CN217446697U - Heating combination and atomizer applying same - Google Patents

Abstract

The utility model relates to a combination and applied this atomizer that generates heat and make up generate heat. The heating combination comprises a heating body and an oil guide body; the oil guide body is composed of an object with oil guide and storage capacities and has a set thickness; the heating body is arranged on one end face of the oil guide body, and is fixed and connected with the relative position between the heating body and the oil guide body to form a combined component; the relative position comprises that the relative position of the oil guide body and the heating body in the horizontal direction is fixed and the gap size in the vertical direction is fixed; the heating body comprises a heating sheet, and the heating sheet comprises a heating structure forming a heating resistor of the heating sheet. The utility model discloses a combination assembly uniformity that generates heat is better, less, the assembly efficiency is higher to the influence of atomization effect.

Description

Heating combination and atomizer applying same

Technical Field

The utility model relates to a liquid atomization field, more specifically say, relate to a combination and atomizer generate heat.

Background

In the existing atomization device, the atomization core is usually a cotton bale heating wire structure, a cylindrical ceramic heating element structure or a planar ceramic heating element structure. The mouth feel reduction degree of the cotton-covered heating wire structure is good, the operation of manually covering cotton and threading the heating wire pins is needed, the cotton-covered heating wire structure needs to be assembled in advance and then can be assembled with other parts of the atomizer, the artificial bent heating wire pins are needed to be electrically connected with the electrode of the atomizer after the assembly is completed, the assembly consistency is poor, the automatic production cannot be realized, the production efficiency is not high, and the cost is high. The planar ceramic heating element is a metal film printed on the ceramic surface in a thick film mode or a metal sheet attached in a corrosion mode and serves as a heating element, when the heating element is used for assembling sealing element silica gel, due to the fact that the silica gel needs to have certain magnitude of interference, automatic assembly is difficult to achieve, and deformation of the heating element or stress cracking of the metal thick film is easily caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, it is relatively poor to the above-mentioned assembly uniformity of prior art, can not realize automated production's defect, provides the assembly method that the assembly uniformity is better, can realize automated production's combination, atomizer and atomizer generate heat.

The utility model provides a technical scheme that its technical problem adopted is: constructing a heating combination, which comprises a heating body and an oil guide body; the oil guide body is composed of an object with oil guide and storage capacities and has a set thickness; the heating body is arranged on one end face of the oil guide body, and is fixed and connected with the relative position between the heating body and the oil guide body to form a combined component; the relative position comprises that the relative position of the oil guide body and the heating body in the horizontal direction is fixed and the gap size in the vertical direction is fixed; the heating body comprises a heating sheet, and the heating sheet comprises a heating structure forming a heating resistor of the heating sheet.

Preferably, the edge of the heating structure is turned toward the oil guide body, and surrounds and clamps the side surface of the oil guide body, so that the fixing of the relative position between the oil guide body and the heating body and the connection between the oil guide body and the heating body are realized.

Preferably, the side surface of the middle part of the oil guide body is inwardly contracted to form an inner concave part, the inner concave part is used as an air passage for conveying air flow, and the edge of the heating structure surrounds and is clamped on the side surface of the inner concave part.

As a preferred scheme, the heating sheet includes two connection ends, the two connection ends are respectively connected to two ends of the heating structure, and the width of the heating structure is greater than the width of the connection ends.

Preferably, the connecting end is further provided with a through hole or a connecting portion for connecting with an electrode.

The utility model also provides an atomizer, including mount pad, electrode and top subassembly, still include as above the combination that generates heat, the electrode by the underrun electrode mounting hole of mount pad passes the mount pad, and reach the top surface of mount pad, the combination that generates heat is placed the top surface of mount pad, the top subassembly is placed the combination that generates heat the higher authority, the top subassembly includes silica gel sealing washer and support, be provided with in the support and lead oily structure, it does to lead oily structure generate heat the combination provides and is used for atomizing liquid.

Preferably, the heating element of the heating assembly is located between the top assembly and the oil guide body of the heating assembly.

Preferably, the heating element of the heating combination is arranged on the oil inlet surface of the oil guide member.

Preferably, the oil guide device further comprises a support body arranged between the mounting seat and the oil guide body.

