CN217242681U - Atomizer and electron cigarette of pressure release leak protection oil - Google Patents

Abstract

The utility model discloses an atomizer and electron cigarette of pressure release leak protection oil, the atomizer includes: atomizer main part and atomizing core, be formed with the oil storage chamber in the atomizer main part, the atomizing core is located the oil storage intracavity, be equipped with atomizing passageway in the atomizing core, offer on the wall of atomizing core and be used for making the oil storage chamber with the communicating exhaust hole of atomizing passageway, the cover is equipped with a gas lantern ring on the wall of atomizing core, it covers to seal the gas lantern ring the exhaust hole, seal the gas lantern ring with be formed with exhaust passage between the wall of atomizing core, exhaust passage with the exhaust hole be linked together and exhaust passage accesss to outside the gas lantern ring. The utility model discloses an atomizer of pressure release leak protection oil is through designing exhaust passage, when the oil storage intracavity produced the atmospheric pressure difference, and usable exhaust passage pressure release maintains the oil storage intracavity atmospheric pressure balance.

Description

Atomizer and electron cigarette of pressure release leak protection oil

Technical Field

The utility model belongs to the technical field of electron smog spinning disk atomiser technique and specifically relates to an atomizer and electron cigarette of pressure release leak protection oil are related to.

Background

At present, after the conventional atomizer smokes or under the high and low temperature environment, negative pressure can be formed in the oil storage device, high pressure in the oil storage cavity can not be discharged or low pressure in the oil storage cavity can not be supplemented with air, so that the tobacco tar can not rapidly enter the heating core, and the heating core can be burnt out due to insufficient oil supply during secondary smoking, and the problem of oil leakage can be caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an atomizer and electron cigarette of pressure release leak protection oil for solve the atomizer because the negative pressure leads to leading oil slow, the not enough cause of fuel feeding burns out the core that generates heat to and the problem of oil leak.

An atomizer of pressure release leak protection oil, includes: atomizer main part and atomizing core 3, be formed with oil storage chamber 101 in the atomizer main part, atomizing core 3 is located in the oil storage chamber 101, be equipped with atomizing passageway 306 in the atomizing core 3, seted up on the wall of atomizing core 3 and be used for making oil storage chamber 101 with communicating exhaust hole 305 of atomizing passageway 306, the cover is equipped with the air seal lantern ring 10 on the wall of atomizing core 3, air seal lantern ring 10 covers exhaust hole 305, air seal lantern ring 10 with be formed with exhaust passage 1001 between the wall of atomizing core 3, exhaust passage 1001 with exhaust hole 305 is linked together and exhaust passage 1001 accesss to outside the air seal lantern ring 10. It should be noted that, by designing the exhaust passage, when an air pressure difference is generated in the oil storage cavity, the air pressure in the oil storage cavity can be maintained to be balanced by utilizing the pressure relief of the exhaust passage, so that the problems of insufficient oil supply and oil leakage of the atomizer due to the influence on the oil guiding efficiency caused by the air pressure difference in the oil storage cavity are prevented. It should be noted that the vent passage may extend beyond the air-seal collar, or may be flush with the end of the air-seal collar or located in the air-seal collar as long as it is open to the outside. In addition, the atomization channel refers to a channel or a part of a channel through which smoke generated after the tobacco tar is heated flows.

In a preferred example, the atomizing core 3 includes an atomizing pipe 301, the atomizing channel 306 is formed in the atomizing pipe 301, the atomizing pipe 301 has an inner wall and an outer wall, and the air-lock collar 10 is sleeved on the inner wall and/or the outer wall. The air-sealing collar 10 includes but is not limited to at least one of metal, latex, rubber or silica gel. When the air sealing lantern ring 10 is fixed on the inner wall, metal can be riveted, welded and the like, and materials such as rubber and silica gel can be bonded or fixed by using a fastener. The air-sealing collar 10 can be fixed on the outer wall in the same way, but preferably directly sleeved.

In a preferred embodiment, the diameter of the exhaust hole 305 is less than or equal to 1mm, and the cross-sectional area of the exhaust channel 1001 is less than or equal to 1mm ² 。

In a preferred embodiment, the aperture of the exhaust hole 305 is 0.1-0.5mm, and the cross-sectional area of the exhaust channel 1001 is less than or equal to 0.25mm ² 。

