CN211482974U - Atomizer - Google Patents

Abstract

The utility model relates to an atomizer, which comprises an atomization bin component, a suction nozzle component and an atomization core component, wherein the atomization bin component comprises a hollow atomization bin, and the suction nozzle component and the atomization core component are respectively arranged at two ends of the atomization bin; the atomizing core assembly comprises an atomizing pipe and an atomizing core installed in the atomizing pipe, the first end of the atomizing pipe is supported by a partition body located in an atomizing bin, the second end of the atomizing pipe extends into the atomizing bin and is installed on the suction nozzle assembly, and a space between the outer side of the atomizing pipe and the atomizing bin is closed by the partition body and the suction nozzle assembly to form an oil storage cavity; the atomizing pipe is provided with an oil inlet hole at the position corresponding to the atomizing core; when the atomizing core assembly is installed at the first installation position of the atomizing bin, the oil inlet hole is positioned outside the oil storage cavity, so that the oil storage cavity is isolated from the atomizing core; when the second installation position in atomizing storehouse is being installed to atomizing core subassembly, the inlet port is located the oil storage intracavity, makes oil storage chamber and atomizing core intercommunication. The utility model discloses can prevent that atomizing oil from spilling from the atomizing core when the oiling.

Description

Atomizer

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of the electronic atomization technique and specifically relates to an atomizer is related to.

[ background of the invention ]

The atomizer of current electronic atomization equipment is when the oiling, before the user uses, and atomizing oil can enter into the atomizing core, and atomizing oil leaks from the atomizing core easily. The atomized oil is more easily leaked in the transportation and storage processes of the atomizer after oil injection.

[ Utility model ] content

An object of the utility model is to overcome the not enough of above-mentioned technique, provide an atomizer, atomizing oil can not enter into the atomizing in-core when the oiling, can prevent that atomizing oil from spilling.

The utility model provides an atomizer, which comprises an atomization bin assembly, a suction nozzle assembly and an atomization core assembly, wherein the atomization bin assembly comprises a hollow atomization bin, and the suction nozzle assembly and the atomization core assembly are respectively installed at two ends of the atomization bin; the atomizing core assembly comprises an atomizing pipe and an atomizing core installed in the atomizing pipe, the first end of the atomizing pipe is supported by a partition body located in the atomizing bin, the second end of the atomizing pipe extends into the atomizing bin and is installed on the suction nozzle assembly, and a space between the outer side of the atomizing pipe and the atomizing bin is closed by the partition body and the suction nozzle assembly to form an oil storage cavity; the atomizing pipe is provided with an oil inlet hole at a position corresponding to the atomizing core; when the atomizing core assembly is installed at the first installation position of the atomizing bin, the oil inlet hole is positioned outside the oil storage cavity, so that the oil storage cavity is isolated from the atomizing core; the atomizing core subassembly is being installed during the second mounted position in atomizing storehouse, the inlet port is located the oil storage intracavity makes the oil storage chamber with atomizing core intercommunication.

Further, when the atomizing core assembly is mounted to the first mounting position of the atomizing chamber, the suction nozzle assembly is not mounted to the atomizing chamber; when the atomizing core assembly is installed at the second installation position of the atomizing bin, the suction nozzle assembly is installed at the atomizing bin, and the second end of the atomizing pipe is installed at the suction nozzle assembly.

Further, the second end of the atomization tube is provided with an air exhaust hole which is used for exhausting air in the oil storage cavity when the suction nozzle assembly is installed on the atomization bin.

Furthermore, the suction nozzle assembly comprises a suction nozzle mounted at one end of the corresponding atomization bin and a first sealing element mounted in an inner cavity of the suction nozzle, the second end of the atomization tube extends into the inner cavity of the suction nozzle and is mounted in the inner cavity of the first sealing element, and the second end of the atomization tube is loosely matched with the inner cavity of the suction nozzle; the exhaust hole is positioned in the inner cavity of the first sealing element, and annular sealing bulges are respectively arranged on the inner wall of the inner cavity of the first sealing element at the upper position and the lower position of the exhaust hole.

Furthermore, a second sealing element is arranged between the suction nozzle and one end of the corresponding atomization bin, and the suction nozzle is sleeved with the second sealing element.

Further, the atomizing core assembly further comprises an electrode structure, the first end of the atomizing pipe is mounted to the electrode structure, and the oil inlet hole is close to the electrode structure; the electrode structure is including installing the correspondence screw rod and insulating ring, insulating tube, the electrode of installing the insulating ring inner chamber of the one end in atomizing storehouse, the first end of atomizing pipe reaches the insulating ring is installed respectively in the both ends of screw rod, the insulating tube is installed the inner chamber of screw rod and insulating tube part stretch into in the atomizing pipe, the insulating tube be located the atomizing core with between the insulating ring.

