TWI464095B - Cushion structure - Google Patents

Description

緩衝結構 Buffer structure

本發明是有關於一種緩衝結構，且特別是有關於一種包裝貨物時的緩衝結構。 The present invention relates to a cushioning structure, and more particularly to a cushioning structure for packaging goods.

目前在包裝中、大尺寸的液晶電視或螢幕(例如32吋以上)時，為了減少發泡塑膠緩衝材的用量及成本，一般採用4件或6件式的緩衝材僅包覆至於液晶電視或螢幕的邊框，而未與液晶電視或螢幕的顯示面板接抵，如此一來，液晶電視或螢幕的顯示面板便會形成懸空的狀態，緩衝材沒有直接包覆到液晶電視或螢幕的顯示面板，使得液晶電視或螢幕的顯示面板無法得到完整的保護。 At present, in packaging, large-size LCD TVs or screens (for example, 32 inches or more), in order to reduce the amount and cost of foamed plastic cushioning materials, 4 or 6-piece cushioning materials are generally used to cover only LCD TVs or The border of the screen is not connected to the LCD TV or the display panel of the screen. As a result, the LCD TV or the display panel of the screen will be suspended, and the buffer material is not directly wrapped on the LCD TV or the display panel of the screen. The LCD TV or the display panel of the screen cannot be completely protected.

請參照第26圖，其繪示一種習知的緩衝結構套接於顯示器周圍之剖面圖。當緩衝結構50套接於液晶電視或螢幕60的周圍時，緩衝結構50只包覆至液晶電視或螢幕的邊框62，而讓液晶電視或螢幕的顯示面板64形成懸空的狀態，使得顯示面板64無法有足夠的緩衝支撐。 Please refer to FIG. 26, which illustrates a cross-sectional view of a conventional buffer structure sleeved around a display. When the buffer structure 50 is sleeved around the liquid crystal television or the screen 60, the buffer structure 50 is only covered to the frame 62 of the liquid crystal television or the screen, and the display panel 64 of the liquid crystal television or the screen is suspended, so that the display panel 64 is displayed. There is not enough buffer support.

不僅如此，由於市場需求，薄型或經濟機種的液晶電視或螢幕相繼產出，例如為求薄型化的設計，使得液晶電視或螢幕的邊框，其用於固定顯示板的面積減小，使得顯示面板固定於機身內的強度減低，故無法承受太大的撞擊或震動，例如運送時的震動，在目前實際的情況中，因為大陸市場家電下鄉政策的產品，常需面對路況不良(甚至極差)的運輸環境，在運送的過程中產品便會因為受到較 大的震動量，而導致電視或螢幕之顯示面板發生破損的問題。 Moreover, due to market demand, LCD TVs or screens of thin or economical models are successively produced, for example, for thin design, the frame of the LCD TV or the screen is reduced in area for fixing the display panel, so that the display panel The strength fixed in the fuselage is reduced, so it can not withstand too much impact or vibration, such as vibration during transportation. In the current actual situation, because the products of the mainland market to go to the countryside policy often need to face poor road conditions (even Very poor transport environment, the product will be compared during the delivery process A large amount of vibration causes a problem of damage to the display panel of the television or the screen.

目前廠家解決的最簡易方式就是在電視或螢幕裝箱時，以發泡塑膠緩衝材全面性的包覆顯示面板，藉以讓顯示面板能與液晶電視或螢幕的邊框形成良好固定關係，而期望得到較好的保護。雖然此種技術手段可減少顯示面板破損的機會，但這技術手段不但耗費大量材料及成本，而且不符環保的趨勢。 At present, the easiest way for manufacturers to solve is to cover the display panel with a foamed plastic cushioning material when the TV or the screen is packaged, so that the display panel can form a good fixed relationship with the frame of the LCD TV or the screen, and it is expected to be obtained. Better protection. Although this technical means can reduce the chance of damage to the display panel, this technical means not only consumes a large amount of materials and costs, but also does not conform to the trend of environmental protection.

如何解決上述液晶電視或螢幕的顯示面板破損的問題，而又不致於耗費大量材料及成本，是目前各廠家所尋求的解決方案。 How to solve the problem of the damage of the display panel of the above LCD TV or screen without consuming a lot of materials and costs is a solution sought by various manufacturers.

因此，本發明之一目的是在提供一種緩衝結構，藉以提供產品(例如，顯示器)更佳的保護。 Accordingly, it is an object of the present invention to provide a cushioning structure for providing better protection of a product (e.g., a display).

根據上述的目的，提供一種緩衝結構，適用於顯示器上，其包含第一緩衝結構及第二緩衝結構。第一緩衝結構之本體具有一容置槽用以套接於顯示器的周圍。容置槽具有相對的第一側壁與第二側壁。第一階梯結構位於第一側壁，使得第一側壁與第二側壁之間距於容置槽的開口較容置槽的底部小。第一階梯結構具有一第一緩衝面及一第二緩衝面，第一緩衝面用以抵接一顯示器的邊框，第二緩衝面用以抵接顯示器的顯示面板。第二緩衝結構包含一結構體、至少一緩衝塊以及一包裝箱。兩緩衝塊套接於結構體的兩端，藉以形成一第二階梯結構於緩衝塊與結構體之交 接處。第二階梯結構具有一第三緩衝面及一第四緩衝面，第三緩衝面用以抵接顯示器的邊框，第四緩衝面用以抵接顯示器的顯示面板。包裝箱用以容置第一緩衝結構、第二緩衝結構及顯示器。 In accordance with the above objects, a buffer structure is provided for use on a display that includes a first buffer structure and a second buffer structure. The body of the first buffer structure has a receiving groove for being sleeved around the display. The accommodating groove has opposite first and second side walls. The first stepped structure is located on the first side wall such that the opening between the first side wall and the second side wall is smaller than the bottom of the accommodating groove. The first stepped structure has a first buffer surface and a second buffer surface. The first buffer surface is used to abut the frame of a display, and the second buffer surface is used to abut the display panel of the display. The second buffer structure comprises a structure, at least one buffer block and a package. Two buffer blocks are sleeved on both ends of the structure body to form a second step structure at the intersection of the buffer block and the structure body Pick up. The second stepped surface has a third buffer surface and a fourth buffer surface. The third buffer surface is for abutting the frame of the display, and the fourth buffer surface is for abutting the display panel of the display. The package is configured to receive the first buffer structure, the second buffer structure, and the display.

根據上述的目的，提供另一種緩衝結構，適用於顯示器上，其包含一本體。本體之容置槽具有相對的第一側壁與第二側壁。第一階梯結構位於第一側壁，使得第一側壁與第二側壁之間距於容置槽的開口較容置槽的底部小。第一階梯結構具有一第一緩衝面及一第二緩衝面，第一緩衝面用以抵接一顯示器的邊框，第二緩衝面用以抵接顯示器的顯示面板。 In accordance with the above objects, another buffer structure is provided for use on a display that includes a body. The receiving groove of the body has opposite first and second side walls. The first stepped structure is located on the first side wall such that the opening between the first side wall and the second side wall is smaller than the bottom of the accommodating groove. The first stepped structure has a first buffer surface and a second buffer surface. The first buffer surface is used to abut the frame of a display, and the second buffer surface is used to abut the display panel of the display.

根據上述的目的，提供另一種緩衝結構，適用於顯示器上，其包含一結構體及至少兩緩衝塊。兩緩衝塊套接於結構體的兩端，且各自具有一第二階梯結構。階梯結構具有一第三緩衝面及一第四緩衝面，第三緩衝面用以抵接一顯示器的邊框，第四緩衝面用以抵接顯示器的顯示面板。 In accordance with the above objects, another buffer structure is provided for use on a display that includes a structure and at least two buffer blocks. The two buffer blocks are sleeved at both ends of the structure and each has a second stepped structure. The stepped structure has a third buffer surface and a fourth buffer surface. The third buffer surface is used to abut the frame of a display, and the fourth buffer surface is used to abut the display panel of the display.

根據本發明之一實施例，第二緩衝面大致平行於第二側壁。 According to an embodiment of the invention, the second buffer surface is substantially parallel to the second side wall.

根據本發明之另一實施例，第二側壁內具有一鏤空結構，使第二側壁具有較第一側壁較小的彈性恢復力。 According to another embodiment of the invention, the second side wall has a hollowed out structure such that the second side wall has a smaller elastic restoring force than the first side wall.

根據本發明之另一實施例，本體具有一外壁，容置槽從外壁往本體內延伸。 According to another embodiment of the invention, the body has an outer wall from which the receiving groove extends from the outer wall.

