• 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 invention relates to a storage unit (10) for storing moisture-sensitive products, in particular tea, comprising - an outer container (1) with a closed outer wall (11), a top (101) on which the outer container (1) is open and an upper edge (14), and a lower side (102) on which a closed bottom (12) is arranged, - an inner container (2) with an interior (7) for receiving the moisture-sensitive product, a wall surface (25) a number of air exchange openings (28), a filling opening (201), a closing edge (27) delimiting the filling opening (201) and a closed bottom (21), wherein the inner container (2) is reversibly insertable into the outer container (1) in which the filling opening (201) of the inner container (2) is directed upwards towards the upper side (101) of the outer container (1) and between the outer container (1) and the inner container (2) is a spacer (3) for inserting a moisture control means (31) is formed, - a reversibly removable, on the outer container (1) and the inner container (2) and along the upper edge (14) and the end edge (27) circumferentially encircling cover frame (4), wherein the cover frame (4) for covering the between the outer container (1) and the inner container (2) formed in the opening (32) of the intermediate space (3) is formed and wherein in the cover frame (4) has a frame opening (41 ) is provided for access into the interior (7), - a reversibly removable, on the cover frame (4) attachable inner cap (5) for closing the frame opening (41) and - a removable outer cap (6) for airtight sealing the outer container (1) or the upper side (101) of the outer container (1).
    公开号:AT520520A4
    申请号:T51001/2017
    申请日:2017-12-04
    公开日:2019-05-15
    发明作者:
    申请人:Pyar Ltd;
    IPC主号:
    专利说明:

    Storage unit for storing moisture-sensitive products
    The present invention relates to a storage unit according to the preamble of patent claim 1.
    Moisture-sensitive products of the food, food and beverage sector, such as herbs, spices, teas, caviar, truffles, specialty cheeses, sausage and meat products but also cigars or tobacco require storage under constant atmospheric conditions and a constant degree of humidity, to maintain their specific aroma, flavor and texture over the period of storage.
    The prior art discloses simply constructed storage units, such as tea caddies. Disadvantage of such storage units is that they are not suitable for maintaining constant atmospheric conditions and a constant degree of humidity, so that moisture-sensitive products therein quickly lose their specific properties. Furthermore, storage units, such as. As humidors for tobaccos, which achieve a constant maintenance of the moisture of the stored tobaccos, for example, using complex humidification.
    The object of the invention is therefore to provide a simply constructed and easy to handle storage unit that keeps the moisture content of products stored therein constant, protects the products from penetrating into the storage unit air, odors and pollution and at the same time a simple introduction of moisture-sensitive products in the Storage unit allows.
    The invention solves this problem with a storage unit of the type mentioned above comprising - an outer container with a closed outer wall, an upper side on which the outer container is open and has an upper edge, and a lower side, on which a closed bottom is arranged, an inner container having an interior for receiving the moisture-sensitive product, a wall surface having a number of air exchange openings, a filling opening, a closing edge defining the filling opening and a closed bottom, wherein the inner container is reversibly inserted into the outer container, wherein the filling opening of the inner Container is directed upward to the upper side of the outer container and between the outer container and the inner container, a space for inserting a humidity regulator is formed, - a reversibly removable, on the outer container and the inner Container attachable and along the upper edge and the end edge circumferentially encircling cover frame, wherein the cover frame for covering the formed between the outer container and the inner container opening of the intermediate space is formed and wherein in the cover frame, a frame opening is provided for access to the interior, - a reversibly detachable inner cover, which can be placed on the cover frame, for closing the frame opening, and - a removable outer cover for airtight closing of the outer container or the upper side of the outer container.
    The sluice type double lid system ensures that the storage unit is protected from the ingress of air, moisture and odors by the outer lid, while the moisture control agent, such as pouches or packages filled with desiccant, provides a constant level of moisture in the storage unit. The inner cap ensures that the stored products such as tea are not exposed to the ambient atmosphere in case the outer cap is unintentionally removed.
    In order to store the moisture control agent safely in a storage unit according to the invention, without it being visible to a user when opening the storage unit, it can be provided that the cover frame has a first engaging in the inner container stage, whereby a first circumferential bearing surface is formed can be placed on the end edge of the inner container and on which the inner closure lid can be placed.
    This embodiment of the invention further ensures that stored tea can not fall into the space in which the moisture control agent is located.
    The fact that the outer closure lid fits snugly on the storage unit, can be ensured that the cover frame has a second engaging in the outer container stage, whereby a second circumferential bearing surface is formed, which is placed on the upper edge of the outer container.
    In order to best match the shape of the inner cap to the cover frame, so that the inner cap securely seated on the cover, in the event that the storage unit tilts, it can be provided that the inner closure lid has a reduction adapted to the first support surface, so that after outwardly directed, circumferentially circumferential projection is formed.