Furthermore, the outer wall of the screw is provided with an air inlet hole, and the air inlet hole is positioned outside the atomization bin; the air inlet is communicated with the inner cavity of the insulating tube through the inner cavity of the screw, and the inner cavity of the electrode is communicated with the inner cavity of the insulating tube through the inner cavity of the screw.

Further, the separator is close to the screw, a third sealing element is arranged between the separator and the screw, and the third sealing element is sleeved on the atomizing pipe; and annular sealing convex parts are respectively arranged on the outer wall and the inner wall of the third sealing element.

Further, the atomizing core is including installing lead oily cotton in the atomizing pipe and installing lead the inside heat-generating body of oily cotton, the heat-generating body has first pin and the second pin that stretches out, first pin with screw rod conductive connection, the second pin with electrode conductive connection.

Further, the atomizing pipe is a stainless steel pipe.

The utility model discloses an atomizing core subassembly is when installing the first mounted position in atomizing storehouse, and the inlet port is located the oil storage chamber outside, when injecting atomizing oil into the oil storage intracavity, atomizing oil can not enter into the atomizing in-core to atomizing oil can not spill from the atomizing core.

[ description of the drawings ]

Fig. 1 is a schematic cross-sectional view of an atomizer according to an embodiment of the present invention;

FIGS. 2 and 3 are exploded views of the atomizer shown in FIG. 1;

fig. 4 is a schematic cross-sectional view of the atomizer tube of the atomizer shown in fig. 1 in a first installed position.

[ detailed description ] embodiments

The invention is further described with reference to the following figures and examples.

Referring to fig. 1 to 3, the present invention provides an atomizer, which comprises an atomizing bin assembly 10, a suction nozzle assembly 30 and an atomizing core assembly 50.

The atomization bin assembly 10 includes a hollow atomization bin 11. The suction nozzle assembly 30 and the atomizing core assembly 50 are respectively mounted to both ends of the atomizing chamber 11 by means of, for example, riveting.

The suction nozzle assembly 30 includes a suction nozzle 31 mounted to one end of the corresponding atomization chamber 11, and a first sealing member 32 mounted to an inner cavity 311 of the suction nozzle 31 by riveting or the like. Specifically, the suction nozzle 31 has a mounting end 312 with a reduced outer diameter, and the mounting end 312 is mounted to one end of the corresponding atomization chamber 11 by means of riveting, for example. The first sealing member 32 is used for installing and sealing the atomizing pipe 51 of the atomizing core assembly 50, and can prevent oil leakage, air leakage and the like.

A second sealing member 33 is arranged between the suction nozzle 31 and one end of the corresponding atomization chamber 11, and the second sealing member 33 is sleeved on the suction nozzle 31, preferably on the mounting end 312 of the suction nozzle 31. The second sealing member 33 serves as a seal for preventing the atomized oil from leaking out between the atomizing chamber 11 and the suction nozzle 31.

The atomization bin assembly 10 further comprises an upper decoration ring 12, the upper decoration ring 12 is sleeved on one end of the atomization bin 11, where the suction nozzle assembly 30 is installed, and abuts against the suction nozzle 31, and the second sealing element 33 is located on the inner side of the upper decoration ring 12. The upper decorative ring 12 plays a decorative role.

The atomizing core assembly 50 includes an atomizing pipe 51 and an atomizing core 52 installed in the atomizing pipe 51. The first end of the atomizing tube 51 is supported by a partition 113 located in the atomizing chamber 11, and the second end of the atomizing tube 51 extends into the atomizing chamber 11 and is mounted to the suction nozzle assembly 30. The spacer 113 has a through hole through which the atomization tube 51 passes to realize a first end supporting the atomization tube 51. Preferably, the through hole is in interference fit with the first end of the atomization tube 51.

The space between the outside of the atomizing tube 51 and the atomizing chamber 11 is closed by the partition 113 and the suction nozzle assembly 30 to form an oil storage chamber 111, and the oil storage chamber 111 is used for storing atomized oil. The end of the atomization chamber 11 where the nozzle assembly 30 is installed serves as an oil filling port of the oil storage chamber 111 before the nozzle assembly 30 is installed.

