TW201033087A - Package with structural support and blank therefor - Google Patents

Abstract

A carton comprising carton walls (12, 14, 16, and 18) and a compression resistant structure (20) disposed adjacent to an inside face of at least one (14) of the carton walls. The compression resistant structure is structured and arranged such that the compression resistant structure does not interfere with corners of the carton formed between adjacent ones (12, 14; 14, 16) of the carton walls. At least a section of the compression resistant structure is sized and shaped similarly to the size and shape of one (14) of the carton walls and fits within the perimeter of the one carton wall.

Description

201033087 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a structural stent shock and its embryo. In particular, but not limited to packaging that has a pressure-resistant device to increase its load bearing quality, especially but not limited to stacking with other similar items. [Prior Art] In the field of multi-piece packaging, it is often necessary to provide a packaged product to consumers and/or retailers. Such multi-packages may need to be shipped or shipped by a painful business or other transportation industry and/or end consumer. This type of packaging also needs to be durable, sturdy, and red and protect against it. In addition, such packages are preferably cost effective to save money' easy to manufacture and stacked on top of one another without damaging the package or its interior. In addition, the number of items or products contained in the package should also be considered, and the performance of the shipment will be critical. ❹ From the patent of US Pat. No. 6,158,653 issued to Kanter, it is known that the pots and the supplied packages are provided with a stacking thief. The package has a plurality of panels. The 隅 bracket includes first and first panel sections disposed at a corner of the package, the panel sections being pivotally coupled to one another to provide additional stack support. The disadvantage of this thief is that the 隅 隅 bracket structure occupies some of the internal volume of the package, thus reducing the capacity of the package. In addition, the shape of the corner gusset structure does not effectively match the shape of the embossed article, so that the capacity of the package is further reduced. The present invention seeks to avoid or at least alleviate these and other problems of the conventional techniques. Further, the present invention has also attempted to provide a device which can improve the pressure resistance and also reduce or reduce the maximum volume of the package storage capacity. SUMMARY OF THE INVENTION A first aspect of the invention provides a blank for forming a carton, the carton being provided with a plurality of sheets for forming a carton wall, the blank comprising abutting or adhering to the blank The inner pressure-resistant structure, which is made and arranged to be inconsistent. If it is compared with the paper box made of 4, the pressure-resistant structure is compared. It will increase the compressive strength of the formed carton. The at least section of the monolithic sheet is sized and shaped to be similar to the size and shape of the embryo and the pressure-resistant structure is assembled to the embryonic sheet. The compressive structure is composed of corrugated material. The compression-resistant structure includes three imaginary mutual embossing structures including two, three, four or more sheets. More preferably, at least two of the four sheets are hinged to each other. Structure. The pressure-resistant structure can also optionally include a knot composed of two hinged joints. The riding hinge of the two adjacent sheets includes an aperture, a cutting line or other frangible lines, thereby reducing the folding resistance near the hinge. Or reduce the amount of materials used. Preferably, the pressure-resistant structure is provided with a sheet of "H-shaped" or "丨-shaped". Preferably, the pressure-resistant structure is provided with a "c-type" or (1)-type sheet. 10 mate = mantle plaque includes a handle structure in which the compression-resistant structure is operated with the handle structure to enhance the handle structure. The second aspect of the present invention provides a semi-double* paper phase in the form of a collapsed form from the aforementioned green sheet. A third aspect of the present invention provides a carton provided with a plurality of sheets for forming a wall panel and comprising an anti-wear structure of a cardboard box (four), the anti-__ being fabricated and arranged Without hindering the corners between the adjacent panels of the carton, the aforementioned anti-overall materials and/or structural properties may cause the carton to increase its compressive strength if compared to a carton that does not include a compression resistant structure. The size and the size of the zone are similar to those of the carton-wall panel, and the anti-framework is assembled in the periphery of the 4 201033087 of the panel. Preferably, the anti-feel structure is struck with a corrugated material, and the ship pressure structure includes at least three sections of the crucible of the towel section to promote compression resistance toward the three imaginary mutually perpendicular axes. A fourth aspect of the invention provides a compression resistant structure for use with the aforementioned _ or embryonic sheet. BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in detail with reference to the accompanying drawings, wherein: FIG. 1 is a plan view showing a blank for forming a carton comprising a first embodiment according to the first embodiment of the present invention. The pressure-resistant structure; 纸 The carton formed by the embryo of the side 1 of Fig. 2, the towel compression structure is manually placed into the carton; the figure shown in Fig. 3 is used to form a