In a preferred example, the exhaust channel 1001 includes a groove-shaped exhaust groove 304 formed on the air-sealing collar 10 or the atomizing tube 301, or the exhaust channel 1001 includes a gap provided between the air-sealing collar 10 and the atomizing tube 301, and the gap is formed by a convex support provided on the air-sealing collar 10 and/or the atomizing tube 301. Wherein, the exhaust channel 1001 comprises a groove-shaped exhaust groove 304 formed on the air-sealing collar 10 or the atomizing pipe 301. In connection with the above requirement, the exhaust groove 304 is formed on the outer wall or the inner wall of the atomizing pipe 301, the air-sealing collar 10 is sleeved on the outer wall of the atomizing pipe 301, the gap between the exhaust groove 304 and the inner wall of the air-sealing collar 10 is used as the exhaust channel 1001, or the air-sealing collar 10 is sleeved on the inner wall of the atomizing pipe 301, the gap between the exhaust groove 304 and the outer wall of the air-sealing collar 10 is used as the exhaust channel 1001, or the exhaust groove 304 is formed on the outer wall or the inner wall of the air-sealing collar 10, the air-sealing collar 10 is sleeved on the inner wall of the atomizing pipe 301, the gap between the exhaust groove 304 and the inner wall of the atomizing pipe 301 is used as the exhaust channel 1001, or the air-sealing collar 10 is sleeved on the outer wall of the atomizing pipe 301, and the gap between the exhaust groove 304 and the outer wall of the atomizing pipe 301 is used as the exhaust channel 1001; the gap is formed by arranging the air sealing lantern ring 10 and/or the protrusion support on the atomizing pipe 301, and the above requirements indicate that the gap is formed by sleeving the air sealing lantern ring 10 on the outer wall or the inner wall of the atomizing pipe 301, fixing the air sealing lantern ring 10 on the outer wall or the inner wall of the atomizing pipe 301 in a riveting mode, using the gap generated by riveting the protrusion support between the inner wall of the air sealing lantern ring 10 and the outer wall of the atomizing pipe 301 as the exhaust channel 1001, or using the gap generated by riveting the protrusion support between the outer wall of the air sealing lantern ring 10 and the inner wall of the atomizing pipe 301 as the exhaust channel 1001, or arranging the protrusion at the lower end of the air sealing lantern ring 10, installing the air sealing lantern ring 10 in the atomizing pipe 301, supporting the air sealing lantern ring 10 on the inner wall of the atomizing pipe 301 through the protrusion, and using the gap between the outer wall of the upper end of the air sealing lantern ring 10 and the inner wall of the atomizing pipe 301 as the exhaust channel 1001.

In a preferred embodiment, an oil inlet 303 is formed on a wall of the atomizing pipe 301, and two ends of the exhaust channel 1001 are respectively communicated with the exhaust hole 305 and the oil inlet 303. It should be noted that the exhaust channel 1001 may also have one end connected to the exhaust hole 305 and the other end separated from the oil inlet 303, or the exhaust groove 304 may have one end extending out of the exhaust channel 1001 and connected to the oil inlet 303 and the other end located in the exhaust channel 1001 and connected to the exhaust hole 305.

In a preferred embodiment, the venting channel 1001 is a venting groove 304, the air-sealing collar 10 covers at least a portion of the venting groove 304, and a distance exists between an end of the air-sealing collar 10 and the oil inlet 303. Wherein, there is a distance between one end of the air-sealing lantern ring 10 and the oil inlet 303. That is, one end of the air-sealing sleeve ring 10 is separated from the oil inlet 303, so that the exhaust passage 1001 is separated from the oil inlet 303, and the phenomenon that a small amount of smoke oil is brought into the exhaust passage 1001 to cause blockage when the smoke oil passes through the oil inlet 303 is prevented, and the exhaust is influenced.

In a preferred embodiment, a heating core 307 is arranged in the atomizing pipe 301, and the heating core 307 blocks the oil inlet 303. Wherein, the oil inlet 303 is blocked by the heating core 307. It should be noted that the smoke oil can be prevented from leaking from the heat generating core 307 and the oil inlet 303.

In a preferred embodiment, the atomizing core 3 further includes a fixing member 302, one end of the fixing member 302 is inserted into one end of the atomizing pipe 301, or one end of the fixing member 302 is sleeved on one end of the atomizing pipe 301, and the wall of the fixing member 302 is provided with an air port 309 corresponding to and communicating with the atomizing channel 306.

In a preferred example, the atomizer body includes: the oil storage bin comprises an oil storage bin 1, an oil storage cavity 101 used for storing oil is formed in the oil storage bin 1, a smoke suction port 102 used for smoking is formed in one end portion of the oil storage bin 1, a smoke exhaust pipe 103 is formed by the oil storage bin 1 protruding into the oil storage cavity 101 from the smoke suction port 102, the smoke suction port 102 is communicated with the smoke exhaust pipe 103, and one end, far away from a fixing piece 302, of an atomization pipe 301 is communicated with the smoke exhaust pipe 103. It should be noted that the outside air can enter the smoke exhaust pipe 103 from the smoke exhaust port 102, then enter the atomization channel 306, then enter the exhaust channel 1001 through the exhaust hole 305, and finally reach the supplementary air in the oil storage chamber 101 to maintain the air pressure balance.

In a preferred embodiment, an oil sealing member 4 for sealing the oil storage chamber 101 is disposed in the oil storage bin 1, a boss 401 is formed at an end of one end of the oil sealing member 4, a first through passage 402 extending through the boss 401 and the oil sealing member 4 is formed at an end of one end of the boss 401, and at least a portion of an outer wall of the atomizing pipe 301 is located in the first through passage 402.

In a preferred embodiment, an air guide member 5 is disposed on a side of the oil seal member 4 away from the oil storage cavity 101, the air guide member 5 is provided with a second through passage 501 with a hollow interior, the second through passage 501 corresponds to the first through passage 402, the boss 401 extends into the second through passage 501, the fixing member 302 is located in the second through passage 501, and the air port 309 is communicated with the second through passage 501.

