CN211323044U

CN211323044U - Oil core separation atomizer

Info

Publication number: CN211323044U
Application number: CN201921729791.6U
Authority: CN
Inventors: 丁毅; 张海波; 邓正明; 郝文君; 丁培英
Original assignee: Shenzhen Zhuolineng Electronics Co ltd
Current assignee: Shenzhen ALD Technology Co Ltd
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-08-25
Anticipated expiration: 2029-10-15

Abstract

The utility model relates to an oil core separation atomizer, including the oil cup, install the electrode base of oil cup one end and install the atomizing core in the oil cup, the atomizing core includes the atomizing pipe and installs the heat-generating body in the atomizing pipe, form the oil storage chamber between the atomizing pipe outside and the inner wall of oil cup, still including installing the atomizing base in the oil cup, in the upper end of atomizing base was installed to the first end of atomizing pipe, at least one side of atomizing base upper end was equipped with the oil feed passageway that communicates with the oil storage chamber, the first end of atomizing pipe had the inlet port that communicates with the oil feed passageway; the atomizing base is provided with a separation channel, and the separation channel is intersected with the oil inlet channel and divides the oil inlet channel into a first part communicated with the oil storage cavity and a second part communicated with the oil inlet hole; the separation channel is internally provided with a guide plug which can move or rotate along the separation channel. The utility model discloses can make the user have the suction of preferred and experience when using for the first time.

Description

Oil core separation 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 oil core separation atomizer is related to.

[ background of the invention ]

The atomizer of good atomizing oil of pre-filling before the user uses, often because long-distance transport, transport or long-time placing lead to atomizing oil to permeate atomizing core inside slowly, produce atomizing oil and pile up, lead to the user when using for the first time, because atomizing oil is too much, experience effect is not good.

[ Utility model ] content

An object of the utility model is to overcome the not enough of above-mentioned technique, provide an oil core separation atomizer, can make the user have the suction of preferred and experience when using for the first time.

The utility model provides a pair of oil core separation atomizer, including the oil cup, install the electrode base of oil cup one end and install the atomizing core in the oil cup, the atomizing core includes the atomizing pipe and installs the heat-generating body in the atomizing pipe, form the oil storage chamber between the atomizing pipe outside and the inner wall of oil cup, still including installing the atomizing base in the oil cup, the first end of atomizing pipe is installed in the upper end of atomizing base, at least one side of atomizing base upper end be equipped with the oil feed passageway that the oil storage chamber communicates, the first end of atomizing pipe have with the inlet port of oil feed passageway intercommunication; the atomizing base is provided with a separation channel, and the separation channel is intersected with the oil inlet channel and divides the oil inlet channel into a first part communicated with the oil storage cavity and a second part communicated with the oil inlet hole; and a guide plug is arranged in the separation channel, and can move or rotate along the separation channel to block or open the communication between the first part and the second part.

Further, the guide plug is movable along the partition passage; the guide plug includes a communication portion, and a blocking portion and a sealing portion connected to both ends of the communication portion, the blocking portion and the sealing portion being respectively located at both ends of the partition passage, and the blocking portion being located between the first portion and the second portion so as to block communication between the first portion and the second portion, the communication portion being capable of opening communication between the first portion and the second portion when the guide plug is moved along the partition passage to a position where the communication portion is located between the first portion and the second portion.

Further, the blocking portion and the sealing portion have outer diameters larger than an inner diameter of the partition passage, and the communicating portion has an outer diameter smaller than the inner diameter of the partition passage.

Further, the blocking portion, the sealing portion and the communicating portion have outer diameters equal to each other and larger than an inner diameter of the partition passage, and the communicating portion has a communicating hole for communicating the first portion and the second portion.

Further, the length of blocking portion, sealing portion and intercommunication portion all is greater than the internal diameter of oil feed passageway.

Further, the lower end of the atomization base is installed in the electrode base, the electrode base is provided with a through hole communicated with the separation channel, and the inner diameter of the through hole is smaller than that of the separation channel so as to limit the movement of the guide plug.

Further, at least one side of the upper end of the atomizing base is provided with a groove position, an oil inlet space is formed between the groove position and the inner wall of the oil cup, and the oil inlet channel is arranged at the bottom of the groove position and is communicated with the oil storage cavity through the oil inlet space.

