WO2018227790A1

WO2018227790A1 - Heated inhaler and heating assembly thereof

Info

Publication number: WO2018227790A1
Application number: PCT/CN2017/100778
Authority: WO
Inventors: 陈志平
Original assignee: 深圳麦克韦尔股份有限公司
Priority date: 2017-06-16
Filing date: 2017-09-06
Publication date: 2018-12-20
Also published as: CN207544337U; WO2018227593A1; CN207653582U; CN107770883B; CN107770883A

Abstract

A heated inhaler and a heating assembly thereof, the heating assembly comprising: a housing (11), a heating sheet (12) and a fixing seat (14); the housing (11) has a cylindrical shape, and the fixing seat (14) is disposed within the housing (11), while the heating sheet (12) is detachably mounted on the fixing seat (14); the heating sheet (12) comprises a heating portion (121) and an electrical connection portion (122); the heating portion (121) and the electrical connection portion (122) are connected, and the heating portion (121) comprises at least one slit structure (13) so as to guide the direction of a current that flows through the heating portion (121) such that the heating portion (121) heats uniformly.

Description

加热式吸入器及其加热组件Heated inhaler and its heating assembly

本申请要求于2017年6月16日提交中国专利局，申请号为PCT/CN2017/088733，发明名称为“加热式吸入器及其加热组件”的国际专利申请的优先权，其全部内容通过引用结合在本申请中。This application claims the priority of the International Patent Application No. PCT/CN2017/088733, entitled "Heating Inhaler and Its Heating Assembly", filed on June 16, 2017, the entire contents of which are incorporated by reference. Combined in this application.

技术领域Technical field

本发明涉及吸入器，尤其是涉及一种加热式吸入器及其加热组件。The present invention relates to an inhaler, and more particularly to a heated inhaler and a heating assembly therefor.

背景技术Background technique

随着吸烟与健康研究的不断深入，一些科学研究已表明，卷烟中危害人体的物质绝大多数是由烟草燃烧时烟草热裂解产生的。为解决上述问题，菲利普莫瑞斯烟草公司等一批公司已经开发出电加热烟具，通过电加热烟草、烟草制品或烟草制品类似物的方式，让烟草等释放尼古丁等成分，而避免烟草燃烧产生的有害物质。With the deepening of smoking and health research, some scientific studies have shown that the most harmful substances in cigarettes are caused by the thermal cracking of tobacco when tobacco is burned. In order to solve the above problems, a group of companies such as Philip Morris Tobacco Co., Ltd. have developed electric heating smoking articles to release tobacco and other components such as nicotine by electrically heating tobacco, tobacco products or tobacco analogs, thereby avoiding tobacco combustion. Harmful substances.

此外，医学领域中，针对呼吸道疾病等，经常使用吸入疗法进行治疗，经常需要使用一些具有加热功能的吸入器，通过加热药物来释放药物中的有效物质来对患者进行治疗。In addition, in the medical field, inhalation therapy is often used for the treatment of respiratory diseases, and it is often necessary to use some inhalers having a heating function to treat the patient by heating the drug to release the effective substance in the drug.

然而，不管是现有的电加热烟具还是医疗领域使用的加热式吸入器，其内部的加热组件往往结构复杂，成本高，而且发热不均匀，容易受损而使用寿命短。However, whether it is an existing electric heating smoking device or a heating inhaler used in the medical field, the internal heating assembly tends to be complicated in structure, high in cost, and uneven in heat generation, easily damaged and short in service life.

发明内容Summary of the invention

基于此，有必要提供一种结构简单、发热均匀的加热式吸入器及其加热组件。Based on this, it is necessary to provide a heating inhaler having a simple structure and uniform heat generation and a heating assembly thereof.

一方面，本发明实施例提供了一种加热组件，用于加热式吸入器，所述加热组件包括壳体、加热片、固定座和气溶胶生成物质层；所述壳体呈筒状，所述固定座设置在所述壳体内，所述加热片可拆卸地安装在所述固定座上；所述加热片包括加热部和电连接部；所述加热部与所述电连接部为一体结构；所述气溶胶生成物质层涂覆在所述加热片表面上；所述加热部和电连接部相连接，且所述加热部包括至少一道缝隙结构，以引导通过所述加热部的电流流向而使加热部发热均匀。In one aspect, an embodiment of the present invention provides a heating assembly for a heated inhaler, the heating assembly including a housing, a heating sheet, a fixing seat, and an aerosol generating substance layer; the housing is cylindrical. The fixing seat is disposed in the housing, the heating piece is detachably mounted on the fixing base; the heating piece comprises a heating part and an electrical connection part; the heating part is integrated with the electrical connection part a structure; the aerosol generating substance layer is coated on the surface of the heating sheet; the heating portion is connected to the electrical connection portion, and the heating portion includes at least one slit structure to guide current through the heating portion The flow direction makes the heating portion heat evenly.

另一方面，本发明实施例提供了一种加热式吸入器，包括上述加热组件和电池组件，所述加热片采用电阻温度系数的材料制成，所述电池组件包括电池以及温控电路板，且所述电池组件上设有感测触头，所述温控电路板包括电压测量模块、电流测量模块和控制模块，所述电压测量模块通过所述感测触头测量加热片两端电压，所述电流测量模块用于测量流经所述加热片的电流；所述控制模块用于调节所述电池的输出功率。In another aspect, an embodiment of the present invention provides a heated inhaler comprising the above heating assembly and a battery assembly, the heating sheet being made of a material having a temperature coefficient of resistance, the battery assembly including a battery and a temperature control circuit board. And the battery assembly is provided with a sensing contact, the temperature control circuit board includes a voltage measuring module, a current measuring module and a control module, and the voltage measuring module measures the voltage across the heating chip through the sensing contact, The current measuring module is configured to measure a current flowing through the heating sheet; the control module is configured to adjust an output power of the battery.

本发明的一个或多个实施例的细节在下面的附图和描述中提出。本发明的其它特征、目的和优点将从说明书、附图以及权利要求书变得明显。Details of one or more embodiments of the invention are set forth in the accompanying drawings and description below. Other features, objects, and advantages of the invention will be apparent from the description and appended claims.

附图说明DRAWINGS

为了更清楚地说明本发明实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施方式，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.

图1是一实施方式中加热组件的结构示意图；1 is a schematic structural view of a heating assembly in an embodiment;

图2是一实施方式中加热片与固定座连接的正视图；Figure 2 is a front elevational view showing the connection of the heater chip to the holder in an embodiment;

图3是图2加热片的剖面视图；Figure 3 is a cross-sectional view of the heating sheet of Figure 2;

图4是一实施方式中加热片与固定座连接的立体图；Figure 4 is a perspective view showing the connection of the heating sheet and the fixing base in an embodiment;

图5是一实施方式中加热片与固定座分解结构示意图；Figure 5 is a schematic exploded view of the heating sheet and the fixing base in an embodiment;

图6是一实施方式中加热式吸入器的结构示意图；Figure 6 is a schematic view showing the structure of a heated inhaler in an embodiment;

图7是另一实施方式中加热式吸入器的分解结构示意图；Figure 7 is a schematic exploded view of a heated inhaler in another embodiment;

图8是图7中圆圈部分结构的局部放大图； Figure 8 is a partial enlarged view of the structure of the circled portion in Figure 7;

图9是一实施方式中固定座的分解结构以及与加热片安装示意图；9 is a schematic exploded view of the fixing base and a mounting view of the heating piece in an embodiment;

图10是一实施方式中固定座的结构示意图；Figure 10 is a schematic structural view of a fixing base in an embodiment;

图11是一实施方式中固定座的基座和压盖与加热片的装配示意图；Figure 11 is a schematic view showing the assembly of the base of the fixing base and the gland and the heating piece in an embodiment;

图12是一实施方式中加热片装配在基座和压盖之间的剖面示意图；Figure 12 is a cross-sectional view showing the heating sheet assembled between the base and the gland in an embodiment;

图13是一实施方式中温控电路板的电路原理框图。Figure 13 is a circuit block diagram of a temperature control circuit board in an embodiment.

