1324976 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種包裝結構,特別係關於一種為可檇 式電子產品提供支撐與保護之包裝結構。 【先前技術】 一般電子元件精密度高且脆弱,為了避免電子產品及 其相關配件在運送過程中受到撞擊而損壞,降低商品在運 送過程之損壞率,外盒體内會放有填充材料,以達到保護 產品之目的。之前較為常見之作法係於外盒體中,額外提 供紙類或塑膠類襯料,以及塑膠填充泡绵或泡狀緩衝墊等 緩衝材料,以避免產品與配件之間相互摩擦以及碰撞外盒 體壁,來保護產品。其中,塑膠類襯料,塑膠填充泡綿, 以及泡狀緩衝墊之材質通常為發泡聚乙烯,或聚氯乙烯。 這些材質會對生態環境造成相當大之衝擊,且無法符合國 際之環境政策。 基於環保之考慮,目前市場上採用可再生紙漿來制造 紙類之緩衝包裝結構,不但減少對環境之污染,而且更具 有成本上之優勢。然而現有之緩衝包裝結構,為了區隔外 盒體中之產品及其配件,需要在外盒體折疊成型時,在其 内部空間形成複數容室,因此會使包裝盒設計結構複雜, 並造成原材料使用較多,折疊成型之方法及程式繁雜,而 使加工成型費時,成本提高。另外,有些利用大盒包小盒之 方式,即產品與配件均分別以小盒包裝,然後再將這些小 盒包裝共同放置在大包裝盒内,這些方式同樣會造成材料 6 1324976 使用量過多,且小包裝盒尺寸形狀大小不一,需加大外包 裝盒體積,產生空間浪費、運輸費用增多。還有就係隔板 在外包裝盒内,以膠粘著之方式作空間之區隔,這樣之結 構不但增加成型時之人力、物力及時間花費,同時會有因 粘著問題,導致包裝盒體不穩固、緩衝效果不佳之缺點。 因此若能改善包裝盒内缓衝結構之構造,簡化製程步驟, 減少紙類材料使用量並方便包裝,以降低生產損耗及減輕 成本負擔,實為紙制包裝結構設計者,使用者與製造者所 共同期盼之。 【發明内容】 有鑒於此,有必要提供一種既能起到缓衝和支撐作 用,又能隔出複數容置空間,使產品和配件可以分開放置, 避免相互碰撞,達到保護產品效果之包裝結構。 一種包裝結構包括一盒體和設於所述盒體内之一個緩 衝結構。所述盒體具有四個側壁以及一個盒底,並共同構 成一個收容該緩衝結構之容置空間。所述缓衝結構具有一 主面板,以及通過折線與主面板連結之複數側板及至少一 個襯板。該主面板設置在所述盒體之對角位置。所述複數 側板折疊後,在盒體内形成至少一個容置空間。所述至少 一個襯板折疊後抵靠在所述盒體内相鄰之兩側壁。 本包裝結構設計之緩衝結構通過所述主面板、側板及 襯板之圍合,將所述盒體内部分割成複數容置空間,結構 簡單,產品以及配件容易放入,整體結構堅固,緩衝效果 良好,空間之利用率高。主面板置於盒體内之對角線上, 7 1324976 以及四周側壁上均有緩衝結構上之側板和襯板予以支撐, 讓所述盒體之結構強度為之增強,則能有效維護所述盒體 内所放置之產品以及其配件,避免遭到外力之衝擊或碰撞 而產生損傷。並且所述緩衝結構之設計,展開後係為一長 條帶狀,製作容易且有效減少紙類材料使用量,製作時亦 方便工廠包裝又降低生產損耗,可大幅減輕成本負擔。在 使用過程中,只需要根據包裝盒實際之尺寸做搭配,就可 以用於大部分之包裝盒,具有其良好之實用性效能。 【實施方式】 下面結合附圖與具體實施方式對本發明進一步詳細描 述: 請參閱圖1,為本發明一包裝結構之分解立體示意圖。 其中包裝結構材質可為瓦楞紙、再生纸或銅板紙。本實施 方式之包裝結構係採用瓦楞紙製造而成,包括一盒體1〇〇 和設於所述盒體100内之緩衝結構200。其中所述盒體100 包括四個側壁,分別為第一侧壁11,第二側壁12,第三側 壁13及第四側壁14以及盒底15。並由所述四個側壁11、 12、13、14與盒底15構成所述盒體100之容置空間10 6 本實施方式中,兩相鄰侧壁互相垂直,且所有側壁皆垂直 於盒底15。所述緩衝結構200則設置於所述盒體100之容 置空間10内。 請一併參閱圖1和圖2,為本發明一包裝結構之緩衝 結構200平面展開圖。所述缓衝結構200展開後為一長條 帶狀,其包括有一主面板20以及在所述主面板20四周分 8 丄 別連結之侧板22、24和襯板23、25。所述主面板2〇之長 度與盈脂_ 100之對角線長度相當’使主面板 20可以設置在 所述盒體100之對角位置。所述側板22、24大小不同,分 別位於主面板20之左右兩側。側板22以折線a連結於主 面板20左侧,其包括首尾相連之與主面板跗距離從遠到 近之第一側板222 ’第二側板224及第三側板226,其寬度 相等但長度不同。側板24以折線a連結於主面板右側,其 包括首尾相連之與主面板距離從近到遠之第四側板M2, 第五側板244及第六側板246,此三個側板242、244、246 同樣具有寬度相等但長度不同之特徵。而主面板2〇之上、 下兩對邊連結所述襯板23、25。在本實施方式中,以折線 a連結於主面板20上端之係一個梯形之襯板23,梯形襯板 包含兩斜邊231,兩斜邊231之延長線互相垂直。以折線& 連結於主面板下端之襯板25則係為三個部分,其分別為首 尾相連之與主面板距離從近到遠之第一襯板252,第二襯 板254及第三襯板256,其中靠近所述主面板2〇之第一襯 板252和第二襯板254為矩形,而遠離所述主面板2〇之第 三襯板256為三角形。所述三角形襯板256包含兩斜邊 2561,兩斜邊2561相互垂直。 請參閱圖3和圖4,為圖2之缓衝結構2〇〇之折疊以 及成型立體示意圖。在本實施方式中,所述側板22、24均 在所述主面板20之同一方向折疊,左側之第一側板222、 第二側板224和第三側板226以折線a彎折後,且使所述 第一側板222與所述主面板2〇平行緊貼,就能在所述主面 9 1324976 板20之一方向構成一三角形之容置空間A(如圖4所示), .· 同樣之折疊所述主面板20右側所述之第四側板242、第五 側板244及第六侧板246三個板體’且使所述第六側板246 與所述主面板20平行緊貼時,就同樣會在所述主面板20 之一方向構成一三角形容置空間B(如圖4所示所述主面 板20下端之襯板25中緊鄰著主面板20之兩襯板252、 254,在以折線a彎折後,可配合兩側所述複數側板22、 24形成另一方形之容置空間C(如圖4所示),而第三襯板 鲁 256經過與第二襯板254間之折線a彎折後,與第二襯板 254垂直’也與所述主面板2〇成相互垂直狀。所述主面板 20上端之襯板23以折線a彎折後,與所述主面板20成相 互垂直狀’從而完成所述缓衝結構200經折迭成型之形態。 最後請再參閱圖5,為本發明包裝結構之組合立體示 意圖’將所述折疊成型之緩衝結構200直接放置於所述盒 體100之容置空間10内,使所述主面板20在所述盒體1〇〇 φ 之對角位置上,則所述襯板23之梯形兩相互垂直之斜邊 231抵罪在所述盒體1〇〇内兩相互垂直之相鄰之第一側壁 11及第二側壁12,而所述第三襯板256之三角形兩斜邊 2561成直角’則兩斜邊2561完全抵靠在所述盒體100内 另兩相互垂直之相鄰之第三側壁13及第四侧壁14,這樣 使所述盒體100由對角以及四周四個側壁11、12、13、14, 均由所述主面板20與所述襯板23、256所支撐,能使所述 盒體100之結構更加穩固。當然可以理解,如果盒體100 之相鄰側壁之間不係相互垂直,則缓衝結構200之襯板23 1324976 之斜邊231之間以及第三襯板256之斜邊2561之間也不係 .· 互相垂直,以配合抵靠盒體100之側壁。此外述折疊成型 之緩衝結構200原形成之容置空間A、B、C,同樣會在所 述盒體100内呈現,另外所述襯板23、256下方也會形成 所述盒體100内另外之收納容置空間D和E,因此利用所 述緩衝結構200就能便捷之在所述盒體100内區隔出複數 個容置空間,讓產品與配件可分開放置避免彼此之間之磨 擦碰撞,具有良好之緩衝效果。例如:容置空間A可放置 ® 電池,容置空間B可以放置耳塞,容置空間C可以放置相 機,容置空間D可以放置線材:USB連接線、充電器。容 置空間E可以放置儲存卡、SD卡。這樣產品和配件分別放 置,可達到緩衝和保護效果。