ELECTRONIC HOOKAH SMOKING MATERIAL LOADING DEVICE AND ELECTRONIC HOOKAH

Description

CROSS REFERENCE TO RELATED APPLICATIONS

The present application claims the benefit of Chinese Patent Application No. 202410515420.7 filed on Apr. 26, 2024, the contents of which are incorporated herein by reference in their entirety.

TECHNICAL FIELD

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

BACKGROUND

The most common electronic hookah available 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, when a temperature of the baking-type water pipe smoking device is too high, the loading device or other components are easily damaged, which affects the life of the device, and the heat utilization rate inside the smoking material is not high.

SUMMARY

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

An electronic hookah smoking material loading device includes a main unit;

the main unit includes a lower bracket, a thermal insulation seat and a base; the thermal insulation seat and the base are arranged in the lower bracket; the thermal insulation seat is provided with a cavity for containing a smoking material; the lower bracket is provided with a mounting assembly for connecting or fixing a heating device;

the thermal insulation seat is arranged at one end of the base, an adapter port is provided in the other end of the base, and the adapter port is communicated with a container filled with filtrate;

the adapter port is provided with an air outlet hole, and the air outlet hole is communicated with the smoking material; and

when heated, the smoking material is atomized into gas and passes through the thermal insulation seat to the base.

Preferably, a lower air inlet hole is provided in the base; and

a first gap is provided between the base and the adapter port, the first gap is communicated with the lower air inlet hole to form a lower air inlet channel, and the lower air inlet channel is communicated with the smoking material.

Preferably, a diameter of a top part of the adapter port is less than that of a bottom part of the adapter port.

Preferably, the thermal insulation seat is recessed to form a heating chamber.

Preferably, an outer ring of the lower bracket is provided with a lower housing.

Preferably, an inner baffle is provided in the thermal insulation seat, and the inner baffle surrounds the smoking material.

Preferably, the inner baffle is adapted with the thermal insulation seat.

Preferably, the thermal insulation seat is made of a high-temperature-resistant material.

The present disclosure further provides an electronic hookah, the electronic hookah includes a first component and the electronic hookah smoking material loading device, and the electronic hookah smoking material loading device is connected to the first component; and

the first component is provided with a heater, and smoking material and the heater are arranged oppositely.

The present disclosure further provides an electronic hookah, the electronic hookah includes the electronic hookah smoking material loading device, a main unit is provided with a heater, and smoking material and the heater are arranged oppositely.

The present disclosure specifically includes the following advantages:

In the embodiments of the present disclosure, compared with the prior art that “the baking-type water pipe smoking device at a high temperature easily damages the loading device or other components and affects the life of the device, and the heat utilization rate inside the smoking material is not high”, the present disclosure provides a solution of “thermal insulation seat”, specifically, the main unit includes a lower bracket, a thermal insulation seat and a base; the thermal insulation seat and the base are arranged in the lower bracket; the thermal insulation seat is provided with a cavity for containing a smoking material; the lower bracket is provided with a mounting assembly for connecting or fixing a heating device; the thermal insulation seat is arranged at one end of the base, an adapter port is provided in the other end of the base, and the adapter port is communicated with a container filled with filtrate; the adapter port is provided with an air outlet hole, and the air outlet hole is communicated with the smoking material; and when heated, the smoking material is atomized into gas and passes through the thermal insulation seat to the base. The problem that the loading device or other components are easily damaged when a temperature of the baking type water passing smoking device is too high, the service life of the device is affected, and the heat utilization rate inside the smoking device is not high is solved by the “thermal insulation seat”, the effect of ensuring that the loading device or other components cannot be damaged due to the high temperature of the smoking material in the using process is achieved, and the thermal insulation seat provides a satisfactory thermal insulation effect. Meanwhile, the design of the thermal insulation seat can also help to reduce the loss of heat and improve the energy utilization efficiency.

BRIEF DESCRIPTION OF DRAWINGS

To describe the technical solutions in the present disclosure more clearly, the following briefly describes the accompanying drawings for describing the present disclosure. Apparently, the accompanying drawings in the following description show some embodiments of the present disclosure, and those of ordinary skill in the art may still derive other drawings from these accompanying drawings without creative efforts.