The atomizing pipe 51 is provided with an oil inlet 511 at a position corresponding to the atomizing core 52. When the atomizing core assembly 50 is mounted to the first mounting position of the atomizing chamber 11, as shown in fig. 4, the oil inlet 511 is located outside the oil storage chamber 111 to isolate the oil storage chamber 111 from the atomizing core 52, so that when oil is injected into the oil storage chamber 111, the atomizing oil in the oil storage chamber 111 does not enter the atomizing core 52, and the atomizing oil does not leak from the atomizing core 52. When the atomizing core assembly 50 is mounted to the atomizing chamber 11 at the first mounting position, the suction nozzle assembly 30 is not mounted to the atomizing chamber 11, so that the oil can be filled into the oil storage chamber 111. When the atomizing core assembly 50 is installed at the second installation position of the atomizing chamber 11, as shown in fig. 1, the oil inlet 511 is located in the oil storage chamber 111, so that the oil storage chamber 111 is communicated with the atomizing core 52, meanwhile, the suction nozzle assembly 30 is installed to the atomizing chamber 11, and the second end of the atomizing pipe 51 is installed to the suction nozzle assembly 30, at this time, a user can use the atomizer, the atomizing oil in the oil storage chamber 111 can enter the atomizing core 52 through the oil inlet 511, and through sucking at one end of the suction nozzle 31 far away from the atomizing chamber 11, the atomizing core 52 can heat and atomize the entering atomizing oil, and the heated and atomized gas and air are mixed and then enter the inner cavity 323 of the first sealing member 32 and the inner cavity 311 of the suction nozzle 31 through the atomizing pipe 51, so as to be finally sucked by.

Further, the second end of the atomizing tube 51 has an exhaust hole 512. The air discharge hole 512 is used for discharging the air in the oil storage chamber 111 when the suction nozzle assembly 30 is mounted to the atomizing chamber 11, and can prevent the air in the oil storage chamber 111 from squeezing the atomized oil, so that the atomized oil cannot leak from the atomizing core 52. During the actual installation of the suction nozzle assembly 30, the air in the oil storage chamber 111 is pushed by the suction nozzle assembly 30 to enter the atomizing tube 51 from the inner chamber 311 of the suction nozzle 31 through the air discharge hole 512, thereby achieving the discharge of the air in the oil storage chamber 111.

Atomizing core assembly 50 also includes an electrode structure. Preferably, the first end of the atomizer tube 51 is mounted to the electrode structure with the oil inlet 511 adjacent the electrode structure. The second end of the atomizing tube 51 extends into the inner cavity 311 of the suction nozzle 31 and is mounted to the inner cavity 323 of the first sealing member 32, and the second end of the atomizing tube 51 is loosely fitted with the inner cavity 311 of the suction nozzle 31. The lumen of the nebulizing tube 51 communicates with the lumen 323 of the first seal 32, and the lumen 323 of the first seal 32 communicates with the lumen 311 of the suction nozzle 31. Preferably, the second end of the nebulizing tube 51 is mounted to the inner cavity 323 of the first seal 32 by means of, for example, riveting or the like.

The vent 512 is located in the interior cavity 323 of the first seal 32. The inner wall of the inner cavity 323 of the first sealing member 32 is provided with annular sealing protrusions 321 at upper and lower positions of the exhaust hole 512, respectively. The sealing protrusion 321 plays a sealing role, and can prevent air leakage, oil leakage, and the like. The outer wall of the first seal 32 is also provided with an annular seal projection 322 to prevent oil leakage. The number of the sealing protrusions 321, 322 may be set according to actual circumstances.

In this embodiment, the atomizing pipe 51 is a stainless steel pipe. Stainless steel pipe and atomizing oil contact, traditional atomizer that adopts the copper product atomizing pipe relatively can not produce the problem that the heavy metal exceeds standard, and is safe in utilization, with low costs.

Further, the electrode structure includes a screw 53 and an insulating ring 54 mounted to one end of the corresponding atomization chamber 11, an insulating tube 55, and an electrode 56 mounted inside the insulating ring 54. The screw 53 is for threaded mounting to a battery rod to power the atomizer through the battery rod. The first end of the atomizing tube 51 and the insulating ring 54 are respectively installed in the two ends of the screw 53, the insulating tube 55 is installed in the inner cavity 532 of the screw 53, the insulating tube 55 partially extends into the atomizing tube 51, and the insulating tube 55 is located between the atomizing core 52 and the insulating ring 54. The insulating tube 55 is preferably a glass fiber tube for preventing the first pin 523 and the second pin 524 of the atomizing core 52 from being short-circuited due to contact. The lumen 561 of the electrode 56 communicates with the lumen 532 and the exterior of the screw 53, respectively. The inner cavity 551 of the insulating tube 55 is respectively communicated with the inner cavity 532 of the screw 53 and the inner cavity of the atomizing tube 51.

