TWI821573B - Electrothermal fabric - Google Patents
Electrothermal fabric Download PDFInfo
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- TWI821573B TWI821573B TW109120063A TW109120063A TWI821573B TW I821573 B TWI821573 B TW I821573B TW 109120063 A TW109120063 A TW 109120063A TW 109120063 A TW109120063 A TW 109120063A TW I821573 B TWI821573 B TW I821573B
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- electric heating
- hole structure
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- 239000004744 fabric Substances 0.000 title claims abstract description 97
- 238000010438 heat treatment Methods 0.000 claims description 71
- 238000005485 electric heating Methods 0.000 claims description 63
- 238000005452 bending Methods 0.000 claims description 33
- 239000002184 metal Substances 0.000 claims description 7
- 229910052751 metal Inorganic materials 0.000 claims description 7
- 229920000728 polyester Polymers 0.000 claims description 6
- 235000001674 Agaricus brunnescens Nutrition 0.000 claims description 3
- 210000000746 body region Anatomy 0.000 abstract description 13
- 229920001971 elastomer Polymers 0.000 description 8
- 238000010586 diagram Methods 0.000 description 5
- 238000009413 insulation Methods 0.000 description 4
- 238000009825 accumulation Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 3
- PXHVJJICTQNCMI-UHFFFAOYSA-N Nickel Chemical compound [Ni] PXHVJJICTQNCMI-UHFFFAOYSA-N 0.000 description 2
- 238000003486 chemical etching Methods 0.000 description 2
- 238000010147 laser engraving Methods 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000004753 textile Substances 0.000 description 2
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 1
- 239000004642 Polyimide Substances 0.000 description 1
- BQCADISMDOOEFD-UHFFFAOYSA-N Silver Chemical compound [Ag] BQCADISMDOOEFD-UHFFFAOYSA-N 0.000 description 1
- 239000002313 adhesive film Substances 0.000 description 1
- 239000000956 alloy Substances 0.000 description 1
- 229910045601 alloy Inorganic materials 0.000 description 1
- 230000002860 competitive effect Effects 0.000 description 1
- 229910052802 copper Inorganic materials 0.000 description 1
- 239000010949 copper Substances 0.000 description 1
- 229910003460 diamond Inorganic materials 0.000 description 1
- 239000010432 diamond Substances 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000005470 impregnation Methods 0.000 description 1
- 150000002739 metals Chemical class 0.000 description 1
- 229910052759 nickel Inorganic materials 0.000 description 1
- -1 polyethylene terephthalate Polymers 0.000 description 1
- 229920000139 polyethylene terephthalate Polymers 0.000 description 1
- 239000005020 polyethylene terephthalate Substances 0.000 description 1
- 229920001721 polyimide Polymers 0.000 description 1
- 229920002635 polyurethane Polymers 0.000 description 1
- 239000004814 polyurethane Substances 0.000 description 1
- 238000007650 screen-printing Methods 0.000 description 1
- 229910052709 silver Inorganic materials 0.000 description 1
- 239000004332 silver Substances 0.000 description 1
- 125000006850 spacer group Chemical group 0.000 description 1
Images
Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B3/00—Ohmic-resistance heating
- H05B3/20—Heating elements having extended surface area substantially in a two-dimensional plane, e.g. plate-heater
- H05B3/22—Heating elements having extended surface area substantially in a two-dimensional plane, e.g. plate-heater non-flexible
- H05B3/28—Heating elements having extended surface area substantially in a two-dimensional plane, e.g. plate-heater non-flexible heating conductor embedded in insulating material
Landscapes
- Surface Heating Bodies (AREA)
- Particle Formation And Scattering Control In Inkjet Printers (AREA)
Abstract
Description
本揭露是有關於一種電熱織物,且特別是有關於一種具有孔洞結構的電熱織物。 The present disclosure relates to an electric heating fabric, and in particular to an electric heating fabric with a hole structure.