FIG. 1 is a schematic diagram of a main unit of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 2 is a first perspective view of an atomizer pot of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 3 is a second perspective view of an atomizer pot of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 4 is a schematic structural diagram of a pot body of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 5 is a schematic structural diagram of a top part of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 6 is an exploded view of an atomizer pot of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 7 is a schematic structural diagram of a mesh sheet of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 8 is a schematic structural diagram of a pot cover of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 9 is a schematic diagram of a heating scene of an atomizer pot of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 10 is a first cross-sectional view of a thermal insulation seat of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 11 is a perspective view of a thermal insulation seat of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 12 is a second cross-sectional view of a thermal insulation seat of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 13 is a schematic diagram of the mounting steps of an atomizer pot of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 14 is a schematic diagram of a main unit of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 15 is a schematic diagram of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 16 is a diagram of the mounting steps of a main unit of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 17 is a diagram of the mounting steps of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 18 is a schematic diagram of an overall structure of a main unit of an electronic hookah smoking material loading device according to the present disclosure.

FIG. 19 is a schematic structural diagram of a lower bracket of an electronic hookah smoking material loading device according to the present disclosure.

1000: electronic hookah; 1000′: main unit; 100: lower housing; 101: lower bracket; 102: thermal insulation seat; 103: heating chamber; 104: bottom housing; 105: adapter port; 106: lower air inlet hole; 107: lower air inlet channel; 108: air outlet hole; 109: inner baffle; 110: opening and closing assembly; 111: mounting assembly; 1021: seat bottom; 1022: seat wall; 10221: inner baffle; 1023: thermal insulation cavity; 1024: seat top; 1051: air outlet hole; 1052: seat edge; 1053: support part; 200: upper housing; 201: battery; 202: battery compartment; 203: heating component; 2031: heat insulator; 20311: first mica sheet; 20312: second mica sheet; 2032: thermal insulation bracket; 2033: heater; 2034: protective cover; 204: upper bracket; 205: upper air inlet hole; 206: upper air inlet channel; 10: atomizer pot; 1: pot body; 11: air inlet and air passing hole; 11′: air outlet and air passing hole; 12: top part; 121: flat part; 122: convex part; 123: air passing pipe; 124: rivet; 13: side wall; 14: cavity; 141: opening; 142: smoking material; 2: pot cover; 21: engaging part; 3: mesh sheet; 31: mesh bottom; 32: mesh edge; 33: arc-shaped through hole; 34: mounting hole; 300: container; 301: mouthpiece; 302: filtrate; 303: adapter piece; and 304: straw.

DETAILED DESCRIPTION

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. When a temperature of the charcoal of the baking-type water pipe smoking device is too high, the high temperature of the smoking material may damage the loading device or other components, thus affecting the service life of the device.

In the embodiments of the present disclosure, compared with the prior art that “the baking-type water pipe smoking device at a high temperature easily damages the loading device or other components and affects the life of the device, and the heat utilization rate inside the smoking material is not high”, the present disclosure provides a solution of “thermal insulation seat”, specifically, the main unit includes a lower bracket, a thermal insulation seat and a base; the thermal insulation seat and the base are arranged in the lower bracket; the thermal insulation seat is provided with a cavity for containing a smoking material; the lower bracket is provided with a mounting assembly for connecting or fixing a heating device; the thermal insulation seat is arranged at one end of the base, an adapter port is provided in the other end of the base, and the adapter port is communicated with a container filled with filtrate; the adapter port is provided with an air outlet hole, and the air outlet hole is communicated with the smoking material; and when heated, the smoking material is atomized into gas and passes through the thermal insulation seat to the base. The problem that the loading device or other components are easily damaged when a temperature of the baking type water passing smoking device is too high, the service life of the device is affected, and the heat utilization rate inside the smoking device is not high is solved by the “thermal insulation seat”, the effect of ensuring that the loading device or other components cannot be damaged due to the high temperature of the smoking material in the using process is achieved, and the thermal insulation seat provides a satisfactory thermal insulation effect. Meanwhile, the design of the thermal insulation seat can also help to reduce the loss of heat and improve the energy utilization efficiency.

FIG. 1 is a schematic structural diagram of an electronic hookah smoking material loading device according to the present disclosure, which may specifically include a main unit, the main unit includes a lower bracket, a thermal insulation seat and a base; the thermal insulation seat and the base are arranged in the lower bracket; the thermal insulation seat is provided with a cavity for containing a smoking material; the lower bracket is provided with a mounting assembly for connecting or fixing a heating device; the thermal insulation seat is arranged at one end of the base, an adapter port is provided in the other end of the base, and the adapter port is communicated with a container filled with filtrate; the adapter port is provided with an air outlet hole, and the air outlet hole is communicated with the smoking material; and when heated, the smoking material is atomized into gas and passes through the thermal insulation seat to the base.

The following is a further description of an electronic hookah smoking material loading device in this exemplary embodiment.