    This embodiment of the inner closure lid further guarantees that no tea can escape from the inner container if the storage unit tilts.
    The possibility for space-saving storage of several storage units according to the invention, for example by stacking is provided by the outer closure lid having a top of the outer container occlusive closure surface and a circumferentially extending Umbiegungsfläche, wherein the outer closure lid is placed on the outer container such that the upper edge region of Outer wall of the outer container is enclosed by the Umbiegungsfläche, and wherein preferably the closure surface and the Umbiegungsfläche are flat.
    For air-tight and possibly watertight sealing of the storage unit can be provided that the outer closure lid on the interior facing side of the Umbiegungsfläche has a circumferentially engageable on the cover frame and the outer container first seal, and optionally a second seal on the interior side facing the closure surface is arranged.
    For permanent fixing and for protecting the second seal arranged on the closure surface of the outer closure lid, provision can be made for a cover element which at least partially covers the second seal to be arranged on a side of the second seal facing the interior.
    The permanent fixation of the second seal on the closure surface can be ensured if the cover element has a recess and that the second seal has a sealing recess corresponding thereto, wherein the
    Base surface of the sealing recess of the base surface of the recess corresponds, so that the cover element in the region of the sealing recess with the outer closure lid can be arranged touching.
    The fact that the cover element can not dissolve undesirably from the outer closure lid, can be prevented if a circumferentially circumferential bead is provided on the cover element, wherein the crimping edge when placing the cover member on the sealing surface arranged on the second seal for fixing the cover member against the first seal and the Umbiegungsfläche the outer closure lid is gespreizbar.
    For particularly flexible embodiment of a storage unit according to the invention so that it meets the needs of a user for easy storage in cabinets, drawers can be provided that the outer container and the outer closure lid and the second seal and the cover member and a seated on the outer container portion of Cover frame have a rectangular or square or circular or elliptical cross-section.
    In order to design a storage unit according to the invention for the storage of products of different size and / or shape, it can be provided that the inner container and / or the inner closure lid and / or a seated on the inner container portion of the cover frame a rectangular or square or circular or have elliptical cross-section.
    A particularly simple insertion and removal of the inner container for storing moisture-sensitive products in and out of the storage unit at the same time high consistency of the total atmospheric moisture can be ensured when the outer container and / or the inner container of cuboid or cylindrical are.
    In order to produce a constant internal atmosphere in the storage unit, it can be provided that the air exchange openings are formed for exchanging the atmosphere between the interior space and the intermediate space, so that a uniform internal atmosphere with a certain degree of humidity can be set in the interior and in the intermediate space.
    This configuration of the air exchange openings, an exchange of atmosphere between the interior, in which the tea is located, and the space in which the moisture control agent is stored, take place. As a result, a uniform degree of humidity is established in the interior and in the intermediate space.
    A further embodiment of the invention, which offers a possibility for using microperforations as an alternative to the air exchange openings, can be provided if the inner container has at least one recess with a perforated layer element covering the recess, in which the air exchange openings are arranged.
    The provided perforated layer elements even smallest fragments of the stored tea leaves can not penetrate into the gap, while an efficient exchange of atmosphere between the interior and the space is ensured.
    In order to permanently and stably attach the perforated layer elements to the inner container, it can be provided that the inner container is formed by a frame construction, wherein the inner container has on each of its side surfaces recesses on which perforated layer elements are arranged.
    Particularly fine perforations can be used for the exchange of air between the interior and the gap, if the perforated layer elements consist of a steel alloy.
    A particularly corrosion-resistant and at the same time lightweight embodiment of the storage unit can be ensured if the outer container and / or the outer closure lid and / or optionally the wall surface of the inner container and / or the inner closure lid consist of a tinplate or tinplate.
    In order to fix the inner container when inserted into the outer container, it may be provided that in the bottom of the outer container and / or in the bottom of the inner container, in particular mechanical, connecting means for producing a reversibly releasable operative connection between the outer container and the inner container are provided, wherein preferably the connecting means are arranged centrally in the middle.
    A particularly stable operative connection between the inner container and the outer container can be formed if a first recess is provided in the bottom of the outer container and a second recess corresponding to the first recess is provided in the bottom of the inner container so that a mechanical operative connection can be established ,
    In order to hold the inner container in a particularly secure position, it can be provided that the first recess and the second recess are configured spherical, ellipsoidal or cuboid, in particular a first undercut in the first recess and a second undercut in the second recess corresponding therewith are provided so that the inner container can be locked by placing on the outer container in the outer container.
    In order to impart a constant width to the gap formed between the outer container and the inner container, it may be provided that the recess wall surfaces of the first recess and the second recess are alignable parallel to the outer wall surfaces of the outer container.