在全球化的趨勢下,紡織產業正面臨強大的競爭壓力,紡織業者必須不斷研發新的技術與多元化的產品,才能面對全世界的競爭。為了滿足消費者多元的需求,目前市面上已出現多種多功能織物的產品,例如防水織物、保溫織物或電熱織物等。 Under the trend of globalization, the textile industry is facing strong competitive pressure. Textile manufacturers must continue to develop new technologies and diversified products in order to face global competition. In order to meet the diverse needs of consumers, a variety of multi-functional fabric products have appeared on the market, such as waterproof fabrics, thermal insulation fabrics or electric heating fabrics.
常見的電熱織物可依需求配置在衣物或毛毯的內部,以達到良好的保暖效果。然而,衣物在穿戴時會因為穿戴者的行動而造成形狀的改變,從而使得電熱織物不平均地發熱,甚至有熱累積在特定部位的情形。因此,如何有效地解決上述問題,便成為目前相當重要的議題。 Common electric heating fabrics can be configured inside clothing or blankets according to needs to achieve good thermal insulation effects. However, the shape of the clothing changes due to the wearer's actions when it is worn, causing the electrothermal fabric to heat unevenly, or even accumulating heat in specific parts. Therefore, how to effectively solve the above problems has become a very important issue at present.
本揭露內容提供一種電熱織物,其可提供均勻分布的熱,從而提供穿戴者舒適的使用體驗。 The present disclosure provides an electrothermal fabric that can provide evenly distributed heat, thereby providing a comfortable user experience for the wearer.
根據本揭露一實施方式,電熱織物包括本體區及多個發熱區。各發熱區具有孔洞結構,並連接於本體區的一側,其中相鄰兩發熱區間具有間隔,間隔在發熱區連接於本體區處具有彎折部,且發熱區的平均電阻高於本體區的平均電阻。 According to an embodiment of the present disclosure, the electric heating fabric includes a body area and a plurality of heating areas. Each heating area has a hole structure and is connected to one side of the body area. Two adjacent heating areas have an interval. The interval has a bending portion where the heating area is connected to the body area, and the average resistance of the heating area is higher than that of the body area. average resistance.
在本揭露一實施方式中,彎折部為半圓型、平弧型或蘑菇型。 In an embodiment of the present disclosure, the bent portion is semicircular, flat arc or mushroom-shaped.
在本揭露一實施方式中,彎折部以間隔的長軸為基準而橫向加寬。 In an embodiment of the present disclosure, the bent portion is laterally widened based on the long axis of the interval.
在本揭露一實施方式中,發熱區具有緩衝區域,緩衝區域的孔洞密度低於發熱區的其他部分的孔洞密度,且彎折部位於緩衝區域中。 In an embodiment of the present disclosure, the heating area has a buffer area, the hole density of the buffer area is lower than the hole density of other parts of the heating area, and the bending part is located in the buffer area.
在本揭露一些實施方式中,緩衝區域不具有孔洞結構。 In some embodiments of the present disclosure, the buffer area does not have a hole structure.
在本揭露一些實施方式中,緩衝區域的寬度由本體區朝向發熱區的方向漸縮。 In some embodiments of the present disclosure, the width of the buffer area tapers from the body area toward the heat generating area.
在本揭露一些實施方式中,孔洞結構包括菱形孔洞。 In some embodiments of the present disclosure, the hole structure includes diamond-shaped holes.
在本揭露一些實施方式中,菱形孔洞的長軸平行於間隔的長軸。 In some embodiments of the present disclosure, the long axis of the diamond-shaped holes is parallel to the long axis of the spacer.
在本揭露一些實施方式中,孔洞結構佔發熱區的整體表面積的15%至85%。 In some embodiments of the present disclosure, the hole structure accounts for 15% to 85% of the entire surface area of the heating area.
在本揭露一些實施方式中,電熱織物更具有介於0.01Ω/□至1Ω/□間的表面電阻。 In some embodiments of the present disclosure, the electrothermal fabric further has a surface resistance between 0.01Ω/□ and 1Ω/□.