In an embodiment of the present disclosure, the main unit includes a lower bracket 101, a thermal insulation seat 102, and a base 1021; the thermal insulation seat 102 and the base 1021 are arranged in the lower bracket 101; and an outer ring of the lower bracket is provided with a lower housing.

As an example, as shown in FIG. 19, the lower bracket 101 is used as a frame of the entire device and may play an effective support role. The lower bracket 101 is a component that connects the inside and outside, the thermal insulation seat 102 and the base 1021 are arranged in the lower bracket 101, an outer ring of the lower bracket 101 is provided with a lower housing 100, which serves as an internal frame of the entire device. An inner ring of the lower bracket 101 has the same shape as the thermal insulation seat 102 and the base 1021 inside. The outer ring of the lower bracket 101 is engaged with the lower housing 100.

In an embodiment of the present disclosure, the lower bracket 101 is provided with a mounting assembly for connecting or fixing a heating device; one side of the lower bracket 101 is provided with a mounting assembly 111 connected to a heating device, and the mounting assembly 111 may connect the present disclosure to a heating device in a fixed manner, can connect the present disclosure to a heating device in a detachable manner, or can connect the present disclosure to a heating device in a movable manner.

In an embodiment of the present disclosure, the thermal insulation seat 102 is provided with a cavity for containing a smoking material; a gap is formed between the thermal insulation seat 102 and an atomizer pot filled with the smoking materials, and a groove for clamping the atomizer pot is formed in the thermal insulation seat 102, so that a certain gap is formed, and thermal insulation is effectively achieved.

In a specific embodiment, the thermal insulation seat 102 ensures that the loading device or other components are not damaged by the high temperature of the smoking material during use. The thermal insulation seat 102 may be made of a high-temperature-resistant material, and may be made of a silicone material, so as to provide a satisfactory thermal insulation effect. The design of the thermal insulation seat 102 may also help to reduce heat dissipation and improve energy utilization efficiency.

In an embodiment of the present disclosure, the thermal insulation seat 102 is recessed to form a heating chamber 103, and the heating chamber 103 is used to contain a space of the atomizer pot. An inner baffle 10221 is provided in the thermal insulation seat 102, and the inner baffle 10221 is arranged to surround the pot body 1. An outer wall of the inner baffle 10221 is attached to an inner wall of the thermal insulation seat 102, and the inner baffle 10221 is made of a high-temperature-resistant material, such as ceramic and metal.

In a specific embodiment, as shown in FIG. 18, the inner baffle 10221 is spaced from the atomizer pot containing the smoking material to provide better thermal insulation and ventilation.

In an embodiment of the present disclosure, an adapter port 105 is provided in the other end of the base 1021, and the adapter port 105 is connected with a container 300 filled with filtrate; the adapter port 105 is provided with an air outlet hole connected with the smoking material; and when heated, the smoking material is atomized into gas, which passes through the thermal insulation seat 102 to the adapter port 105 and then flows to the container 300. In a specific embodiment, the adapter port 105 is used to circulate the gas atomized from the smoking material into the container 300, and the adapter port 105 is in a conical shape and adapted with a mouth of the container 300, so that the electronic hookah 1000 may be placed above the container 300.

In an embodiment of the present disclosure, a lower air inlet hole is provided in the base 1021; and a first gap is provided between the base 102 and the adapter port 105, the first gap is communicated with the lower air inlet hole to form a lower air inlet channel, and the lower air inlet channel is communicated with the smoking material.

The present disclosure further provides an electronic hookah. The electronic hookah includes a first component and the electronic hookah smoking material loading device, and the electronic hookah smoking material loading device is connected to the first component; and the first component is provided with a heater, and smoking material and the heater are arranged oppositely.

The present disclosure further provides an electronic hookah. The electronic hookah includes the electronic hookah smoking material loading device, a main unit is provided with a heater, and smoking material and the heater are arranged oppositely.

As an example, as shown in FIGS. 14 and 15, FIGS. 14 and 15 are schematic diagrams of a main unit of an electronic hookah and an electronic hookah, respectively. The present disclosure provides an electronic hookah 1000. The electronic hookah 1000 includes a main unit 1000′ and a container 300 assembled with the main unit 1000′. The main unit 1000′ is used to generate smoke from the smoking material 142 placed in the main unit 1000′ and to deliver the smoke into the container 300. The container 300 is filled with filtrate 302. The container 300 is further provided with a straw 301 and a mouthpiece 304 for drawing smoke flowing into the container 300 from the main unit 1000′. The present disclosure achieves that the smoke generated by the main unit 1000′ flows into the container 300 by arranging a plurality of air passing holes for the flow of the smoke, air and other gases and corresponding air flow channels on the main unit 1000′. Specific features of the components in main unit 1000′ are described in detail below to describe how main unit 1000′ generates smoke and how the smoke is delivered to container 300.

