CN211482964U - Atomizer and electronic atomization equipment applying same - Google Patents

Abstract

The utility model relates to an atomizer and electronic atomization equipment applying the same, the atomizer comprises a round glass oil cup, a flat suction nozzle, an atomization core and an electrode piece, wherein the suction nozzle and the electrode piece are respectively positioned at two ends of the glass oil cup, the atomization core is positioned in the glass oil cup, and two ends of the atomization core are respectively arranged on the suction nozzle and the electrode piece; an oil storage cavity is formed between the outer side of the atomizing core and the inner side of the glass oil cup, and the atomizing core is provided with an oil inlet communicated with the oil storage cavity; the suction nozzle has the induction port, the electrode piece has the air inlet, induction port, air inlet respectively with the atomizing passageway intercommunication of atomizing core. The utility model discloses easily manufacturing, the cost is reduced.

Description

Atomizer and electronic atomization equipment applying same

[ 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 electronic atomization equipment of atomizer and applied this kind of atomizer is related to.

[ background of the invention ]

An oil cup of an existing atomizer of flat electronic atomization equipment is usually a flat plastic oil cup, and is matched with a flat battery rod through the shape of the flat oil cup. The existing flat electronic atomization equipment is complex in processing and high in cost.

[ Utility model ] content

An object of the utility model is to overcome the not enough of above-mentioned technique, provide an electronic atomization equipment of atomizer and applied this kind of atomizer, easily processing, it is with low costs.

The utility model provides an atomizer in a first aspect, which comprises a circular glass oil cup, a flat suction nozzle, an atomizing core and an electrode piece, wherein the suction nozzle and the electrode piece are respectively positioned at two ends of the glass oil cup, the atomizing core is positioned in the glass oil cup, and two ends of the atomizing core are respectively installed on the suction nozzle and the electrode piece; an oil storage cavity is formed between the outer side of the atomizing core and the inner side of the glass oil cup, and the atomizing core is provided with an oil inlet communicated with the oil storage cavity; the suction nozzle has the induction port, the electrode piece has the air inlet, induction port, air inlet respectively with the atomizing passageway intercommunication of atomizing core.

Further, the atomizing core comprises a metal piece positioned in the glass oil cup and a heating body installed in the metal piece, and the oil storage cavity is formed between the outer side of the metal piece and the inner side of the glass oil cup and is provided with the oil inlet; the inner cavity of the metal piece and the inner cavity of the heating body form the atomization channel.

Furthermore, the suction nozzle comprises a suction nozzle body and a connecting piece installed in the suction nozzle body, the suction port is formed in the first end of the suction nozzle body, the connecting piece is provided with an extending end extending out of the second end of the suction nozzle body, the end portion of the extending end extends into the glass oil cup, and the connecting piece is provided with a connecting channel communicated with the suction port.

Furthermore, the electrode piece comprises an electrode seat, the electrode seat is provided with an installation channel, the atomizing core comprises a metal piece and a heating body, the metal piece is located in the glass oil cup, the heating body is installed in the metal piece, two ends of the metal piece respectively extend out of two ends of the glass oil cup and are respectively installed on the connection channel and the installation channel.

Furthermore, the suction nozzle comprises a suction nozzle seat arranged at the second end of the suction nozzle body, the suction nozzle seat protrudes out of the second end of the suction nozzle body, and the suction nozzle seat is annularly arranged at the extending end of the connecting piece and is provided with a suction nozzle magnetic part for being magnetically connected with the battery rod.

Further, the electrode piece comprises an electrode positioned in the installation channel, one end of the electrode is separated from the inner wall of the installation channel through a first insulating ring, and the other end of the electrode extends into the metal piece and is separated from the inner side of the metal piece through a second insulating ring.

Further, an air inlet channel is formed between the first insulating ring and the second insulating ring, the air inlet is formed in the outer side of the electrode seat, the air inlet channel is communicated with the air inlet and an electrode channel of the electrode respectively, and the atomization channel is communicated with the connecting channel and the electrode channel respectively.

