• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a modular storage arrangement, comprising a single frame unit (1, 4) delimiting an inner space (8) and partitions (2, 3) which divide said space (8) into sub-spaces (SA-SD) of variable size, wherein both frame unit (1, 4) and at least two partitions (2, 3) are provided with positioning means (5) comprising a number of guide grooves (5), and said guide grooves (50) of an upper (5A) and a lower (5B) positioning means (5), respectively. are arranged to allow optional positioning of a partition (2, 3).
    公开号:SE1050469A1
    申请号:SE1050469
    申请日:2010-05-12
    公开日:2011-11-13
    发明作者:Leif Rickard Holm
    申请人:Holms Harry Ab;
    IPC主号:
    专利说明:

    15 20 25 30 35 "connectors" to be able to be cleaned properly and then reconnected, which is of course undesirable in terms of time / cost.
    BRIEF DESCRIPTION OF THE INVENTION It is an object of the present invention to eliminate or at least minimize the above-mentioned problems by providing a modular storage arrangement, with a frame unit and partitions respectively, which are provided with a number of positioning means arranged to allow optional positioning of a partition, so that a flexible division into compartments is obtained.
    Thanks to the invention, a desired number of partitions can be placed so that the desired number, and the desired size of, sub-spaces can be obtained.
    According to one aspect of the invention, said frame unit and partitions respectively are at least substantially built up of wire-joining members and that any of said frame unit and / or partitions comprises a delimiting outer wire-shaped member, preferably metal wire, which gives the advantage that it is easy to manufacture and that keep clean.
    According to another aspect of the invention, a locking device is used which makes it easy and quick to surface and redistribute the sub-spaces, e.g. if changing needs arise.
    According to a further aspect of the invention, it is easy to get a quick overview of what is stored in the various sub-spaces when the frame unit and partitions are arranged with a grid, built up of relatively thin wire which is significantly thinner than the outer wire-shaped members which form frame sections in each wall / frame unit, which makes it easy to see through to ensure what is on the other side of the wall.
    Furthermore, it is a great advantage from a hygienic point of view, in accordance with the preferred embodiment, that all parts consist of metal wire which can withstand autoclaving and can easily be rinsed off and blown dry, respectively has a construction in principle without angles and corners where debris can collect.
    It is understood that the modular storage arrangement is primarily intended for use in the storage of medical equipment in a hospital environment, but that it is not limited thereto at all. Alternative uses can e.g. be to divide the fridge and freezer counters in grocery stores in suitable compartments. BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in more detail below with reference to the accompanying drawings, in which: Fig. 1 is an overview view of a preferred embodiment of a modular storage arrangement according to the invention, Fig. 2 shows a close-up of one end of a partition, Fig. 3 shows the locking device on a partition just before it snaps, and Fig. 4 shows a close-up of a locking device between a partition and a frame unit according to the invention.
    DETAILED DESCRIPTION OF THE DRAWINGS Fig. 1 shows a modular storage arrangement in a preferred embodiment comprising a frame unit 1, 4, which consists of two long sides 1 and two short sides 4, inside which there are arranged partitions 2, 3. The long sides 1 and the short sides 4 are welded together at their ends so that the frame unit 1, 4 assumes a rectangular shape. The long sides 1 suitably have a length l in the range 2-3 m, and the short sides 4 a length Y in the range 0.8-1.5 m. The height h on long and short sides 1.4 is suitably 1.5-2.5 dm . Inside the frame unit 1,4 there is a space 8 which is divided into smaller sections 8A-8D of the partitions 2, 3. Two longer partitions 2 are detachably attached between the two long sides 1 of the frame unit 1 and a shorter partition 3 detachably attached between the two longer partitions 2 .
    Each side of the frame unit 1, 4 and partition wall 2, 3, respectively, comprises an outer delimiting metal wire 10, 20, 30, 40 which encloses a grid of finer metal wires 16, 26, 36, 46.
    The principle of the construction of the respective side of the frame unit 1, 4 and partitions 2, 3, respectively, is the same, according to this preferred embodiment, therefore in the following the construction will be described in more detail only with reference to the partition 2 shown in the dashed circle in Fig. l.
