阅读说明：本技术 一种便携高效净化水烟具 (Portable 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：一种便携高效净化水烟具,涉及水烟技术领域。该水烟具包括净化材料贮体(100),烟气吸入通道(200)和烟气吸出通道(300),烟气吸出通道(300)包括设为可收纳结构的吸出烟嘴(310),净化材料贮体(100)内设有裂泡结构(400),裂泡结构(400)具有微孔或微隙结构,可配合烟水对吸入烟气实施裂泡或碎化,极大提升水烟具对烟气中有害物质的去除效果,实现高效净化目的,显著减轻吸烟对吸烟者的健康损害,降低二手烟对他人的损害；烟具所设阻水导水结构(500)突出降低烟水被误吸；可收纳吸烟嘴结构显著缩减水烟具体积尺寸,其烟气吸入通道(200)和烟气吸出通道(300)所设阀结构杜绝烟水出漏,导致便携高效净化水烟具拥有出色便携性,有利于广泛推广应用,造福广大烟民,并显著降低二手烟的社会危害。(A portable high-efficiency water purification smoking set relates to the technical field of water smoking. The hookah comprises a purification material storage body (100), a smoke suction channel (200) and a smoke suction channel (300), wherein the smoke suction channel (300) comprises a suction cigarette holder (310) which is arranged into a storable structure, a cracking bubble structure (400) is arranged in the purification material storage body (100), the cracking bubble structure (400) is provided with a micropore or micropore structure, cracking bubbles or fragmentation can be carried out on the sucked smoke by matching with smoke water, the removal effect of the hookah on harmful substances in the smoke is greatly improved, the purpose of efficient purification is realized, the health damage of the smoking to smokers is remarkably reduced, and the damage of second-hand smoke to other people is reduced; the water-blocking and water-guiding structure (500) arranged on the smoking set prominently reduces the smoking water from being sucked by mistake; can accomodate smoking holder structure and show reduction water pipe utensil volume size, the valve structure that its flue gas suction channel (200) and flue gas suction passageway (300) were established stops the tobacco water and goes out the hourglass, leads to portable high-efficient purification water pipe utensil to possess outstanding portability, is favorable to extensive popularization and application, benefits the masses smokers to show the social harm that reduces second-hand-cigarette.)

The utility model provides a portable high-efficient purification hookah, stores the body including the scavenging material, the scavenging material stores the body and is connected with flue gas suction passageway and flue gas suction passageway respectively, flue gas suction passageway is including inhaling cigarette holder and flue gas suction inner channel, its characterized in that: the sucking cigarette holder is of a storage structure, a cracking bubble structure is arranged in the purification material storage body, and the cracking bubble structure is of a structure with micropores or microgaps and used for cracking bubbles or smashing smoke, or is of a three-dimensional structure with a certain height and used for prolonging the length of a smoke purification path after the cracking bubbles.

The portable high efficiency water purification smoking set of claim 1, wherein: and a valve structure is arranged in the smoke suction channel and/or the smoke suction channel.

The portable high efficiency water purification smoking set of claim 1, wherein: the suction cigarette holder with the storage structure is a twisting type suction cigarette holder.

The portable high efficiency water purification smoking set of claim 3, wherein: the twisting type sucking cigarette holder comprises a top twisting type sucking cigarette holder and a side twisting type sucking cigarette holder.

The portable high efficiency water purification smoking set of claim 1, wherein: the sucking cigarette holder with the storage structure is an overturning sucking cigarette holder.

The portable high efficiency water purification smoking set of claim 5, wherein: the turnover type sucking cigarette holder comprises an inward turnover type sucking cigarette holder and an outward turnover type sucking cigarette holder.

The portable high efficiency water purification smoking set of claim 1, wherein: the suction cigarette holder with the storage structure is a pull rod type suction cigarette holder.

The portable high efficiency water purification smoking set of claim 1, wherein: the sucking cigarette holder with the storage structure is a folding sucking cigarette holder.

The portable high efficiency water purification smoking set of any one of claims 1-8, wherein: the suction cigarette holder is also used for controlling the on-off of the smoke suction channel.

The portable high efficiency water purification smoking set of claim 1, wherein: the inhalation cigarette holder is also used for controlling the on-off of the smoke inhalation channel.

The portable high efficiency water purification smoking set of claim 1, wherein: and a check valve is arranged on the smoke suction inner channel.

The portable high efficiency water purification smoking set of claim 1, wherein: the smoke suction inner channel is of an attached wall type structure.

The portable high efficiency water purification smoking set of claim 1, wherein: the smoke suction inner channel is of a compromise structure.

The portable high efficiency water purification smoking set of claim 1, wherein: and the smoke suction channel are provided with single valve structures which share the same valve to control the on-off of the two channels.

The portable high efficiency water purification smoking set of claim 1, wherein: and the smoke suction channel are respectively provided with a double-valve structure for controlling the on-off of the two channels.

The portable high efficiency water purification smoking set of claim 1, wherein: and a water blocking and guiding structure for preventing the scrubbing water from being sucked by mistake is arranged in the smoke sucking channel.

The portable high efficiency water purification smoking set of claim 16, 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 portable high efficiency water purification smoking set of claim 16, wherein: the water-blocking and water-guiding structure is an expanding structure arranged in the smoke suction channel.

The portable high efficiency water purification smoking set of claim 1, wherein: the purification material storage body is internally provided with a multiple-cracking-foam structure.

The portable high efficiency water purification smoking set of claim 19, wherein: the multiple broken bubble structures are respectively composed of the same/different broken bubble structures.

The portable high efficiency water purification smoking set of claim 19, wherein: the purification effect of the crack structure increases progressively along the advancing direction of the gas to be purified.

The portable high efficiency water purification smoking set of claim 1, wherein: the shape of the rupture structure is adapted to the internal shape of the purification material reservoir such that gas passes through the rupture structure as it travels within the purification material reservoir.

The portable high efficiency water purification smoking set of claim 1, wherein: the purifier material reservoir has disposed therein a purifier material for use in conjunction with the ruptured bubble structure.

The portable high efficiency water purification smoking set of claim 23, wherein: the purifying material is one or the combination of two of dry purifying material and washing smoke water.

Technical Field

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

Background

The smoke generated by burning cigarette contains more than 4000 harmful substances, including more than 40 carcinogenic substances, and more than ten substances which can promote cancer development, such as tar, nicotine, carbon oxide, etc. The health hazard of the harmful substances in the cigarette to smokers is common knowledge, but people cannot actually move away from the cigarette. In view of the large number of smokers, the necessity and social significance of reducing the harm of harmful substances in cigarettes to smokers are very important.