    The provision of undercuts to lock the inner container in the outer container and the parallel alignment of the recess wall surfaces with the outer wall surfaces of the outer container have the further advantage that the moisture control agent or package with desiccant does not slip along the walls of the outer container and slightly over the top of the opening facing the gap to be replaced.
    A simple removal of the inner closure cap can be ensured if a handle is provided on a side facing away from the interior side of the inner closure lid.
    Further advantages and embodiments of the invention will become apparent from the description and the accompanying drawings.
    Particularly advantageous, but not limiting, embodiments of the invention are illustrated schematically below with reference to the accompanying drawings and described by way of example with reference to the drawings:
    The following show schematically:
    Fig. 1 is an exploded view of a first embodiment of the invention.
    Fig. 2 is an oblique view of the first embodiment.
    Fig. 3 is a sectional view through the first embodiment.
    3a shows a detailed view of the first embodiment.
    Fig. 3b is a view in the direction of the bottom of the outer container.
    Fig. 3c is a plan view of the outer closure lid.
    Fig. 4 is a second exploded view of the first embodiment.
    Fig. 4a is a further detail view of the first embodiment.
    Fig. 5 is a third exploded view of the first embodiment.
    Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5 show perspective views of a first embodiment of a storage unit 10. Fig. 1 shows a sectional view through a first embodiment of the invention as an exploded view, Fig. 2 is a sectional view 3 is an elevational view of the first embodiment of the invention in an assembled state, FIG. 4 is a sectional view of the first embodiment of the invention in the form of an exploded view, and FIG External view of the first embodiment of the invention in the form of an exploded view.
    In the first embodiment in FIGS. 1, 2, 3, 4 and 5, the storage unit 10 according to the invention has an outer container 1, an inner container 2, a cover frame 4, an inner closure lid 5 and an outer closure lid 6 on. The outer container 1 has a closed outer wall 11, an upper side 101 pointing upwards in normal operation and a lower side 102 pointing downwards in normal operation. At the top 101, the outer container 1 is open and has an upper edge 14. At the bottom 102 a closed bottom 12 is arranged on the outer container 1.
    In the first embodiment shown, the outer container 1 has a square cross-sectional area, so that the outer wall 11 of the outer container 1 comprises four outer wall surfaces 11a. The upper edge 14 is formed in the first embodiment as in the interior of the outer container 1 facing flanged edge; Alternatively, the bead can also be directed to the outside. Alternatively, the upper edge 14 can also be designed as a simply configured terminating edge without decorative elements or flanged edge.
    The inner container 2 has an inner space 7 for receiving a moisture-sensitive product, for example tea. The inner container further comprises in the first embodiment a wall surface 25 with a number of air exchange openings 28 and has a closed bottom 21. The air exchange openings 28 are shown in detail in FIG. 2 and in FIGS. 1, 3, 4 and Fig. 5 shown as black dots. The air exchange openings 28 are designed to exchange the atmosphere between the interior 7 and the intermediate space 3, so that a uniform internal atmosphere with a certain degree of humidity can be set in the interior 7 and in the intermediate space 3.
    The closed bottom 21 of the inner container 2 is arranged opposite a filling opening 201, wherein the filling opening 201 is bounded by an end edge 27. In the first embodiment, the inner container 2 has a square cross-sectional area, so that the wall surface 25 is divided into four side surfaces 26. Each of the side surfaces 26 of the inner container 2 has a recess 23, are arranged on the perforated layer elements 24, wherein the inner container 2 is formed as a frame construction.
    In the first embodiment, the perforated layer members 24 are made of a steel alloy and have a large number of air exchange openings 28, and the frame structure of the inner container 2 and the outer container 1 are made of a tinplate.
    The inner container 2 is reversibly inserted into the outer container 1, so that the upper side 101 of the outer container 1 and the insertion opening 201 of the inner container 2 are arranged in such a way that moisture-sensitive products in the interior 7 can be filled. In this arrangement, the outer container 1 and the inner container 2 is formed between the outer container 1 and the inner container 2, a gap 3 for inserting a humidity regulation means.
    In the first embodiment, connecting means 8 for producing a reversibly releasable operative connection between the outer container 1 and the inner container 2 are provided in the bottom 12 of the outer container 1 and in the bottom 21 of the inner container 2. The connecting means 8 are centrally arranged centrally in the bottom 12 of the outer container 1 and in the bottom 21 of the inner container 2 and formed as a mechanical connection means.
    In the bottom 12 of the outer container 1 while a first recess 13 is provided, which is cuboid-shaped and has a first undercut 131. The first recess 13 is inwardly, i. from the bottom 102 of the outer container 1 facing the top 101, formed. In the bottom 21 of the inner container 2, a second recess 22 is formed, which is like the first recess 13 of the outer container 1 cuboid and corresponds with this, which in Fig. 1 and Fig. 4 can be seen.
