TWI784888B - Heating assembly - Google Patents

Heating assembly Download PDF

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Publication number
TWI784888B
TWI784888B TW111107359A TW111107359A TWI784888B TW I784888 B TWI784888 B TW I784888B TW 111107359 A TW111107359 A TW 111107359A TW 111107359 A TW111107359 A TW 111107359A TW I784888 B TWI784888 B TW I784888B
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Taiwan
Prior art keywords
heating
groove
heat transfer
region
heating body
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TW111107359A
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Chinese (zh)
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TW202247697A (en
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金龍洙
金亨源
鄭熙錫
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南韓商吉佳藍科技股份有限公司
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/02Details
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J37/00Discharge tubes with provision for introducing objects or material to be exposed to the discharge, e.g. for the purpose of examination or processing thereof
    • H01J37/32Gas-filled discharge tubes
    • H01J37/32431Constructional details of the reactor
    • H01J37/3244Gas supply means
    • H01J37/32449Gas control, e.g. control of the gas flow
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/0004Devices wherein the heating current flows through the material to be heated
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/02Details
    • H05B3/06Heater elements structurally combined with coupling elements or holders

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Plasma & Fusion (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Resistance Heating (AREA)

Abstract

本發明的一實施例公開一種加熱元件,包括:一加熱部件,其形成為產生熱;一加熱體部,其接收由所述加熱部件產生的熱;以及一熱傳遞部件,其配置於所述加熱體部與所述加熱部件之間的至少一個區域。 An embodiment of the present invention discloses a heating element including: a heating part formed to generate heat; a heating body part receiving heat generated by the heating part; and a heat transfer part disposed on the At least one region between the heating body and the heating element is heated.

Description

加熱元件 Heating element

本發明涉及一種加熱元件。 The invention relates to a heating element.

隨著技術的發展,製造和使用多樣的電氣、電子元件,這些電子元件可以通過多樣的製程形成電氣或電子特性。 With the development of technology, various electrical and electronic components are manufactured and used, and these electronic components can form electrical or electronic characteristics through various processes.

此外,在這些電子元件中形成電氣或電子特性的多樣的製程中使用半導體製程,該半導體製程利用氣體或由氣體生成的等離子體。 In addition, semiconductor processes using gas or plasma generated from gas are used in various processes for forming electrical or electronic characteristics in these electronic components.

在這種半導體製程過程中為了防止氣體凝結成團,可以使用包括加熱部件的裝置以向氣體施加熱。 In order to prevent the gas from agglomerating during such a semiconductor process, a device including a heating element may be used to apply heat to the gas.

另一方面,當根據半導體製程的多樣的條件和種類而利用加熱部件時,在有效傳遞熱的方面存在局限性。 On the other hand, when a heating member is used according to various conditions and types of semiconductor processes, there is a limitation in efficiently transferring heat.

本發明可以提供減少熱損失並提高熱傳遞效率的加熱元件。 The present invention can provide a heating element that reduces heat loss and improves heat transfer efficiency.

本發明的一實施例公開一種加熱元件,包括:一加熱部件,其形成為產生熱;一加熱體部,其接收由所述加熱部件產生的熱;以及一熱傳遞部件,其配置於所述加熱體部與所述加熱部件之間的至少一個區域,所述加熱體部 包括與所述熱傳遞部件對應地形成的一凹槽,所述加熱部件配置為與所述凹槽的內側面的至少一個區域相向,所述熱傳遞部件包括在所述加熱部件與所述凹槽的內側面之間與所述加熱部件和所述凹槽的內側面相向地形成的一側面部件。 An embodiment of the present invention discloses a heating element including: a heating part formed to generate heat; a heating body part receiving heat generated by the heating part; and a heat transfer part disposed on the at least one area between the heating body and the heating element, the heating body It includes a groove formed corresponding to the heat transfer component, the heating component is configured to face at least one area of the inner surface of the groove, and the heat transfer component is included between the heating component and the concave A side member is formed between the inner surfaces of the grooves to face the heating member and the inner surfaces of the groove.

在本實施例中,所述熱傳遞部件當配置於所述凹槽時至少一個區域可以從所述凹槽凸出地配置。 In this embodiment, at least one region of the heat transfer member may be arranged protruding from the groove when arranged in the groove.

在本實施例中,所述熱傳遞部件可以形成為包括一上側部件,該上側部件形成為覆蓋所述加熱部件的上面。 In this embodiment, the heat transfer part may be formed to include an upper part formed to cover the upper surface of the heating part.

在本實施例中,所述側面部件可以連接於所述上側部件並且形成為至少對應於所述加熱部件的相向的兩個側面。 In this embodiment, the side part may be connected to the upper part and formed to correspond to at least two facing sides of the heating part.

在本實施例中,所述上側部件可以包括與所述加熱部件相向的一相向面,所述上側部件的相向面形成為具有與所述加熱部件的上面對應的形態。 In this embodiment, the upper member may include a facing surface facing the heating member, and the facing surface of the upper member is formed to have a shape corresponding to the upper surface of the heating member.

在本實施例中,所述熱傳遞部件包括一下側部件,該下側部件與所述側面部件連接並且配置為隔著所述加熱部件與所述上側部件相向。 In this embodiment, the heat transfer member includes a lower member connected to the side member and arranged to face the upper member via the heating member.

在本實施例中,所述加熱元件可以包括一夾具部,其配置於所述加熱體部上並且形成為支撐所述熱傳遞部件的一個區域。 In this embodiment, the heating element may include a clamp portion disposed on the heating body portion and formed to support an area of the heat transfer member.

在本實施例中,所述夾具部可以以向所述熱傳遞部件的外面的一個區域施加壓力的方法固定所述加熱部件。 In this embodiment, the jig portion may fix the heating member in a method of applying pressure to an area outside the heat transfer member.

在本實施例中,所述夾具部可以配置為不對應於所述凹槽的內側空間且與所述凹槽的內側空間間隔開。 In this embodiment, the jig portion may be configured not to correspond to and be spaced apart from the inner space of the groove.

在本實施例中,所述夾具部可以形成為具有從在所述加熱體部的一面中與所述凹槽間隔開的區域延伸成與所述凹槽的至少一個區域重疊的位置對應的形態。 In this embodiment, the jig part may be formed to have a shape corresponding to a position extending from a region spaced apart from the groove in one face of the heating body part to overlap at least one region of the groove. .

在本實施例中,所述夾具部可以形成為在與所述凹槽間隔開的區域和與所述凹槽的至少一個區域重疊的區域之間具有彎曲的形態。 In this embodiment, the jig portion may be formed to have a curved form between a region spaced apart from the groove and a region overlapping at least one region of the groove.

在本實施例中,所述加熱元件可以在所述側面部件與所述加熱部件之間的至少一個區域形成有間隔開的空間。 In this embodiment, the heating element may be formed with spaced apart spaces in at least one area between the side member and the heating member.