To date, in order to reduce the health hazard of harmful substances in cigarettes to smokers, there are several solutions for purifying cigarette smoke on the market, and the common solutions summarize the following two: cigarette filter solutions and hookah solutions. The scheme of the cigarette filter is divided into two forms of a disposable cigarette filter and a recyclable cigarette filter, belongs to a mode of filtering smoke by the cigarette filter to reduce the harm of harmful substances in the cigarette to smokers, and has low purification efficiency due to simple purification means and short purification path of the filter tip to the harmful substances in the cigarette; in addition, the cigarette filter tip belongs to special materials, and is thrown into a disposable material after being drawn, so that the problems of material waste and high cost exist; the recyclable cigarette filter has the advantages that the smoke filtering link is added compared with the disposable cigarette filter, so that the filtering effect is improved, but the cigarette holder is required to be frequently disassembled and washed, so that the application is difficult to widely popularize;

the water tobacco scheme is common in two forms of Chinese water tobacco and Arabic water tobacco, and the basic structure of the traditional water tobacco and Arabic water tobacco in China mainly comprises 3 parts: comprises a smoke suction channel (containing a cigarette holder body), a smoke suction channel (containing a cigarette holder body) and a water tank. The water smoke purification actually contacts the water body through the smoke, the water body weakens harmful substances in cigarettes through the effects of infiltration, dissolution, adsorption, absorption and the like of the water body on the harmful substances in the smoke bubble membrane wall, although the traditional water smoke purification material, namely water, is easy to obtain and can be repeatedly used, the smoke filtration efficiency is higher than that of a filter tip, the cleaning frequency is far lower than that of a recyclable cigarette filter tip, the cooling treatment can be carried out on high-temperature particles contained in the smoke, and the advantage that the high-temperature smoke harms the throat and the lung of a human body can be remarkably reduced.

However, the purification mechanism of the traditional water smoking set is that the smoke to be smoked directly passes through the water body to be purified, the bubble forming amount of the smoke entering the water body for purification in the purification process is small, the bubble diameter is large, the amount of the smoke which is not purified and is contained in the smoke bubble and can not contact with water is large, and the path of the smoke bubble passing through the water is short, so the actual purification effect is limited. In addition, the inconvenience caused by the large-size structure of the traditional hookah also limits the exertion of the purification effect of the traditional hookah on the cigarette smoke; moreover, the water in the hookah leaks out due to the abnormal body position which is easy to happen, which affects the environment, and the water used for washing the hookah is easy to be sucked into the mouth, which causes discomfort for the smoker and further reduces the portability of the hookah.

Application number 201320816518.3's smoking device with purify smog effect's discloses a smoking device with purify smog effect, and its public day is 2014 year 10 month 8 days, smoking device includes smog admission pipe, smog output tube and smog purification mechanism, and cigarette fixed establishment is installed to the one end of smog admission pipe, and during the other end inserted smog purification mechanism, the one end of smog output tube inserted smog purification mechanism, and the filter tip was installed to the other end. The utility model discloses a although promoting to some extent harmful substance in the cigarette flue gas and the purifying effect who contains high temperature flue gas particulate matter, nevertheless do not solve the portability of hookah to and the tobacco water goes out to leak and the mistake is inhaled the problem, the inconvenience that still exists is taken and is gone out to leak with the tobacco water, and the tobacco water is inhaled by the mistake easily not enough will be outstanding its application and popularization of limitation, restricts its performance that promotes cigarette gas cleaning efficiency.

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.

Figure 1 is a schematic view of an embodiment of a twist-off type smoking mouthpiece provided with a partial twist-off valve arrangement;

figure 2 is a schematic view of an embodiment of a portable twist-and-turn smoking article having a mouthpiece in an extended (smoking) position;

FIG. 3 is a schematic view of an embodiment of a water smoking set with a portable twist-and-turn type mouthpiece in a stored state;

FIG. 4 is a schematic view of an embodiment of a portable hookah with a tip of the mouthpiece configured as a tilted twisted structure and in an expanded state;

FIG. 5 is a schematic view of an embodiment of a portable hookah with a tip of a mouthpiece arranged in a tilted twisting configuration and in a stored state;

figure 6 is a schematic view of an embodiment of a tipping puff mouthpiece provided with a partial tipping valve structure;

figure 7 is a schematic view of an embodiment of a hookah with a portable flip-top puff holder with the puff holder in a deployed (smoked) state;

fig. 8 is a schematic view of an embodiment of a water smoking set with a tipping mouthpiece in a stored state;

fig. 9 is a schematic diagram showing the open state of the smoke sucking channel of the portable hookah embodiment having a valve structure constructed by matching the flip-type sucking tip with the smoke sucking inner channel;

fig. 10 is a schematic view showing a state in which a smoke suction channel of an embodiment of the portable hookah having a valve structure in which a flip-type suction mouthpiece is fitted to a smoke suction inner channel;

FIG. 11 is a schematic view of an embodiment of a portable hookah having a smoke inhalation inner channel in a compromise deployment structure and a valve structure hookah in an open state constructed by the interaction of the inhalation mouthpiece and the smoke inhalation inner channel;

FIG. 12 is a schematic view of an embodiment of a portable hookah having a smoke inhalation inner channel in a compromise configuration and a valve structure in an off state constructed by the interaction of the inhalation mouthpiece and the smoke inhalation inner channel;

figure 13 is a schematic view of an alternative valve configuration in the off state constructed with the portable hookah smoking article suction mouthpiece and the inner smoke suction passageway of a tilted table twist and turn type suction mouthpiece;

figure 14 is a schematic view of an alternative valve configuration in an open position for a portable hookah smoking article having a tilted rotary mouthpiece and an internal smoke evacuation passageway configured with respect to one another;

figure 15 is an exploded view of the internal structure of a portable hookah with a flip-up puff tip with a ruptured bubble structure;

figure 16 is a schematic view of a twist-and-turn mouthpiece with an embodiment of a partial valve configuration;

figure 17 is an exploded view of the internal structure of a portable hookah having a twist-and-turn type smoke inhalation mouthpiece with an alternative split bubble structure, the smoke inhalation channel and the smoke inhalation channel each having a channel control valve dual valve structure;

FIG. 18 is a schematic view of an embodiment of a portable hookah having a smoke inhalation inner channel with a check valve instead of a smoke mouthpiece cooperating with the smoke inhalation inner channel and a valve structure;

FIG. 19 is a schematic view of an embodiment of a split bubble cleaned hookah with wall attachment for the inner smoke intake passage;

fig. 20 is a schematic partial sectional view of an embodiment of a water-blocking and water-guiding smoke suction channel of a zigzag channel structure;

FIG. 21 is a schematic sectional view of an embodiment of a water-blocking and water-guiding smoke sucking channel with a zigzag channel structure;

FIG. 22 is a schematic sectional view of another water smoking set with a water-blocking and water-guiding structure and a tortuous passage structure

FIG. 23 is a schematic sectional view of an embodiment of water guide holes, smoke guide holes and smoke guide holes of a water-blocking and water-guiding type water smoke sucking channel

Figure 24 is a schematic view of an extraction mouthpiece/smoke extraction channel with an expanded diameter configuration;

FIG. 25 is a schematic view of a diameter-expanding structure provided on a flue gas suction channel;