carton blank, Included are two pressure-resistant structures constructed in accordance with a first embodiment of the present invention; • Figures 4 to 8 are respectively side-to-side forming a carton blank, each of which includes a first embodiment in accordance with the present invention Four compression-resistant structures oriented according to different configuration configurations; * ~ Figure 9a is used to form a carton blank comprising two compression-resistant structures constructed in accordance with a second embodiment of the present invention © Figure 9b is a carton formed by the embryo of Figure 9a, which is in a semi-open and unloaded state, so that the position of the two compression structures is shown; Figure 10 to Figure 12 The shape of a carton is shown to be ready to be loaded and loaded onto the embryo. According to the first embodiment of the present invention, a pressure-resistant structure and a pressure-resistant structure according to the third embodiment are respectively formed; and the figures shown in FIG. 13 and FIG. 14 are respectively used to form a cardboard box. The embryo sheet is provided with two compression-resistant structures which are constructed according to the first embodiment of the present invention and are adhered to the embryo sheet. However, the configuration of the compression-resistant structure of FIG. 13 is different in orientation when compared with FIG. 14; Figure 15 is constructed in accordance with a fourth embodiment for use with a compression-resistant structure such as the slab of the slab 201033087; Figure 16 is constructed in accordance with the fifth embodiment so as to be associated with an embryo such as Figure 1 a compression-resistant structure for use in combination with a sheet; Figure 17 is constructed in accordance with a sixth embodiment for use with a compression-resistant structure such as a plaque of the figure; and Figure 18 is formed by the lamella of Figure 1, and The pressure-resistant structure has been placed in a carton in the crucible; Figure 19 is a schematic view of the compression-resistant structure constructed in accordance with the sixth embodiment, showing how the pressure resistance is enhanced for the applied load; and ❿ ® 2Q is shown Used to form a carton blank, which includes Two compression configuration example of the seventh embodiment constituted. [Embodiment] An embodiment of a compression-resistant structure and a paper box provided with the structure will be described with reference to the drawings. 1 to 8 are the use of the pressure-resistant structure constructed according to the first embodiment of the present invention. The application of the pressure-resistant structure according to the second embodiment is shown in Figs. 9a and 9b. 14 is based on the third embodiment of the structure of the pressure-resistant structure = usage 'Figure 15 and Figure 16, respectively, according to the fourth and fifth embodiments of the compression structure; Figure 17 to Figure 19 Then, it is a pressure-resistant structure constructed in accordance with the sixth embodiment. In the drawings, the same reference numerals are used to refer to the same parts. Since the various possible embodiments of the present invention are only made in certain details, the reference numerals similar to those of the first embodiment, _, represent the second to sixth embodiments, but these numbers are respectively Add "1", "200", "3", "4" and "5". - Fig. 1 : Fig. 3, Fig. 4 to Fig. 9a, Fig. 1 to Fig. 15, Fig. 17, and circle 20 each show the embryo sheets 10, 20, 310, 510 and 610, respectively. The slabs '^10' 210' 310, 510 and 610 are contemplated to be formed from a printable paper sheet. However, other suitable foldable sheets may also be employed. The embryos 1〇, 11〇, 210 31Q, 510 and 610 are each formed to form a carton having four walls and a top and bottom of 201033087. In this regard, each of the blanks 10, 110, 210, 310, 510, and 610 includes: a first sidewall 12; 112; 212; 312; 512; 612, a second sidewall 14, 114; 214; 314; 614, a third side wall 16, 116; 216; 316; 516; 616, a fourth side wall 18; 118; 218; 318; 518; 618, top end cymbals 22b, 24b, 26b, 28b; 124b, 126b,

128b; 222b, 224b, 226b, 228b; 322b, 324b, 326b, 328b; 522b, 524b, 526b, 528b; 622b, 624b, 626b, 628b and bottom end cymbals 22a, 24a, 26a, 28a; 122a, 124a, 126a, 128a; 222a, 224a, 226a, 228a; 322a, 324a, 326a, 328a; 522a, 524a, 526a, 528a; 622a, 624a, 626a, 628a. Referring now only to the components of Figure 1 (other embodiments may also employ the same components); the side wall panels 12, 14, 16, 18 are sequentially hinged to the next along the fold lines 30, 32 and 34, respectively. The top end flaps 22b, 24b, 26b, 28b are hinged to the adjacent side wall panels 12, 14, 16, 18 along fold lines 44b, 42b, 40b and 38b, respectively. The bottom end flaps 22a, 24a, 26a, 28a are hinged to the adjacent side wall panels 12, 14, 16, 18 along the fold line 44a, 42a, 4A, 38a, respectively. In addition, a sheet of bonded web 19 (or original seam strip) is hinged to the side wall panel 2 along the fold line 36 for the first side panel 12 and the fourth side panel 18 to be secured together. The first and fourth side wall plates ο, π are preferably fixed together after the positioning of the pressure-resistant structure 20 (described later in detail) on the backing sheet. However, in other alternative applications of the present invention, the pressure-resistant structure 2 is fixed to the empty carton touch position after the carton has been formed from the green sheet 10, but before the carton has been loaded with the article. In another case, you can put the anti-inspection into the carton containing the items. At that time, it will be between the anti-pressure structure 2 or the item itself. The embryos 1〇, 11〇, 210, 310, 510 are each provided with an anti- 2 225, 325, 525, 52G. The first pressure structure 20 shown in Fig. 8 is