• 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 proposed invention relates to a content release system (100) comprising: a closable container (110) having a first opening (130) having a first controllable element (230) configured to repeatedly controllably restricting the first opening (130), a second opening (170) having a second controllable element (270) configured to repeatedly controllably restrict the second opening (170), the first (230) and second (270) controllable elements are synchronized and configured for controllable control of the flow of content through said first (130) and second (170) openings, respectively.
    公开号:BE1022787B1
    申请号:E2015/5602
    申请日:2015-09-30
    公开日:2016-09-06
    发明作者:Seyed Mostafa Shahesmaeili
    申请人:Wsm Bvba;
    IPC主号:
    专利说明:

    Mechanism of Interconnected Elements for Control of Flow. Field of the Invention
    The proposed invention is in the field of vessel release systems. The use of this invention for storing and releasing liquids from a container is particularly interesting.
    Background to the invention
    Casting from currently available containers is difficult, strenuous and inefficient due to various reasons. The act of pouring from currently available containers with one opening comprises at least six phases: opening the cap, lifting the container, tilting the container (the actual pouring), tilting back the container, putting down the container , and closing the cap. During tilting and tilting back, the angle at which the container is tilted must be chosen carefully and accurately in order to avoid spillage and to control the flow rate. The tilting and tilting back must be repeated several times in order to be able to estimate the volume of the content that is already exempt. With every repetition of tilting and tilting back, the risk of spillage increases. Because tilting and tilting back, in particular, require minimal force and coordination in the upper limbs, some people are unable to cast properly. When pouring from currently available containers with one opening, the content is not exempted in a stable and even way, but in a series of "gulpen". This gulping destabilizes the container and causes splashing, making uniform pouring and avoiding spillage difficult.
    The use of a funnel (e.g., U.S. Patent No. 5787944 A) or a funnel attachment (e.g., U.S. Patent No. 6264072 B1) can reduce the risk of spillage, but has many disadvantages. Casting remains an extensive operation with at least six phases. The strenuous phases of tilting and tilting back remain necessary for checking the flow rate and estimating the volume of the already exempt content. Funnels do not eliminate gulping. The use of funnels is cumbersome, and they make casting more complex by adding an additional element to the operation. There is a cost and effort required to purchase a funnel. The use of a funnel requires cleaning after use, and the storage of a funnel requires a lot of space.
    The addition of an air flow channel directed to an aerated portion of the container can be a possible solution to the problem of gulping (e.g., patents US 500260 A, US 568921 A, US 577410 A, US 973616 A and US 3506167 A). Although a airflow channel creates a more stable and even flow, it has many disadvantages. Casting remains an extensive operation with at least six phases. The strenuous phases of tilting and tilting back remain necessary for checking the flow rate and estimating the volume of the already exempt content. Because the air flow channel does not form an integral part of the container, a separate production process is required for this part, which extends the general production process. Connecting the air flow channel to the container is technically difficult, and makes the general production process more complex. The aforementioned problems make the production of these inventions more expensive and less environmentally friendly compared to currently available containers. Another disadvantage is that, due to the attachment of an air flow channel, the opening through which content can be released is made smaller. A drawback that is particularly present with airflow channels with a small diameter is that a hissing noise can be heard during the pouring (air being sucked into the container). Adding an air flow channel to transparent containers can disrupt the design of the container, making it less attractive. The length of the air flow channel can influence various casting properties. Short air flow ducts (e.g. US Pat. Nos. 4,774,110 and 3,556,167 A) require less material for their production, and are therefore more environmentally friendly, but complete reversal of such container is not possible because no inflow of air is possible when the inner part of the airflow channel is submerged. Because short airflow channels must be attached to one side of the container, the tilting of such containers can only take place in one way, namely with the airflow channel at the top of the container. Compared to short airflow channels, long airflow channels require more production material, making them more expensive and less environmentally friendly. In comparison with short airflow channels, the addition of a long airflow channel in transparent containers can disrupt the design of the container more. This makes the container less attractive. For containers with a long air flow channel, the end of the container must be lifted sufficiently high so that the inner part of the air flow channel is connected to the aerated part of the container.
    There is a need for a container that allows precise control of flow, eliminates all of the aforementioned problems, has a simple mechanism of action, and can be produced cost-effectively.
    Summary of the invention
    A possible application of the proposed invention is a system (100) to release content consisting of a closable container (110) with a first opening (130) provided with a first controllable element (230) configured to repeatedly controllable the first opening (130), a second opening (170) provided with a second controllable element (270) configured to controllably limit the second opening (170) repeatedly, the first (230) and second (270) controllable elements are synchronized and configured for controllable control of the flow of content through said respective first (130) or second (170) openings.
    The first (230) and second (270) controllable elements may not be detachably connected to the closable container (110). The first controllable element (230) and the second controllable element (270) are controllably movable with respect to the respective first (130) and second (170) openings.
    The content release system (100) may further include a transfer element (210) connected to the first (230) and second (270) controllable elements and configured to make adjustments to the first (230) and second (270) ) synchronize adjustable elements.
    The first controllable element (230) and / or the second controllable element (270) can further be configured to hermetically repeatedly close the respective first opening (130) and / or second opening (170).
    The container (110) may further comprise a first threaded hollow cylindrical neck (132) with the first opening (130) disposed on a side wall thereof, and the container (110) may further comprise a second threaded hollow cylindrical neck (132) 172) wherein the second opening (170) is placed on a side wall thereof.
    The container (110) may further comprise a first threaded hollow cylindrical neck (132) with the first opening (130) disposed on its open top end thereof, and the container (110) may further comprise a second threaded hollow cylindrical neck (172) wherein the second opening (170) is disposed on its open top end.
    The container (110) may further comprise a first threaded hollow cylindrical neck (132) with the first opening (130) disposed on a side wall thereof, and the container (110) may further comprise a second threaded hollow cylindrical neck (132) 172) wherein the second opening (170) is placed on its open top end.
    The container (110) may further comprise a first threaded hollow cylindrical neck (132) with the first opening (130) disposed on its open top end thereof, and the container (110) may further comprise a second threaded hollow cylindrical neck (172) wherein the second opening (170) is placed on a side wall thereof. One of the first (132) or second (172) threaded hollow cylindrical necks can at least partly protrude out of the container (110) and the other threaded hollow cylindrical neck (132 and 172) can at least partly protrude inwards in the container (110), or both first (132) and second (172) threaded hollow cylindrical necks can at least partially protrude out of the container (110), or both first (132) and second (172) threaded provided hollow cylindrical necks can at least partially protrude into the container (110).