根據本揭露上述實施方式,電熱織物包括本體區以及多個發熱區,其中發熱區具有孔洞結構,且相鄰的發熱區間具有間隔,又間隔在發熱區連接於本體區處具有彎折部。因此,本揭露的電熱織物可提供均勻分布的熱,從而提供穿戴者舒適的使用體驗。 According to the above embodiments of the present disclosure, the electric heating fabric includes a body region and a plurality of heating regions, wherein the heating region has a hole structure, and adjacent heating regions have intervals, and the intervals have bending portions where the heating regions are connected to the body region. Therefore, the electrothermal fabric of the present disclosure can provide evenly distributed heat, thereby providing a comfortable user experience for the wearer.
100,200,300:電熱織物 100,200,300: Electric heating fabric
110,210,310:本體區 110,210,310: Ontology area
130,230:發熱區 130,230: Heating area
132:緩衝區域 132: Buffer area
150,250,350:彎折部 150,250,350: Bending part
151:矩形部 151: Rectangular part
153:半圓形部 153: Semicircular part
155:半平弧形部 155: Semi-flat arc part
170,270:延伸區 170,270: extension area
D,D':間隔 D,D':interval
L:彎折部的長軸 L: Long axis of the bending part
Y:菱形孔洞的長軸 Y: long axis of rhombus hole
W:寬度 W: Width
C:倒角 C: chamfer
H:孔洞結構 H: hole structure
H1:菱形孔洞 H1: Diamond shaped hole
為讓本發明的上述和其他目的、特徵、優點與實施例能更明顯易懂,所附圖式之說明如下:第1圖繪示根據本揭露一實施方式的電熱織物的正視示意圖;第2圖繪示根據本揭露另一實施方式的電熱織物的正視示意圖;第3圖繪示根據本揭露另一實施方式的電熱織物的正視示意圖;第4圖至第6圖繪示第1圖的電熱織物的彎折部在不同實施方式中的示意圖;第7圖繪示第1圖的電熱織物的孔洞結構在一實施方式中的示意圖;以及第8圖繪示第1圖的電熱織物的緩衝區域在一實施方式中的示意圖。 In order to make the above and other objects, features, advantages and embodiments of the present invention more clearly understood, the accompanying drawings are described as follows: Figure 1 is a schematic front view of an electric heating fabric according to an embodiment of the present disclosure; Figure 2 Figure 3 shows a schematic front view of an electric heating fabric according to another embodiment of the present disclosure; Figure 3 shows a schematic front view of an electric heating fabric according to another embodiment of the present disclosure; Figures 4 to 6 illustrate the electric heating fabric in Figure 1 Schematic diagrams of the bending portion of the fabric in different embodiments; Figure 7 illustrates a schematic diagram of the hole structure of the electrothermal fabric in Figure 1 in one embodiment; and Figure 8 illustrates the buffer area of the electrothermal fabric in Figure 1 Schematic diagram in one embodiment.
以下將以圖式揭露本發明的複數個實施方式,為明 確地說明起見,許多實務上的細節將在以下敘述中一併說明。然而,應瞭解到,這些實務上的細節不應用以限制本發明。也就是說,在本發明部分實施方式中,這些實務上的細節是非必要的。此外,為簡化圖式起見,一些習知慣用的結構與元件在圖式中將以簡單示意的方式繪示之。 A plurality of embodiments of the present invention will be disclosed in the following drawings for clarity. For the sake of clarity, many practical details will be explained in the following description. However, it will be understood that these practical details should not limit the invention. That is to say, in some embodiments of the present invention, these practical details are not necessary. In addition, for the sake of simplifying the drawings, some commonly used structures and components will be illustrated in a simple schematic manner in the drawings.
本揭露內容提供一種電熱織物,其可提供均勻分布的熱,並可透過孔洞結構及彎折部的配置來提升熱分布的均勻性。 The present disclosure provides an electric heating fabric that can provide evenly distributed heat, and can improve the uniformity of heat distribution through the configuration of the hole structure and the bending portion.