    The long sides 1 and short sides 4 of the frame unit have an inside 1A, 4A at which there are arranged horizontally, along the entire sides a number of extending positioning members 5. An upper positioning member 5A is located somewhere in the interval 0.1, 0.3h below the upper edge 1T, 4T. A lower positioning member 5B is located somewhere in the range 0.1 - 0.3h above the lower edge 1B, 4B. The longer partitions 2 have a length L; which is as long as the distance between the insides 1A of the long sides, i.e. almost the same length as the short sides 4. The shorter partitions 3 have a substantially smaller length Lz, preferably in the range 0.3-0.7 L1. It will be appreciated that this principle can be used if even smaller partitions than L; desired, for example L3 = 0.3-0.7 L; .
    The longer partitions 2 are in Fig. 1 snapped in with the short sides 20C, 20D in selected positions in the positioning means 5A, 5B along the long sides 1 of the frame unit, it is further shown that the partitions 2 have on both sides upper positioning means 5A, 5A "and lower positioning means 5B, "Which can be noted, the same reference numeral has been used for all positioning means 5, regardless of which part 1, 2, 3, 4 they are for the purpose of indicating that it is preferably the same kind of principle / construction that is used everywhere. The upper positioning members 5A, 5A ”run along the entire upper part of the partition wall 2 somewhere in the interval 0.1-0.3 hours below the upper wire part 20A of the partition wall 2.
    The lower positioning members 5B, SB ”run along the lower part of the entire partition wall 2 somewhere in the interval 0.1-0.3 hours above the lower wire part 20B of the partition wall. The outer wire portions 20A-20D, form a continuous, rectangular frame portion preferably made of stainless steel round wire having a thickness D1 greater than the wire thickness D; in the positioning member 5 which in turn is larger than the wire thickness D; in the grid 16, 26, 36, 46. The wire thicknesses D1, D; is suitably in the range 2-110D3. The wire thickness D1 is suitably in the range 2-8 mm, preferably 4-6 mm, the wire thickness D; is suitably between 2-7 mm, preferably 3-5 mm, and the wire thickness D; is suitably in the range 0.5-5 mm, preferably 1-3 mm. It is understood that many alternatives to a grid can be used, to obtain transparency, e.g. plexiglass or perforated sheet metal.
    The shorter partition wall 3 is releasably attached between the two longer partitions 2, by means of the latter positioning means 5, and as can be seen, thanks to the "doubling" 5A, 5A "and 5B, 5B", shorter partitions 3 can be placed on each side of a partition 2.
    Fig. 2 is a close-up of one end of a partition wall 2 which shows that the upper and lower positioning members 5A, 5A °, 5B, SB 'comprise a metal wire 53 which is bent in a wave pattern in the form of valleys 50 and ridges 51 extending horizontally.
    The length between two valleys 50 is in the range 2-8 cm more preferably 4-6 cm.
    The metal wire 53 in the wave-patterned part of the positioning means is welded to the valleys 50 in a metal wire 52 which runs between the short sides 20 C, D of the longer partition wall 2.
    Furthermore, a fastening device 6, 7 is shown, which is located on the short sides 20C, D of the partitions, comprising a spring pin 6 preferably made of spring wire of stainless steel with a diameter in the range 1-6 mm, preferably 2-4 mm. The spring pin 6 is attached, preferably welded, with its lower end to the lower wire part 20B of the partition wall 2.
    From here, the longer part 60 of the spring pin 6 extends, via a loop 9 at the base part 52, obliquely upwards and a small distance outside the short side 20C of the partition wall 2, up to a bend 63, from which runs an inwardly horizontal, shorter part 61 terminating with a downwardly directed shorter piece 62, which causes the spring pin 6 to assume a hook-like shape.
    The spring pin 6 abuts and can spring along the partition 2. When springing along the partition 2, the breaking moment at the loop 9 then takes place, which preserves the resilience in the spring pin 6 and eliminates stress at the attachment point of the spring pin 6 at the lower wire part 20B. The horizontal shorter part 61 of the spring pin 6 fits under the upper positioning member 5A, when the wall 2 is in position (here at a long side 1). At the same height as the upper positioning member 5A just inside the outer metal wire 20, a small hook 7 is attached which extends with a part 73 on top of the base part 52 and a part 70 which extends in horizontal direction above the spring pin 6 and with a downwardly directed (preferably in a 90 degree angle) hook portion 71, which projects into the space between the base portion 52 and the ridge portion 51 in the upper positioning member 5A.