    The first (132) and / or second (172) threaded hollow cylindrical neck may have a thread on the internal or external surface.
    The first controllable element (230) and the second controllable element (270) can each include a threaded cylindrical closure configured to connect to the respective threaded hollow cylindrical necks (136 and 172), the synchronous rotation of the first controllable element (230) and the second controllable element (270) hermetically limits the respective first (130) and second (170) openings.
    The container (110) may further comprise a bypass (120) which is hermetically connected to the empty space (111) of the container, and which is connected on one side in the direction of the upper end (112) of the container wall, and is connected on the other side in the direction of the base end (114) of the container wall, the first opening (130) can be placed in the direction of the top end (112) of the bypass (120), and the second opening (170) ) may be positioned toward the base end (114) of the bypass (120).
    The container (110) may further comprise a first threaded hollow cylindrical neck (132) provided with a first opening (130) and a second threaded hollow cylindrical neck (172) provided with a second opening (170) ), the first (230) and second (270) controllable elements may each include a threaded cylindrical closure configured to connect to the respective threaded hollow cylindrical necks (132 and 172), a cylindrical side wall of each of the cylindrical closures may be provided with an opening (234 and 274) configured to enter into a hermetic connection with the first (130) and second (170) openings, wherein a synchronous rotation of the first controllable element (230) and the second controllable element (270) controllably hermetically occludes the respective openings (234 and 274), and thereby controllably the first (130) and second (170) on limited.
    The contents can be a liquid, and the second opening (170) can be an outlet opening for liquids, and the first opening (130) can be a ventilation opening.
    Legend Figures FIG. 1 is a drawing of a possible system of the invention for exempting content. FIG. 2 is a drawing of an example of a container of a system of the invention for releasing content. FIG. 3 is a drawing of an example of a first controllable element, a second controllable element, and a transmission element. FIG. 4 is a drawing of an example of a content release system where openings exist at the neck of the container, and wherein the first and second controllable elements are threaded closures. FIG. 5 is a cross-sectional view of the content release system in FIG. 5 in the closed state. FIG. 6 is a drawing of an example of a content release system in which the first controllable element, the second controllable element and the transfer element are placed in a bypass, and wherein the first and second controllable elements are threaded closures. FIG. 7 is a drawing of an example of a content release system where the first and second controllable elements are threaded closures, and there are openings on the first and second controllable elements. FIG. 8 is a drawing of an example of a content release system where the first and second controllable elements are threaded closures, and there are openings on the first and second controllable elements. FIG. 9 is a drawing of an example of a first controllable element, a second controllable element (which are threaded closures), and a transmission element, wherein there are openings on the first and second controllable elements. FIG. 10 is a drawing of an example of a content release system where the first and second controllable elements are hinged closures. FIG. 11 is a cross-sectional view of the content release system in FIG. 10 in the closed state. FIG. 12 is a drawing of an example of a content release system where the first and second controllable elements are sliding closures. FIG. 13 is a cross-sectional view of the content release system in FIG. 12 in the open state. FIG. 14 and FIG. 15 are drawings of examples of content release systems in which two containers are connected to each other. FIG. 16 is a drawing of an example of a content release system where the container is compartmentalized.
    FIG. 4, FIG. 7 and FIG. 8, the first controllable element, the second controllable element, and the transfer element are shown separately from the container to provide more clarity.
    Detailed description of the invention
    Before explaining the proposed system and method of the invention, it must be said that this invention is not limited to the particular systems, methods, or combinations thereof described in view of such systems, methods, and possible combinations thereof may vary. The terminology used is not intended to be limiting since the scope of the proposed invention can only be limited by the patent claims.
    The singular forms "a", "the" and "it" used may include both single and multiple references unless the context indicates otherwise.
    The terms "includes" and "include" are used as synonyms for "contains," "contain," "include," or "include." These terms are open and comprehensive, and do not exclude additional, unnamed members, elements or methods. The terms "includes" and "include" include the terms "consists of", "consists of", "consists of", "consists of", "consists of", "includes" and "includes" .
    When a number series with end points is mentioned, it includes all numbers and fractions that fall within the scope of the end points as well as the end points of the scope itself.
    When the terms "approximately", "approximately" or "approximately" refer to a measurable value such as a parameter, a quantity, a duration over time, and the like, this includes deviations of +/- 10% or less, with preferably +/- 5% or less, more preferably +/- 1% or less, and even more preferably +/- 0.1% or less of the stated value, insofar as such deviations are applicable to the invention. The value referred to as "approximately", "approximately" or "approximately" is preferably clearly specified.
    The terms "one or more" or "at least one" such as one or more members or at least one member or a group of members can refer to one of the mentioned members, to two or more of the mentioned members eg> 3, > 4,> 5,> 6 or> 7, or to all mentioned members.
    All references mentioned in the description are incorporated in their entirety by the reference. In particular, the knowledge derived from the references is included.
    Unless otherwise stated, all terms for describing the proposed invention, including the technical and scientific terms, have the broadest possible meaning of the word as understood by a person of ordinary skill in the art to which this invention belongs. In order to better understand the knowledge from the invention, descriptions of different terms are given.
    Various facets of the invention are described in more detail below.
    Each facet described can be combined with any other facet or facets unless otherwise stated. In particular, any preferred or advantageous feature may be combined with any other preferred or beneficial feature or features.
    Reference to "one embodiment" or "an embodiment" means that a particular feature, structure, or property described in connection with the embodiment is included in at least one embodiment of the proposed invention. Entries of "in one embodiment" or "in an embodiment" throughout this description do not necessarily refer to the same embodiment, although this is possible. Furthermore, certain characteristics, structures or properties can be combined by one skilled in the art in one or more embodiments, partly on the basis of this description. It is within the scope of the invention that combinations of features of embodiments with different features can be made by those skilled in the art. For example, any of the embodiments from appended patent claims can be used in any combination.