The outer wall of the screw 53 is provided with an air inlet hole 531, and the air inlet hole 531 is positioned outside the atomization bin 11. The air inlet hole 531 communicates with the inner cavity 551 of the insulating tube 55 through the inner cavity 532 of the screw 53, and the inner cavity 561 of the electrode 56 communicates with the inner cavity 551 of the insulating tube 55 through the inner cavity 532 of the screw 53. When a user sucks at one end of the suction nozzle 31, which is far away from the atomization bin 11, air enters the inner cavity 551 of the insulation tube 55 from the air inlet hole 531 through the inner cavity 532 of the screw 53, then enters the inner cavity of the atomization core 52 through the inner cavity of the atomization tube 51, is mixed with the gas heated and atomized by the atomization core 52, and finally enters the inner cavity 311 of the suction nozzle 31 through the atomization tube 51, so that the air can be sucked by the user. The utility model discloses an inlet port 531 sets up the outer wall at screw rod 53, and the air that gets into from inlet port 531 does not pass through electrode 56's inner chamber 561, and traditional relative air inlet needs the atomizer through electrode inner chamber, and the air flue has shortened, and the air current directly dashes to atomizing core 52 and does not pass through electrode 56, can reduce air current sound, noise reduction effectively.

An annular boss 533 is formed on the outer wall of the screw 53, and the boss 533 abuts against one end of the corresponding atomization bin 11. The bosses 533 limit the installation of the atomizing core assembly 50. The atomizing bin assembly 10 further includes a lower decorative ring 13, and the lower decorative ring 13 is sleeved on one end of the atomizing bin 11 where the atomizing core assembly 50 is installed and abuts against the boss 533. The lower decorative ring 13 plays a decorative role.

The spacer 113 is adjacent to the screw 53. Preferably, the partition 113 forms a mounting cavity 112 with an end of the atomizing chamber 11 where the atomizing core assembly 50 is mounted, and the screw 53 is partially located in the mounting cavity 112. A third seal 57 is provided between the spacer 113 and the screw 53, and the third seal 57 is fitted to the atomizing pipe 51. The outer wall and the inner wall of the third seal 57 are provided with annular seal protrusions 571, respectively. The sealing protrusion 571 serves to seal the oil and prevent oil leakage.

The utility model discloses a first sealing member 32, second sealing member 33 and third sealing member 57's material is silica gel, rubber etc.

The atomizing core 52 includes an oil guide wool 521 installed in the atomizing pipe 51 and a ceramic heating element 522 installed inside the oil guide wool 521. The oil guide cotton 521 is used for guiding the atomized oil entering the oil inlet 511 into the heating element 522, and the heating element 522 is used for heating and atomizing the atomized oil. The heating element 522 has a first pin 523 and a second pin 524 extending therefrom, the first pin 523 being electrically connected to the screw 53, and the second pin 524 being electrically connected to the electrode 56. The screw 53 is used for being in conductive connection with the cathode of the battery pole, the electrode 56 is used for being in conductive connection with the anode of the battery pole, and the power supply for the heating body 522 can be realized through the screw 53, the first pin 523, the electrode 56 and the second pin 524, so that the heating atomization of the entering atomized oil is realized.

The utility model discloses an assembly process as follows: the atomization bin assembly 10, the suction nozzle assembly 30 and the atomization core assembly 50 are installed first. The atomizing core assembly 50 is then mounted, for example, by riveting or the like, to the atomizing chamber 11 at a first mounting position, as shown in fig. 4, with the oil inlet 511 located outside the oil reservoir 111. And then, the atomized oil is injected into the oil storage cavity 111, and because the oil inlet 511 is positioned outside the oil storage cavity 111, the atomized oil in the oil storage cavity 111 cannot enter the atomizing core 52, so that the atomized oil cannot leak out of the atomizing core 52. After the oil injection is completed, the atomizing core assembly 50 is continuously mounted to the position shown in fig. 1, i.e., the second mounting position, in which the oil inlet hole 511 is located in the oil storage chamber 111, while the suction nozzle assembly 30 is mounted to the atomizing chamber 11, and the second end of the atomizing tube 51 is mounted to the suction nozzle assembly 30, i.e., the inner cavity 323 of the first sealing member 32, thus completing the assembly. Because the second end of the atomizing tube 51 is provided with the air vent 512, in the process of installing the suction nozzle assembly 30, air enters the atomizing tube 51 from the inner cavity 311 of the suction nozzle 31 through the air vent 512, so that the air in the oil storage cavity 111 is discharged, the air in the oil storage cavity 111 is prevented from extruding the atomized oil, and the atomized oil cannot leak out of the atomizing core 52. The utility model discloses the assembly is simple, labour saving and time saving, the cost is reduced.