Furthermore, the outside of the electrode holder is provided with external threads for being in threaded connection with a battery rod.

A second aspect of the present invention provides an electronic atomizing apparatus, comprising a flat battery rod and an atomizer detachably mounted on the battery rod, wherein the atomizer comprises a circular glass oil cup, a flat suction nozzle, an atomizing core and an electrode member, the suction nozzle and the electrode member are respectively located at two ends of the glass oil cup, the atomizing core is located in the glass oil cup, and two ends of the atomizing core are respectively mounted on the suction nozzle and the electrode member; an oil storage cavity is formed between the outer side of the atomizing core and the inner side of the glass oil cup, and the atomizing core is provided with an oil inlet communicated with the oil storage cavity; the suction nozzle has the induction port, the electrode piece has the air inlet, induction port, air inlet respectively with the atomizing passageway intercommunication of atomizing core.

Further, the battery pole includes a housing, the atomizer being removably mounted to a mounting end of the housing; the mounting end of the shell is provided with a mounting groove, the bottom of the mounting groove is provided with an inserting channel, and the glass oil cup and the electrode piece are inserted into the inserting channel.

Furthermore, a visible window is arranged on the shell at a position corresponding to the inserting channel so as to observe the amount of the atomized oil in the glass oil cup.

Further, the visible window is a transparent part, a vacant position or a slot position.

Further, the suction nozzle comprises a suction nozzle body and a suction nozzle seat, the suction port is arranged at the first end of the suction nozzle body, the suction nozzle seat is installed at the second end of the suction nozzle body, and the suction nozzle seat protrudes out of the second end of the suction nozzle body and is inserted into the installation groove.

Furthermore, the suction nozzle seat is provided with a suction nozzle magnetic suction piece, a battery magnetic suction piece is arranged in the mounting groove, and the suction nozzle magnetic suction piece is connected with the battery magnetic suction piece in a magnetic suction manner.

Further, the electrode piece includes the electrode holder, the electrode holder is equipped with the external screw thread, the grafting passageway is equipped with the internal thread, the external screw thread with internal thread engagement.

The utility model discloses easily manufacturing, it is with low costs, and adopt circular shape glass oil cup, can avoid taking place chemical reaction with atomizing oil, guarantee the security of using, satisfied the market demand.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of an 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 an electronic atomizer device provided based on the atomizer shown in FIG. 1;

FIG. 4 is a schematic diagram of a battery rod of the electronic atomizer shown in FIG. 3;

FIG. 5 is a schematic view of an alternative embodiment of the battery pole of FIG. 4 having a viewing window;

fig. 6 is a schematic view of another alternative arrangement of the battery pole of fig. 4 having a viewing window.

[ detailed description ] embodiments

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

Referring to fig. 1 and 2, the present invention provides an atomizer 100, which is mainly applied to a flat electronic atomizer. The atomizer 100 comprises a circular glass oil cup 10, a flat suction nozzle 20, an atomizing core 30 and an electrode member 40. The suction nozzle 20 and the electrode member 40 are respectively located at both ends of the glass oil cup 10, and the atomizing core 30 is located in the glass oil cup 10. An oil storage cavity 11 is formed between the outer side of the atomizing core 30 and the inner side of the glass oil cup 10, and the atomizing core is provided with an oil inlet 312 communicated with the oil storage cavity 11. The oil storage chamber 11 is used for storing atomized oil. Both ends of the atomizing core 30 are respectively mounted to the suction nozzle 20 and the electrode member 40. The suction nozzle 20 has a suction opening 211, the electrode member 40 has an air inlet 411, and the suction opening 211 and the air inlet 411 are respectively communicated with the atomizing passage of the atomizing core 30. The utility model discloses easily manufacturing, the cost is reduced, and the oil cup adopts circular shape glass oil cup 10, can avoid taking place chemical reaction with atomizing oil, has guaranteed the security of using, has satisfied the market demand.