    In the description of the proposed invention, references are made to the accompanying drawings which form a part thereof, and which by way of explanation illustrate some possible embodiments of the invention. Reference numbers in brackets or in bold font associated with certain elements show the elements only by way of example, and are not intended to limit the boundaries of the respective elements. Other embodiments can be used, and structural or logical changes can be made based on the scope of the proposed invention. The detailed description below is therefore not limiting, the scope of the proposed invention is determined by the patent claims.
    The proposed invention relates to a system for exempting content. It can be used to exempt any content, such as any matter that can flow. The system for exempting a content comprises a lockable container. The closable container is provided with a first opening which is provided with a first controllable element that is configured to repeatedly controllably limit the first opening. The closable container is furthermore provided with a second opening which is provided with a second controllable element which is configured to repeatedly controllably limit the second opening. The first and second controllable elements are synchronized and configured for controllable control of the flow of matter that can flow through respective first and second openings. Synchronization can be achieved by means of a transfer element.
    The system for exempting content allows precise, simultaneous and synchronized control of the controllable elements, thus checking the corresponding container openings. When the invention is applied to a container from which content can be exempted, the use of a funnel is no longer necessary because the container opening can be positioned simply and precisely above the opening of the container. The pouring operation is simplified and the strenuous tilting and tilting back are no longer necessary, so that the container can remain upright. The system itself can accurately control the flow rate in all its diversity without the problem of gulping occurring. The simplicity of the design allows an economical and environmentally friendly mass production. The use is simple and there is no need for additional instructions for use. It creates a means to easily store and pour out content safely.
    The system for releasing content can be provided on a container, for example for the controlled release and storage of any matter that can flow into a home environment or work environment. The content exemption system may be integrated into other systems, for example in engines or machines, in catering systems, engineer systems, health care systems, agricultural systems, and in any other system where a controlled flow of matter that can flow is required.
    The content is any matter that can flow. The content can be, for example, a liquid, moisture, gel, gas or powder. It can be air. Preferably it is a liquid.
    The container is any container that is configured to hold a content. Typically, a container comprises one or more walls that limit the empty space in which the contents are held. For example, if the content is a liquid, the container wall may be made of a liquid-impermeable material such as polypropylene, polycarbonate, aluminum, and the like. The shape of the container can be any, for example, quadrangular (e.g., rectangular, square), cylindrical, spherical, and the like. A person skilled in the art can understand that the most suitable dimensions such as wall thickness and shape depend on the content and use. The container is sealable, preferably it is hermetically sealable to prevent the passage of liquids into or out of the container in a sealed state.
    The container can contain one or more additional elements including a neck, a by-pass, and a handle.
    The container is generally divided into a base, an upper end and one or more side walls. The upper end is generally directed upwards when content is exempted from the container. The base end is generally directed downwards when content is exempted from the container. The base end can be at least partially flat. The base end can provide a support surface through which the container can support stably on a flat surface. The base end can indicate the orientation of the container in an upright position. It is within the scope of the invention that the side wall can provide a stable support surface (see, for example, FIG. 6). The top end of the container can be provided with a handle. A side wall of the container can be provided with a handle (see for example FIG. 6).
    Each of the first and second openings connect the empty space of the container with the outside of the container. The openings are provided on the container walls, or in the neck of the container, or in another structure of the container (e.g. the bypass), and are included in and hermetically connected to the empty space of the container.
    A first opening can be single or can consist of multiple openings that function together as a first opening. Similarly, a second opening can be single or it can consist of multiple openings that function together as a second opening.
    The first opening can be placed at the top end. The second opening can be placed at the base end. Generally, a content can be exempted from an opening at the base end.
    The first or second opening can be placed on a side wall of the neck or on an open top end of the neck (see below a.u.b.). The first or second opening can be placed on a by-pass which is hermetically connected to the empty space of the container.
    It is possible that the first and second opening are provided in the side wall with one of the openings positioned in the direction of the upper end and one of the openings positioned in the direction of the base end (see for example FIG. 6).
    The first and second openings are configured to control the flow of content. The first opening can be a ventilation opening that allows the inflow of air. The second opening can be an outlet opening that allows the outflow of content. The container can be reversible whereby the functions of the first and second opening can be exchanged.
    The profile (outer shape) of the first or second opening can take any shape. For example square, rectangular (see for example FIG. 4 and FIG. 10), circular (see for example FIG. 7), partially circular, oval, triangular (see for example FIG. 12). The profile of the first and second opening can be the same or different. The size of the profile of the first and second opening can be the same or different.
    For example, the profile of the first opening can be larger than that of the second opening, or vice versa. One skilled in the art understands that the sizes of the respective first and second openings can be adjusted to change the flow rate of content from the container. One skilled in the art understands that there are several factors that can influence the optimum size and shape of the respective container openings. This includes the empty space of the container, properties of the content (eg viscosity in the case of liquids), and the desired control of the flow of content. One opening can be placed at the top end of the container, and one opening can be placed at the base end of the container. The geometric centers of the profile of the openings can be aligned; the central axes of the respective geometric centers can be aligned.
    The container can contain one or more necks. A neck has a hollow longitudinal body with an opening on both sides. The neck is generally cylindrical, but other shapes are also possible. By the side wall of the neck is meant the body of the hollow longitudinal structure. A neck has a base end on one side which is connected to the container wall and on the other side an upper end. The base end of the neck is open and in hermetic connection with the empty space of the container. The upper end of the neck can be provided with a connecting piece with which the neck can be hermetically connected with aids that can support the casting such as a spout, a flexible tube, a pipe, an extension piece, and the like.
    A neck can support pouring from a container, for example because it can be placed in the opening of a container. A neck can partially or completely protrude from the container, in particular from the container wall. A neck can partially or completely protrude into the container, in particular from the container wall. A neck can be placed on the base end of the container. A neck can be placed on the top end of the container. Two necks may be present with one neck placed on the top end and one neck placed on the base end. The central axis of the respective necks can be coaxial. The body of the neck can be made of the same material as the container wall.
    A container can include a neck at the top end that partially or fully protrudes outward from the container, and a neck at the base end that partially or fully protrudes inward from the container (see, for example, FIG. 4). A container can include a neck at the top end that partially or fully protrudes in from the container, and a neck at the base end that partially or fully protrudes out from the container (see, for example, FIG. 8). A container may include a neck at the top end that partially or fully protrudes outward from the container, and a neck at the base end that partially or fully protrudes outward from the container (see, for example, FIG. 7). A container can include a neck at the top end that partially or fully protrudes in from the container, and a neck at the base end that partially or fully protrudes from the container.
