CN216493500U - Atomizing device, atomizer and oil cup integrated piece - Google Patents

Abstract

The application provides an atomizing device, atomizer and oil cup integrated piece. The oil cup integrated component comprises a glass oil bin and a glass central tube, wherein a sintering position is formed on the glass oil bin, and the glass central tube is connected with the glass oil bin through the sintering position. Because the glass oil bin is formed with the sintering position, and the glass center tube is located the glass oil bin through the sintering and connects, make glass oil bin and glass center tube connect into an organic whole structure through the sintering, the component figure of atomizer has not only been simplified, make glass oil bin and glass center tube be connected reliably simultaneously, the problem that the plastic oil cup and the higher requirement of metal center tube cooperation precision of traditional atomizer have been avoided, in addition the bottom in the oil cup integrated component also need not to increase sealed the pad and carries out sealed cooperation, the component figure of atomizer has been reduced.

Description

Atomizing device, atomizer and oil cup integrated piece

Technical Field

The utility model relates to the technical field of electronic atomization, in particular to an atomization device, an atomizer and an oil cup integrated piece.

Background

Traditional atomizer includes plastic oil cup, metal center tube and sealed the pad, is formed with the oil storage chamber in the plastic oil cup, and the metal center tube is located to sealed the pad cover, and sealed the pad sealed bottom that sets up in the plastic oil cup, makes the tobacco tar reliably save in the oil storage intracavity. The heating core sets up in the inner wall of metal center tube, and the tobacco tar of oil storage intracavity flows into the metal center tube in with the position that the heating core corresponds, and the heating core passes through the external electrically conductive of conductor wire, makes the heating core circular telegram generate heat and can heat the atomizing liquid and atomize.

However, the tobacco tar is respectively contacted with the plastic oil cup and the metal central tube in the oil storage cavity for a long time, wherein the plastic oil cup is easily contacted with the tobacco tar for a long time to release harmful substances, the metal central tube is easily contacted with the tobacco tar and the temperature of the metal central tube is increased to generate heavy metals and the heavy metals are remained in the tobacco tar, so that heavy metal pollution exists, and the use safety of the atomizer is low; in addition, because the metal central tube has electric conductivity, the junction of the heating core and the conducting wire needs to be insulated through an insulation packaging process, so that the structure of the junction of the heating core and the conducting wire is complex and swollen, and the problem of short circuit easily occurs in the long-term use process, so that the volume of the metal central tube is large, and the atomizer has the problems of large volume and low reliability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides an atomizing device, an atomizer and an oil cup integrated component which are good in use safety, small in size and high in reliability.

The purpose of the utility model is realized by the following technical scheme:

an oil cup manifold comprising: the glass oil bin is formed with a sintering position, and the glass central tube is connected with the glass oil bin through the sintering position.

In one embodiment, the sintering position is in a sintering connection hole structure, and the glass central tube is at least partially located at the sintering position and is in sintering connection with the glass oil bin.

In one embodiment, the glass central tube penetrates through the sintering position and is connected with the glass oil bin in a sintering mode.

In one embodiment, an oil storage groove is formed in the glass oil bin, an oil inlet hole and a central air hole which are communicated are formed in the glass central tube, and the oil inlet hole is also communicated with the oil storage groove.

In one embodiment, the glass oil bin comprises an oil bin body and a blocking connecting part, the oil storage groove is formed in the oil bin body, the blocking connecting part is located in the oil storage groove and connected with the oil bin body, the sintering part is formed in the blocking connecting part, and the oil inlet hole is located on one side of the blocking connecting part.

In one embodiment, the oil sump body and the plugging connecting portion are of an integrally formed structure.

In one embodiment, the oil cup integrated piece further comprises an elastic buffer piece, a positioning groove is formed at the joint of the plugging connecting part and the oil bin body, the elastic buffer piece is arranged in the positioning groove, and the positioning groove and the oil inlet hole are respectively located on two sides of the plugging connecting part; the glass central tube is arranged in the sintering position in a penetrating mode and is connected with the glass oil bin in a sintering mode, and the elastic buffer piece is sleeved on the glass central tube.

