阅读说明：本技术 一种新型高效净化水烟具 (Novel high-efficient water purification smoking set ) 是由 曾德邻 曾固 于 2020-03-29 设计创作，主要内容包括：一种净化水烟具,包括烟气净化材料贮体(100),烟气净化材料贮体(100)为可分离结构；烟气净化材料贮体(100)内设有裂泡结构(200),裂泡结构(200)为具有微孔或微隙结构以对烟气进行裂泡或碎化,或还具延长裂泡后烟气净化路径的长度。采用净化水烟具,极大的强化了净化材料对气体中有害物质去除的效果,增强净化材料对气体中有害物质去除的同时利用烟水冷却高温烟气,显著降低烟气中有害物质含量,以及彻底消除烟气中高温颗粒物对吸烟者健康的伤害。(A water purification smoking set comprises a smoke purification material storage body (100), wherein the smoke purification material storage body (100) is of a separable structure; the smoke purifying material storage body (100) is internally provided with a cracking bubble structure (200), and the cracking bubble structure (200) is of a micropore or micro-gap structure so as to crack or smash smoke or prolong the length of a smoke purifying path after cracking. Adopt the clean water smoking set, very big intensive the effect that the harmful substance got rid of in the purifying material to the gas, utilize cigarette water cooling high temperature flue gas when reinforcing the purifying material to get rid of harmful substance in the gas, show the harmful substance content in the reduction flue gas to and thoroughly eliminate the harm of high temperature particulate matter in the flue gas to the smoker's health.)

The utility model provides a novel high-efficient purification hookah, includes that the gas cleaning material stores the body, its characterized in that: the flue gas purification material storage body is of a separable structure; the smoke purifying material storage body is internally provided with a cracking bubble structure which is a micropore or micro-gap structure for cracking or breaking smoke or a three-dimensional structure with a certain height for prolonging the length of a smoke purifying path after cracking.

The novel high-efficiency water purification smoking set according to claim 1, wherein: the flue gas purification material storage body is composed of an upper body and a lower body which are connected with each other.

The novel high-efficiency water purification smoking set according to claim 2, wherein: the upper body is internally provided with a water blocking and guiding structure for preventing the water in the washing smoke from being sucked by mistake.

The novel high-efficiency water purification smoking set according to claim 3, wherein: the water-blocking and water-guiding structure is formed by multiple baffles which are arranged in a staggered mode to form a zigzag suction flue or a labyrinth suction flue.

The novel high-efficiency water purification smoking set according to claim 2, wherein: the lower body is provided with a purification material used in combination with the split bubble structure.

The novel high-efficiency water purification smoking set according to claim 1, wherein: comprises a cigarette holder arranged on the smoke purifying material storage body, and the cigarette holder is connected with a smoke suction channel pipe.

The novel high-efficiency water purification smoking set according to claim 6, wherein: the surface of the flue gas suction channel pipe is sleeved with a crack bubble structure, and the crack bubble structure is fixedly provided with a limiting pipe sleeve so as to limit the position of the crack bubble structure in the flue gas purification material storage body and/or the distance between adjacent crack bubble structures.

The novel high-efficiency water purification smoking set according to claim 1, wherein: the flue gas purification material storage body is internally provided with at least one re-cracking bubble structure.

The novel high-efficiency water purification smoking set according to claim 1, wherein: when the cracking bubble structure is multiple, the cracking bubble structure is respectively composed of the same/different cracking bubble structures.

The novel high-efficiency water purification smoking set according to claim 1, wherein: the said crack structure has the function of purifying gas.

The novel high-efficiency purifying hookah according to claim 1 or 3, characterized in that: the cigarette holder comprises a cigarette holder arranged on the smoke purifying material storage body, and an expanding structure for preventing smoke water from being sucked out is arranged on the cigarette holder.

The novel high-efficiency water purification smoking set according to claim 2, wherein: the depth of the lower body internal storage water is not lower than 8 cm.

Technical Field

The invention relates to the technical field of hookah, in particular to a novel high-efficiency purifying hookah.