As an example, FIG. 1 is a schematic diagram of a main unit of an electronic hookah provided according to an embodiment of the present disclosure. The present disclosure further provides a main unit 1000′ of an electronic hookah 1000. The main unit 1000′ is assembled with a container 300 filled with filtrate 302. The main unit 1000′ is used to generate smoke from the smoking material 142 placed therein and input the smoke into the container 300 for being filtered and then being sucked by the user. The main unit 1000′ includes a lower bracket 101, a thermal insulation seat 102, an atomizer pot 10 and a base 104. The thermal insulation seat 102 is mounted on the lower bracket 101 and is provided with a hollow heating chamber 103. The heating chamber 103 is formed by a thermal insulation seat 102 recessed inwardly from the top part of the thermal insulation seat 102. The thermal insulation seat 102 is made of a high-temperature-resistant material. The atomizer pot 10 is detachably placed in the heating chamber 103 and surrounded by the thermal insulation seat 102. The opposite two end faces of the atomizer pot 10 are exposed by the heating chamber 103 and are provided with air inlet and air passing holes 11 and air outlet and air passing holes 11′. The atomizer pot 10 is made of stainless steel. The base 104 is provided with an adapter port 105 and a plurality of lower air inlet holes 106 at intervals. The adapter port 105 is made of stainless steel. A first gap is provided between the base 104 and the adapter port 105. The first gap is communicated with a lower air inlet hole 106 to form a lower air inlet channel 107. The lower air inlet channel 107 is communicated with an air inlet and air passing hole 11. The adapter port 105 is provided with an air outlet hole 1051. The air outlet hole 1051 is communicated with an air outlet and air passing holes 11′. The specific structures of components of the atomizer pot 10 are described in detail below.

In a specific embodiment, referring to FIGS. 2, 3 and 4, the atomizer pot 10 provided by the present disclosure is used to store a smoking material 142 and produce smoke for a user to inhale. The atomizer pot 10 provided by the present disclosure may fully atomize the smoking material 142 under the heated condition, and meanwhile, the smoking material 142 is not burnt due to excessive heating, so that the smoke quality is improved.

In a specific embodiment, the atomizer pot 10 includes a pot body 1 and a pot cover 2. In the present disclosure, the pot body 1 and the pot cover 2 are exposed by the heating chamber 103. The pot body 1 is provided with an air inlet and air passing hole 11, and the pot cover 2 is provided with an air outlet and air passing hole 11′. The pot body 1 may be made of a material that is easy to conduct heat and store heat, such as stainless steel. The pot body 1 includes a top part 12, a side wall 13 extending around an edge of the top part 12, and a cavity 14 having an opening 141 and enclosed by the top part 12 and the side wall 13. The air inlet and air passing hole 11 is used to guide external air to flow into the cavity 14 and contact the smoking material 142. The top part 12 is heated by a heating component 203 to generate heat. The present disclosure contains a smoking material 142 by the cavity 14. The pot cover 2 covers the cavity 14, so that the smoking material 142 is confined in the atomizer pot 10. Since the side wall 13 is formed by extending around an edge of the top part 12, the top part 12 transfers heat to the side wall 13 after being heated, so that the smoking material 142 contacting the side wall 13 is heated to generate smoke, which not only increases a heating area of the smoking material 142 loaded in the cavity 14, but also prevents the smoking material 142 from being partially burned due to excessive heating. The pot cover 2 is detachably mounted on one end of the side wall 13 far away from the top part 12, and the pot cover 2 covers the opening 141. When the top part 12 is heated and conducts the heat to the side wall 13, the side wall 13 may partially conduct the heat to the pot cover 2 to further even out the heating of the smoking material 142 at different positions in the cavity 14. The specific features of the pot cover 2 are further described below.

As an example, as shown in FIG. 8, the pot cover 2 is provided with a plurality of air inlet and air passing holes 11 in a direction opposite to the opening 141. The air inlet and air passing holes 11 are used to guide the smoke to flow out of the atomizer pot 10. In the present disclosure, the shape and number of the air inlet and air passing holes 11 and air outlet and air passing holes 11′ and the interval between the air passing holes are only an example of the air inlet and air passing holes 11 and air outlet and air passing holes 11′, which are not intended to limit the air inlet and air passing holes 11 and air outlet and air passing holes 11′. The shape and number of the air inlet and air passing holes 11 and air outlet and air passing holes 11′ and the interval between the air passing holes may be adjusted based on a requirement of the atomizer pot 10. To ensure that the pot cover 2 can stably cover the opening 141, a plurality of engaging parts 21 are spaced apart at an edge of the pot cover 2. When the pot cover 2 covers the opening 141, the plurality of engaging parts 21 are engaged with a bottom edge of the pot body 1 far away from the top part 12. Preferably, the plurality of engaging parts 21 are symmetrically distributed on a bottom edge of the pot cover 2 facing the cavity 14.

