the cavityis used to loading a smoking material; the pot coveris detachably mounted at one end of the side wallfar away from the top part, the pot covercovers the opening and is positioned at a bottom part of the pot body, and the top partis heated to generate heat, so that the heat is conducted to the pot coverby the side wall.Referring to, a schematic structural diagram of an atomizer pot according to the present disclosure is shown. The atomizer pot may specifically include the following structures: a pot body and a pot cover adapted to the pot body; the pot body and the pot cover form a cavity for containing a smoking material; the pot body and the pot cover are both provided with air passing holes; the pot body is made of a thermally conductive material; and when the atomizer pot is heated, the smoking material is insulated by the pot body, and hot air enters the smoking material from the air passing hole.In the embodiments of the present disclosure, compared with the prior art that “a container unevenly heated and storing a smoking device is integrated with a water pipe smoking device, which is difficult for daily cleaning”, the present disclosure provides a solution of “individually designing an atomizer pot”, which specifically includes a pot body and a pot cover adapted to the pot body; the pot body and the pot cover form a cavity for containing a smoking material; the pot body and the pot cover are both provided with air passing holes; the pot body is made of a thermally conductive material; and when the atomizer pot is heated, the smoking material is insulated by the pot body, and hot air enters the smoking material from the air passing hole. According to the pot body and the pot cover forming a cavity for containing a smoking material solved, the problem that “a container unevenly heated and storing a smoking device is integrated with a water pipe smoking device, which is difficult for daily cleaning” is solved, and this facilitates the loading of smoking materials and the cleaning of the atomizer pot. Meanwhile, when the atomizer pot is heated, the pot cover is at a bottom and the pot body is at a top. The pot body is heated, so the atomizer pot is heated upside down. The smoking material does not directly contact the high temperature, thus avoiding the problem of the smoking material being burnt.Next, an atomizer pot in this exemplary embodiment is further described.In an embodiment of the present disclosure, the atomizer pot includes a pot bodyand a pot cover adapted to the pot body; wherein the pot covermay have the same shape as the pot body, an area of the pot covermay also be greater than that of an opening of the pot body, the pot covermay also be detachably connected to the pot body, and the pot covermay also be fixedly connected to the pot body.In a specific embodiment, the heat of the pot bodymainly plays a role in keeping warm or maintaining constant temperature of the smoking material, the pot bodycan maintain the temperature of the smoking materialwithin a relatively stable range, so as to ensure the atomization effect of the smoking material, the top partof the pot bodyeffectively transfers the heat of a heating component to the entire pot bodythrough plane contact, which is specifically a principle of heat conduction. The heating component is mounted on the top partof the pot body, the heat is effectively transferred to the entire pot bodythrough the plane contact, and the heat transfer mode can ensure that all parts of the pot body can be uniformly heated.As an example, when the area of the pot coveris greater than that of the opening of the pot body, a buckle is provided on one side of the pot coverfacing the pot body, and the pot coveris buckled with the pot body. A material of the pot coveris the same as that of the pot body, and may also be different from that of the pot body.In a specific embodiment, the pot coveris circular, and the area of the pot coveris slightly greater than that of the opening of the pot body, so as to cover the pot body.In an embodiment of the present disclosure, the pot bodyand the pot coverform a cavity for containing a smoking material; the pot bodymay be square or circular and may be customized based on a requirement of a user, and a shape of the pot bodyis not limited.In an embodiment of the present disclosure, the pot bodyand the pot coverare both provided with air passing holes; the air passing holesof the pot coverare circular, a plurality of the air passing holesare provided, and the air passing holesare arranged at equal intervals.As