FIG. 26 is a schematic view of a nail-type portable high-efficiency water purifying smoking set;

FIG. 27 is a schematic view of a solid shape of a gas purification material according to an embodiment of the present invention;

FIG. 28 is a schematic view of a gas purification material with a straight micro-porous structure according to the present invention;

FIG. 29 is a diagram of an embodiment of a gas purification material with a solid shape and a straight micro-porous structure according to the present invention;

FIG. 30 is a schematic view of a gas purification material with an inclined microporous structure according to the present invention;

FIG. 31 is a schematic view of an embodiment of a gas purification material with a solid shape and a tilted micro-porous structure according to the present invention;

FIG. 32 is a schematic partial cross-sectional view of a structure of an inclined microporous reciprocal double-layer stacked gas purification material according to the present invention;

FIG. 33 is a diagram of an embodiment of a solid-shaped gas purification material with a two-layer stacked structure according to the present invention;

FIG. 34 is a schematic structural view of an isothickness combination type rupture disk structure;

FIG. 35 is an exploded view of FIG. 34;

FIG. 36 is a schematic structural view of a hybrid combination type gas purification material;

fig. 37 is an exploded view of fig. 36.

Reference numerals:

100 reservoir of purification material	110 upper body	120 lower body
130 upper bracket	140 inner sleeve	150 lower bracket
200 smoke suction channel	210 inhalation mouthpiece	211 inhalation cigarette holder outlet
212 auxiliary cigarette holder	220 smoke suction inner channel	221 check valve
231 inhalation mouthpiece handle body	232 cigarette plug	233 mounting column
234 fixed stud for suction cigarette holder	235 limiting pin for inhalation cigarette holder	236 insertion groove for sealing piece of inhalation cigarette holder
237 inhalation cigarette holder built-in pad	238 limiting pin slot of suction cigarette holder	239 cigarette holder positioning magnetic pin device hole
300 flue gas suction channel	310 sucking-out cigarette holder	311 sucking the cigarette holder into the mouth
320 smoke sucking inner channel	321 smoke sucking inner channel smoke inlet	322 expanding structure
331 left combining cap	332 right combined cap	333 capping device hole
334 sucking mouth sealing piece embedding groove	335 and cap seal fitting into the groove	336 raised structure of combined cap
337 and cap clamping and mounting notch	338 suction cigarette holder overturning limiting concave channel	339 flue gas outlet
340 combined cap flue gas inlet	400 crack bubble structure	500 water-blocking and water-guiding structure
510 water baffle	511 water-blocking water-guiding front plate	512 water-blocking and water-guiding back plate
513 curved water-blocking and water-guiding back plate	514 water-blocking water-guiding sloping plate	520 water guide hole
530 smoke inlet with water-blocking and water-guiding structure	540 curved surface water-blocking plate smoke guide hole	Smoke guiding hole of 550 pillow block mounting sleeve
560 sloping plate smoke guide hole	600 screwing device	610 annular flue
700 solid connection mechanism

Modes for carrying out the invention

the invention provides a portable high-efficiency purification hookah, which comprises a purification material storage body 100, wherein the purification material storage body 100 is respectively connected with a smoke suction channel 200 and a smoke suction channel 300, the smoke suction channel 200 comprises a suction cigarette holder 210 and a smoke suction inner channel 220, the smoke suction channel 300 comprises a suction cigarette holder 310 and a smoke suction inner channel 320, the suction cigarette holder 310 is of a storage structure, a cracking bubble structure 400 is arranged in the purification material storage body 100, the cracking bubble structure 400 is a structure with micropores or micro gaps for cracking or fragmenting smoke, or a three-dimensional structure with a certain height for prolonging the length of a smoke purification path after cracking.

In specific implementation, water is used as a basic purification material, the purification material storage body 100 is provided with a smoke suction channel 200 and a smoke suction channel 300 respectively, the smoke suction channel 200 comprises a suction cigarette holder 210 and a smoke suction inner channel 220, the smoke suction channel 300 comprises a suction cigarette holder 310 and a smoke suction inner channel 320, the suction cigarette holder 310 is a storage structure, and the suction cigarette holder 310 is convenient to store through the design of the storage structure so that the overall portability of the smoking set is greatly improved.

The suction mouthpiece 310 can be stored in the following manner: the structure of the smoke purifying material storage body 100 can be turned, folded, combined with a pull rod structure, a telescopic structure, a combination of the turning structure and the turning structure, and the like, of course, the above-mentioned structure of the smoke purifying material storage body is only a part of the listed embodiments, but not limited to the structure setting of turning, turning and the like, and can be in other ways, and all the ways can be the specific embodiments of the invention, under the condition that the operation, use and internal purification function of the water smoke are not affected, the way of adaptively adjusting the specific position of the structure of the smoke sucking nozzle 310 on the smoke purifying material storage body 100 or the form of the structure of the smoke purifying material storage body or the form of the contained structure, and realizing the portable function;

a cracking foam structure 400 is arranged in the purification material storage body 100, and the cracking foam structure 400 is matched with a water-based purification material to purify the sucked flue gas; the cracking bubble structure 400 is a structure with micropores or microgaps, which forces the large bubbles of the gas to be purified passing through the gas purification material to be cracked or crushed into a plurality of small bubbles when passing through the micropores or microgaps, so that the amount of gas which can not be purified by contacting with water is reduced as much as possible and the contact area between the gas to be purified and the purification material is increased as much as possible, or the cracking bubble structure 400 is designed into a three-dimensional structure with a certain height, and the rising path of the crushed bubbles in the purification material is bent according to the three-dimensional structure of the cracking bubble structure 400, 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;

moreover, the gas water purification effect is enhanced by considering the interception of the micropores or microgaps of the crack structure 400, or by considering the purification effects of the crack structure 400 on the purified gas, such as interception, adsorption, dissolution, absorption, etc., of the purified gas, such as the adsorption effect of the activated carbon on harmful substances in the purified gas, etc.

In addition, the water base can be expanded and changed as follows, 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 beneficial to removing harmful substances in gas; the additive can be a surfactant, an acid-base regulator, quicklime or quicklime water and the like.

Preferably, a valve structure is provided in the smoke suction channel 200 and/or the smoke suction channel 300.

In specific implementation, in order to further enhance the portability of the hookah and avoid leakage of the water smoke cleaning water in the hookah caused by abnormal body positions, the smoke suction channel 200 and the smoke suction channel 300 can be designed as smoke channels with implementation blocking functions when the hookah is in a non-smoking state and any body position;

preferably, the smoke suction channel 200 and the smoke suction channel 300 are provided with a single valve structure which shares the same valve to control the on-off of the two channels.

Preferably, the smoke suction channel 200 and the smoke suction channel 300 are respectively provided with a double-valve structure for controlling the on-off of the two channels.

To further clarify the smoke passage of the blocking function, the following examples are also provided:

specifically, the inhalation mouthpiece 210 is configured as a mouthpiece valve structure having both a valve function of controlling the on/off of the smoke inhalation channel 200 and a function of the inhalation mouthpiece 210.

