M363338 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種用以黏合兩物件之熱溶膠膜 【先前技術】 熱溶膠係一種熱塑性塑料,其可作為粘合劑使用 、 -—…人川 將 熱溶膠加熱熔溶後塗佈於欲粘合的兩物件之間,待其冷卻 後即可令兩物件相互固定; 當兩物件欲接合處係呈平面時,係可使用預先製作呈 膜狀的熱溶膠膜進行黏合,既有之熱溶膠膜於使用時,係 放置於欲粘合的兩物件之間的平面處,隨後以機具加壓兩 物件並加熱熱溶膠膜’令熱溶膠膜熔溶並且均 附於物件平面以達到緊密粘合之目的。 , 然而,由於熱溶膠膜表面並非呈真平面,因此其放置 於物件上時,於熱溶膠膜與物件之間將存在有空氣,如欲 枯合之物件其平面呈平整不透氣材質(例如玻璃、金屬板、 木板),則進行前述加壓加熱㈣時,空氣將切溶之 膠膜:包覆而無法排除,於熱溶膠膜冷卻後形成有:氣 =右欲枯合之物品為玻璃時,小氣泡會使得產品外觀形 : = 且由於當熱溶膠受熱時1小氣泡將會膨脹形 成較大乳泡,因此一但小氣泡數量較多時,將會致使點人 =:低,因&,既有之熱溶膠膜於加工時必須配合置二 〃空裱境中,藉由真空設備將空氣抽除 : 成,惟如此將有製程複雜化,加工成本 孔,% 買了且成本增加之缺點。 3 M363338 【新型内容】 有鑑於上述既有熱溶膠膜於使用上的問題 係將熱溶夥膜設計為具有排氣功能以解決之。本創作 s為達成;1述創作目的,本創作所使用之技術手段在於 提供一具排氣構造之熱溶膠臈,其包含有. -膠膜層,由熱溶踢製成為膜狀,於膠膜層的一側面 突起成型有複數呈間隔設置且為規則排列的凸塊。 所述膠膜層的另一側面進—步突起成型有複數呈_ 設置且為規則排列的凸塊。 本創作之具排氣構造之熱溶膠膜,在其一側面或者兩 側面上所突設的複數凸塊係呈間隔設置,目此各凸塊之間 係具有-空間而可作為排氣用通道,t熱溶膠膜用以枯合 兩物件時’可調整加熱及加㈣之機具先行加熱熱溶膠膜 之中央部位而後加熱周緣部位,令膠膜係自中央部位漸次 向外熔溶,如此存在於中央部位之空氣將受機具之加壓而 複數凸塊之間的通道排向周緣部位,而後該周緣部位熔 溶時,該部位之空氣亦將受壓排出於熱溶膠膜外,使冷卻 後的熱溶膠膜呈緻密狀而不會出現氣泡,因此較之既有熱 溶膠膜’本創作具有較佳的粘合良率,並且於粘合過程中 無需使用真空設備,可大幅簡化製程。 【實施方式】 參見第一及二圖所示,本創作之具排氣構造之熱溶膠 膜於第一實施例中包含有一膠膜層(1〇),其係由熱溶膠製 作呈薄片狀,於該膠膜層GO)的一側面突起成型有複數凸 M363338 塊(11),該些凸塊(11)係呈間隔設置使凸塊(11)之間構成有 通道(12),於本實施例中,該些凸塊(11)之形狀呈橢圓形, 但其亦可成型為其他形狀如圓形、矩形、長方形或菱形等, 該些凸塊(11)且為規則排列; 參見第三及四圖所示,為本創作之具排氣構造之熱溶 膠膜之第二實施例,其中所述膠膜層(10)係於兩相對側面 '均突設成型有複數凸塊(11A),該些凸塊(11A)係呈間隔設 置使凸塊(1 1A)之間構成有通道(12A),於本實施例中,凸 鲁塊(11A)呈菱形,該些凸塊(11A)且為規則排列; 此外,上述兩實施例中,於膠膜層(1〇)的兩側面可進 一步貼設有離形紙(20)作為保護,待使用時再予以撕除。 本創作的第一實施例係適用於欲粘合之兩物件中,有 物件為不透氣材質者,而第二實施例則適用於兩物件皆 為不透氣材貝者’進行祐合時係配合使用一可加壓、加熱 之機具,首先令膠膜層(1〇)位於兩物件的平面之間,並且 φ 、夕膜層(1 〇)上成型有凸塊(11)(11A)的一側朝向於不透氣 物件,隨後以機具依序先加熱膠膜層(10)之中央部位而後 …、周緣。卩位,並且同時加壓兩物件,如此在膠膜層(1 〇) 自中央部位朝向外側漸次熔溶的過程中,位於兩物件粘合 面之間的空氣將受壓而沿複數凸塊(U)(11A)之間的通道 (12)(12A)排向熱膠膜層(10)外,使膠膜層(10)可緊密地粘 合兩物件使其確實的相互固定。 • 【圖式簡單說明】 第一圖為本創作第一實施例之立體分解圖。 第二圖為本創作第一實施例之立體部分剖視圖。 5 M363338 第三圖為第二圖之A-A線剖視圖。 第四圖為本創作第二實施例之俯視圖。 第五圖為本創作第二實施例之側視剖視圖。 【主要元件符號說明】 (10)(1 0A)膠膜層 (1 1)(11 A)凸塊 (12)(12A)通道 (20)離形紙M363338 V. New description: [New technical field] This creation is about a thermal sol film used to bond two objects. [Prior Art] Thermosol is a thermoplastic that can be used as an adhesive, -... The hot melt is melted and melted and applied to the two objects to be bonded. After cooling, the two objects can be fixed to each other. When the two objects are to be joined, the film can be pre-made. The hot melt film is bonded, and the hot melt film is placed on the plane between the two objects to be bonded, and then the two objects are pressed by the implement and the hot melt film is heated to make the hot melt film It is melted and attached to the plane of the object for the purpose of tight adhesion. However, since the surface of the hot melt film is not in a true plane, when it is placed on the object, there will be air between the hot melt film and the object, and the object to be dried is flat and airtight (for example, glass). , metal plate, wood board), when the above-mentioned pressure heating (four), the air will cut the film: coating can not be removed, after the hot melt film is cooled, there is: gas = right when the object is glass Small bubbles will make the appearance of the product: = and because when the hot sol is heated, 1 small bubble will swell to form a larger emulsion, so when the number of small bubbles is large, it will cause people =: low, & The existing hot melt film must be placed in the second hollow space during processing. The air is pumped out by vacuum equipment. However, the process will be complicated, the cost of processing will be reduced, and the cost will increase. The shortcomings. 