The above examples only represent preferred embodiments of the present invention, which are described in more detail and detail, but are not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, such as combinations of different features in the various embodiments, which are within the scope of the present invention.

Claims (10)

1. The utility model provides an atomizer, includes atomizing storehouse subassembly, suction nozzle subassembly and atomizing core subassembly, its characterized in that: the atomizing bin assembly comprises a hollow atomizing bin, and the suction nozzle assembly and the atomizing core assembly are respectively installed at two ends of the atomizing bin; the atomizing core assembly comprises an atomizing pipe and an atomizing core installed in the atomizing pipe, the first end of the atomizing pipe is supported by a partition body located in the atomizing bin, the second end of the atomizing pipe extends into the atomizing bin and is installed on the suction nozzle assembly, and a space between the outer side of the atomizing pipe and the atomizing bin is closed by the partition body and the suction nozzle assembly to form an oil storage cavity; the atomizing pipe is provided with an oil inlet hole at a position corresponding to the atomizing core; when the atomizing core assembly is installed at the first installation position of the atomizing bin, the oil inlet hole is positioned outside the oil storage cavity, so that the oil storage cavity is isolated from the atomizing core; the atomizing core subassembly is being installed during the second mounted position in atomizing storehouse, the inlet port is located the oil storage intracavity makes the oil storage chamber with atomizing core intercommunication.

2. The nebulizer of claim 1, wherein: when the atomizing core assembly is installed at the first installation position of the atomizing bin, the suction nozzle assembly is not installed at the atomizing bin; when the atomizing core assembly is installed at the second installation position of the atomizing bin, the suction nozzle assembly is installed at the atomizing bin, and the second end of the atomizing pipe is installed at the suction nozzle assembly.

3. The nebulizer of claim 1, wherein: the second end of the atomization tube is provided with an exhaust hole which is used for exhausting air in the oil storage cavity when the suction nozzle assembly is installed on the atomization bin.

4. A nebulizer as claimed in claim 3, wherein: the second end of the atomizing pipe extends into the inner cavity of the suction nozzle and is arranged in the inner cavity of the first sealing element, and the second end of the atomizing pipe is loosely matched with the inner cavity of the suction nozzle; the exhaust hole is positioned in the inner cavity of the first sealing element, and annular sealing bulges are respectively arranged on the inner wall of the inner cavity of the first sealing element at the upper position and the lower position of the exhaust hole.

5. The nebulizer of claim 4, wherein: and a second sealing element is arranged between the suction nozzle and one end of the corresponding atomization bin, and the suction nozzle is sleeved with the second sealing element.

6. The nebulizer of claim 1, wherein: the atomizing core assembly further comprises an electrode structure, the first end of the atomizing pipe is mounted to the electrode structure, and the oil inlet hole is close to the electrode structure; the electrode structure is including installing the correspondence screw rod and insulating ring, insulating tube, the electrode of installing the insulating ring inner chamber of the one end in atomizing storehouse, the first end of atomizing pipe reaches the insulating ring is installed respectively in the both ends of screw rod, the insulating tube is installed the inner chamber of screw rod and insulating tube part stretch into in the atomizing pipe, the insulating tube be located the atomizing core with between the insulating ring.

7. The nebulizer of claim 6, wherein: the outer wall of the screw is provided with an air inlet which is positioned outside the atomization bin; the air inlet is communicated with the inner cavity of the insulating tube through the inner cavity of the screw, and the inner cavity of the electrode is communicated with the inner cavity of the insulating tube through the inner cavity of the screw.

8. The nebulizer of claim 6, wherein: the spacing piece is close to the screw, a third sealing piece is arranged between the spacing piece and the screw, and the third sealing piece is sleeved on the atomizing pipe; and annular sealing convex parts are respectively arranged on the outer wall and the inner wall of the third sealing element.

9. The nebulizer of claim 6, wherein: the atomizing core is including installing lead oily cotton in the atomizing pipe and installing lead the inside heat-generating body of oily cotton, the heat-generating body has first pin and the second pin that stretches out, first pin with screw rod conductive connection, the second pin with electrode conductive connection.

10. The nebulizer of claim 1, wherein: the atomization pipe is a stainless steel pipe.

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