In one embodiment, the oil cup integrated piece further comprises a sealing cover, the glass oil bin is further formed with an oil filling opening communicated with the oil storage tank, the sealing cover is arranged on the oil filling opening, and the sealing cover is sleeved on the glass central tube to seal the oil storage tank.

An atomizer comprises the oil cup integrated piece in any one of the above embodiments.

An atomizing device comprises the atomizer.

Compared with the prior art, the utility model has at least the following advantages:

1. because the glass oil bin is provided with the sintering position, and the glass central tube is positioned in the glass oil bin for connection through sintering, the glass oil bin and the glass central tube are connected into an integral structure through sintering, the element number of the atomizer is simplified, meanwhile, the glass oil bin and the glass central tube are reliably connected, the problem that the matching precision of a plastic oil cup and a metal central tube of a traditional atomizer is high is solved, and the bottom in an oil cup integrated component is not required to be additionally provided with a sealing gasket for sealing matching, so that the element number of the atomizer is reduced;

2. because the glass oil bin is the glass material, compare in traditional plastic oil cup of plastic material, the problem of the long-time contact of plastic oil cup and tobacco tar is released harmful substance easily has been avoided, because the glass center tube is the glass material, compare in traditional metal center tube, the problem of heavy metal pollution has been solved, the safety in utilization of atomizer has been improved greatly like this, including the center tube that the glass center tube is insulating material, the junction of heating core and conductor wire that so set up in the glass center tube need not to do insulating treatment, the more complicated and swollen problem of structure of the junction of heating core and conductor wire has been avoided, also the problem of short circuit appears in the easy yet, so under the prerequisite of the same atomizing requirement, the volume of atomizer is less, and then solved the atomizer and had the problem that the volume is great and the reliability is lower.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of an atomizing device according to an embodiment;

FIG. 2 is an exploded view of the atomizing device shown in FIG. 1;

FIG. 3 is a partial schematic view of an oil cup manifold of the atomizer of the atomizing device of FIG. 2;

FIG. 4 is a perspective cross-sectional view of the oil cup manifold of FIG. 3;

FIG. 5 is a cross-sectional view of a portion of the atomizing device shown in FIG. 1;

fig. 6 is a schematic view of the battery rod of the atomizer shown in fig. 1.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The application provides an oil cup integrated piece includes: the glass oil bin is formed with a sintering position, and the glass central tube is connected with the glass oil bin through the sintering position.

According to the oil cup integrated component, the glass oil bin is provided with the sintering position, and the glass central tube is positioned in the glass oil bin for connection through sintering, so that the glass oil bin and the glass central tube are connected into an integrated structure through sintering, the number of elements of the atomizer is simplified, meanwhile, the glass oil bin and the glass central tube are reliably connected, the problem that the matching precision of a plastic oil cup and a metal central tube of a traditional atomizer is high is solved, and the bottom in the oil cup integrated component is not required to be additionally provided with a sealing gasket for sealing and matching, so that the number of elements of the atomizer is reduced; because the glass oil bin is the glass material, compare in traditional plastic oil cup of plastic material, the problem of the long-time contact of plastic oil cup and tobacco tar is released harmful substance easily has been avoided, because the glass center tube is the glass material, compare in traditional metal center tube, the problem of heavy metal pollution has been solved, the safety in utilization of atomizer has been improved greatly like this, including the center tube that the glass center tube is insulating material, the junction of heating core and conductor wire that so set up in the glass center tube need not to do insulating treatment, the more complicated and swollen problem of structure of the junction of heating core and conductor wire has been avoided, also the problem of short circuit appears in the easy yet, so under the prerequisite of the same atomizing requirement, the volume of atomizer is less, and then solved the atomizer and had the problem that the volume is great and the reliability is lower.