Specifically, the inhalation mouthpiece 310 may be configured as a mouth valve structure having both a valve function of controlling the on/off of the smoke inhalation channel 300 and a function of the inhalation mouthpiece 310.

Specifically, the smoke suction inner channel 220 is provided with a check valve 221 in series, and the check valve 221 plays a role in blocking the smoke suction channel of the hookah in a non-smoking state and any body position.

Specifically, a valve structure having a function of opening and closing the smoke passage may be provided on the smoke suction inner passage 320.

The combined structure of the suction cigarette holder 210 and the suction cigarette holder 310 can realize the on-off control of the smoke suction and suction channels of the traditional hookah, and avoid the problems of easy leakage and dirty environment of the smoke cleaning water in the hookah.

It should be noted that, according to actual needs, the inhalation mouthpiece 210 may adopt a plug structure to take charge of the function of opening and closing the smoke channel.

Preferably, the stowable structure pull mouthpiece is a twist-and-turn pull mouthpiece.

In specific implementation, as shown in fig. 1, the suction mouthpiece of the storable structure is a twist-and-turn type suction mouthpiece;

to further illustrate the specific embodiments thereof, the following examples are also provided:

as shown in fig. 2 and 3, according to the use requirement, a specific embodiment of the water smoke using the twist-type suction mouthpiece is provided, and the working principle of the twist-type suction mouthpiece applied in the water smoke is as follows: as shown in fig. 2, the inhalation mouthpiece 310 is twisted to reach the unfolding state, i.e. the unfolding state during smoking; as shown in fig. 3, the mouthpiece 310 is turned into a storage state by twisting, that is, a state of being stored when smoking is not performed.

As shown in fig. 4 and 5, according to the use requirement, a specific embodiment of the tipping water smoke using the inclined platform twisting type suction mouthpiece is provided, and the working principle of the tipping water smoke using the inclined platform twisting type suction mouthpiece is as follows: as shown in fig. 4, the mouthpiece 310 is twisted to reach the expanded state, i.e. the expanded state when smoking; as shown in fig. 5, the mouthpiece 310 is turned into a storage state by twisting, that is, a state of being stored when smoking is not performed.

Preferably, the twist-and-turn smoking mouthpiece comprises a top twist-and-turn smoking mouthpiece.

The twisting type sucking cigarette holder is arranged at the side part.

It is understood that the twist-on suction mouthpiece includes a twist-on mechanism on the top to effect twist-on of the suction mouthpiece 310, and that twist-on of the suction mouthpiece 310 may be performed on the side to effect stowability of the suction mouthpiece 310.

Preferably, the receivable structure pull mouthpiece is a flip-up pull mouthpiece.

In specific implementation, as shown in fig. 6, the sucking cigarette holder with the storable structure may be a turning sucking cigarette holder;

to further illustrate the specific embodiments thereof, the following examples are also provided:

as shown in fig. 7 and 8, according to the use requirement, a specific embodiment of the water smoke with the flip-up type smoking tip is provided, and the operating principle of the flip-up type smoking tip applied in the water smoke is as follows: as shown in fig. 7, the inhalation mouthpiece 310 is turned to the expanded state, i.e. the expanded state during smoking; as shown in fig. 8, the mouthpiece 310 is turned upside down to be in a stored state, that is, a state of being stored when smoking is not performed.

Preferably, the flip-top puff mouthpiece comprises an inner flip-top puff and an outer flip-top puff.

It is understood that the flip-up smoking tip may be turned inside the smoking set to turn the smoking tip 310, or may be turned outside the smoking set to turn the smoking tip 310 to house the smoking tip 310, as shown in fig. 8.

Preferably, the receivable structure pull out mouthpiece is a pull rod type pull out mouthpiece.

Preferably, the receivable structure pull out mouthpiece is a foldable pull out mouthpiece.

In other preferred embodiments, the drawing tip 310 may be of a pull rod type, a telescopic type, a foldable type, or other structures that are convenient to store.

Preferably, the inhalation mouthpiece 310 is also used for on-off control of the smoke inhalation channel 300.

In specific implementation, the suction mouthpiece 310 also has a function of controlling the on-off of the smoke suction channel 300.

To further illustrate the specific implementation of this preferred embodiment, the following examples are also provided:

in specific implementation, as shown in fig. 9 and 10, according to a use requirement, a specific embodiment of the water smoke with the flip-up type smoking tip is provided, and the operating principle of the flip-up type smoking tip applied to the water smoke is as follows: as shown in fig. 9, in the smoking state, the smoking inlet 311 of the smoking tip is communicated with the smoking inlet 321 of the inner smoke suction channel by turning the smoking tip 310 to the unfolding position; as shown in fig. 10, in the non-smoking state, the smoking inlet 311 and the smoke inlet 321 of the smoke suction inner channel are blocked by turning the smoking mouthpiece 310 to the storage position; thereby realizing the communication or cut off of the smoke channel through the cigarette holder.

In specific implementation, as shown in fig. 11 and 12, according to the use requirement, a specific embodiment of the water smoke with a screwing type suction mouthpiece is provided, and the working principle of the screwing type suction mouthpiece applied in the water smoke is as follows: as shown in fig. 12, in the non-smoking state, the mouthpiece 310 is screwed to the storage position to block the mouthpiece inlet 311 from the smoke inlet 321 of the smoke suction inner channel; as shown in fig. 11, in the smoking state, the smoking inlet 311 is communicated with the smoke inlet 321 of the inner smoke sucking channel by screwing the smoking mouthpiece 310 to the unfolding position; thereby realizing the communication or cut off of the smoke channel through the cigarette holder.

In specific implementation, as shown in fig. 13 and 14, according to the use requirement, a specific embodiment of the tipping water smoke with the oblique table screwing type suction mouthpiece is provided, and the operating principle of the tipping water smoke with the oblique table screwing type suction mouthpiece is as follows: as shown in fig. 13, in the non-smoking state, the mouthpiece inlet 311 is disconnected from the smoke inlet 321 of the inner smoke suction channel by screwing the mouthpiece 310; as shown in fig. 14, in the smoking state, the smoking inlet 311 is communicated with the smoke inlet 321 of the inner smoke sucking channel by screwing the smoking tip 310 on the inclined platform; thereby realizing the communication or cut off of the smoke channel through the cigarette holder.

Wherein the inclined platform twisting structure can support the whole overall dimension of the hookah in a state of being compressed and sucked out of the cigarette holder, thereby being further beneficial to portability.

The three suction cigarette holders and the valve structure further solve the problems that the cigarette washing water in the traditional hookah is easy to leak and dirty, so that the hookah becomes a real portable product.