根據本發明之另一實施例，鏤空結構為一切槽，從外壁往本體內延伸。 According to another embodiment of the invention, the hollow structure is a groove extending from the outer wall into the body.

根據本發明之另一實施例，鏤空結構為複數切槽，從 第二側壁往內延伸。 According to another embodiment of the present invention, the hollow structure is a plurality of slots, The second side wall extends inward.

根據本發明之另一實施例，鏤空結構為複數長條孔，其長軸方向大致垂直第二側壁。 According to another embodiment of the invention, the hollow structure is a plurality of elongated holes having a major axis direction substantially perpendicular to the second side wall.

根據本發明之另一實施例，鏤空結構為一三角型孔與二個位於第二側壁的凹陷。 According to another embodiment of the invention, the hollow structure is a triangular hole and two recesses on the second side wall.

根據本發明之另一實施例，鏤空結構為兩個三角型孔與一個位於第二側壁的凹陷，凹陷位於兩個三角型孔之間。 According to another embodiment of the invention, the hollow structure is two triangular holes and one recess on the second side wall, the recess being located between the two triangular holes.

根據本發明之另一實施例，本體為一發泡塑膠材。 According to another embodiment of the invention, the body is a foamed plastic material.

根據本發明之另一實施例，該些緩衝塊與結構體之套接區域小於紙板結構體的總面積。 According to another embodiment of the present invention, the sleeve area of the buffer block and the structure is smaller than the total area of the cardboard structure.

根據本發明之另一實施例，結構體由一紙板所構成。 According to another embodiment of the invention, the structure is constructed of a cardboard.

根據本發明之另一實施例，紙板為一瓦楞紙。 According to another embodiment of the invention, the paperboard is a corrugated paper.

根據本發明之另一實施例，紙板結構體包含至少二矩型截面的柱體，其位於結構體的兩相對邊。 In accordance with another embodiment of the present invention, the paperboard structure comprises a cylinder of at least two rectangular cross-sections that are located on opposite sides of the structural body.

根據本發明之另一實施例，緩衝塊包含至少一矩型截面的插槽，藉以供柱體***固定。 According to a further embodiment of the invention, the buffer block comprises at least one slot of a rectangular section for the insertion of the cylinder.

根據本發明之另一實施例，紙板結構體包含至少一「ㄇ字型」截面的柱體，其凸出於結構體的一面，柱體的二相對的側壁各具有一開口。 In accordance with another embodiment of the present invention, the paperboard structure comprises at least one "ㄇ" shaped cross-section of the cylinder projecting from one side of the structure, the opposite side walls of the cylinder each having an opening.

根據本發明之另一實施例，緩衝塊包含二彈性件，分別***對應的開口，藉以固定緩衝塊於紙板結構體。 According to another embodiment of the present invention, the buffer block includes two elastic members that are respectively inserted into the corresponding openings to fix the buffer block to the cardboard structure.

根據本發明之另一實施例，緩衝塊具有一對翼形切槽，藉以使緩衝塊形成二彈性件及一凸塊，凸塊藉以卡入開孔，二彈性件藉以夾持紙板結構體。 According to another embodiment of the present invention, the buffer block has a pair of wing-shaped slots, so that the buffer block forms two elastic members and a bump, whereby the bumps are snapped into the openings, and the two elastic members are used to clamp the cardboard structure.

根據本發明之另一實施例，每一緩衝塊包含發泡塑膠。 According to another embodiment of the invention, each buffer block comprises a foamed plastic.

根據上述的目的，提供另一種緩衝結構，適用於顯示器上，其包含一階梯結構。階梯結構具有一第一緩衝面及一第二緩衝面，第一緩衝面用以抵接一顯示器的邊框，第二緩衝面用以抵接顯示器的顯示面板，其中第一與第二緩衝面均為一發泡塑膠所構成的平面。 In accordance with the above objects, another buffer structure is provided for use on a display that includes a stepped structure. The stepped structure has a first buffer surface and a second buffer surface. The first buffer surface is used to abut the frame of the display, and the second buffer surface is used to abut the display panel of the display. It is a plane made of a foamed plastic.

根據本發明之一實施例，緩衝結構之一本體具有一容置槽，容置槽具有相對的第一側壁與第二側壁，階梯結構位於第一側壁，使得第一側壁與第二側壁之間距於容置槽的開口較容置槽的底部小。 According to an embodiment of the present invention, a body of the buffer structure has a receiving groove, the receiving groove has an opposite first side wall and a second side wall, and the stepped structure is located at the first side wall such that the distance between the first side wall and the second side wall The opening of the receiving slot is smaller than the bottom of the receiving slot.

根據本發明之另一實施例，第一緩衝面大致平行第二緩衝面。 According to another embodiment of the invention, the first buffer surface is substantially parallel to the second buffer surface.

如上所述，本發明提供一種緩衝結構，適用於固定顯示器之顯示面板，藉以減少顯示面板因衝撃、撞擊或震動(例如：於運輸中或落下測試中)，而發生破損的機會。以下將藉各種實施例說明緩衝結構的設計細節。 As described above, the present invention provides a buffer structure suitable for a display panel of a fixed display, thereby reducing the chance of breakage of the display panel due to punching, impact or vibration (for example, during transportation or drop test). The design details of the buffer structure will be described below by way of various embodiments.

請同時參照第1、2A、2B圖，第1圖繪示依照本發明之第一實例的一種套接於顯示器周圍之緩衝結構的使用示意圖，第2A圖繪示第1圖之緩衝結構的側視圖，第2B圖繪示第1圖之緩衝結構套接於顯示器周圍後的剖面圖。第一緩衝結構110具有一容置槽110a用以套接於顯示器100的周圍。容置槽110a從本體111的外壁116往內延伸。容置槽110a包含兩相對的第一側壁112a及第二側壁112b。 第一側壁112a具有一第一階梯結構，其包含有兩大致彼此平行的第一緩衝面113a及第二緩衝面113b，且第一緩衝面113a與第二側壁112b間具有間距d₁，而第二緩衝面113b與第二側壁112b間則具有間距d₂，且d₂小於d₁，換言之，兩側壁(112a；112b)之間距於容置槽的開口間距d₂較容置槽的底部間距d₁小。如此一來，當利用第一緩衝結構110套接於顯示器100的周圍時，第一緩衝面113a抵接於顯示器100的邊框102，而第二緩衝面113b則會抵接於顯示器100的顯示面板104，使得顯示面板104不會完全懸空，受到更穩固的保護(請參照第2B圖)。本體111可以由具延展性的緩衝材(例如發泡塑膠材)製成，使得第一側壁112a及第二側壁112b的間距可以拉開，藉以套接於顯示器100的周圍。為了使第一緩衝結構110更便利於量產的組裝，第二側壁112b可以設計一鏤空結構，使第二側壁112b具有較第一側壁112a小的彈性恢復力。在本實施例中，鏤空結構為一切槽114，從外壁116往本體內延伸。當顯示器100的周圍卡入容置槽110a時，切槽114的挖空設計使得第二側壁112b的彈性力變弱，因而更容易沿方向170被推離第一側壁112a，因此顯示器100的周圍就會更容易卡入容置槽110a內，不致於刮傷顯示器100的邊框102或顯示面板104。當顯示器100完全卡入容置槽110a內後，第二側壁112b依然會回恢復原外型(例如，第二側壁112b平行於第二緩衝面113b)。 Please refer to FIG. 1 , 2A and 2B simultaneously. FIG. 1 is a schematic view showing the use of a buffer structure that is sleeved around the display according to the first example of the present invention, and FIG. 2A is a side view of the buffer structure of FIG. 1 . View, FIG. 2B is a cross-sectional view showing the buffer structure of FIG. 1 sleeved around the display. The first buffer structure 110 has a receiving groove 110a for being sleeved around the display 100. The accommodating groove 110a extends inward from the outer wall 116 of the body 111. The accommodating groove 110a includes two opposite first side walls 112a and second side walls 112b. The first sidewall 112a has a first stepped structure including two first buffer faces 113a and a second buffer face 113b substantially parallel to each other, and the first buffer face 113a and the second sidewall 112b have a spacing d ₁ therebetween. The second buffer surface 113b and the second side wall 112b have a spacing d ₂ , and d _{2 is} smaller than d ₁ , in other words, the opening distance d ₂ between the two side walls (112a; 112b) from the accommodating groove is larger than the bottom spacing of the accommodating groove. d ₁ small. In this manner, when the first buffer structure 110 is sleeved around the display 100, the first buffer surface 113a abuts the frame 102 of the display 100, and the second buffer surface 113b abuts the display panel of the display 100. 104, the display panel 104 is not completely suspended, and is more stably protected (please refer to FIG. 2B). The body 111 can be made of a malleable cushioning material (for example, a foamed plastic material) such that the distance between the first side wall 112a and the second side wall 112b can be pulled apart to be sleeved around the display 100. In order to make the first buffer structure 110 more convenient for mass production assembly, the second side wall 112b may be designed with a hollow structure such that the second side wall 112b has a smaller elastic restoring force than the first side wall 112a. In the present embodiment, the hollow structure is a groove 114 extending from the outer wall 116 into the body. When the periphery of the display 100 is caught in the accommodating groove 110a, the hollowed out design of the slit 114 makes the elastic force of the second side wall 112b weak, and thus is more easily pushed away from the first side wall 112a in the direction 170, thus the periphery of the display 100 It is easier to get stuck in the accommodating groove 110a without scratching the bezel 102 or the display panel 104 of the display 100. When the display 100 is fully inserted into the accommodating groove 110a, the second side wall 112b will still return to the original shape (for example, the second side wall 112b is parallel to the second buffer surface 113b).