    The hook 7 is preferably made of stainless steel round wire.
    The modular storage arrangement can be divided into smaller sections 8A-8D as desired and purpose. To divide the void 8, a partition wall 2 is pressed down between the long sides 1 (alternatively the short sides 4). The upper 5A and lower 5B positioning means are positioned so that valleys 50 and ridges 51 thereon are in phase with each other so that valleys 50 form steering in pairs. The short sides 20C, D of the partition wall are lowered into the valleys 50 of the upper positioning members first. below the positioning member 5A, the spring pin 6 snapping back to its original position. In this position, the spring pin 6 locks the partition wall 2, seen upwards, in the vertical direction. The hook part 71 on the hook 7 helps to hold the partition wall 2 and the frame part 1 in horizontal direction. The hook 7 also prevents displacement of the partition wall 2 downwards, ie positions in a vertical direction opposite the spring pin 6.
    The shorter partitions 3 can be mounted between two longer partitions 2 alternatively between a longer partition 2 and one of the short sides or long sides 1, 4 of the frame unit 4. The shorter partitions 3 which are also suitably equipped with fastening devices 6, 7 are pressed in the same way as described above . When dismantling both the shorter and longer partitions 2, 3, the protruding part of the spring pin 6 is pressed inwards until it has passed the upper positioning member 5A, whereby the short side 20, 30 can be moved upwards and removed.
    Fig. 3 shows a close-up of how a longer partition wall 2 has almost continued down in the locked position.
    The short side 20C of the partition wall 2 runs in two valleys 50 in the upper 5A and lower 5B positioning means, respectively. Here, the spring pin 6 begins to be pressed inwards by the upper positioning member 5A. The hook part 71 is in position to be able to slide into the space between the base part 52 and the ridge part 51.
    Fig. 4 shows a close-up of when the partition wall 2 is connected to a frame side 1. In the attached state, the short side 20C of the partition wall abuts against valleys 50 on the long sides 1.
    The upper positioning member 5A locks the horizontal part 61 of the spring pin 6, the hook 7 in turn locks in cooperation with the spaces of the positioning member 5A. In the figure, some parts are schematically drawn, of which not all threads in the net are shown.
    The invention is not limited by what has been described above, but can be varied within the scope of the appended claims. It is understood, for example, that the frame unit's short and long sides 1, 4 can be assembled in other ways than via welding, e.g. via said positioning means 5, alternatively screwed together or the like. Furthermore, it is understood that the length of the frame unit's short and long sides 1, 4 can be varied according to purpose and that e.g. the long sides and the short sides 1, 4 can consist of fl your shorter parts that have been welded or alternatively screwed together to facilitate transport. Raise it on the long and short sides 1, 4 can also be varied as needed. The lengths of the partitions 2, 3 are adapted according to the short and long sides 1, 4 of the frame unit and according to how large / small sections you want to divide the space 8 into.
    The partitions 3 can also be provided with positioning means 5 if there is a demand for smaller sections. It will also be appreciated that the preferred ranges are by no means limiting but entirely dependent on the area of use. There may be different kinds of needs which mean that other dimensions and materials other than those exemplified are more suitable without departing from the functional basic principles of the invention.
    It is further understood that even if the text has been exemplified with long and short pages, the functionality of the invention is fulfilled even if a square frame / partition is used.
    The modular storage arrangement preferably consists of steel wire but the material can be varied (eg plastic) without compromising the function of the invention.
    The positioning means 5 can vary in both number and location depending on the size and purpose of the storage arrangement. The length between the valleys 50 and the ridges 51 of the positioning members 5 can also be varied if it is found suitable, as of course also the ratio between the wire thickness D1, Dg, D; can be varied. The fastening devices 6, 7 are in the preferred embodiment placed on opposite sides 2A, 2B, 3A, 3B of the partition walls 2, 3 but do not exclude the possibility of placing them on the same side.