第1圖繪示根據本揭露一實施方式的電熱織物100的正視示意圖。電熱織物100包括本體區110以及多個發熱區130(例如,兩個以上的發熱區130),且各發熱區130連接於本體區110的一側並具有孔洞結構H。相鄰的發熱區130間具有間隔D,且間隔D在發熱區130連接於本體區110處具有彎折部150。當對電熱織物100通電時,其可藉由電熱效應來產生熱,而電阻較高的區域可產生較多的熱(亦即可達到較高的溫度)。由於在本揭露的電熱織物100中,發熱區130的平均電阻高於本體區110的平均電阻,因此發熱區130的溫度會高於本體區110的溫度,從而適用於保暖。在一些實施方式中,電熱織物100可具有0.01Ω/□至1Ω/□的表面電阻,使其達到良好的保暖效果。
Figure 1 illustrates a schematic front view of an electrothermal fabric 100 according to an embodiment of the present disclosure. The electric heating fabric 100 includes a body area 110 and a plurality of heating areas 130 (for example, more than two heating areas 130), and each heating area 130 is connected to one side of the body area 110 and has a hole structure H. There is a gap D between adjacent heating areas 130 , and the gap D has a
在一些實施方式中,電熱織物100可包括聚酯布料以及導電金屬。在一些實施方式中,導電金屬可配置於聚酯布料的表面,以於聚酯布料的表面形成金屬薄膜。在 一些實施方式中,可透過含浸或網版印刷的方式將例如是銅、銀或鎳等金屬或合金配置在聚酯布料上,從而製作成電熱織物100。在一些實施方式中,電熱織物100的厚度可介於30μm至70μm間,且其中金屬薄膜的厚度可介於3μm至10μm間,從而提供輕量化及穿戴舒適性。 In some embodiments, the electrothermal fabric 100 may include polyester fabric and conductive metal. In some embodiments, conductive metal can be disposed on the surface of the polyester cloth to form a metal film on the surface of the polyester cloth. exist In some embodiments, metals or alloys such as copper, silver, or nickel can be disposed on polyester fabric by impregnation or screen printing to produce the electrothermal fabric 100 . In some embodiments, the thickness of the electrothermal fabric 100 may range from 30 μm to 70 μm, and the thickness of the metal film may range from 3 μm to 10 μm, thereby providing lightweight and wearing comfort.
各發熱區130連接於本體區110的一側,且相鄰的發熱區130間具有間隔D。在一些實施方式中,間隔D可以固定的寬度配置於相鄰的發熱區130間。間隔D在發熱區130連接於本體區110處具有彎折部150,當熱由發熱區130往本體區110移動時,彎折部150可避免熱累積在發熱區130與本體區110的連接處,從而使得電熱織物100可提供均勻分布的熱。在一些實施方式中,可透過雷射雕刻或化學蝕刻的方式形成彎折部150。
Each heating area 130 is connected to one side of the body area 110, and there is a distance D between adjacent heating areas 130. In some embodiments, the gap D can be configured with a fixed width between adjacent heating areas 130 . The gap D has a
各發熱區130具有孔洞結構H。在一些實施方式中,孔洞結構H可以等間距交錯或陣列地排列於發熱區130中。在一些實施方式中,孔洞結構H可佔發熱區130的整體表面積的15%至85%,以使發熱區130達到一定的平均電阻,並使發熱區130具有足夠硬挺的結構。詳細而言,當孔洞結構H佔發熱區130的整體表面積的15%以下時,可能導致發熱區130的平均電阻太低;而當孔洞結構H佔發熱區130的整體表面積的85%以上時,則可能導致發熱區130的硬挺性不足,不利於電熱織物100後續應用的配置與固定。在一些實施方式中,可透過雷射雕刻或化學蝕刻的方式形成孔洞結構H。 Each heating area 130 has a hole structure H. In some embodiments, the hole structures H may be arranged in the heating area 130 in a staggered or array manner at equal intervals. In some embodiments, the hole structure H may account for 15% to 85% of the entire surface area of the heating area 130 so that the heating area 130 reaches a certain average resistance and has a sufficiently stiff structure. Specifically, when the hole structure H accounts for less than 15% of the entire surface area of the heating area 130, the average resistance of the heating area 130 may be too low; and when the hole structure H accounts for more than 85% of the entire surface area of the heating area 130, the average resistance of the heating area 130 may be too low. This may result in insufficient stiffness of the heating area 130, which is not conducive to the configuration and fixation of the electrothermal fabric 100 for subsequent applications. In some embodiments, the hole structure H can be formed by laser engraving or chemical etching.