    In the second recess 22, a second undercut 221 is provided, which corresponds to the first undercut 131 of the first recess 13, so that the inner container 2 can be locked by placing it on the outer container 1 in the outer container 1 and a mechanical operative connection can be produced. As a result, a particularly good fixation of the inner container 2 in the outer container 1 is ensured. Alternatively, the first recess 13 and the second recess 22 may be formed without an undercut or have an ellipsoidal or spherical base.
    In the first embodiment, the first recess 13 and the second recess 22 further have smooth recess wall surfaces which ensure that the outer wall surfaces 11a of the outer container 1 are alignable parallel to the side surfaces 26 of the inner container 2, as shown in FIG.
    The storage unit 10 further comprises a reversibly detachable and can be placed on the outer container 1 and the inner container 2 cover frame 4. The cover 4 extends circumferentially along the outer container 1 and the inner container 2 and is to cover the between the outer container 1 and inner container 2 formed opening 32 of the gap 3 is formed.
    In the cover frame 4, a frame opening 41 is provided for access into the inner space 7, which leaves the filling opening 201 of the inner container 2 free, so that, for example, tea can be filled into the inner space 7 of the inner container 2.
    The cover 4 is in this case formed in a double step shape and has a first, engaging in the inner container 2, step 421, whereby a first circumferential
    Support surface 42 is formed. The support surface 42 can be placed on the end edge 27 of the inner container 2. The cover frame 4 further comprises a second, engaging in the outer container 2 stage 431, whereby a second circumferential bearing surface 43 is formed. The second bearing surface 43 can be placed on the upper edge 14 of the outer container 1.
    By arranging an inner container 2 with perforated layer elements 24, in which air exchange openings 28 are provided, in an outer container 1, it is ensured that the moisture-sensitive products in the interior 7 of the inner container 2 are safely stored, without any contact with the moisture control agent 31 in the intermediate space 3 or the outer container 1 is possible.
    By the air exchange openings 28 a balance of air and moisture between the inner container 1 and the gap 3 with the humidity regulation means 31 is ensured. As a result, a uniform internal atmosphere and a certain degree of humidity in the interior 7 can be set, which enables adequate storage of moisture-sensitive products, in particular tea. The air exchange openings 28 are chosen to be so small that no components of the tea can get into the outer container 1 or into the intermediate space 3 or that moisture control agent 31 can enter the inner space 7 when a granular moisturizing agent 31 is used.
    The cover 4 ensures that when filling the inner container 2 with tea or the removal of the tea from the interior 7 no components of the tea in the space 3 and in the outer container 1 can fall. The cover frame 4 further ensures that the humidity regulation means 31 can be exchanged without the tea in the interior 7 of the inner container 2 having to be removed or touched.
    In the space 3 of the storage unit 10, as shown in FIGS. 2 and 3, up to four bags of humidity regulating means 31 are accommodated along the wall surfaces 11a and the side surfaces 26, respectively. As a result, for example, the desired degree of moisture can be adjusted by varying the number of bags with moisture regulating agent 31 and a uniform internal atmosphere is ensured over a longer period of time. Alternatively, it is also possible, for example, to fill granular moisture regulation means 31 into the intermediate space 3.
    In the first embodiment, the storage unit 10 further comprises a reversibly removable, can be placed on the cover 4, inner closure lid 5. The closure lid 5 is used to close the frame opening 41 and the filling opening 201 of the inner container 2, so no tea from the interior 7 of the inner Can fall container 2 and no impurities can enter the tea.
    The inner closure lid 5 can be placed on the first bearing surface 42 of the cover frame 4 and has a reduction 511 adapted to the first support 42, so that an outwardly directed circumferential projection 51 is formed. The projection 51 ensures that the inner closure lid 5 can be fixed to the cover frame 4, so that, for example, when tilting the storage unit 10, the inner closure lid 5 can not fall off in an undesired manner. The inner closure lid 5 has further on its side facing away from the interior 7 side a handle 52, whereby the inner closure lid 5 is easily accessible and removable from the cover 4.
    In the first embodiment, the storage unit 10 further comprises a removable, outer closure lid 6 for closing the outer container 1 and the upper side 101 of the outer container 1. The outer closure lid 6 closes the outer container 1 air and possibly waterproof, so no humidity or odors penetrate into the storage unit 10 and the stored moisture-resistant products, or the tea, can damage.
    By arranging an inner closure lid 5 and additionally an outer closure cap 6 it is further ensured that, should the outer closure lid 6 unintentionally be pulled off the storage unit 10, the inner closure lid 5 will still keep the tea inside the cavity 7 from soiling, and if necessary Air and moisture protects.