presented in the form of a flat corrugated cardboard. The ___ or __es) is the line of the paper to be formed with the slab 1 = 201033087. The aligning is replaced by the adhesive or (10) 峨 咖 咖 如图 如图 如图 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 5 side walls Ϊ 18 her. She uses a paper phase that does not include a compression structure 20: the paper phase of the composite structure 20 and/or the composition of the material and the physical properties of the Jinhua will cause the embryo (4) to be Ϊ = = in all directions The average _ load to withstand is about (five) -70 S t weight 3, and the paper is applied before the damage to the cardboard. The paper = top = average box ❿ If there is a - piece / a pair of sticky plane Corrugated cardboard structure == study: Corrugated cardboard corrugated configuration is parallel with the stacking axis of the carton 1 Γ =, ', the average pressure of the phase before the damage to the direction of the '3 degrees 贱 plate to do it and c ^ Heavy anti-ships can be increased by four to five times. In this regard, single ^ some. In addition to the ability to improve the pressure resistance, the internal capacity of the package is also said to be slightly reduced. 201033087 The siding 12, 18 ® is set to start. Thus, a flat or half-shaped part-formed carton is formed. Thereafter, the structure is transported to the processing plant in a flat or semi-molded assembly state, where the flat blank is opened; the bottom bucks 22a, 24a, 26a, 28a are fixed to form a bottom plate. Structure; another item is loaded from the top of the box; and the top end flaps 22b, 24b, 26b, 28b are folded and secured (as is known in the art) to complete the manufacture, loading and sealing of the carton. Alternatively, the green sheet 10 may be shipped without attaching the pressure-resistant structure 2, as long as the pressure-resistant structure 20 is embedded during the production of the paper box. The one shown in Fig. 2 is an embodiment in which paper is formed and the pressure-resistant structure 20 is embedded. However, it is preferred to apply the compression resistant structure 20 to the embryonic sheet 10 by means of an adhesive or other suitable mechanical or chemical means of attachment prior to forming the carton into the carcass. This can alleviate the need to use mechanical equipment to work on the sheet metal to make the paper and the object so that the plane reinforcement structure must be carefully aligned with the carton. Furthermore, in order to make the formed carton's extra resistance 2 Ϊ ^ to a large extent, the compression-resistant structure 2G should be similar in size and shape to the desired adhesion: Since the thickness of the cardboard to form the green sheet 1G and the material used to form the crucible 20 cannot be ignored, the final inner rule of the carton must be

Take into consideration. J. In another embodiment, two anti-pressure structures 2 are provided for the same-chip 1Q. ^ ^, * two compression structures 2〇 are carefully aligned to the second and fourth of the embryo, ie, the bogey m 2, the compression structure 2〇 must not interfere with the hinge of the adjacent plate, also, 34, 36 sports. Thus, each of the anti-house structures, structures 20 are properly aligned and secured to the panels 14, 18 to ensure that the fold lines 30, 32, 34, 36 are not obstructed. In the range of 'the other side of H', there is a plane reinforcement (4) (size and a certain plate of the carton 2 〇. In the embodiment, there are three or four pieces of the same pressure-resistant structure respectively shown in Figure 5 The orientation of the compression-resistant structure 20 is such that the corrugated configuration of each of the compression-resistant structures 2〇201033087 is aligned with the vertical axis "FV" of the carton (in other words, the direction between the combined top and bottom plates). In the embodiment, the corrugated arrangement of each of the compression-resistant structures 20 is arranged to be aligned with an imaginary horizontal axis "FH" of the carton. In the two figures of Figure 5 j Figure 6, the corrugated arrangement direction of the compression-resistant structure is The horizontal and vertical angles of the corrugated arrangement are indicated by arrows marked with reference characters "FH" or "FV". In Figure 4, there are three compression-resistant structures 2 〇. Adhesive to the second side panel I* Resistance, structure 2G is vertical orientation "Fv"; adhesion to the third and fourth side panels 16, 18, and structure 20 are each horizontal orientation "FH". In this way, when making a carton, regardless of the carton Placed into the top plate structure 22b, 24b, 26b, 28b landing or floor structure 22a, 24a , 26a, 28a landing, adhered to the rFV of the second side panel 14 taken, the pressure-resistant structure 20' of its corrugated arrangement (corrugation) is parallel to the load applied to the upper surface of the carton actual f, thus playing Additional compression resistance. Similarly, when the carton is placed such that the second side panel 14 or the fourth side panel 18 is grounded, it is adhered to the anti-waste structure of the "FH" orientation of the third side = 16 The orientation of the configuration (corrugation) is parallel to the load on the actual uppermost surface of the carton, thus exerting an additional resistance. Finally, if the carton is placed such that the first side panel 12 or the third side panel 16 is 'sticky' The rFH"-oriented compression structure of the fourth side plate 18 is 〇, its tile