具体实施方式detailed description

为了便于理解本发明，下面将参照相关附图对本发明进行更全面的描述。附图中给出了本发明的较佳实施方式。但是，本发明可以以许多不同的形式来实现，并不限于本文所描述的实施方式。相反地，提供这些实施方式的目的是使对本发明的公开内容理解的更加透彻全面。In order to facilitate the understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the invention are given in the drawings. However, the invention may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be more fully understood.

需要说明的是，当元件被称为“固定于”另一个元件，它可以直接在另一个元件上或者也可以存在居中的元件。当一个元件被认为是“连接”另一个元件，它可以是直接连接到另一个元件或者可能同时存在居中元件。本文所使用的术语“内”、“外”、“左”、“右”以及类似的表述只是为了说明的目的，并不表示是唯一的实施方式。It should be noted that when an element is referred to as being "fixed" to another element, it can be directly on the other element or the element can be present. When an element is considered to be "connected" to another element, it can be directly connected to the other element or. The terms "inner", "outside", "left", "right", and the like, as used herein, are for the purpose of illustration and are not intended to be the only embodiment.

图1示出了本发明一些实施例中的发热组件10，该发热组件10可用于电加热烟具或医疗器械领域使用的吸入式加热器，其包括筒状的壳体11以及设置在壳体11内的固定座14；安装在固定座14上的加热片12。1 shows a heat generating assembly 10 in some embodiments of the present invention that can be used to electrically heat a smoking or smoking device for use in the field of medical devices, including a cylindrical housing 11 and a housing 11 The inner fixing seat 14; the heating piece 12 mounted on the fixing base 14.

壳体11包括内层11a和外层11b，且内层11a和外层11b之间设有空隙。采用双层结构的壳体11具有很好的隔热效果，可以防止加热片12在加热过程中热量传递到壳体11外表面，从而避免烫伤。此外，壳体11上还可设有连接电池组件20的连接结构，整个壳体11可为塑料壳，采用塑胶材料制成，节约成本，使得该加热组件10可以一次性使用。The casing 11 includes an inner layer 11a and an outer layer 11b, and a gap is provided between the inner layer 11a and the outer layer 11b. The housing 11 having a double-layer structure has a good heat insulating effect, and can prevent heat transfer from the heating sheet 12 to the outer surface of the casing 11 during heating, thereby avoiding burns. In addition, the housing 11 can also be provided with a connection structure for connecting the battery assembly 20. The entire housing 11 can be a plastic case and made of a plastic material, which saves cost, so that the heating assembly 10 can be used once.

结合图2和图3，加热片12的一个表面或两个表面涂有气溶胶生成物质层15；该气溶胶生成物质层15经加热后可以产生气体、或气溶胶物质。该气溶胶生成物质层15可以为固体、膏状物、胶状物等。可以理解地，采用这种涂布有气溶胶生成物质层15的加热片12，直接放入加热式吸入器，在加热该加热片12时，可以产生气体或者气溶胶，从而无需额外再在该壳体11内添加其他烟草制品或者药品等气溶胶生成物质，较为方便快捷，且该加热片易于清洗。另外，该加热片12结构简单、成本低，可一次性使用。可以理解地，该加热片12也可以多次使用。2 and 3, one surface or both surfaces of the heating sheet 12 are coated with an aerosol generating substance layer 15; the aerosol generating substance layer 15 is heated to generate a gas or an aerosol substance. The aerosol-generating substance layer 15 may be a solid, a paste, a jelly or the like. Understandably, adopt this The heating sheet 12 coated with the aerosol generating substance layer 15 is directly placed in the heating inhaler, and when the heating sheet 12 is heated, a gas or an aerosol can be generated, so that it is not necessary to additionally add other components to the casing 11. An aerosol-generating substance such as a tobacco product or a drug is relatively convenient and quick, and the heating piece is easy to clean. In addition, the heating sheet 12 has a simple structure and a low cost, and can be used at one time. It can be understood that the heating sheet 12 can also be used multiple times.

如图4所示，该加热片12可用于加热烟草制品或者药品等气溶胶生成物质的吸入式加热器，该加热片12包括加热部121、电连接部122以及气溶胶生成物质层15。其中，加热部121与电连接部122相连；气溶胶生成物质层15涂布在加热部121的表面上。需要说明的是，气溶胶生成物质层15是由烟草制品或者药品等气溶胶生成物质涂布在加热部121表面上所形成的层状结构，也就是说，在一些实施方式中，可以通过烟草制品或者药品等气溶胶生成物质先形成气溶胶生成物质层15，再贴到加热部121的表面上。本实施方式，电连接部122包括正极电连接部和负极电连接部，正极电连接部和负极电连接部间隔地设置在加热部121的底部，以分别与电池组件20的正极和负极电连接。加热部121与电连接部122可以是一体结构，以简化制作工艺，且可以使电流的流向更加稳定。As shown in FIG. 4, the heating sheet 12 can be used for a suction heater for heating an aerosol-generating substance such as a tobacco product or a medicine, and the heating sheet 12 includes a heating portion 121, an electrical connection portion 122, and an aerosol generating material layer 15. The heating portion 121 is connected to the electrical connection portion 122; the aerosol generating material layer 15 is coated on the surface of the heating portion 121. It should be noted that the aerosol-generating material layer 15 is a layered structure formed by coating an aerosol-generating substance such as a tobacco product or a drug on the surface of the heating portion 121, that is, in some embodiments, it can pass through tobacco. The aerosol generating material 15 such as a product or a drug is first formed on the surface of the heating portion 121. In this embodiment, the electrical connection portion 122 includes a positive electrode electrical connection portion and a negative electrode electrical connection portion, and the positive electrode electrical connection portion and the negative electrode electrical connection portion are spaced apart from each other at the bottom of the heating portion 121 to be electrically connected to the positive electrode and the negative electrode of the battery assembly 20, respectively. . The heating portion 121 and the electrical connection portion 122 may be of a unitary structure to simplify the manufacturing process and to make the flow of current more stable.

加热部121呈平坦的片状，方便制造且占用空间小，空间散热均匀。加热部121包括至少一道缝隙结构13，该缝隙结构13用于引导通过加热部121的电流流向而使加热部121发热均匀。可以理解的，缝隙结构13包括至少两道缝隙结构13；该至少两道缝隙结构13包括两道或者N道缝隙结构，该N大于2，这些缝隙结构13将加热部121分隔出N+1个串联的加热单元；且这些缝隙结构13中至少有两道缝隙结构13由加热部121底边向顶边延伸；从而在加热部121的底部形成正极电连接部和负极电连接部The heating portion 121 has a flat sheet shape, is convenient to manufacture, and takes up a small space, and the space is uniformly dissipated. The heating portion 121 includes at least one slit structure 13 for guiding the flow of current through the heating portion 121 to heat the heating portion 121 uniformly. It can be understood that the slot structure 13 includes at least two slot structures 13; the at least two slot structures 13 include two or N-channel slot structures, and the N is greater than two, and the slot structures 13 separate the heating portions 121 by N+1. a heating unit connected in series; and at least two slit structures 13 of the slit structures 13 extend from the bottom edge of the heating portion 121 toward the top edge; thereby forming a positive electrode electrical connection portion and a negative electrode electrical connection portion at the bottom of the heating portion 121

再如图2所示，N道缝隙结构13包括依次排布的第一缝隙结构131、第二缝隙结构132以及第三缝隙结构133，其中，第一缝隙结构131和第三缝隙结构133分别由加热部121的底边朝顶边延伸，第二缝隙结构132由加热部121的顶边向底边延伸。缝隙结构13将加热部121规划成一个规律的串联电路，在电流通过电连接部122流入加热部121时，使得整个加热部121发热均匀，避免与电连接部122相连一端的加热部121在热传导过程中热量损失较远离电连接部122一端的加热部121快，造成加热部121整体发热不均匀。As shown in FIG. 2, the N-channel slit structure 13 includes a first slit structure 131, a second slit structure 132, and a third slit structure 133 which are sequentially arranged, wherein the first slit structure 131 and the third slit structure 133 are respectively The bottom edge of the heating portion 121 extends toward the top edge, and the second slit structure 132 extends from the top edge of the heating portion 121 toward the bottom edge. The slit structure 13 plans the heating portion 121 into a regular series When the current flows through the electrical connection portion 122 into the heating portion 121, the entire heating portion 121 is heated uniformly, and the heating portion 121 at one end connected to the electrical connection portion 122 is prevented from being heated away from the end of the electrical connection portion 122 during heat conduction. The portion 121 is fast, causing uneven heating of the heating portion 121 as a whole.