    In the first exemplary embodiment, the outer closure lid 6 has a closure surface 66 which closes off the upper side 101 of the outer container 1 and a circumferential circumferential bending surface 65, which is arranged on the outer side of the closure surface 66 and bent approximately at right angles. The closure surface 66 and the Umbiegungsfläche 65 of the outer closure cap 6 are flat in the first embodiment and when placing the outer cap 6 on the outer container 1 surrounds the Umbiegungsfläche 65 the upper edge region of the outer wall 11 of the outer container 1, which in Fig. 2 and Fig. 3 is shown.
    In the first exemplary embodiment, the outer closure lid 6 is designed to be particularly air-tight and optionally water-tight by arranging a first seal 61 on the side of the bending area 65 facing the inner space 7. The first seal 61 is circumferentially engageable with the cover frame 4 and the outer container 1, i. the first seal 61 surrounds the outer container 1 and the part of the cover frame 4 projecting beyond the first container 1 when the outer closure lid 6 is placed on. As a result, no odors or humidity can penetrate into the storage unit 10 or into the outer container 1 from the outside.
    Furthermore, a second seal 61a is arranged on the side of the closure surface 61 facing the interior, for the particularly air-tight and optionally watertight embodiment of the outer closure lid 6, as can be seen in FIG.
    In the first exemplary embodiment, the storage unit 10 further comprises a cover element 62, which is arranged on a side of the second seal 61a facing the interior 7 and covers the second seal 61a at least in sections. In the exemplary embodiment, the second seal 61a is completely covered by the cover element 62, the cover element 62 having a recess 63.
    The recess 63 is, as shown in Fig. 1, square in the first embodiment and arranged centrally in the center of the cover member 62, and the second seal 61 has a recess 63 corresponding to the sealing recess 64. The cover element 62 serves to fix the first seal 61 or the second seal 61a in the outer closure lid 6.
    The base of the sealing recess 64 corresponds to the base of the recess 63, so that the cover member 62 in the region of the seal recess 64 with the outer closure cover 6 can be arranged touching. In order to fix the first seal 61 and the second seal 61 a particularly permanently in the outer closure lid 6, in the first embodiment, an adhesive on the recess 63 of the cover member 62 is applied, so that the cover member 62 is permanently attached to the outer cover 6. Thus, a slipping or falling out of the first seal 61 and the second seal 61a is prevented from the outer closure cap 6.
    In addition, in the first exemplary embodiment, the cover element 62 has a peripherally peripheral beading edge 67 which, when the cover element 62 is placed on the second seal 61a arranged on the closure surface 66, fixes the cover element 62 against the first seal 61 and the bending surface 65 of the outer closure lid 6 braced. The flanged edge 67 is curved in the first embodiment in the direction of the outer closure lid 6, which ensures a particularly simple spreading.
    Alternatively, the cover member 62 can be braced without bonding, only with the help of the crimping edge 67 against the first seal 61 in the outer cap 6, which also sufficient fixation of the first seal 61 and the second seal 61a is ensured in the outer cap 6.
    Optionally, the cover element 62 can also be configured without a recess 63, wherein the first seal 61a in this case has no sealing recess 64 corresponding to the recess 63a.
    Alternatively, the cover element 62 can completely cover the first seal 61 and the second seal 61a and, in the lower region of the bending surface 65 of the outer closure lid 6 remote from the closure surface 66, can be braced with a flared edge 67 curved in the direction of the closure lid 6.
    In FIG. 2, the arrangement of a bag with moisture regulation agent in the intermediate space 3 is shown by way of example. 2 shows that at the recesses 23 of the side surfaces 26 layer elements 24 are arranged with air exchange openings 28 in the form of micro perforations that are fine enough to retain even the smallest tea ingredients in the interior 7, so that they are not in the space 3 to the humidity regulation means 31st can reach. However, an exchange of air and moisture between the interior 7 and the gap 3 with the humidity regulation means 31 is easily possible.
    In the illustrated embodiment, two recesses 23 are present in all side surfaces 26 of the inner container and perforated layer elements 24, which close the recesses 23, arranged, whereby an optimal exchange of atmosphere between the interior 7 and the gap 31 is ensured. Alternatively, for example, only two side surfaces 26
    Recesses 23 may be arranged with perforated layer elements 24, or air exchange openings 28 may be arranged directly in the wall surface 25 of the inner container 2.
    The perforated layer elements 24 consist of a steel alloy, which makes it easy to produce microperforations. The outer container 1 and the wall surface 25 of the inner container 2 consist in the first embodiment of a tinplate. The outer closure lid 6 and / or the inner closure lid 5 also consist of a tinplate or tinplate.
    Fig. 2 further shows that the cover frame 4 in the assembled state of the storage unit 10 completely covers the opening 32 formed between the outer container 1 and the inner container 2 of the gap 3. As a result, for a user of the storage unit 10, for example, the bags of moisture control agent 31 are not apparent when he fills tea in the interior 7 of the inner container 2 or takes tea from this. For example, the cover frame 4 only has to be removed in order to remove the moisture regulation means 31 from the intermediate space 3 or to exchange the moisture regulation means 31.
