CN218571410U

CN218571410U - Power-adjustable heating assembly and corresponding atomizing core

Info

Publication number: CN218571410U
Application number: CN202222433658.4U
Authority: CN
Inventors: 宋茂清; 黄振宇; 邹德辉
Original assignee: Shenzhen Meizhonglian Technology Co ltd
Current assignee: Shenzhen Meizhonglian Technology Co ltd
Priority date: 2022-09-14
Filing date: 2022-09-14
Publication date: 2023-03-07
Anticipated expiration: 2032-09-14
Also published as: US20240081420A1

Abstract

The utility model relates to a power adjustable heating element and corresponding atomizing core, this power adjustable heating element include the support and generate heat the piece. At least three positioning holes are arranged on the bearing part at the bottom end of the bracket. The heating element comprises a heating net and a plurality of leads. The heating net is arranged in the accommodating cavity, and a gap is reserved between the two ends of the heating net. One ends of the leads are connected with the heating net, the other ends of the leads are connected with the electrodes of the power supply respectively, and the leads penetrate through the positioning holes in a one-to-one correspondence mode. Wherein, at least two leads are selected to be electrically connected with the electrode of the power supply so that the heating net generates heat. The power of the adjustable-power heating component can be changed by switching different leads to electrify. Under the rated voltage, the temperature regulating function is realized, so that the taste-adjustable tea is suitable for different tastes, and the using effect and the taste are improved. The atomizing core is provided with any one of the heating components with adjustable power, so that the using effect and the taste can be improved.

Description

Power-adjustable heating assembly and corresponding atomizing core

Technical Field

The utility model relates to an atomizing equipment field, in particular to power adjustable heating element and corresponding atomizing core.

Background

The heating net structure on the atomizing core is used for generating heat, so that the oil in the atomizing cavity is atomized. The traditional heating net structure has non-adjustable power, only adapts to one taste, and if other tastes are needed, the taste is not good, and the using effect is influenced.

Therefore, it is desirable to provide a power-adjustable heating element and a corresponding atomizing core to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a power adjustable heating element and atomizing core that corresponds, this power adjustable heating element's many lead wires respectively with a plurality of electrode connection of power, its electrode circular telegram through selecting two piece at least lead wires and power is connected and is makeed the heating wire net generate heat, switches different lead wires and switches on the power that can change this power adjustable heating element. Under rated voltage, the temperature regulating function is realized, so that the taste-adjustable tea is suitable for different tastes, and the using effect and the taste are improved. The atomizing core is provided with any one of the heating components with adjustable power, the using effect and the taste can be improved, and the problems that the taste is not good and the using effect is influenced due to the fact that the power of a traditional heating net structure is not adjustable in the prior art are solved.

In order to solve the above problems, the present invention comprises: a power adjustable heating element for being connected with a power supply to generate heat to atomize atomized liquid comprises:

the device comprises a support, a bearing part and a fixing part, wherein an accommodating cavity is arranged in the support, the top end of the support is open, the bottom end of the support is provided with the bearing part, and the peripheral side of the bearing part is hermetically connected with the inner wall of the bottom end of the support; the bearing part is provided with at least three positioning holes; and (c) a second step of,

the heating element comprises a heating net and a plurality of leads; the heating net is arranged in the accommodating cavity, and a gap is formed between two ends of the heating net; one ends of the leads are connected with the heating net, the other ends of the leads are respectively connected with the electrodes of the power supply, the number of the leads is the same as that of the positioning holes, and the leads penetrate through the positioning holes in a one-to-one correspondence manner; wherein the heating net generates heat by selecting at least two leads to be electrically connected with the electrode of the power supply.

Furthermore, the number of the positioning holes is three, and the leads comprise a first lead, a second lead and a third lead. The first lead is connected with one end of the heating net, the second lead is connected with the other end of the heating net, the third lead is connected with the heating net, and the third lead is located between the first lead and the second lead. The heating net between any two of the first lead, the second lead and the third lead is respectively connected with the power supply in an electrified way. The power is adjusted by selecting different parts of the heating net, so that the using effect is improved.