如图5所示，第一缝隙结构131、第二缝隙结构132以及第三缝隙结构133依次将加热部121分隔成两个第一加热段和至少一个第二加热段，两个第一加热段分别位于第二加热段的两侧，并且与电连接部122相连接，其中，所述第一加热段的宽度小于第二加热段。且该第一加热段的宽度从靠近电连接部122到远离电连接部122的方向上逐渐变宽，也就是说第一加热段在靠近电连接部122到远离电连接部122的方向上电阻值随宽度的变宽而变小，即在第一加热段与电连接部122相连的地方具有较大阻值，热效率高，以此补偿经电连接部122热传导而损失的热量，进而使得第一加热段各部分发热均匀。As shown in FIG. 5, the first slit structure 131, the second slit structure 132, and the third slit structure 133 sequentially divide the heating portion 121 into two first heating segments and at least one second heating segment, and two first heating segments. They are respectively located on both sides of the second heating section and are connected to the electrical connection portion 122, wherein the width of the first heating section is smaller than the second heating section. And the width of the first heating segment is gradually widened from the electrical connection portion 122 to the direction away from the electrical connection portion 122, that is, the first heating segment is in the direction of approaching the electrical connection portion 122 to away from the electrical connection portion 122. The value becomes smaller as the width becomes wider, that is, the first heating section has a larger resistance value at the place where the electrical connection portion 122 is connected, and the thermal efficiency is high, thereby compensating for the heat lost by the heat conduction of the electrical connection portion 122, thereby making the first Each part of the heating section is uniformly heated.

上述实施方式中，该第一加热段包括第一加热单元1211、以及第四加热单元1214，第一加热单元1211与正极电连接部连接，第四加热单元1214与负极电连接部连接。第二加热段包括靠近第一加热单元1211的第二加热单元段1212以及靠近第四加热单元1214的第三加热单元1213；也就是说，所述第二加热单元段1212和所述第三加热单元1213依次串联在所述第一加热单元1211和所述第四加热单元1214之间。在本实施方式中，第一加热单元1211和第四加热单元1214的宽度小于第二加热单元1212和第三加热单元1213的宽度。由于第一加热单元1211和第四加热单元1214位于加热片12的边缘，散热速度快；且由于第一加热单元1211和第四加热单元1214与电连接部122相连，热量因为热传导，损失快。因此，第一加热单元1211和第四加热单元1214被设置为窄点，可以获得有较大的功率。In the above embodiment, the first heating section includes a first heating unit 1211 and a fourth heating unit 1214. The first heating unit 1211 is connected to the positive electrode electrical connection, and the fourth heating unit 1214 is connected to the negative electrical connection. The second heating section includes a second heating unit section 1212 proximate to the first heating unit 1211 and a third heating unit 1213 proximate to the fourth heating unit 1214; that is, the second heating unit section 1212 and the third heating The unit 1213 is sequentially connected in series between the first heating unit 1211 and the fourth heating unit 1214. In the present embodiment, the widths of the first heating unit 1211 and the fourth heating unit 1214 are smaller than the widths of the second heating unit 1212 and the third heating unit 1213. Since the first heating unit 1211 and the fourth heating unit 1214 are located at the edge of the heater chip 12, the heat dissipation speed is fast; and since the first heating unit 1211 and the fourth heating unit 1214 are connected to the electrical connection portion 122, heat is lost due to heat conduction. Therefore, the first heating unit 1211 and the fourth heating unit 1214 are set to a narrow point, and a large power can be obtained.

具体地，第一加热单元1211与第二加热单元1212的宽度比控制在0.5-0.7之间，第四加热单元1214与第三加热单元1213的宽度比也控制在0.5-0.7之间。比如，第一加热单元1211和第四加热单元1214的宽度可设为1.15mm，第二加热单元1212与第三加热单元1213的宽度可设为2.2mm。Specifically, the width ratio of the first heating unit 1211 to the second heating unit 1212 is controlled to be between 0.5 and 0.7, and the width ratio of the fourth heating unit 1214 to the third heating unit 1213 is also controlled to be between 0.5 and 0.7. For example, the widths of the first heating unit 1211 and the fourth heating unit 1214 can be set to 1.15 mm. The width of the second heating unit 1212 and the third heating unit 1213 can be set to 2.2 mm.

在一些实施方式中，第一加热单元1211和第四加热单元1214的宽度沿着加热部121的底边到顶边的方向逐渐增大；也就是说，第一加热单元1211和第四加热单元1214越靠近加热部121的底边部分具有越大的电阻值，即热效率越高，以此补偿第一加热单元1211和第四加热单元1214靠近电连接部122的部分因热传导而损失的热量，进而使得第一加热单元1211和第四加热单元1214各部分发热均匀。具体地，可通过设置不同的第一缝隙结构131和第三缝隙结构133方式来实现。例如，第一缝隙结构131和第三缝隙结构133的宽度相同且向上延伸时渐渐地向第二加热单元1212或第三加热单元1213方向偏移一部分距离；另一种设置方式，第一缝隙结构131和第三缝隙结构133竖直向上延伸且宽度逐渐变小设置。In some embodiments, the widths of the first heating unit 1211 and the fourth heating unit 1214 gradually increase along the direction from the bottom edge to the top side of the heating portion 121; that is, the first heating unit 1211 and the fourth heating unit 1214. The closer to the bottom portion of the heating portion 121, the greater the resistance value, that is, the higher the thermal efficiency, thereby compensating for the heat lost by the heat conduction of the portions of the first heating unit 1211 and the fourth heating unit 1214 close to the electrical connection portion 122, thereby The portions of the first heating unit 1211 and the fourth heating unit 1214 are caused to heat uniformly. Specifically, it can be realized by providing different first slit structures 131 and third slit structures 133. For example, the first slit structure 131 and the third slit structure 133 have the same width and gradually extend toward the second heating unit 1212 or the third heating unit 1213 by a certain distance when extending upward; another arrangement manner, the first slit structure The 131 and third slit structures 133 are vertically extended upward and the width is gradually reduced.

在一些实施方式中，第一缝隙结构131和第三缝隙结构133的宽度大于第二缝隙结构132的宽度。由于第一加热单元1211和第四加热单元1214加热时功率较大，通过第一缝隙结构131和第三缝隙结构133的宽度大于第二缝隙结构132的宽度设置，可以防止第一加热单元1211和第四加热单元1214靠近加热片121内侧的一侧温度过高，从而使得加热部121整体温度更加均匀。具体地，第一缝隙结构131和第三缝隙结构133的宽度与第二缝隙结构132的宽度比控制在1.8-2.2之间。比如，第一缝隙结构131和第三缝隙结构133的宽度取0.1mm，第二缝隙结构132的宽度取0.05mm。In some embodiments, the width of the first slit structure 131 and the third slit structure 133 is greater than the width of the second slit structure 132. Since the first heating unit 1211 and the fourth heating unit 1214 are more powerful when heated, the first heating unit 1211 can be prevented by the width of the first slit structure 131 and the third slit structure 133 being larger than the width of the second slit structure 132. The temperature of the side of the fourth heating unit 1214 near the inner side of the heating sheet 121 is too high, so that the overall temperature of the heating portion 121 is more uniform. Specifically, the ratio of the width of the first slit structure 131 and the third slit structure 133 to the width of the second slit structure 132 is controlled between 1.8 and 2.2. For example, the width of the first slit structure 131 and the third slit structure 133 is 0.1 mm, and the width of the second slit structure 132 is 0.05 mm.