In a specific embodiment, after the top part 12 of the atomizer pot 10 is heated, the heat of the heating component 203 is transferred to the top part 12, the side wall 13 and the pot cover 2 to achieve uniform heating of the smoking material 142 loaded in the cavity 14. When the top part 1 in the present disclosure is heated by the heating component 203, the smoking material 142 is positioned above the pot cover 2, and the pot body 1 is positioned above the smoking material 142. That is, when the heating component 203 heats the atomizer pot 10, the heating component 203, the pot body 1, the smoking material 142 and the pot cover 2 are 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 142 close to the heating component 203 may be avoided.

As specifically shown in FIG. 5, since the top part 12 directly contacts a heat source, to avoid the situation that the smoking material 142 close to the top part 12 is excessively heated, the top part 12 of the present disclosure is provided with a plurality of annular convex parts 122 and a plurality of annular flat parts 121, and the top part 12 is provided with a plurality of air inlet and air passing holes 11. Specifically, the flat parts 121 and the convex parts 122 are alternately arranged. The convex part 122 is a portion of the top of the atomizer pot 10 that protrudes away from the cavity 14 and directly contacts the heating component 203. Since the convex part 122 directly contact the heating component 203, the air inlet and air passing hole 11 is provided in the flat part 121. The flat part 121 provided with the air inlet and air passing hole 11 has some gaps from the heating component 203 to uniformly distribute the heat of the heating component 203 to the top part 12 to allow the air to sufficiently enter the cavity 14. Meanwhile, the situation that the local excessive heating of the smoking material 142 is caused by uneven air contact may be avoided. The convex part 122 and the flat part 121 in the present disclosure may be adjusted based on a shape of the pot body 1. For example, when the pot body 1 has a circular truncated cone shape as a whole, the convex part 122 and the flat part 121 may be provided in an annular shape.

In a specific embodiment, a plurality of convex parts 122 and a plurality of flat parts 121 are added to the top part 12, and a plurality of air inlet and air passing holes 11 are provided on the top part 12, so that air may fully enter the atomizer pot 10, and the smoking material 142 may be fully heated. The atomizer pot 10 provided by the present disclosure can also increase the contact area between the interior of the smoking material 142 and external air, thereby making the heating inside the smoking material 142 uniform. Specific features of the atomizer pot 10 are further described below to describe how to further increase the contact area between the inside of the smoking material 142 and the external air.

As an example, as shown in FIG. 6, the atomizer pot 10 is further provided with an air passing pipe 123. The air passing pipe 123 is a hollow cylinder. The air passing pipe 123 is used to guide external air into the cavity 14 to contact the smoking material 142, so that the smoking material 142 may be sufficiently heated. The air passing pipe 123 has one end connected to the top part 12 and the end extending away from the top part 12. In the present disclosure, the air passing pipe 123 and the smoking material 142 are contained together in the cavity 14, and the air passing pipe 123 fully contacts the smoking material 142. The air passing pipe 123 is provided with a plurality of air inlet and air passing holes 11 for the external air to contact the smoking material 142. When the smoking material 142 is heated and atomized to generate smoke, air entering from the air inlet and air passing hole 11 of the top part 12 can fully contact the interior of the smoking material 142 through the air inlet and air passing hole 11 of the air passing pipe 123, so that the contact area between the interior of the smoking material 142 and the external air is increased, and the heating effect of the smoking material 142 is improved.

In a specific embodiment, a tail end of the air passing pipe 123 does not protrude from the side wall 13 to facilitate the disassembly and cleaning of the atomizer pot 10. Preferably, one end of the air passing pipe 123 is riveted to a center of the top part 12 by a rivet 124 to further increase the contact area between the air passing pipe 123 and the smoking material 142. The end of the air passing pipe 123 is fixedly mounted in a pipe hole provided in the pot cover 2.

In a specific embodiment, it is described that the contact area between the smoking material 142 inside the cavity 14 and the external air is increased by the air passing pipe 123 to achieve the effect of increasing the heating of the smoking material 142. To avoid excessive heating of the smoking material 142, the atomizer pot 10 of the present disclosure also provides isolation between the top part 12 directly contacting the heat component 203 and the smoking material 142. Specific features of the atomizer pot 10 are further described below to describe how to achieve isolation between the top part 12 and the smoking material 142.