The invention also provides a specific embodiment of the sucking cigarette holder 310 and the valve structure:

in specific implementation, as shown in fig. 6 and 15, the purifying material storage body 100 includes an upper body 110 and a lower body 120, the flip-over type suction cigarette holder is fixed on a suction cigarette holder hole 333 arranged in the middle of the suction cigarette holder by a left combining cap 331 and a right combining cap 332 and screws penetrating through the left combining cap 321, the suction cigarette holder 310 and the upper body 110 into the right combining cap 332, and the suction cigarette holder 310 can be turned over by taking the screws (not shown) as axes; sealing of the suction mouthpiece 310 with respect to the upper body 110 and the left union cap 331 and the right union cap 332 with respect to the upper body 110 is achieved by the suction mouthpiece seal embedding grooves 334 formed on both sides of the shaft portion of the suction mouthpiece 310 and the union cap seal embedding grooves 335 formed on both sides of the upper body 110;

the inner side end parts of the left combining cap 331 and the right combining cap 332 are respectively provided with a combining cap protruding structure 336 corresponding to and matched with the sucking cigarette holder 310 around the shaft part and cap clamping gap 337, so that the sucking cigarette holder 310 can drive the left combining cap 331 and the right combining cap 332 to rotate along with each other when being turned over; as shown in fig. 33, the tipping suction mouthpiece is further provided with a tipping suction limiting protrusion, and the tipping suction limiting protrusion is matched with the tipping suction limiting concave channel 338 to limit the tipping angle. The upper body 110 is provided with two smoke outlets 339, the left combining cap 331 and the right combining cap 332 are respectively provided with a combining cap smoke inlet 340 and a suction cigarette holder smoke suction cavity, and the suction cigarette holder smoke suction cavity of the suction cigarette holder 310 is also arranged at the positions of the combining cap clamping gaps 337 arranged at the two sides of the shaft part of the suction cigarette holder 310;

when the smoking mouthpiece 310 is turned over to drive the left combining cap 331 and the right combining cap 332 to rotate, so that the combining cap smoke inlet 340 arranged on the left combining cap 331 and the right combining cap 332 is opposite to the two smoke outlets 339 arranged on the upper body 110, the smoke smoking channel 300 is communicated, and the hookah can be used for smoking;

when the smoking mouthpiece 310 is turned over to drive the left combining cap 331 and the right combining cap 332 to rotate, so that the combining cap smoke inlet 340 arranged on the left combining cap 331 and the right combining cap 332 is staggered with the two smoke outlets 339 arranged on the upper body 110, the smoke suction channel 300 is blocked, the hookah cannot be used for smoking, but the smoke cleaning water cannot leak through the smoke suction channel 300.

In addition, as shown in figures 6 and 15, the pull-out mouthpiece seal O-ring is seated in the pull-out mouthpiece seal insert groove 334 and the cap seal insert groove 335, further enhancing the sealing of the hookah.

Moreover, as shown in fig. 26, a nail type fastening mechanism is provided to seal and fasten the convertible portable hookah, the nail type fastening mechanism includes a screwing device 600 and a fastening mechanism 700, the fastening mechanism 700 is used to connect the upper body 110 and the lower body 120 in alignment, the connection mode only needs to manually screw the screwing device 600 to realize the disassembly and assembly of the upper body 110 and the lower body 120, and other tools are not needed, so that the removal, cleaning and replacement of the flue gas purification material are more convenient and faster; because the screwing device 600 is arranged at the upper end of the upper body 110, the turning type sucking cigarette holder 310 which is used in cooperation particularly adopts the design of the annular flue 610 at the position of the screwing device 600, on one hand, the sucking of smoke is ensured, meanwhile, the space is saved, and the portability of the hookah is ensured.

Preferably, the inhalation mouthpiece 210 is also used for on-off control of the smoke inhalation channel 200.

In specific implementation, as shown in fig. 16, the inhalation mouthpiece 210 also has a function of controlling the on/off of the smoke inhalation channel 200.

To further illustrate the specific implementation of this preferred embodiment, the following examples are also provided:

in specific implementation, as shown in fig. 9 to 12, a specific embodiment of the water smoke with the screwing type suction mouthpiece is provided, and the working principle of the screwing type suction mouthpiece applied to the water smoke is as follows: as shown in fig. 9 and 11, in the non-smoking state, by twisting the mouthpiece 210, the mouthpiece outlet 211 is disconnected from the smoke inhalation inner channel 220; as shown in fig. 10 and 12, in the smoking state, the mouthpiece outlet 211 communicates with the smoke inhalation inner channel 220 by twisting the mouthpiece 210; thereby realize the intercommunication or cut off the flue gas passageway through the cigarette holder, further solved and washed the problem that the cigarette water is easy to leak, dirty environment in traditional shredded tobacco for water pipes, made shredded tobacco for water pipes become real portable product.

It should be noted that the above-mentioned manner of blocking the smoke passage of the inhalation mouthpiece 210 is only a partial example, and any method of blocking the smoke passage by turning over, folding, blocking by dislocation, adding a stopper, or the like may be used as a specific embodiment of the present invention.

Preferably, the twist-and-turn type inhalation mouthpiece valve structure is further provided with an ash blocking net which can prevent the ash from entering the inside of the hookah.

The present invention further provides an embodiment of a screw-on inhalation mouthpiece 210 and valve structure:

in specific implementation, as shown in fig. 16 and 17, the purifying material storage body 100 includes an upper body 110 and a lower body 120, the inhalation mouthpiece 210 includes an inhalation mouthpiece handle body 231 convenient for a user to screw, a cigarette insertion port 232 or an auxiliary mouthpiece insertion port, a mounting column 233, an inhalation mouthpiece smoke outlet 211 communicating the cigarette insertion port 232 and the mounting column 233, an inhalation mouthpiece fixing stud 234, and an inhalation mouthpiece limiting pin 235, the inhalation mouthpiece sealing member embedding groove 236 is a inhalation mouthpiece sealing member embedding groove 236 in which an inhalation mouthpiece sealing O-shaped ring is embedded; the upper body 110 is provided with a suction cigarette holder internal pad 237 which is matched with the mounting column body 233, the suction cigarette holder internal pad 237 is communicated with the middle smoke suction inner channel 220 which is arranged on the upper body 110 and folded towards the middle, the mounting column body 233 is arranged in the suction cigarette holder internal pad 237, the suction cigarette holder fixing stud 234 extends out of the suction cigarette holder internal pad 237, the part of the suction cigarette holder fixing stud 234 outside the suction cigarette holder internal pad 237 is sleeved with a pad ring and then locked by a nut, and the fixing device of the suction cigarette holder 210 and the smoke suction inner channel 220 arranged on the upper body 110 is realized;

the limiting pin 235 of the inhalation cigarette holder is matched with the limiting groove 238 and the magnetic attraction positioning pin 239 arranged on the upper body 110, so that the inhalation cigarette holder 210 can be twisted in a bidirectional 180-degree range after being fixedly arranged on the upper body 110, and the smoke outlet 221 of the inhalation cigarette holder 230 is communicated with or cut off from the smoke inhalation inner channel of the upper body 110.