Furthermore, the number of the positioning holes is three, and the leads comprise a first lead, a second lead and a third lead. The first lead is connected with one end of the heating net, the second lead is connected with the other end of the heating net, the third lead is connected with the heating net, and the third lead is located between the first lead and the second lead. Wherein, three electrodes of first lead wire, second lead wire, third lead wire with the power respectively are connected with the circular telegram. The power supply is respectively arranged in the same way as the electrical property of the two electrodes of the first lead and the second lead, and the power supply is arranged in the different way as the electrical property of the electrode connected with the third lead and the electrical property of the electrode connected with the first lead. Three lead wires can be used in a matched mode, and the power adjusting range is widened.

Furthermore, the number of the positioning holes is four, and the leads comprise a first lead, a second lead, a third lead and a fourth lead. The first lead is connected with one end of the heating net, the second lead is connected with the other end of the heating net, the third lead and the fourth lead are connected with the heating net, and the third lead and the fourth lead are located between the first lead and the second lead. The power regulation range is increased.

Furthermore, any two of the first lead, the second lead, the third lead and the fourth lead are respectively connected with the electrode of the power supply in an electrified way, and the power is adjusted through the allocation among the four leads, so that the using effect is improved.

Furthermore, any three of the first lead, the second lead, the third lead and the fourth lead are respectively connected with an electrode of the power supply in an electrified manner. The adjacent two electrodes corresponding to the leads are arranged in a different electrical property mode, so that the short circuit phenomenon is prevented, and the power adjusting range is enlarged.

Furthermore, the first lead, the second lead, the third lead and the fourth lead are respectively connected with the electrodes corresponding to the power supply in an electrified manner, so that the power regulation range is widened. The two electrodes of the power supply corresponding to the first lead and the second lead are arranged in the same electrical property. The third lead and the fourth lead correspond to the two electrodes of the power supply which are arranged in the same electrical mode, and the first lead and the second lead correspond to the two electrodes of the power supply which are arranged in the different electrical modes, so that the power adjustment is convenient. Alternatively, the third lead is located between the first lead and the fourth lead. The first lead and the fourth lead correspond to the two electrodes of the power supply which are arranged in the same electrical property mode, the second lead and the third lead correspond to the two electrodes of the power supply which are arranged in the same electrical property mode, the two electrodes of the power supply which correspond to the first lead and the fourth lead are arranged in the different electrical property mode, and the power adjusting range is enlarged.

Further, the heating assembly further comprises liquid storage cotton, and the liquid storage cotton comprises a liquid storage part and an extension part. The liquid storage part is wrapped outside the heating net. One side of the support is provided with a through groove, the through groove is communicated with an opening at the top of the support, and the bottom edge of the through groove is higher than the inner surface of the bearing part. The extension part protrudes out of one side of the liquid storage part and penetrates through the through groove. And the gap between the two ends of the heating net and the through groove are arranged in a staggered manner. The atomized liquid can be prevented from directly entering the heating net through the liquid guide cotton and the gap without passing through the heating net.

An atomizing core, which comprises the heat generating component with adjustable power.

The utility model discloses owing to adopted foretell a power adjustable heating element and corresponding atomizing core, compare in prior art, its beneficial effect is: the utility model relates to a power adjustable heating element and corresponding atomizing core, this power adjustable heating element include the support and generate heat the piece. The inside of support is provided with holds the chamber, and the top of support is uncovered, and its bottom is provided with the portion of bearing. The periphery of the bearing part is connected with the inner wall of the bottom end of the support in a sealing mode, and at least three positioning holes are formed in the bearing part. The heating element comprises a heating net and a plurality of leads. The heating net is arranged in the accommodating cavity, and a gap is reserved between two ends of the heating net. One ends of the leads are connected with the heating net, the other ends of the leads are connected with the electrodes of the power supply respectively, the number of the leads is the same as that of the positioning holes, and the leads penetrate through the positioning holes in a one-to-one correspondence mode. Wherein, at least two leads are selected to be electrically connected with the electrode of the power supply so that the heating net generates heat. The power of the adjustable-power heating component can be changed by switching different leads to electrify. Under rated voltage, the temperature regulating function is realized, so that the taste-adjustable tea is suitable for different tastes, and the using effect and the taste are improved. The atomizing core is provided with any heating component with adjustable power, the using effect and the taste can be improved, and the problem that the effect of using is not good and influenced due to the fact that the traditional heating net structure is not adjustable in power, when multiple tastes are needed in the prior art is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is a schematic structural diagram of an embodiment of the power-adjustable heating assembly of the present invention.