    A neck can be provided with a first or second opening. A first or second opening can be placed on the upper end of the neck. A first or second opening can be placed on the side wall of the neck. Where a first or second opening is provided on the side wall of the neck, the shape of this opening can be rectangular, the longer side of the rectangle being parallel to or perpendicular to the axis of the neck. The first or second opening can overlap the edge of the side wall of the neck. A first opening can be placed on a first neck, and a second opening can be placed on a second neck. Where a first or second opening is placed on the neck, there are not necessarily any other first or second openings on the container wall.
    A neck can form an attachment point for, for example, a first or second controllable element. A neck can be threaded on the internal or external wall. The screw thread allows the first or second adjustable element to repeatedly controllably limit the first or second opening, particularly when the first or second opening is provided on the side wall of the neck (see, for example, FIG. 2 and FIG. 4).
    A person skilled in the art understands that the characteristics of the thread such as, for example, diameter, pitch, and the number of revolutions can be selected in function of the required properties for releasing content, e.g. fine or coarse control of the flow.
    When the first and / or second adjustable element is a cap or a plug, a stop element can be provided on the wall of the neck to prevent the first and / or second adjustable element from being removed.
    The first or second adjustable element can be located outside the container, or it can be located in the empty space of the container. In the examples of FIG. 4, FIG. 7 and FIG. 8, the second controllable element (270) is located in the empty space of the container while the first controllable element (230) is outside the container.
    The container can contain one or more by-pass courses. A by-pass is a hollow member having a body with an empty space therein, one end being connected toward the upper end of the container, and the other end being connected toward the base end of the container. The by-pass is preferably connected at both ends to the side walls of the container. The empty space of the by-pass is hermetically connected to the empty space of the container. The empty space of the by-pass can receive a content, which can be of particular interest for liquids. The volume of the empty space of the by-pass is smaller than the volume of the empty space of the container. The volume of the empty space of the by-pass can be equal to or less than 0.25 of the volume of the empty space of the container.
    The first and second opening can be placed on the bypass (see, for example, FIG. 6). The first opening can be placed in the direction of the top end of the bypass, and the second opening can be placed in the direction of the base end of the bypass. The transfer element can be included in the empty space of the by-pass. The necks as described above may be provided on the by-pass instead of on the container. The basic end of the neck is then connected to the bypass. The first and second openings are then placed on the neck (e.g. on the side wall of the neck or on the upper end of the neck).
    The by-pass can be made partly or completely from a transparent or transparent material, so that it can be used to determine the level of the content. There may be markers that help determine the volume of the remaining content.
    The by-pass training can function as a handle.
    The by-pass can be removable from the container. This makes it possible to reuse, recycle, or to confirm another bypass that allows, for example, a faster or finer (slower) flow control. The body of the container can be provided with complementary connecting pieces that allow to attach an exchangeable bypass.
    The container can be made partly or completely from a transparent or transparent material, which makes it possible to determine the level of the content. Markers may be provided to help determine the volume of the remaining content. The transparent or transparent material offers a window through which the level of the content can be seen. The side wall, the wall of the upper end, the wall of the base end, and preferably one or more longitudinal strips in one or more of the aforementioned walls can be partly or completely transparent or transparent (see, for example, FIG. 6). The axis of the longitudinal strip can be parallel to the axis of the transfer element. The axis of the longitudinal strip can be perpendicular to the axis of the transfer element.
    The system for exempting content from the invention can contain one or more containers each having a first and second opening, and each having a first and second controllable element, with movements of the first controllable elements being synchronized with each other and the movements of the first controllable elements are synchronized with the movements of the second controllable elements for controllable control of the flow of content through said respective first and second openings. As soon as two or more containers exist, they can have a different content. Two or more containers can be rigidly connected to each other.
    Two or more containers can be connected to each other such that the respective transfer elements are mutually connected and synchronized (see, for example, FIG. 14).
    Two or more containers can be connected to each other in such a way that the openings through which they are connected contain an intermediate controllable element (see for example FIG. 15). An intermediate controllable element is configured to repeatedly controllably limit the container openings through which they are connected. By "limiting" is meant limiting flow through the openings. The intermediate controllable element can be synchronized with the first and second controllable elements. In other words, movements of the intermediate controllable element can be synchronized with the movements of the first and second controllable elements. The intermediate controllable element can be connected to the same transmission element as the first and second controllable element. The intermediate adjustable element may have the same or different properties or characteristics as the first and second adjustable element as described below (e.g., it may be a threaded closure, it may be a slidable occluding body, it may be an occluding body with hinge , and such). The use of an intermediate adjustable element makes it possible to mix the contents of different containers.
    A container of the content release system of the invention can contain two or more compartments, each with a first and second controllable element, the movements of the first controllable elements being synchronized with each other, and the movements of the second controllable elements are synchronized with each other, and the movements of the first controllable elements are synchronized with the movements of the second controllable elements for controllable control of the flow of content through said respective first and second openings. When two or more compartments exist, they may be hermetically sealed from each other. The compartments can have different contents.
    There may be an intermediate passage between the two compartments that is provided with an intermediate controllable element (see, for example, FIG. 16). An intermediate controllable element is configured to repeatedly controllably limit the opening or openings of the intermediate passage. By "limiting" is meant limiting flow through the intermediate passage. The intermediate controllable element can be synchronized with the first and second controllable elements. In other words, movements of the intermediate controllable element can be synchronized with movements of the first and second controllable elements. The intermediate controllable element can be connected to the same transmission element as the first and second controllable element. The intermediate adjustable element may have the same or different properties or characteristics as the first and second adjustable element as described below (e.g., it may be a threaded closure, it may be a slidable occluding body, it may be an occluding body with hinge , and such). The presence of an intermediate passage and an intermediate controllable element allows mixing of the contents of different compartments.
    A first controllable element is configured to controllably limit the first opening repeatedly. The term "repeatedly" in repeatedly controllable restriction means that the element can restrict the opening more than once, preferably several times, and can remove this restriction. The term “controllable” in repeatedly controllable restriction means that the degree of restriction is adjustable or quantitative, for example, the opening can be limited to 10%, 20%, 80%. By "limiting" is meant limiting flow through an opening. For example, it may refer to limiting the flow of content, or the influx of air through an opening. In particular, it may refer to limiting the inflow of air through the first opening and the outflow of liquid through the second opening.