Specifically, the atomizing core 30 includes a metal member 31 positioned in the glass oil cup 10 and a ceramic heating element 32 mounted in the metal member 31. The oil storage cavity 11 is formed between the outer side of the metal piece 31 and the inner side of the glass oil cup 10 and is provided with the oil inlet 312. The metal member 31 is, for example, a copper member, and the metal member 31 can further avoid a chemical reaction with the atomized oil, and is safe to use. The heating element 32 is used for heating and atomizing the atomized oil. The number of the oil inlets 312 is plural, and it can be understood that the number of the oil inlets 312 can be set according to actual conditions. The inner cavity 311 of the metal member 31 and the inner cavity 321 of the heating element 32 form the atomization passage. Air entering through the air inlet 411 and the atomizing gas in the atomizing passage are mixed and then drawn by the user at the suction opening 211.

The suction nozzle 20 includes a nozzle body 21 and a connecting member 22 installed in the nozzle body 21. The first end of the nozzle body 21 has the suction port 211, and the suction port 211 is preferably formed in a funnel shape to facilitate suction of air. The connecting piece 22 is provided with a protruding end 221 protruding from the second end of the suction nozzle body 21, the end of the protruding end 221 protrudes into the glass oil cup 10, a first sealing element 51 is arranged between the end of the protruding end 221 and the inner side of the glass oil cup 10, the first sealing element 51 is sleeved on the end of the protruding end 221, and the first sealing element 51 is used for sealing between one end of the glass oil cup 10 close to the suction nozzle 20 and the protruding end 221 of the connecting piece 22 so as to prevent oil leakage. The connecting piece 22 has a connecting passage 222 in the axial direction (i.e., the axial direction of the atomizer) communicating with the suction port 211.

The suction nozzle 20 further includes a nozzle holder 23 mounted to a second end of the nozzle body 21, and the second end of the nozzle body 21 has a mounting position (not shown in the drawings) for mounting the nozzle holder 23. The nozzle seat 23 partially protrudes from the second end of the nozzle body 21, and the nozzle seat 23 is annularly disposed on the protruding end 221 of the connecting member 22 and is provided with a nozzle magnetic member 231 for magnetically connecting with the battery rod, so that the atomizer 100 can be magnetically connected with the battery rod. The nozzle magnetic attraction pieces 231 are preferably arranged at one end of the nozzle base 23 far away from the second end of the nozzle body 21, and two nozzle magnetic attraction pieces 231 are provided, and it can be understood that the number of the nozzle magnetic attraction pieces 231 can be set according to actual conditions.

The electrode member 40 is in the shape of a circular truncated cone. The pole element 40 comprises a pole socket 41. The electrode holder 41 is made of metal, such as copper. The electrode holder 41 has an axial (i.e. axial to the atomizer) mounting channel.

Both ends of the metal member 31 protrude from both ends of the glass oil cup 10 and are mounted to the connection passage 222 and the mounting passage, respectively.

Specifically, for convenience of description, an end of the metal member 31 mounted to the connection passage 222 is defined as an upper end of the metal member 31, and an end of the metal member 31 mounted to the mounting passage is defined as a lower end of the metal member 31. In this embodiment, the upper end of the metal member 31 is screwed to the connection passage 222. The upper end of the metal member 31 is provided with external threads, and the connection passage 222 is provided with internal threads, the external threads being threadedly engaged with the internal threads, so that the upper end of the metal member 31 is threadedly mounted to the connection passage 222, facilitating installation. It will be appreciated that the upper end of the metal piece 31 may also be riveted to the connecting channel 222. In this embodiment, the lower end of the metal member 31 is riveted to the installation passage, which is convenient to install. It will be appreciated that the lower end of the metal member 31 may also be screw-mounted to the mounting channel.