請同時參照第3、4、5圖，第3圖繪示依照本發明之第二實例的一種緩衝結構，第4、5圖繪示第3圖之緩衝結 構套接於一顯示器周圍時的兩種狀態的側視圖。第一緩衝結構120與第一緩衝結構110的差異之處主要在於鏤空結構不同的設計。第一緩衝結構120具有一容置槽120a用以套接於顯示器100的周圍。容置槽120a包含兩相對的第一側壁122a及第二側壁122b。第一側壁122a具有一第一階梯結構，使得兩側壁(122a；122b)之間距於容置槽的開口較容置槽的底部小。第一階梯結構包含一第一緩衝面123a及一第二緩衝面123b，第一緩衝面123a用以抵接顯示器100的邊框102，第二緩衝面123b用以抵接顯示器100的顯示面板104，使得顯示面板104部份不會完全懸空，受到更穩固的保護。在本實施例中，鏤空結構為複數切槽124b，從第二側壁122b往內延伸，使第二側壁122b形成複數鰭狀片124a。複數切槽124b的挖空設計使第二側壁122b的彈性力變弱，因而更容易被推離第一側壁122a，所以顯示器100的周圍就會更容易卡入容置槽120a內。當顯示器100的周圍卡入容置槽110a時(參照第4圖)，複數鰭狀片124a彎折遠離第一側壁122a，因此顯示器100的周圍就會更容易卡入容置槽120a內，不致於刮傷顯示器100的邊框102或顯示面板104。當邊框102完全卡入容置槽120a時(參照第5圖，顯示器100的邊框102抵接第一緩衝面123a時)，複數鰭狀片124a會回復成原形狀而抵接顯示器100的背面。 Please refer to FIG. 3, FIG. 4 and FIG. 5 simultaneously. FIG. 3 illustrates a buffer structure according to a second example of the present invention, and FIGS. 4 and 5 illustrate a buffer node of FIG. A side view of two states when nested around a display. The difference between the first buffer structure 120 and the first buffer structure 110 is mainly in the design of the hollow structure. The first buffer structure 120 has a receiving groove 120a for being sleeved around the display 100. The accommodating groove 120a includes two opposite first side walls 122a and second side walls 122b. The first side wall 122a has a first stepped structure such that the opening between the two side walls (122a; 122b) from the accommodating groove is smaller than the bottom of the accommodating groove. The first stepped surface 123a includes a first buffer surface 123a for abutting the frame 102 of the display 100, and the second buffer surface 123b for abutting the display panel 104 of the display 100. The portion of the display panel 104 is not completely suspended and is more securely protected. In this embodiment, the hollow structure is a plurality of slots 124b extending inwardly from the second sidewall 122b such that the second sidewall 122b forms a plurality of fins 124a. The hollowed out design of the plurality of slits 124b weakens the elastic force of the second side wall 122b, and thus is more easily pushed away from the first side wall 122a, so that the periphery of the display 100 is more likely to be caught in the accommodating groove 120a. When the periphery of the display 100 is inserted into the accommodating groove 110a (refer to FIG. 4), the plurality of fins 124a are bent away from the first side wall 122a, so that the periphery of the display 100 is more easily caught in the accommodating groove 120a. The frame 102 or the display panel 104 of the display 100 is scratched. When the frame 102 is completely caught in the accommodating groove 120a (refer to FIG. 5, when the frame 102 of the display 100 abuts against the first buffer surface 123a), the plurality of fins 124a return to the original shape and abut against the back surface of the display 100.

請同時參照第6、7圖，第6圖繪示依照本發明之第三實例的一種緩衝結構，第7圖係繪示第6圖之緩衝結構的側視圖。本實施例之第一緩衝結構130與上述第一緩衝結 構110、120的差異之處主要在於鏤空結構不同的設計。第一緩衝結構130具有一容置槽130a用以套接於顯示器的周圍。容置槽130a包含兩相對的第一側壁132a及第二側壁132b。第一側壁132a具有一第一階梯結構，使得兩側壁(132a；132b)之間距於容置槽的開口較容置槽的底部小。第一階梯結構包含一第一緩衝面133a及一第二緩衝面133b，第一緩衝面133a用以抵接顯示器100的邊框102(參照第1圖)，第二緩衝面133b用以抵接顯示器100的顯示面板104(參照第1圖)，使得顯示面板104不會完全懸空，受到更穩固的保護。在本實施例中，鏤空結構為複數個長條孔134a，其長軸方向大致垂直第二側壁132b。當顯示器100的周圍卡入容置槽130a時，長條孔134a的挖空設計使得第二側壁132b的彈性力變弱，因而更容易被推離第一側壁132a，所以顯示器100的周圍就會更容易卡入容置槽130a內，不致於刮傷顯示器100的邊框102或顯示面板104。當顯示器100完全卡入容置槽130a內後，第二側壁132b依然會回恢復原外型(例如，第二側壁132b平行於第二緩衝面133b)。 Please refer to FIG. 6 and FIG. 7 at the same time. FIG. 6 is a view showing a buffer structure according to a third example of the present invention, and FIG. 7 is a side view showing the buffer structure of FIG. The first buffer structure 130 of the embodiment and the first buffer node described above The difference between the structures 110 and 120 is mainly due to the different designs of the hollow structure. The first buffer structure 130 has a receiving groove 130a for being sleeved around the display. The accommodating groove 130a includes two opposite first side walls 132a and second side walls 132b. The first side wall 132a has a first stepped structure such that the opening between the two side walls (132a; 132b) from the accommodating groove is smaller than the bottom of the accommodating groove. The first stepped surface includes a first buffer surface 133a and a second buffer surface 133b. The first buffer surface 133a is for abutting the frame 102 of the display 100 (see FIG. 1), and the second buffer surface 133b is for abutting the display. The display panel 104 of 100 (refer to FIG. 1) is such that the display panel 104 is not completely suspended and is more stably protected. In the present embodiment, the hollow structure is a plurality of elongated holes 134a whose longitudinal direction is substantially perpendicular to the second side wall 132b. When the periphery of the display 100 is caught in the accommodating groove 130a, the hollowed out design of the elongated hole 134a makes the elastic force of the second side wall 132b weak, and thus is more easily pushed away from the first side wall 132a, so the periphery of the display 100 It is easier to get stuck in the accommodating groove 130a without scratching the frame 102 or the display panel 104 of the display 100. When the display 100 is fully inserted into the accommodating groove 130a, the second side wall 132b will still return to the original shape (for example, the second side wall 132b is parallel to the second buffer surface 133b).