an example, the pot bodyincludes a top part, a side wallextending around an edge of the top part, and a cavityhaving an openingand enclosed by the top partand the side wall, and the air passing holesof the pot bodyare arranged on the top part of the pot body. The cavityis used to store a smoking material. The air passing holesare used for hot air to enter.In a specific embodiment, the pot bodyis made of a thermally conductive material; the material of the pot bodycan be a material which is easy to conduct heat and store heat, such as a stainless steel material. There are many metal materials that are easy to conduct heat and store heat. The following are some common materials, for example, copper is a very good thermally conductive material and is widely used in electronic radiators and heat sinks. Alternatively, aluminum has thermal conductivity second to copper, has a lighter weight and lower cost, and thus is widely used in heat sinks and other places where efficient heat dissipation is required. Titanium is not as thermally conductive as copper and aluminum, but is lightweight, strong, and corrosion resistant, and thus is commonly used in aerospace and other applications where high strength and lightweight are required.When the atomizer pot is heated, heat is uniformly conducted to the smoking materialthrough the pot body, and the smoking materialgenerates gas and is discharged from the air passing holes.In an embodiment of the present disclosure, a heat distribution structure is provided in the cavity, the heat distribution structure includes a convex part for heat transfer and a concave part for air intake, and a height of the convex partis greater than that of the concave part; and the convex partsand the concave partsare alternately arranged.In a specific embodiment, the convex partand the concave partconstitute a heat distribution structure. To enable the smoking materialin the cavityto be heated more uniformly, the convex partand the concave partarranged to be heated uniformly refer to the top partthat can receive heat uniformly in all parts during the heating process, so as to ensure that the material is heated uniformly, thereby improving the processing quality and efficiency. The uniformly heated top partenables better heat transfer into the material, reduces heat loss, and improves heating efficiency. With the uniform heating, the temperature gradient within the material is reduced, which reduces the possibility of thermal stress and non-uniform shrinkage, thereby improving the quality and uniformity of the material. The uniform heating avoids material deformation due to local overheating, which is important for upgrade of the smoking material. The convex partand the concave partarranged to be heated uniformly have an important role in the application of the present disclosure, and can significantly improve the upgraded quality of the smoking material, so that the taste is better.In an embodiment of the present disclosure, a heat-relief sheet is arranged inside the pot body; and a shape of the heat-relief sheetis adapted to that of the pot body. A heat-relief sheet is arranged around the air passing pipe.In a specific embodiment, the heat-relief sheet is specifically a mesh sheet, and the mesh sheetis circular. The atomizer pot further includes an air passing pipe, wherein the air passing pipeis arranged in the cavityand connected to a top partof the pot body. The air passing pipeis preferably arranged in the middle of the top part, and a plurality of the air passing pipesmay be provided, and one end of the air passing pipeis connected to the top part. The air passing pipeis a hollow cylinder, and an air passing holeis also provided on the air passing pipe. A plurality of the heat-relief sheets or a single heat-relief sheet are arranged around the air passing pipe.In an embodiment of the present disclosure, the pot bodyhas a thickness of 0.4-3 mm, the thickness of the pot bodymay be 0.4 mm, the thickness of the pot bodymay be 0.6 mm, the thickness of the pot bodymay be 0.8 mm, the thickness of the pot bodymay be 1 mm, the thickness of the pot bodymay be 1.3 mm, the thickness of the pot bodymay be 1.4 mm, the thickness of the pot bodymay be 1.5 mm, the thickness of the pot bodymay be 1.8 mm, the thickness of the pot bodymay be 2 mm, the thickness of the pot bodymay be 2.5 mm, and the thickness of the pot bodymay be 3 mm.In an embodiment of the present disclosure, the pot bodyhas a paste-loading capacity of 5-25 grams, which may be 5 grams, 10 grams, 15 grams, 20 grams, or 25 grams.