3 M363338 [New content] In view of the above problems with the use of the existing hot melt film, the hot melt film is designed to have an exhaust function to solve it. The creation of this creation is for the purpose of creation; the technical means used in this creation is to provide a hot-melt crucible with a venting structure, which comprises a layer of a film, which is made into a film by hot melt, and is glued. One side of the film layer is formed with a plurality of bumps arranged at intervals and regularly arranged. The other side of the film layer is further formed with a plurality of bumps arranged in a regular arrangement and arranged in a regular manner. The hot-melt film with the exhaust structure of the present invention has a plurality of bumps protruding on one side or both sides thereof, and the plurality of bumps are arranged at intervals, so that each of the bumps has a space and can be used as an exhaust passage. , t thermosol film used to dry two objects when 'adjustable heating and add (4) the machine first heated the central part of the hot sol film and then heat the peripheral part, so that the film is gradually melted from the central part, so exist in The air in the central part will be pressurized by the implement and the passage between the plurality of bumps will be discharged to the peripheral portion. When the peripheral portion is melted, the air in the portion will also be discharged under the hot sol film, so that the cooled The hot sol film is dense without bubbles, so it has a better bond yield than the existing hot sol film, and it does not require the use of vacuum equipment during the bonding process, which greatly simplifies the process. [Embodiment] Referring to the first and second figures, the hot-melt film having the exhaust structure of the present invention comprises a film layer (1〇) in the first embodiment, which is formed into a sheet shape by a hot melt. A plurality of convex M363338 blocks (11) are formed on one side of the film layer GO), and the bumps (11) are arranged at intervals to form a channel (12) between the bumps (11). In the example, the protrusions (11) are elliptical in shape, but they may be formed into other shapes such as a circle, a rectangle, a rectangle, or a diamond, etc., and the protrusions (11) are regularly arranged; see the third And a fourth embodiment of the present invention, wherein the film layer (10) is formed on both opposite sides of the plurality of bumps (11A). The bumps (11A) are arranged at intervals so that the bumps (11A) are formed with a channel (12A). In this embodiment, the bumps (11A) have a diamond shape, and the bumps (11A) And in a regular arrangement; in addition, in the above two embodiments, the release paper (20) may be further attached to both sides of the film layer (1〇) as a guarantee Protect it and tear it off when it is used. The first embodiment of the present invention is applicable to two objects to be bonded, and the object is made of a gas-impermeable material, and the second embodiment is suitable for both objects, which are non-breathable materials. Using a pressurizing and heating tool, first, the film layer (1〇) is located between the planes of the two objects, and the φ, 夕膜 layer (1 〇) is formed with a bump (11) (11A) The side faces the gas-impermeable article, and then the central portion of the film layer (10) is heated first by the implement, and then the periphery. Pressing and simultaneously pressing two objects, so that during the process of gradually melting the film layer (1 〇) from the central portion toward the outside, the air between the bonding faces of the two objects will be pressed along the plurality of bumps ( The passage (12) (12A) between U) (11A) is discharged outside the hot adhesive film layer (10) so that the adhesive film layer (10) can tightly bond the two members to be surely fixed to each other. • [Simplified description of the drawings] The first figure is an exploded perspective view of the first embodiment of the creation. The second drawing is a perspective view of a perspective view of a first embodiment of the creation. 5 M363338 The third picture is a cross-sectional view taken along line A-A of the second figure. The fourth figure is a top view of the second embodiment of the creation. Figure 5 is a side cross-sectional view of the second embodiment of the creation. [Description of main component symbols] (10) (1 0A) film layer (1 1) (11 A) bump (12) (12A) channel (20) release paper