In order to better understand the technical scheme and the beneficial effects of the present application, the following detailed description is further provided in conjunction with specific embodiments:

as shown in fig. 1 and 2, an atomizing device 10 according to an embodiment includes an atomizer 100, where the atomizer 100 includes an oil cup assembly 100a, and the oil cup assembly 100a is used for containing atomized liquid. It will be appreciated that the aerosolized liquid may be tobacco tar or a liquid medicine or other aerosolized liquid. Referring to fig. 3 and 4, in one embodiment, the oil cup assembly 100a includes a glass oil bin 110 and a glass central tube 120, the glass oil bin 110 is formed with a sintering position 102, and the glass central tube 120 is connected to the glass oil bin 110 through the sintering position 102, so that the joint between the glass central tube 120 and the glass oil bin 110 is sintered and connected along the sintering position 102, so that the glass central tube 120 and the glass oil bin 110 are reliably and fixedly connected, and the problem of high requirement on the fitting precision between the plastic oil cup 100a and the metal central tube of the conventional atomizer 100 is avoided.

In the oil cup integrated piece 100a, the glass oil bin 110 is provided with the sintering position 102, and the glass central tube 120 is connected with the glass oil bin 110 through the sintering position 102, so that the glass oil bin 110 and the glass central tube 120 are connected into an integrated structure through sintering, the number of elements of the atomizer 100 is simplified, meanwhile, the glass oil bin 110 and the glass central tube 120 are reliably connected, the problem that the matching precision of the plastic oil cup 100a and the metal central tube of the traditional atomizer 100 is high is solved, and the bottom in the oil cup integrated piece 100a is not required to be added with a sealing gasket for sealing matching, so that the number of elements of the atomizer 100 is reduced; because the glass oil bin 110 is made of glass, compared with the traditional plastic oil cup 100a made of plastic, the problem that harmful substances are easily released when the plastic oil cup 100a is contacted with tobacco tar for a long time is avoided, and because the glass central tube 120 is made of glass, compared with the traditional metal central tube, the problem of heavy metal pollution is solved, thus, the safety of the atomizer 100 is greatly improved, and the glass central tube 120 is made of an insulating material, the connection between the heating core and the conductive wire in the glass central tube 120 does not need to be insulated, thus avoiding the problem that the connection between the heating core and the conductive wire has a complicated and enlarged structure and the problem of short circuit, therefore, on the premise of the same atomization requirement, the atomizer 100 is small in size, and the problems that the atomizer 100 is large in size and low in reliability are solved.

In one embodiment, as shown in fig. 4, the sintering position 102 is a sintering connection hole structure, and the glass central tube 120 is at least partially located at the sintering position 102 and is in sintering connection with the glass oil bin 110, so that the glass central tube 120 is reliably in sintering connection with the glass oil bin 110, and the glass central tube 120 is tightly connected with the glass oil bin 110. It is understood that in other embodiments, the sintering site 102 is not limited to the sintering connection hole structure, and the sintering site 102 may also be the sintering connection hole 210 structure.

As shown in fig. 4, in one embodiment, the glass central tube 120 is inserted into the sintering position 102 and is connected to the glass oil bin 110 by sintering, so that two ends of the glass central tube 120 are respectively located at two sides of the sintering position 102, and the glass central tube 120 is connected to the glass oil bin 110 reliably. It is understood that in other embodiments, the glass center tube 120 is not limited to being disposed through the sintering position 102 and being in sintering connection with the glass oil bin 110. For example, one end of the glass central tube 120 is located at the sintering position 102 and is connected with the glass oil bin 110 in a sintering manner.

In one embodiment, as shown in fig. 4, an oil reservoir 112 for storing atomized liquid is formed in the glass oil chamber 110, the glass central tube 120 is formed with an oil inlet hole 122 and a central air hole 124 which are communicated, and the oil inlet hole 122 is further communicated with the oil reservoir 112, so that the atomized liquid in the oil reservoir 112 can enter the central air hole 124 through the oil inlet hole 122.