As an example, as shown in FIG. 7, the atomizer pot 10 further includes a mesh sheet 3. The mesh sheet 3 is positioned in the cavity 14 and close to the top part 12. The mesh sheet 3 is made of stainless steel, so as to conduct heat generated by heating the top part 12 to the smoking material 142. Specifically, the edge of the mesh sheet 3 contacts the top part 12 and forms a gap between the rest of the mesh sheet 3 and the top part 12, and the heat received by the top part 12 is transferred from the edge of the mesh sheet 3 to the mesh sheet 3 and further to the smoking material 142 close to the top part 12. The mesh sheet 3 only partially contacts the top part 12 to avoid the direct contact of the top part 12 and the smoking material 142, which is convenient for cleaning the pot body 1 and can avoid the probability that the smoking material 142 close to the top part 12 is locally burnt due to uneven heating caused by overhigh temperature of the top part 12.

In a specific embodiment, the mesh sheet 3 has a grid-like arc-shaped structure. The mesh sheet 3 is provided with a mounting hole 34 so as to be sleeved on the air passing pipe 123 through the mounting hole 34. The mesh sheet 3 includes a mesh bottom 31 provided opposite to the top part 12, and a mesh edge 32 extending obliquely from the mesh bottom 31 toward the top part 12. The mesh bottom 31 is provided with a plurality of arc-shaped through holes 33. A plurality of arc-shaped through holes 33 are used to increase the contact area between the smoking material 142 and the air, thereby improving the heating efficiency of the smoking material 142. The edge of the mesh sheet 3 is the edge of the mesh edge 32. Since one end of the air passing pipe 123 is riveted to the center of the top part 12 by the rivet 124, the mounting hole 34 is also provided in the mesh sheet 3 corresponding to the center of the top part 12.

In a specific embodiment, the top part 12 is isolated from the smoking material by the mesh sheet 3 arranged in the cavity 14 close to the top part 12, thereby further reducing excessive heating of the smoking material 142. The heating conditions of different loading of the smoking material 142 are described by the following specific examples.

In a specific embodiment, FIG. 9 is a schematic diagram of a heating scene of an atomizer pot according to an embodiment of the present disclosure, and the pot body 1 is in a circular truncated cone shape as a whole. The size of the side wall 13 gradually increases from the top part 12 to the bottom. Along an axial direction parallel to the top part 12, a cross-sectional area of the top 12 is less than that of the pot cover 2. During the process of heating the atomizer pot 10 by the heating component 203, the top part 12 is arranged opposite to and in direct contact with the heating component 203. The heating component 203 and the atomizer pot 10 are configured as the heating component 203, the top part 12, the pot body 1 and the pot cover 2 from top to bottom. In the present disclosure, the smoking material 142 is loaded in the cavity 14 in the form of smoking paste. When the smoking material 142 is not fully loaded in the cavity 142, a vertical height of the smoking material 142 from the top part 12 is less than that of the top part 12 to the pot cover 2; that is, the smoking material 142 can only contact one of the top part 12 and the pot cover 2, and the smoking material 142 contacts the side wall 13 matching the shape of the cavity 14 and the side wall 13. When the top part 12 is heated by the heating component 203, the smoking material 142 adapts to the shape of the cavity 14 and directly contacts the mesh sheet 3 and the side wall 13 to be fully heated. When the smoking material 142 is fully loaded in the cavity 14 and the top part 12 is heated by the heating component 203, the smoking material 142 receives heat from the mesh sheet 3, the side wall 13 and the pot cover 2 and is heated sufficiently, and the local heating of the smoking material 142 close to the top part 12 is slowed down without burning.

In a specific embodiment, specific features of the components in the atomizer pot 10 are described. The atomizer pot 10 of the present disclosure is contained in the thermal insulation seat 102 by being mounted to the heating chamber 103. The specific features of the components in the thermal insulation seat 102 are described in detail below.

In an embodiment of the present disclosure, as specifically shown in FIGS. 10, 11 and 12, FIGS. 10 and 12 are cross-sectional view of a thermal insulation seat mounted to a main unit and a thermal insulation seat not mounted to a main unit, respectively, and FIG. 11 is a perspective view of a thermal insulation seat. The thermal insulation seat 102 is made of a high-temperature-resistant material to achieve thermal insulation between the atomizer pot 10 and other components of the main unit 1000′. The thermal insulation seat 102 includes a seat wall 1022, a seat bottom 1021 at a bottom part of the seat wall 1022, and a seat top 1024 at a top part of the seat wall 1022. The adapter port 105 is positioned on the seat bottom 1021. The seat bottom 1021 includes a seat edge 1052 surrounding an edge of the air outlet hole 1051, and a support part 1053 extending obliquely from the seat edge 1052 to the bottom part of the seat wall 1022. The pot cover 2 contacts the support part 1053 and forms a gap between the other parts of the atomizer pot 10 and the thermal insulation seat 102, so that the heat of the atomizer pot 10 is not dissipated to the thermal insulation seat 102, thereby ensuring the heating efficiency of the smoking material 142.