A first sealing ring 61 is arranged between the upper end of the metal piece 31 and the connecting channel 222, and the first sealing ring 61 is sleeved on the upper end of the metal piece 31 to seal the metal piece 31 and the connecting channel 222 to prevent air leakage. The number of the first sealing rings 61 is two, and the two first sealing rings 61 are arranged at intervals along the axial direction of the metal member 31. It is understood that the number of the first sealing rings 61 may also be multiple, and the number of the first sealing rings 61 may be set according to actual situations. The metal piece 31 is sleeved with a second sealing ring 62, and the second sealing ring 62 is located in the glass oil cup 10 and at a position of one end of the glass oil cup 10 close to the electrode 40, and is used for sealing between the metal piece 31 and one end of the glass oil cup 10 close to the electrode 40 to prevent oil leakage.

Further, one end of the electrode holder 41 close to the glass oil cup 10 is provided with a groove, a second sealing member 52 is arranged in the groove, and the second sealing member 52 is sleeved on the lower end of the metal member 31 and is pressed by one end of the glass oil cup 10 close to the electrode member 40. The second seal 52 is used to seal the metal member 31 from the end of the glass oil cup 10 close to the electrode member 40 to prevent oil leakage. The second sealing ring 62 and the second sealing element 52 can realize double sealing between the metal piece 31 and one end of the glass oil cup 10 close to the electrode piece 40, and the sealing effect is good.

The pole element 40 further comprises an electrode 42 located in the mounting channel. One end of the electrode 42 is separated from the inner wall of the mounting channel by a first insulating ring 43, and the other end extends into the metal member 31 and is separated from the inner side of the metal member 31 by a second insulating ring 44. The first insulating ring 43 is used for insulating the electrode 42 from the electrode holder 41, and the second insulating ring 44 is used for insulating the electrode 42 from the metal member 31 to prevent short circuit. The electrode holder 41 is used for being electrically connected with a negative electrode piece of the battery rod, the electrode 42 is used for being connected with a positive electrode piece of the battery rod, and a positive electrode pin and a negative electrode pin of the heating body 32 are respectively electrically connected with the electrode 42 and the electrode holder 41, so that when the atomizer 100 is installed on the battery rod, the heating body 32 can be powered through the electrode 42 and the electrode holder 41, and atomized oil is heated and atomized.

The above-mentioned air inlets 411 are provided on the outer side of the electrode holder 41, and the number of the air inlets 411 is plural, and it can be understood that the number of the air inlets 411 can be set according to actual conditions. An air inlet channel 45 is formed between the first insulating ring 43 and the second insulating ring 44, the air inlet channel 45 is respectively communicated with the air inlet 411 and the inner cavity 421 of the electrode 42, the atomization channel is respectively communicated with the connecting channel 222 and the electrode channel 421 of the electrode 42, so that the atomization channel is communicated with the air suction port 211 through the connecting channel 222, and the atomization channel is communicated with the air inlet 411 through the electrode channel 421 and the air inlet channel 45 of the electrode 42.

The outer side of the electrode holder 41 is provided with an external thread for screwing with a battery rod, so that the atomizer 100 can be screwed with the battery rod. In the case where the electrode holder 41 is provided with the external thread, the nozzle holder 23 is not provided with the nozzle magnetic attachment 231.

The first insulating ring 43 has a circuit start inlet 431, the circuit start inlet 431 being in communication with the inlet channel 45, the circuit start inlet 431 being used to enable the battery rod to be started to power the atomizer 100. The number of the circuit start air inlets 431 is two, and it can be understood that the number of the circuit start air inlets 431 can be set according to actual conditions.

Referring to fig. 3 and 4, the present invention further provides a flat electronic atomizer 200 based on the atomizer 100. The flat electronic atomizer 200 includes a flat battery rod 110 and the atomizer 100 described above detachably attached to the battery rod 110.

The battery pole 110 includes a housing 110a and PCBA components, starting circuit components, a battery, a positive pole piece, a negative pole piece mounted within the housing 110 a. The battery, the starting circuit component, the anode piece and the cathode piece are respectively electrically connected with the PCBA component. One end of the housing 110a is a mounting end 111, and the other end is provided with a charging port 116 for charging. An LED indicator 115 is provided on the housing 110a for indicating the charging status.