As shown in fig. 5, in an embodiment, the atomizer 100 further includes an atomizing core 100b, which is disposed in the central air hole 124 and is disposed corresponding to the oil inlet 122, so that the atomizing core can heat and atomize the atomized liquid entering the central air hole 124. Because glass center tube 120 is insulating material's center tube, does not have electric conductivity, so set up the junction of heating core and conductor wire in glass center tube 120 and need not to do insulating treatment, avoided the more complicated and swollen problem of structure of the junction of heating core and conductor wire, also do not have the problem that the short circuit appears easily, so under the prerequisite of the same atomizing requirement, the volume of atomizer 100 is less, and then has solved atomizer 100 and has had the problem that the volume is great and the reliability is lower.

As shown in fig. 4 and 5, in one embodiment, the glass oil sump 110 includes an oil sump body 111 and a sealing connection portion 113, the oil storage tank 112 is formed in the oil sump body 111, the sealing connection portion 113 is located in the oil storage tank 112 and connected to the oil sump body 111, the sintering site 102 is formed in the sealing connection portion 113, and the oil inlet 122 is located at one side of the sealing connection portion 113, so that the glass oil sump 110 is formed with the sintering site 102 and the oil storage tank 112. In this embodiment, the plugging connecting portion 113 is fixedly connected to the glass central tube 120 through the sintering position 102, so that the connection portion between the plugging connecting portion 113 and the glass central tube 120 can be tightly connected without adding a sealing structure. In one embodiment, the blocking connection portion 113 is located at the bottom of the oil sump body 111 and connected with the end of the oil sump body 111. Specifically, the oil sump body 111 has a circular peripheral wall structure, so that the oil storage tank 112 surrounded by the connection between the end of the oil sump body 111 and the blocking connection portion 113 has a more compact structure under the same volume condition.

As shown in fig. 4 and 5, in one embodiment, the oil sump body 111 and the blocking connection portion 113 are integrally formed, so that the oil sump body 111 and the blocking connection portion 113 are tightly connected. In this embodiment, the oil sump body 111 and the plugging connecting portion 113 are made of glass, and the oil sump body 111 and the plugging connecting portion 113 are integrally blow-molded, so that the oil sump body 111 and the plugging connecting portion 113 are tightly connected, and meanwhile, the structure of the glass oil sump 110 is more compact. It is understood that, in other embodiments, the oil sump body 111 and the blocking connection portion 113 are not limited to be of an integrally molded structure. The oil bin body 111 and the plugging connecting part 113 are respectively molded and connected to form an integrally molded structure through sintering. In one embodiment, the blocking connection portion 113 is a blocking plate structure, so that the structure of the blocking connection portion 113 is simple and easy to mold.

It can be understood that the plugging connecting portion 113 is connected to the end edge of the oil bin body 111, so that the plugging connecting portion 113 of the oil cup integrated piece 100a is easily broken when being collided during transportation or use of the atomizer 100, and the service life of the atomizer 100 is further shortened. In order to avoid the problem that the blocking connection part 113 of the oil cup integrated piece 100a is easily broken when being collided during the transportation or use of the atomizer 100, in other embodiments, the blocking connection part 113 is connected to the inner wall of the oil sump body 111, and the part of the blocking connection part 113 connected to the inner wall of the oil sump body 111 is at a predetermined distance from the end edge of the oil sump body 111. As shown in fig. 5, in one embodiment, the oil cup assembly 100a further includes an elastic buffer member 140, a positioning groove 113a is formed at a connection position of the blocking connection portion 113 and the oil sump body 111, the elastic buffer member 140 is disposed in the positioning groove 113a, and the positioning groove 113a and the oil inlet 122 are respectively located at two sides of the blocking connection portion 113. The elastic buffer 140 is disposed away from the central air hole 124, so that the elastic buffer 140 does not affect the normal air intake of the central air hole 124. Because the elastic buffer member 140 is arranged in the positioning groove 113a, the problem that the plugging connecting portion 113 is easy to break due to collision in the transportation or use process of the atomizer 100 is avoided. Further, the glass central tube 120 penetrates through the sintering position 102 and is connected with the glass oil bin 110 in a sintering mode, the elastic buffer member 140 is sleeved on the glass central tube 120, so that the glass central tube 120 is reliably connected with the glass oil bin 110, meanwhile, the elastic buffer member 140 is reliably arranged in the positioning groove 113a, and then the blocking connection portion 113 is reliably protected, and the problem that the blocking connection portion 113 of the oil cup integrated piece 100a is prone to being broken due to collision in the transportation or use process of the atomizer 100 is better avoided. In the present embodiment, the elastic buffer 140 may be a silicone buffer or a rubber buffer.