    权利要求:
    Claims (1)
    [1]
    A modular storage arrangement, comprising a frame unit (1, 4) delimiting an inner space (8) and partitions (2, 3) which divide said space (8) into sub-spaces (SA-SD). of variable size, characterized in that both frame unit (1,4) and at least two partitions (2, 3) are provided with positioning means (5) comprising a number of guide grooves (50), and said guide groove (50) of an upper (SA) and a lower (SB) positioning means (S) are arranged to allow optional positioning of a partition wall (2, 3). Modular storage arrangement according to claim 1, characterized in that said frame unit (1, 4) and partitions (2, 3), respectively, are at least substantially built up of wire-shaped members and that any of said frame unit (1, 4) and / or partitions (2 , 3) comprises a delimiting outer wire-shaped member (10, 20, 30, 40), preferably metal wire, which member forms a rectangle. . Modular storage arrangement according to claim 2, characterized in that the area within said delimiting external means (10, 20, 30, 40) preferably comprises a grid (16, 26, 36, 46). Modular storage arrangement according to any one of the preceding claims, characterized in that said frame unit (1, 4) has at least positioning means (S) on the side (1A, 4A) facing said space (8) and that said partitions (2, 4) 3) have vertical side members (20C, 20D) arranged to be positioned in said guide groove (50). . Modular storage arrangement according to one of the preceding claims, characterized in that the frame unit (1, 4) has upper positioning means (SA) along substantially the entire upper edge (1T, 4T) and lower positioning means (SB) along substantially the entire lower edge. (IB, 4B), wherein preferably along means means parallel to and at a distance from the upper edge and the lower edge, respectively. . Modular storage arrangement according to any one of the preceding claims, characterized in that on both sides of said partitions (2, 3) there are positioning means (SA, SB, SA ", 5B °) at the upper edge (20A) and the lower edge (20B). ). 10 15 20 25 30 10. ll 12.. Modular storage arrangement according to any one of the preceding claims, characterized in that said partitions (2, 3) have a fastening device (6, 7) on its side members (20C, 20D) arranged to lock the partitions (2, 3) at each other and / or to the frame unit (1, 4). . Modular storage arrangement according to claim 7, characterized in that the fastening device (6, 7) comprises a spring pin (6) and a hook (7). . Modular storage arrangement according to claim 8, characterized in that said spring pin (6) is arranged to snap under the positioning member (5) when assembling for locking said walls (2, 3) in the vertical direction. Modular storage arrangement according to claim 8 or 9, characterized in that said hook (7) is arranged to hook to a positioning member (5) when assembling for locking said walls (2, 3) laterally. . Modular storage arrangement according to any one of the preceding claims, characterized in that each positioning member (5) comprises a longitudinally extending, horizontally arranged, bent metal wire, in the form of valleys (50) and ridges (51) extending in horizontal transverse direction, said guide groove (50) forming said valleys, the underside of which is fixed to a positioning base (52) preferably in the form of metal trees extending in the same plane the central plane of said walls (2, 3) and frame units (1) , 4). Modular storage arrangement according to one of the preceding claims, characterized in that there are at least two partitions (2, 3) of different lengths, preferably the relationship between the longer wall (2) with the length (Ln) and the shorter wall (3) with the length (LnH) in the range Ln + 1 = 0.3-0.7 Ln
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3501020A|1967-12-27|1970-03-17|George Krikorian|Bin construction|
    FR2110819A5|1970-10-23|1972-06-02|Interclass Sa|
    JP2731874B2|1991-04-22|1998-03-25|サカセ化学工業株式会社|Swivel case|
    US5466057A|1994-03-16|1995-11-14|Blankenburg; Karl|Modular storage apparatus|
    US5732821A|1995-09-28|1998-03-31|Biomet, Inc.|System for sterilizing medical devices|
    US6669036B1|1999-10-13|2003-12-30|Frank Yang|Modular storage assembly|
    US7441663B2|2003-04-24|2008-10-28|The United States Postal Service|Tray assembly having hinged dividers|FR3022532B1|2014-06-24|2016-07-29|Filbox|CONTAINER AND METHOD FOR FILLING A CONTAINER|
    CN106672371A|2017-03-28|2017-05-17|宁夏平罗县贸易有限责任公司|Layering shopping basket for supermarkets|
    US10849425B2|2017-10-06|2020-12-01|The Intellectual Property Network, Inc.|Motorized modular smart shelving and storage unit|
    法律状态:
    优先权:
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    SE1050469A|SE535320C2|2010-05-12|2010-05-12|Modular storage arrangement|SE1050469A| SE535320C2|2010-05-12|2010-05-12|Modular storage arrangement|
    EP20110165781| EP2386494B1|2010-05-12|2011-05-12|Modular storage arrangement|
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