The orientation of the (corrugated) is applied to the actual uppermost surface of the carton for additional compression resistance. The U is suppressed in this way. Regardless of the side of the carton, the three compression-resistant structures 20 are integrated into the overall compressive strength of the carton. It should be noted that when the pressure-resistant structure 2 is folded to form a carton, the 'cutting shape formed by them' will be "the configuration of the c-frame 20 should be set so that the corrugation is disposed at the extreme end of the two ends. Delay between knots = another 'When viewed in an unfolded plane, the corrugations of the two structures 20 should be perpendicular to each other. Do not resist compression~ In this case, if the type shown in _ 3 is swollen in the carton Each piece is provided with anti-201033087 paste-simple-surface as the bottom, 1U machine Cheng, and - mouth structure 20 corrugated configuration line and application: == ("Although the top and bottom structure of the box, but named i = ===^ between each other, can not put the pendulum ====== phase of the bottom), can not see the compression structure 20, and provides a walk: stack, the graphics, and packaging operators do not need to consider == ', the solution of the solution, the six-sided carton structure' requires at least three anti-test structures.... In Figure 7 and Figure 8, there are four compression-resistant structures 2Q, which are on different carton sheets, and The orientation is the vertical "Fv" direction, and the other two are the different "fh" sides of the carton sheet that are glued to different levels: Here, since the two sheets are kept parallel to the load direction, regardless of whether the carton is placed such that the top wall structure 22b, 24b, 26b, 28b or the bottom plate structure 22a, 24a, 26a,

When 28a is on the ground, additional compressive strength is obtained. Adding more compression structure 2〇 will only increase the pressure resistance of the overall carton structure. 9a and 9b are an alternative embodiment of the present invention in which each of the compression resistant structures 121 has at least one slit designed to be at least one of the handles defined on the carton panels and 116. (or handle the cymbal) H aligned. Specifically, in the illustrated embodiment, each of the compression-resistant structures has a shape of "H" or "丨" shape = compared with the pressure-resistant structure 20 of the first embodiment, although the material of the pressure-resistant structure 121 is more i ~ The finished carton is still intensified compared to a carton formed using the blank 110 and completely free of the anti-small structure 121. Further, the slave of the pressure-resistant structure 121 is adapted to receive the handle 形成 formed on the cardboard of the first side panel 112 of the green sheet 110. In the past, when the user wanted to operate the handle, it was difficult to break the perforation of the corrugated material of the pressure-resistant structure 121 on 201033087. Therefore, the shape of the pressure-resistant structure 12A is now set to have a portion having no pressure-resistant structure 121, and (10) if it is desired to make the rib, it is not necessary to break the pressure-resistant structure 121 #瓦榜材料. The handle H shown is only defined by a fragile line that is easily broken by the user for the shape of a handle opening with a swaying edge, but can be completely intact before breaking, preventing dust or dirt from running. Inside the box. The handles can be torn around the fold line 23 so that the handle opening can be defined. The handle η can also be used for other positions. The skill structure known in the art is well suited for these purposes. Another thing to understand is that the number of handle structures can be more or less, or other handle changes can be used. For example, only one handle opening may be provided on each plate, and it is not necessary to provide a handle on all the plates, and the handle may be provided only on the plate or the oppositely disposed plate; the 抗-shaped compression structure 121 may also be It is used in combination with more than one square pressure-resistant structure 20 as described above. Alternatively, a "c-type" or "U-shaped" pressing structure 621 can be provided to accommodate the handle η (see Fig. 2A); the "c-type" or (1)-type compression structure forms part of the swaying edge. Further, the "C-type" or "U-shaped" pressure-resistant structure 621 may be combined with the pressure-resistant structure 2 of the above-described first embodiment, and/or the "Η type" compression type described in this embodiment. The structure 121, and/or the pressure-resistant structure 225 of the third embodiment to be described is used in combination. It is to be understood that the compression resistant structure is used to strengthen the handle structure. The "C-type" or "υ-type" compression-resistant structure 621 shown in Fig. 20 is only reversely provided for exemplifying a configuration of the pressure-resistant structures 621. In other embodiments, only one rc type or "U" type compression structure 621 may be used, or if more than one rc type or "type" compression structure 621 is used, 'they may be configured in a similar manner. The swaying edges created by the handle panel H can be located at substantially the same height. Adding the second, third or fourth pressure-resistant structure 2〇 can further improve the pressure resistance of the whole carton, but if the anti-riding structure is similar, it is easier to manipulate and fix two or more. These structures. Referring to Fig. 1 and Fig. 12, in a second embodiment of the invention, the compression resistant structure 225 includes two sheets 22Ga, 22Gb hinged along the ridge line 25〇. In addition, along the mountain 25Q, there is also a tool for 12 201033087 to reduce the amount of the overall material, so that the backing 210 can be turned around the folding line 230, 232, 234, 236 without the folding structure 225 obstructing the folding. . In the illustrated embodiment, the tool provided along the pleat line 250 to reduce the amount of bulk material is in the form of a series of perforations. In still other embodiments, a semi-deep incision that takes a series of breaks is sufficient.