Preferably, the support comprises a ceramic matrix.

The utility model also provides an assembly method of the atomizer, the atomizer comprises a mounting seat, an electrode, a top component, a heating element and an oil guide body; the assembling method comprises the following steps: assembling a heating combination, wherein the heating body and the oil guide body are combined together, so that the relative position between the heating body and the oil guide body is fixed and connected together to obtain the heating combination; mounting the electrode on the mount; placing the heating combination on the top surface of the mounting seat provided with the electrode; and placing the top assembly on the heating assembly, and connecting the top assembly with the mounting seat to finish assembly.

Preferably, the heating element is disposed between the top member and the oil guide body.

Preferably, the step of assembling the heat generating assembly further comprises: placing the heating element on one end face of the oil guide body, and aligning the heating element with two ends of the oil guide body; and turning the edge of the heating structure of the heating sheet in the heating body in the direction of the oil guide body, so that the edge of the heating structure is turned upwards and clamps the side surface of the oil guide body, and the heating body and the oil guide body are connected together to obtain a heating combination.

Preferably, a support is disposed between the top surface of the mounting base and the heat generating assembly.

Preferably, the support comprises a ceramic support.

Preferably, the heat generating assembly and the top component are mounted to the top surface of the mounting base in the same mounting orientation.

Implement the utility model discloses a combination, atomizer and atomizer's that generates heat assembly method has following beneficial effect: since the heating element and the oil guide body are combined together to form the heating combination, and then the obtained heating combination is installed, and since the heating element and the oil guide body are separately combined before assembly, the vertical distance (gap) between the heating element and the oil guide body is visible and adjustable, which has great benefit for improving the consistency of the atomizer. Therefore, the assembly consistency is better, the influence on the atomization effect is smaller, and the assembly efficiency is higher.

Drawings

Fig. 1 is a schematic structural diagram of a heating assembly according to an embodiment of the present invention;

fig. 2 is a flow chart of a method of assembling an atomizer using the heat generating assembly of fig. 1.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

As shown in fig. 1, in the embodiment of the heating assembly of the present invention, the heating assembly 100 includes a heating element 10 and an oil guiding member 20, the heating element 10 is disposed on an end surface 22 of the oil guiding member 20 and is fixed and connected to the oil guiding member 20 at a relative position to form a combined component; the relative positions include a fixed relative position of the oil guide 20 and the heat generating body 10 in the horizontal direction and a fixed gap size in the vertical direction. In this embodiment, the oil guide 20 is formed of an object having oil guiding and storing capabilities, and has a predetermined thickness. The top end surface 22 of the oil guide 20 is an oil inlet surface, and external atomized liquid can enter the oil guide 20 from the end surface 22. The bottom end face 21 of the oil guide 20 serves as a non-oil-feeding face. The heating element 10 is in the form of a heating sheet, and includes a heating structure 11 constituting a heating resistor thereof, and the heating resistor may be in other structures besides a mesh structure, such as a strip structure formed by arranging a plurality of straight strips or wavy strips.

In fig. 1, the edge 19 of the heat generating structure 11 of the heat generating element 10 is turned up toward the bottom end face 21 of the oil guide 20, and surrounds and holds the side face 23 of the oil guide 20, thereby fixing the relative position between the oil guide 20 and the heat generating element 101 and connecting the oil guide 20 and the heat generating element 101.

In this embodiment, the area of the oil guide 20 is larger than that of the heating element 10, and the shapes thereof are adapted to each other. Meanwhile, the side surface of the middle part of the oil guide 20 is shrunk inwards to form an inner concave part 24, and the inner concave part 24 is used as an air channel for inputting external air; on the other hand, the edge 19 of the heat generating structure 11 of the heat generating element 10 is surrounded and held on the side surface of the concave portion 24, which facilitates the holding of the edge 19.