請同時參照第8、9圖，第8圖繪示依照本發明之第四實例的一種緩衝結構，第9圖係繪示第8圖之緩衝結構的側視圖。本實施例之第一緩衝結構140與上述第一緩衝結構110、120、130的差異之處主要在於鏤空結構不同的設計。第一緩衝結構140具有一容置槽140a用以套接於顯示器的周圍。容置槽140a包含兩相對的第一側壁142a及第二側壁142b。第一側壁142a具有一階梯結構，使得兩側 壁(142a；142b)之間距於容置槽的開口較容置槽的底部小。階梯結構包含一第一緩衝面143a及一第二緩衝面143b，第一緩衝面143a用以抵接顯示器100的邊框102(參照第1圖)，第二緩衝面143b用以抵接顯示器100的顯示面板104(參照第1圖)，使得顯示面板104不會完全懸空，受到更穩固的保護。在本實施例中，鏤空結構為一個三角型孔144b加上第二側壁142b的兩凹陷144a，凹陷144a與三角型孔144b並未彼此連通。當顯示器100的周圍卡入容置槽140a時，凹陷144a與三角型孔144b的挖空設計使得第二側壁142b的彈性力變弱，因而更容易被推離第一側壁142a，所以顯示器100的周圍就會更容易卡入容置槽140a內，不致於刮傷顯示器100的邊框102或顯示面板104。當顯示器100完全卡入容置槽140a內後，第二側壁142b依然會回恢復原外型(例如，第二側壁142b平行於第二緩衝面143b)。 Please refer to FIG. 8 and FIG. 9 simultaneously. FIG. 8 is a view showing a buffer structure according to a fourth example of the present invention, and FIG. 9 is a side view showing the buffer structure of FIG. The difference between the first buffer structure 140 of the present embodiment and the first buffer structure 110, 120, 130 is mainly due to the different design of the hollow structure. The first buffer structure 140 has a receiving groove 140a for being sleeved around the display. The accommodating groove 140a includes two opposite first side walls 142a and second side walls 142b. The first side wall 142a has a stepped structure such that both sides The opening between the walls (142a; 142b) from the accommodating groove is smaller than the bottom of the accommodating groove. The stepped structure includes a first buffer surface 143a and a second buffer surface 143b. The first buffer surface 143a is for abutting the frame 102 of the display 100 (refer to FIG. 1), and the second buffer surface 143b is for abutting the display 100. The display panel 104 (refer to FIG. 1) is such that the display panel 104 is not completely suspended and is more stably protected. In the present embodiment, the hollow structure is a triangular hole 144b and two recesses 144a of the second side wall 142b are added, and the recess 144a and the triangular hole 144b are not in communication with each other. When the periphery of the display 100 is caught in the accommodating groove 140a, the hollowed out design of the recess 144a and the triangular hole 144b makes the elastic force of the second side wall 142b weak, and thus is more easily pushed away from the first side wall 142a, so the display 100 It is easier to get caught in the accommodating groove 140a around, so as not to scratch the frame 102 or the display panel 104 of the display 100. When the display 100 is fully inserted into the accommodating groove 140a, the second side wall 142b will still return to the original shape (for example, the second side wall 142b is parallel to the second buffer surface 143b).

請同時參照第10、11圖，第10圖繪示依照本發明之第五實例的一種緩衝結構，第11圖係繪示第10圖之緩衝結構的側視圖。本實施例之第一緩衝結構150與上述第一緩衝結構110、120、130、140的差異之處主要在於鏤空結構不同的設計。第一緩衝結構150具有一容置槽150a用以套接於顯示器的周圍。容置槽150a包含兩相對的第一側壁152a及第二側壁152b。第一側壁152a具有一第一階梯結構，使得兩側壁(152a；152b)之間距於容置槽的開口較容置槽的底部小。第一階梯結構包含一第一緩衝面153a及一第二緩衝面153b，第一緩衝面153a用以抵接顯示器100 的邊框102(參照第1圖)，第二緩衝面153b用以抵接顯示器100的顯示面板104(參照第1圖)，使得顯示面板104不會完全懸空，受到更穩固的保護。在本實施例中，鏤空結構為一對三角型孔154a加上第二側壁152b的凹陷154b，兩三角型孔154a相對於凹陷154b對稱設置。凹陷154b位於兩三角型孔154a之間，且彼此不連通。當顯示器100的周圍卡入容置槽150a時，三角型孔154a與凹陷154b的挖空設計使得第二側壁152b的彈性力變弱，因而更容易被推離第一側壁152a，所以顯示器100的周圍就會更容易卡入容置槽150a內，不致於刮傷顯示器100的邊框102或顯示面板104。當顯示器100完全卡入容置槽150a內後，第二側壁152b依然會回恢復原外型(例如，第二側壁152b平行於第二緩衝面153b)。 Please refer to FIG. 10 and FIG. 11 simultaneously. FIG. 10 illustrates a buffer structure according to a fifth example of the present invention, and FIG. 11 is a side view of the buffer structure of FIG. The difference between the first buffer structure 150 of the present embodiment and the first buffer structure 110, 120, 130, 140 is mainly in the design of the hollow structure. The first buffer structure 150 has a receiving groove 150a for being sleeved around the display. The accommodating groove 150a includes two opposite first side walls 152a and second side walls 152b. The first side wall 152a has a first stepped structure such that the opening between the two side walls (152a; 152b) from the accommodating groove is smaller than the bottom of the accommodating groove. The first stepped surface 153a includes a first buffer surface 153a and a second buffer surface 153b for abutting the display 100. The frame 102 (see FIG. 1) and the second buffer surface 153b are for abutting against the display panel 104 of the display 100 (see FIG. 1), so that the display panel 104 is not completely suspended and is more stably protected. In the present embodiment, the hollow structure is a pair of triangular holes 154a plus a recess 154b of the second side wall 152b, and the two triangular holes 154a are symmetrically disposed with respect to the recess 154b. The recess 154b is located between the two triangular holes 154a and is not in communication with each other. When the periphery of the display 100 is caught in the accommodating groove 150a, the hollowed out design of the triangular hole 154a and the recess 154b makes the elastic force of the second side wall 152b weak, and thus is more easily pushed away from the first side wall 152a, so the display 100 It is easier to get caught in the accommodating groove 150a around, so as not to scratch the frame 102 or the display panel 104 of the display 100. When the display 100 is fully inserted into the accommodating groove 150a, the second side wall 152b will still return to the original shape (for example, the second side wall 152b is parallel to the second buffer surface 153b).

當包裝一顯示器100時，一般會使用至少4個第一緩衝結構110、120、130、140或150套接於顯示器的周圍。為了節省緩衝材的用量，顯示器的顯示面板104與邊框102並不會被第一緩衝結構110、120、130、140或150完全包覆。若需要完全包覆顯示器的顯示面板104，藉以應付較嚴苛的運送條件，以下的緩衝結構可以補足此需求。 When a display 100 is packaged, at least four first buffer structures 110, 120, 130, 140 or 150 are typically used to nest around the display. In order to save the amount of cushioning material, the display panel 104 of the display and the bezel 102 are not completely covered by the first buffer structure 110, 120, 130, 140 or 150. If the display panel 104 of the display is to be completely covered to cope with the more stringent shipping conditions, the following buffer structure can complement this need.

請同時參照第12、12A圖，第12圖繪示依照本發明的一種適用於保護顯示器的顯示面板之緩衝結構的使用示意圖，第12A圖係繪示第12圖之緩衝結構抵接於顯示器的剖面圖。第二緩衝結構200包含一結構體202與至少兩緩衝塊204。結構體202可以是瓦楞紙等紙材所構成，緩衝塊204可以是發泡塑膠所製成。複數緩衝塊204套接於 紙板結構體的兩端202a，且各自具有一第二階梯結構。緩衝結構200中之結構體202除了作為兩緩衝塊204之定位外，其亦覆蓋於顯示器的顯示面板104上，同時亦可提供對顯示面板104的保護，藉以節省緩衝材的用量。因為結構體202本身對於顯示面板之正面穿刺衝擊具有阻擋的效果，可藉以縮減緩衝塊的用量。換言之，結構體202上不需要佈滿緩衝塊204，因此兩緩衝塊204與結構體202之套接區域就會小於結構體202的總面積。請參照第12圖，緩衝塊204之每一第二階梯結構具有一第三緩衝面204a及一第四緩衝面204b，且兩緩衝面大致彼此平行。第四緩衝面204b抵接顯示器100的邊框102，第三緩衝面204a用以抵接顯示器100的顯示面板104，使得緩衝塊204之第二階梯結構能同時對邊框102與顯示面板104提供緩衝保護。以下舉例結構體與緩衝塊不同的組立方式。 Please refer to FIG. 12 and FIG. 12A simultaneously. FIG. 12 is a schematic diagram showing the use of a buffer structure suitable for protecting a display panel according to the present invention. FIG. 12A is a view showing the buffer structure of FIG. 12 abutting on the display. Sectional view. The second buffer structure 200 includes a structure 202 and at least two buffer blocks 204. The structure 202 may be made of paper such as corrugated paper, and the buffer block 204 may be made of foamed plastic. The plurality of buffer blocks 204 are sleeved on Both ends 202a of the cardboard structure have a second stepped structure. In addition to being positioned as two buffer blocks 204, the structure 202 in the buffer structure 200 also covers the display panel 104 of the display, and also provides protection for the display panel 104, thereby saving the amount of buffer material. Since the structure 202 itself has a blocking effect on the front puncture impact of the display panel, the amount of the buffer block can be reduced. In other words, the structure 202 does not need to be filled with the buffer block 204, so the socket area of the two buffer blocks 204 and the structure 202 will be smaller than the total area of the structure 202. Referring to FIG. 12, each of the second step structures of the buffer block 204 has a third buffer surface 204a and a fourth buffer surface 204b, and the two buffer surfaces are substantially parallel to each other. The fourth buffer surface 204b abuts the frame 102 of the display 100, and the third buffer surface 204a is used to abut the display panel 104 of the display 100, so that the second step structure of the buffer block 204 can simultaneously provide buffer protection for the frame 102 and the display panel 104. . The following is an example of a different arrangement of the structure and the buffer block.