具体地，在一些实施方式，第一加热单元1211和第四加热单元1214宽度取1.15mm，长度取8mm；第二加热单元1212和第三加热单元1213宽度取2.2mm，长度取8mm；第一缝隙结构131和第三缝隙结构133宽度取0.1mm，长度取5.5mm；第二缝隙结构132宽度0.05mm，长度5.5mm；水平部1221宽度取2mm，长度取2mm；垂直部1222宽度取2mm，长度取1.55mm。Specifically, in some embodiments, the first heating unit 1211 and the fourth heating unit 1214 have a width of 1.15 mm and a length of 8 mm; the second heating unit 1212 and the third heating unit 1213 have a width of 2.2 mm and a length of 8 mm; The slit structure 131 and the third slit structure 133 have a width of 0.1 mm and a length of 5.5 mm; the second slit structure 132 has a width of 0.05 mm and a length of 5.5 mm; the horizontal portion 1221 has a width of 2 mm and a length of 2 mm; and the vertical portion 1222 has a width of 2 mm. The length is 1.55mm.

结合图5，固定座14设有供加热部121插置的长条状安装孔140，该安装孔140中设有线性抵接部141，线性抵接部141从安装孔140的一个侧壁面朝相对的另一个侧壁面伸出，以抵压固定加热部121；固定座14还包括一个中心通孔142，中心通孔142与安装孔140相交，也就是说，中心通孔142和安装孔140之间是相连通，这样，加热部121插置在安装孔140时，线性抵接部141可以将加热部121抵接固定在安装孔140内；如图5所示，线性抵接部141位于中心通孔142和安装孔140的交汇处，即中心通孔142的开设使得线性抵接部141之间形成拱形，使得线性抵接部141具有良好的张力性能，提高对加热部121的抵压固定效果。本实施方式中，固定座14可以采用耐高温、不导电材料，例如陶瓷、瓷芯、云母板等。Referring to FIG. 5, the fixing base 14 is provided with an elongated mounting hole 140 for inserting the heating portion 121. The mounting hole 140 is provided with a linear abutting portion 141, and the linear abutting portion 141 faces from one side wall of the mounting hole 140. The opposite side wall surface protrudes to press the fixed heating portion 121; the fixing seat 14 further includes a The central through hole 142 intersects the mounting hole 140, that is, the central through hole 142 and the mounting hole 140 are in communication with each other, so that the heating portion 121 is linearly abutted when being inserted into the mounting hole 140. The portion 141 can abut and fix the heating portion 121 in the mounting hole 140; as shown in FIG. 5, the linear abutting portion 141 is located at the intersection of the central through hole 142 and the mounting hole 140, that is, the opening of the central through hole 142 is linearly abutted. The arches 141 are formed in an arch shape so that the linear abutting portion 141 has good tensile properties, and the pressing and fixing effect on the heating portion 121 is improved. In the present embodiment, the fixing base 14 can be made of a high temperature resistant, non-conductive material such as ceramic, ceramic core, mica board or the like.

再结合图4，在一些实施方式中，电连接部122包括水平部1221和垂直部1222；水平部1221连接在加热部121和垂直部1222之间，且与加热部121位于同一平面上；垂直部1222垂直于水平部1221；水平部1221与壳体11的轴向平行，垂直部1222与壳体11的轴向垂直；加热部121安装在固定座14上时，水平部1221固定在线性抵接部141上，垂直部1222与固定座14底部贴合。4, in some embodiments, the electrical connection portion 122 includes a horizontal portion 1221 and a vertical portion 1222; the horizontal portion 1221 is connected between the heating portion 121 and the vertical portion 1222 and is located on the same plane as the heating portion 121; The portion 1222 is perpendicular to the horizontal portion 1221; the horizontal portion 1221 is parallel to the axial direction of the casing 11, and the vertical portion 1222 is perpendicular to the axial direction of the casing 11; when the heating portion 121 is mounted on the fixing seat 14, the horizontal portion 1221 is fixed to the linearity On the connecting portion 141, the vertical portion 1222 is attached to the bottom of the fixing base 14.

结合图7和图8所示，在一些实施方式中，固定座14包括基座143和压盖144，压盖144上开设有插槽1441，电连接部122的水平部1221穿过插槽1441，并将垂直部1222固定于基座143和压盖144之间，从而将加热片12的加热部121固定住。本实施方式中，由于垂直部1222被固定在基座143和压盖144之间，因此，垂直部1222处于基座143的上表面143a上，此时，在基座143的上表面143a上设置凸起1431，凸起1431的位置与垂直部1222相对，在固定加热片12时，凸起1431可以将垂直部1222抵压在压盖144上，以防止垂直部1222在基座143和压盖144之间移动，提高加热片12的安装稳定性。As shown in FIG. 7 and FIG. 8 , in some embodiments, the fixing base 14 includes a base 143 and a pressing cover 144 . The pressing cover 144 defines a slot 1441 , and the horizontal portion 1221 of the electrical connecting portion 122 passes through the slot 1441 . The vertical portion 1222 is fixed between the base 143 and the gland 144 to fix the heating portion 121 of the heater chip 12. In the present embodiment, since the vertical portion 1222 is fixed between the base 143 and the gland 144, the vertical portion 1222 is on the upper surface 143a of the base 143, and at this time, the upper surface 143a of the base 143 is provided. The protrusion 1431 has a position of the protrusion 1431 opposite to the vertical portion 1222. When the heater chip 12 is fixed, the protrusion 1431 can press the vertical portion 1222 against the cover 144 to prevent the vertical portion 1222 from being on the base 143 and the gland. Movement between 144 improves the mounting stability of the heater chip 12.

结合图9至图12所示，在一些实施方式中，基座143和压盖144之间可以采用卡扣连接进行固定。具体的，基座143的上表面143a上设有卡扣1432，相应的，在压盖144上设有与该卡扣1432配合的扣槽1442。在固定加热片12时，可以将电连接部122的水平部1221穿过压盖144上的插槽1441，然后弯折该电连接部122穿过插槽1441的部分，即形成垂直部1222。将压盖 144卡扣固定在基座143上时，垂直部1222便被夹持在凸起1431和压盖144之间。需要说明的是，基座143和压盖144之间不仅可以采用上述的卡扣连接方式进行固定，还可以采用螺纹旋合等其它可拆卸连接的方式进行固定。9 to 12, in some embodiments, the base 143 and the gland 144 may be secured by a snap connection. Specifically, the upper surface 143a of the base 143 is provided with a buckle 1432. Correspondingly, the buckle 144 is provided with a buckle groove 1442 that cooperates with the buckle 1432. When the heater chip 12 is fixed, the horizontal portion 1221 of the electrical connection portion 122 can be passed through the slot 1441 on the cover 144, and then the portion of the electrical connection portion 122 passing through the slot 1441 can be bent, that is, the vertical portion 1222 is formed. Gland When the 144 clip is fixed to the base 143, the vertical portion 1222 is sandwiched between the projection 1431 and the cover 144. It should be noted that the base 143 and the gland 144 can be fixed not only by the above-mentioned snap connection method, but also by other detachable connection such as screwing.

上述实施方式中，垂直部1222不仅可以设置在加热部121的同侧，还可以设置在加热部121的不同侧，如图9所示，垂直部1222位于加热部121的两边，即，垂直部1222错开布置在基座143上，从而增大垂直部1222之间的距离，方便在垂直部1222的下方设置电性触点来导通加热部121。当然，这样设置也会相应增加固定座14对加热片12固定的稳定性，位于不同侧的垂直部1222在凸起1431的作用下分别在抵压在压盖144上，使得加热片12两侧的受力均匀，从而避免了加热片12倾向一侧。In the above embodiment, the vertical portion 1222 may be disposed not only on the same side of the heating portion 121 but also on different sides of the heating portion 121. As shown in FIG. 9, the vertical portion 1222 is located on both sides of the heating portion 121, that is, the vertical portion. The 1222 is staggered on the pedestal 143 to increase the distance between the vertical portions 1222, and it is convenient to provide an electrical contact under the vertical portion 1222 to turn on the heating portion 121. Of course, such an arrangement also increases the stability of the fixing block 14 to the fixing of the heating piece 12, and the vertical portions 1222 located on different sides are respectively pressed against the pressing cover 144 by the protrusions 1431, so that the heating sheets 12 are both sides. The force is evenly distributed, thereby avoiding the heating sheet 12 from leaning toward one side.