In a preferred embodiment, at least one air guide hole 502 is formed in the outer wall of the air guide member 5, an air guide space 503 which is sealed up and down is formed between the outer wall of the air guide member 5 and the inner wall of the oil storage bin 1, the air guide hole 502 is located in the air guide space 503, the air guide space 503 is communicated with the second through channel 501 through the air guide hole 502, an air inlet channel 504 and an oil injection channel 505 are formed in the end portion, away from the oil seal member 4, of the air guide member 5, the air guide hole 502 is communicated with the air inlet channel 504 through the air guide space 503, and the oil injection channel 505 is communicated with the oil storage cavity 101. It should be noted that, in the smoking process, air enters the air guide space 503 from the air inlet channel 504 at the bottom of the air guide part 5, then enters the second through channel 501 through the air guide hole 502, and then enters the atomizing channel 306 of the atomizing pipe 301 from the air port 309 on the fixing part 302, so as to drive the smoke generated by heating the smoke oil by the heating core 307 to pass through the smoke exhaust pipe 103, and finally is sucked from the smoke suction port 102.

In a preferred embodiment, an air blocking member 308 for balancing air pressure in the atomizing channel is further disposed in the atomizing tube, and the air blocking member 308 is located below the heat generating core 307.

In a preferred embodiment, a first conductive connecting member 310 and a second conductive connecting member 311 electrically connected to the heat generating core 307 are disposed at an end of the fixing member 302 away from the atomizing tube 301.

The utility model also provides another electron cigarette, including foretell atomizer with be used for doing the electric core subassembly of atomizer power supply.

It should be noted that a great number of technical features are described in the specification of the present application, and are distributed in various technical solutions, so that the specification is excessively long if all possible combinations of the technical features (i.e., technical solutions) in the present application are listed. In order to avoid this problem, the respective technical features disclosed in the above-mentioned utility model of the present application, the respective technical features disclosed in the following embodiments and examples, and the respective technical features disclosed in the drawings may be freely combined with each other to constitute various new technical solutions (which are considered to have been described in the present specification) unless such a combination of technical features is technically impossible. For example, in one example, the feature a + B + C is disclosed, in another example, the feature a + B + D + E is disclosed, and the features C and D are equivalent technical means for the same purpose, and technically only one feature is used, but not simultaneously employed, and the feature E can be technically combined with the feature C, so that the solution of a + B + C + D should not be considered as being described because the technology is not feasible, and the solution of a + B + C + E should be considered as being described.

Implement the utility model discloses a utility model discloses an atomizer and electron cigarette of pressure release leak protection oil has following beneficial effect: the utility model discloses a through design exhaust passage, when the intracavity of storing oil produced the atmospheric pressure difference, usable exhaust passage pressure release maintains the interior atmospheric pressure balance of oil storage intracavity, prevents to have the atmospheric pressure difference in the oil storage intracavity, influences and leads to oily efficiency, causes the problem that the fuel feeding is not enough and cause the atomizer oil leak.

Drawings

The present invention will be described in detail with reference to the accompanying drawings so that the above advantages of the present invention can be more clearly understood. Wherein the content of the first and second substances,

fig. 1 is an exploded view of a first embodiment of the oil leak-proof pressure relief atomizer of the present invention;

fig. 2 is a perspective view of a first embodiment of the atomizer for preventing oil leakage by pressure relief;

fig. 3 is a schematic structural diagram of a first embodiment of the atomizer for preventing oil leakage and pressure release according to the present invention;

fig. 4 is a schematic view of an atomizing core of a first embodiment of the atomizer for preventing oil leakage by pressure relief according to the present invention;

fig. 5 is a schematic view of an atomizing core of a first embodiment of the atomizer for preventing oil leakage by pressure relief according to the present invention;

fig. 6 is a schematic structural diagram of a first embodiment of the atomizer for preventing oil leakage by pressure relief according to the present invention;

fig. 7 is a schematic structural view of a first embodiment of the atomizer for preventing oil leakage by pressure relief according to the present invention;

fig. 8 is an exploded view of a second embodiment of the atomizer of the present invention for preventing oil leakage by pressure relief;

fig. 9 is a perspective view of a second embodiment of the atomizer for preventing oil leakage by pressure relief;

fig. 10 is a schematic structural view of a second embodiment of the oil leakage prevention atomizer according to the present invention;

FIG. 11 is a schematic view of an atomizing core of a second embodiment of the atomizer with pressure release and oil leakage prevention of the present invention;

FIG. 12 is a schematic view of an atomizing core of a second embodiment of the atomizer with pressure release and oil leakage prevention of the present invention;

fig. 13 is a schematic structural view of a second embodiment of the oil leakage prevention atomizer according to the present invention;

fig. 14 is a schematic structural view of a second embodiment of the atomizer for preventing oil leakage by pressure release according to the present invention.

Detailed Description

The following detailed description will be made with reference to the accompanying drawings and examples, so as to solve the technical problems by applying technical means to the present invention, and to fully understand and implement the technical effects of the present invention. It should be noted that, as long as no conflict is formed, the embodiments and the features in the embodiments of the present invention may be combined with each other, and the technical solutions formed are all within the scope of the present invention.

As shown in fig. 1-14, the present embodiment discloses an atomizer for preventing oil leakage by pressure relief, comprising: atomizer main part and atomizing core 3, be formed with oil storage chamber 101 in the atomizer main part, atomizing core 3 is located oil storage chamber 101, be equipped with atomizing channel 306 in the atomizing core 3, offer on atomizing core 3's the wall and be used for making oil storage chamber 101 and the communicating exhaust hole 305 of atomizing channel 306, the cover is equipped with on atomizing core 3's the wall and seals the gas lantern ring 10, seal the gas lantern ring 10 and cover exhaust hole 305, it is formed with exhaust passage 1001 to seal between the wall of gas lantern ring 10 and atomizing core 3, exhaust passage 1001 and exhaust hole 305 are linked together and exhaust passage 1001 accesss to and seal outside the gas lantern ring 10. It should be noted that, by designing the exhaust passage, when the air pressure difference is generated in the oil storage cavity, the air pressure balance in the oil storage cavity can be maintained by utilizing the pressure relief of the exhaust passage, so as to prevent the problems of insufficient oil supply and oil leakage of the atomizer due to the influence on the oil guiding efficiency caused by the air pressure difference in the oil storage cavity.