Fig. 2 is a left schematic view of an embodiment of the power-adjustable heating assembly of the present invention.

Fig. 3 is a right side schematic view of an embodiment of the power-adjustable heating assembly of the present invention.

Fig. 4 is a schematic plan view of a first embodiment of the power-adjustable heating assembly of the present invention.

Fig. 5 is a schematic plan view of a second embodiment of the power-adjustable heating assembly according to the present invention.

Fig. 6 is a schematic plan view of a third embodiment of the power-adjustable heating assembly of the present invention.

Fig. 7 is a schematic plan view of a fourth embodiment of the power adjustable heating assembly of the present invention.

Fig. 8 is a schematic plan view of a fifth embodiment of a power-adjustable heating element according to the present invention.

Fig. 9 is a schematic plan view of a fifth embodiment of the power-adjustable heating element according to the present invention.

In the figure: 10. the power-adjustable heating assembly comprises a power-adjustable heating assembly, 11 parts of a support, 111 parts of an accommodating cavity, 112 parts of a bearing part, 113 parts of a positioning hole, 13 parts of a heating element, 131 parts of a heating net, 132 parts of a lead, 14 parts of liquid guide cotton, 15 parts of liquid storage cotton, 151 parts of a liquid storage part and 152 parts of an extending part;

21. heating net, 22, first lead, 23, second lead, 24, third lead;

31. heating net, 32, first lead, 33, second lead, 34, third lead;

41. heating net, 42, first lead, 43, second lead, 44, third lead, 45, fourth lead;

51. heating net, 52, first lead, 53, second lead, 54, third lead, 55, fourth lead;

61. heating net, 62 the first lead, 63 the second lead, 64 the third lead, 65 the fourth lead.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the directional terms, such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom", refer to the orientation of the drawings, and the directional terms are used for illustration and understanding, but not for limiting the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

Referring to fig. 1 and fig. 2, in the first embodiment, the power-adjustable heating assembly 10 includes a bracket 11, a heating element 13, a liquid guide cotton 14, and a liquid storage cotton 15. The support 11 is provided with an accommodating cavity 111 inside, the top end of the support 11 is open, and the bottom end of the support 11 is provided with a bearing part 112. The circumference of the bearing part 112 is connected with the inner wall of the bottom end of the bracket 11 in a sealing way, and at least three positioning holes 113 are arranged on the bearing part 112. The support tube 12 is positioned in the accommodation chamber 111.

The liquid storage cotton 15 comprises a liquid storage part 151 and an extension part 152, the liquid storage part 151 is wrapped outside the heating net 131, and one side of the support 11 is provided with a through groove. The through groove is communicated with an opening at the top of the bracket 11, the bottom edge of the through groove is higher than the inner surface of the bearing part 112, and an oblique angle structure is arranged at one end of the through groove, which is close to the opening at the top of the bracket 11. The extending portion 152 protrudes from one side of the liquid storage portion 151 and is disposed through the through groove. The other side of the bracket 11 is provided with a liquid guide cotton 14 which is arranged opposite to the through groove and is communicated with the accommodating cavity 111, the bottom edge of the liquid guide cotton 14 is higher than the inner surface of the bearing part 112, and the periphery of the outer side of the liquid guide cotton 14 is provided with two thinning parts which are respectively positioned on one side of the bottom edge and one side of the top edge of the liquid guide cotton 14.