除前已述及之外的其他方面、特徵、優點將從下面的附圖、申請專利範圍和本發明的詳細描述中變得清楚。 Other aspects, features and advantages besides those mentioned above will become apparent from the following drawings, claims and detailed description of the invention.

本發明的加熱元件可以減少熱損失並且容易地提高熱傳遞效率。 The heating element of the present invention can reduce heat loss and easily improve heat transfer efficiency.

100:加熱元件 100: heating element

110:加熱體部 110: Heating the body

111:凹槽 111: Groove

120:熱傳遞部件 120: heat transfer components

120H:貫通區域 120H: through the area

121:第一側面部件 121: First side part

122:第二側面部件 122: Second side part

123:上側部件 123: upper part

123C:相向面 123C: opposite side

125:下側部件 125: lower part

130:夾具部 130: Fixture Department

131:第一接觸部 131: first contact part

132:第二接觸部 132: second contact part

DEW:電介質窗 DEW: Dielectric window

ET:第一間隔區域 ET: first interval area

ES:第二間隔區域 ES: second interval area

HB:加熱部件 HB: heating element

HBT1:第一端部 HBT1: first end

HBT2:第二端部 HBT2: second end

SA:間隔部 SA: spacer

SH:噴淋頭 SH: sprinkler head

SR:第一側面部件、第二側面部件之間的空間 SR: space between first side part, second side part

SW:被處理材料 SW: processed material

T1:第一厚度 T1: first thickness

T2:第二厚度 T2: second thickness

T3:第三厚度 T3: third thickness

圖1是示出關於本發明的一實施例的加熱元件的示意性的剖視圖。 FIG. 1 is a schematic sectional view showing a heating element according to an embodiment of the present invention.

圖2是從一個方向觀察圖1的加熱元件的示例性的立體圖。 FIG. 2 is an exemplary perspective view of the heating element of FIG. 1 viewed from one direction.

圖3是示例性地示出圖2的加熱元件的加熱部件的立體圖。 FIG. 3 is a perspective view exemplarily showing a heating part of the heating element of FIG. 2 .

圖4是示例性地示出圖2的加熱元件的熱傳遞部件的立體圖。 FIG. 4 is a perspective view exemplarily showing a heat transfer part of the heating element of FIG. 2 .

圖5是用於關於本發明的一實施例的加熱元件的使用的示例性的圖。 Figure 5 is an exemplary diagram for the use of a heating element with respect to an embodiment of the present invention.

圖6是圖5的B的示意性的放大圖。 FIG. 6 is a schematic enlarged view of B of FIG. 5 .

下面參照圖式中所示的本發明的實施例對本發明的構成和作用進行詳細說明。 The constitution and function of the present invention will be described in detail below with reference to the embodiments of the present invention shown in the drawings.

本發明可以被加以多樣的變換,並且可以具有多種實施例,將一些特定實施例的例示於圖式並在詳細說明中進行詳細描述。本發明的效果和特徵以及達成其的方法將在參照結合圖式詳細後述的實施例的過程中變得清楚。但是,本發明不限於以下公開的實施例,而是可以以多樣的形態實現。 While the present invention can be variously modified and has various embodiments, some specific embodiments are illustrated in the drawings and described in detail in the detailed description. The effects and features of the present invention and methods for achieving them will become clear in the course of referring to the embodiments described in detail later with reference to the drawings. However, the present invention is not limited to the embodiments disclosed below, but can be realized in various forms.

下面將參照圖式對本發明的實施例進行詳細描述,在參照圖式進行描述時,對相同或相應的構成要素賦予相同的圖式標記,並且將省略對其的重複描述。 Embodiments of the present invention will be described in detail below with reference to the drawings, and in describing with reference to the drawings, the same or corresponding constituent elements are given the same drawing symbols and repeated descriptions thereof will be omitted.

在以下實施例中,第一、第二等術語用於將一個構成要素與另一個構成要素區分開的目的,而不用於限定性的意義。 In the following embodiments, the terms first, second, etc. are used for the purpose of distinguishing one constituent element from another, and are not used in a limiting sense.

在以下實施例中,除非上下文中明確不同地定義,單數表達包括複數表達。 In the following embodiments, unless clearly defined differently in the context, singular expressions include plural expressions.

在以下實施例中,包括或具有等術語是指存在說明書中記載的特徵或構成要素,並不預先排除添加一個以上的其他特徵或構成要素的可能性。 In the following embodiments, terms such as including or having refer to the presence of the features or constituent elements described in the specification, and do not preclude the possibility of adding more than one other feature or constituent element.

在圖式中,為了便於描述,構成要素的大小可能被誇張或縮小。例如,圖中所示的每個構件的大小和厚度是為了便於描述而任意示出的,因此本發明並不限於圖示。 In the drawings, the sizes of constituent elements may be exaggerated or reduced for convenience of description. For example, the size and thickness of each member shown in the drawings are arbitrarily shown for convenience of description, and thus the present invention is not limited to the illustrations.

在以下實施例中,x軸、y軸和z軸不限於正交座標系上的三個軸,而是可以被廣義地解釋為包括其的含義。例如,x軸、y軸和z軸可以彼此正交,但也可以指代彼此不正交的彼此不同的方向。 In the following embodiments, the x-axis, y-axis, and z-axis are not limited to three axes on the orthogonal coordinate system, but can be interpreted broadly to include meanings thereof. For example, the x-axis, y-axis, and z-axis may be orthogonal to each other, but may also refer to mutually different directions that are not orthogonal to each other.

在某一實施例可以不同地實現的情況下,特定的製程順序可以與所描述的順序不同地執行。例如,連續描述的兩個製程可以實質上同時執行,或者可以以與描述的順序相反的順序進行。 In cases where an embodiment may be implemented differently, a particular process sequence may be performed differently than described. For example, two processes described in succession may be performed substantially simultaneously, or may be performed in an order reverse to that described.

圖1是示出關於本發明的一實施例的加熱元件的示意性的剖視圖。 FIG. 1 is a schematic sectional view showing a heating element according to an embodiment of the present invention.

本實施例的加熱元件100可以包括加熱部件HB、加熱體部110以及熱傳遞部件120。 The heating element 100 of this embodiment may include a heating part HB, a heating body 110 and a heat transfer part 120 .

本發明中記載的加熱部件HB可以用於多種用途。作為一例,可以用於向利用一種以上的氣體、離子或等離子體(或稱電漿)對諸如基板或晶圓的被處理材料(例如圖5的SW)進行處理的裝置施加熱的用途。 The heating member HB described in the present invention can be used for various purposes. As an example, it can be used to apply heat to an apparatus for processing a material to be processed such as a substrate or a wafer (for example, SW in FIG. 5 ) using more than one gas, ion, or plasma (or plasma).