In some examples, the atomizing core 3 includes an atomizing tube 301, the atomizing channel 306 is formed within the atomizing tube 301, the atomizing tube 301 has an inner wall and an outer wall, and the air-lock collar 10 is fitted over the inner wall and/or the outer wall. The air-sealing ring 10 includes but is not limited to at least one of metal, latex, rubber, or silica gel. The preferred metal material of this embodiment, high temperature resistant, difficult deformation, the equipment back can not lead to exhaust passage 1001 to appear great tolerance to easily riveting fixed.

In some examples, the vent 305 has an aperture of 1mm or less and the vent channel 1001 has a cross-sectional area of 1mm or less ² . The diameter of the vent 305 may be, for example, 0.1mm, 0.15mm, 0.2mm, 0.23mm, 0.25mm, 0.28mm, 0.3mm, 0.4mm, 0.5mm, or 0.6 mm; the cross-sectional area of the exhaust passage 1001 may be, for example, 0.2mm ² 、0.25mm ² 、0.28mm ² 、0.3mm ² 、0.35mm ² 、0.4mm ² 、0.5mm ² 、0.6mm ² 、0.7mm ²

In some examples, vent 305 has a hole size of 0.1-0.5mm and vent channel 1001 has a cross-sectional area of 0.25mm or less ² . The diameter of the vent 305 may be, for example, 0.1mm, 0.15mm, 0.2mm, 0.25mm, 0.3mm, 0.35mm, 0.4mm, 0.45mm, or 0.5 mm; the cross-sectional area of the exhaust passage 1001 may be, for example, 0.1mm ² 、0.15mm ² 、0.2mm ² 、0.25mm ² 。

In some examples, the vent channel 1001 includes a groove-shaped vent groove 304 formed on the air lock collar 10 or the nebulizing tube 301, or the vent channel 1001 includes a gap provided between the air lock collar 10 and the nebulizing tube 301, the gap being formed by a raised support provided on the air lock collar 10 and/or the nebulizing tube 301. The exhaust channel 1001 includes a groove-shaped exhaust groove 304 formed on the air-sealing collar 10 or the atomizing tube 301. In connection with the above requirement, the outer wall or the inner wall of the atomizing tube 301 is provided with the exhaust groove 304, the air-sealing collar 10 is sleeved on the outer wall of the atomizing tube 301, a gap between the exhaust groove 304 and the inner wall of the air-sealing collar 10 is used as the exhaust channel 1001, or the air-sealing collar 10 is sleeved on the inner wall of the atomizing tube 301, a gap between the exhaust groove 304 and the outer wall of the air-sealing collar 10 is used as the exhaust channel 1001, or the outer wall or the inner wall of the air-sealing collar 10 is provided with the exhaust groove 304, the air-sealing collar 10 is sleeved on the inner wall of the atomizing tube 301, a gap between the exhaust groove 304 and the inner wall of the atomizing tube 301 is used as the exhaust channel 1001, or the air-sealing collar 10 is sleeved on the outer wall of the atomizing tube 301, and a gap between the exhaust groove 304 and the outer wall of the atomizing tube 301 is used as the exhaust channel 1001; the gap is formed by the protruding supports arranged on the air sealing lantern ring 10 and/or the atomizing pipe 301, and the above requirements are combined, the air sealing lantern ring 10 is sleeved on the outer wall or the inner wall of the atomizing pipe 301, the air sealing lantern ring 10 is fixed on the outer wall or the inner wall of the atomizing pipe 301 in a riveting mode, the gap generated by the riveting protruding supports between the inner wall of the air sealing lantern ring 10 and the outer wall of the atomizing pipe 301 is used as an exhaust channel 1001, the gap generated by the riveting protruding supports between the outer wall of the air sealing lantern ring 10 and the inner wall of the atomizing pipe 301 is used as an exhaust channel 1001, or the lower end of the air sealing lantern ring 10 is provided with a protrusion, the air sealing lantern ring 10 is arranged in the atomizing pipe 301, the air sealing lantern ring 10 is supported on the inner wall of the atomizing pipe 301 through the protrusion, and the gap between the outer wall of the upper end of the air sealing lantern ring 10 and the inner wall of the atomizing pipe 301 is used as the exhaust channel 1001.

In some examples, the wall of the atomizing tube 301 is opened with an oil inlet 303, and both ends of the exhaust passage 1001 are respectively communicated with the exhaust hole 305 and the oil inlet 303. It should be noted that the exhaust channel 1001 may also have one end communicating with the exhaust hole 305 and the other end being away from the oil inlet 303, or the exhaust groove 304 may have one end extending out of the exhaust channel 1001 and communicating with the oil inlet 303 and the other end located in the exhaust channel 1001 and communicating with the exhaust hole 305.