在以下舉例的第二緩衝結構210、220、230、240中，結構體的頂端通常配置二個緩衝塊，而紙板結構體的底端通常配置一個緩衝塊(例如第12圖的配置方式)。因為當包裝箱160於運輸中直立時，包裝於內的顯示器100之頂端所承受的衝擊力較顯示器100之底端大，故需要較多的緩衝材。另一種配置方式是將紙板結構體的頂端與底端都各配置一個緩衝塊，但紙板結構體的頂端所配置的緩衝塊需要有較多的緩衝材(緩衝塊的體積較大)，藉以提供顯示器100之頂端更多的保護。 In the second buffer structure 210, 220, 230, 240 exemplified below, the top end of the structure is usually provided with two buffer blocks, and the bottom end of the cardboard structure is usually provided with a buffer block (for example, the configuration of Fig. 12). Since the impact of the top end of the display 100 enclosed therein is greater than the bottom end of the display 100 when the package 160 is erected during transportation, more cushioning material is required. Another configuration method is to arrange a buffer block for each of the top end and the bottom end of the cardboard structure, but the buffer block disposed at the top end of the cardboard structure body needs to have more buffer materials (the buffer block has a larger volume), thereby providing More protection is at the top of display 100.

此外，第二緩衝結構210、220、230、240中的結構體僅為示例，並不限定以紙板結構體才能連接緩衝塊，其他 環保可回收的材質亦可用來製作結構體。請同時參照第13、14圖，第13圖繪示依照本發明之第六實例的一種緩衝結構，第14圖係繪示第13圖之緩衝結構的***圖。緩衝結構210由紙板結構體212與複數個緩衝塊214所構成。紙板結構體212具有兩個矩型截面的柱體212a位於其兩相對邊，柱體212a係由紙板摺捲而構成。每一緩衝塊214具有兩個矩型截面的插槽214a，藉以供柱體212a***固定。為了節省緩衝材的用量，可以只使用兩個緩衝塊214分別套接於紙板結構體212的兩端，藉以抵接顯示器100之顯示面板104的上、下兩端。 In addition, the structures in the second buffer structures 210, 220, 230, 240 are merely examples, and the cardboard structure is not limited to connect the buffer blocks. Environmentally recyclable materials can also be used to make structures. Please refer to FIG. 13 and FIG. 14 simultaneously. FIG. 13 is a view showing a buffer structure according to a sixth example of the present invention, and FIG. 14 is an exploded view showing the buffer structure of FIG. The buffer structure 210 is composed of a cardboard structure 212 and a plurality of buffer blocks 214. The cardboard structure 212 has two rectangular cross-sections of a cylindrical body 212a on opposite sides thereof, and the cylindrical body 212a is formed by folding a cardboard. Each buffer block 214 has two rectangular cross-section slots 214a for insertion and fixation of the cylinder 212a. In order to save the amount of the buffer material, only two buffer blocks 214 can be respectively sleeved on both ends of the cardboard structure 212 to abut the upper and lower ends of the display panel 104 of the display 100.

請同時參照第15、16圖，第15圖繪示第14圖中紙板結構體之另一視角的立體圖，第16圖繪示第13圖之緩衝結構沿Y方向的側視圖。當紙板結構體212與緩衝塊214接合後，紙板結構體212之底部具有擋片設計藉以固定緩衝塊214。請參照第15圖，紙板結構體212底部具有擋片212c與擋片212b，擋片212c的兩端具有缺口212d。緩衝塊214會被擋片212c之缺口212d與擋片212b所夾持，藉以防止緩衝塊214滑動。請參照第16圖，其繪示兩個緩衝塊214分別被夾持於對應的擋片212b與212c之間。 Referring to FIGS. 15 and 16, FIG. 15 is a perspective view showing another perspective of the cardboard structure in FIG. 14, and FIG. 16 is a side view showing the buffer structure of FIG. 13 in the Y direction. When the cardboard structure 212 is engaged with the buffer block 214, the bottom of the cardboard structure 212 has a flap design to secure the buffer block 214. Referring to FIG. 15, the bottom of the cardboard structure 212 has a flap 212c and a flap 212b. Both ends of the flap 212c have a notch 212d. The buffer block 214 is held by the notch 212d of the blocking piece 212c and the blocking piece 212b, thereby preventing the buffer block 214 from sliding. Referring to FIG. 16, it is shown that two buffer blocks 214 are respectively clamped between the corresponding blocking pieces 212b and 212c.

請同時參照第17、18圖，第17圖係繪示依照本發明之第七實例的一種緩衝結構，第18圖繪示第17圖之緩衝結構的***圖。第二緩衝結構220不同於第二緩衝結構210之處在於第二緩衝結構220由紙板結構體222與兩個緩衝塊224緊配而構成。紙板結構體222也具有兩個矩型截面的柱體222a，但不具擋片的設計，柱體222a係由紙板摺捲 而構成。每一緩衝塊224也具有兩個矩型截面的插槽224a，藉以供柱體222a***固定。插槽224a需略小於柱體212a的矩型截面，兩者以緊配之方式來固定紙板結構體222與緩衝塊224。 Please refer to FIGS. 17 and 18 simultaneously. FIG. 17 is a view showing a buffer structure according to a seventh example of the present invention, and FIG. 18 is an exploded view showing the buffer structure of FIG. The second buffer structure 220 is different from the second buffer structure 210 in that the second buffer structure 220 is formed by the cardboard structure 222 being tightly fitted with the two buffer blocks 224. The cardboard structure 222 also has two rectangular cross-section cylinders 222a, but without the design of the flaps, the cylinders 222a are folded from the cardboard. And constitute. Each buffer block 224 also has two slots 224a of rectangular cross-section for insertion and fixation of the cylinder 222a. The slot 224a needs to be slightly smaller than the rectangular section of the cylinder 212a, which secures the cardboard structure 222 and the buffer block 224 in a tight fit.

請同時參照第19、20圖，第19圖繪示依照本發明之第八實例的一種緩衝結構，第20圖繪示第19圖之緩衝結構的***圖。第二緩衝結構230由紙板結構體232與複數個緩衝塊234所構成。紙板結構體232具有兩個「ㄇ字型」截面的柱體232a，柱體232a係由紙板彎摺而構成，且凸出於紙板結構體232的一面。每一柱體232a具有擋片233a與開孔233b，藉以與對應緩衝塊234接合固定，開孔233b位於柱體232a的兩相對的側壁232c上。柱體232a的數量可依需求調整，數量越多，紙板結構體232的結構強度更佳。 Please refer to FIG. 19 and FIG. 20 simultaneously. FIG. 19 illustrates a buffer structure according to an eighth example of the present invention, and FIG. 20 illustrates an exploded view of the buffer structure of FIG. The second buffer structure 230 is composed of a cardboard structure 232 and a plurality of buffer blocks 234. The cardboard structure 232 has two cylinders 232a of a "ㄇ" type cross section, and the cylinders 232a are formed by bending the cardboard and protruding from one side of the cardboard structure 232. Each of the cylinders 232a has a baffle 233a and an opening 233b for engaging and fixing with the corresponding buffer block 234, and the opening 233b is located on the opposite side walls 232c of the cylinder 232a. The number of cylinders 232a can be adjusted as needed, and the greater the number, the better the structural strength of the cardboard structure 232.