作為具體的示例,加熱部件HB可以應用於對被處理材料進行蝕刻製程、清洗製程、灰化(ashing)製程、蒸鍍製程或離子注入製程等的裝置。 As a specific example, the heating unit HB can be applied to an apparatus for performing etching process, cleaning process, ashing process, vapor deposition process, or ion implantation process on a material to be processed.

作為可選的實施例,加熱部件HB也可以被利用為與向被處理材料的方向供應氣體的噴淋頭(shower head,例如圖5的SH)相鄰或者向噴淋頭傳遞熱。 As an optional embodiment, the heating part HB can also be utilized to be adjacent to or transfer heat to a shower head (such as SH in FIG. 5 ) that supplies gas in the direction of the material to be processed.

加熱部件HB可以形成為產生熱。例如,可以形成為通過設置在形成有中空部的管的內部的發熱體或在形成有中空部的管的內部迴圈的熱水來產生熱。 The heating part HB may be formed to generate heat. For example, heat may be generated by a heating element provided inside the tube having the hollow portion or hot water circulating inside the tube having the hollow portion.

作為可選的實施例,加熱部件HB可以形成為通過從電源施加電流來產生熱,作為具體的示例,可以具有由金屬材質形成的線圈形態的發熱體。 As an optional embodiment, the heating member HB may be formed to generate heat by applying an electric current from a power source, and as a specific example, may have a coil-shaped heating element made of a metal material.

作為可選的實施例,加熱部件HB可以以厚度方向為基準具有曲面,例如,加熱部件HB也可以具有接近圓形的截面形態。 As an optional embodiment, the heating component HB may have a curved surface based on the thickness direction, for example, the heating component HB may also have a nearly circular cross-sectional shape.

加熱體部110可以形成為接收由加熱部件HB產生的熱。加熱體部110可以接收由加熱部件HB產生的熱並將其傳遞至與加熱體部110相鄰的方向的部件。作為可選的實施例,加熱體部110可以向噴淋頭SH或氣體供應部(未圖示)或電介質窗(例如,圖5的DEW)等傳遞熱。 The heating body 110 may be formed to receive heat generated by the heating part HB. The heating body part 110 may receive heat generated by the heating part HB and transmit it to parts in a direction adjacent to the heating body part 110 . As an optional embodiment, the heating body part 110 may transfer heat to the shower head SH or a gas supply part (not shown), or a dielectric window (eg, DEW in FIG. 5 ), or the like.

加熱體部110可以由多樣的材料形成,可以由金屬材料形成以便能夠有效地傳遞熱,並且也可以含有例如鋁、鋼等或者包含其合金。作為具體的示例,可以由鋁系列材質形成。 The heating body 110 may be formed of various materials, may be formed of a metal material so as to be able to efficiently transfer heat, and may also contain, for example, aluminum, steel, etc. or an alloy thereof. As a specific example, it may be formed of aluminum series materials.

加熱部件HB可以配置在加熱體部110的上面的一個區域。 The heating member HB may be disposed in a region above the heating body 110 .

作為可選的實施例,加熱體部110可以在上面的一個區域包括凹槽111。可以在加熱體部110的凹槽111配置加熱部件HB。 As an optional embodiment, the heating body 110 may include a groove 111 in an upper region. The heating member HB may be disposed in the groove 111 of the heating body 110 .

加熱體部110的凹槽111的形態可以多種多樣,例如,可以是在加熱體部110的厚度方向上具有深度並且在與之交叉的方向上具有寬度的槽的形態。此時,凹槽111的寬度可以根據深度而恒定。但是,作為未圖示的另一示例,凹槽111的寬度可以根據深度而不同,並且,作為具體的示例,凹槽111的內側面也可以形成為具有曲面形態。 The shape of the groove 111 of the heating body 110 may be various, for example, it may be a groove having a depth in the thickness direction of the heating body 110 and a width in a direction intersecting therewith. At this time, the width of the groove 111 may be constant according to the depth. However, as another example not shown, the width of the groove 111 may vary according to the depth, and, as a specific example, the inner surface of the groove 111 may also be formed to have a curved shape.

作為可選的實施例,加熱體部110的凹槽111可以形成為具有與後述的熱傳遞部件120對應的形態以適合於熱傳遞部件120的配置,例如,可以形成為具有與熱傳遞部件120的外側面對應或者與外側面貼緊的形態。 As an optional embodiment, the groove 111 of the heating body 110 can be formed to have a shape corresponding to the heat transfer member 120 described later to be suitable for the configuration of the heat transfer member 120, for example, it can be formed to have a shape corresponding to the heat transfer member 120 The outer surface of the body corresponds to or is closely attached to the outer surface.

此外,作為可選的實施例,加熱體部110可以形成為具有間隔部SA,這樣的間隔部SA可以是未形成有加熱體部110的區域,例如呈開口形態。作為具體的示例,這樣的間隔部SA可以對應於用於在對被處理材料的製程過程中使用的原料氣體等的流入或行進的區域。 In addition, as an optional embodiment, the heating body part 110 may be formed to have a spacer SA, and such a spacer SA may be a region where the heating body part 110 is not formed, for example, in the form of an opening. As a specific example, such a spacer SA may correspond to a region for inflow or travel of a source gas or the like used in a process for a material to be processed.

熱傳遞部件120可以形成為配置於加熱體部110與加熱部件HB之間的至少一個區域。由此,減少或防止因加熱部件HB暴露於作為加熱體部110的外側的空氣中而致使熱發散到空氣中,並且使得在加熱部件HB的至少一個區域或整體上產生的熱能夠通過熱傳遞部件120傳遞至加熱體部110。為了提高熱 傳遞效率,熱傳遞部件120可以由導熱特性良好的材質形成,例如可以由金屬材質形成。 The heat transfer part 120 may be formed to be disposed at least one area between the heating body part 110 and the heating part HB. Thereby, heat dissipation to the air caused by the heating member HB being exposed to the air outside the heating body portion 110 is reduced or prevented, and the heat generated in at least one region or the entirety of the heating member HB can be transferred through heat transfer. The component 120 is passed to the heating body 110 . to increase heat For transfer efficiency, the heat transfer member 120 may be formed of a material with good thermal conductivity, for example, a metal material.

作為可選的實施例,熱傳遞部件120可以由與加熱體部110相同的材質形成,例如可以由鋁系列材質形成。 As an optional embodiment, the heat transfer member 120 may be formed of the same material as that of the heating body 110 , for example, may be formed of aluminum series materials.

熱傳遞部件120可以配置於加熱體部110的一面,例如可以配置為對應於加熱體部110的凹槽111。作為具體的示例,可以形成為在熱傳遞部件120的厚度方向上使至少一個區域容納於加熱體部110的凹槽111。 The heat transfer member 120 may be disposed on one side of the heating body 110 , for example, may be configured to correspond to the groove 111 of the heating body 110 . As a specific example, it may be formed such that at least one region is accommodated in the groove 111 of the heating body 110 in the thickness direction of the heat transfer member 120 .