In some examples, the vent passage 1001 is a vent slot 304, the air-packing collar 10 covers at least a portion of the vent slot 304, and an end of the air-packing collar 10 is spaced from the oil inlet 303. Wherein, there is a distance between one end of the air-tight lantern ring 10 and the oil inlet 303. That is, one end of the air-sealing lantern ring 10 is separated from the oil inlet 303, so that the exhaust channel 1001 is separated from the oil inlet 303, and the phenomenon that when the smoke oil passes through the oil inlet 303, a small amount of smoke oil is brought into the exhaust channel 1001 to cause blockage, and the exhaust is influenced is prevented.

In some examples, a heating core 307 is arranged in the atomizing pipe 301, and the heating core 307 seals the oil inlet 303. Wherein, the oil inlet 303 is sealed by the heating core 307. It should be noted that the smoke can be prevented from leaking from the heating core 307 and the oil inlet 303.

In some examples, the atomizing core 3 further includes a fixing member 302, one end of the fixing member 302 is inserted into one end of the atomizing pipe 301, or one end of the fixing member 302 is sleeved on one end of the atomizing pipe 301, and a wall of the fixing member 302 is provided with an air port 309 corresponding to and communicating with the atomizing channel 306.

In some examples, the nebulizer body comprises: oil storage bin 1, oil storage chamber 101 that has formed in the oil storage bin 1 and is used for the oil storage, the smoking mouth 102 that is used for the smoking is seted up to 1 one end tip in oil storage bin, and oil storage bin 1 is formed with smoke pipe 103 from smoking mouth 102 to the protruding extension in oil storage chamber 101, and smoking mouth 102 communicates with each other with smoke pipe 103, and atomizing pipe 301 is kept away from mounting 302 one end and is linked together with smoke pipe 103. It should be noted that the outside air can enter the smoke exhaust pipe 103 from the smoke exhaust port 102, then enter the atomization channel 306, then enter the exhaust channel 1001 through the exhaust hole 305, and finally reach the supplementary air in the oil storage chamber 101 to maintain the air pressure balance.

In some examples, an oil seal 4 for sealing the oil storage chamber 101 is disposed in the oil storage chamber 1, a boss 401 is formed at an end of the oil seal 4, a first through passage 402 extending through the boss 401 and the oil seal 4 is formed at an end of the boss 401, and an outer wall of the atomizing pipe 301 is at least partially located in the first through passage 402.

In some examples, an air guide member 5 is disposed on a side of the oil seal member 4 away from the oil storage chamber 101, the air guide member 5 has a second through passage 501 with a hollow interior, the second through passage 501 corresponds to the first through passage 402, the boss 401 extends into the second through passage 501, the fixing member 302 is disposed in the second through passage 501, and the air port 309 is communicated with the second through passage 501.

In some examples, at least one air guide hole 502 is formed in the outer wall of the air guide member 5, an air guide space 503 which is sealed up and down is formed between the outer wall of the air guide member 5 and the inner wall of the oil storage bin 1, the air guide hole 502 is located in the air guide space 503, the air guide space 503 is communicated with the second through channel 501 through the air guide hole 502, an air inlet channel 504 and an oil injection channel 505 are formed in the end portion, away from the oil seal member 4, of the air guide member 5, the air guide hole 502 is communicated with the air inlet channel 504 through the air guide space 503, and the oil injection channel 505 is communicated with the oil storage cavity 101. It should be noted that, in the smoking process, air enters the air guide space 503 from the air inlet channel 504 at the bottom of the air guide part 5, then enters the second through channel 501 through the air guide hole 502, and then enters the atomizing channel 306 of the atomizing pipe 301 from the air port 309 on the fixing part 302, so as to drive the smoke generated by heating the smoke oil by the heating core 307 to pass through the smoke exhaust pipe 103, and finally is sucked from the smoke suction port 102.

In some examples, an air baffle 308 for balancing air pressure in the atomizing channel is further disposed in the atomizing tube, and the air baffle 308 is located below the heat generating core 307.

In some examples, an end of the fixing member 302 away from the atomizing tube 301 is provided with a first conductive connecting member 310 and a second conductive connecting member 311 electrically connected to the heat generating core 307.

The utility model also provides another electron cigarette, including foretell atomizer with be used for doing the electric core subassembly of atomizer power supply. The electrical core assembly includes, but is not limited to, a housing, a battery, a circuit board, a bracket, and the like.

The following is a detailed description of specific examples.