Background

The Arabic hookah is a hookah which is widely applied in the world, and compared with a direct smoking cigarette, the Arabic hookah has the advantages that the content of harmful substances in the smoked cigarette is reduced due to the fact that water is used for purifying the cigarette smoke; the cooling agent has a positive significance for effectively cooling high-temperature smoke in water smoke, particularly high-temperature particles in the high-temperature smoke and thoroughly eliminating the damage of the high-temperature smoke to oral mucosa, respiratory tract and lung of a smoker.

However, the purification method and means of the water-based water purification device are original and simple, in order to prevent water from being sucked by the water-based water purification device are not to be purified by the limited and have a very limited purification method and a very-based water purification device, and has a very-based water purification method, and has a very-based purification method, and a very-based technology, which is used for purifying method for purifying technology, and a very-based water-based technology, and a very-based water.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a novel high-efficiency water purification smoking set provided by the invention;

FIG. 2 is a schematic partial cross-sectional view of a single-layer dual gas purification material according to the present invention;

FIG. 3 is a schematic view from another angle of FIG. 2;

FIG. 4 is a schematic structural diagram of a double-layer multiple gas purification material according to the present invention;

FIG. 5 is a schematic view of a partial cross-section at another angle from FIG. 4;

FIG. 6 is a schematic view of the internal structure of FIG. 1, partially cut away for the lower body and the upper body;

FIG. 7 is a schematic view of a water-blocking structure of a water-blocking and water-guiding structure of the novel efficient water-purifying smoking set provided by the invention, the water-blocking structure being disposed on the upper part of the upper body;

FIG. 8 is a schematic sectional view of an embodiment of a water-blocking and water-guiding structure of the novel efficient water-purifying smoking set provided in the upper part of the upper body;

FIG. 9 is a schematic view of a partially cut-away internal structure of an upper and a lower body of an embodiment of the high-efficiency water purification smoking set provided by the present invention;

fig. 10 is an exploded assembly view of a combined structure of a cigarette holder and a smoke suction channel tube with a multi-cracking structure according to the present invention;

FIG. 11 is a schematic view of the fastening structure shown in FIG. 10;

FIG. 12 is a sectional view of a deep water type high efficiency water purification smoking set including a water-blocking and water-guiding structure with an expanding structure according to the present invention;

reference numerals:

100 flue gas purifying material storage body	110 upper body	120 lower body
200 split bubble structure	210 flue gas inlet	220 fixed framework
230 first layer multiple crack bubble structure	240 second layer of crack bubble structure	250 first heavy crack bubble structure
260 second split bubble structure	270-group-connected split-bubble structure	280 conical surface cracking bubble structure
290 independent plane crack bubble structure	300 water-blocking and water-guiding structure	310 water guard plate
320 water guide hole	330 flue gas dispersion devices	400 hold the cigarette holder
410 ash tray	500 smoking mouth	600 flue gas suction channel pipe
610 crack bubble structure fixed limit pipe sleeve	620 fastening external screw thread structure	630 fastening nut
700 expanding structure	111 end body

Modes for carrying out the invention

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The invention provides a novel high-efficiency water purification smoking set, which comprises a smoke purification material storage body 100, wherein the smoke purification material storage body 100 is of a separable structure; the smoke purifying material storage body 100 is internally provided with a cracking bubble structure 200, wherein the cracking bubble structure 200 is a micropore or micro-gap structure for cracking bubbles or smashing smoke, or a three-dimensional structure with a certain height for prolonging the length of a smoke purifying path after cracking bubbles.

In specific implementation, as shown in fig. 1, the hookah includes a smoke purifying material storage 100, the smoke purifying material storage 100 is a separable structure, and the separable structure includes that the smoke purifying material storage 100 is divided into two parts to facilitate the detachment of the hookah and the cleaning and maintenance of the internal structure of the hookah;

the smoke purifying material storage body 100 is also internally provided with a crack bubble structure 200, the crack bubble structure 200 is a structure with micropores or microgaps, the micropore or micropore structure forces the large bubble of the gas purified by the gas purifying material to be cut or crushed into a plurality of small bubbles when passing through the micropore or micropore, the amount of gas which can not be purified by contacting with water and the contact area of the purified gas and the purifying material are contained in the split bubbles as little as possible, and the structure with the micropore or micropore is designed into a three-dimensional structure with a certain height as much as possible, according to the three-dimensional structure of the cracking structure 200, the rising path of the crushed bubbles in the purification material is bent, so that the rising path of the crushed bubbles in the purification material is prolonged, and the contact chance between the crushed bubbles of the gas to be purified and the purification material is increased; the effects of dissolving, absorbing, adsorbing and the like of the purifying material on harmful substances in the gas are obviously improved.