請同時參照第21、22圖，其繪示第20圖之緩衝結構的元件組立方式的示意圖。緩衝塊234具有插槽234a與兩彈性件234b，彈性件234b配置於插槽234a旁。當緩衝塊234與紙板結構體232欲組立時(請參照第21圖)，兩彈性件234b可拉開(如234b’所示)，供擋片233a置入插槽234a的位置，兩彈性件234b接著***開孔233b以完成接合的動作(請同時參照第20、22圖)。 Please refer to FIGS. 21 and 22 simultaneously, which show a schematic diagram of the component assembly mode of the buffer structure of FIG. The buffer block 234 has a slot 234a and two elastic members 234b, and the elastic member 234b is disposed beside the slot 234a. When the buffer block 234 and the cardboard structure 232 are to be assembled (please refer to FIG. 21), the two elastic members 234b can be pulled apart (as shown by 234b'), and the blocking piece 233a is placed in the position of the slot 234a, and the two elastic members are 234b is then inserted into the opening 233b to complete the joining operation (please refer to Figs. 20 and 22 at the same time).

請同時參照第23、24圖，第23圖繪示依照本發明之第九實例的一種緩衝結構，第24圖繪示第23圖之緩衝結構的***圖。第二緩衝結構240由紙板結構體242與複數個緩衝塊244所構成。不同於第二緩衝結構210、220、230， 第二緩衝結構240之紙板結構體242不具有柱體，而以開孔及/或缺口來接合緩衝塊244。例如，紙板結構體242具有至少兩開孔242a位於其相對的兩側，用以接合需求數量的緩衝塊244。此外，紙板結構體242也可以具有缺口242c，加強對緩衝塊244的固定。缺口242c的尺寸可視緩衝塊244而修改大小。緩衝塊244具有一對翼形切槽244c，藉以使緩衝塊244形成二彈性件244a及一凸塊244b。凸塊244b藉以卡入紙板結構體242之開孔242a，二彈性件244a藉以夾持紙板結構體242。 Please refer to FIG. 23 and FIG. 24 simultaneously. FIG. 23 illustrates a buffer structure according to a ninth example of the present invention, and FIG. 24 is an exploded view of the buffer structure of FIG. The second buffer structure 240 is composed of a cardboard structure 242 and a plurality of buffer blocks 244. Different from the second buffer structure 210, 220, 230, The cardboard structure 242 of the second cushioning structure 240 does not have a cylinder, but the buffer block 244 is joined by openings and/or indentations. For example, the cardboard structure 242 has at least two openings 242a on opposite sides thereof for engaging a desired number of buffer blocks 244. In addition, the cardboard structure 242 may also have a notch 242c to enhance the fixation of the buffer block 244. The size of the notch 242c can be sized by the buffer block 244. The buffer block 244 has a pair of wing-shaped slots 244c, so that the buffer block 244 forms two elastic members 244a and one bump 244b. The bump 244b is thereby inserted into the opening 242a of the cardboard structure 242, and the two elastic members 244a are used to clamp the cardboard structure 242.

請參照第25圖，其繪示第24圖之緩衝結構的元件組立方式的示意圖。當緩衝塊244與紙板結構體242欲組立時，二彈性件244a可拉開(如244a’所示)，供緩衝塊244之凸塊244b卡入板結構體242之開孔242a。當兩彈性件244回復原位置後，紙板結構體242之板體242b即被夾持於翼形切槽244c內。 Please refer to FIG. 25, which is a schematic diagram showing the component assembly mode of the buffer structure of FIG. 24. When the buffer block 244 and the cardboard structure 242 are to be assembled, the two elastic members 244a can be pulled apart (as shown by 244a'), and the bumps 244b of the buffer block 244 are snapped into the openings 242a of the plate structure 242. When the two elastic members 244 are returned to the original position, the plate body 242b of the cardboard structure 242 is clamped in the wing-shaped slit 244c.

上述第二緩衝結構210、220、230、240之緩衝塊亦可增加如第12、12A圖之階梯結構，利用階梯結構的兩的緩衝面(204a；204b)分別抵接一顯示器的顯示面板及邊框，藉以增加對顯示器的保護。 The buffer block of the second buffer structure 210, 220, 230, 240 may also be added with the step structure of the 12th, 12th, and the buffer surface (204a; 204b) of the step structure respectively abuts the display panel of a display and A border to increase the protection of the display.

上述的兩種類型的第一緩衝結構110、120、130、140、150與第二緩衝結構200、210、220、230、240可以適需求單獨使用或共同使用於一包裝箱中，並藉其階梯結構同時抵接一顯示器的邊框與顯示面板，因而提升對顯示面板的固定性。 The above two types of first buffer structures 110, 120, 130, 140, 150 and the second buffer structure 200, 210, 220, 230, 240 may be separately used or used together in a package, and The stepped structure simultaneously abuts the frame of the display and the display panel, thereby improving the fixation of the display panel.

上述第二緩衝結構200、210、220、230、240之緩衝 塊由發泡塑膠所製成，目前常用的發泡塑膠包含發泡聚苯乙烯(EPS，俗稱保麗龍)、發泡聚丙烯(EPP，俗稱拿普龍)、發泡聚乙烯(EPE，俗稱伊比龍)及發泡乙烯聚合物(EPO，俗稱匹歐龍)。使用者可依需求選擇適合特性的發泡塑膠材料於特定的緩衝結構上。舉例而言，緩衝結構220係由紙板結構體與緩衝塊緊配而構成，較不需要具有較高彈性的材料，上述的四種發泡塑膠都適用。在第一緩衝結構110、120、130、140或150中，因容置槽的兩側壁需要拉開，需要具有較高彈性的材料，發泡聚乙烯可能是較適用的發泡塑膠材。 Buffering of the above second buffer structure 200, 210, 220, 230, 240 The block is made of foamed plastic. The commonly used foamed plastics include expanded polystyrene (EPS, commonly known as styrofoam), expanded polypropylene (EPP, commonly known as Napoleon), and expanded polyethylene (EPE). Commonly known as Iblon) and foamed ethylene polymer (EPO, commonly known as Piouxon). The user can select a foamed plastic material with suitable characteristics on a specific buffer structure according to requirements. For example, the buffer structure 220 is composed of a cardboard structure body and a buffer block, and is not required to have a material having high elasticity. The above four foaming plastics are applicable. In the first buffer structure 110, 120, 130, 140 or 150, since the two side walls of the accommodating groove need to be pulled apart, a material having high elasticity is required, and the foamed polyethylene may be a suitable foamed plastic material.

雖然本發明已以實施方式揭露如上，然其並非用以限定本發明，任何熟習此技藝者，在不脫離本發明之精神和範圍內，當可作各種之更動與潤飾，因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。 Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and the present invention can be modified and modified without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached.