Example 1

As shown in fig. 1 to 5, the atomizer of this embodiment for preventing oil leakage by pressure relief includes: an oil storage bin 1, a sealing sleeve 2, an atomizing core 3, an oil sealing part 4, an air guide part 5, a sealing part 6, an oil sealing plug 7, a magnet 8, an iron shell 9 and an air sealing sleeve ring 10, wherein an oil storage cavity 101 for storing oil is formed in the oil storage bin 1, a smoke suction port 102 for smoking is formed in the top of the oil storage bin 1 for smoking, a smoke discharge pipe 103 for discharging smoke is formed by extending the oil storage bin 1 from the smoke suction port 102 to the inside of the oil storage cavity 101 in a protruding mode, the smoke suction port 102 is communicated with the smoke discharge pipe 103 for sucking smoke in the smoke discharge pipe 103 through the smoke suction port 102, the oil sealing part 4 is arranged in the oil storage bin 1 for sealing the oil storage cavity 101, a boss 401 is formed at the bottom of the oil sealing part 4, a first through passage 402 which penetrates through the boss 401 and the oil sealing part 4 is formed at the bottom of the boss 401, the air guide part 5 is arranged in the bottom of the oil storage bin 1, a hollow second through passage 501 is formed in the air guide part 5, and corresponds to the first through passage 402, the upper end of the air guide piece 5 extends into the lower end of the oil seal piece 4 for internal sealing, the boss 401 extends into the second through channel 501 for enabling the first through channel 402 to be communicated with the second through channel 501, the atomizing core 3 passes through the first through channel 402 from the bottom of the air guide piece 5 and then extends into the oil storage cavity 101, the atomizing core 3 is provided with an atomizing pipe 301 and a fixing piece 302 which are connected with each other, the upper end of the atomizing pipe 301 is inserted into the smoke exhaust pipe 103 and connected with the smoke exhaust pipe 103, the sealing sleeve 2 is arranged between the smoke exhaust pipe 103 and the atomizing pipe 301 for sealing, the outer wall of the atomizing pipe 301 is provided with an oil inlet 303, an exhaust groove 304 and an exhaust hole 305, the air seal ring 10 is sleeved on the outer wall of the atomizing pipe 301 and fixed in a riveting mode, the air seal ring 10 wraps the exhaust hole 305 and part of the exhaust groove 304, and a gap between the inner wall of the air seal ring 10 and the wrapped part of the exhaust groove 304 on the outer wall of the atomizing pipe 301 forms an exhaust channel 1001, for maintaining the air pressure in the oil storage chamber 101 balanced.

An atomizing channel 306 is formed in the atomizing pipe 301 in a hollow manner, a heating core 307 for heating and atomizing smoke oil is arranged in the atomizing channel 306, an oil inlet 303 is corresponding to the heating core 307 for oil inlet, an air blocking member 308 is arranged in the atomizing channel 306 below the heating core 307 for filling the space of the atomizing channel 306 below the heating core 307 to weaken the air flow entering the atomizing channel 306, so that the air pressure of the upper section and the air pressure of the lower section of the atomizing channel 306 are balanced, two air guide holes 502 are respectively arranged on two sides of the outer wall of the air guide member 5, an air guide space 503 which is sealed up and down is formed between the outer wall of the air guide member 5 and the inner wall of the oil storage bin 1, the air guide holes 502 are positioned in the air guide space 503, the air guide space 503 is communicated with the second through channel 501 through the air guide holes 502, the fixing member 302 is positioned in the second through channel 501, an air port 309 for air flow is arranged on the outer wall of the fixing member 302, and the air port 309 is communicated with the atomizing channel 306 of the atomizing pipe 301, the bottom of the air guide piece 5 is provided with an air inlet channel 504 and an oil injection channel 505 which are used for air inlet and oil injection respectively, the air inlet channel 504 is communicated with the air guide space 503 and used for air flow, the bottom of the fixing piece 302 is provided with a first conductive connecting piece 310 and a second conductive connecting piece 311 which are electrically connected with the heating core 307 and are isolated from each other and used for conducting electricity, the sealing piece 6 is arranged between the outer peripheral wall of the air guide piece 5 and the inner peripheral wall of the oil storage bin 1 and used for sealing the air guide space 503, the oil sealing plug 7 is arranged in the oil injection channel 505 and used for sealing the oil injection channel 505 after oil injection is finished, the magnet 8 is pressed in the oil injection channel 505 and is positioned below the oil sealing plug 7 and used for being connected with the adaptive cigarette rod by utilizing magnetic attraction, and the iron shell 9 is arranged at the periphery of the bottom of the oil storage bin 1 and used for preventing the oil storage bin 1 from thermal expansion.

In the first embodiment, the diameter of the exhaust hole 305 is 0.2mm, and the cross-sectional area of the exhaust channel 1001 is 0.058mm ²

As shown in fig. 6, in the first embodiment of the present invention, the working principle of the inner exhaust channel 1001 of the atomizer is specifically described, when the air pressure in the oil storage chamber 101 is too high, the air in the oil storage chamber 101 can be discharged into the atomizing channel 306 in the atomizing pipe 301 through the exhaust hole 305 from the exhaust channel 1001, then through the smoke exhaust pipe 103, and finally discharged from the smoke suction port 102 to maintain the air pressure balance in the atomizing channel 306, when the air pressure in the oil storage chamber 101 is too low, the external air can enter the smoke exhaust pipe 103 from the smoke suction port 102, then enter the atomizing channel 306 in the atomizing pipe 301, then enter the exhaust channel 1001 through the exhaust hole 305, and maintain the air pressure balance in the atomizing channel 306.

As shown in fig. 7, in an embodiment of the present invention, the air flow of the atomizer is directed to the specific implementation description, when smoking, the air enters the air guiding space 503 from the air inlet channel 504 at the bottom of the air guiding member 5, then enters the second through channel 501 through the air guiding hole 502, and then enters the atomizing channel 306 of the atomizing pipe 301 from the air port 309 on the fixing member 302, so as to drive the heating core 307 to heat the smoke generated by the tobacco tar through the smoke discharging pipe 103, and finally, the smoke is sucked from the smoke sucking hole 102.