In addition, the water-based purification can also implement the following extension changes, specifically, water is used as a purification matrix, and additives are added into the purification matrix water to modify the purification matrix water, so that the purification matrix water is more favorable for removing harmful substances in gas; the additive can be a surfactant, an acid-base regulator, quicklime or quicklime water and the like.

Preferably, the rupture structure 200 also has the function of purging gas.

In specific implementation, when the cracking structure 200 is a solid-shaped purification material with purification functions of interception, adsorption, dissolution, absorption, etc., for example, an activated carbon material is used to adsorb harmful substances in the purified gas, according to actual usage scenarios, the flue gas purification material storage body 100 may be provided with only the solid-shaped purification material or realize the purification of the flue gas by combining the solid-shaped purification material with water.

In specific implementation, the cracking bubble structure 200 is a solid geometric structure, the specific shape of the geometric structure is determined by the shape and size of the inner cavity of the flue gas purification material storage 100, which is the target of the device, and typical examples include a micropore/micropore plate structure, a micropore/micropore straight cylinder structure, a micropore/micropore annular cylinder structure, and the like.

Particularly, for the existing arabic hookah, the split bubble structure 200 provided by the invention is designed with a single-layer multiple annular belt structure and an upper-layer multiple annular belt structure and a lower-layer multiple annular belt structure.

In order to further illustrate the single-layer multiple-ring structure and the upper and lower multiple-ring structures provided by the present invention, the following examples are also provided:

in specific implementation, as shown in fig. 2 and 3, according to a usage scenario, a specific embodiment of the crack bubble structure 200 is provided: a single-layer double structure;

the working principle of the single-layer double-gas purification material is as follows: as shown in fig. 2 and 3, smoke bubbles or smoke gas flow enters the crack bubble structure 200 through the smoke gas inlet 210, and a smoke chamber is constructed through the structural relationship between the fixed skeleton 220 of the crack bubble structure 200 and the crack bubble structure 200, so that the sucked smoke gas is forced to travel through the path set by the crack bubble structure 200;

in specific implementation, as shown in fig. 4 and 5, according to a usage scenario, a specific embodiment of the crack bubble structure 200 is provided: a double-layer triple structure;

the working principle of the double-layer triple-structure gas purification material is as follows: as shown in fig. 4, 5, and 6, the smoke bubble or smoke flow enters the first multi-layer structure 230 through the smoke inlet 210, and passes through the smoke chamber formed by the structural relationship between the fixed framework 220 of the structure 200 and the first multi-layer structure 230, so that the sucked smoke must travel through the path set by the first layer of the structure 200, and then enters the smoke chamber formed by the structural relationship between the smoke purifying material storage 100 and the second multi-layer structure 240 after passing through the first multi-layer structure 230, so that the smoke passing through the first multi-layer structure 230 must travel through the path set by the second multi-layer structure 240 again.

It should be noted that the structural features of the above-mentioned burst structure 200 are only a few examples, and are not limited to a "single-layer double structure" or a "double-layer triple structure", but may be other three-dimensional structures, and any burst structure 200 that can adapt to the internal shape of the smoke purifying material storage 100 and cooperate with the purifying material to purify smoke may be taken as a specific embodiment of the present invention.

Furthermore, the invention provides a specific embodiment of the application of the split bubble structure 200 to a novel arabian hookah:

as shown in fig. 1 and fig. 6, the operating principle of the single/multilayer double/multiple-cracking type arabian hookah is as follows: the smoke purifying material storage body 100 is stored with smoke cleaning water, the smoke cleaning water submerges the single-layer double-type gas purifying material, smoke flow enters the interior of the single-layer double-type cracking structure 200 through the smoke suction channel pipe 600, as shown in fig. 1, a relatively closed smoke chamber constructed by the structural relationship between the fixed framework 220 of the cracking structure 200 and the cracking structure 200 forces the sucked smoke to pass through the cracking structure 200, and due to the blocking of the fixed framework 220 above, the smoke can only flow from the first cracking structure 250 to the second cracking structure 260 in the radial direction, then flows into the smoke purifying material storage body 100, and effectively improves the smoke purifying effect of the smoke cleaning water through the blocking and cracking of the two-wheel cracking structure 200, or further comprises adsorption, absorption and the like, and is matched with a tortuous gas advancing path in the cracking structure 200;