In this embodiment, the heating element 10 includes two connection terminals 12 and a heating structure 11 located between the two connection terminals 12 and connected to the two connection terminals 12, and the width of the heating structure 11 is larger than that of the connection terminals 12. Meanwhile, the width of the heating structure 11 is also larger than the width of the position of the concave portion 24 in the oil guiding body 20. This arrangement enables the rim 19 of the heat generating structure 11 to be easily rolled and held on the side wall 23 fixed at the position of the concave portion 24 of the oil guide body 20, makes it possible to assemble the above-mentioned oil guide body 20 and heat generating body 10 into a combination before assembly, and also facilitates automated manufacturing. Meanwhile, in such an assembly, the vertical distance between the heating body 10 and the oil guide body 20 can be more easily adjusted and controlled, so that the atomizer can be assembled with good uniformity.

In this embodiment, a voltage must be applied to the heating element 10 to energize the heating element 10 to generate heat, thereby atomizing the liquid. In some cases, the two terminals 12 of the heating element 10 may be connected by a cable, and in other cases, the power supply of the heating element 10 may be connected by electrodes, for example, two electrodes may be used, which are respectively penetrated from the bottom surface of the oil guide 20 to the top end surface 22 thereof, and then fastening members may be inserted into the electrode terminals from the through holes 13 of the connecting terminals 12, so that the two connecting terminals 12 of the heating element 10 are respectively connected to the two electrodes, which are respectively connected to the positive and negative terminals of the power supply, thereby supplying power to the heating element 10. In this case, the electrode tip is provided with a connection hole to mate with the fastener. In an alternative scheme, a protruding connecting part 15 can be arranged at the inner edge of the through hole 13, and the connecting part 15 is bent towards a connecting hole at the tail end of the electrode and is propped against the inner wall of the connecting hole when the electrode is assembled, so that connection is realized; further, a welding process can be added to make the connection between the heating element 10 and the electrode more stable. In another alternative, the electrode tip is a plane, and the edge of the through-hole 13 of the connection terminal 12 of the heating body 10 or the connection part 15 may be welded to the electrode tip.

The utility model also provides an use above-mentioned atomizer that generates heat and make up, including mount pad, electrode, top subassembly and the foretell combination that generates heat, the electrode by the underrun electrode mounting hole of mount pad passes the mount pad, and reach the top surface of mount pad, the combination that generates heat is placed the top surface of mount pad makes the electrode can give the heat-generating body power supply, the top subassembly is placed the higher authority of the combination that generates heat, the top subassembly includes silica gel sealing washer and support, be provided with in the support and lead oily structure, it does to lead oily structure the oil spare that leads of the combination that generates heat provides and is used for atomizing liquid. For example, the oil guide structure is an oil guide hole, the oil guide hole is arranged at the top of the bracket, and liquid in the disposable oil storage assembly is introduced into the oil guide body through the oil guide hole to be stored and waits for atomization.

Preferably, the heating body is located between the top assembly and the oil guide body. The advantage of this scheme is that, the heat-generating body is located the top of leading oily piece, and fit clearance between the two can visual inspection, also convenient control avoids the defective products, guarantees the product uniformity. As known to those skilled in the art, too large gap between the heating element and the oil guide member is likely to cause difficulty in supplying oil to the heating element, and insufficient oil supply amount is likely to cause scorching of the heating element due to atomization of the heating element, thereby causing scorched smell. Too small gap between the heating body and the oil guide piece easily causes too much oil supply, oil leakage or oil frying easily, and suction experience of a user is influenced.

Preferably, the atomizer can be additionally provided with a support body, and the support body is arranged between the mounting seat and the oil guide body. The supporting body comprises a ceramic substrate, and not only provides rigid support for the oil guide member, but also prevents atomized liquid of the oil guide member from leaking to the mounting seat or the electrode.

It can be understood that, when the atomizer is in operation, the external air flows from the bottom end surface position of the oil guiding member through the concave portions (refer to reference numeral 24 in fig. 1) on both sides of the oil guiding member to the top end surface (refer to reference numeral 22 in fig. 1, that is, the end surface where the heating element 10 is located), and then carries out the aerosol generated by the heating element.