Example two:

as shown in fig. 8-12, the embodiment of the utility model discloses a pressure release leak protection oil atomizer, include: the oil storage bin comprises an oil storage bin 1, a sealing sleeve 2, an atomizing core 3, an oil sealing part 4, an air guide part 5, a sealing part 6, an oil sealing plug 7, a magnet 8, an iron shell 9 and an air sealing sleeve ring 10, wherein an oil storage cavity 101 for storing oil is formed in the oil storage bin 1, a smoke suction port 102 for smoking is formed in the top of the oil storage bin 1 and used for smoking, a smoke discharge pipe 103 for discharging smoke is formed by extending the oil storage bin 1 from the smoke suction port 102 to the inside of the oil storage cavity 101 in a protruding mode, the smoke suction port 102 is communicated with the smoke discharge pipe 103 and used for sucking smoke in the smoke discharge pipe 103 through the smoke suction port 102, the oil sealing part 4 is installed in the oil storage bin 1 and used for sealing the oil storage cavity 101, a boss 401 is formed at the bottom of the oil sealing part 4, a first through channel 402 which penetrates through the boss 401 and the oil sealing part 4 is formed at the bottom of the boss 401, the air guide part 5 is installed in the bottom of the oil storage bin 1, a second through channel 501 which is hollow in the interior is formed in correspondence with the first through channel 402, the upper end of the air guide part 5 extends into the lower end of the oil sealing part 4 for internal sealing, the boss 401 extends into the second through channel 501 for enabling the first through channel 402 to be communicated with the second through channel 501, the atomizing core 3 passes through the first through channel 402 from the bottom of the air guide part 5 and then extends into the oil storage cavity 101, the atomizing core 3 is provided with an atomizing pipe 301 and a fixing part 302 which are connected with each other, the upper end of the atomizing pipe 301 is inserted into the smoke exhaust pipe 103 and connected with the smoke exhaust pipe 103, the sealing sleeve 2 is arranged between the smoke exhaust pipe 103 and the atomizing pipe 301 for sealing, the outer wall of the atomizing pipe 301 is provided with an oil inlet 303 and an exhaust 305, the exhaust 305 is positioned above the oil inlet 303, the atomizing pipe 301 is hollow to form an atomizing channel 306, the air sealing sleeve ring 10 is arranged in the atomizing channel 306 of the atomizing pipe 301, the air sealing sleeve 10 corresponds to the exhaust 305, and a gap between the outer wall of the air sealing sleeve 10 and the inner wall of the atomizing channel 306 of the atomizing core 3 forms an exhaust 1001, for maintaining the air pressure in the oil storage chamber 101 balanced.

A heating core 307 for heating and atomizing the smoke oil is arranged in the atomizing channel 306, the oil inlet 303 corresponds to the heating core 307 for oil inlet, an air blocking member 308 for filling the space of the atomizing channel 306 below the heating core 307 is arranged in the atomizing channel 306 below the heating core 307 to weaken the air flow entering the atomizing channel 306, so that the air pressure of the upper section and the lower section of the atomizing channel 306 are balanced, two air guide holes 502 are respectively arranged at two sides of the outer wall of the air guide member 5, an upper and lower closed air guide space 503 is formed between the outer wall of the air guide member 5 and the inner wall of the oil storage bin 1, the air guide holes 502 are positioned in the air guide space 503, the air guide space 503 is communicated with the second through channel 501 through the air guide holes 502, the fixing member 302 is positioned in the second through channel 501, an air port 309 for air flow is arranged on the outer wall of the fixing member 302, the air port 309 is communicated with the atomizing channel 306 of the atomizing tube 301, an air inlet channel 504 and an oil injection channel 505 are arranged at the bottom of the air guide member 5 for air inlet and oil injection respectively, the air inlet channel 504 is communicated with the air guide space 503 and used for air flow, the bottom of the fixing piece 302 is provided with a first conductive connecting piece 310 and a second conductive connecting piece 311 which are electrically connected with the heating core 307 in an isolating mode and used for conducting electricity, the sealing piece 6 is installed between the outer peripheral wall of the air guide piece 5 and the inner peripheral wall of the oil storage bin 1 and used for sealing the air guide space 503, the oil sealing plug 7 is installed in the oil filling channel 505 and used for sealing the oil filling channel 505 after oil is filled, the magnet 8 is pressed in the oil filling channel 505 and located below the oil sealing plug 7 and used for being connected with the adaptive smoke rod through magnetic attraction, and the iron shell 9 is installed on the periphery of the bottom of the oil storage bin 1 and used for preventing the oil storage bin 1 from thermal expansion.

As shown in fig. 13, in the second embodiment of the present invention, the working principle of the inner exhaust channel 1001 of the atomizer is described in detail, when the air pressure in the oil storage chamber 101 is too high, the air in the oil storage chamber 101 can be discharged into the atomizing channel 306 in the atomizing pipe 301 through the exhaust channel 1001 from the exhaust hole 305, then through the smoke exhaust pipe 103, and finally discharged from the smoke suction port 102 to maintain the air pressure balance in the atomizing channel 306, when the air pressure in the oil storage chamber 101 is too low, the external air can enter the smoke exhaust pipe 103 from the smoke suction port 102, then enter the atomizing channel 306 in the atomizing pipe 301, and then enter the atomizing channel 306 from the exhaust hole 305 through the exhaust channel 1001 to maintain the air pressure balance in the atomizing channel 306.