緩衝結構200之上面可放置 產品說明書,緩衝結構200之高度加上說明書之厚度與盒 體之高度相當。 综上所述,本發明符合發明專利要件,爰依法提出專 利申請。惟,以上所述者僅為本發明之較佳實施方式,本 I 發明之範圍並不以上述實施方式為限,舉凡熟悉本案技藝 之人士援依本發明之精神所作之等效修飾或變化,皆應涵 蓋於以下申請專利範圍内。 【圖式簡單說明】 圖1為本發明實施方式提供之包裝結構之分解立體示意 圖。 圖2為本發明實施方式提供之包裝結構之緩衝結構平面展 開圖。 π 1324976 圖3為圖2之缓衝結構之折疊示意圖。 圖4為本發明實施方式提供之包裝結構之緩衝結構成型立 體示意圖。 圖5為本發明實施方式提供之包裝結構之組合立體示意 圖。 【主要元件符號說明】1324976 IX. Description of the Invention: [Technical Field] The present invention relates to a packaging structure, and more particularly to a packaging structure for providing support and protection for a sturdy electronic product. [Prior Art] Generally, the precision of electronic components is high and fragile. In order to avoid the damage of electronic products and related accessories during the transportation process, the damage rate of the goods during transportation is reduced, and the filling material is placed in the outer casing to To achieve the purpose of protecting products. The more common method used in the outer box is to provide paper or plastic lining, as well as cushioning materials such as plastic-filled foam or foam cushion to avoid friction between the product and the accessories and to collide with the outer casing. Wall to protect the product. Among them, plastic linings, plastic filled foams, and foam cushions are usually made of expanded polyethylene or polyvinyl chloride. These materials can have a considerable impact on the ecological environment and cannot comply with international environmental policies. Based on environmental considerations, the use of renewable pulp to make paper-based cushioning packaging structures on the market not only reduces environmental pollution, but also has a cost advantage. However, in the existing buffer packaging structure, in order to separate the products and accessories in the outer casing, it is necessary to form a plurality of chambers in the inner space when the outer casing is folded and formed, thereby making the design of the packaging box complicated and causing the use of raw materials. There are many methods and procedures for folding molding, which makes processing time-consuming and costly. In addition, some use the large box small box, that is, the products and accessories are packed in small boxes, and then these small boxes are placed together in a large box, which also causes the material 6 1324976 to be used too much. Moreover, the size and shape of the small packaging box are different, and it is necessary to increase the volume of the outer packaging box, resulting in wasted space and increased transportation costs. In addition, the partition is placed in the outer packaging box, and the space is separated by a glue. The structure not only increases the labor, material and time cost during molding, but also causes the packaging box due to the adhesion problem. The disadvantage of not stable and poor buffering effect. Therefore, if the structure of the buffer structure in the package can be improved, the process steps can be simplified, the use of paper materials can be reduced, and packaging can be facilitated, so as to reduce production loss and reduce cost burden, it is a paper packaging structure designer, user and manufacturer. Expected together. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a packaging structure that can both cushion and support, and can separate a plurality of accommodating spaces, so that products and accessories can be placed separately to avoid collision and achieve product protection. . A package structure includes a case and a cushioning structure disposed in the case. The casing has four side walls and a bottom of the box, and together constitute a receiving space for receiving the buffer structure. The buffer structure has a main panel and a plurality of side panels and at least one liner joined to the main panel by fold lines. The main panel is disposed at a diagonal position of the casing. After the plurality of side panels are folded, at least one accommodating space is formed in the casing. The at least one backing sheet is folded against the adjacent side walls of the casing. The buffer structure of the package structure is divided into a plurality of accommodating spaces by the enclosing of the main panel, the side panel and the lining plate, the structure is simple, the product and the accessory are easy to put, the overall structure is firm, and the buffering effect is obtained. Good, high utilization of space. The main panel is placed on the diagonal line of the box body, 7 1324976 and the side panels on the side walls are supported by the side plates and the lining plates on the buffer structure, so that the structural strength of the box body is enhanced, and the box can be effectively maintained. Products placed in the body and their accessories are protected from damage or impact from external forces. Moreover, the design of the buffer structure is expanded into a long strip shape, which is easy to manufacture and effectively reduces the amount of paper materials used, and is convenient for factory packaging and reduces production loss, thereby greatly reducing the cost burden. In the process of use, it only needs to be matched according to the actual size of the package, and it can be used in most of the packaging boxes, and has good practical performance. [Embodiment] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. Referring to Fig. 1, an exploded perspective view of a package structure of the present invention. The packaging structure material can be corrugated paper, recycled paper or copper paper. The packaging structure of the present embodiment is made of corrugated paper and includes a casing 1 and a cushioning structure 200 provided in the casing 100. The casing 100 includes four side walls, which are a first side wall 11, a second side wall 12, a third side wall 13 and a fourth side wall 14, and a bottom 15. And the four side walls 11, 12, 13, 14 and the bottom 15 form the accommodating space 10 of the casing 100. In this embodiment, two adjacent side walls are perpendicular to each other, and all the side walls are perpendicular to the box. Bottom 15. The buffer structure 200 is disposed in the accommodating space 10 of the casing 100. 1 and 2 are a plan view of a buffer structure 200 of a package structure of the present invention. The cushioning structure 200 is unfolded into a long strip shape, and includes a main panel 20 and side panels 22, 24 and linings 23, 25 which are respectively connected around the main panel 20. The length of the main panel 2 is equivalent to the diagonal length of the fat _ 100 so that the main panel 20 can be disposed at a diagonal position of the casing 100. The side panels 22, 24 are different in size and are located on the left and right sides of the main panel 20, respectively. The side panel 22 is joined to