The atomizer 100 is detachably mounted to the mounting end 111 of the housing 110 a. Specifically, the mounting end 111 of the housing 110a is provided with a mounting groove 112, the bottom of the mounting groove 112 is provided with an insertion channel 113, and the glass oil cup 10 and the electrode member 40 of the atomizer 100 are inserted into the insertion channel 113. The electrode member 40 is truncated cone-shaped for facilitating insertion. The nozzle seat 23 of the nozzle 20 partially protrudes from the second end of the nozzle body 21 and is inserted into the mounting groove 112, so that the structure is compact. The positive pole piece is electrically connected with the electrode 42 of the atomizer 100, the negative pole piece is electrically connected with the electrode holder 41 of the atomizer 100, and the starting circuit air inlet 431 is communicated with the air passage of the starting circuit assembly to realize the starting to supply power to the atomizer 100. The air inlet 411 on the outer side of the electrode holder 41 communicates with the air port of the case 110a to achieve air intake.

In this embodiment, the bottom of the mounting groove 112 is provided with a battery magnetic attraction piece 114, and the battery magnetic attraction piece 114 is magnetically attracted to the nozzle magnetic attraction piece 231 of the nozzle base 23, so that the atomizer 100 is magnetically attracted to the battery rod 110, and the atomizer 100 can be mounted to the battery rod 110. The number of the battery magnetic attraction pieces 114 corresponds to the number of the nozzle magnetic attraction pieces 231.

In an alternative, the nozzle holder 23 is not provided with the nozzle magnetic attraction piece 231, the mounting groove 112 is not provided with the battery magnetic attraction piece 114, and the outer side of the electrode holder 41 is provided with an external thread, and the inner wall of the insertion channel 113 is provided with an internal thread, and the external thread is in threaded engagement with the internal thread, so that the atomizer 100 is in threaded connection with the battery rod 110, and thus the installation of the atomizer 100 to the battery rod 110 can also be realized.

Referring to fig. 5, a visible window 117 is disposed on the housing 110a at a position corresponding to the insertion passage 113 for observing the amount of the atomized oil in the glass oil cup 10, so as to remind a user of the usage of the atomized oil. In this embodiment, the visual window 117 is a transparent member, such as a glass member, disposed on the casing 110a, and the casing 110a has a hole for disposing the transparent member. It will be appreciated that it may also be an elongated void communicating with the plug channel 113. The longitudinal direction of the elongated void coincides with the axial direction of the housing 110 a. It will be appreciated that the shape of the voids may be other.

Referring to fig. 6, in an alternative embodiment, the viewing window 117 may also be a slot disposed on the housing 110a, one end of the slot extending to the mounting end 111 of the housing 110a, the slot communicating with the plug channel 113.

It will be appreciated that the shape of the visible window 117 may be set as appropriate.

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 (15)

1. An atomizer, characterized by: the atomizing device comprises a circular glass oil cup, a flat suction nozzle, an atomizing core and an electrode piece, wherein the suction nozzle and the electrode piece are respectively positioned at two ends of the glass oil cup, the atomizing core is positioned in the glass oil cup, and two ends of the atomizing core are respectively installed on the suction nozzle and the electrode piece; an oil storage cavity is formed between the outer side of the atomizing core and the inner side of the glass oil cup, and the atomizing core is provided with an oil inlet communicated with the oil storage cavity; the suction nozzle has the induction port, the electrode piece has the air inlet, induction port, air inlet respectively with the atomizing passageway intercommunication of atomizing core.

2. The nebulizer of claim 1, wherein: the atomizing core comprises a metal piece positioned in the glass oil cup and a heating body arranged in the metal piece, and an oil storage cavity is formed between the outer side of the metal piece and the inner side of the glass oil cup and is provided with the oil inlet; the inner cavity of the metal piece and the inner cavity of the heating body form the atomization channel.