    The first controllable element is typically an occluding means that is configured to controllably occlude the first opening. The second controllable element is typically an occluding means that is configured to controllably occlude the second opening. Typically, the first or second controllable element has a contiguous connection to the container wall and can be moved by translation or rotation to occlude the first or second opening in a controllable manner.
    The first and / or second controllable element are furthermore configured to hermetically repeatedly seal the respective first and / or second opening hermetically. When the first and / or second opening is hermetically sealed by the respective controllable element, no content can flow through the opening. In such a state, a content can be stored in the container.
    The first and second controllable element are controllably displaceable (e.g. rotatable and / or displaceable) relative to the respective first and second opening. The extent of mobility can be limited. For example, an element can be provided on the first controllable element, and / or second controllable element and / or the transmission element which limits the mobility of the controllable elements.
    The first and / or second adjustable elements cannot be detachably connected to the closable container. For example, a stop element can be provided on a neck of the container to prevent removal of the first and / or second adjustable elements.
    Where the container is provided with a threaded neck on which the first opening is placed, the first adjustable element may be threaded closure such as, for example, a threaded plug or plug, which is configured to connect to the threaded neck to controllably limit the first opening on the basis of tightening or loosening the threaded closure (see, for example, FIG. 4, FIG. 5, FIG. 7 and FIG. 8). By this operation, the first adjustable element is displaced relative to the neck and the opening on the neck, and can completely or partially occlude the first opening by turning the first adjustable element up or down.
    Where the neck of the container with a first opening is threaded on the outer side, the threaded closure can be a threaded cap which consists of a closed end and a cylindrical wall extending therefrom provided with a complementary internal thread (see, for example, FIG. 7, first controllable element 230). Where the neck of the container is threaded on the inner side, the threaded closure can be a threaded plug consisting of a closed end and a cylindrical wall that starts with a complementary external thread.
    The first opening can be provided on a side wall of the neck. In such a case, the threaded closure may be a cylindrical closure having a closed end and a side wall extending therefrom and being threaded, the side wall being intact (i.e. having no openings), see, for example, FIG. 4. The threaded closure may be, for example, a threaded cap (i.e., the thread is provided on the inner side of the cylindrical wall).
    The first opening can be provided on the upper end of the neck, and it is possible that the neck has no other openings in its side wall. In such a case, the threaded closure may be a cylindrical closure having a closed end with a cylindrical side wall extending therefrom, the side wall having an opening, see for example FIG. 7 and FIG. 8. The threaded closure may be, for example, a threaded cap (i.e. the thread is provided on the inner side of the cylindrical wall, see, for example, FIG. 7, first controllable element 203). The threaded closure may be, for example, a threaded plug (i.e. the thread is provided on the outer side of the cylindrical wall, see, for example, FIG. 8).
    Where the container is provided with a threaded neck on which the second opening is placed, the second adjustable element can be a threaded closure such as, for example, a threaded plug or plug, which is configured to connect to the threaded one. neck to controllably limit the second opening based on tightening or loosening the threaded closure (see, for example, FIG. 4, FIG. 5, FIG. 7 and FIG. 8). By this operation, the second adjustable element is displaced relative to the neck and the opening on the neck, and can completely or partially occlude the second opening by turning the second adjustable element up or down.
    Where the neck of the container with a second opening is threaded on the outer side, the threaded closure can be a threaded cap which consists of a closed end and a cylindrical wall extending therefrom provided with a complementary internal thread . Where the neck of the container is threaded on the inner side, the threaded closure may be a threaded plug consisting of a closed end and a cylindrical wall extending therefrom provided with a complementary external thread (see, for example, FIG 7, second adjustable element 270).
    The second opening can be provided on a side wall of the neck. In such a case, the threaded closure may be a cylindrical closure having a closed end and a side wall extending therefrom and being threaded, the side wall being intact (i.e. having no openings), see, for example, FIG. 4. The threaded closure may be, for example, a threaded cap (i.e., the thread is provided on the inner side of the cylindrical wall).
    The second opening can be provided on the upper end of the neck, and it is possible that the neck has no other openings in its side wall. In such a case, the threaded closure may be a cylindrical closure having a closed end with a cylindrical side wall extending therefrom, the side wall having an opening, see for example FIG. 7 and FIG. 8. The threaded closure may be, for example, a threaded cap (i.e., the thread is provided on the inner side of the cylindrical wall). The threaded closure can be, for example, a threaded plug (i.e. the thread is provided on the outer side of the cylindrical wall, see, for example, FIG. 7 and FIG. 8, second controllable element 270).
    The profile (outer shape) of the opening of the first or second controllable element can take any shape, for example square, rectangular (see for example FIG. 7), circular, partly circular, oval, triangular (see for example FIG. 12 ). The profile of the opening the first and second adjustable element can be the same or different. The size of the profile of the opening of the first and second adjustable element can be the same or different. For example, the profile of the opening of the first adjustable element can be larger than that of the second opening, or vice versa. One skilled in the art understands that the sizes of the respective openings can be adjusted to change the flow rate of content from the container.
    A person skilled in the art understands that there are various factors that can influence the optimum size and shape of the respective openings. This includes the empty space of the container, properties of the content (eg viscosity in the case of liquids) and the desired control of the flow of content.
    The first and second adjustable element closures are preferably provided with screw thread. A suitable seal can be provided to prevent the flow of contents or air along the thread when the closure is partially open.
    A hermetic closure can also be obtained by means of a sealing edge and / or one or more sealing rings. A sealing ring or edge on the first and / or second adjustable element can cooperate with the container wall or a groove on the container wall. Alternatively or additionally, a dinging ring may be provided on the container wall that cooperates with an edge or groove on the first or second controllable element.
    A person skilled in the art understands that the characteristics of the thread (such as for example diameter, pitch, and the number of revolutions) the displacements / turning of the adjustable element, required force, degree of stability, degree of control of the flow, compatibility with the content, which may, to a certain extent, depend on the final application and content of the system to exempt content, and he understands how to properly configure the content exemption system.