熱傳遞部件120可以具有多樣的形態,並且可以包括例如上側部件123、第一側面部件121、第二側面部件122以及下側部件125中的至少一個。 The heat transfer member 120 may have various forms, and may include, for example, at least one of an upper side member 123 , a first side member 121 , a second side member 122 , and a lower side member 125 .

上側部件123位於加熱部件HB的一側,例如作為朝向凹槽111的方向的反方向,即加熱部件HB的上側方向,作為具體的示例,可以形成為覆蓋加熱部件HB的上面。由此,可以有效地減少由加熱部件HB產生的熱向遠離加熱體部110的上面的方向發散而損失。 The upper part 123 is located on one side of the heating part HB, for example, as the direction opposite to the groove 111, that is, the upper side of the heating part HB. As a specific example, it can be formed to cover the top of the heating part HB. Accordingly, it is possible to effectively reduce the heat generated by the heating member HB from radiating and being lost in a direction away from the upper surface of the heating body portion 110 .

作為可選的實施例,上側部件123可以具有與凹槽111的內側面對應的形態,例如可以形成為與凹槽111的內側面貼緊或相鄰。 As an optional embodiment, the upper part 123 may have a shape corresponding to the inner surface of the groove 111 , for example, may be formed to be close to or adjacent to the inner surface of the groove 111 .

上側部件123可以包括與加熱部件HB相向的相向面123C。這樣的相向面123C可以與第一側面部件121、第二側面部件122之間的空間SR連接。 The upper member 123 may include a facing surface 123C facing the heating member HB. Such facing surface 123C may be connected to the space SR between the first side member 121 and the second side member 122 .

作為可選的實施例,相向面123C可以形成為具有對應於加熱部件HB的上面的形態,例如可以形成為具有與加熱部件HB的上面的曲面對應的曲面形態。 As an optional embodiment, the facing surface 123C may be formed to have a shape corresponding to the upper surface of the heating part HB, for example, may be formed to have a curved surface shape corresponding to the curved surface of the upper surface of the heating part HB.

作為具體的示例,相向面123C可以以加熱部件HB的厚度方向為基準以對應於圓形的截面的一部分的方式形成為具有圓弧或半圓的截面形態。此 外,作為一例,這樣的相向面123C的至少一個區域可以與加熱部件HB的上側相接或貼緊。由此,可以有效地減少由加熱部件HB產生的熱通過相向面123C容易傳遞至上側部件123或第一側面部件121、第二側面部件122而致使熱損失,並提高熱效率。 As a specific example, the facing surface 123C may have a circular or semicircular cross-sectional shape corresponding to a part of a circular cross-section with reference to the thickness direction of the heating member HB. this In addition, as an example, at least one region of such facing surface 123C may be in contact with or in close contact with the upper side of the heating member HB. Thus, heat loss caused by the heat generated by the heating member HB being easily transferred to the upper member 123 or the first side member 121 and the second side member 122 through the facing surface 123C can be effectively reduced, and thermal efficiency can be improved.

此外,作為一例,可以通過上側部件123支撐加熱部件HB,從而可以容易地維持對加熱部件HB的穩定的配置。 In addition, as an example, the heating member HB can be supported by the upper member 123, so that a stable arrangement of the heating member HB can be easily maintained.

作為可選的實施例,熱傳遞部件120還可以包括形成為與上側部件123連接的第一側面部件121、第二側面部件122。 As an optional embodiment, the heat transfer component 120 may further include a first side component 121 and a second side component 122 formed to be connected with the upper side component 123 .

熱傳遞部件120的彼此相向的第一側面部件121、第二側面部件122可以分別配置於凹槽111的內側面與加熱部件HB之間。作為可選的實施例,第一側面部件121、第二側面部件122可以具有與凹槽111的內側面對應的形態,例如可以形成為與凹槽111的內側面貼緊或相鄰。 The first side part 121 and the second side part 122 of the heat transfer part 120 facing each other can be respectively disposed between the inner side of the groove 111 and the heating part HB. As an optional embodiment, the first side member 121 and the second side member 122 may have shapes corresponding to the inner surface of the groove 111 , for example, may be formed to be close to or adjacent to the inner surface of the groove 111 .

通過第一側面部件121、第二側面部件122增加了熱傳遞面積,從而在由加熱部件HB產生的熱通過凹槽111的內側面傳遞至加熱體部110時增加了熱效率,並且可以減少由加熱部件HB產生的熱發散到空氣中而損失。 The heat transfer area is increased by the first side part 121 and the second side part 122, thereby increasing the thermal efficiency when the heat generated by the heating part HB is transferred to the heating body part 110 through the inner surface of the groove 111, and can reduce the heat generated by the heating part. The heat generated by part HB is dissipated into the air and lost.

作為可選的實施例,熱傳遞部件120還可以包括下側部件125,下側部件125形成為與連接於上側部件123的第一側面部件121、第二側面部件122連接,並且配置為隔著加熱部件HB與上側部件123相向。 As an optional embodiment, the heat transmission part 120 may also include a lower side part 125, the lower side part 125 is formed to be connected with the first side part 121 and the second side part 122 connected to the upper side part 123, and configured to separate The heating member HB faces the upper member 123 .

下側部件125可以具有容納於凹槽111的形態,例如可以配置為與凹槽111的內側底面相接。由此,增加通過了加熱部件HB的熱向下側方向傳遞至加熱體部110的面積,並且可以減少由加熱部件HB產生的熱發散到空氣中而損失。 The lower part 125 can be accommodated in the groove 111 , for example, can be configured to be in contact with the inner bottom surface of the groove 111 . Thereby, the area where the heat passing through the heating member HB is transferred to the heating body portion 110 in the downward direction is increased, and the heat generated by the heating member HB can be reduced by being dissipated into the air and lost.

下側部件125可以具有多樣的形態,例如可以形成為與彼此相向的第一側面部件121、第二側面部件122的各個的彼此面對的內側面連接。 The lower side member 125 can have various forms, for example, it can be formed so that it may be connected to the mutually facing inner surface of each of the 1st side member 121 and the 2nd side member 122 which oppose each other.

作為可選的實施例,上側部件123和第一側面部件121、第二側面部件122可以具有一體地延伸的結構,下側部件125可以結合於彼此相向的第一側面部件121、第二側面部件122的各個的內側面的一個區域,例如可以採用焊接來結合。作為具體的示例,可以在將加熱部件HB容納於上側部件123和第一側面部件121、第二側面部件122一體地延伸的結構中後,採用焊接將下側部件125與第一側面部件121、第二側面部件122結合。另一方面,代替焊接地,也可以通過採用過盈配合或螺絲等的多樣的方法結合。 As an optional embodiment, the upper side part 123 and the first side part 121 and the second side part 122 can have an integrally extended structure, and the lower side part 125 can be combined with the first side part 121 and the second side part facing each other. A region of each inner surface of 122 can be joined by welding, for example. As a specific example, after the heating part HB is accommodated in a structure in which the upper part 123 and the first side part 121 and the second side part 122 are integrally extended, the lower part 125 and the first side part 121 and the second side part 122 may be welded together. The second side member 122 is joined. On the other hand, instead of welding, it is also possible to join by various methods such as interference fit and screws.