    Furthermore, no tea leaves during filling or removal of the tea in the interior 7 of the inner container 2 fall into the gap 3. The cover frame 4 further reduces the surface through which harmful moisture, air, light or odors may enter the outer container 1 and the inner container 2 in which the tea is located. At the same time, the life of the humidity regulation means 31 is thereby increased.
    Fig. 2 further shows how the first recess 13 and the second recess 22 engage with each other to center the inner container 2 in the outer container 1 and lock. Thus, a rotation of the inner container 2 in the outer container 1 is not possible and, for example, bags of humidity regulation means 31 are housed in a uniformly wide gap 3, so that the humidity regulation means 31 can be easily inserted and removed.
    The closure surface 66 of the outer closure lid 6 and the bottom 12 of the outer container 1 are planar, so that a plurality of storage units 10 according to the invention can easily be stacked on top of each other. At the bottom 12 of the outer container 1 can be an outside at the bottom 12 of the outer
    Container 1 may be provided circumferentially circumferential bead, which ensures the stacking of storage units 10, that in each case the bottom 12 of an outer container 1 of a storage unit 10 is securely fixed to the outer closure lid 6 of a further storage unit 10 arranged thereunder. Furthermore, it can be seen in FIG. 2 that the handle 52 of the inner closure lid 5 does not touch the cover element 62, so that the covering element 62 and the second seal 61a are not undesirably damaged by the handle 52 or drawn off from the closure lid 6.
    3a shows a detailed view in the region of the outer closure cap 6 and the upper edge 14 of the outer container 1 of the first embodiment of the invention. In Fig. 3a it can be seen that the second seal 61a, the closure surface 66 of the outer closure cover 6 completely covered, and that the Umbiegungsfläche 65 of the outer closure cap 6 is completely covered by the first seal 61.
    The first seal 61 runs down, i. in the direction away from the closure surface 66 direction of the outer closure lid 6, wedge-shaped. The flanged edge 67 of the cover member 62 is braced against the first seal 61 and the second bearing surface 43 of the cover 4, which is formed in the embodiment as a bead, also spreads against the first seal 61. Furthermore, Fig. 3a shows that the upper edge of the 14th the outer container 1 is also spread against the first seal 61. Thus, it is ensured that the storage unit 10 is closed air and possibly waterproof, when the outer closure lid 6 is placed on the outer container 1.
    3b and 3c show plan views of the first embodiment of the invention, wherein Fig. 3b shows a plan view in the direction of the bottom 12 of the outer container 1 and Fig. 3c shows a plan view in the direction of the outer closure cover 6. It can be seen that in the first embodiment of the outer container 1 and the outer cap 6 have a square cross-section. Thus, the outer wall 11 of the outer container comprises four identically designed wall surfaces 11a.
    The first recess 13 likewise has a square cross-section and is arranged centrally in the bottom 12. In the first exemplary embodiment, the second seal 61a, the cover element 62 and a portion of the cover frame 4 seated on the outer container 1 likewise have a square cross-section.
    Alternatively, the outer container 1, the outer closure lid 6, the second seal 61a, the cover member 62 and a portion of the cover frame 4 seated on the outer container 1 may have a rectangular, circular or elliptical cross section.
    The inner container 2 and the inner closure lid 5 and a portion of the cover frame 4 seated on the inner container 2 have a square cross-section in the first exemplary embodiment of the invention.
    Alternatively, the inner container 2, the inner closure lid 5 and the portion of the cover frame 4 seated on the inner container 2 may have a rectangular, circular or elliptical cross section.
    In the first embodiment, the outer container 1 and the inner container 2 are formed cuboid. Alternatively, the outer container 1 and the inner container 2 may also be cylindrical. Thus, for example, it is possible that a cylindrical inner container 2 having a circular cross section is accommodated in a parallelepiped-shaped outer container 1 having a rectangular cross-section.
    FIG. 4a shows a detailed view in the region of a recess 23 in a side face 26 of the inner container 2 in cross section. It can be seen that a perforated layer element 24 is fixed to the side surface 26 and closes the recess 23 in the side surface 26.
    A storage unit 10 according to the invention can be used for storage or storage of a variety of moisture-sensitive products. The storage unit 10 is suitable not only for the storage of food or foods such as herbs, spices, teas, caviar, truffles, specialty cheese, sausage and meat products, but also for the storage of luxury foods such as tobacco or personal care products such. B. bath salts or cosmetics.