    The first adjustable element can be an occluding body that is provided with a hinge. The second adjustable element can be an occluding body that is provided with a hinge. The first and second controllable elements are preferably occluding bodies which are provided with a hinge.
    The occluding body with a hinge can be an occluding closure for the respective first or second opening, and can be connected by means of a hinge to the container wall. The axis of rotation of the hinge can be parallel to an outer wall of the container. The occluding body is configured to controllably occlude the respective first or second opening (see, for example, FIG. 10). The occluding body can have a rectangular external shape. A suitable seal can be provided to prevent the flow of contents or air through the opening when the closure is closed.
    One skilled in the art understands that the type of occluding body provided with a hinge (e.g., thickness, size, material) has the required force, degree of stability, degree of flow control, compatibility with the content, which depends to a certain extent on the final influence the application and content of the system to exempt content, and understand how to properly configure the system for exempting content.
    The first adjustable element can be a slidable occluding body. The second adjustable element can be a slidable occluding body. Preferably, the first and second controllable elements are slidable occluding bodies.
    Typically, the slidable occluding body is a flat plate that can interact with a flat surface of the container wall. The slidable occluding body can be provided on the inside or outside of the container. The slidable occluding body can be rotatably connected to the container wall and configured to slidably and controlably occlude the opening by turning (see, for example, FIG. 12). The slidable occluding body may have an occluding body with an opening that can be adjustably aligned with the respective first or second opening. The slidable occluding body may have a circular external shape. A suitable seal can be provided to prevent the flow of contents or air between the slidable occluding body and the container wall.
    One skilled in the art understands that the type of slidable occluding body (e.g., thickness, diameter, size of the aperture, material) has the required force, degree of stability, degree of flow control, compatibility with the content, which to some extent depends on can influence the final application and content of the system to exempt content, and he understands how to properly configure the content exemption system.
    The first and second adjustable elements are synchronized. Movement of one of the first or second adjustable elements is accompanied by a proportional adjustment or movement of the other adjustable element. The terms "adaptation" and "movement" are used interchangeably, and refer to a movement of a first or second controllable element relative to a first or second opening. The movement can be of the same order of magnitude (in the case of a direct connection between the first and a second controllable element) or of a different magnitude of order (in the case of a mechanical leverage action between the first and second controllable element). The movement can be a displacement and / or rotation.
    The synchronization of movements is achieved by means of a transmission element which is connected to the first and second controllable element, and which is configured to synchronize adjustments of the first and second controllable element. The transmission element can be a rigid longitudinal element that is in rigid communication with the first and second controllable elements. In particular, each of the ends of the rigid longitudinal element may be in rigid communication with the first and second controllable element, respectively. Such a transfer element is suitable when the synchronized movement is a rotation, in particular when the axis of rotation passes through the empty space of the container. In particular, such a transfer element can be suitable when the first and second adjustable element are each threaded closures.
    The transmission element may be a rigid longitudinal element that is connected to the first and second controllable elements with a hinge (rotatably); such a transfer element is suitable when the first and second controllable elements are closures that are hinged to the container wall.
    The transmission element may contain one or more additional components that effect a mechanical leverage. This mechanical leverage refers to a reinforcement or weakening of the movement of the first or second controllable element to the other controllable element. For example, with a mechanical leverage of 1: 2, a displacement of 1 distance unit of the first controllable element can result in a displacement of 2 distance units of the second controllable element. A mechanical leverage action can be achieved by the known means, such as, for example, a lever, a coupling, a pulley, and the like.
    The first and second adjustable elements are moved by means of force. An adaptation of the first controllable element changes the restriction of the first opening and also synchronously changes the restriction of the second opening. Where a liquid is released, the inflow of air through the first opening is controlled by the degree of limitation of the first opening which can be adjusted. At the same time, the degree of outflow of content is adjusted based on adjustments made to the first opening. Consequently, a reduction in the restriction of the first opening (i.e., an increase in flow) is accompanied by a synchronous reduction in the restriction of the second opening. The control of the flow through both openings not only allows an excellent control of the flow of content, but it also prevents gulping.
    The filling of a container can be carried out in various ways. For example, a lockable opening can be provided on an adjustable element. A lockable opening can be provided on the container. The container can be filled through one or more openings by tilting them in such a way that the openings through which can be filled are above the level of the contents. After the container has been filled and the openings closed, the container can be moved freely. FIG. 1 to FIG. 3 illustrate some possible examples of embodiments of the proposed invention. The top end (112) of the container comprises an outwardly protruding (first) neck (132); the first opening (130) is located at the height of the side wall of a neck (FIG. 1). The base end (114) of the container is provided with an inward (second) neck (172); the second opening (170) is located at the height of the side wall of a neck. The first (130) and second (170) openings each have a rectangular shape. The first (130) and second (170) openings each have four sides, i.e. the openings are delimited by the respective side walls of the neck. The first adjustable element (230) is a cylindrical closure that is configured to connect to the first neck (132). The second adjustable element (270) is a cylindrical closure that is configured to connect to the second neck (172). Both the first (230) and second (270) controllable elements are rigidly connected to a rod-shaped transmission element (210). The cylindrical side walls of the first and second controllable elements are intact (i.e., they have no opening). The first adjustable element is provided with a handle (236) for manually controlling the first adjustable element. Moving the first adjustable element (230) upwardly and gradually exhibits the first and second openings, thereby reducing the limitation of the respective first and second openings. FIG. 4 illustrates an example of a system (100) of the invention for releasing a content. For greater clarity, the container (110) is shown separately from the first (230) and second (270) controllable elements and the rod-shaped transfer element (210). The top end (112) of the container comprises an outwardly protruding (first) neck (132); the first opening (130) is located at the height of the side wall of the neck. The base end (114) of the container is provided with an inward (second) neck (172); the second opening (170) is located at the height of the side wall of the neck. The first neck (132) on the upper end of the container is threaded (134) on the outer side. The second neck (172) on the base end (114) of the container is also threaded (174) on the outer side. The first (130) and second (170) openings each have four sides, i.e. the openings are delimited by the respective side walls of the neck.