由此,可以容易地實現加熱部件HB容納於熱傳遞部件120的內側的結構,並且,通過將這樣的容納有加熱部件HB的熱傳遞部件120配置於凹槽111,可以有效地實現向加熱體部110傳遞熱的結構。 Thus, a structure in which the heating member HB is accommodated inside the heat transfer member 120 can be easily realized, and by arranging such a heat transfer member 120 accommodating the heating member HB in the groove 111, it is possible to effectively realize the heating to the heating body. Part 110 is a structure for transferring heat.

上側部件123的厚度可以多種多樣。例如,可以具有第一厚度T1和第二厚度T2。第二厚度T2是對應於相向面123C與上側部件123的上面(例如,朝與朝向下側部件125的方向相反的方向的面)之間的區域的厚度,例如可以具有可變值,第一厚度T1是相向面123C與第一側面部件121、第二側面部件122之間的區域中的上側部件123的下面(例如,朝向下側部件125的面)與相向面123C之間的厚度的最大值,可以具有大於第二厚度T2的值。 The thickness of the upper side member 123 may vary. For example, there may be a first thickness T1 and a second thickness T2. The second thickness T2 is the thickness corresponding to the area between the facing surface 123C and the upper surface of the upper member 123 (for example, a surface facing in a direction opposite to the direction toward the lower member 125), and may have a variable value, for example, the first The thickness T1 is the maximum of the thickness between the facing surface 123C and the lower surface of the upper side member 123 (for example, the surface facing the lower side member 125 ) in the area between the facing surface 123C and the first side member 121 and the second side member 122 . value, may have a value greater than the second thickness T2.

下側部件125可以具有第三厚度T3。 The lower part 125 may have a third thickness T3.

作為可選的實施例,上側部件123的第一厚度T1和第二厚度T2可以分別具有大於下側部件125的第三厚度T3的值。通過較厚的上側部件123,可以有效地減少或阻斷向遠離加熱體部110的上面的方向上的熱損失,並且可以提 高向加熱體部110的熱傳遞效率。此外,可以容易地加大通過上側部件123的對加熱部件HB的支撐效果。 As an optional embodiment, the first thickness T1 and the second thickness T2 of the upper part 123 may respectively have values greater than the third thickness T3 of the lower part 125 . Through the thicker upper part 123, the heat loss to the direction away from the heating body 110 can be effectively reduced or blocked, and the The heat transfer efficiency to the heating body part 110 is high. In addition, the effect of supporting the heating member HB by the upper member 123 can be easily increased.

此外,作為可選的實施例,上側部件123的第一厚度T1和第二厚度T2可以分別具有大於第一側面部件121、第二側面部件122各個的厚度(例如,以圖1的X軸方向為基準的厚度)的值,可以加大減少向上側的熱損失的效果,並且可以提高向第一側面部件121、第二側面部件122的直接熱傳遞效果。 In addition, as an optional embodiment, the first thickness T1 and the second thickness T2 of the upper side part 123 may respectively have a thickness greater than that of the first side part 121 and the second side part 122 (for example, in the X-axis direction of FIG. 1 The value of thickness) can increase the effect of reducing heat loss to the upper side, and can improve the effect of direct heat transfer to the first side member 121 and the second side member 122 .

作為可選的實施例,可以以支撐熱傳遞部件120的一個區域的方式配置夾具部130。例如,夾具部130可以形成為支撐熱傳遞部件120的上側部件123。 As an optional embodiment, the jig part 130 may be configured in such a manner as to support one region of the heat transfer member 120 . For example, the jig part 130 may be formed to support the upper part 123 of the heat transfer part 120 .

作為具體的示例,夾具部130的一個區域可以配置於加熱體部110,並且可以固定於加熱體部110的一個區域,由此延伸的另一個區域可以支撐熱傳遞部件120的上側部件123的上面,也可以以使熱傳遞部件120貼緊於加熱體部110的方式施加壓力。由此,使得傳遞至熱傳遞部件120的熱能夠被有效地傳遞至加熱體部110。 As a specific example, one area of the clamp part 130 can be arranged on the heating body part 110 and can be fixed to one area of the heating body part 110 , and another area extending therefrom can support the upper surface of the upper part 123 of the heat transfer part 120 , pressure may be applied such that the heat transfer member 120 is in close contact with the heating body 110 . Thereby, the heat transferred to the heat transfer member 120 can be efficiently transferred to the heating body portion 110 .

夾具部130可以由多樣的材質形成,例如可以由不同於熱傳遞部件120的材質形成,作為具體的示例,可以由熱導率低於熱傳遞部件120的材質形成。 The clip part 130 may be formed of various materials, for example, may be formed of a material different from the heat transfer member 120 , and as a specific example, may be formed of a material having a lower thermal conductivity than the heat transfer member 120 .

作為可選的實施例,夾具部130也可以形成為含有非金屬材質,例如塑膠系列材質。 As an optional embodiment, the clamp part 130 may also be formed of non-metallic materials, such as plastic series materials.

由此,使得傳遞至熱傳遞部件120的熱能夠被有效地傳遞至加熱體部110,而不是夾具部130。 Thereby, the heat transferred to the heat transfer member 120 can be efficiently transferred to the heating body part 110 instead of the jig part 130 .

本實施例的產生熱的加熱部件HB可以容納於熱傳遞部件120的內側空間,並且可以將容納有加熱部件HB的熱傳遞部件120配置於加熱體部110,從而減少由加熱部件HB產生的熱向遠離加熱體部110的方向發散或損失,並且可 以使熱能夠被有效地傳遞至加熱體部110。此外,作為一例,熱傳遞部件120以厚度方向為基準具有類似於箱子的形態,通過在對應於這樣的熱傳遞部件120的形態的凹槽111配置熱傳遞部件120,可以在熱傳遞部件120的厚度方向上使至少一個區域容納於凹槽111。由此,可以增加向加熱體部110的熱傳遞面積,並且加大減少熱損失的效果。 The heating member HB that generates heat in this embodiment can be accommodated in the inner space of the heat transfer member 120, and the heat transfer member 120 accommodating the heating member HB can be arranged in the heating body 110, thereby reducing the heat generated by the heating member HB. diverge or lose away from the heating body 110, and can In order to enable heat to be efficiently transferred to the heating body 110 . In addition, as an example, the heat transfer member 120 has a form similar to a box on the basis of the thickness direction, and by arranging the heat transfer member 120 in the groove 111 corresponding to the form of the heat transfer member 120, At least one region is accommodated in the groove 111 in the thickness direction. Accordingly, the heat transfer area to the heating body portion 110 can be increased, and the effect of reducing heat loss can be enhanced.