Furthermore, the upper end surface of the atomization base is provided with an installation position, and the first end of the atomization tube is installed in the installation position; at least two sealing rings are arranged between the inner wall of the mounting position and the first end of the atomizing pipe, one of the sealing rings is located above the oil inlet hole, and the other sealing ring is located below the oil inlet hole.

Further, the guide plug can rotate along the separation channel; the guide plug is a ball valve which is located between the first portion and the second portion and has a valve chamber, the ball diameter of the ball valve is larger than the inner diameter of the partition passage, the axis of the valve chamber is orthogonal to the axis of the oil inlet passage so as to block the communication between the first portion and the second portion, and when the ball valve is rotated to a position where the valve chamber is located between the first portion and the second portion, the valve chamber can communicate the first portion and the second portion so as to open the communication between the first portion and the second portion.

Further, the lower end of the atomizing base is installed in the electrode base, and the electrode base is provided with a through hole communicated with the separation channel; the ball valve has a valve stem located within the partition passage with a distal end of the valve stem projecting from the through bore and located outside the atomizer.

The utility model discloses a direction stopper that sets up, before the user uses for the first time, the atomizing oil that the direction stopper can block the oil storage intracavity enters into the atomizing core to can not produce atomizing oil and pile up, make the user have the suction of preferred and experience when using for the first time.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of an oil core separation atomizer according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the atomizer shown in FIG. 1;

FIG. 3 is an exploded schematic view of the atomizer shown in FIG. 1;

FIG. 4 is a schematic cross-sectional view of the guide plug of the atomizer shown in FIG. 1 as it moves to a position where the communication portion is located between the first portion and the second portion;

FIG. 5 is a schematic cross-sectional view of one of the alternatives of the guide plug of the atomizer shown in FIG. 1;

fig. 6 is a schematic cross-sectional view of another alternative guide plug for the atomizer shown in fig. 1.

[ 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 oil core separation atomizer, which includes an oil cup 10, an electrode base 20 installed at one end of the oil cup 10, an atomizing core 30 installed in the oil cup 10, and an atomizing base 50 installed in the oil cup 10. The electrode base 20 is accommodated in the protective sleeve 40, and the protective sleeve 40 is mounted at one end of the oil cup 10, at which the electrode base 20 is mounted, thereby protecting the electrode base 20. The end of the oil cup 10 remote from the electrode base 20 has an air suction opening 11 for the user to suck. An air suction pipe 12 is formed at an edge portion of an inner side of the air suction port 11, and the air suction pipe 12 is positioned in the oil cup 10.

The atomizing core 30 includes an atomizing tube 31 and a ceramic heating element 32 installed in the atomizing tube 31. A first end of the nebulizing tube 31 is fitted into the upper end of the nebulizing base 50. The second end of the atomizing tube 31 is connected to the suction tube 12 by a connecting member 33. The connecting member 33 is a leakproof silicone member. Specifically, the two ends of the connecting member 33 are respectively provided with mounting grooves, and the second end of the atomizing pipe 31 and the end of the air suction pipe 12 are respectively mounted in the corresponding mounting grooves. The connecting member 33 has an air passage 331 for connecting the air suction pipe 12 and the atomizing pipe 31, so that the gas atomized by heating the heating element 32 can enter the air passage 331 from the second end of the atomizing pipe 31, then enter the air suction pipe 12 through the air passage 331, and finally be sucked by the user at the air suction port 11. An oil storage cavity 13 is formed between the outer side of the atomizing pipe 31 and the inner wall of the oil cup 10 and is used for storing atomized oil.

The lower end of the atomizing base 50 is fitted into the electrode base 20. At least one side of the upper end of the atomizing base 50 is provided with an oil inlet channel 52 communicated with the oil storage cavity 13. The first end of the atomizing tube 31 has an oil inlet hole 311 communicating with the oil inlet passage 52. The atomizing base 50 has a partition passage 53 penetrating in the direction from the upper end to the lower end thereof, and the partition passage 53 intersects with the oil-taking passage 52 and partitions the oil-taking passage 52 into a first portion 521 communicating with the oil reservoir chamber 13 and a second portion 522 communicating with the oil-taking hole 311. In this embodiment, the dividing passage 53 and the oil inlet passage 52 are preferably orthogonal. The electrode mount 20 has a through-hole 21 communicating with the partition passage 53. The protective sheath 40 has a protective sheath through hole 41 communicating with the through hole 21.