In one embodiment, the oil cup assembly 100a further comprises a sealing cap 130, and the glass oil bin 110 is further formed with an oil filling opening 115 communicating with the oil reservoir 112. The sealing plug cover 130 is arranged on the oil injection opening 115 in a covering mode, and the sealing plug cover is sleeved on the glass central tube 120 to plug the oil storage groove 112, so that the top of the glass central tube 120 is sealed, and atomized liquid is reliably stored in the oil storage groove 112. In one embodiment, the sealing cap 130 is a silicone cap, so that the sealing cap 130 has better elasticity and sealing performance.

In order to avoid the problem of sealing failure caused by excessive assembly of the sealing plug 130 when the sealing plug 130 is covered in the oil filling opening 115, further, the sealing plug 130 is provided with a positioning installation groove 132 and an air outlet 134 which are communicated, the inner diameter of the positioning installation groove 132 is larger than that of the air outlet 134, the diameter of the glass central tube 120 is larger than that of the positioning installation groove 132, one end of the glass central tube 120 is positioned in the positioning installation groove 132 and is in interference fit with the sealing plug 130, so that the glass central tube 120 is tightly sleeved on the sealing plug 130, the glass central tube 120 is limited in the positioning installation groove 132, and the problem of sealing failure caused by excessive assembly of the sealing plug 130 when the sealing plug is covered in the oil filling opening 115 is avoided. In one embodiment, an insertion portion 117 is formed at an end of the sealing cover 130 adjacent to the glass oil bin 110, and the insertion portion 117 is located in the oil storage tank 112 and is in interference fit with the glass oil bin 110, so that the insertion portion 117 is elastically connected with the glass oil bin 110. Furthermore, a limiting flange 117a is formed on the periphery of the insertion part 117, and the limiting flange 117a abuts against the end of the glass oil bin 110 adjacent to the sealing cover 130, so that the insertion part 117 is better inserted and limited in the oil storage tank 112.

As shown in fig. 2 and fig. 6, the atomizer 10 further includes a battery rod 200, the battery rod 200 is opened with a connecting groove 210 and an air inlet passage 220, the glass oil bin 110 is located in the connecting groove 210 and connected with the battery rod 200, so that the glass oil bin 110 is assembled on the battery rod 200. The air inlet passage 220 is communicated with the central glass tube 120, so that the central glass tube 120 can reliably inlet air. In this embodiment, the battery rod 200 is electrically connected to the atomizing core, which energizes the atomizing core and heats the atomized liquid.

As shown in fig. 5 and 6, a limiting boss 212 is further formed on an inner wall of the connecting groove 210, and the limiting boss 212 abuts against the elastic buffer 140, so that the elastic buffer 140 is reliably limited in the positioning groove 113 a. In this embodiment, the glass central tube 120 is inserted into the sintering position 102 and is connected to the glass oil sump 110 in a sintering manner, the elastic buffer 140 is sleeved on the glass central tube 120, so that the glass central tube 120 is reliably connected to the glass oil sump 110, and the elastic buffer 140 is reliably disposed in the positioning groove 113a, so as to reliably protect the plugging connection portion 113, thereby better avoiding the problem that the plugging connection portion 113 of the oil cup assembly 100a is easily broken due to collision during transportation or use of the atomizer 100. In the present embodiment, the elastic buffer 140 may be a silicone buffer or a rubber buffer.