此外,作為可選的實施例,在通過配置以從上側支撐熱傳遞部件120的方式配置的夾具部130來維持減少熱損失的效果和提高熱傳遞的效果的同時,通過將熱傳遞部件120固定於加熱體部110,即使隨著時間的經過或者進行多個製程,也能夠穩定地維持熱傳遞部件120的配置。 In addition, as an optional embodiment, while maintaining the effect of reducing heat loss and improving the effect of heat transfer by disposing the clamp part 130 configured to support the heat transfer member 120 from the upper side, by fixing the heat transfer member 120 In the heating body part 110, the arrangement of the heat transfer member 120 can be stably maintained even if time passes or a plurality of processes are performed.

圖2是從一個方向觀察圖1的加熱元件的示例性的立體圖。 FIG. 2 is an exemplary perspective view of the heating element of FIG. 1 viewed from one direction.

圖3是示例性地示出圖2的加熱元件的加熱部件的立體圖,圖4是示例性地示出圖2的加熱元件的熱傳遞部件的立體圖。 3 is a perspective view exemplarily showing a heating part of the heating element of FIG. 2 , and FIG. 4 is a perspective view exemplarily showing a heat transfer part of the heating element of FIG. 2 .

參照圖2,加熱元件100的加熱體部110可以形成為具有曲線狀邊緣,例如接近圓形的邊緣。 Referring to FIG. 2 , the heating body part 110 of the heating element 100 may be formed to have a curved edge, for example, an edge close to a circle.

此外,加熱體部110可以形成為在內側具有開口形態的間隔部SA,作為具體的示例,可以形成為圍繞間隔部SA。 In addition, the heating body part 110 may be formed to have a spacer SA in the form of an opening inside, and may be formed to surround the spacer SA as a specific example.

加熱體部110可以包括對應於熱傳遞部件120的凹槽111,凹槽111可以具有圍繞間隔部SA的形態,例如可以在平面上具有圓形的形態。 The heating body 110 may include a groove 111 corresponding to the heat transfer member 120, and the groove 111 may have a shape surrounding the spacer SA, for example, may have a circular shape on a plane.

熱傳遞部件120可以配置為對應於凹槽111,並且具有圍繞間隔部SA的形態,例如可以在平面上具有圓形的形態。 The heat transfer member 120 may be configured to correspond to the groove 111 and have a shape surrounding the spacer SA, for example, may have a circular shape on a plane.

此外,熱傳遞部件120可以在配置於凹槽111且上側的一個區域被多個夾具部130支撐。 In addition, the heat transfer member 120 may be supported by a plurality of clip parts 130 at a region disposed on the upper side of the groove 111 .

作為可選的實施例,多個夾具部130可以配置為彼此間隔開,例如可以沿熱傳遞部件120的周向排列多個。 As an optional embodiment, a plurality of clip parts 130 may be configured to be spaced apart from each other, for example, a plurality may be arranged along the circumferential direction of the heat transfer member 120 .

參照圖3,加熱部件HB可以具有曲線的平面形態,並且截面可以具有圓形的線圈形態。例如,加熱部件HB可以形成為具有圍繞加熱體部110的間隔部SA的至少一個區域的圓形的邊緣的形態。 Referring to FIG. 3 , the heating part HB may have a curved planar form, and a cross section may have a circular coil form. For example, the heating member HB may be formed to have a circular edge surrounding at least one area of the spacer SA of the heating body part 110 .

示例性地,加熱部件HB可以包括形成為與外部的電源或泵連接的第一端部HBT1和第二端部HBT2。作為具體的示例,第一端部HBT1和第二端部HBT2可以是用於將加熱部件HB與外部部件連接起來的連接部。 Exemplarily, the heating part HB may include a first end part HBT1 and a second end part HBT2 formed to be connected to an external power source or a pump. As a specific example, the first end portion HBT1 and the second end portion HBT2 may be connection portions for connecting the heating part HB with an external part.

當加熱部件HB配置於熱傳遞部件120的內側空間時,第一端部HBT1和第二端部HBT2可以具有向熱傳遞部件120的外部凸出的形態。 When the heating member HB is disposed in the inner space of the heat transfer member 120 , the first end portion HBT1 and the second end portion HBT2 may have a shape protruding to the outside of the heat transfer member 120 .

例如,加熱部件HB的第一端部HBT1和第二端部HBT2可以形成為彼此間隔開並且向遠離凹槽111的方向,例如向上凸出。由此,可以在維持通過加熱部件HB的發熱效果的同時,提高與電源或泵的連接可靠性。 For example, the first end portion HBT1 and the second end portion HBT2 of the heating member HB may be formed to be spaced apart from each other and protrude toward a direction away from the groove 111 , eg, upward. Thereby, while maintaining the heat generation effect by the heating member HB, connection reliability with a power supply or a pump can be improved.

作為可選的實施例,當在加熱部件HB的內部設置有發熱體時,可以向第一端部HBT1和第二端部HBT2中的一個輸入電流,並從另一個輸出電流。另一方面,當熱水在加熱部件HB的內部迴圈時,可以向第一端部HBT1和第二端部HBT2中的一個引入熱水,並從另一個引出熱水。 As an optional embodiment, when a heating body is provided inside the heating component HB, current may be input to one of the first end portion HBT1 and the second end portion HBT2, and current may be output from the other. On the other hand, when hot water circulates inside the heating member HB, hot water may be introduced into one of the first end portion HBT1 and the second end portion HBT2 and drawn out from the other.

參照圖2和圖4,熱傳遞部件120可以以使加熱部件HB的第一端部HBT1和第二端部HBT2通過而延伸的方式包括貫通區域120H。例如,可以在熱傳遞部件120的上側部件123的一個區域形成貫通區域120H。 Referring to FIGS. 2 and 4 , the heat transfer member 120 may include a penetrating region 120H in such a manner as to extend through the first end portion HBT1 and the second end portion HBT2 of the heating member HB. For example, the penetrating region 120H may be formed in one region of the upper member 123 of the heat transfer member 120 .

熱傳遞部件120可以形成為圍繞間隔部SA的形態,例如可以具有對應於加熱部件HB的圓形的平面形態。 The heat transfer member 120 may be formed in a form surrounding the spacer SA, for example, may have a circular planar form corresponding to the heating member HB.