在一些實施方式中,發熱區130及本體區110皆可具有孔洞結構H,且發熱區130的孔洞密度(分布密度)大於本體區110的孔洞密度,以使發熱區130的平均電阻高於本體區110的平均電阻。在一些實施方式中,發熱區130中相鄰的孔洞結構H的中心點間的距離可介於2mm至12mm間,以使得孔洞結構H可以合適的密度分布於發熱區130中。在另一些實施方式中,本體區110可不具有孔洞結構H,從而提高發熱區130與本體區110兩者間的平均電阻的差值。 In some embodiments, both the heating area 130 and the body area 110 may have a hole structure H, and the hole density (distribution density) of the heating area 130 is greater than the hole density of the body area 110, so that the average resistance of the heating area 130 is higher than that of the body. Average resistance of zone 110. In some embodiments, the distance between the center points of adjacent hole structures H in the heating area 130 can be between 2 mm and 12 mm, so that the hole structures H can be distributed in the heating area 130 with a suitable density. In other embodiments, the body region 110 may not have the hole structure H, thereby increasing the difference in average resistance between the heating region 130 and the body region 110 .
在一些實施方式中,發熱區130可具有緩衝區域132,且緩衝區域132可位於發熱區130中相鄰於本體區110的位置。更詳細而言,彎折部150可位於緩衝區域132中,並受緩衝區域132夾置。在一些實施方式中,緩衝區域132的孔洞密度可小於發熱區130的其他部分的孔洞密度,使得緩衝區域132的平均電阻可低於發熱區130的其他部分的平均電阻。如此一來,緩衝區域132可避免熱累積在發熱區130與本體區110的連接處。在一些實施方式中,緩衝區域132的寬度可由本體區110朝向發熱區130的方向漸縮,使得熱可更均勻地分布於電熱織物100中。
In some embodiments, the heating area 130 may have a
在一些實施方式中,電熱織物100更可包括分別連接各發熱區130的多個延伸區170,其可提升電熱織物100的結構強度,有利於電熱織物100後續應用的配置與固定。在一些實施方式中,相鄰的延伸區170間可具有間隔D',且間隔D'可以固定的寬度配置於相鄰的延伸區170 間。在一些實施方式中,各延伸區170間的間隔D'與各發熱區130間的間隔D可彼此連通。在一些實施方式中,延伸區170亦可具有孔洞結構H,且延伸區170的孔洞密度小於發熱區130的孔洞密度,使得延伸區170可具有良好的結構強度。在另一些實施方式中,延伸區170可不具有孔洞結構H,以進一步提升延伸區170的結構強度。 In some embodiments, the electric heating fabric 100 may further include a plurality of extension areas 170 respectively connected to each heating area 130, which can improve the structural strength of the electric heating fabric 100 and facilitate the configuration and fixation of the electric heating fabric 100 for subsequent applications. In some embodiments, there may be a gap D' between adjacent extension regions 170, and the gap D' may be configured with a fixed width at the adjacent extension regions 170. between. In some embodiments, the spacing D' between the extension regions 170 and the spacing D between the heating regions 130 may be connected to each other. In some embodiments, the extension area 170 may also have a hole structure H, and the hole density of the extension area 170 is smaller than the hole density of the heating area 130 , so that the extension area 170 may have good structural strength. In other embodiments, the extension area 170 may not have the hole structure H to further enhance the structural strength of the extension area 170 .