The smoking mouthpiece 210 is twisted to ensure that the smoking mouthpiece outlet 211 is opposite to the middle folded smoke inhalation inner channel 220, and the whole smoke inhalation channel 200 from the cigarette insertion port 232 to the cracking bubble structure 400 is communicated;

the smoking mouthpiece 210 is twisted to make the smoking outlet 211 of the smoking mouthpiece staggered with the middle smoke inhalation inner channel 220, so that the whole smoke inhalation channel 200 from the cigarette insertion port 232 to the cracking bubble structure 400 is blocked, and the washing smoke water can not leak through the smoke inhalation channel 200;

the upper surface of the upper body 110 is provided with a semicircular inhalation mouthpiece limit pin groove 238 corresponding to the inhalation mouthpiece limit pin 235, and the inhalation mouthpiece limit pin groove 238 limits the twisting of the inhalation mouthpiece limit pin 235 to obtain the twisting angle limit to the inhalation mouthpiece 210; further, a magnetic locking pin device hole 239 for locking the inhalation mouthpiece stopper pin 235 is further provided at both ends of the inhalation mouthpiece stopper pin groove 238, so that two lock positions for the inhalation mouthpiece 210 at the final twisted positions can be obtained; there are various forms of locking devices for the limiting pin 235 of the inhalation mouthpiece, and the locking device used in this embodiment is formed so as to magnetically attract the limiting pin 235 of the inhalation mouthpiece.

Preferably, a check valve 221 is arranged on the smoke suction inner channel 220 to control the on-off of the smoke suction channel.

In specific implementation, as shown in fig. 18, according to a use scenario, a specific embodiment of the water smoke with the non-return smoke suction inner channel is provided, and the working principle of the non-return smoke suction inner channel applied to the water smoke is as follows: the flue gas suction inner channel 220 is provided with a check valve 221 in series, and the flue gas advancing direction along the water smoke is set to be an open state, and the flue gas advancing direction against the water smoke is set to be a blocking state; when smoke is drawn into the smoke suction inner channel 220 from the suction mouthpiece 210, the smoke can enter through the check valve 221 because of the advancing direction of the water smoke; traditional shredded tobacco for water pipes is when the shredded tobacco for water pipes utensil is in improper position, washes cigarette water and can inhale interior passageway 220 through the flue gas and flow to inhaling the outflow of cigarette holder 210, leads to appearing leaking, and the contrary formula flue gas that ends that this preferred scheme provided inhales interior passageway owing to be provided with check valve 221, washes the unable reverse flow of cigarette water, has consequently avoided washing cigarette water and has leaked from inhaling the play of cigarette holder 210.

The scheme is a preferable scheme, and has the advantages that the structure of the inhalation cigarette holder 210 serving as a valve is eliminated, the structure of the inhalation cigarette holder 210 can be simplified, and the on-off functional operation setting of the inhalation cigarette holder 210 serving as a valve is eliminated; compared with the plug structure, the plug structure can avoid the inconvenience in operation and the cost increase caused by easy loss due to the use of the plug structure.

In order to further improve the portability of the hookah, various adaptive designs are made for the smoke channel structure in the purifying material storage body 100 according to the arrangement of different smoke body structures, so as to fully utilize the space in the purifying material storage body 100.

Preferably, the smoke suction inner passage 220 is a wall-attachment structure.

In specific implementation, as shown in fig. 19, according to a usage scenario, a specific embodiment of the smoke suction inner channel 220 is provided: the wall-attached type smoke is sucked into the inner channel. It should be noted that, as shown in fig. 26, the wall-attached type smoke inhalation inner passage wall is constructed by the side wall of the purification material storage body 100, which is convenient for the installation of the cracking bubble structure 400 and the purification material, saves the material and the space, and supports the reduction of the volume of the hookah, thereby being convenient for portability.

Preferably, the smoke suction inner passage 220 is a compromise structure.

In specific implementation, as shown in fig. 17, according to a usage scenario, a specific embodiment of the smoke suction inner passage 220 is provided: the flue gas is folded to the middle channel type flue gas suction inner channel. It should be noted that, as shown in fig. 17, the middle-folded channel type smoke inhalation inner channel is constructed by relying on the top wall of the purification material storage body 100, which can save materials and reduce cost; in addition, the design of the middle-folded flue gas suction channel 200 can be matched with a purification mechanism to effectively utilize the space of the flue gas purification material storage body 100.

Preferably, a water-blocking and water-guiding structure 500 for preventing the scrubbing water from being sucked by mistake is arranged in the fume sucking channel 300.

Particularly, in order to reduce the occurrence of the situation of the mistaken smoking caused by that the washing smoke water is sucked out by the smoke sucking channel 300 along with the smoke when the water smoke sucks the smoke; for this situation, a water blocking and guiding structure 500 for buffering the smoke flow is further disposed on the smoke suction channel 300;

it should be noted that the water-blocking is to block the water from entering the smoke suction channel 300; the water guide is to guide a small amount of scrubbing water which is entrained by the smoke flow and enters the water blocking and guiding structure 500 during smoking to return to the 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 smoke suction channel 300.

Preferably, the water blocking and guiding structure 500 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 500 is a labyrinth-like structure for buffering flue gas flow, so that flue gas purified by the flue gas purification material enters the flue gas suction channel 300 in a zigzag path manner, and the flue gas is intercepted by the water blocking and guiding structure 500 at least once in the process of entering the flue gas suction channel 300, so that a small amount of flue gas washing water entering the water blocking and guiding structure 500 along with the flue gas flow is finally intercepted and guided back to the purification material storage body 100, thereby reducing or even avoiding the possibility that the flue gas washing water in the flue gas is sucked into an inlet, and further enhancing the portability of the flue gas.

In order to better illustrate the water blocking and guiding structure 500 provided by the present invention, the following embodiments are also provided:

in specific implementation, as shown in fig. 20, according to a usage scenario, a specific embodiment of the smoke sucking inner channel 320 is provided: the water blocking and guiding type smoke is sucked out of the first inner channel.

In specific implementation, as shown in fig. 21, according to a usage scenario, a specific embodiment of the smoke sucking inner channel 320 is provided: and water blocking and guiding type smoke is sucked out of the second inner channel.

The specific working principle is as follows: as shown in fig. 20 and 21, when a small amount of smoke-containing water enters the water-blocking and water-guiding structure 500 along with the smoke, the smoke-containing water is intercepted by the water baffle 510 for many times, and part of the smoke-containing water is directly intercepted back into the purification material storage 100, and the other part of the smoke-containing water flows back to the purification material storage 100 through the water guiding hole 520.