in addition, as shown in fig. 6, for the multi-layer bubble structure 200, the gas to be purified enters from the cigarette holder 400, enters the bubble structure 200 along the smoke suction channel tube 600, and then sequentially passes through the first multi-layer bubble structure 230, and then the smoke passing through the first multi-layer bubble structure 230 is forced to pass through the second multi-layer bubble structure 240 according to the relatively closed smoke chamber formed by the fixed framework 220, the smoke purifying material storage body 100 and the bubble structure 200, so that the smoke passing through the multi-layer bubble structure 200 is purified by the smoke cleaning water or the dry purifying material, and finally sucked out from the cigarette holder 500, thereby greatly improving the purification effect of the smoke in water.

The first and second re-cracked foam structures 250 and 260 and the first and second multi-cracked foam structures 230 and 240 may be a cracked foam structure 200 having only a cracking function, such as a ceramic material, or a cracked foam structure 200 having a cleaning function, such as an activated carbon material.

It is noted that the split bubble structure 200 with purification function can be used when the washing smoke water or the modified washing smoke water is not injected; when the washing smoke water or the modified washing smoke water is injected at the same time, the mixed purification is realized.

Preferably, the flue gas cleaning material silo 100 is constructed of an upper body 110 and a lower body 120 that are connected to each other.

In specific implementation, the flue gas purification material storage body 100 is composed of an upper body 110 and a lower body 120 which are connected with each other, and the connection mode of the upper body 110 and the lower body 120 is preferably a sealed and fixed connection; the sealing and fixing modes comprise clamping jaw connection, screws, spiral rings, band-type brakes, flanges, threads, clamping sleeves and the like;

it should be noted that the above-mentioned connection (or splicing) manner is only an exemplary embodiment, and is not limited to the above-mentioned connection manners, and all the manners of supporting the sealing and fixing of the upper body 110 and the lower body 120, especially supporting the upper body 110 and the lower body 120 to conveniently realize the sealing and fixing, belong to the specific embodiments of the present invention;

in addition, the flue gas cleaning material storage 100 is preferably, but not limited to, only split into two parts, and may also be split into three or more parts according to the actual application.

Preferably, a water blocking and guiding structure 300 for preventing the water from being sucked by mistake is provided in the upper body 110.

In specific implementation, in order to reduce the phenomenon that the smoke is sucked out along with the water smoke from the upper body 110 when the water smoke is sucked out, so that the situation of mistaken suction is avoided; in view of this situation, a water blocking and guiding structure 300 for buffering the smoke flow is further disposed in the upper body 110, particularly in the upper body 110;

it should be noted that the water-blocking is to block the water from entering the upper body 110; the water guiding is to guide a small amount of scrubbing water which is entrained by smoke gas flow and enters the water blocking and guiding structure 300 during smoking to return to the smoke gas purifying material storage body 100, so that accumulation is eliminated, but scrubbing water caused by some abnormal conditions cannot be absolutely prevented from entering the upper body 110 and even flowing out from the cigarette holder.

Preferably, the water blocking and guiding structure 300 is a plurality of baffles arranged in a staggered manner to form a zigzag or labyrinth-shaped suction flue.

In specific implementation, the water blocking and guiding structure 300 is a labyrinth-like structure for buffering flue gas flow, so that flue gas purified by the flue gas purification material travels in a zigzag path manner in the upper body 110, and the flue gas is intercepted by the water blocking and guiding structure 300 at least once in the traveling process of entering the upper body 110, so that a small amount of flue gas washing water entering the water blocking and guiding structure 300 along with the flue gas flow is finally intercepted and guided back to the flue gas purification material storage body 100, and the possibility that the flue gas washing water in the flue gas is sucked into an inlet is reduced or even avoided.

In order to better illustrate the water blocking and guiding structure 300 provided by the present invention, the following embodiments are also provided:

in specific implementation, as shown in fig. 7, an embodiment of the upper body 110 having the water blocking and guiding structure 300 therein is provided: the water-blocking and water-guiding type upper body has a first internal structure.