the left side of the main panel 20 by a fold line a, and includes a first side panel 222', a second side panel 224 and a third side panel 226 which are connected end to end from the far side to the main panel, and have the same width but different lengths. The side plate 24 is connected to the right side of the main panel by a fold line a, and includes a fourth side plate M2, a fifth side plate 244 and a sixth side plate 246 which are connected end to end from the front panel, and the three side plates 242, 244, 246 are the same. Features with equal width but different lengths. The lining plates 23 and 25 are joined to the upper and lower sides of the main panel 2 。. In the present embodiment, a trapezoidal liner 23 is attached to the upper end of the main panel 20 by a fold line a. The trapezoidal liner includes two oblique sides 231, and the extension lines of the two oblique sides 231 are perpendicular to each other. The lining plate 25 connected to the lower end of the main panel by the fold line & is divided into three parts, which are respectively the first lining 252, the second lining 254 and the third lining which are connected end to end from the main panel at a distance from the near to the far side. The plate 256, wherein the first liner 252 and the second liner 254 adjacent to the main panel 2 are rectangular, and the third liner 256 remote from the main panel 2 is triangular. The triangular lining 256 includes two beveled edges 2561, and the two beveled edges 2561 are perpendicular to each other. Please refer to FIG. 3 and FIG. 4, which are a perspective view of the folding structure of the cushion structure of FIG. In this embodiment, the side plates 22 and 24 are all folded in the same direction of the main panel 20, and the first side plate 222, the second side plate 224, and the third side plate 226 on the left side are bent by a fold line a, and The first side plate 222 is in close contact with the main panel 2〇, so that a triangular accommodating space A (shown in FIG. 4) can be formed in one direction of the main surface 9 1324976, 20 . When the fourth side plate 242, the fifth side plate 244, and the sixth side plate 246 of the right side of the main panel 20 are folded, and the sixth side plate 246 is closely attached to the main panel 20, A triangular accommodating space B is also formed in one of the main panels 20 (as shown in FIG. 4, the lining plates 25 at the lower end of the main panel 20 are adjacent to the two lining plates 252, 254 of the main panel 20, After the folding line a is bent, the other side side plates 22, 24 of the two sides can be combined to form another square accommodating space C (as shown in FIG. 4), and the third lining plate 256 passes between the second lining plate 254 and the second lining plate 254. After the fold line a is bent, it is perpendicular to the second liner 254 and is also perpendicular to the main panel 2. The liner 2 at the upper end of the main panel 20 After being bent by the fold line a, the main panel 20 is perpendicular to the main panel 20 to complete the folding structure of the buffer structure 200. Finally, please refer to FIG. 5, which is a schematic perspective view of the package structure of the present invention. 