Further, at least one side of the upper end of the atomizing base 50 is provided with a slot 511 (see fig. 3), an oil inlet space 51 is formed between the slot 511 and the inner wall of the oil cup 10, and an oil inlet passage 52 is arranged at the bottom of the slot 511 and is communicated with the oil storage chamber 13 through the oil inlet space 51.

In this embodiment, the upper end surface of the atomizing base 50 is provided with a mounting location 54 (see fig. 3), and the first end of the atomizing tube 31 is mounted in the mounting location 54. At least two

sealing rings

312 and 313 are arranged between the inner wall of the mounting position 54 and the first end of the atomizing pipe 31, of the at least two

sealing rings

312 and 313, one sealing ring 312 is positioned above the oil inlet hole 311 to prevent the atomized oil in the oil storage cavity 13 from entering the mounting position 54, and the other sealing ring 313 is positioned below the oil inlet hole 311 to prevent the atomized oil entering the oil inlet hole 311 from entering the mounting position 54, so that the atomized oil can be prevented from leaking from the air inlet channels of the electrode base 20 and the protective sleeve 40. In this embodiment, there are one sealing ring 312 located above the oil inlet hole 311 and two sealing rings 313 located below the oil inlet hole 311. It will be appreciated that there may be other numbers of

seals

312, 313 above and below the oil inlet 311.

A guide plug 60 is installed in the partition passage 53, the guide plug 60 is movable in the partition passage 53 in the axial direction of the partition passage 53, and the guide plug 60 is used to block or open the communication between the first part 521 and the second part 522.

Specifically, the guide plug 60 includes a columnar communicating portion 62, and a columnar blocking portion 61 and a columnar sealing portion 63 connected to both ends of the communicating portion 62. The blocking portion 61, the sealing portion 63, and the communicating portion 62 are preferably integrally molded. Blocking part 61 and sealing part 63 are located the both ends of dividing passageway 53 respectively, and blocking part 61 is located between first portion 521 and the second portion 522 so can block the intercommunication between first portion 521 and the second portion 522, so, can prevent that the atomizing oil in the oil storage chamber 13 from entering into the inlet port 311 through oil feed passageway 52, play the effect of keeping apart atomizing oil and atomizing core 30, even the atomizer is through long-distance transport, transport or long-term the placing, atomizing oil also can not enter into the inlet port 311, thereby make heat-generating body 32 can not pile up atomizing oil, the oil leak phenomenon also can not appear, consequently, the user can have better suction experience when using for the first time. The sealing portion 63 seals the partition passage 53, and prevents water, dust, and the like from entering the partition passage 53 from the boot through-hole 41 and the through-hole 21, or prevents the atomized oil from leaking from the through-hole 21 and the boot through-hole 41.

When the user uses the heating element 32 for the first time, the guide plug 60 can be moved along the partition passage 53 to a position where the communication part 62 is located between the first part 521 and the second part 522, as shown in fig. 4, so that the communication part 62 can open the communication between the first part 521 and the second part 522, and at this time, the atomized oil in the oil storage chamber 13 can enter the oil inlet hole 311 through the oil inlet passage 52 and enter the heating element 32, so as to be heated and atomized into gas by the heating element 32. The movement of the guide plug 60 to a position where the communication portion 62 is located between the first portion 521 and the second portion 522 can be performed by an atomizer equipped or other auxiliary tool such as a tubular object, specifically, by extending one end of the tubular object from the protective sleeve through hole 41 into the through hole 21 and pushing the guide plug 60 upward with force until the communication portion 62 of the guide plug 60 is located between the first portion 521 and the second portion 522, and at this time, the user can use the device. For the convenience of observation of a user, the oil cup 10 and the atomizing base 50 can be made transparent, and when the blocking portion 61 of the guide plug 60 is almost completely located in the oil storage chamber 13, the guide plug 60 can be stopped being pushed, and the atomizer can be used. When the blocking portion 61 is located in the oil reservoir chamber 13, the atomized oil in the oil reservoir chamber 13 can also enter the second portion 522 from the partition passage 53.