❹ Although each of the plates 220a, 220b of the pressure-resistant structure 225 can be adhered to the corresponding plates 214, 216 of the blank 210, only one plate 220a or 220b to which the pressure-resistant structure 225 belongs is adhered to A plate 214 or 216 to which the embryo sheet 210 belongs may be used. Due to the hinge between the two plates 220a, 220b, the non-sticking plate 220b of the compression-resistant structure 220b is automatically held in position. However, during the period in which the paper phase is produced by the green sheet 21, the unbonded sheet 220b or 220a is freely "wandering" in the manipulated blank 210 so as to be easily hindered by the adjacent hinge or The embryo sheet 210 is made into a carton in the case of hindrance. In a variation of the third embodiment, an anti-pressure structure 225 is employed. This change is shown in Figures 13 and 14. 14 shows that one of the pressure-resistant structures 225 has a corrugation with a vertical orientation of "FV", and the other of the pressure-resistant structures 225 has a corrugation of a horizontal orientation of "FH". This configuration enhances all three faces (3_djmensi〇ns In terms of compressive strength, at least a portion of the load applied to the opposing surface is received by the compression resistant structure 225 regardless of the landing of the carton. In order to make the pressure-resistant structure 325 attached to the carton or the carton blank, it can be made to the maximum extent. In the fourth embodiment (as shown in Fig. 15), the pressure-resistant structure 325 is a one-piece material having The compressive strength exceeds the material used to make the embryo sheet (10). In the configuration shown, the green sheet 31G is made of cardboard of the standard thickness used to make the carton, and the compression resistant structure 325 is made of a corrugated board having a corrugation or 垂直^ with a vertical orientation of "Fv" (ie, 'When the pressure-resistant structure 325 is laid flat as shown in Fig. 15, the direction of the wave level is kept parallel to the line of the upper edge of the compression-resistant structure. The anti-pressure 结构 抗 抗 抗 抗 抗 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 325 Therefore, the pressure-resistant structure 325 can be aligned with the sheets of the four sheets of the carton blank 31. As previously mentioned, the compression-resistant structure 325 can be affixed to the slab 31 可用 in any known suitable manner, such that during the fabrication of the synthetic semi-formed lamella, the compression-resistant structure 325 belongs to one, two, and two sections. It can be moved around its hinge line 35 (as shown in the lower half of Figure 15). The benefit of the read configuration is that it is possible to manipulate both the entire pressure-resistant structure 325 and also to increase the compressive properties of the carton made from the synthetic embryo. However, as described above, the orientation of the finished carton does not provide the optimum pressure resistance of the additional material. For example, if the load is applied to the third side panel on the first side panel, the 楞 type of each section of the corrugated compression structure 325 is "side by side" from a load direction of 90 〇. The angle extends. Although the added corrugated material can increase the compressive strength of the overall carton in that orientation, this increase is not as great as the corrugation aligned with the direction of the applied load and • parallel. In another embodiment not shown, a three-section compression-resistant structure is used in combination with a one-piece compression-resistant structure in the form of a lamella, the corrugation and one zone of the one-piece compression structure. The corrugations of the further compression resistant structure are maintained at 9 turns so that the formed carton has the best additional compressive strength regardless of its orientation. However, this configuration still requires three pieces of material to be manipulated: the primary piece; the entire piece of compression-resistant structure, and the three-piece compression-resistant structure. Controlling and aligning these many pieces of material by hand or known packaging machines, while possible, also brings some complexity. The last illustrated embodiment is a one-piece, pressure-resistant structure 425 which includes four master sheets 412a, 414a, 416a, 41 that are sized and each of which is associated with a blank (not shown) for forming a carton. The corresponding sheets are similar and each hinged along a substantially reduced fold line 430, 432, 434, 436. In addition, a bonding plate 419a is further provided. Therefore, the pressure-resistant structure 425 can be formed into a quadrangular sleeve by adhering the segments 412a to 418a with the adhesive sheet 419a. The specific production sequence depends on the manufacturing requirements. The following are optional: 1) Adhesive plate 419a is adhered to the first plate 412a, so that the pressure-resistant structure 425 14 201033087 forms a flat folded and pre-bonded sleeve. And shipped to the side of the embryo. Once the blank is made into a carton and the pressure-resistant structure 425 is opened into a sleeve, the tube is placed in the second carton to reload and seal the carton. ^ 2) The adhesive sheet 419a is adhered to the first sheet 412a, so that the pressure-resistant structure 425 forms a flat folded and pre-bonded sleeve and is transported to the side of the blank. A sheet, such as 414a, is then affixed to the slab (as shown) to form a carton; the slab 2 is semi-formed into a semi-adhesive flattened sleeve and money. The blank structure 425 is opened to complete the manufacture of the carton. The phase is then sealed and sealed. 