The utility model also relates to an assembly method of the atomizer, the atomizer comprises a mounting seat, an electrode, a top component, a heating element, an oil guide body and a disposable oil storage part; the assembling method comprises the following steps:

step S11 assembles the heat generating combination: in the step, the heating element and the oil guide body are combined together, so that the relative position between the heating element and the oil guide body is fixed and connected together to obtain a heating combination;

step S12 mounting the electrode to the mount: in this step, the electrode is fitted on the mount; specifically, the electrode is placed into the motor mounting hole of the mounting seat from the bottom surface of the mounting seat and pushed in as far as possible, so that one end of the electrode is exposed out of the top surface of the mounting seat or is flush with the top surface of the mounting seat.

Step S13 places the heat generation combination: in the step, the heating combination obtained in the step is placed on the top surface of the mounting seat provided with the electrodes; preferably, in this step, the heat generating assembly is placed in such a direction that the oil guide is in contact with the top surface of the mount, i.e., the heat generating body 10 is above the oil guide 20.

Step S14 assembles the top assembly and the disposable oil storage component: in this step, the top assembly is placed on the heat generating assembly, the disposable oil storage component is placed, and the disposable oil storage component is connected with the mounting seat, so that the atomizer is assembled.

In this embodiment, the step of assembling the heat generating assembly further comprises:

firstly, placing a heating element on the non-oil inlet surface of the oil guide body, and aligning the heating element and two ends of the oil guide body;

then, the edge of the heating structure of the heating sheet in the heating body is turned over towards the direction of the oil guide body, so that the edge of the heating structure is turned upwards and clamps the side face of the oil guide body, and the heating body is connected with the oil guide body to obtain a heating combination.

Preferably, the atomizer may be additionally provided with a support. In this case, the assembling method further includes placing a support body between the top surface of the mounting seat and the heat generating assembly, wherein the support body includes a ceramic support body as described above.

The assembly method has the advantages that the main parts of the atomizer, such as the mounting seat, the electrode, the top component, the heating body, the oil guide body, the oil storage part 15 and the like, are assembled together in the same direction, such as from top to bottom or from bottom to top, so that the automatic assembly is convenient, and the production efficiency is improved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but 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 spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A heating combination is characterized by comprising a heating body and an oil guide body; the oil guide body is composed of an object with oil guide and storage capacities and has a set thickness; the heating body is arranged on one end face of the oil guide body, and is fixed and connected with the relative position between the heating body and the oil guide body to form a combined component; the relative position comprises that the relative position of the oil guide body and the heating body in the horizontal direction is fixed and the gap size in the vertical direction is fixed; the heating body comprises a heating sheet, and the heating sheet comprises a heating structure forming a heating resistor of the heating sheet.

2. The heating combination of claim 1, wherein the edge of the heating structure is turned toward the oil guide body, and surrounds and clamps the side surface of the oil guide body, so as to fix the relative position between the oil guide body and the heating body and connect the oil guide body and the heating body.

3. A heating combination according to claim 2, wherein the oil-guiding body is inwardly constricted on its sides in the middle to form an inner recess which serves as an air passage for the air flow, and the rim of the heating structure surrounds and is clamped against the sides of the inner recess.

4. A heating combination as claimed in claim 1, wherein the heating sheet comprises two connection ends connected to both ends of the heating structure, respectively, and the width of the heating structure is greater than the width of the connection ends.

5. A heating combination according to claim 4, wherein the connecting end is further provided with a through hole or a connecting portion for connecting with an electrode.

6. An atomizer, includes mount pad, electrode and top subassembly, its characterized in that, still includes the combination that generates heat of any one of claims 1 to 5, the electrode by the bottom surface of mount pad passes through the electrode mounting hole the mount pad, and reaches the top surface of mount pad, the combination that generates heat is placed the top surface of mount pad, the top subassembly is placed the combination that generates heat the higher authority, the top subassembly includes silica gel sealing washer and support, be provided with in the support and lead the oil structure, it does to lead the oil structure the combination that generates heat provides and is used for atomizing liquid.

7. The atomizer of claim 6, wherein said heat generating assembly heater is located between said top assembly and said heat generating assembly oil conductor.

8. The atomizer of claim 6, wherein the heat generating body of said heat generating assembly is disposed at an oil inlet surface of the oil guide member.

9. The atomizer of claim 8, further comprising a support body disposed between said mounting block and said oil conducting body.

10. A nebulizer as claimed in claim 9, wherein the support body comprises a ceramic matrix.

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