在一些實施方式中,電熱織物100的相對兩表面可配置披覆膠皮,且披覆膠皮可透過膠膜貼附於電熱織物100的表面。披覆膠皮配置以保護電熱織物100,以避免電熱織物100直接暴露於外界環境中,從而延長電熱織物100的使用壽命並提高電熱織物100的水洗牢度。在一些實施方式中,披覆膠皮可例如是聚醯亞胺的絕緣耐高溫材料,且膠膜可例如是聚對苯二甲酸乙二酯或聚氨酯等絕緣耐高溫材料。在一些實施方式中,膠膜可經熱壓滲透以將披覆膠皮固定於電熱織物100。 In some embodiments, two opposite surfaces of the electric heating fabric 100 can be covered with rubber, and the covering rubber can be attached to the surface of the electric heating fabric 100 through the rubber film. The rubber covering is configured to protect the electric heating fabric 100 to prevent the electric heating fabric 100 from being directly exposed to the external environment, thereby extending the service life of the electric heating fabric 100 and improving the wash fastness of the electric heating fabric 100 . In some embodiments, the covering rubber may be an insulating and high-temperature-resistant material such as polyimide, and the rubber film may be an insulating and high-temperature-resistant material such as polyethylene terephthalate or polyurethane. In some embodiments, the adhesive film can be penetrated by heat pressure to fix the covering rubber to the electric heating fabric 100 .
第2圖繪示根據本揭露另一實施方式的電熱織物200的正視示意圖。第2圖的電熱織物200是由兩個第1圖的電熱織物100經橫向並聯而形成的。更詳細而言,兩個第1圖的電熱織物100分別透過各自的一個延伸區170相互連接,以形成第2圖的電熱織物200,而相互連接的延伸區170進一步形成第2圖的電熱織物200的本體區210。具體而言,電熱織物200包括三個本體區210,且其中一個本體區210橫向地位於另兩個本體區210間。另外,發熱區230未連接本體區210的一側可各自連接一個 延伸區270,且延伸區270可適於與其他延伸區(未繪示)連接。基於上述,本體區210、發熱區230及延伸區270可共同地形成S形的開放結構,且第2圖的電熱織物200可具有三個彎折部250。 Figure 2 illustrates a schematic front view of an electrothermal fabric 200 according to another embodiment of the present disclosure. The electric heating fabric 200 in Figure 2 is formed by two electric heating fabrics 100 in Figure 1 connected in parallel laterally. In more detail, the two electric heating fabrics 100 in Figure 1 are connected to each other through one of their respective extension areas 170 to form the electric heating fabric 200 in Figure 2 , and the interconnected extension areas 170 further form the electric heating fabric in Figure 2 Body area 210 of 200. Specifically, the electrothermal fabric 200 includes three body regions 210 , and one of the body regions 210 is laterally located between the other two body regions 210 . In addition, the sides of the heating area 230 that are not connected to the body area 210 can each be connected to a Extension area 270, and extension area 270 may be adapted to connect with other extension areas (not shown). Based on the above, the body area 210 , the heating area 230 and the extension area 270 may jointly form an S-shaped open structure, and the electric heating fabric 200 in FIG. 2 may have three bending parts 250 .
第3圖繪示根據本揭露另一實施方式的電熱織物300的正視示意圖。第3圖的電熱織物300是由兩個第1圖的電熱織物100經縱向串聯而形成的。更詳細而言,兩個第1圖的電熱織物100分別透過各自的延伸區170相互連接,以形成第3圖的電熱織物300。具體而言,電熱織物300包括兩個本體區310,且兩個本體區210將四個發熱區230以及兩個延伸區270夾置於其間。基於上述,本體區210、發熱區230及延伸區270可共同地形成環形封閉結構,且第3圖的電熱織物300可具有兩個彎折部350。 FIG. 3 illustrates a schematic front view of an electrothermal fabric 300 according to another embodiment of the present disclosure. The electric heating fabric 300 in Figure 3 is formed by two electric heating fabrics 100 in Figure 1 connected in series longitudinally. In more detail, two electric heating fabrics 100 in Figure 1 are connected to each other through respective extension areas 170 to form the electric heating fabric 300 in Figure 3 . Specifically, the electric heating fabric 300 includes two body areas 310, and the two body areas 210 sandwich four heating areas 230 and two extension areas 270 therebetween. Based on the above, the body area 210, the heating area 230 and the extension area 270 can jointly form an annular closed structure, and the electric heating fabric 300 in Figure 3 can have two bending parts 350.