    权利要求:
    Claims (22)
    [1]
    claims
    A storage unit (10) for storing moisture-sensitive products, in particular tea, comprising - an outer container (1) with a closed outer wall (11), a top (101) on which the outer container (1) is open and an upper edge (14), and a lower surface (102) on which a closed bottom (12) is disposed, - an inner container (2) having an inner space (7) for receiving the moisture-sensitive product, a wall surface (25) having a number air exchange openings (28), a filling opening (201), a closing edge (27) delimiting the filling opening (201) and a closed bottom (21), the inner container (2) being reversibly insertable into the outer container (1) the filling opening (201) of the inner container (2) is directed upwards towards the upper side (101) of the outer container (1) and between the outer container (1) and the inner container (2) there is a space (3) for inserting a Humidity control means (31) is formed, - a reversibly removable, on the outer container (1) and the inner container (2) can be placed and along the upper edge (14) and the end edge (27) circumferentially encircling cover frame (4), wherein the cover frame (4) for covering the between the outer container (1) and the inner container (2) formed opening (32) of the intermediate space (3) is formed and wherein in the cover frame (4) has a frame opening (41) for access into the interior (7) is provided, - a reversibly removable, on the cover frame (4) attachable, inner closure cover (5) for closing the frame opening (41) and - a removable outer closure lid (6) for airtight closing of the outer container (1) or the top (101) of the outer container (1).
    [2]
    2. Storage unit (10) according to claim 1, characterized in that the cover frame (4) has a first in the inner container (2) engaging step (421), whereby a first circumferential bearing surface (42) is formed, which on the end edge (27) of the inner container (2) can be placed and on which the inner closure lid (5) can be placed.
    [3]
    3. Storage unit (10) according to claim 1 or 2, characterized in that the cover frame (4) has a second in the outer container (2) engaging step (431), whereby a second circumferential bearing surface (43) is formed on the upper edge (14) of the outer container (1) can be placed.
    [4]
    4. storage unit (10) according to claim 2 or 3, characterized in that the inner closure cover (5) has a to the first bearing surface (42) adapted reduction (511), so that an outwardly directed, circumferentially encircling projection (51) is.
    [5]
    5. storage unit (10) according to one of the preceding claims, characterized in that the outer closure cover (6) has a top (101) of the outer container (1) occlusive closure surface (66) and a circumferentially extending Umbiegungsfläche (65), wherein the outer closure lid (6) can be placed on the outer container (1) in such a way that the upper edge region of the outer wall (11) of the outer container (1) is enclosed by the bending surface (65), and preferably the closure surface (66) and the Umbiegungsfläche (65) are flat.
    [6]
    6. storage unit (10) according to any one of the preceding claims, characterized in that the outer closure lid (6) on the interior (7) facing side of the Umbiegungsfläche (65) has a circumferentially on the cover frame (4) and the outer container (1 ) Can be applied first seal (61), and optionally a second seal (61a) on the interior (7) facing side of the closure surface (66) is arranged.
    [7]
    7. storage unit (10) according to claim 6, characterized in that on one of the interior (7) facing side of the second seal (61 a) the second seal (61 a) at least partially covering cover member (62) is arranged.
    [8]
    8. storage unit (10) according to claim 7, characterized in that the cover element (62) has a recess (63) and that the second seal (61a) has a corresponding therewith sealing recess (64), wherein the base of the sealing recess (64) the base surface of the recess (63) corresponds, so that the cover element (62) in the region of the seal recess (64) with the outer closure cover (6) can be arranged touching.
    [9]
    9. storage unit (10) according to claim 7 or 8, characterized in that on the cover element (62) has a circumferentially circumferential bead (67) is provided, wherein the bead (67) upon placement of the cover member (62) on the on the closure surface ( 66) arranged second seal (61 a) for fixing the cover member (62) against the first seal (61) and the Umbiegungsfläche (65) of the outer closure cover (6) is spreadable.
    [10]
    10. storage unit (10) according to any one of the preceding claims, characterized in that the outer container (1) and the outer closure lid (6) and the second seal (61 a) and the cover member (62) and on the outer container (1 ) seated portion of the cover frame (4) have a rectangular or square or circular or elliptical cross-section.
    [11]
    11. storage unit (10) according to any one of the preceding claims, characterized in that the inner container (2) and / or the inner closure lid (5) and / or a seated on the inner container (2) portion of the cover frame (4) have rectangular or square or circular or elliptical cross-section.
    [12]
    12. Storage unit (10) according to any one of the preceding claims, characterized in that the outer container (1) and / or the inner container (2) are cuboidal or cylindrical.
    [13]
    13. storage unit according to one of the preceding claims, characterized in that the air exchange openings (28) for the exchange of atmosphere between the interior (7) and the intermediate space (3) are formed, so that in the interior (7) and in the intermediate space (3) a uniform internal atmosphere adjustable with a certain degree of humidity.