To further illustrate the hookah of the present invention using the water blocking and guiding structure 500, the following embodiments are also provided:

in specific implementation, as shown in fig. 22 and 23, according to the use requirement, the water-blocking and water-guiding structure 500 provided for the oblique table twisting type suction cigarette holder is applied to a specific embodiment of the hookah, and the operating principle of the hookah is as follows: as shown in fig. 52, when a small amount of water enters the water-blocking and water-guiding structure 500 along with the smoke, firstly, the water-blocking and water-guiding front plate 511 is arranged in an inward concave arc structure facing the smoke inlet 530 of the water-blocking and water-guiding structure, and when a small amount of water enters along with the smoke, the smoke is firstly blocked by the water-blocking and water-guiding front plate 511, and then is blocked by the triple water-blocking and water-guiding rear plate 512, wherein the water-blocking and water-guiding rear plate 512 is specifically arranged such that the first heavy plate is fixed on the top surface inside the smoke suction inner channel 320 and a gap for smoke circulation is left between the first heavy plate 511 and the water-blocking and water-guiding front plate, the second heavy plate is fixed on the water-blocking and water-guiding front plate 511 and a gap for smoke circulation is left on the top surface inside the upper body 110, and the third heavy plate is arranged as the first heavy plate; when the smoke goes to the curved water-blocking and water-guiding back plate 513, the curved water-blocking and water-guiding back plate 513 is provided with the curved water-blocking plate smoke guide holes 540 at the position close to the top surface inside the upper body 110, and the lower part is provided with the water guide holes 520, so that under the condition that the suction force of the smoke-washing water is reduced by the plurality of water-blocking and water-guiding plates in front, the smoke is influenced by gravity, enters the smoke-washing water guide holes 540 through the upper curved water-blocking plate smoke guide holes 540, then enters the suction cigarette holder 310 through the smoke-washing water guide holes 550 of the rotary table mounting sleeve screwed by the suction cigarette holder 310, and the smoke-washing water flows onto the water-blocking and water-guiding sloping plate 514 through the sloping plate smoke guide holes 560 and flows back to the purifying material storage body 100 again.

It should be noted that the water blocking and guiding structure 500 is intended to zigzag the path of the smoke or a small amount of water entering along with the smoke inside the smoke sucking inner channel 320, or to arrange one or more water baffles 510 with blocking function to gradually block and remove the smoke water passing through the smoke through multiple blocking.

Moreover, the smoke inlet 530 of the water-blocking and water-guiding structure is set to be a plurality of smoke inlets, or one smoke inlet is subdivided into a plurality of small smoke inlets, so that the flow rate of the smoke airflow before entering the smoke suction inner channel 320 is reduced, and when the flow rate is reduced, the capacity of the smoke airflow to wash the smoke water is also reduced to a certain extent.

It should be noted that the water guide holes 520 and the smoke inlet 530 of the water-blocking and water-guiding structure need to be prevented from overlapping in arrangement position or function, the smoke guide holes are allowed to function as water guide, but the water guide holes 520 are not suitable to function as smoke guide, so as to reduce the smoke water entering the smoke sucking channel 300 as much as possible.

In order to support the type of smoking articles that can be smoked by the expanded hookah, the invention provides a novel auxiliary mouthpiece 212;

the auxiliary cigarette holder 212 is connected with the inhalation cigarette holder 210, supports the types of smoking tobacco of the expanded cigarette body, and different special auxiliary cigarette holders 212 are respectively adapted to smoke cigarettes in various shapes in the novel cigarette body or are adapted to various cigars with different specifications.

The auxiliary mouthpiece 212 includes: a cigarette folding auxiliary cigarette holder, a cigarette vertical auxiliary cigarette holder and a cigarette ash tray vertical auxiliary cigarette holder.

In specific implementation, as shown in fig. 14, according to a use requirement, a specific embodiment of the auxiliary mouthpiece-type hookah is provided, and the working principle of the auxiliary mouthpiece-type hookah is as follows: supplementary cigarette holder 212 is for taking cigarette ash tray formula supplementary cigarette holder, supplementary cigarette holder 212 can adapt to the cigarette of fixed specification, certainly, can realize the cigarette that adapts to multiple different specification types through changing this supplementary cigarette holder 212, and in addition, cigarette ash tray can realize conveniently collecting cigarette ash, reduces cigarette ash and scatters at will, causes the pollution to the environment.

The cigarette ash tray may be integrated with the inhalation mouthpiece 210, or may be combined with the inhalation mouthpiece 210 separately.

Preferably, the water blocking and guiding structure 500 is an expanding structure 322 disposed in the smoke suction channel 300.

The smoke suction channel 300 is provided with an expanding structure 322 for preventing the scrubbing water from being sucked out.

In a specific implementation, as shown in fig. 24, the diameter-expanding structure 322 may be disposed in the smoking mouthpiece 310 and/or the smoke suction inner channel 320, when the sucked smoke passes through the diameter-expanding structure 322, the smoke pressure is reduced, the flow rate becomes slow, the capacity of the smoke to wrap the smoke with the cleaning water is weakened, the cleaning water is separated from the wrapping of the cleaning water, and the smoke automatically flows back to the purification material storage body 100 through the smoke inlet of the channel in a smoking pause or termination state.

In specific implementation, as shown in fig. 25, an inner housing 140 for holding a purification material, and an upper bracket 130 and a lower bracket 140 disposed on the upper and lower sides of the inner housing 140 for fixing the inner housing 140 are disposed in the purification material storage 100, an expanding structure 322 is disposed on the upper bracket 140, the expanding structure 322 is disposed on a smoke inlet 530 of the water-blocking and water-guiding structure, and the expanding structure 322 is disposed to reduce the pressure of smoke, reduce the flow rate, reduce the capacity of smoke to wrap the smoke with water, and enable the water to flow back to the inner housing 140 through the smoke inlet when the smoke is stopped or stopped.

Preferably, the blister structure 400 further includes a variety of shapes and configurations.

To further illustrate the configuration of the present invention for providing a breaching bubble structure 400, the following examples are also provided:

as shown in FIG. 27, the specific structural configuration of the rupturing structure 400 is determined by the shape of the inner cavity of the filled purification material storage body 100

It should be noted that the above-mentioned rupture structure 400 is only an example, and the shape thereof may be changed according to the shape of the inner cavity of the gas purification material storage body 100.

Preferably, the microwells or microgaps are straight/slanted/curved microwells or microgaps.

To further illustrate the microporous structure of a gas purification material provided by the present invention, the following examples are also provided:

in specific implementation, as shown in fig. 28 and 29, according to the usage scenario, specific embodiments of the gas purification material are provided: straight micro-pore/micro-gap type structures.

Fig. 29 is a diagram of an embodiment of a straight micro-porous structure solid profile blister structure 400.

In specific implementation, as shown in fig. 30 and 31, according to a usage scenario, a specific embodiment of the crack bubble structure 400 is provided: a slanted micro-hole/micro-gap type structure.

Fig. 31 is a diagram of an embodiment of a sloped-cell structure solid profile rupture structure 400.

In specific implementation, as shown in fig. 32 and 33, according to a usage scenario, a specific embodiment of the crack bubble structure 400 is provided: the superposed micropore/microgap structure is a mutual reverse double-layer inclined micropore superposed structure.

The mutually-inverted superposed structure can promote purified airflow to fully contact with the purification treatment when the purified airflow ascends and passes through the gas purification material, and the purification effect is improved.