如图6所示，另一实施方式的加热式吸入器，包括电池组件20以及加热组件10；加热组件10与电池组件20可拆卸地连接。As shown in FIG. 6, a heated inhaler of another embodiment includes a battery assembly 20 and a heating assembly 10; the heating assembly 10 is detachably coupled to the battery assembly 20.

电池组件20包括电池壳体21、电池22以及两个导电结构23，电池22安装在电池壳体21内，两个导电结构23分别与该电池的正极和负极电连接，同时，两个导电结构23分别与加热组件10的加热片12的正极电连接部和负极电连接部电连接；从而实现加热片12与电池22之间的电性连接。The battery assembly 20 includes a battery case 21, a battery 22, and two conductive structures 23. The battery 22 is mounted in the battery case 21, and the two conductive structures 23 are electrically connected to the positive and negative terminals of the battery, respectively. Meanwhile, the two conductive structures 23 is electrically connected to the positive electrode electrical connection portion and the negative electrode electrical connection portion of the heating sheet 12 of the heating assembly 10, respectively, thereby achieving electrical connection between the heating sheet 12 and the battery 22.

导电结构23包括导电柱231、触头232、弹簧233。触头232安装在导电柱231内并从导电柱231的顶部露出；所述弹簧233设置在所述导电柱231上而将所述触头232抵向所述加热组件10，从而在加热组件10和电池组件20连接时，弹簧可以将触头232抵接在加热片12的电连接部122上，使得加热组件10上的电连接部122与导电结构23更充分地接触，保证电池22向加热片12供电的稳定性。The conductive structure 23 includes a conductive post 231, a contact 232, and a spring 233. The contact 232 is mounted within the conductive post 231 and exposed from the top of the conductive post 231; the spring 233 is disposed on the conductive post 231 to abut the contact 232 against the heating assembly 10 such that the heating assembly 10 When connected to the battery assembly 20, the spring can abut the contact 232 on the electrical connection portion 122 of the heating pad 12, so that the electrical connection portion 122 on the heating assembly 10 is more fully in contact with the conductive structure 23, ensuring that the battery 22 is heated. The stability of the chip 12 power supply.

此外，电池组件20上还包括气流量调节组件，该气流量调节组件包括环状连接件，该环状连接件可以安装在电池壳体21上，且环状连接件上开设有通气孔；在环状连接件上滑动装配控制阀门，以调节通气孔大小，进而实现气流量的调节。需要说明的是，一方面，气流量调节组件可根据用户需求调节气体通入量，增加用户体验感；另一方面，由于电池组件20的结构复杂且使用寿命远远大于加热组件10的使用寿命，也就是说，一个电池组件20往往可以搭配多个加热组件10使用，将气流量调节组件设置在电池组件20上，而没有设置在加热组件10上，从而可以避免气流量调节组件随加热组件10一起报废，进而降低使用成本。此外，本实施方式中，整个加热组件是一次性使用消耗品，因此，也不存在清洁等问题。In addition, the battery assembly 20 further includes a gas flow regulating component including an annular connecting member, the annular connecting member being mountable on the battery case 21, and the annular connecting member is provided with a vent hole; The annular connecting member slides the assembly control valve to adjust the size of the vent hole, thereby adjusting the air flow. It should be noted that, on the one hand, the gas flow regulating component can adjust the gas inlet amount according to the user's demand, thereby increasing the user experience; on the other hand, the structure of the battery component 20 is complicated and The service life is much greater than the service life of the heating assembly 10, that is, one battery assembly 20 can often be used with a plurality of heating assemblies 10, and the air flow adjustment assembly is disposed on the battery assembly 20 without being disposed on the heating assembly 10. Therefore, it is possible to prevent the air flow regulating component from being scrapped together with the heating component 10, thereby reducing the use cost. Further, in the present embodiment, the entire heating unit is a disposable consumable, and therefore, there is no problem such as cleaning.

结合图7至9所示，在另一些实施方式中，导电结构23还包括导柱安装座210，触头232安装在导柱安装座210内，将导柱安装座210连接在电池壳体21靠近加热组件10的一端，可以理解的，触头232从导柱安装座210面向加热片12的一端露出，以在加热组件10安装在电池组件20上时，触头232可以与加热组件10的加热片12相抵接，进而实现加热片12和电池22的电性连接。可以理解的，在本实施方式中，弹簧233可以设置在触头232和导柱安装座210之间，以在加热组件10和电池组件20装配时，弹簧233可以将触头232抵向加热片12的电连接部122，以保障触头232与加热片12之间良好的电性接触，进而确保电池22有效的向加热片12的供电。7 to 9, in other embodiments, the conductive structure 23 further includes a pillar mounting seat 210, the contact 232 is mounted in the pillar mounting seat 210, and the pillar mounting seat 210 is coupled to the battery housing 21. Adjacent to one end of the heating assembly 10, it will be appreciated that the contact 232 is exposed from one end of the post mounting bracket 210 facing the heater chip 12 such that the contact 232 can be coupled to the heating assembly 10 when the heating assembly 10 is mounted on the battery assembly 20. The heater chip 12 abuts, thereby electrically connecting the heater chip 12 and the battery 22. It can be understood that in the present embodiment, the spring 233 can be disposed between the contact 232 and the post mounting seat 210 to bias the contact 232 against the heating pad when the heating assembly 10 and the battery assembly 20 are assembled. The electrical connection portion 122 of the 12 ensures good electrical contact between the contact 232 and the heater chip 12, thereby ensuring efficient supply of power to the heater chip 12 by the battery 22.

结合图13所示，上述实施方式中，加热式吸入器还包括温控电路板30，温控电路板30电性连接在加热片12与电池22之间，以采集加热片12的温度并根据采集的温度对加热片12进行温度调节控制。本实施方式中，加热片12采用电阻温度系数的材料制成，这样，加热片12的电阻值会随温度变化，相应的，可以根据加热片12的电阻值来确定加热片12的温度，具体的，温控电路板30包括电压测量模块31、电流测量模块32和控制模块33，需要说明的是，电压测量模块31和电流测量模块32分别测量加热片12的电压和电流，从而可以测得加热片12的电阻值，以确定加热片12的温度，控制模块33根据该温度对电池22的输出功率进行调节，以对加热片12的温度进行调控。比如，当加热片12的温度高于预设温度范围时，则降低电池22的输出功率，进而降低加热片12的发热效率并恢复至预设温度；当加热片12的温度低于预设温度范围时，则提高电池22的输出功率，进而提高加热片12的发热效率并恢复至预设温度。需要说明的是，预设温度是使用该加热式吸入器时的设置温度，也就是说，根据不同的需要，可以将预设温度设置成某一个特定的温度，也可以将预设温度设置成一定的温度范围，这里不再一一赘述。As shown in FIG. 13 , in the above embodiment, the heated inhaler further includes a temperature control circuit board 30 electrically connected between the heating sheet 12 and the battery 22 to collect the temperature of the heating sheet 12 according to The collected temperature is subjected to temperature adjustment control of the heater chip 12. In the present embodiment, the heating sheet 12 is made of a material having a temperature coefficient of resistance, such that the resistance value of the heating sheet 12 varies with temperature, and accordingly, the temperature of the heating sheet 12 can be determined according to the resistance value of the heating sheet 12, specifically The temperature control circuit board 30 includes a voltage measurement module 31, a current measurement module 32, and a control module 33. It should be noted that the voltage measurement module 31 and the current measurement module 32 respectively measure the voltage and current of the heater chip 12, thereby being measurable. The resistance value of the sheet 12 is heated to determine the temperature of the heater chip 12, and the control module 33 adjusts the output power of the battery 22 according to the temperature to regulate the temperature of the heater chip 12. For example, when the temperature of the heater chip 12 is higher than the preset temperature range, the output power of the battery 22 is lowered, thereby reducing the heat generation efficiency of the heater chip 12 and returning to the preset temperature; when the temperature of the heater chip 12 is lower than the preset temperature In the range, the output power of the battery 22 is increased, thereby improving the heat generation efficiency of the heater chip 12 and returning to the preset temperature. It should be noted that the preset temperature is to be inhaled using the heating type. The setting temperature of the device, that is, according to different needs, the preset temperature can be set to a certain temperature, or the preset temperature can be set to a certain temperature range, which will not be repeated here.