As shown in fig. 14, in an embodiment of the present invention, the air flow of the atomizer goes to the embodiment, and when smoking, the air enters the air guiding space 503 from the air inlet channel 504 at the bottom of the air guiding member 5, then enters the second through channel 501 through the air guiding hole 502, and then enters the atomizing channel 306 of the atomizing pipe 301 from the air port 309 on the fixing member 302, so as to drive the heating core 307 to heat the smoke generated by the tobacco tar and smoke through the smoke discharging pipe 103, and finally smoke is sucked from the smoke sucking port 102.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. The utility model provides an atomizer of leak protection oil of pressure release which characterized in that includes: atomizer main part and atomizing core (3), be formed with oil storage chamber (101) in the atomizer main part, atomizing core (3) are located in oil storage chamber (101), be equipped with atomizing passageway (306) in atomizing core (3), seted up on the wall of atomizing core (3) and be used for making oil storage chamber (101) with communicating exhaust hole (305) of atomizing passageway (306), the cover is equipped with on the wall of atomizing core (3) seals the gas lantern ring (10), seal the gas lantern ring (10) and cover exhaust hole (305), seal the gas lantern ring (10) with be formed with exhaust passage (1001) between the wall of atomizing core (3), exhaust passage (1001) with exhaust hole (305) are linked together and exhaust passage (1001) accesss to outside the gas lantern ring (10).

2. The atomizer of claim 1, wherein said atomizing core (3) comprises an atomizing tube (301), said atomizing channel (306) is formed in said atomizing tube (301), said atomizing tube (301) has an inner wall and an outer wall, and said air-sealing collar (10) is fitted on said inner wall and/or said outer wall.

3. The atomizer of claim 2, wherein the diameter of the vent hole (305) is less than or equal to 1mm, and the cross-sectional area of the vent channel (1001) is less than or equal to 1mm ² 。

4. The atomizer of claim 3, wherein the diameter of the vent hole (305) is 0.1-0.5mm, and the cross-sectional area of the vent channel (1001) is less than or equal to 0.25mm ² 。

5. The atomizer of claim 2, wherein the exhaust channel (1001) comprises a groove-shaped exhaust groove (304) formed on the air-sealing collar (10) or the atomizing tube (301), or the exhaust channel (1001) comprises a gap provided between the air-sealing collar (10) and the atomizing tube (301), the gap being formed by a protruding support provided on the air-sealing collar (10) and/or the atomizing tube (301).

6. The atomizer of claim 5, wherein an oil inlet (303) is disposed on the wall of the atomizing pipe (301), and two ends of the exhaust channel (1001) are respectively connected to the exhaust hole (305) and the oil inlet (303).

7. The atomizer of claim 6, wherein said air vent channel (1001) is an air vent groove (304), said air-packing collar (10) covers at least a portion of said air vent groove (304), and a distance exists between one end of said air-packing collar (10) and said oil inlet (303).

8. The atomizer of claim 7, wherein a heat generating core (307) is disposed in the atomizing tube (301), and the heat generating core (307) blocks the oil inlet 303.

9. The atomizer of claim 8, wherein said atomizing core (3) further comprises a fixing member (302), one end of said fixing member (302) is inserted into one end of said atomizing tube (301), or one end of said fixing member (302) is sleeved on one end of said atomizing tube (301), and said fixing member (302) has a wall provided with an air port (309) corresponding to and communicating with said atomizing channel (306).

10. The atomizer of claim 9, wherein said atomizer body comprises: oil storage bin (1), oil storage chamber (101) that have formed in oil storage bin (1) and be used for the oil storage, smoking mouth (102) that are used for the smoking are seted up to oil storage bin (1) one end tip, and oil storage bin (1) is followed smoking mouth (102) and is located to protruding being formed with smoke exhaust pipe (103) in oil storage chamber (101), and smoking mouth (102) communicate with each other with smoke exhaust pipe (103), atomizing pipe (301) are kept away from mounting (302) one end with smoke exhaust pipe (103) are linked together.

11. The atomizer of claim 10, wherein an oil seal member (4) for sealing the oil storage chamber (101) is disposed in the oil storage bin (1), a boss (401) is formed at an end of one end of the oil seal member (4), a first through passage (402) penetrating through the boss (401) and the oil seal member (4) is formed at an end of one end of the boss (401), and at least a portion of an outer wall of the atomizing tube (301) is disposed in the first through passage (402).

12. The atomizer of claim 11, wherein an air guide member (5) is disposed on a side of the oil seal member (4) away from the oil storage chamber (101), the air guide member (5) has a second through channel (501) with a hollow interior, the second through channel (501) corresponds to the first through channel (402), the boss (401) extends into the second through channel (501), the fixing member (302) is disposed in the second through channel (501), and the air port (309) is communicated with the second through channel (501).

13. The atomizer of claim 12, wherein the outer wall of the air guide member (5) is provided with at least one air guide hole (502), an air guide space (503) which is sealed up and down is formed between the outer wall of the air guide member (5) and the inner wall of the oil storage bin (1), the air guide hole (502) is located in the air guide space (503), the air guide space (503) is communicated with the second through channel (501) through the air guide hole (502), the end of the air guide member (5) far away from the oil seal member (4) is provided with an air inlet channel (504) and an oil injection channel (505), the air guide hole (502) is communicated with the air inlet channel (504) through the air guide space (503), and the oil injection channel (505) is communicated with the oil storage chamber (101).

14. The atomizer of claim 8, wherein an air blocking member (308) is further disposed in the atomizing tube for balancing air pressure in the atomizing channel, and the air blocking member (308) is located below the heat generating core (307).

15. The atomizer of claim 9, wherein a first conductive connector (310) and a second conductive connector (311) electrically connected to the heat generating core (307) are disposed at an end of the fixing member (302) away from the atomizing tube (301).

16. An electronic cigarette, comprising an atomiser according to any of claims 1 to 15 and an electrical cartridge assembly for powering the atomiser.

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