In specific implementation, as shown in fig. 8, an embodiment of the upper body 110 having the water blocking and guiding structure 300 therein is provided: and a second water-blocking and water-guiding type upper body internal structure.

To further illustrate the water-blocking and water-guiding structure 300 applied to the arabic hookah of the present invention, the following examples are also provided:

as shown in fig. 7-9, the working principle is as follows: when a small amount of water enters the water-blocking and water-guiding structure 300 of the Arabic hookah along with the smoke, the water-blocking and water-guiding structure is intercepted by the water baffle 310 for multiple times, part of the water is directly intercepted and returned to the smoke purification material storage body 100, and the other part of the water flows back to the smoke purification material storage body 100 through the water-guiding hole 320 shown in FIG. 8, so that the possibility that the water in the water smoke is sucked into the inlet is reduced or even avoided.

It should be noted that the water blocking and guiding structure 300 is intended to bend the path of the smoke or a small amount of smoke-washing water entering along with the smoke inside the upper body 110, or to arrange one or more water baffles 310 with blocking function, so as to gradually block and remove the smoke-washing water in the smoke through multiple blocking.

Furthermore, as shown in fig. 9, a smoke dispersing device 330 is disposed at the smoke inlet of the water blocking and guiding structure 300, and a single smoke inlet is improved into a plurality of smoke inlets, or a smoke inlet is subdivided into a plurality of small smoke inlets, so as to reduce the flow rate of the smoke airflow before entering the upper body 110.

It should be noted that the smoke inlet of the water guide hole 320 and the water blocking and guiding structure 300 need to be prevented from overlapping with each other in terms of installation position or function, the smoke guide hole is allowed to function as water guide, but the water guide hole is not suitable to function as smoke guide, so as to reduce the smoke water entering the smoke sucking channel as much as possible.

Preferably, the bulb structure 200 is disposed within the lower body 120, and the lower body 120 has a decontaminating material deployed therein for use in conjunction with the bulb structure 200.

In particular, as shown in fig. 9, the burst structure 200 is disposed in the lower body 120, and a purification material used in combination with the burst structure 200 is disposed in the lower body 120;

the purification material may be a wet purification material such as water, modified flue gas water, or a solid purification material, and the solid purification material may be a material having only a purification effect, or may also have both a foam breaking function and a purification function, such as an activated carbon material, and a hybrid purification method using water and the solid purification material may also be employed.

It is understood that the size of the opening of the lower body 120 in contact with the upper body 110 is preferably greater than or equal to the maximum radial size of the bubble breaking structure 200 installed in the lower body 120, so as to facilitate the installation of the bubble breaking structure 200, and of course, when a plurality of bubble breaking structures 200 are installed in the lower body 120, the size of the opening of the lower body 120 is designed according to the bubble breaking structure 200 with the maximum radial size.

Preferably, the smoke purifying material storage body 100 comprises a cigarette holder 400 arranged on the smoke purifying material storage body 100, and the cigarette holder 400 is connected with a smoke suction passage pipe 600 arranged in the smoke purifying material storage body 100 in a penetrating way.

In specific implementation, as shown in fig. 9, a cigarette holder 400 is arranged above the smoke purifying material storage body 100, a smoke suction passage pipe 600 is hermetically and fixedly connected to the lower end of the cigarette holder 400, and the smoke suction passage pipe 600 is arranged on the smoke purifying material storage body 100 in a penetrating manner; the smoke enters the smoke purifying material storage body 100 from the cigarette holder 400 through the smoke suction pipeline 600 to realize purification.

As a preferable scheme, as shown in fig. 10-12, a radial dimension of the outer end of the smoke suction channel pipe is larger than a dimension of the end hole, an external thread is arranged on the outer surface of the smoke suction channel pipe 600 at the inner side of the outer end of the smoke suction channel pipe, the smoke suction channel pipe 600 passes through the end hole arranged on the upper body 110, and the smoke suction channel pipe 600 is sealed and fixedly mounted on the end body 111 arranged on the upper body 110 by utilizing the matching of the external thread arranged on the outer surface of the smoke suction channel pipe 600 at the inner side of the outer end of the smoke suction channel pipe and the nut or the content of the end hole matched with the external thread, so as to form a sealed and fixedly mounted combination of the upper body 110 and the cracking structure 200.