3. The nebulizer of claim 1, wherein: the suction nozzle comprises a suction nozzle body and a connecting piece arranged in the suction nozzle body, the suction port is arranged at the first end of the suction nozzle body, the connecting piece is provided with a stretching end stretching out from the second end of the suction nozzle body, the end part of the stretching end stretches into the glass oil cup, and the connecting piece is provided with a connecting channel communicated with the suction port.

4. A nebulizer as claimed in claim 3, wherein: the electrode piece comprises an electrode seat, the electrode seat is provided with an installation channel, the atomizing core comprises a metal piece and a heating body, the metal piece is located in the glass oil cup, the heating body is installed in the metal piece, two ends of the metal piece respectively extend out of two ends of the glass oil cup and are respectively installed on the connection channel and the installation channel.

5. A nebulizer as claimed in claim 3, wherein: the suction nozzle comprises a suction nozzle seat arranged at the second end of the suction nozzle body, the suction nozzle seat partially protrudes out of the second end of the suction nozzle body, and the suction nozzle seat is annularly arranged at the extending end of the connecting piece and provided with a suction nozzle magnetic part for being magnetically connected with the battery rod.

6. The nebulizer of claim 4, wherein: the electrode piece is including being located the electrode in the installation passageway, the one end of electrode with separate through first insulating ring between the inner wall of installation passageway, the other end stretches into in the metalwork and separate through second insulating ring between the inboard of metalwork.

7. The nebulizer of claim 6, wherein: an air inlet channel is formed between the first insulating ring and the second insulating ring, the outer side of the electrode holder is provided with the air inlet, the air inlet channel is communicated with the air inlet and an electrode channel of the electrode respectively, and the atomization channel is communicated with the connecting channel and the electrode channel respectively.

8. The nebulizer of claim 4, wherein: and the outer side of the electrode seat is provided with external threads for being in threaded connection with a battery rod.

9. An electronic atomization device, includes flat battery pole and detachably installs the atomizer of battery pole, its characterized in that: the atomizer comprises a circular glass oil cup, a flat suction nozzle, an atomizing core and an electrode piece, wherein the suction nozzle and the electrode piece are respectively positioned at two ends of the glass oil cup, the atomizing core is positioned in the glass oil cup, and two ends of the atomizing core are respectively installed on the suction nozzle and the electrode piece; an oil storage cavity is formed between the outer side of the atomizing core and the inner side of the glass oil cup, and the atomizing core is provided with an oil inlet communicated with the oil storage cavity; the suction nozzle has the induction port, the electrode piece has the air inlet, induction port, air inlet respectively with the atomizing passageway intercommunication of atomizing core.

10. The electronic atomization device of claim 9, wherein: the battery pole comprises a housing, and the atomizer is detachably mounted to a mounting end of the housing; the mounting end of the shell is provided with a mounting groove, the bottom of the mounting groove is provided with an inserting channel, and the glass oil cup and the electrode piece are inserted into the inserting channel.

11. The electronic atomizing device of claim 10, wherein: and a visible window is arranged on the shell at a position corresponding to the inserting channel for observing the amount of the atomized oil in the glass oil cup.

12. The electronic atomizing device of claim 11, wherein: the visible window is a transparent part, a vacancy or a groove position.

13. The electronic atomizing device of claim 10, wherein: the suction nozzle comprises a suction nozzle body and a suction nozzle seat, the suction port is arranged at the first end of the suction nozzle body, the suction nozzle seat is installed at the second end of the suction nozzle body, and the suction nozzle seat protrudes out of the second end of the suction nozzle body and is inserted into the installation groove.

14. The electronic atomizing device of claim 13, wherein: the suction nozzle seat is provided with a suction nozzle magnetic suction piece, a battery magnetic suction piece is arranged in the mounting groove, and the suction nozzle magnetic suction piece is connected with the battery magnetic suction piece in a magnetic suction mode.

15. The electronic atomizing device of claim 10, wherein: the electrode piece comprises an electrode holder, the electrode holder is provided with external threads, the insertion channel is provided with internal threads, and the external threads are in threaded engagement with the internal threads.

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