    The first adjustable element (230) is a cylindrical closure that is provided with a thread on the internal side that can connect to the thread (134) of the first neck (132). The second adjustable element (270) is a cylindrical closure that is provided with a thread (272) on the internal side that can connect to the thread (174) of the second neck (172). Both the first (230) and second (270) controllable elements are rigidly connected to a rod-shaped transmission element (210). The cylindrical side walls of the first and second controllable elements are intact, i.e. they have no opening. The first adjustable element is provided with a handle (236) for manually controlling the first adjustable element (230). The handle (236) is provided with serrations (238) to facilitate turning. Turning the first controllable element (230) counterclockwise directly and gradually exhibits the first and second openings, thereby reducing the limitation of the respective first and second openings. FIG. 5 is a cross-sectional view of the system (100) for releasing content in FIG. 4 in a (hermetically) closed state thanks to the first and second adjustable elements. FIG. 6 illustrates another example of a system (100) of the invention for releasing content wherein the container (110) comprises a bypass (120). The bypass (120) is connected to the side wall of the container at each end. The container is stable on a side wall. The top end (112) and base end (114) of the container assume their original orientation when the container is tilted for casting. The portion of the bypass (120) that faces the upper end of the container (112) includes a threaded (first) neck (132) with a first opening. The first adjustable element (230) - an occluding body or threaded closure - has a connection to the threaded first neck (132). The portion of the bypass (120) that faces the base end (114) of the container includes a threaded (second) neck (172) with a second opening. The second adjustable element (270) - an occluding body or threaded closure - has a connection to the threaded second neck (172). The transfer element (210) connected to the respective controllable elements (230 and 270) is placed in the empty space of the bypass (120). The top end (112) of the container wall has a transparent strip (116) that allows to determine the level of the content when the container rests on a side wall. The side wall of the container has a transparent strip (118) that allows to determine the level of content when the container rests on the base end or when it is tilted for pouring. FIG. 7 illustrates an example of a system (100) of the invention for releasing content. For greater clarity, the container (110) is shown separately from the first (230) and second (270) controllable elements and the rod-shaped transfer element (210). The top end (112) of the container includes a (first) neck (132) with no side openings protruding outward; the first opening (130) is provided on the upper end of the first neck. The side wall of the first neck is intact (i.e., it has no openings). The base end (114) of the container is provided with a (second) neck (172) even without side openings protruding outwards; the second opening (170) is provided on the upper end of the second neck. The first neck (132) on the top end (112) of the container is provided with screw thread (134) on the outside. The second neck (172) on the base end (114) of the container is threaded (174) on the inside. The first adjustable element (230) is a cylindrical closure and is provided on the inside with a screw thread which connects to the external screw thread (134) of the first neck (132). The second adjustable element (270) is a cylindrical closure and is provided on the outside with a screw thread (272) which connects to the internal screw thread (174) of the second neck (132). Both the first (230) and second (270) controllable elements are rigidly connected to a rod-shaped transmission element (210).
    There are two openings (234) on the cylindrical wall of the first adjustable element (230) and two openings (274) on the cylindrical side wall of the second adjustable element (270); the openings have a rectangular shape. The openings have four sides, i.e. the openings are delimited by the respective cylindrical side walls. A handle (236) is provided on the first controllable element for manually controlling the first controllable element. The handle (236) is provided with serrations (238) to facilitate turning. Turning the first controllable element (230) counter-clockwise gradually exhibits the openings disposed on the first and second controllable elements, which in turn reduce the limitation of the respective first and second openings. FIG. 8 illustrates another example of a system (100) of the invention for releasing content. For greater clarity, the container (110) is shown separately from the first (230) and second (270) controllable elements and the rod-shaped transfer element (210). The top end (112) of the container (110) includes a (first) neck (132) with no side openings protruding inwards; the first opening (130) is provided on the upper end of the first neck. The side wall of the first neck is intact (i.e., it has no openings). The base end (114) of the container is provided with a (second) neck (172) even without side openings protruding outwards; the second opening (170) is provided on the upper end of the second neck. Both the first (132) and second (172) necks are threaded (134 and 174) on the inside. The first adjustable element (230) is a cylindrical closure and is provided on the outside with a screw thread which connects to the internal screw thread (134) of the first neck (132), similarly, the second adjustable element (270 ) a cylindrical closure provided on the outside with a screw thread (272) which connects to the internal screw thread (174) of the second neck (132), both the first (230) and second (270) adjustable elements are rigid connected to a rod-shaped transmission element (210).
    There are two openings (234) on the cylindrical wall of the first adjustable element (230), and two openings (274) on the cylindrical wall of the second adjustable element (270), and they have a rectangular shape. The openings have three sides; i.e. they are open on one side. A handle (236) is provided on the first controllable element for manually controlling the first controllable element. The handle (236) is provided with serrations (238) to facilitate turning. FIG. 9 shows an example of first and second controllable elements connected to a rod-shaped transfer element separate from a container. The openings (234 and 274) of the respective first (230) and second (270) controllable elements have four sides, i.e. the openings are delimited by the respective cylindrical side walls. FIG. 10 and FIG. 11 illustrate another example of a system (100) of the invention for releasing content. The top end (112) of the container is substantially flat and includes a first opening (130). The base end (114) of the container is flat in a similar manner and is provided with a second opening (170). The openings (130 and 170) each have a rectangular shape. The first adjustable element (230) comprises a closure provided with a hinge, and is connected via a hinge (239) to the upper end (112) of the container. The second adjustable element (270) is a closure provided with a hinge, and is connected via a hinge (279) to the base end (114) of the container. Both the first (230) and second (270) controllable elements are rigidly connected to a rod-shaped transmission element (210).
    The first (130) and second (170) openings can be gradually opened by manipulations of the first (230) and / or second (270) controllable elements that have hinged closures and whose movements are synchronized. The closures provided with a hinge can rotate in both directions relative to the container (e.g. externally or internally). By moving one of the hinged closures in any direction (externally or internally), the other closure provided with a hinge will move in a similar manner. If the content of the container is a liquid, and the first opening (130) faces upwards, opening the first adjustable element (230) will simultaneously open the second adjustable element (270), simultaneously liquid from the second opening (170) flows, while the first opening (130) allows air to enter the container. This synchronous exchange of content eliminates gulping. One or more of the first controllable element (230), second controllable element (270), the first (130) and second (170) openings may be provided with additional components (e.g., a spring) that are configured around the first controllable element (230) and the second adjustable element (270) in a closed or open state. Springing back in a closed or open state can further simplify the casting operation (semi-automatic closing). FIG. 12 and FIG. 13 illustrate another example of a system (100) of the invention for releasing content. The top end (112) of the container is substantially flat and includes the first opening (130). The base end (114) of the container is flat in a similar manner and includes the second opening (170). The openings (130 and 170) each have a triangular shape. The first adjustable element (230) is a slidable closure connected via a rotatable connector at the top end of the container. The second adjustable element (270) is a slidable closure connected via a rotatable connector at the base end (114) of the container. The first (230) and second (270) controllable elements are disk-shaped and provided with an opening (234 and 274) that can at least partially coincide with the openings (130 and 170) on the container. The first controllable element (230) is connected to the second controllable element (270) by means of a rod-shaped transmission element (210) which transmits a torque.