應瞭解到,在本揭露的電熱織物中,至少前述的彎折部、孔洞結構以及緩衝區域的配置可影響電熱織物的熱分布均勻性。在以下敘述中,將針對彎折部、孔洞結構以及緩衝區域的配置進行更詳細的說明。 It should be understood that in the electric heating fabric of the present disclosure, at least the configuration of the aforementioned bending portion, hole structure and buffer area can affect the uniformity of heat distribution of the electric heating fabric. In the following description, the configuration of the bending portion, the hole structure and the buffer area will be described in more detail.
第4圖至第6圖繪示第1圖的電熱織物100的彎折部150在不同實施方式中的示意圖。為了清楚說明,第4圖至第6圖以圓形圖案簡單地示意孔洞結構H,但並不用以限制本揭露。首先,請參閱第4圖,其彎折部150的形狀是半圓型。在一些實施方式中,半圓型的彎折部150的直徑可等於間隔D的寬度W,也就是說,可由間隔D的
寬度W作為直徑以形成半圓型的彎折部150。
Figures 4 to 6 are schematic views of the
接著,請參閱第5圖,其彎折部150的形狀是平弧型。具體而言,平弧型的彎折部150可包括矩形部151以及兩個半圓形部153,矩形部151與間隔D連通,且兩個半圓形部153橫向地將矩形部151夾置於其間。平弧型的彎折部150以間隔D的長軸為基準而橫向加寬。在一些實施方式中,平弧型的彎折部150的長軸L的長度可大於間隔D的寬度W的2倍。在一些實施方式中,平弧型的彎折部150更可具有倒角C位於其與間隔D的連接處,從而避免熱累積的現象發生。
Next, please refer to Figure 5. The shape of the bending
隨後,請參閱第6圖,其彎折部150的形狀是蘑菇型。具體而言,蘑菇型的彎折部150可包括半圓形部153及半平弧形部155,且半圓形部153與間隔D縱向地將半平弧形部155夾置於其間。蘑菇型的彎折部150以間隔D的長軸為基準而橫向加寬。在一些實施方式中,蘑菇型的彎折部150的長軸L的長度可大於間隔D的寬度W的2倍。在一些實施方式中,蘑菇型的彎折部150更可具有倒角C位於其與間隔D的連接處,從而避免熱累積的現象發生。
Subsequently, please refer to Figure 6 , the shape of the bending
第7圖繪示第1圖的電熱織物100的孔洞結構H在一實施方式中的示意圖。為了清楚說明,第7圖以半圓型的彎折部150簡單地示意彎折部150,但並不用以限制本揭露。第7圖的孔洞結構H包括菱形孔洞H1,且菱形孔洞H1的長軸Y平行於間隔D的長軸。藉此,可提升熱
在發熱區130(見第1圖)中的流動性,使得電熱織物100可提供更均勻分布的熱。需特別說明的是,本文中「菱形孔洞H1的長軸Y」是指菱形孔洞H1中較長的對角線。
FIG. 7 is a schematic diagram of the hole structure H of the electrothermal fabric 100 in FIG. 1 in one embodiment. For clear explanation, FIG. 7 simply illustrates the bending
第8圖繪示第1圖的電熱織物100的緩衝區域132在一實施方式中的示意圖。為了清楚說明,第8圖以半圓型的彎折部150簡單地示意彎折部150,並以圓形圖案簡單地示意孔洞結構H,但皆不用以限制本揭露。第8圖的緩衝區域132中不具有任何孔洞結構H。藉此,緩衝區域132可產生更少的熱,以避免熱累積在發熱區130(見第1圖)與本體區110(見第1圖)的連接處,從而使得電熱織物100可提供更均勻分布的熱。
FIG. 8 is a schematic diagram of the
在以下敘述中,將列舉本揭露多個實施例的電熱織物來驗證本揭露的功效。詳細而言,實施例1至實施例5的電熱織物依序包括如第4圖至第8圖所示的結構。具體而言,各實施例的電熱織物中有關於彎折部、孔洞結構以及緩衝區域的配置如表一所示。在本實驗例中,分別對實施例1至實施例5的電熱織物進行整體平均溫度以及其發熱區的平均溫度的測量,並計算兩者間的差值(以下簡稱為溫度差值),以驗證本揭露的功效。各實施例所測得的溫度差值如表一所示。 In the following description, electric heating fabrics according to multiple embodiments of the present disclosure will be listed to verify the efficacy of the present disclosure. In detail, the electrothermal fabrics of Examples 1 to 5 include structures as shown in Figures 4 to 8 in order. Specifically, the configuration of the bending portion, hole structure and buffer area in the electrothermal fabric of each embodiment is as shown in Table 1. In this experimental example, the overall average temperature and the average temperature of the heating area of the electric heating fabrics from Examples 1 to 5 were measured, and the difference between the two (hereinafter referred to as the temperature difference) was calculated, so as to Verify the effectiveness of this disclosure. The temperature differences measured in each embodiment are shown in Table 1.