Fig. 33 is a diagram of an embodiment of a two-layer stacked solid profile blister structure 400.

It should be noted that the above descriptions of the microcellular structure of the burst structure 400 are only examples, and are not limited to the "straight microcell/microcell" and "inclined microcell/microcell" configurations, and other microcell/microcell configurations, such as curved microcell/microcell, wavy microcell/microcell, and combinations of various shaped structures, can be taken as specific embodiments of the present invention; it should be noted that the double-layer inclined micro-hole/micro-gap structure is only one of the multiple embodiments of the laminated micro-hole/micro-gap structure, and the laminated micro-hole/micro-gap structure is realized by a method of matching and combining different types of the split bubble structures 400, which falls within the protection scope of the present invention.

In specific implementation, the cracking bubble structure 400 is a solid geometric structure, the specific shape of which is determined by the shape and size of the inner cavity of the gas purification material storage 200, which is the target of the device, and typical examples thereof include a micropore/micropore plate structure, a micropore/micropore straight cylinder structure, a micropore/micropore annular cylinder structure, and the like.

Preferably, a multiple-burst structure 400 is provided in the purification material reservoir 100.

In specific implementation, the cracking structure 400 may be a material used for cracking bubbles, and the cracking bubbles can increase or enhance the gas purification effect of other purification materials, such as mesh materials, microporous films, ceramic microporous plate materials, and the like;

in specific implementation, the foam-cracking structure 400 can be a material that has functions of cracking and breaking foam, and also has functions of extending the rising path of the bubbles, such as: sponge material, flexible silk material with only interception, bubble breaking and tortuous and prolonged paths, such as glass fiber material and the like,

in specific implementation, the split-bubble structure 400 may be a material having functions of intercepting/adsorbing/dissolving/absorbing in addition to functions of splitting bubbles and extending paths, such as an activated carbon material, a flexible silk material having functions of intercepting, breaking bubbles and zigzag extending paths, and adsorbing, absorbing and modifying smoke, such as a poly-acetate fiber, a polypropylene fiber, and the like;

the sponge body material has both a function of cracking gas or gas flow and an adsorption function of harmful substances in the gas;

the flexible silk material can be polyvinyl acetate fiber, polypropylene fiber and the like, and can simultaneously realize the functions of cracking bubbles of gas or gas flow and adsorbing harmful substances in the gas;

the active carbon micropore or micropore material can be a formed active carbon micropore or micropore material, a packaged granular active carbon material, an active carbon fiber and the like, can crack bubbles of gas or airflow, and can effectively adsorb harmful substances in the gas;

the rupturing structure 400 can be, but is not limited to, a mesh material that can rupture a gas or gas stream, and can also serve as a skeleton or outer wrap for a flexible silk material;

the bubble-splitting structure 400 may be, but is not limited to, a microporous film material that combines a bubble-splitting function for gas or gas flow and an interception function for harmful substances in gas.

The rupturing structure 400 can be formed by, but not limited to, the same material combination or different material combinations as described above, or the same micro-pore/micro-gap structure combination or different micro-pore structure combinations;

it is understood that combinations of different pore/micro-gap structures of the same material and combinations of the same pore/micro-gap structures of different materials may be considered as embodiments of the present invention.

It should be noted that each stage of the split-bubble structure 400 may have the same/different structure of the split-bubble structure 400, 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 400 of the upper and lower layers may also have the same/different micro/micro gap structures or split-bubble structures 400 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 400 is only a partial example, and other specific embodiments are possible, and any method using different types of split-bubble structures 400 to be combined and matched or the single-layer or multi-layer multiple structure may be changed to be used as the specific embodiment of the present invention.

Preferably, the multiple burst structures are respectively composed of the same/different burst structures 400.

Preferably, the cleaning effect of the blister structure 400 increases in the direction of travel of the gas to be cleaned.

In specific implementation, the combination manner of the split-bubble structure 400 may also be different micro-porous/micro-gap structures made of the same material to form a combination of the split-bubble structures 400 with different purification efficiencies, or different micro-porous/micro-gap structures made of different materials to form a combination of the split-bubble structures 400 with different purification efficiencies; or a combination of different microporous/micro-gap structures of different materials. By combining the burst structure 400 in the above manner, the gas burst structure 400 having different purification efficiencies can be obtained.

As shown in fig. 34-37, embodiments of different combinations of the described blister structures 400 are provided.

It can be understood that, when the foam cracking structure 400 is a solid purifying material with purifying effect, the foam cracking structure 400 and the combination thereof with different purifying efficiencies can be applied to the water smoke as well, and by adopting the purifying materials with different purifying efficiencies and the combination thereof, a water smoking set with self-selecting smoke purifying degree is obtained;

it should be noted that the above description of the combination of the split bubble structure 400 is only a few examples, and is not limited to the combination according to the purification efficiency or the combination according to the gradient size, and all other examples obtained by those skilled in the art without any creative effort fall within the protection scope of the present invention.

Moreover, with respect to the water smoking set with adjustable smoke purification degree, the following method for helping self smoking cessation can be obtained: according to the strong degree of the smoking cessation desire of smokers, the specific combination mode of the combined purification materials deployed in the water smoking set is selected by the smokers, so that the purification efficiency of the water smoking set on smoke is gradually improved, the addictive substances in the smoke are gradually reduced, the adaptability of the smokers to continuously weakening smoking interest is enhanced, and the final smoking cessation is supported. Preferably, the shape of the rupture structure is adapted to the internal shape of the purifier material reservoir 100 so that gas passes through the rupture structure as it travels within the purifier material reservoir 100.

Preferably, the purifier material reservoir 100 has deployed therein a purifier material used in conjunction with the rupturing structure 400.

During specific implementation, according to the practical application scene, select specific purifying material to use with split bubble structure 400 combination to strengthen this purifying material to the purifying effect of flue gas.

Preferably, the purification material is one or a combination of two of dry purification material and washing smoke water.

In specific implementation, the purification material can adopt a dry purification material, namely, the non-aqueous smoke purification material is used for replacing the washing smoke water, so that the phenomenon that the washing smoke water is sucked by mistake is thoroughly eliminated.

It is understood that extended variations may be implemented on the burst bubble structure 400, the flue gas water, the dry scrubbing material, including adding agents to the flue gas water that effect a conversion of the flue gas odor such that the flue gas odor may carry, for example, fruit or other odors; and a taste material is added into the purifying material, so that a new smoking smoke taste is added on the basis of the original smoke taste/Arabic tobacco paste taste.

Although terms such as a purification material reservoir, an upper body, a lower body, a smoke inhalation channel, an inhalation mouthpiece, a smoke inhalation inner channel, an inhalation mouthpiece outlet, an auxiliary mouthpiece, a smoke inhalation inner channel, a check valve, a smoke inhalation channel, an inhalation mouthpiece inlet, a smoke inhalation inner channel, a diameter expansion structure, a bubble structure, a water blocking and guiding structure, etc., are used more often 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.