In an embodiment of the present disclosure, the pot bodyhas a thermal conductivity of 20-600 W/(m·K). The thermal conductivity of the pot bodymay be 20 W/(m·K), the thermal conductivity of the pot bodymay be 50 W/(m·K), the thermal conductivity of the pot bodymay be 100 W/(m·K), the thermal conductivity of the pot bodymay be 200 W/(m·K), the thermal conductivity of the pot bodymay be 300 W/(m·K), the thermal conductivity of the pot bodymay be 400 W/(m·K), the thermal conductivity of the pot bodymay be 500 W/(m·K), and the thermal conductivity of the pot bodymay be 600 W/(m·K). Specifically, the pot bodymay be made of stainless steel, aluminum alloy, brass, copper, alumina ceramic, silicon carbide, zirconium oxide, silicon nitride, sapphire, and the like. The stainless steel has a thermal conductivity of 16-25 W/(m·K), the aluminum alloy has a thermal conductivity of 237 W/(m·K), the brass has a thermal conductivity of 70-183 W/(m·K), the copper has a thermal conductivity of 400 W/(m·K), the alumina ceramic has a thermal conductivity of 30 W/(m·K), the silicon carbide has a thermal conductivity of 120-490 W/(m·K), the zirconium oxide has a thermal conductivity of 2 W/(m·K), the silicon nitride has a thermal conductivity of 17-25 W/(m·K), and the sapphire has a thermal conductivity of 132-200 W/(m·K).

An embodiment of the present disclosure provides an electronic hookah, wherein the electronic hookahincludes a main unitand the atomizer pot, and the atomizer potis arranged in the main unit. Specifically, the electronic hookah includes a main unit. The main unitis provided with an air outlet hole, the main unitmay be externally connected to a container through the air outlet hole, and the container is filled with edible filtrate and is provided with a straw for suction. The electronic hookahalso includes an electric heating component arranged on the main unitand the atomizer potdetachably mounted on the main unit, and the atomizeris used to mount a smoking material. The atomizeris heated by the electric heating component to heat the smoking materialto form smoke, and the smoke is output from the air outlet hole to the container for the user to inhale through the straw.Referring to,show a structure of an atomizer pot according to an embodiment of the present disclosure from different angles. The present disclosure provides an atomizer pot. The atomizer potis mounted to a smoking device, such as an electronic hookah. The atomizer potis used to store a smoking material and produce smoke for a user to inhale. The atomizer potprovided by the present disclosure may fully atomize the smoking material under the heated condition, and meanwhile, the smoking material is not burnt due to excessive heating, so that the smoke quality is improved.The present disclosure further includes an electronic hookah, wherein the atomizer potis arranged in the main unit, and the atomizer potmay be fixedly arranged in the main unit. Preferably, the atomizer potmay also be detachably connected to the main unit.Referring to, the atomizer potincludes a pot bodyand a pot cover. The pot bodymay be made of a material that is easy to conduct heat and store heat, such as stainless steel. The pot bodyis provided with a plurality of air passing holes. The pot bodyincludes a top part, a side wallextending around an edge of the top part, and a cavityhaving an openingand enclosed by the top partand the side wall. The air passing holesare used to guide air outside the atomizer potto the cavityand guide air in the cavityto the outside of the atomizer pot. The top partis heated by a heating device to generate heat. The heating device is positioned outside the atomizer pot, and the heating device is mounted on a smoking device on which the atomizer potis mounted, and may be a heating assembly such as an electric heating component. The present disclosure contains the smoking material by using the cavity. The pot covercovers the cavity, so that the smoking material is confined in the atomizer pot. Since the side wallis formed by extending around an edge of the top part, the top parttransfers heat to the side wallafter being heated, so that the smoking material contacting the side wallis heated to generate smoke, which not only increases a heating area of the smoking material loaded in the cavity, but also prevents the smoking material from being partially burned due to excessive heating.In a specific embodiment, the pot coveris detachably mounted on one end of the side wallfar away from the top part, and the pot covercovers the opening. When the top partis heated and conducts the heat to the side wall, the side wallmay partially conduct the heat to the pot coverto further even out the heating of the smoking material at different positions in the cavity.In a specific embodiment, referring to, the pot coveris provided with a plurality of air passing holesin a direction opposite to the opening, so that the smoke can flow out of the atomizer potvia the air passing holes. The shape and number of the air passing holesand the interval between the air passing holesare only an example of the air passing holes, which are not intended to limit the air passing holes. The shape and number of the air passing