上述实施方式中，电压测量模块31可以通过感测触头220与加热片12的电连接部122并联连接，以测量加热片12两端的电压；电流测量模块可以通过触头232串联在加热片12上，以测量经过加热片12的电流，需要说明的是，在本实施方式中，电流测量模块32两端的引脚AB是串联在加热片12和电池22之间，因此经过引脚AB的电流较大，也就是说，如果在引脚AB对加热片12的电压进行测量，该测得电压值就会包括引脚AB与加热片12之间电压，即在引脚AB上测得的电压跟加热片12两端的电压会存在较大的差值，相应的，以引脚AB计算得到的加热片12阻值跟实际加热片12的阻值会偏差很大，难以准确的控制加热片12的温度。为了避免加热片12两端测量电压的误差对温度控制的影响，在本实施方式中，感测触头220抵接在电连接部122的垂直部1222上，也就是说，感测触头220是将电压测量模块31直接并联在加热片12的两端，因此，在电压测量模块31两端的引脚CD之间的几乎没有电流经过，使得电压测量模块31所测得的电压值接近加热片12两端的电压值，以此电压值所算得的加热片12的阻值也会比较准确，相应的，控制模块33可以根据电压测量模块31所测得的电压值以及电流测量模块32所测得的电流值准确的控制加热片12的温度。In the above embodiment, the voltage measuring module 31 can be connected in parallel with the electrical connection portion 122 of the heating pad 12 through the sensing contact 220 to measure the voltage across the heating pad 12; the current measuring module can be connected in series to the heating pad 12 through the contact 232. In order to measure the current passing through the heating pad 12, it should be noted that in the present embodiment, the pin AB at both ends of the current measuring module 32 is connected in series between the heating pad 12 and the battery 22, so the current through the pin AB Larger, that is, if the voltage of the heater chip 12 is measured at the pin AB, the measured voltage value includes the voltage between the pin AB and the heater chip 12, that is, the voltage measured at the pin AB. There is a large difference between the voltages at both ends of the heater chip 12. Correspondingly, the resistance of the heater chip 12 calculated by the pin AB is greatly deviated from the resistance of the actual heater chip 12, and it is difficult to accurately control the heater chip 12 temperature. In order to avoid the influence of the error of the measured voltage across the heating sheet 12 on the temperature control, in the present embodiment, the sensing contact 220 abuts on the vertical portion 1222 of the electrical connection portion 122, that is, the sensing contact 220 The voltage measuring module 31 is directly connected in parallel at both ends of the heating sheet 12, so that almost no current flows between the pins CD at both ends of the voltage measuring module 31, so that the voltage value measured by the voltage measuring module 31 is close to the heating sheet. The voltage value at both ends of the 12, the resistance value of the heater chip 12 calculated by the voltage value is also relatively accurate. Accordingly, the control module 33 can be measured according to the voltage value measured by the voltage measuring module 31 and the current measuring module 32. The current value accurately controls the temperature of the heater chip 12.

在一些实施方式中，在感测触头220的下方可以设置弹性件，以将感测触头220抵压在电连接部122的垂直部1222上，实现良好的电性接触。在本实施方式中，弹性件可以是弹簧，也可以是弹性材料制成的弹性棒或弹性杆。需要说明的是，感测触头220和触头232均是通过抵接在加热片12的电连接部122来实现电接触，因此，感测触头220也可以相应的设置在导柱安装座210内并从导柱安装座210面向加热片12的一端露出，以便将加热组件10安装在电池组件20上时，导柱安装座210与加热组件10中的固定座14相配合，进而将导柱安装座210上的触头232和感测触头220同时抵接在安装在固定座14上的加热片12上，使得装配更为简便。In some embodiments, an elastic member may be disposed under the sensing contact 220 to press the sensing contact 220 against the vertical portion 1222 of the electrical connection portion 122 to achieve good electrical contact. In the present embodiment, the elastic member may be a spring or an elastic rod or an elastic rod made of an elastic material. It should be noted that both the sensing contact 220 and the contact 232 are electrically contacted by abutting the electrical connection portion 122 of the heating pad 12, and therefore, the sensing contact 220 can also be correspondingly disposed on the column mounting seat. The inside of the 210 is exposed from the end of the pillar mounting seat 210 facing the heater chip 12, so that when the heating assembly 10 is mounted on the battery assembly 20, the pillar mounting seat 210 cooperates with the fixing seat 14 in the heating assembly 10, thereby guiding The contact 232 and the sensing contact 220 on the post mount 210 are simultaneously abutted at the mounting The heating piece 12 on the fixing seat 14 makes assembly easier.

需要说明的是，导柱安装座210与固定座14的配合可以采用多种形式，比如插接或卡扣等可拆卸方式，还是采用磁吸的方式将导柱安装座210吸附在固定座14上，以将触头232和感测触头220抵接在加热片12的电连接部122上。It should be noted that the cooperation between the pillar mounting seat 210 and the fixing base 14 can take various forms, such as a detachable manner such as plugging or snapping, or magnetically attracting the pillar mounting seat 210 to the fixing seat 14 The contact 232 and the sensing contact 220 are abutted on the electrical connection portion 122 of the heater chip 12.

具体的，结合图10至图12所示，在一些实施方式中，基座143具有上表面143a，基座143的下方设有中空槽腔143b，且基座143上沿基座143的轴向开设有贯孔1433；贯孔1433由中空槽腔143b的顶部贯穿上表面143a，在本实施方式中，导柱安装座210插设于中空腔槽143b内，使得触头232和感测触头220穿过贯孔1433而从基座143的上表面143a露出，以便触头232和感测触头220可以与加热片12的电连接部122相抵接，以实现电池22与加热片12的电性连接以及温控电路板30与加热片12的电性连接，需要说明的是，温控电路板30中的控制模块33连接在电池22与加热片12的电性回路上以控制电池22向加热片12的输出功率，进而实现对加热片12的稳定进行调控。Specifically, in conjunction with FIG. 10 to FIG. 12, in some embodiments, the base 143 has an upper surface 143a, a lower hollow portion 143b is disposed under the base 143, and the base 143 is disposed along the axial direction of the base 143. The through hole 1433 is opened through the top surface 143a of the hollow cavity 143b. In the embodiment, the column mounting seat 210 is inserted into the hollow cavity 143b, so that the contact 232 and the sensing contact are 220 passes through the through hole 1433 and is exposed from the upper surface 143a of the base 143, so that the contact 232 and the sensing contact 220 can abut the electrical connection portion 122 of the heater chip 12 to realize the electricity of the battery 22 and the heater chip 12. The electrical connection between the temperature control circuit board 30 and the heater chip 12 is described. The control module 33 in the temperature control circuit board 30 is connected to the electrical circuit of the battery 22 and the heater chip 12 to control the battery 22 direction. The output power of the heating sheet 12 is further controlled to stabilize the heating sheet 12.