Referring to fig. 3, the heat generating member 13 includes a heat generating net 131 and a plurality of leads 132. The heating net 131 is wrapped around the liquid guide cotton 14, and a gap is provided between both ends of the heating net 131. The gap between the two ends of the heating net 131 and the through groove are arranged in a staggered manner. The atomized liquid can be prevented from directly entering the heating net 131 through the liquid guide cotton 14 and the gap without passing through the heating net 131. One ends of the leads 132 are connected to the heating grid 131, and the other ends of the leads 132 are connected to the electrodes of the power supply. The number of the leads 132 is the same as that of the positioning holes 113, and the leads 132 are correspondingly inserted into the positioning holes 113 one by one. At least two leads 132 are selected to be electrically connected to the electrodes of the power supply, so that the heat generating network 131 generates heat.

Referring to fig. 4, in the first embodiment, there are three positioning holes, and the leads include a first lead 22, a second lead 23 and a third lead 24. The first lead 22 is connected with one end of the heating network 21, the second lead 23 is connected with the other end of the heating network 21, the third lead 24 is connected with the heating network 21, and the third lead 24 is located between the first lead 22 and the second lead 23. The user can select the heating grid 21 between any two of the first lead 22, the second lead 23 and the third lead 24 to be electrified and heated. The power is adjusted through the allocation among the three leads, and the using effect is improved.

In the present embodiment, there are three cases, that is, the heating grid portion between the first lead 22 and the second lead 23 is subjected to the energization heating operation, the heating grid portion between the second lead 23 and the third lead 24 is subjected to the energization heating operation, and the heating grid portion between the first lead 22 and the third lead 24 is subjected to the energization heating operation. Under rated voltage, the power of the heating component also corresponds to three adjustable gears.

Referring to fig. 5, in the second embodiment, there are three positioning holes, and the plurality of leads include a first lead 32, a second lead 33, and a third lead 34. The first lead 32 is connected to one end of the heating grid 31, the second lead 33 is connected to the other end of the heating grid 31, the third lead 34 is connected to the heating grid 31, and the third lead 34 is located between the first lead 32 and the second lead 33. The user selects to simultaneously energize the heating network between the first lead 32 and the second lead 33 and the heating network between the second lead 33 and the third lead 34 to generate heat. The two electrodes corresponding to the first lead 32 and the second lead 33 have the same electrical property, and the electrode corresponding to the third lead 34 and the electrode corresponding to the first lead 32 have different electrical properties. The three leads can be used in a matched mode, adjustment is convenient, and the adjusting range of power is enlarged.

In the present embodiment, there are two adjustable gears. The electrodes of the first lead 32 and the second lead 33 are electrically negative, and the electrode connected to the third lead 34 is electrically positive. Alternatively, the electrodes corresponding to the first lead 32 and the second lead 33 are electrically positive electrodes, and the electrode connected to the third lead 34 is electrically negative electrode.

Referring to fig. 6, in the third embodiment, the number of the positioning holes is four, and the plurality of leads includes a first lead 42, a second lead 43, a third lead 44 and a fourth lead 45. The first lead 42 is connected with one end of the heating grid 41, the second lead 43 is connected with the other end of the heating grid 41, the third lead 44 and the fourth lead 45 are both connected with the heating grid 41, and the third lead 44 and the fourth lead 45 are positioned between the first lead 42 and the second lead 43. The user can select the heating network between any two of the first lead 42, the second lead 43, the third lead 44 and the fourth lead 45 to be electrically connected with the electrode of the power supply, so that the power adjusting range is widened.

In this embodiment, the user can select several cases of the heater grid energization between the first lead 42 and the second lead 43, the heater grid energization between the first lead 42 and the third lead 44, the heater grid energization between the first lead 42 and the fourth lead 45, the heater grid energization between the second lead 43 and the third lead 44, the heater grid energization between the second lead 43 and the fourth lead 45, and the heater grid energization between the third lead 44 and the fourth lead 45. And multiple gears are selected, so that the heating device can adapt to different heating powers, and the using effect is improved.