As another preferable scheme, as shown in fig. 10-12, the radial dimension of the outer end of the flue gas suction channel pipe is larger than the dimension of the end hole, the end (flue gas outlet end) of the flue gas suction channel pipe 600 is provided with an external thread structure 620, the flue gas suction channel pipe 600 passes through the end hole provided in the upper body 110, and the outer side of the flue gas suction channel pipe 600 inside the end hole is provided with a bubble structure fixedly-fixing limiting pipe sleeve 610 and a bubble structure in a sleeving manner, and the bubble structure fixedly-fixing limiting pipe sleeve 610 and the bubble structure are fixedly-fixed between the end provided in the upper body 110 and the fastening nut 630 by using the external thread structure 620 and the fastening nut 630 provided in the end (flue gas outlet end) of the flue gas suction channel pipe 600, so as to form a sealing and fixedly-fixing combination of the upper body 110 and the bubble structure.

Preferably, an ash tray 410 is hermetically and fixedly connected below the cigarette holder 400, and the ash tray 410 is used for containing ash falling after burning of tobacco shreds, cigarettes and the like.

As a preferred scheme, the first cracking bubble structure 200 through which the flue gas flows out through the flue gas suction channel tube 600 adopts a conical surface structure design, which is beneficial to uniformly spreading the flue gas into the whole flue gas purification material storage body 100, so that the flue gas is better purified.

Preferably, the surface of the flue gas suction channel pipe 600 is sleeved with a crack structure fixing limiting pipe sleeve 610 to limit the position of the crack structure 200 in the flue gas purification material storage body 100 and/or the distance between the adjacent crack structures 200.

In specific implementation, in order to facilitate cleaning and maintenance of the hookah body including the internal structure thereof, as shown in fig. 10-12, an external thread structure 620 for fastening is arranged at the bottom of the smoke suction channel tube 600, a plurality of crack bubble structure fixing and limiting tube sleeves 610 are arranged on the outer surface of the smoke suction channel tube 600, and meanwhile, the crack bubble structure fixing and limiting tube sleeves 610 are limited on the smoke suction channel tube 600 through a fastening nut 630;

the arrangement of the crack bubble structure fixedly provided with the limit pipe sleeve 610 can lead the crack bubble structure 200 to be better and adaptively arranged according to the space size of the upper body 110 and the lower body 120; the arrangement of the split-bubble structure 200 on the split-bubble structure fixed limiting pipe sleeve 610 can be only one split-bubble structure 200 or a combined split-bubble structure 270, wherein the combined split-bubble structure 270 is formed by combining multiple split-bubble structures 200;

as shown in fig. 12, the travel distance of the flue gas to be purified is as follows: the smoke sequentially enters the smoke suction channel pipe 600 from the cigarette holder 400, flows out from a smoke outlet at the bottommost part of the smoke suction channel pipe 600, is purified by the purifying materials sequentially through the conical surface cracking foam structure 280, the combined cracking foam structure 270 and the independent plane cracking foam structures 290, and is finally sucked out through the cigarette holder 500;

the conical surface crack bubble structure 280, the combined crack bubble structure 270 and the plane crack bubble structures 200 are fixedly connected in a sealing manner through the matched crack bubble structure fixedly-mounted limiting pipe sleeves 610; in addition, the smoke inhalation channel tube 600 is fixedly connected with the cigarette holder 400 in a sealing manner, when the cigarette holder 400 is a cut tobacco/cigarette holder, an ash tray 410 is fixedly connected between the smoke inhalation channel tube 600 and the cigarette holder 400 in a sealing manner, and the whole good sealing performance of the hookah is realized through the sealing and the fixed connection of all the components.

It can be understood that the limit pipe sleeve 610 is fixedly arranged through the cracking foam structure, the arrangement number and the combination mode of the internal cracking foam structures 200, the distance between the adjacent cracking foam structures 200 and the distance between the cracking foam structures 200 and the top of the upper body 110 can be adaptively arranged according to the size of the smoke purifying material storage body 100, and the convenient disassembly and cleaning of the hookah are facilitated.