〇 3) Each of the plates 412a, 414a, 416a, 418a or the port of the compression-resistant structure 425 is bonded to the corresponding plate of the embryo. The slab of the slab is then bonded to its own slab, and the anti-riding 425 _ is merged into its own slab 412a. Maintain a flat, semi-adhesive knot; open the composite structure, load the item and seal.乂 乂 乂 ❹ 抗 可 可 可 可 可 可 可 可 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 425 However, 'increased elastic treatment also means that when the carton is allowed to be used, the corrugated cardboard of the pressure-resistant structure 425 is pulled away, and there are always two pieces of the opposite position for the promotion of the carton'. The adhesive sheet 419a used can also enhance the compressive strength of the overall structure by the 425 structure. Be aware of = sticking or placing in a carton during loading. The second plate may not be subjected to various modifications in the invention, for example, the size and/or shape and/or the number and/or configuration of the blank may be adjusted to provide a carton of various characteristics. , or a carton for accommodating different sizes of shapes, in contrast, the form of the pressure-resistant structure provided. Other embodiments of the invention (not shown) are contemplated to be applicable in various forms = anti- | 15 201033087 For example, a "Η" compression structure structure can be attached to one or more other sheets of the compression resistant structure. Although the embodiment of the paperboard and the corrugated board are now described, it is known that other suitable materials may be used instead of the materials or/and their combinations, so that the materials only represent suitable materials without limitation. Other materials can also be used. The pressure-resistant structure of the present invention is conceived to be applicable to a wide variety of cartons of various configurations, and it should be understood that the application of the present invention does not have the shape shown and a carton composed of four panels and a top and bottom panel. Limited. In fact, the compression resistant structure of the present invention can be applied to a carton formed by a non-whole piece of embryonic sheet and a whole piece of embryonic sheet as described. Preferably, the compression resistant structure is formed from tiled paperboard, but it is to be understood that other materials may also exert suitable pressure resistance. For example, the following various materials may be used singly or in combination to produce a compression resistant structure as described herein: paperboard, corrugated cardboard: plastic, coated natural kraft paper (Coated Natural Kraftboarc®. In the previous example, 'compression resistant' The structure is formed in the form of a tile, and the corrugated pipe or weir of the paperboard can be arranged to substantially parallelly align with the longitudinal load applied in a direction perpendicular to the uppermost plane of the carton. In a sixth embodiment of the invention, The formed one or more compression-resistant structures 520, 525 are configured to maintain the corrugated pipe or raft of the paperboard at an angle of about 45 with the abutting edge of the slab that is affixed to the compression-resistant structure. The compression-resistant structure 520 includes a piece of corrugated cardboard. Wherein the course of the corrugated pipe is maintained at 45 with the edge of the first side panel 512. Or an angle of substantially 450. In this regard, when the compression resistant structure is incorporated into the direction of the 'corrugated pipe in the carton (as shown by FA2 in Fig. 17) The longitudinal load (L) applied in a direction perpendicular to the uppermost plane of the carton is maintained at an angle of 45. The figure shown in Fig. 19 is a schematic view. In the configuration shown, two are used. A compression structure having three corrugated sheets. The first compression-resistant structure 52 is viewed in a planar form (see Fig. 17). The corrugation system is set to maintain an angle of 45 与 with the edge of the side panel 512. That is, as shown by FA2 in Fig. 17. The second pressure-resistant structure 525 includes two sheets joined by a hinge line 550, and the corrugations of the sheets are also set to maintain an angle of 45 with the edge of the side sheet 512. That is, as shown by FA1 in Fig. 17. 16 201033087 The one shown in Fig. 18 is the embryo sheet 510 and the pressure-resistant structure 52〇, 525: carton. The carton has not been loaded with the item 'showing an open configuration: : The top board knot, however, to understand is that in order to improve the spindles of the carton, only two plates are provided and the corrugated pipe is kept at 45. Angle: Compression: The plate as the base of the carton is the one piece. Increased compression resistance == shape: When the 'remaining angle' of corrugation does not need to be reversed in orientation, a compression-resistant structure of a plate, such as the 0 ^ spindle (X, y and z) compression shown in Figure 17, is used. Performance. The pressure-resistant structure is enough to enhance the carton