Referring to fig. 7, in the fourth embodiment, there are four positioning holes, and the leads include a first lead 52, a second lead 53, a third lead 54 and a fourth lead 55. The first lead 52 is connected with one end of the heating net 51, the second lead 53 is connected with the other end of the heating net 51, the third lead 54 and the fourth lead 55 are both connected with the heating net 51, and the third lead 54 and the fourth lead 55 are positioned between the first lead 52 and the second lead 53. The user may select the heater grid between any three of the first, second, third and fourth leads 52, 53, 54, 55 to be electrically connected to the power source. The electrodes corresponding to the two adjacent leads are arranged in a different electrical property mode, so that the short circuit phenomenon is prevented, and the power regulation range is enlarged.

The heating network 51 among the three electrified leads can be used in series or in parallel, and the corresponding power is different in different selection modes.

Referring to fig. 8, in the fourth embodiment, there are four positioning holes, and the leads include a first lead 62, a second lead 63, a third lead 64 and a fourth lead 65. The first lead 62 is connected with one end of the heating net 61, the second lead 63 is connected with the other end of the heating net 61, the third lead 64 and the fourth lead 65 are both connected with the heating net 61, and the third lead 64 and the fourth lead 65 are positioned between the first lead 62 and the second lead 63. The user can choose to carry out the operation of generating heat of circular telegram with whole heating network, improves the atomizing efficiency of atomizing liquid.

The user can select a specific arrangement mode of the electrodes corresponding to the leads after the entire heating grid is subjected to the energization heating operation, and can select the arrangement mode by referring to the following cases.

First, referring to fig. 8, the two electrodes of the power supplies corresponding to the first lead 62 and the second lead 63 are electrically arranged in the same manner. The third lead 64 and the fourth lead 65 correspond to two electrodes of the power supply having the same electrical property, and the first lead 62 and the second lead 63 correspond to two electrodes of the power supply having different electrical properties. In the figure, the electrodes corresponding to the first lead 62 and the second lead 63 are both provided as negative electrodes, and the electrodes corresponding to the third lead 64 and the fourth lead 65 are both provided as positive electrodes. The heating network between the first lead 62 and the third lead 64 and the heating network between the second lead 63 and the fourth lead 65 are arranged in parallel, so that the power of the heating network can be adjusted.

Second, referring to fig. 9, the third lead 64 is located between the first lead 62 and the fourth lead 65. The two electrodes of the power supplies corresponding to the first lead 62 and the fourth lead 65 are electrically arranged in the same manner, the two electrodes of the power supplies corresponding to the second lead 63 and the third lead 64 are electrically arranged in the same manner, and the two electrodes of the power supplies corresponding to the first lead 62 and the fourth lead 65 are electrically arranged in a different manner. In the figure, the electrodes corresponding to the first lead 62 and the fourth lead 65 are both negative electrodes, and the electrodes corresponding to the second lead 63 and the third lead 64 are both positive electrodes.

In this embodiment, this atomizing core still includes any one of the above-mentioned power adjustable heating element, can adjust corresponding power according to different tastes, is showing the use taste that improves atomizing core.

In this embodiment, the utility model relates to a power adjustable heating element and corresponding atomizing core, this power adjustable heating element include the support and generate heat the piece. The inside of support is provided with holds the chamber, and the top of support is uncovered, and its bottom is provided with the portion of bearing. The periphery of the bearing part is connected with the inner wall of the bottom end of the support in a sealing mode, and at least three positioning holes are formed in the bearing part. The heating element comprises a heating net and a plurality of leads. The heating net is arranged in the accommodating cavity, and a gap is reserved between the two ends of the heating net. One ends of the leads are connected with the heating net, the other ends of the leads are connected with the electrodes of the power supply respectively, the number of the leads is the same as that of the positioning holes, and the leads penetrate through the positioning holes in a one-to-one correspondence mode. Wherein, at least two leads are selected to be electrically connected with the electrode of the power supply so as to lead the heating net to generate heat. The power of the adjustable-power heating component can be changed by switching different leads to electrify. Under the rated voltage, the temperature regulating function is realized, so that the taste-adjustable tea is suitable for different tastes, and the using effect and the taste are improved. The atomizing core is provided with any one of the heating components with adjustable power, the using effect and the taste can be improved, and the problems that the taste is not good and the using effect is influenced due to the fact that the power of a traditional heating net structure is not adjustable in the prior art are solved.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims

1. The utility model provides a power adjustable heating element for be connected with the power and produce heat and make atomized liquid atomizing, heating element includes:

the support is internally provided with an accommodating cavity, the top end of the support is open, the bottom end of the support is provided with a bearing part, and the peripheral side of the bearing part is hermetically connected with the inner wall of the bottom end of the support; the bearing part is provided with at least three positioning holes; and the number of the first and second groups,

2. The adjustable power heating assembly of claim 1, wherein the number of the positioning holes is three, the leads include a first lead, a second lead and a third lead, the first lead is connected to one end of the heating network, the second lead is connected to the other end of the heating network, the third lead is connected to the heating network, and the third lead is located between the first lead and the second lead;

any two of the first lead, the second lead and the third lead are respectively connected with the electrode of the power supply in an electrified way.

3. The adjustable power heating assembly of claim 1, wherein the number of the positioning holes is three, the leads include a first lead, a second lead and a third lead, the first lead is connected to one end of the heating network, the second lead is connected to the other end of the heating network, the third lead is connected to the heating network, and the third lead is located between the first lead and the second lead;

wherein, three electrodes of the power supply are respectively connected with the first lead, the second lead and the third lead in an electrified way; the power supply is respectively arranged in the same way as the electrical property of the two electrodes of the first lead and the second lead, and the power supply is arranged in the different way as the electrical property of the electrode connected with the third lead and the electrical property of the electrode connected with the first lead.

4. The adjustable power heating assembly of claim 1, wherein the number of the positioning holes is four, and the leads include a first lead, a second lead, a third lead and a fourth lead; the first lead is connected with one end of the heating net, the second lead is connected with the other end of the heating net, the third lead and the fourth lead are connected with the heating net, and the third lead and the fourth lead are located between the first lead and the second lead.

5. The adjustable power heating assembly of claim 4, wherein any two of the first, second, third, and fourth leads are electrically connected to electrodes of the power supply, respectively.

6. The adjustable-power heating assembly according to claim 4, wherein any three of the first, second, third and fourth leads are electrically connected to electrodes of the power supply respectively; the electrodes corresponding to the two adjacent leads are arranged in a different electrical mode.

7. The adjustable-power heating assembly according to claim 4, wherein the first lead, the second lead, the third lead and the fourth lead are electrically connected to corresponding electrodes of the power supply respectively.

8. The heating element with adjustable power as claimed in claim 7, wherein the first and second leads are disposed in the same manner with respect to the two electrodes of the power supply; the two electrodes of the power supply corresponding to the third lead and the fourth lead are arranged in the same electrical property mode, and the two electrodes of the power supply corresponding to the first lead and the second lead are arranged in the different electrical property mode;

or, the third lead is located between the first lead and the fourth lead; the first lead and the fourth lead correspond to the two electrodes of the power supply which are arranged in the same electrical mode, the second lead and the third lead correspond to the two electrodes of the power supply which are arranged in the same electrical mode, and the two electrodes of the power supply which correspond to the first lead and the fourth lead are arranged in the different electrical modes.

9. The heating assembly with the adjustable power of claim 1, further comprising liquid storage cotton, wherein the liquid storage cotton comprises a liquid storage portion and an extension portion, the liquid storage portion is wrapped outside the heating net, one side of the support is provided with a through groove, the through groove is communicated with an opening in the top of the support, the bottom edge of the through groove is higher than the inner surface of the bearing portion, and the extension portion protrudes out of one side of the liquid storage portion and penetrates through the through groove; and the gap between the two ends of the heating net and the through groove are arranged in a staggered manner.

10. An atomizing core, characterized in that, comprises the power-adjustable heat-generating component of any one of claims 1 to 9.