In the present embodiment, the blocking portion 61 and the sealing portion 63 have outer diameters larger than the inner diameter of the partition passage 53 to play a role of blocking the communication between the first portion 521 and the second portion 522 and a role of sealing the partition passage 53. The blocking portion 61 and the sealing portion 63 preferably have the same outer diameter. The communication portion 62 has an outer diameter smaller than an inner diameter of the partition passage 53 to function to open between the first portion 521 and the second portion 522. The blocking portion 61, the sealing portion 63, and the communicating portion 62 each have a length greater than the inner diameter of the oil inlet passage 52, so that the blocking portion 61 and the communicating portion 62 can function as a blocking or opening when located between the first portion 521 and the second portion 522, respectively.

In this embodiment, two oil inlet channels 52 communicated with the oil storage cavity 13 are respectively disposed on two sides of the upper end of the atomizing base 50, that is, two oil inlet channels 52 can increase the oil inlet amount, so that two sides of the upper end of the atomizing base 50 are respectively provided with the slot 51, the atomizing base 50 is provided with two separating channels 53, and the two separating channels 53 are respectively disposed on two sides of the atomizing base 50. The first end of the atomizing tube 31 has oil inlet holes 311 respectively communicating with the two oil inlet passages 52. There are also two guide plugs 60. That is, the number of the oil feed passages 52, the partition passages 53, the oil feed holes 311, and the guide plugs 60 is the same.

In other embodiments, the number of the oil inlet passage 52, the partition passage 53, the oil inlet hole 311 and the guide plug 60 may also be, for example, three or more than four, and may be set according to actual conditions.

In an alternative of the guide plug 60, as shown in fig. 5, the blocking portion 61, the sealing portion 63 and the communicating portion 62 have outer diameters equal to each other and larger than the inner diameter of the partition passage 53, and the communicating portion 62 has a communication hole 621 for communicating the first portion 521 and the second portion 522. When the user uses the oil-saving device for the first time, the guide plug 60 can be moved to the position where the communication hole 621 is located between the first part 521 and the second part 522, and at this time, the communication part 62 can open the communication between the first part 521 and the second part 522 through the communication hole 621, so that the atomized oil in the oil storage chamber 13 can enter the oil inlet hole 311 through the oil inlet passage 52 and finally enter the heat-generating body 32. In actual use, the guide plug 60 may be pushed up by the tubular member until the communication hole 621 of the communication portion 62 is located between the first portion 521 and the second portion 522. The oil cup 10 and the atomizing base 50 can be transparent, so that the moving position can be conveniently observed.

An end of the blocking portion 61 remote from the communicating portion 62 is formed with a convex portion 611, an outer diameter of the convex portion 611 is smaller than an inner diameter of the partition passage 53, and the convex portion 611 is provided to facilitate fitting of the guide plug 60 into the partition passage 53.

The inner diameter of the through-hole 21 of the electrode mount 20 is smaller than that of the partition passage 53 to limit the movement of the guide plug 60, i.e., the communication part 62 of the guide plug 60 is located between the first part 521 and the second part 522 without pulling down the guide plug 60 only by pushing up the guide plug 60.

It will be appreciated that the guide plug 60 may be of another structure, as shown in fig. 6, that is, the guide plug may rotate in the partition passage 53 along the circumferential direction of the partition passage 53, so that the guide plug 60 may also block or open the communication between the first part 521 and the second part 522.

Specifically, the pilot plug 60 is a ball valve that is positioned between the first portion 521 and the second portion 522 and has a valve chamber 65. The ball valve has a larger ball diameter than the inner diameter of the partition passage 53. The axis of the valve cavity 65 is orthogonal to the axis of the oil inlet passage 52 so as to block the communication between the first part 521 and the second part 522, and thus the atomized oil in the oil storage cavity 13 can be blocked from entering the oil inlet hole 311 through the oil inlet passage 52. When the atomizer is used for the first time, the ball valve can be rotated to a position where the valve cavity 65 is positioned between the first part 521 and the second part 522, and the ball valve can open the communication between the first part 521 and the second part 522 through the valve cavity 65, so that the atomized oil in the oil storage cavity 13 can enter the oil inlet hole 311 through the oil inlet channel 52 and finally enter the heating body 32.

The ball valve has a valve stem (not shown) located in the partition passage 53 and having a distal end protruding from the through hole 21, the through hole 41 of the protector and located outside the atomizer, and the ball valve is rotated by rotating the distal end of the valve stem in the circumferential direction of the partition passage 53, thereby facilitating the operation. In practice, the valve chamber 65 may be located between the first portion 521 and the second portion 522 by rotating the valve rod. The oil cup 10 and the atomizing base 50 can also be transparent, so that the rotating position can be conveniently observed.