holesand the interval between the air passing holesmay be adjusted based on a requirement of the atomizer pot.Further, to ensure that the pot covercan stably cover the opening, a plurality of engaging partsare spaced apart at an edge of the pot cover. When the pot covercovers the opening, the plurality of engaging partsare engaged with a bottom edge of the pot bodyfar away from the top part. Preferably, the plurality of engaging partsare symmetrically distributed on a bottom edge of the pot coverfacing the cavity.In a specific embodiment, after the top partof the atomizer potis heated, the heat of the heating device is transferred to the top part, the side walland the pot coverto achieve uniform heating of the smoking material loaded in the cavity. When the top partin the present disclosure is heated by the heating device, the smoking material is positioned above the pot cover, and the pot bodyis positioned above the smoking material. That is, when the heating device heats the atomizer pot, the heating device, the pot body, the smoking material and the pot coverare arranged in sequence from top to bottom.The specific features of the top part are further described below to describe how excessive heating of the smoking material close to the heating device may be avoided. Referring to, since the top partdirectly contacts a heat source, to avoid the situation that the smoking material close to the top partis excessively heated, the top partis provided with a plurality of annular convex partsand a plurality of annular concave parts, and the top partis provided with a plurality of air passing holes. Specifically, the concave partsand the convex partsare alternately arranged. The convex partis a portion of the top of the atomizer potthat protrudes away from the cavityand directly contacts the heating device. Since the convex partdirectly contacts the heating device, the air passing holeis provided in the concave part. The concave partprovided with the air passing holeshas some gaps from the heating device to distribute the heat of the heating device uniformly to the top partto allow air to enter the cavitysufficiently. Meanwhile, the situation that the local excessive heating of the smoking material is caused by uneven air contact may be avoided. The convex partand the concave partin the present disclosure may be adjusted based on a shape of the pot body. For example, when the pot bodyhas a circular truncated cone shape as a whole, the convex partand the concave partmay be provided in an annular shape.In a specific embodiment, the convex partis used to transfer heat, and the concave partis used to intake air. The convex partis used to transfer heat, the concave partis used to intake air, and the air can be drawn through the concave part.As an example, a plurality of convex partsand a plurality of concave partsare added to the top part, and a plurality of air passing holesare provided on the top part, so that air can fully enter the atomizer potand the smoking material can be fully heated. The atomizer potprovided by the present disclosure can also increase the contact area between the interior of the smoking material and external air, thereby making the heating inside the smoking material uniform.Specific features of the atomizer potare further described below to describe how to further increase the contact area between the inside of the smoking material and the external air. Referring to, the atomizer potis further provided with an air passing pipe. The air passing pipeis a hollow cylinder. The air passing pipeis used to guide external air into the cavityto contact the smoking material, so that the smoking material may be sufficiently heated. The air passing pipehas one end connected to the top partand another end extending away from the top part. In the present disclosure, the air passing pipeand the smoking material are contained together in the cavity, and the air passing pipefully contacts the smoking material. The air passing pipeis provided with a plurality of air passing holesfor the external air to contact the smoking material. When the smoking material is heated and atomized to generate smoke, air entering from the air passing holeof the top partcan fully contact the interior of the smoking material through the air passing holeof the air passing pipe, so that the contact area between the interior of the smoking material and the external air is increased, and the heating effect of the smoking material is improved.In a specific embodiment, to facilitate disassembly and cleaning of the atomizer pot, a tail end of the air passing pipedoes not protrude from the side wall. Preferably, one end of the air passing pipeis riveted to a center of the top partby a rivetto further increase the contact area between the air passing pipeand the smoking material.As an example, it is described that the contact area between the smoking material inside the cavityand the external air is increased by the air passing pipeto achieve the effect of increasing the heating of the smoking material. To avoid excessive heating of the smoking material, the atomizer potof the present disclosure also provides isolation between the top partdirectly contacting the heat source and the