In an embodiment of the present disclosure, an inner baffle 10221 is provided in the thermal insulation seat 102. The inner baffle 10221 is arranged around the atomizer pot 10. Specifically, the inner baffle 10221 is positioned between the seat wall 1022 and the atomizer pot 10. The inner baffle 10221 contacts an outer wall of the atomizer pot 10 to form a gap. The inner baffle 10221 is in a shape of a hollow cylinder. The inner baffle 10221 is made of stainless steel. The seat top 1024 includes a first seat top 10241 and a second seat top 10242 surrounding a top part of the seat wall 1022. The second seat top 10242 is connected to two ends of the first seat top 10241. The second seat top 10242 is recessed from the first seat top 10241 toward the bottom of the seat wall 1022. The atomizer pot 10 protrudes from the second seat top 10242.

In an embodiment of the present disclosure, the main unit 1000′ further includes a lower housing 100. The lower housing 100 is connected to the base 104. The lower bracket 101 is accommodated in the lower housing 100. The main unit 1000′ further includes an upper bracket 204 and a heating component 203 fixed to the upper bracket 204. The heating component 203 is used to generate heat and directly contacts the atomizer pot 10 to directly transfer the heat to the atomizer pot 10. The upper bracket 204 is connected to the lower bracket 101.

In a specific embodiment, the upper bracket 204 may further rotate relative to the lower bracket 101, so that the heating component 203 opens at an angle relative to the atomizer pot 10 to detach the atomizer pot 10, or the heating component 203 covers the atomizer pot 10. The main unit 1000′ further includes an upper housing 200. The upper bracket 204 is mounted in the upper housing 200. The upper housing 200 and the lower housing 100 in the present disclosure are provided with an opening and closing assembly 110 matched with each other, so that the upper bracket 204 may be controlled to rotate relative to the lower bracket 101 by controlling the opening and closing assembly 110. The upper housing 200 and the lower housing 100 are also connected together by a mounting assembly 111. A battery compartment 202 for containing a battery 201 is provided on one side of the upper housing 200 far away from the heating component 203. The battery 201 provides power for the normal operation of the main unit 1000′. The heating component 203 generates heat with the power supplied from the battery 201.

In an embodiment of the present disclosure, an adapter piece 303 is provided on one side of the container 300 facing the lower bracket 101. The adapter piece 303 is used to match with the adapter port 105 to mount the container 300 to the base 104. The adapter port 105 is provided with an air outlet hole 1051 penetrating along the air outlet and air passing hole 11′. The air outlet and air passing hole 11′ is communicated with the air outlet hole 1051, so that the smoke can flow out of the air outlet and air passing hole 11′ to the main unit 1000′.

In an embodiment of the present disclosure, the heating component 203 includes a heat insulator 2031, a thermal insulation bracket 2032, a heater 2033 provided on the thermal insulation bracket 2032, and a protective cover 2034 covering the heater 2033. The heater 2033 is provided with an electric heating material, and the electric heating material is formed by thick-mold printing and low-temperature glaze firing. In this embodiment, the heating material is provided on the heater 2033 in a plane spiral shape. That is, the electric heating material is provided on the heater 2033 in a specific pattern. One side of the heating component 203 is covered by a protective cover 153, and the protective cover 153 faces the lower housing 100. The protective cover 153 is used to protect the heating component 203. The protective cover 2034 directly contact the atomizer pot 10. The protective cover 2034 is made of stainless steel. The heater 2033 and the protective cover 2034 are provided with ventilation holes (not shown). The insulator 2031 is a mica sheet. The insulator 2031 includes a first mica sheet 20311 and a second mica sheet 20312. A second gap is formed between the heat insulator 2031 and the thermal insulation bracket 2032. The upper housing 200 is provided with an upper air inlet hole 205. The upper air inlet hole 205 is communicated with the ventilation hole to form an upper air inlet channel 206. The upper air inlet channel 206 is communicated with the air inlet and air passing hole 11, so that air flows into the air inlet and air passing hole 11 from the upper air inlet channel 206 to enter the atomizer pot 10, and flows out of the air outlet and air passing hole 11′ and the air outlet hole 1051 in sequence. Meanwhile, when the atomizer pot 10 is heated to make the smoking material 142 generate smoke, the smoke flows out from the air outlet and air passing hole 11′ and the air outlet hole to the container 300. How to mount the atomizer pot 10 is described below.