G ❿ It is important to understand that the anti-pressure structure is important for the stacking and transportation of the product packaging before (4). The external pressure _ direction may be different (for example, handling packages, jigs or other similar collapses = and longitudinal compression due to product stacking). Paper = = compression as disclosed herein: improves pressure resistance. It is also to be understood that an opening member can also be added to the side lacking the compression panel structure. The use of the anti-pressure study as described above has been tested and tested for various non-compensation. The cardboard box and the c-brace panel covering the four sides of the six-sided towel of the carton use 0.021 吋 thick cardboard (21-thickness cardboard), and the compressive strength in the longitudinal direction can withstand 360-375 broken motion 'direction width direction is about Zheng 329 _ pressure horizontal direction is about 540_590 broken Lai's average reduction from the turn of it is 4〇〇-440 broken Lili. The carton and the orientation of the list are approximately 45. And cover the c-shaped panel of three plates, such as 0Ό27 pairs of thick cardboard (27 thickness unit of cardboard), the horizontal resistance of the carton is about 694 obstacles 'longitudinal compression resistance is about 43彳@, horizontal The wide anti-ship is about 394 pieces, and the average anti-ship obtained by it is above 5()(). In general, if you use the various wj·, cardboard thicknesses of 21 to 30 units and c-type coffins, the horizontal pressure resistance is 3GG to 96G, with an average of 400-500 lbs. Longitudinal compressive strength of 275 to 475 pounds, average 300-400 pieces; transverse pressure resistance of 300 to 425 pounds, average 300-400 pounds; average pressure resistance of all directions 17 201033087 The 350-510 pounds' average is 350-450 pounds. The pressure resistance achieved depends on the cardboard thickness of the carton and the position of the C-panel panel. It is to be understood that corrugated cardboard of other sizes can also be used and different compression values can be obtained. The terminology used in this article, such as "top", "bottom", "r", "post", "end", "side", "inside", "outside", "up" and "down", etc. Limiting the associated "plates to this orientation" is only used to distinguish the plates. Where the hinged person is referred to, it must not be interpreted as being bound by the folding line; in fact, the hinge may be composed of one or more of the following types without departing from the spirit of the invention: a crease line, a frangible line, or a folding line. . The person disclosed in the present case is a preferred embodiment. Any part of the change or modification resulting from the technical idea of the present invention can be easily inferred by those skilled in the art without departing from the scope of the patent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view of a person's side (10) into a carton, which comprises a pressure resistant structure constructed in accordance with the first embodiment. Figure 2 shows a carton formed by the blank of Figure 1, in which the compression resistant structure is placed in a carton. The panel shown in Fig. 3 is used to form a carton blank comprising two compression resistant structures constructed in accordance with the present embodiment. Λ Figures 4 to 8 are respectively used to form a carton blank, each of which is constructed according to the first embodiment of the present invention. The one shown in Fig. 9a is used to form a carton blank comprising two compression resistant structures constructed in accordance with the present embodiment. One of the shells shown in Fig. 9a is a carton 'the carton is in a semi-open loading state' so that the positions of the two pressure-resistant structures are displayed. 10 to 12, the side of the shape-carton blank, which shows the preparation of the skirt 18 201033087 and has been loaded onto the blank, respectively, according to the first embodiment of the present invention, a compression structure and basis A compression resistant structure constructed by the three embodiments. 13 and 14 are respectively used to form a blank of a carton, each of which is provided with two compression-resistant structures which are constructed according to the first embodiment of the present invention and are adhered to the embryo sheet. The configuration of the 13-pressure resistant structure is different in orientation as compared with Figure 4. The person shown in Fig. 15 is constructed in accordance with the fourth embodiment to be combined with a compression resistant structure such as the embryo of Fig. 1. The person shown in Fig. 16 is constructed in accordance with the fifth embodiment to be combined with a compression resistant structure such as the embryo of Fig. 1. ❹ Figure 17 is constructed in accordance with a sixth embodiment for use with a compression resistant structure such as the embryo of Figure 1. Fig. 18 shows a carton in which the green sheet of Fig. 1 is formed and the compression resistant structure has been placed therein. Fig. 19 is a schematic view showing a pressure-resistant structure constructed in accordance with the sixth embodiment, showing how the pressure resistance is enhanced against the applied load. Fig. 20 shows a blank for