'The folded-shaped cushioning structure 200 is placed directly in the accommodating space 10 of the casing 100 such that the main panel 20 is at a diagonal position of the casing 1 〇〇φ, then the lining The trapezoidal two mutually perpendicular oblique sides 231 of the plate 23 are against two adjacent first and second side walls 11 and 12 of the casing 1 and the third side of the third lining 256 The sides 2561 are at right angles 'the two oblique sides 2561 are completely abutted against the other two adjacent third and third side walls 13 and 14 of the casing 100, such that the casing 100 is diagonally The four side walls 11, 12, 13, 14 are supported by the main panel 20 and the lining plates 23, 256, so that the structure of the casing 100 can be more stable. Of course, if the casing 100 is The adjacent side walls are not perpendicular to each other, and the beveled edge 231 of the lining plate 23 1324976 of the buffer structure 200 And the beveled edges 2561 of the third lining 256 are also not perpendicular to each other to fit against the side walls of the casing 100. The accommodating spaces A, B, and C originally formed by the folded-shaped cushioning structure 200 are Also, it is presented in the casing 100. Further, under the lining plates 23 and 256, the other accommodating accommodation spaces D and E in the casing 100 are formed, so that the buffer structure 200 can be conveniently used. A plurality of accommodating spaces are partitioned in the casing 100, so that the product and the accessory can be placed separately to avoid frictional collision with each other, and the buffering effect is good. For example, the space A can be placed in the battery, the space B can be placed in the earplug, the space C can be placed in the camera, and the space D can be placed in the wire: USB cable, charger. The storage space E can hold a memory card or an SD card. Such products and accessories are placed separately for buffering and protection. The product specification can be placed on the buffer structure 200. The height of the buffer structure 200 plus the thickness of the specification is equivalent to the height of the case. In summary, the present invention complies with the requirements of the invention patent and submits a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make equivalent modifications or variations in accordance with the spirit of the present invention. All should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view of a package structure according to an embodiment of the present invention. 2 is a plan view showing a cushion structure of a package structure according to an embodiment of the present invention. π 1324976 Figure 3 is a schematic view of the folding structure of Figure 2; 4 is a schematic view of a cushioning structure forming body of a packaging structure according to an embodiment of the present invention. Fig. 5 is a perspective view showing a combination of packaging structures according to an embodiment of the present invention. [Main component symbol description]
盒體 100 容置空間 10 側壁 11,12,13,14 盒底 15 緩衝結構 200 主面板 20 側板 22,24 概板 23,25 第一側板 222 第二側板 224 第三側板 226 第四側板 242 第五側板 244 第六側板 246 斜邊 231,2561 第一概板 252 弟—概板 254 第三襯板 256 12Case 100 accommodating space 10 side wall 11, 12, 13, 14 box bottom 15 buffer structure 200 main panel 20 side panel 22, 24 panel 23, 25 first side panel 222 second side panel 224 third side panel 226 fourth side panel 242 Five side panels 244 Sixth side panels 246 Beveled edges 231, 2561 First overview plate 252 Brother - General plate 254 Third liner 256 12