    [14]
    14. storage unit (10) according to any one of the preceding claims, characterized in that the inner container (2) at least one recess (23) with a recess (23) covering the perforated layer element (24), in which the air exchange openings (28) are, has.
    [15]
    15. storage unit (10) according to claim 14, characterized in that the inner container (2) is formed by a frame construction, wherein the inner container (2) on each of its side surfaces (26) has recesses (23) on which perforated layer elements (24) are arranged.
    [16]
    16. storage unit (10) according to claim 14 or 15, characterized in that the perforated layer elements (24) consist of a steel alloy.
    [17]
    17. Storage unit (10) according to one of the preceding claims, characterized in that the outer container (1) and / or the outer closure lid (6) and / or optionally the wall surface (25) of the inner container (2) and / or inner closure cover (5) consist of a tinplate or tinplate.
    [18]
    18. Storage unit (10) according to one of the preceding claims, characterized in that in the bottom (12) of the outer container (1) and / or in the bottom (21) of the inner container (2), in particular mechanical, connecting means (8) for Production of a reversibly detachable operative connection between the outer container (1) and the inner container (2) are provided, wherein preferably the connecting means (8) are arranged centrally in the middle.
    [19]
    19. storage unit (10) according to claim 18, characterized in that in the bottom (12) of the outer container (1) has a first recess (13) is provided and in the bottom (21) of the inner container (2) one with the first recess (13) corresponding second recess (22) is provided, so that a mechanical operative connection can be produced.
    [20]
    20. storage unit (10) according to claim 19, characterized in that the first recess (13) and the second recess (22) are designed spherical, ellipsoidal or cuboid, in particular a first undercut (131) in the first recess (13) and a second undercut (221) corresponding thereto is provided in the second recess (22), so that the inner container (2) can be locked in the outer container (1) by placing it on the outer container (1).
    [21]
    21. storage unit (10) according to claim 19 or 20, characterized in that the recess wall surfaces of the first recess (13) and the second recess (22) parallel to the outer wall surfaces (11 a) of the outer container (1) are aligned.
    [22]
    22 storage unit (10) according to any one of the preceding claims, characterized in that on a side facing away from the interior (7) side of the inner closure lid (5), a handle (52) is provided.
    类似技术:
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    DE202011110575U1|2014-09-29|Tablet for a dehumidifier
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    DE2521252A1|1977-04-14|Packaging box with tubular body - has press fit lid and base with locking tongues having studs pressed through body and lid or base
    同族专利:
    公开号 | 公开日
    JP2021505490A|2021-02-18|
    AT520520B1|2019-05-15|
    EP3720328B1|2022-02-02|
    CN111629639A|2020-09-04|
    WO2019110587A1|2019-06-13|
    US20200367697A1|2020-11-26|
    EP3720328A1|2020-10-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB871608A|1959-02-13|1961-06-28|Salter & Co Ltd G|Improvements relating to packaging containers|
    US3924807A|1974-11-01|1975-12-09|Leonora Elizabeth Nash Morgan|Humidity altering device|
    US5975288A|1997-03-28|1999-11-02|49 Cigar, Llc|Humidity altering device|
    US6158580A|1999-08-27|2000-12-12|Kenneth Davis|Container having a humidity control system|
    FR966606A|1948-05-21|1950-10-13|Tobacco humidifier box|
    US2671707A|1950-03-31|1954-03-09|Jose S Lombard|Tobacco humidor|
    JPS5717670A|1980-07-09|1982-01-29|Yoshiaki Kino|Vessel for golf ball|
    DE9206770U1|1992-05-19|1992-07-30|Gerhards, Ludwig, 5412 Ransbach-Baumbach, De|
    US5813564A|1997-10-15|1998-09-29|Luo; Yi-Wen|Cover structure for an airtight container|CN112320095A|2020-10-30|2021-02-05|扬州智能视觉研究所|Be used for producing rivet levelness detection data storage device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA51001/2017A|AT520520B1|2017-12-04|2017-12-04|Container for the storage of moisture-sensitive products|ATA51001/2017A| AT520520B1|2017-12-04|2017-12-04|Container for the storage of moisture-sensitive products|
    JP2020547312A| JP2021505490A|2017-12-04|2018-12-04|Storage unit for storing humidity sensitive products|
    EP18829738.6A| EP3720328B1|2017-12-04|2018-12-04|Storage unit for storing products that can be affected by humidity|
    PCT/EP2018/083487| WO2019110587A1|2017-12-04|2018-12-04|Storage unit for storing products that can be affected by humidity|
    CN201880078551.6A| CN111629639A|2017-12-04|2018-12-04|Storage unit for storing moisture-sensitive products|
    US16/768,454| US20200367697A1|2017-12-04|2018-12-04|Storage Unit For Storing Products That Can Be Affected By Humidity|
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