Preferably, the flue gas cleaning material storage body 100 is provided with a multiple-cracking foam structure 200.

Preferably, when the number of the burst structures 200 is multiple, each of the burst structures 200 is composed of the same/different burst structure.

In specific implementation, the rupturing structure 200 may be formed by the same material combination or different material combinations, or the same micro-pore/micro-gap structure combination or different micro-pore/micro-gap structure combinations;

it should be noted that each stage of the split-bubble structure 200 may have the same/different structure of the split-bubble structure 200, for example, the upper layer is made of activated carbon material, the lower layer is made of ceramic purifying material, etc., and the split-bubble structures 200 of the upper and lower layers may also have the same/different micro/micro gap structures or the split-bubble structures 200 made of materials, for example, the lower layer is made of straight micro/micro gap structure, and the upper layer is made of inclined micro/micro gap structure, etc., and the description of the structural features of the split-bubble structure 200 is only a partial example, and other specific embodiments are possible, and any method of combining and matching different types of split-bubble structures 200 or changing the single-layer or multi-layer multiple structures can be taken as the specific embodiment of the present invention.

In specific implementation, the combination mode of the split-bubble structure 200 may also be different micro-pore/micro-gap structures of the same material to form a combination of the split-bubble structures 200 with different purification efficiencies, or the same micro-pore/micro-gap structures of different materials to form a combination of the split-bubble structures 200 with different purification efficiencies; or a combination of different microporous/micro-gap structures of different materials. By combining the burst structure 200 in the above manner, the gas burst structure 200 having different purification efficiencies can be obtained.

Preferably, the cigarette holder 500 is arranged on the smoke purifying material storage body 100, and the cigarette holder 500 is provided with an expanding structure 700 for preventing smoke water from being sucked out.

In specific implementation, as shown in fig. 12, a plurality of smoking tips 500 are disposed on the storage body 100 of the smoke purifying material, the smoking tips 500 can be configured to be used by multiple users at the same time, an expanding structure 700 for holding the water to be sucked out is disposed on the smoking tips 500, when the sucked smoke passes through the expanding structure 700, the pressure of the smoke is reduced, the flow rate is reduced, the capacity of the smoke to wrap the water is reduced, the water is separated from the wrap of the water, and the smoke is automatically returned to the storage body 100 of the smoke purifying material through the smoke inlet of the channel in a state of smoking pause or termination;

preferably, the diameter expanding structure 700 is preferably disposed at a middle position of the mouthpiece 500, which is most effective.

Preferably, the water stored in the lower body 120 is not less than 8cm deep.

In specific implementation, as a preferred scheme, the depth of the storage water in the lower body 120 is not less than 8cm, a deep-water type efficient purification water tobacco product is constructed by increasing the depth of the lower body 120, and the deep-water type efficient purification water tobacco product is convenient to arrange a reusable multiple simple cracking bubble structure 200 due to the deep water of the washing water, so that the efficient purification of cigarette smoke is realized only by the cracking bubble of the cracking bubble structure 200 and the purification effect of the washing water on the smoke, and meanwhile, the increase of the water storage depth can improve the purification effect of the smoke, thereby reducing the use cost of the water tobacco body, prolonging the cleaning period of the water tobacco tool, improving the use convenience of the harvested water tobacco tool, and simultaneously, because the water is easy to obtain and can be used repeatedly, not only responding to the strategy of environmental protection and sustainable development, but also further reducing the economic cost of purification materials;

in addition, deep water purification is adopted, and more pleasant 'gurdu' sound can be generated in the process that smoke bubbles rise through a water body, so that the pleasure feeling of smokers is enhanced.

Although terms such as a smoke purifying material storage body, an upper body, a lower body, a split bubble structure, a smoke inlet, a fixed framework, a first multiple split bubble structure, a second split bubble structure, a first re-split bubble structure, a second re-split bubble structure, a combined split bubble structure, a conical split bubble structure, an independent plane split bubble structure, a water blocking and guiding structure, a water baffle plate, a water guiding hole, a smoke dispersing device, a cigarette holder, a cigarette ash tray, a cigarette holder, a smoke suction channel pipe, a split bubble structure fixed limit pipe sleeve, a fastening external thread structure, a fastening screw cap, an expanding structure and the like are more used herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.