50‧‧‧緩衝結構 50‧‧‧buffer structure

60‧‧‧顯示器 60‧‧‧ display

62‧‧‧邊框 62‧‧‧Border

64‧‧‧顯示面板 64‧‧‧ display panel

100‧‧‧顯示器 100‧‧‧ display

102‧‧‧邊框 102‧‧‧Border

104‧‧‧顯示面板 104‧‧‧ display panel

110‧‧‧第一緩衝結構 110‧‧‧First buffer structure

110a‧‧‧容置槽 110a‧‧‧ accommodating slots

Y‧‧‧方向 Y‧‧‧ direction

d₁‧‧‧間距 d ₁ ‧‧‧ spacing

153a‧‧‧第一緩衝面 153a‧‧‧First buffer surface

153b‧‧‧第二緩衝面 153b‧‧‧second buffer surface

154a‧‧‧三角型孔 154a‧‧‧Triangular hole

154b‧‧‧凹陷 154b‧‧‧ dent

160‧‧‧包裝箱 160‧‧‧Package box

170‧‧‧方向 170‧‧‧ Direction

200‧‧‧第二緩衝結構 200‧‧‧Second buffer structure

202‧‧‧結構體 202‧‧‧ structure

202a‧‧‧端 202a‧‧‧

204‧‧‧緩衝塊 204‧‧‧ Buffer block

204a‧‧‧第三緩衝面 204a‧‧‧ third buffer surface

d₂‧‧‧間距 d ₂ ‧‧‧ spacing

111‧‧‧本體 111‧‧‧Ontology

112a‧‧‧第一側壁 112a‧‧‧First side wall

112b‧‧‧第二側壁 112b‧‧‧second side wall

113a‧‧‧第一緩衝面 113a‧‧‧First buffer surface

113b‧‧‧第二緩衝面 113b‧‧‧second buffer surface

114‧‧‧切槽 114‧‧‧ slotting

116‧‧‧外壁 116‧‧‧ outer wall

120‧‧‧第一緩衝結構 120‧‧‧First buffer structure

120a‧‧‧容置槽 120a‧‧‧ accommodating slots

122a‧‧‧第一側壁 122a‧‧‧First side wall

122b‧‧‧第二側壁 122b‧‧‧second side wall

123a‧‧‧第一緩衝面 123a‧‧‧ first buffer surface

123b‧‧‧第二緩衝面 123b‧‧‧second buffer surface

124a‧‧‧鰭狀片 124a‧‧‧Fin

124b‧‧‧切槽 124b‧‧‧ slotting

130‧‧‧第一緩衝結構 130‧‧‧First buffer structure

130a‧‧‧容置槽 130a‧‧‧容槽

132a‧‧‧第一側壁 132a‧‧‧First side wall

132b‧‧‧第二側壁 132b‧‧‧second side wall

133a‧‧‧第一緩衝面 133a‧‧‧First buffer surface

133b‧‧‧第二緩衝面 133b‧‧‧second buffer surface

134a‧‧‧長條孔 134a‧‧‧ long hole

140‧‧‧第一緩衝結構 140‧‧‧First buffer structure

140a‧‧‧容置槽 140a‧‧‧ accommodating slots

142a‧‧‧第一側壁 142a‧‧‧First side wall

204b‧‧‧第四緩衝面 204b‧‧‧fourth buffer surface

210‧‧‧第二緩衝結構 210‧‧‧Second buffer structure

212‧‧‧紙板結構體 212‧‧‧Cardboard structure

212a‧‧‧柱體 212a‧‧‧Cylinder

212b‧‧‧擋片 212b‧‧‧Block

212c‧‧‧擋片 212c‧‧‧Block

212d‧‧‧缺口 212d‧‧‧ gap

214‧‧‧緩衝塊 214‧‧‧buffer block

214a‧‧‧插槽 214a‧‧‧ slots

220‧‧‧第二緩衝結構 220‧‧‧Second buffer structure

222‧‧‧紙板結構體 222‧‧‧Cardboard structure

222a‧‧‧柱體 222a‧‧‧Cylinder

224‧‧‧緩衝塊 224‧‧‧ Buffer block

224a‧‧‧插槽 224a‧‧ slots

230‧‧‧第二緩衝結構 230‧‧‧Second buffer structure

232‧‧‧紙板結構體 232‧‧‧Cardboard structure

232a‧‧‧柱體 232a‧‧‧Cylinder

232c‧‧‧側壁 232c‧‧‧ side wall

233a‧‧‧擋片 233a‧‧ ‧Flap

233b‧‧‧開孔 233b‧‧‧Opening

234‧‧‧緩衝塊 234‧‧‧buffer block

234a‧‧‧插槽 234a‧‧ slots

234b‧‧‧彈性件 234b‧‧‧Flexible parts

234b’‧‧‧彈性件 234b’‧‧‧Flexible parts

240‧‧‧第二緩衝結構 240‧‧‧Second buffer structure

242‧‧‧紙板結構體 242‧‧‧Cardboard structure

142b‧‧‧第二側壁 142b‧‧‧second side wall

143a‧‧‧第一緩衝面 143a‧‧‧First buffer surface

143b‧‧‧第二緩衝面 143b‧‧‧second buffer surface

144a‧‧‧凹陷 144a‧‧‧ dent

144b‧‧‧三角型孔 144b‧‧‧Triangular hole

150‧‧‧第一緩衝結構 150‧‧‧First buffer structure

150a‧‧‧容置槽 150a‧‧‧容槽

152a‧‧‧第一側壁 152a‧‧‧First side wall

152b‧‧‧第二側壁 152b‧‧‧second side wall

242a‧‧‧開孔 242a‧‧‧Opening

242b‧‧‧板體 242b‧‧‧ board

242c‧‧‧缺口 242c‧‧‧ gap

244‧‧‧緩衝塊 244‧‧‧ Buffer block

244a‧‧‧彈性件 244a‧‧‧Flexible parts

244a’‧‧‧彈性件 244a’‧‧‧Flexible parts

244b‧‧‧凸塊 244b‧‧‧Bumps

244c‧‧‧切槽 244c‧‧‧ slotting

為讓本發明之上述和其他目的、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圖係繪示依照本發明之第一實例的一種套接於顯示器周圍之緩衝結構的使用示意圖；第2A圖係繪示第1圖之緩衝結構的側視圖；第2B圖係繪示第1圖之緩衝結構套接於顯示器周圍的剖面圖；第3圖係繪示依照本發明之第二實例的一種緩衝結構； 第4、5圖係繪示第3圖之緩衝結構套接於一顯示器周圍的兩種狀態的側視圖；第6圖係繪示依照本發明之第三實例的一種緩衝結構；第7圖係繪示第6圖之緩衝結構的側視圖；第8圖係繪示依照本發明之第四實例的一種緩衝結構；第9圖係繪示第8圖之緩衝結構的側視圖；第10圖係繪示依照本發明之第五實例的一種緩衝結構；第11圖係繪示第10圖之緩衝結構的側視圖；第12圖係繪示依照本發明的一種適用於保護顯示器的顯示面板之緩衝結構的使用示意圖；第12A圖係繪示第12圖之緩衝結構抵接於顯示器的剖面圖；第13圖係繪示依照本發明之第六實例的一種緩衝結構；第14圖係繪示第13圖之緩衝結構的***圖；第15圖係繪示第14圖中紙板結構體之另一視角的立體圖；第16圖係繪示第13圖之緩衝結構沿Y方向的側視圖；第17圖係繪示依照本發明之第七實例的一種緩衝結構；第18圖係繪示第17圖之緩衝結構的***圖； 第19圖係繪示依照本發明之第八實例的一種緩衝結構；第20圖係繪示第19圖之緩衝結構的***圖；第21、22圖係繪示第20圖之緩衝結構的元件組立方式的示意圖；第23圖係繪示依照本發明之第九實例的一種緩衝結構；第24圖係繪示第23圖之緩衝結構的***圖；第25圖係繪示第24圖之緩衝結構的元件組立方式的示意圖；以及第26圖係繪示一種習知的緩衝結構套接於顯示器周圍之剖面圖。 The above and other objects, features, advantages and embodiments of the present invention will become more <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; FIG. 2A is a side view showing the buffer structure of FIG. 1; FIG. 2B is a cross-sectional view showing the buffer structure of FIG. 1 being sleeved around the display; FIG. 3 is a cross-sectional view of the buffer structure; a buffer structure according to a second example of the present invention; 4 and 5 are side views showing the state in which the buffer structure of FIG. 3 is sleeved around a display; FIG. 6 is a view showing a buffer structure according to a third example of the present invention; A side view of the buffer structure of FIG. 6 is shown; FIG. 8 is a view showing a buffer structure according to a fourth example of the present invention; and FIG. 9 is a side view showing a buffer structure of FIG. 8; A buffer structure according to a fifth example of the present invention is shown; FIG. 11 is a side view showing the buffer structure of FIG. 10; and FIG. 12 is a buffer diagram of a display panel suitable for protecting a display according to the present invention. FIG. 12A is a cross-sectional view showing the buffer structure of FIG. 12 abutting on the display; FIG. 13 is a view showing a buffer structure according to a sixth example of the present invention; 13 is an exploded view of the buffer structure; FIG. 15 is a perspective view showing another perspective of the cardboard structure in FIG. 14; and FIG. 16 is a side view showing the buffer structure of FIG. 13 in the Y direction; The figure shows a buffer structure according to a seventh example of the present invention; Figure 8 is an exploded view showing the buffer structure of Figure 17; 19 is a buffer structure according to an eighth example of the present invention; FIG. 20 is an exploded view of the buffer structure of FIG. 19; and FIGS. 21 and 22 are diagrams showing the components of the buffer structure of FIG. FIG. 23 is a schematic diagram showing a buffer structure according to a ninth example of the present invention; FIG. 24 is an exploded view of the buffer structure of FIG. 23; and FIG. 25 is a buffer diagram of FIG. A schematic diagram of a component assembly manner of the structure; and FIG. 26 is a cross-sectional view of a conventional buffer structure sleeved around the display.