smoking material. Specific features of the atomizer potare further described below to describe how to achieve isolation between the top partand the smoking material.Referring to, the atomizer potfurther includes a mesh sheet. The mesh sheetis positioned in the cavityand close to the top part. The mesh sheetis made of stainless steel, so as to conduct heat generated by heating the top partto the smoking material. Specifically, the edge of the mesh sheetcontacts the top partand forms a gap between the rest of the mesh sheetand the top part, and the heat received by the top partis transferred from the edge of the mesh sheetto the mesh sheetand further to the smoking material close to the top part. The mesh sheetonly partially contacts the top partto avoid the direct contact of the top partand the smoking material, which is convenient for cleaning the pot bodyand can avoid the probability that the smoking material close to the top partis locally burnt due to uneven heating caused by overhigh temperature of the top part.Further, the mesh sheethas a grid-like arc-shaped structure. The mesh sheetis provided with a mounting holeso as to be sleeved on the air passing pipethrough the mounting hole. The mesh sheetincludes a mesh bottomprovided opposite to the top part, and a mesh edgeextending obliquely from the mesh bottomtoward the top part. The mesh bottomis provided with a plurality of arc-shaped through holes. A plurality of arc-shaped through holesare used to increase the contact area between the smoking material and the air, thereby improving the heating efficiency of the smoking material. The edge of the mesh sheetis the edge of the mesh edge. Since one end of the air passing pipeis riveted to the center of the top partby the rivet, the mounting holeis also provided in the mesh sheetcorresponding to the center of the top part.In the above embodiment, the top partis isolated from the smoking material by the mesh sheetarranged in the cavityclose to the top part, thereby further reducing excessive heating of the smoking material. The heating conditions of different loading of the smoking material are described by the following specific examples.is a schematic diagram of a heating scene of an atomizer pot according to an embodiment of the present disclosure, and the pot bodyis in a circular truncated cone shape as a whole. The size of the side wallgradually increases from the top partto the bottom. Along an axial direction parallel to the top part, a cross-sectional area of the topis less than that of the pot cover. During the heating of the atomizer potby the heating device′, the top partis opposite to the heating device′. The heating device′ and the atomizer potare configured as the heating device′, the top part, the pot bodyand the pot coverfrom top to bottom. In the present disclosure, the smoking materialis loaded in the cavityin the form of smoking paste. When the smoking materialis not fully loaded in the cavity, a vertical height of the smoking materialfrom the top partis less than that of the top partto the pot cover; that is, the smoking materialcan only contact one of the top partand the pot cover, and the smoking materialcontacts the side wallmatching the shape of the cavityand the side wall. When the top partis heated by the heating device′, the smoking materialadapts to the shape of the cavityand directly contacts the mesh sheetand the side wallto be fully heated. When the smoking materialis fully loaded in the cavityand the top partis heated by the heating device′, the smoking materialreceives heat from the mesh sheet, the side walland the pot coverand is heated sufficiently, and the local heating of the smoking material close to the top partis slowed down without burning.In the above embodiment, the heating of the atomizer potunder different loading conditions of the smoking materialis described. How to mount the atomizer potis described below.is a schematic diagram of the mounting steps of an atomizer pot according to the present disclosure. The mounting steps of the atomizer potare as follows: firstly, riveting an air passing pipeat a center of the top partby using a rivet, keeping the air passing pipenot protruding out of the side walland enabling a plurality of air passing holesto be positioned in the cavity; then, sleeving the mesh sheeton a heat conducting air pipeby the mounting hole, so that the mesh edgecontacts the top partand the mesh bottomis far away from the top partrelative to the top part; placing the smoking materialadapted to the shapes of the mesh sheet, the top partand the cavityon the mesh bottom, so that the mesh sheetsupports the smoking materialto be contained in the cavity; covering the pot coveron the side wall, so that the engaging partfaces the cavity; and finally, locking the engaging partat the bottom of the side wall, so that the atomizer potis mounted. Similarly, the disassembling steps of the atomizer potmay be deduced according to the mounting steps of the atomizer pot, so that the cleaning of all components in the atomizer potis facilitated.is a cross-sectional view of a smoking material pot according to an embodiment of the present disclosure. The present disclosure further provides a smoking material