forming a carton comprising two compression resistant structures constructed in accordance with a seventh embodiment of the present invention. [Major component symbol description] The blank 10, 110, 210, 310, 510, 610 © the first side wall 12, 112, 212, 312, 512, 612, the second side wall 14, 114, 214, 314, 514, 614 Side walls 16, 116, 216, 316, 516, 616 fourth side walls 18, 118, 218, 318, 518, 618 top end flaps 22b, 24b, 26b, 28b; 122b, 124b, 126b, 128b; 222b, 224b, 226b, 228b; 322b, 324b, 326b, 328b; 522b, 524b, 526b, 528b; 622b, 624b, 626b, 628b bottom end cymbals 22a, 24a, 26a, 28a; 122a, 124a, 126a, 128a; 222a, 224a 226a, 228a; 322a, 324a, 326a, 328a; 522a, 524a, 526a, 528a; 622a, 624a, 626a, 628a 201033087 compression structure 20, 121, 225, 325, 425, 520, 525, 621 bonded cymbal 19 folding line 23 folding line 30, 32, 34, 36 folding line 44b, 42b, 40b, 38b folding line 44a, 42a, 40a, 38a

Vertical axis FV Horizontal axis FH Mountain pleat line 250 Plates 220a, 220b Folding lines 230, 232, 234, 236 Folding lines 350 Plates 412a, 414a, 416a, 418a Folding lines 430, 432, 434, 436 Bonding plates 419a Φ

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Claims (1)

201033087 VII. Patent application scope: 1. A blank for forming a carton, the embryo piece comprising a plurality of sheets for the shape of the wall plate and a structure for adhering to at least one of the plates to which the piece belongs. , ^ Pressure-resistant knots are made and arranged so as not to obstruct the collapsible and operability of the germ card box. The towel compression structure has at least the size and shape of the segment and the size of the segment - the size of the plate And the similar shape 'female compression structure' is assembled in the periphery of a sheet to which the embryo is attached. 2. The embryo according to claim 1 of the invention, wherein the pressure-resistant structure is composed of a corrugated material, the compression-resistant structure comprising at least three sections, when the embryo is made into a carton. The corrugation orientation of the segments is set to promote the pressure resistance of the three imaginary mutually perpendicular axes of the carton. 3. The embossed structure of the first or second item of the patent, wherein the pressure-resistant structure comprises at least one section made of corrugated material, the section being set to allow the material to be tiled. The corrugated sheet is maintained at an angle of 45 黏 to the edge of the sheet to which the slab belongs. 4 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The slab of the slab of the fourth aspect of the invention, wherein the embossed structure comprises a pair of slabs, wherein the embossed structure comprises a pair of slabs. The structure of each of the two sheets of hinged sheets. The blank according to claim 5 or 6, wherein the hinge between the two adjacent sheets comprises an aperture, a cutting line or other frangible line, In order to reduce the folding resistance in the vicinity of the hinge and/or to reduce the amount of the material. 8. The blank according to the above-mentioned patent application, wherein the pressure-resistant structure is provided with a "small" or "small" type. Plate. 9. The blank of claim 1, wherein the compression structure is provided with a piece of "C" or "J". 10. As described in claim 8 or 9 The embryo piece comprises a piece of 21 201033087, a structure of which has a handle structure and a handleless structure, and the hand-held paper is privately reinforced by the box of the patent application range 1 to 10 12. A paper-like phase comprising a right-drying carton wall panel and an internal transfer of at least one of the wall panels, wherein the anti-riding structure is fabricated and laid out The corners formed by the carton between adjacent adjoining panels, wherein the size of the compression-resistant structure to the crotch portion is similar to that of the carton-complex, and the compression-resistant structure is assembled in the periphery of the carton The carton of the 12th position of the patented surface, the anti-construction structure is composed of corrugated material, the anti-pressure structure comprises at least three sections, wherein the corrugation orientation of = is set to be perpendicular to the three imaginary axes Enhance the resistance of 0 to the carton as described in claim 12 or 13 of the patent application, wherein The section formed by the corrugated corrugated material, which is such that the corrugated 5_ as the patented range of item μ is believed to have an imaginary mutual vertical axis that promotes compression resistance. 'It includes two iron joint sections, two or two upper (four) private 16 picks up the sample, the compressive knotted embryo is combined with the embryo described in the item, wherein the handle structure package includes a handle with the handle 4 = ^ The handle is as follows, and the pressure-resistant structure is two-segment-to-edge substantially maintained at 45. The corrugation, or a corrugated species that is substantially 90 with one edge of the eve. As claimed in the patent scope: 22 201033087 19_ The carton of claim 12, wherein the pressure-resistant structure is adhered to the inner surface of the carton. The carton of claim 12, wherein the compression-resistant structure comprises a slit, the slit is configured Align with the handle opening defined on the wall of the carton. 23