作為示例性的製造方法,可以在兩側的第一側面部件121、第二側面部件122和上側部件123的一體化的結構的內側空間插入加熱部件HB之後,結合下側部件125,作為具體的示例,可以採用焊接來連接下側部件125和第一側面部件121、第二側面部件122。 As an exemplary manufacturing method, after inserting the heating member HB into the inner space of the integrated structure of the first side member 121, the second side member 122 and the upper side member 123 on both sides, the lower side member 125 can be combined, as a specific For example, welding may be used to connect the lower part 125 and the first side part 121 and the second side part 122 .

圖5是用於關於本發明的一實施例的加熱元件的使用的示例性的圖,圖6是圖5的B的示意性的放大圖。 FIG. 5 is an exemplary diagram for use of a heating element related to an embodiment of the present invention, and FIG. 6 is a schematic enlarged diagram of B of FIG. 5 .

參考圖5,作為一例,與加熱元件100相鄰地配置有噴淋頭SH。例如,噴淋頭SH可以形成為使一種以上的氣體流入被處理材料SW。 Referring to FIG. 5 , as an example, a shower head SH is arranged adjacent to the heating element 100 . For example, the shower head SH may be formed so that one or more types of gas may flow into the material SW to be processed.

此外,可以在噴淋頭SH的下部配置待進行通過氣體分配的處理或利用等離子體反應的處理的被處理材料SW。例如,被處理材料SW可以是基板或晶圓等多樣的種類。 In addition, the material SW to be processed by gas distribution or processed by plasma reaction may be arranged under the shower head SH. For example, the material SW to be processed may be of various types such as a substrate or a wafer.

可以在加熱元件100的加熱體部110的內側區域配置噴淋頭SH,例如可以配置為與配置加熱部件HB的面的相反面即加熱體部110的下面的一個區域相鄰。 The shower head SH may be arranged in the inner region of the heating body 110 of the heating element 100 , for example, may be arranged adjacent to a region on the lower surface of the heating body 110 on the surface opposite to the surface on which the heating member HB is arranged.

作為可選的實施例,可以在加熱體部110的內側區域配置電介質窗DEW。例如,可以配置為與配置加熱部件HB的面的相反面即加熱體部110的上面的一個區域相鄰。 As an optional embodiment, a dielectric window DEW may be arranged in the inner region of the heating body 110 . For example, it may be arranged adjacent to a region on the upper surface of the heating body portion 110 which is the opposite surface to the surface on which the heating member HB is arranged.

電介質窗DEW可以支撐向噴淋頭SH供應氣體的氣體供應部(未圖示)。 The dielectric window DEW may support a gas supply part (not shown) that supplies gas to the shower head SH.

由此,在由加熱部件HB產生的熱通過加熱體部110被傳遞至噴淋頭SH或電介質窗DEW或氣體供應部(未圖示)等時,提高熱傳遞的均勻性,並且可以減少因局部性的熱集中而引發的不良。 Thus, when the heat generated by the heating member HB is transferred to the shower head SH, the dielectric window DEW, or the gas supply part (not shown) through the heating body part 110, the uniformity of heat transfer can be improved, and the Defects caused by localized heat concentration.

參考圖6,夾具部130可以包括與上側部件123相接的第一接觸部131和與加熱體部110相接的第二接觸部132,並且夾具部130可以形成為當夾具部130的一個區域固定於加熱體部110並且另一個區域支撐熱傳遞部件120的上側部件123時形成間隔區域。 Referring to FIG. 6 , the jig part 130 may include a first contact part 131 in contact with the upper part 123 and a second contact part 132 in contact with the heating body part 110 , and the jig part 130 may be formed as an area of the jig part 130 A space area is formed when it is fixed to the heating body part 110 and another area supports the upper side part 123 of the heat transfer part 120 .

例如,加熱體部110的第一間隔區域ET和上側部件123的第二間隔區域ES可以與夾具部130間隔開。由此,可以減少由加熱部件HB產生的熱被傳遞至熱傳遞部件120或加熱體部110後不必要地停留在夾具部130或通過夾具部130損失。 For example, the first spacing area ET of the heating body part 110 and the second spacing area ES of the upper part 123 may be spaced apart from the jig part 130 . In this way, heat generated by the heating part HB can be reduced from unnecessary staying in the jig part 130 or being lost through the jig part 130 after being transferred to the heat transfer part 120 or the heating body part 110 .

從結果而言,可以容易地加大利用加熱元件100提高熱傳遞特性和減少熱損失的效果。 As a result, the effects of improving heat transfer characteristics and reducing heat loss by using the heating element 100 can be easily increased.

雖然如此參考附圖中所示的實施例對本發明進行了描述,但這些僅僅是示例性的,本發明所屬技術領域中具有通常知識者將理解可以從中進行多樣的變形和等效的其他實施例。因此,本發明的真正的技術保護範圍應由所附申請專利範圍的技術思想界定。 While the invention has thus been described with reference to the embodiments shown in the drawings, these are examples only and those skilled in the art to which this invention pertains will appreciate that various modifications and equivalent other embodiments may be made therefrom. . Therefore, the true technical protection scope of the present invention should be defined by the technical ideas of the appended patent scope.

實施例中描述的特定實施是一實施例,並不以任何方法限定實施例的範圍。此外,除非有如“必備的”、“重要地”等具體的提及,也可能不是用於本發明的應用的必不可缺的構成要素。 The specific implementation described in the examples is an example and does not limit the scope of the examples in any way. In addition, unless specifically mentioned such as "essentially" and "importantly", it may not be an indispensable constituent element for the application of the present invention.

在實施例的說明書中(尤其在申請專利範圍中),術語“所述”和與之類似的指示術語的使用可以同時對應於單數和複數。此外,當在實施例中記載範圍(range)時,包括應用屬於所述範圍的個別的值的發明(除非有相反的記載),等同於在詳細說明中記載構成所述範圍的每個個別的值。最後,對於構成實施例的方法的步驟,除非明確記載順序或者有相反的記載,這些 步驟可以以適當的循序執行。並非一定按照這些步驟的記載順序限定實施例。實施例中的所有示例或示例性術語(例如,等等)的使用僅用於對實施例進行詳細說明,除非由申請專利範圍限定,實施例的範圍不為這些示例或示例性術語所限定。此外,本發明所屬技術領域中具有通常知識者將可以理解,可以在所附申請專利範圍或其等效物的範疇內根據設計條件和因素進行多樣的修改、組合和變更。 In the description of the embodiments (especially in the claims), the use of the term "said" and similar indicative terms may correspond to both the singular and the plural. In addition, when a range is described in the examples, the invention including the application of individual values belonging to the range (unless stated to the contrary) is equivalent to describing each individual value constituting the range in the detailed description. value. Finally, for the steps of the methods that constitute the embodiments, unless the order is explicitly stated or stated to the contrary, these The steps may be performed in a suitable sequence. The embodiment is not necessarily limited to the described order of these steps. All examples or use of exemplary terms (eg, etc.) in the embodiments are only used to describe the embodiments in detail, and the scope of the embodiments is not limited by these examples or exemplary terms unless defined by the scope of the patent application. In addition, those skilled in the art to which the present invention pertains will understand that various modifications, combinations and changes can be made according to design conditions and factors within the scope of the appended claims or their equivalents.