由實施例1至3可以看出,平弧型的彎折部相較於半圓型的彎折部可使電熱織物具有較小的溫度差值,而蘑菇型的彎折部相較於平弧型的彎折部又可使電熱織物具有更小的溫度差值,顯示蘑菇型的彎折部可使電熱織物具有較佳的熱均勻性。由實施例1及4可以看出,菱形的孔洞結構相較於長方形的孔洞結構可使電熱織物具有較小的溫度差值,顯示菱形的孔洞結構可使電熱織物具有較佳的熱均勻性。由實施例1及5可以看出,當緩衝區域不具有任何孔洞結構時,電熱織物可具有較佳的熱均勻性。 It can be seen from Examples 1 to 3 that the flat arc-shaped bending part can make the electric heating fabric have a smaller temperature difference compared with the semi-circular bending part, and the mushroom-shaped bending part can make the electric heating fabric have a smaller temperature difference than the flat arc-shaped bending part. The mushroom-shaped bending part can make the electric heating fabric have a smaller temperature difference, which shows that the mushroom-shaped bending part can make the electric heating fabric have better thermal uniformity. It can be seen from Examples 1 and 4 that the rhombus hole structure can make the electric heating fabric have a smaller temperature difference than the rectangular hole structure, indicating that the rhombus hole structure can make the electric heating fabric have better thermal uniformity. It can be seen from Examples 1 and 5 that when the buffer area does not have any hole structure, the electric heating fabric can have better thermal uniformity.
根據本揭露上述實施方式,電熱織物包括本體區以及多個發熱區,其中發熱區具有孔洞結構,且相鄰的發熱區間具有間隔,又間隔在發熱區連接於本體區處具有彎折部。透過孔洞結構及彎折部的配置(例如,位置及形狀等),電熱織物可提供均勻分布的熱。此外,透過緩衝區域的配置,電熱織物的熱均勻性更可進一步提升。另外,透過披覆膠皮的配置,電熱織物可提供良好的保溫性能,並可具有長的使用壽命。因此,本揭露的電熱織物可提供均勻分布的熱,從而提供穿戴者舒適的使用體驗。 According to the above embodiments of the present disclosure, the electric heating fabric includes a body region and a plurality of heating regions, wherein the heating region has a hole structure, and adjacent heating regions have intervals, and the intervals have bending portions where the heating regions are connected to the body region. Through the hole structure and the configuration of the bending parts (for example, position and shape, etc.), the electric heating fabric can provide evenly distributed heat. In addition, through the configuration of the buffer area, the thermal uniformity of the electric heating fabric can be further improved. In addition, through the configuration of covering with rubber, the electric heating fabric can provide good thermal insulation performance and have a long service life. Therefore, the electrothermal fabric of the present disclosure can provide evenly distributed heat, thereby providing a comfortable user experience for the wearer.
100:電熱織物100:Electric heating fabric
110:本體區110: Ontology area
130:發熱區130:Heating area
132:緩衝區域132: Buffer area
150:彎折部150: Bending part
170:延伸區170:Extension area
D,D':間隔D,D':interval
H:孔洞結構H: hole structure
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