In a specific embodiment, FIG. 13 is a schematic diagram of the mounting steps of an atomizer pot according to the present disclosure. The mounting steps of the atomizer pot 10 are as follows: firstly, riveting an air passing pipe 123 at a center of the top part 12 by using a rivet 124, keeping the air passing pipe 123 not protruding out of the side wall 13 and enabling a plurality of air passing holes 11 to be positioned in the cavity 14; then, sleeving the mesh sheet 3 on a heat conducting air pipe 134 by the mounting hole 34, so that the mesh edge 32 contacts the top part 12 and the mesh bottom 31 is far away from the top part 12 relative to the top part 12; placing the smoking material 142 adapted to the shapes of the mesh sheet 3, the top part 12 and the cavity 14 on the mesh bottom 31, so that the mesh sheet 3 supports the smoking material 142 to be contained in the cavity 14; covering the pot cover 2 on the side wall 13, so that the engaging part 21 faces the cavity 14; and finally, locking the engaging part 21 at the bottom of the side wall 13, so that the atomizer pot 10 is mounted. Similarly, the disassembling steps of the atomizer pot 10 may be deduced according to the mounting steps of the atomizer pot 10, so that the cleaning of all components in the atomizer pot 10 is facilitated.

In a specific embodiment, the smoking material 142 can be automatically loaded into the atomizer pot 10 by an automatic filling device (not shown). Specifically, firstly, an automatic filling device fills the smoking material 142 into the pot body 1 provided with the mesh sheet 3 and the air passing pipe 123; then, after the filling of the smoking material 142 is completed, the pot cover 2 is covered on the bottom part of the pot body 1 by an automatic filling device or manually. In this case, the processing of the atomizer pot 10 is completed. That is to say, the atomizer pot 10 with a detachable pot cover 2 can achieve the standardization of smoking material and greatly improve the efficiency of smoking material filling. When the user uses the electronic hookah 1000, if the smoking material 142 is consumed, the atomizer pot 10 may be directly replaced, which is more convenient for the user. The mounting steps of the main unit 1000′ of the electronic hookah 1000 are described in detail below.

As an example, FIG. 16 is a diagram of the mounting steps of a main unit of an electronic hookah according to an embodiment of the present disclosure. The mounting steps for of a main unit 1000′ of an electronic hookah 1000 are as follows: first, mounting the upper housing 200 to the lower housing 100 by the mounting assembly 111; pressing the opening and closing assembly 110 and buckling the upper housing 200 to the lower housing 100; then opening the battery compartment 202 and mounting the battery 201 in the battery compartment 202, and pressing the opening and closing assembly 110 to release the buckling between the upper housing 200 and the lower housing 100; placing the atomizer pot 10 filled with the smoking material 142 in the heating chamber 103, so that the atomizer pot 10 is contained in the heating chamber 103, and the top part 12 of the atomizer pot 10 is opposite to the heating component 203; finally, pressing the opening and closing assembly 110 again to buckle the upper housing 200 to the lower housing 100, so as to complete the mounting of the main unit 1000′ of the electronic hookah 1000. Similarly, the disassembling steps of the main unit 1000′ of the electronic hookah 1000 can be derived according to the mounting steps of the main unit 1000′ of the electronic hookah 1000. Details are not described herein. The mounting steps of the electronic hookah 1000 are described in detail below.

As an example, FIG. 17 is a diagram of the mounting steps of an electronic hookah according to an embodiment of the present disclosure. The mounting steps of an electronic hookah 1000 are as follows: first, mounting the adapter piece 303 on the container 300, and then mounting the adapter piece 303 to the adapter port 105 in a matching manner, so that the adapter 303 is opposite to the air outlet hole 1051, thereby completing the mounting of the electronic hookah 1000. Similarly, the disassembling steps of the electronic hookah 1000 may be deduced according to the mounting steps of the electronic hookah 1000, so that the cleaning of all components in the electronic hookah 1000 is facilitated.

As an example, the atomizer pot is provided with an air inlet and air passing hole and an air outlet and air passing hole, a corresponding air inlet hole is provided on the base, a corresponding air inlet channel is formed by a gap between the adapter port and the base, so that when the atomizer is heated and the smoking material inside is atomized to generate smoke, the smoke can flow out of the main unit and enter the container based on a set air flow channel, thereby increasing the amount of smoke inhaled through the straw and improving the smoking experience.

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 electronic hookah smoking material loading device, 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.