As shown in fig. 2 and 5, the atomizer 10 further includes a nozzle cover 300, the nozzle cover 300 is disposed on the battery rod 200, and the nozzle cover 300 is disposed on the atomizer 100, so that the atomizer 100 is accommodated in a space surrounded by the connection between the nozzle cover 300 and the battery rod 200, thereby preventing the atomizer 100 from being directly exposed to the outside, and facilitating the reliable use of the user. In this embodiment, the suction nozzle cover 300 is opened with a suction hole 302, and the suction hole 302 is communicated with the glass central tube 120, so that the atomizing gas reliably flows out of the outside of the suction hole 302 through the glass central tube 120. In order to better cover the nozzle cover 300 on the atomizer 100 and better enable the sealing cap 130 to press and seal the glass oil bin 110, an elastic abutting portion 304 is further convexly arranged on the inner wall of the nozzle cover 300, and the elastic abutting portion 304 elastically abuts against the sealing cap 130, so that the nozzle cover 300 is better covered on the atomizer 100 and the sealing cap 130 can be better pressed and sealed on the glass oil bin 110.

As shown in fig. 2 and 6, further, the nozzle cover 300 is snap-coupled to the battery pole 200, so that the nozzle cover 300 is quickly detached from the battery pole 200. Specifically, the end of the nozzle cover 300 adjacent to the battery rod 200 is provided with a clamping portion 303, the clamping portion is provided with a clamping interface 303a, the end of the battery rod 200 is convexly provided with a clamping flange 203, and the clamping flange 203 is clamped into the clamping interface 303a, so that the nozzle cover 300 is connected with the battery rod 200 in a clamping manner. Referring to fig. 5, further, a positioning ring groove 305 is formed at an end of the suction nozzle cover 300 adjacent to the battery rod 200, a positioning flange 208 is formed on the battery rod 200, the positioning flange is located in the positioning ring groove, and the clamping flange 203 is used for being clamped into the clamping interface 303a when the positioning flange is located in the positioning ring groove, so that the clamping flange 203 is rapidly clamped into the clamping interface. Furthermore, two sides of the limiting flange 117a respectively abut against the inner wall of the positioning ring groove and the end of the glass oil bin 110 adjacent to the sealing cover 130, so that the inserting portion 117 is more reliably inserted and limited in the oil storage groove 112.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. An oil cup manifold, comprising: the glass oil bin is provided with a sintering position, and the glass central tube is connected with the glass oil bin through the sintering position; the glass oil bin comprises an oil bin body and a sealing connecting portion, an oil storage tank is formed in the oil bin body, the sealing connecting portion are located in the oil storage tank and connected with the oil bin body, an oil inlet hole and a central air hole which are communicated are formed in a glass central tube, the oil inlet hole is communicated with the oil storage tank, the sintering portion is formed in the sealing connecting portion, and the oil inlet hole is located on one side of the sealing connecting portion.

2. The oil cup integrated piece of claim 1, wherein the sintering position is a sintering connection hole structure, and the glass central tube is at least partially located at the sintering position and is in sintering connection with the glass oil bin.

3. The oil cup manifold as recited in claim 2, wherein the glass center tube is disposed through the sintering location and is in sintered connection with the glass oil sump.

4. The oil cup integrated piece of claim 1, wherein the oil sump body and the plugging connecting portion are of an integrally formed structure.

5. The oil cup integrated piece according to claim 1, further comprising an elastic buffer member, wherein a positioning groove is formed at a joint of the plugging connecting portion and the oil sump body, the elastic buffer member is arranged in the positioning groove, and the positioning groove and the oil inlet hole are respectively located at two sides of the plugging connecting portion; the glass central tube is arranged in the sintering position in a penetrating mode and is connected with the glass oil bin in a sintering mode, and the elastic buffer piece is sleeved on the glass central tube.

6. The oil cup integrated piece according to claim 1, further comprising a sealing cap, wherein the glass oil bin is further formed with an oil filling opening communicated with the oil storage tank, the sealing cap is disposed at the oil filling opening, and the sealing cap is sleeved on the glass central tube to seal the oil storage tank.

7. An atomizer, comprising the oil cup manifold of any one of claims 1 to 6.

8. An atomizing device characterized by comprising the atomizer of claim 7.

Images