100:加熱元件 100: heating element

110:加熱體部 110: Heating the body

111:凹槽 111: Groove

120:熱傳遞部件 120: heat transfer components

121:第一側面部件 121: First side part

122:第二側面部件 122: Second side part

123:上側部件 123: upper part

123C:相向面 123C: opposite side

125:下側部件 125: lower part

130:夾具部 130: Fixture Department

HB:加熱部件 HB: heating element

SA:間隔部 SA: spacer

SR:第一側面部件、第二側面部件之間的空間 SR: space between first side part, second side part

T1:第一厚度 T1: first thickness

T2:第二厚度 T2: second thickness

T3:第三厚度 T3: third thickness

Claims (11)

一種加熱元件,其中,包括:一加熱部件,其形成為產生熱;一加熱體部,其接收由該加熱部件產生的熱;以及一熱傳遞部件,其配置於該加熱體部與該加熱部件之間的至少一個區域,該加熱體部包括與該熱傳遞部件對應地形成的一凹槽,該加熱部件配置為與該凹槽的內側面的至少一個區域相向,該熱傳遞部件包括在該加熱部件與該凹槽的內側面之間與該加熱部件和該凹槽的內側面相向地形成的一側面部件;其中,該熱傳遞部件當配置於該凹槽時至少一個區域從該凹槽凸出地配置。 A heating element, comprising: a heating member formed to generate heat; a heating body receiving heat generated by the heating member; and a heat transfer member disposed between the heating body and the heating member At least one region between them, the heating body includes a groove formed corresponding to the heat transfer component, the heating component is configured to face at least one region of the inner surface of the groove, the heat transfer component is included in the A side member formed between the heating member and the inner surface of the groove and facing the heating member and the inner surface of the groove; wherein, when the heat transfer member is arranged in the groove, at least one area is separated from the groove Protrudingly configured. 根據請求項1所述的加熱元件,其中,該熱傳遞部件形成為包括一上側部件,該上側部件形成為覆蓋該加熱部件的上面。 The heating element according to claim 1, wherein the heat transfer member is formed to include an upper side member formed to cover an upper surface of the heating member. 根據請求項2所述的加熱元件,其中,該側面部件連接於該上側部件並且形成為至少對應於該加熱部件的相向的兩個側面。 The heating element according to claim 2, wherein the side member is connected to the upper member and is formed to correspond to at least two facing sides of the heating member. 根據請求項3所述的加熱元件,其中,該上側部件包括與該加熱部件相向的一相向面,該上側部件的該相向面形成為具有與該加熱部件的上面對應的形態。 The heating element according to claim 3, wherein the upper member includes a facing surface facing the heating member, and the facing surface of the upper member is formed to have a shape corresponding to the upper surface of the heating member. 根據請求項3所述的加熱元件,其中,該熱傳遞部件包括一下側部件,該下側部件與該側面部件連接並且配置為隔著該加熱部件與該上側部件相向。 The heating element according to claim 3, wherein the heat transfer member includes a lower member connected to the side member and arranged to face the upper member via the heating member. 一種加熱元件,其中,包括:一加熱部件,其形成為產生熱;一加熱體部,其接收由該加熱部件產生的熱;一熱傳遞部件,其配置於該加熱體部與該加熱部件之間的至少一個區域;以及一夾具部,其配置於該加熱體部上並且形成為支撐該熱傳遞部件的一個區域;該加熱體部包括與該熱傳遞部件對應地形成的一凹槽,該加熱部件配置為與該凹槽的內側面的至少一個區域相向,該熱傳遞部件包括在該加熱部件與該凹槽的內側面之間與該加熱部件和該凹槽的內側面相向地形成的一側面部件。 A heating element, comprising: a heating component formed to generate heat; a heating body receiving heat generated by the heating component; a heat transfer component disposed between the heating body and the heating component at least one area between them; and a clamp portion, which is configured on the heating body and formed as an area supporting the heat transfer member; the heating body includes a groove formed corresponding to the heat transfer member, the The heating part is configured to face at least one area of the inner surface of the groove, and the heat transfer part includes a heating part formed between the heating part and the inner surface of the groove to face the heating part and the inner surface of the groove. One side part. 根據請求項6所述的加熱元件,其中,該夾具部以向該熱傳遞部件的外面的一個區域施加壓力的方法固定該加熱部件。 The heating element according to claim 6, wherein the clamp portion fixes the heating member by applying pressure to an area outside the heat transfer member. 根據請求項6所述的加熱元件,其中,該夾具部配置為不對應於該凹槽的內側空間且與該凹槽的內側空間間隔開。 The heating element according to claim 6, wherein the clamp portion is configured not to correspond to and spaced apart from the inner space of the groove. 根據請求項6所述的加熱元件,其中, 該夾具部形成為具有從在該加熱體部的一面中與該凹槽間隔開的區域延伸成與該凹槽的至少一個區域重疊的位置對應的形態。 The heating element of claim 6, wherein, The jig part is formed to have a form corresponding to a position extending from a region spaced apart from the groove in one face of the heating body part to overlap at least one region of the groove. 根據請求項9所述的加熱元件,其中,該夾具部形成為在與該凹槽間隔開的區域和與該凹槽的至少一個區域重疊的區域之間具有彎曲的形態。 The heating element according to claim 9, wherein the clamp portion is formed to have a curved configuration between a region spaced apart from the groove and a region overlapping at least one region of the groove. 一種加熱元件,其中,包括:一加熱部件,其形成為產生熱;一加熱體部,其接收由該加熱部件產生的熱;以及一熱傳遞部件,其配置於該加熱體部與該加熱部件之間的至少一個區域,該加熱體部包括與該熱傳遞部件對應地形成的一凹槽,該加熱部件配置為與該凹槽的內側面的至少一個區域相向,該熱傳遞部件包括在該加熱部件與該凹槽的內側面之間與該加熱部件和該凹槽的內側面相向地形成的一側面部件;在該側面部件與該加熱部件之間的至少一個區域形成有間隔開的空間。 A heating element, comprising: a heating member formed to generate heat; a heating body receiving heat generated by the heating member; and a heat transfer member disposed between the heating body and the heating member At least one region between them, the heating body includes a groove formed corresponding to the heat transfer component, the heating component is configured to face at least one region of the inner surface of the groove, the heat transfer component is included in the a side member formed between the heating member and the inner surface of the groove opposite to the heating member and the inner surface of the groove; at least one area between the side member and the heating member is formed with a space apart .
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TW200612769A (en) * 2004-10-08 2006-04-16 Furukawa Sky Aluminum Corp Heater plate, and manufacturing method thereof
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