以上所述实施例的各技术特征可以进行任意的组合，为使描述简洁，未对上述实施方式中的各个技术特征所有可能的组合都进行描述，然而，只要这些技术特征的组合不存在矛盾，都应当认为是本说明书记载的范围。The technical features of the above-described embodiments may be combined in any combination. For the sake of brevity of description, all possible combinations of the technical features in the above embodiments are not described. However, as long as there is no contradiction between the combinations of these technical features, All should be considered as the scope of this manual.

以上所述实施例仅表达了本发明的几种实施方式，其描述较为具体和详细，但并不能因此而理解为对发明专利范围的限制。应当指出的是，对于本领域的普通技术人员来说，在不脱离本发明构思的前提下，还可以做出若干变形和改进，这些都属于本发明的保护范围。因此，本发明专利的保护范围应以所附权利要求为准。 The above-described embodiments are merely illustrative of several embodiments of the present invention, and the description thereof is more specific and detailed, but is not to be construed as limiting the scope of the invention. It should be noted that a number of variations and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. Therefore, the scope of the invention should be determined by the appended claims.

Claims

一种加热组件，用于加热式吸入器，所述加热组件包括壳体(11)、加热片(12)、固定座(14)和气溶胶生成物质层(15)；所述壳体(11)呈筒状，所述固定座(14)设置在所述壳体(11)内，所述加热片(12)可拆卸地安装在所述固定座(14)上；所述加热片(12)包括加热部(121)和电连接部(122)；所述加热部(121)与所述电连接部(122)为一体结构；所述气溶胶生成物质层(15)涂覆在所述加热片(12)表面上；所述加热部(121)和电连接部(122)相连接，且所述加热部(121)包括至少一道缝隙结构(13)，以引导通过所述加热部(121)的电流流向而使加热部(121)发热均匀。A heating assembly for a heated inhaler, the heating assembly comprising a housing (11), a heating sheet (12), a fixing seat (14) and an aerosol generating substance layer (15); the housing (11) In a cylindrical shape, the fixing seat (14) is disposed in the housing (11), and the heating piece (12) is detachably mounted on the fixing seat (14); the heating piece (12) A heating portion (121) and an electrical connection portion (122) are included; the heating portion (121) is integral with the electrical connection portion (122); the aerosol generating substance layer (15) is coated on the heating On the surface of the sheet (12); the heating portion (121) is connected to the electrical connection portion (122), and the heating portion (121) includes at least one slit structure (13) for guiding through the heating portion (121) The current flows to make the heating portion (121) heat evenly.
根据权利要求1所述的加热组件，其特征在于，所述加热部(121)包括至少两道缝隙结构(13)，所述至少两道缝隙结构(13)将加热部(121)分隔为两个第一加热段和至少一个第二加热段；两个所述第一加热段分别位于所述第二加热段的两侧且与所述电连接部(122)相连接，所述第一加热段的宽度小于第二加热段。The heating assembly according to claim 1, wherein said heating portion (121) comprises at least two slit structures (13), said at least two slit structures (13) separating the heating portion (121) into two a first heating section and at least one second heating section; two of the first heating sections are respectively located at two sides of the second heating section and connected to the electrical connection portion (122), the first heating The width of the segment is smaller than the second heating segment.
根据权利要求2所述的加热组件，其特征在于，所述第一加热段的宽度从靠近所述电连接部(122)到远离所述电连接部(122)的方向上逐渐变宽。The heating assembly of claim 2 wherein the width of said first heating section tapers from a direction adjacent said electrical connection (122) to a distance away from said electrical connection (122).
根据权利要求2所述的加热组件，其特征在于，所述电连接部(122)包括正极电连接部和负极电连接部，所述正极电连接部和所述负极电连接部间隔设置于所述第一加热段的底部，以分别与电池组件(20)的正极和负极电连接。The heating assembly according to claim 2, wherein the electrical connection portion (122) comprises a positive electrode electrical connection portion and a negative electrode electrical connection portion, and the positive electrode electrical connection portion and the negative electrode electrical connection portion are spaced apart from each other The bottom of the first heating section is electrically connected to the positive and negative electrodes of the battery assembly (20), respectively.
根据权利要求4所述的加热组件，其特征在于，所述至少两道缝隙结构(13)包括N道缝隙结构(13)，其中，N大于2；所述N道缝隙结构(13)将所述加热部(121)分隔出N+1个串联的加热单元；且所述N道缝隙结构(13)中至少有两道缝隙结构(13)由所述加热部(121)底边向顶边延伸。The heating assembly according to claim 4, wherein said at least two slit structures (13) comprise N-way slit structures (13), wherein N is greater than 2; said N-channel slit structure (13) The heating portion (121) separates N+1 heating units connected in series; and at least two slit structures (13) in the N-channel slit structure (13) are from the bottom edge of the heating portion (121) to the top edge extend.
根据权利要求5所述的加热组件，其特征在于，所述N道缝隙结构(13)包括依次排布的第一缝隙结构(131)、第二缝隙结构(132)以及第三缝隙结构(133)，其中，第一缝隙结构(131)和第三缝隙结构(133)分别由所述加热部的底边朝顶边延伸，所述第二缝隙结构(132)由所述加热部(121)的顶边向底边延伸；所述第一缝隙结构(131)和第三缝隙结构(133)的宽度大于所述第二缝隙结构(132)的宽度。The heating assembly according to claim 5, wherein said N-way slit structure (13) comprises a first slit structure (131), a second slit structure (132), and a third layer which are sequentially arranged. a slit structure (133), wherein the first slit structure (131) and the third slit structure (133) respectively extend from a bottom edge of the heating portion toward a top edge, and the second slit structure (132) is heated by the heating The top edge of the portion (121) extends toward the bottom edge; the width of the first slit structure (131) and the third slit structure (133) is greater than the width of the second slit structure (132).
根据权利要求6所述的加热组件，其特征在于，所述第一缝隙结构(131)、第二缝隙结构(132)以及第三缝隙结构(133)将所述加热部(121分隔为第一加热单元(1211)、第二加热单元段(1212)、第三加热单元(1213)和第四加热单元(1214)；其中，所述第一加热单元(1211)与所述正极电连接部连接，所述第四加热单元(1214)与所述负极电连接部连接；所述第二加热单元段(1212)和所述第三加热单元(1213)依次串联在所述第一加热单元(1211)和所述第四加热单元(1214)之间；且所述第一加热单元(1211)和所述第四加热单元(1214)的宽度小于所述第二加热单元(1212)和所述第三加热单元(1213)的宽度。The heating assembly according to claim 6, wherein said first slit structure (131), second slit structure (132), and third slit structure (133) separate said heating portion (121 into first a heating unit (1211), a second heating unit section (1212), a third heating unit (1213), and a fourth heating unit (1214); wherein the first heating unit (1211) is connected to the positive electrical connection The fourth heating unit (1214) is connected to the negative electrode electrical connection portion; the second heating unit segment (1212) and the third heating unit (1213) are sequentially connected in series to the first heating unit (1211) And the fourth heating unit (1214); and the widths of the first heating unit (1211) and the fourth heating unit (1214) are smaller than the second heating unit (1212) and the The width of the three heating unit (1213).
根据权利要求1所述的加热组件，其特征在于，所述加热部(121)呈平坦的片状；所述固定座(14)设有安装孔(140)，所述安装孔(140)呈长条状，以供所述加热部(121)插设在固定座(14)上；所述安装孔(140)中设有线性抵接部(141)，所述线性抵接部(141)从所述安装孔(140)的一个侧壁面朝相对的另一个侧壁面伸出，以抵压固定所述加热部(121)。The heating assembly according to claim 1, wherein the heating portion (121) has a flat sheet shape; the fixing base (14) is provided with a mounting hole (140), and the mounting hole (140) is a strip shape for inserting the heating portion (121) on the fixing seat (14); a linear abutting portion (141) is disposed in the mounting hole (140), and the linear abutting portion (141) Projecting from one side wall surface of the mounting hole (140) toward the opposite side wall surface to press and fix the heating portion (121).
根据权利要求8所述的加热组件，其特征在于，所述固定座(14)还包括一个中心通孔(142)，所述中心通孔(142)与所述安装孔(140)相交。The heating assembly of claim 8 wherein said mount (14) further includes a central through bore (142) that intersects said mounting aperture (140).
根据权利要求9所述的加热组件，其特征在于，所述电连接部(122)包括水平部(1221)和垂直部(1222)；The heating assembly according to claim 9, wherein said electrical connection portion (122) comprises a horizontal portion (1221) and a vertical portion (1222);