100‧‧‧顯示器 100‧‧‧ display

102‧‧‧邊框 102‧‧‧Border

104‧‧‧顯示面板 104‧‧‧ display panel

110‧‧‧緩衝結構 110‧‧‧buffer structure

110a‧‧‧容置槽 110a‧‧‧ accommodating slots

114‧‧‧切槽 114‧‧‧ slotting

Claims (21)

一種緩衝結構，包含：一第一緩衝結構，包含：一本體，具有一容置槽用以套接於一顯示器的周圍，該容置槽具有相對的第一側壁與第二側壁，其中該第二側壁內具有一鏤空結構，使該第二側壁具有較該第一側壁較小的彈性恢復力；以及一第一階梯結構，位於該第一側壁，使得該第一側壁與該第二側壁之間距於該容置槽的開口較該容置槽的底部小，該第一階梯結構具有一第一緩衝面及一第二緩衝面，該第一緩衝面用以抵接該顯示器的邊框，該第二緩衝面用以抵接該顯示器的顯示面板，且該第一緩衝面與該第二緩衝面之間的斷差面用以抵接該顯示器的邊框與顯示面板之間的斷差面；以及一第二緩衝結構，包含：一結構體；至少一緩衝塊，套接於該第一結構體上，且具有一第二階梯結構，該第二階梯結構具有一第三緩衝面及一第四緩衝面，該第三緩衝面用以抵接該顯示器的邊框，該第四緩衝面用以抵接該顯示器的顯示面板。 A buffer structure, comprising: a first buffer structure, comprising: a body having a receiving slot for being sleeved around a display, the receiving slot having opposite first and second sidewalls, wherein the first The second side wall has a hollow structure, the second side wall has a smaller elastic restoring force than the first side wall; and a first stepped structure is located on the first side wall, such that the first side wall and the second side wall The opening of the accommodating slot is smaller than the bottom of the accommodating slot. The first stepped structure has a first buffering surface and a second buffering surface. The first buffering surface is configured to abut the frame of the display. The second buffer surface is configured to abut the display panel of the display, and the gap surface between the first buffer surface and the second buffer surface is used to abut the gap surface between the frame of the display and the display panel; And a second buffer structure, comprising: a structure; at least one buffer block, sleeved on the first structure body, and having a second step structure, the second step structure having a third buffer surface and a first Four buffer surface, the third buffer For abutting the border of the display, for the fourth abutment surface of the display buffer of the display panel. 一種緩衝結構，包含：一本體，具有一容置槽，該容置槽具有相對的第一側壁與第二側壁，其中該第二側壁內具有一鏤空結構，使該 第二側壁具有較該第一側壁較小的彈性恢復力；以及一第一階梯結構，位於該第一側壁，使得該第一側壁與該第二側壁之間距於該容置槽的開口較該容置槽的底部小，該第一階梯結構具有一第一緩衝面及一第二緩衝面，該第一緩衝面用以抵接一顯示器的邊框，該第二緩衝面用以抵接該顯示器的顯示面板，且該第一緩衝面與該第二緩衝面之間的斷差面用以抵接該顯示器的邊框與顯示面板之間的斷差面。 A buffer structure, comprising: a body having a receiving groove, wherein the receiving groove has opposite first and second side walls, wherein the second side wall has a hollow structure The second side wall has a smaller elastic restoring force than the first side wall; and a first stepped structure is located on the first side wall, such that the opening between the first side wall and the second side wall is closer to the receiving groove The bottom of the accommodating slot is small. The first stepped surface has a first buffering surface and a second buffering surface. The first buffering surface is used to abut the frame of a display, and the second buffering surface is used to abut the display. The display panel has a gap surface between the first buffer surface and the second buffer surface for abutting a gap surface between the frame of the display and the display panel. 一種緩衝結構，包含：一結構體；以及至少兩緩衝塊，套接於該結構體的兩端，且各具有一第二階梯結構，該階梯結構具有一第三緩衝面及一第四緩衝面，該第三緩衝面用以抵接一顯示器的邊框，該第四緩衝面用以抵接該顯示器的顯示面板，其中該結構體包含至少二矩型截面的柱體，其位於該結構體的兩相對邊。 A buffer structure, comprising: a structure; and at least two buffer blocks, sleeved at two ends of the structure, and each having a second stepped structure, the stepped structure having a third buffer surface and a fourth buffer surface The third buffer surface is used to abut the frame of a display, and the fourth buffer surface is used to abut the display panel of the display, wherein the structure comprises a cylinder of at least two rectangular sections, and the pillar is located at the structure. Two opposite sides. 如請求項1或2所述之緩衝結構，其中該第二緩衝面平行於該第二側壁。 The buffer structure of claim 1 or 2, wherein the second buffer surface is parallel to the second sidewall. 如請求項1或2所述之緩衝結構，其中該本體具有一外壁，該容置槽從該外壁往該本體內延伸。 The buffer structure of claim 1 or 2, wherein the body has an outer wall extending from the outer wall into the body. 如請求項5所述之緩衝結構，其中該鏤空結構為一切槽，從該外壁往該本體內延伸。 The buffer structure of claim 5, wherein the hollow structure is a groove extending from the outer wall into the body. 如請求項1或2所述之緩衝結構，其中該鏤空結構為複數切槽，從該第二側壁往內延伸。 The buffer structure of claim 1 or 2, wherein the hollow structure is a plurality of slots extending inwardly from the second sidewall. 如請求項1或2所述之緩衝結構，其中該鏤空結構為複數長條孔，其長軸方向垂直該第二側壁。 The buffer structure according to claim 1 or 2, wherein the hollow structure is a plurality of elongated holes whose longitudinal direction is perpendicular to the second side wall. 如請求項1或2所述之緩衝結構，其中該鏤空結構為一三角型孔與二個位於該第二側壁的凹陷。 The buffer structure of claim 1 or 2, wherein the hollow structure is a triangular hole and two recesses located on the second side wall. 如請求項1或2所述之緩衝結構，其中該鏤空結構為兩個三角型孔與一個位於該第二側壁的凹陷，該凹陷位於該兩個三角型孔之間。 The buffer structure of claim 1 or 2, wherein the hollow structure is two triangular holes and one recess located on the second side wall, the recess being located between the two triangular holes. 如請求項1或2所述之緩衝結構，其中該本體為一發泡塑膠材。 The buffer structure of claim 1 or 2, wherein the body is a foamed plastic material. 如請求項1或3所述之緩衝結構，其中每一該緩衝塊與該結構體之套接區域小於該紙板結構體的總面積。 The buffer structure of claim 1 or 3, wherein a sleeve area of each of the buffer block and the structure is smaller than a total area of the cardboard structure. 如請求項1或3所述之緩衝結構，其中該結構體由一紙板所構成。 A buffer structure according to claim 1 or 3, wherein the structure is composed of a cardboard. 如請求項13所述之緩衝結構，其中該紙板包含瓦 楞紙。 The buffer structure of claim 13, wherein the cardboard comprises a tile 楞 paper. 如請求項1所述之緩衝結構，其中該結構體包含至少二矩型截面的柱體，其位於該結構體的兩相對邊。 The buffer structure of claim 1, wherein the structure comprises a cylinder of at least two rectangular sections, which are located on opposite sides of the structure. 如請求項15或3所述之緩衝結構，其中每一該緩衝塊包含至少二矩型截面的插槽貫穿該緩衝塊，藉以供該柱體***固定。 The buffer structure according to claim 15 or 3, wherein each of the buffer blocks includes a slot of at least two rectangular sections extending through the buffer block, whereby the cylinder is inserted and fixed. 如請求項1或3所述之緩衝結構，其中該結構體包含至少一「ㄇ字型」截面的柱體，其凸出於該結構體的一面，該柱體的二相對的側壁各具有一開口。 The buffer structure of claim 1 or 3, wherein the structure comprises at least one "U-shaped" cross-section cylinder protruding from one side of the structure, the opposite side walls of the cylinder each having a Opening. 如請求項17所述之緩衝結構，其中每一該緩衝塊包含二彈性件，分別***對應的該開口，藉以固定該緩衝塊於該紙板結構體。 The buffer structure of claim 17, wherein each of the buffer blocks comprises two elastic members, respectively inserted into the corresponding openings, thereby fixing the buffer blocks to the cardboard structure. 如請求項1或3所述之緩衝結構，其中該結構體包含兩開孔位於其相對的兩側。 The buffer structure of claim 1 or 3, wherein the structure comprises two openings on opposite sides thereof. 如請求項19所述之緩衝結構，其中每一該緩衝塊具有一對翼形切槽，並使該緩衝塊形成二彈性件及一凸塊，該凸塊藉以卡入該開孔，該二彈性件藉以夾持該結構體。 The buffer structure of claim 19, wherein each of the buffer blocks has a pair of wing-shaped slots, and the buffer block forms two elastic members and a bump, and the bumps are inserted into the openings, the two The elastic member thereby holds the structure. 如請求項1或3所述之緩衝結構，其中每一該緩衝塊包含發泡塑膠。 The buffer structure of claim 1 or 3, wherein each of the buffer blocks comprises a foamed plastic.