pot. The smoking material potincludes an atomizer potand a smoking material. The smoking materialis placed in the atomizer pot. The smoking material potis mounted on the electronic hookah for the user to inhale the smoke generated by the smoking material. The structure of the atomizer potin the present disclosure is the same as that of the atomizer pot. Details are not described herein again. The smoking materialcan be automatically loaded into the atomizer potby an automatic filling device (not shown). Specifically, firstly, an automatic filling device fills the smoking materialinto the pot bodyprovided with the mesh sheetand the air passing pipe; then, after the filling of the smoking materialis completed, the pot coveris covered on the bottom part of the pot bodyby an automatic filling device or manually. In this case, the processing of the smoking material potis completed. That is to say, the atomizer potwith a detachable pot covercan achieve the standardization of smoking material and greatly improve the efficiency of smoking material filling. When the user uses the electronic hookah, if the smoking materialis consumed, the smoking material potmay be directly replaced, which is more convenient for the user.Referring to,are schematic diagrams of a main unit of an electronic hookah and an electronic hookah, respectively. The present disclosure further provides an electronic hookah. The electronic hookahincludes a main unit. The main unitis provided with an air outlet hole. The main unitmay be externally connected to a containerthrough the air outlet hole. The containeris filled with edible filtrate and provided with a straw for suction. The straw is provided with a mouthpiecefor the user to inhale. The electronic hookahfurther includes an electric heating componentprovided on the main unit, and an atomizer potdetachably mounted on the main unit. The atomizer potis used to mount the smoking material. The atomizer potis heated by the electric heating componentas a heating device to heat the smoking material to form smoke. The smoke is output from the air outlet hole to the containerfor the user to inhale via the mouthpiece. The structure of the atomizer potin the present disclosure is the same as that of the atomizer pot. Details are not described herein again. The electric heating componentis provided with a heating chamber for mounting the atomizer pot, and when the atomizer potis mounted to the heating chamber, the electronic hookahis sequentially provided with the electric heating component, a pot body, a smoking material and a pot cover from top to bottom. To keep the top partof the atomizer potheated by the electric heating component, the smoking materialis positioned above the pot cover, and the pot bodyis positioned above the smoking material, that is,is placed upside down.In the above embodiment, the pot covermay be detachably mounted on the pot body, which is convenient for loading the smoking material and cleaning the atomizer pot. Meanwhile, when the atomizer potis heated, the pot coveris at the bottom and the pot bodyis at the top, the pot bodyis heated, the atomizer potis heated upside down, and the smoking materialdoes not need to be directly exposed to high temperature and is not easy to burn.

Although preferred embodiments of the present disclosure have been described, additional changes and modifications may be made to these embodiments once those skilled in the art are aware of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all changes and modifications that fall within the scope of the embodiments of the present disclosure.

Finally, it is noted that, in the present disclosure, relational terms such as “first” and “second” are merely used to distinguish one entity or operation from another entity or operation without necessarily requiring or implying any actual relationship or order between such entities or operations. Moreover, terms “include”, “comprise”, or any other variants thereof are intended to cover a non-exclusive inclusion, so that a process, a method, an article, or a terminal device that includes a list of elements includes those elements, and also includes other elements which are not expressly listed, or further includes elements inherent to this process, method, article, or terminal device. An element preceded by “includes a . . . ” does not, without more constraints, preclude the existence of additional identical elements in the process, method, article, or terminal device that includes the element.

The above is a detailed introduction to an atomizer pot, a smoking material pot and an electronic hookah provided by the present disclosure. The principle and implementation of the present disclosure are described herein by using specific examples. The descriptions about embodiments of the present disclosure are merely provided, to help understand the method and core ideas of the present disclosure. In addition, those of ordinary skill in the art can make variations and modifications to the present disclosure in terms of the specific implementations and application scopes according to the ideas of the present disclosure.

Therefore, the content of specification is not construed as a limit to the present disclosure.