所述水平部(1221)连接在所述加热部(121)和所述垂直部(1222)之间，且与所述加热部(121)位于同一平面上；The horizontal portion (1221) is connected between the heating portion (121) and the vertical portion (1222), and is located on the same plane as the heating portion (121);

所述垂直部(1222)垂直于所述水平部(1221)；The vertical portion (1222) is perpendicular to the horizontal portion (1221);

所述水平部(1221)与所述壳体(11)的轴向平行，所述垂直部(1222)与所述壳体(11)的轴向垂直； The horizontal portion (1221) is parallel to an axial direction of the casing (11), and the vertical portion (1222) is perpendicular to an axial direction of the casing (11);

所述加热片(12)安装在所述固定座(14)上时，所述水平部(1221)固定在所述线性抵接部(141)，所述垂直部(1222)与所述固定座(14)底部贴合。When the heater chip (12) is mounted on the fixing base (14), the horizontal portion (1221) is fixed to the linear abutting portion (141), the vertical portion (1222) and the fixing seat (14) Bottom fit.
根据权利要求1所述的加热组件，其特征在于，所述壳体(11)包括塑料壳。The heating assembly of claim 1 wherein said housing (11) comprises a plastic housing.
根据权利要求1所述的加热组件，其特征在于，所述壳体(11)包括内层(11a)和外层(11b)，所述内层(11a)与外层(11b)之间留有空隙。Heating assembly according to claim 1, characterized in that the housing (11) comprises an inner layer (11a) and an outer layer (11b), leaving between the inner layer (11a) and the outer layer (11b) There are gaps.
一种加热式吸入器，其特征在于，包括电池组件(20)以及如权利要求1-12任一项所述的加热组件(10)；所述加热组件(10)与所述电池组件(20)可拆卸地连接；所述电池组件(20)包括电池壳体(21)、电池(22)和两个导电结构(23)；所述电池(22)安装在所述电池壳体(21)内，所述加热组件(10)的加热片(12)的电连接部(122)通过所述两个导电结构(23)分别与所述电池(22)的正极和负极电连接。A heated inhaler comprising a battery assembly (20) and a heating assembly (10) according to any one of claims 1-12; the heating assembly (10) and the battery assembly (20) Removably connected; the battery assembly (20) includes a battery case (21), a battery (22), and two conductive structures (23); the battery (22) is mounted on the battery case (21) The electrical connection portion (122) of the heating sheet (12) of the heating assembly (10) is electrically connected to the positive and negative electrodes of the battery (22) through the two conductive structures (23), respectively.
根据权利要求13所述的加热式吸入器，其特征在于，所述导电结构(23)包括导电柱(231)、触头(232)和弹簧(233)；所述触头(232)安装在所述导电柱(231)内并从所述导电柱(231)的顶部露出；所述弹簧(233)设置在所述导电柱(231)上而将所述触头(232)抵向所述加热组件(10)，以使所述触头(232)与所述加热片(12)的电连接部(122)相抵接。The heated inhaler of claim 13 wherein said electrically conductive structure (23) comprises a conductive post (231), a contact (232) and a spring (233); said contact (232) being mounted The conductive pillar (231) is exposed from the top of the conductive pillar (231); the spring (233) is disposed on the conductive pillar (231) to abut the contact (232) The assembly (10) is heated to abut the contact (232) with the electrical connection (122) of the heater chip (12).
一种加热式吸入器，其特征在于，包括电池组件(20)以及如权利要求1-12任一项所述的加热组件(10)；所述加热片(12)采用电阻温度系数的材料制成，所述电池组件(20)包括电池(22)以及温控电路板，且所述电池组件(20)上设有感测触头(220)，所述温控电路板(30)包括电压测量模块(31)、电流测量模块(32)和控制模块(33)，所述电压测量模块(31)通过所述感测触头(220)测量加热片(12)两端电压，所述电流测量模块(32)用于测量流经所述加热片(12)的电流；所述控制模块(33)用于调节所述电池(22)的输出功率。A heated inhaler, comprising: a battery assembly (20) and the heating assembly (10) according to any one of claims 1 to 12; the heating sheet (12) is made of a material having a temperature coefficient of resistance The battery assembly (20) includes a battery (22) and a temperature control circuit board, and the battery assembly (20) is provided with a sensing contact (220), and the temperature control circuit board (30) includes a voltage. a measuring module (31), a current measuring module (32) and a control module (33), wherein the voltage measuring module (31) measures a voltage across the heating pad (12) through the sensing contact (220), the current A measurement module (32) is used to measure current flowing through the heater chip (12); the control module (33) is used to regulate the output power of the battery (22).
根据权利要求15所述的加热式吸入器，其特征在于，所述电池组件 (20)还包括导柱安装座(210)，所述感测触头(220)安装在所述导柱安装座(210)内，且所述感测触头(220)从所述导柱安装座(210)面向所述加热片(12)的一端露出，所述导柱安装座(210)连接在所述电池组件(20)靠近所述加热组件(10)的一端，以将所述感测触头(220)抵接在所述加热片(12)的电连接部(122)上。The heated inhaler according to claim 15, wherein said battery assembly (20) further includes a pillar mount (210), the sensing contact (220) is mounted in the pillar mount (210), and the sensing contact (220) is from the pillar A mounting seat (210) is exposed at one end of the heating plate (12), and the pillar mounting seat (210) is coupled to an end of the battery assembly (20) adjacent to the heating assembly (10) to The sensing contact (220) abuts on the electrical connection (122) of the heater chip (12).
根据权利要求16所述的加热式吸入器，其特征在于，所述导电结构(23)包括触头(232)和导柱安装座(210)，所述触头(232)安装在所述导柱安装座210内，且所述触头(232)从所述导柱安装座(210)面向所述加热片(12)的一端露出，所述导柱安装座(210)连接在所述电池组件(20)靠近所述加热组件(10)的一端，以将所述触头(232)抵接在加热片(12)的电连接部(122)上而实现所述电池(22)与所述加热片(12)电性连接。The heated inhaler of claim 16 wherein said electrically conductive structure (23) includes a contact (232) and a post mounting seat (210), said contact (232) being mounted on said guide Inside the post mount 210, and the contact (232) is exposed from the guide post mount (210) facing one end of the heating pad (12), the post mount (210) is connected to the battery The component (20) is adjacent to one end of the heating assembly (10) to abut the contact (232) on the electrical connection portion (122) of the heating sheet (12) to realize the battery (22) and the The heating piece (12) is electrically connected.
根据权利要求17所述的加热式吸入器，其特征在于，所述固定座(14)包括基座(143)，所述基座(143)具有上表面(143a)，所述基座(143)的下方设有中空槽腔(143b)，且所述基座(143)上沿所述基座(143)的轴向开设有贯孔(1433)；所述贯孔(1433)由所述中空槽腔(143b)的顶部贯穿所述上表面(143a)，所述导柱安装座(210)插设于所述中空腔槽(143b)内，以使所述触头(232)和所述感测触头(220)穿过所述贯孔(1433)而从基座(143)的上表面(143a)露出。 A heated inhaler according to claim 17, wherein said mount (14) includes a base (143) having an upper surface (143a), said base (143) a hollow cavity (143b) is disposed under the base, and a through hole (1433) is defined in the base (143) along the axial direction of the base (143); the through hole (1433) is The top of the hollow cavity (143b) penetrates the upper surface (143a), and the pillar mounting seat (210) is inserted into the hollow cavity (143b) to make the contact (232) and the The sensing contact (220) is exposed through the through hole (1433) from the upper surface (143a) of the base (143).