The ball valve can be arranged to block or open the communication between the first part 521 and the second part 522 as required, i.e. open or close the oil path, and when the user is not used for a long time, the oil path can be closed through the ball valve.

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

1. The utility model provides an oil core separation atomizer, includes the oil cup, installs the electrode base of oil cup one end and installs the atomizing core in the oil cup, the atomizing core includes the atomizing pipe and installs the heat-generating body in the atomizing pipe, form oil storage chamber, its characterized in that between the inner wall of the atomizing pipe outside and oil cup: the oil cup is characterized by further comprising an atomizing base installed in the oil cup, the first end of the atomizing pipe is installed in the upper end of the atomizing base, at least one side of the upper end of the atomizing base is provided with an oil inlet channel communicated with the oil storage cavity, and the first end of the atomizing pipe is provided with an oil inlet hole communicated with the oil inlet channel; the atomizing base is provided with a separation channel, and the separation channel is intersected with the oil inlet channel and divides the oil inlet channel into a first part communicated with the oil storage cavity and a second part communicated with the oil inlet hole; and a guide plug is arranged in the separation channel, and can move or rotate along the separation channel to block or open the communication between the first part and the second part.

2. The wick-separating atomizer according to claim 1, wherein: the guide plug can move along the separation channel; the guide plug includes a communication portion, and a blocking portion and a sealing portion connected to both ends of the communication portion, the blocking portion and the sealing portion being respectively located at both ends of the partition passage, and the blocking portion being located between the first portion and the second portion so as to block communication between the first portion and the second portion, the communication portion being capable of opening communication between the first portion and the second portion when the guide plug is moved along the partition passage to a position where the communication portion is located between the first portion and the second portion.

3. The wick-separating atomizer according to claim 2, wherein: the blocking part and the sealing part have outer diameters larger than the inner diameter of the partition passage, and the communicating part has outer diameters smaller than the inner diameter of the partition passage.

4. The wick-separating atomizer according to claim 2, wherein: the blocking portion, the sealing portion and the communicating portion have outer diameters equal to each other and larger than an inner diameter of the partition passage, and the communicating portion has a communicating hole for communicating the first portion and the second portion.

5. The wick-separating atomizer according to claim 3 or 4, wherein: the length of blocking portion, sealing portion and intercommunication portion all is greater than the internal diameter of oil feed passageway.

6. The wick-separating atomizer according to claim 1, wherein: the lower extreme of atomizing base is installed in the electrode base, the electrode base have with separate the through-hole of passageway intercommunication, thereby the internal diameter of through-hole is less than separate the internal diameter of passageway and carry out spacingly to the removal of guide plug.

7. The wick-separating atomizer according to claim 1, wherein: at least one side of atomizing base upper end has the trench, the trench with form the oil feed space between the inner wall of oil cup, the oil feed passageway sets up the bottom of trench and through the oil feed space with store up oil chamber intercommunication.

8. The wick-separating atomizer according to claim 1, wherein: the upper end surface of the atomization base is provided with a mounting position, and the first end of the atomization tube is mounted in the mounting position; at least two sealing rings are arranged between the inner wall of the mounting position and the first end of the atomizing pipe, one of the sealing rings is located above the oil inlet hole, and the other sealing ring is located below the oil inlet hole.

9. The wick-separating atomizer according to claim 1, wherein: the guide plug can rotate along the separation channel; the guide plug is a ball valve which is located between the first portion and the second portion and has a valve chamber, the ball diameter of the ball valve is larger than the inner diameter of the partition passage, the axis of the valve chamber is orthogonal to the axis of the oil inlet passage so as to block the communication between the first portion and the second portion, and when the ball valve is rotated to a position where the valve chamber is located between the first portion and the second portion, the valve chamber can communicate the first portion and the second portion so as to open the communication between the first portion and the second portion.

10. The wick-separating atomizer according to claim 9, wherein: the lower end of the atomizing base is arranged in the electrode base, and the electrode base is provided with a through hole communicated with the separation channel; the ball valve has a valve stem located within the partition passage with a distal end of the valve stem projecting from the through bore and located outside the atomizer.