    The openings (130 and 170) of the container can be gradually exhibited by manipulation of the first or second adjustable element (230 and 270). When the openings (234 and 274) of the first (230) and second (270) controllable elements coincide with the first (130) or second (170) container opening, content may flow. Turning away the first (230) or second (270) controllable element from the container openings (130 and 170) stops the flow. If the contents of the container is a liquid, and the opening (234) of the first controllable element (230) faces upwards, it will coincide with the openings (234 and 274) of the first (230) and second ( 270) controllable elements with respective container openings (130 and 170) simultaneously allow liquid to flow out of the second opening (170) while air enters the container through the first opening (130). This synchronous exchange of content eliminates gulping. FIG. 14 is an example of a system of the invention to exempt content that has two containers (110 "and 110"). Each container (110 "and 110") has a first opening provided with a first adjustable element (230 "and 230") and a second opening provided with a second adjustable element (270 "and 270"). A rod-shaped transmission element (210 "and 210") connects each first controllable element (230 "and 230") to the second controllable element (270 "and 270") and transmits forces. The respective rod-shaped transmission elements (210 "and 210") are interconnected by an intermediate transmission element (212) rigidly connected to the respective transmission elements (210 "and 210"). Movements of the first adjustable element (230 ') of the upper container (110') are synchronized with the movements of the second adjustable element (270 ') of the upper container (110') by means of an upper rod-shaped transfer element (210 ') ). Movements of the first adjustable element (230 ") of the lower container (110") are synchronized with the movements of the second adjustable element (270 ") of the lower container (110") by means of a lower rod-shaped transfer element (210 " ). Movements of the first adjustable element (230 ') of the upper container (110') are synchronized with the movements of the first adjustable element (230 ') and the second adjustable element (270 ") of the lower container (110") by means of an intermediate rod-shaped transmission element (212). FIG. 15 is an example of a system of the invention to exempt content that has two containers (110 "and 110"). Each container (110 "and 110") has a first and second opening. The two containers (110 "and 110") are each hermetically isolated but are also hermetically connected to each other through an intermediate passage. The first opening of the first container (110 ") is provided with a first controllable element (230) and a second opening of the second container (110") is provided with a second controllable element (270). A rod-shaped transmission element (210) connects the first controllable element (230) to the second controllable element (270) and transmits forces. The intermediate passage is provided with an intermediate controllable element (290) connected to the transmission element (210). Movements of the intermediate controllable element (290) are synchronized with the movements of the first (230) and second (207) controllable elements. FIG. 16 is an example of a system (100) of the invention for releasing content. The container (110) is provided with two compartments (111 "and 111") that are each hermetically insulated but also hermetically connected to each other through an intermediate passage. The first opening is provided with a first controllable element (230) and a second opening is provided with a second controllable element (270). A rod-shaped transmission element (210) connects the first controllable element (230) to the second controllable element (270) and transmits forces. The intermediate passage is provided with an intermediate controllable element (290) connected to the transmission element (210). Movements of the intermediate controllable element (290) are synchronized with the movements of the first (230) and second (207) controllable elements.
    The proposed system for exempting content offers an opportunity to easily save and pour out content. It allows an accurate transfer of content without spilling. The operation of casting is simplified and the strenuous tilting and tilting back that is necessary with currently available containers are eliminated. It allows to control several openings, and it can therefore create a ventilation opening simultaneously for containers while opening the outlet opening. This synchronous opening of openings eliminates gulping when pouring liquids. The simplicity of design allows easy application for containers, and an economical and environmentally friendly mass production is possible with the available techniques.
    With the skills of a person skilled in the art, the invention can include variations including but not limited to number, size, material, shape, color, placement and placement relative to other parts of the invention of all parts of the invention including but not limited to the container , the container opening, the neck, the thread of the neck, the adjustable element, the thread of the adjustable element, the transmission element, the handle of the closure, the opening of the adjustable element, the handle of the container, the by-pass, the level indicator.
    Embodiments of the invention may have additional parts or features including but not limited to a semi-automatic closing mechanism that can be operated by pressure of one or more parts of a container against one or more parts of an embodiment of the invention, a semi-automatic closing mechanism that can be operated by manipulation of one or more controllable elements, an automatic closing mechanism that closes when the container is filled, an additional opening which can serve, among other things, for refilling the container, an additional closure on top of one or more closures of the invention which inter alia can be used for refilling the container. Any opening of an embodiment of the container can function as an inlet or outlet, any controllable element can be driven to control another controllable element.
    Although for the sake of simplicity mainly containers having two openings and two controllable elements have been described, a container may be provided with two or more openings and two or more controllable elements and more than one transfer element.
    权利要求:
    Claims (15)
    [1]
    Conclusions
    A system (100) for releasing content comprising: - a closable container (110) having a first opening (130) provided with a first adjustable element (230) configured to repeatedly control the first opening (130) ), a second opening (170) provided with a second controllable element (270) configured to controllably limit the second opening (170) repeatedly, wherein the first (230) and second (270) controllable elements are synchronized and configured are for controllable control of the flow of content through said respective first (130) or second (170) openings.
    [2]
    A system (100) for releasing content according to patent claim 1, wherein the first (230) and second (270) controllable elements are not detachably connected to the closable container (110).
    [3]
    A system (100) to release content according to any of the aforementioned patent claims, wherein the first controllable element (230) and the second controllable element (270) are controllably movable relative to the respective first (130) and second (170) opening.
    [4]
    A system (100) for releasing content according to any of the aforementioned patent claims, which also comprises a transfer element (210) connected to the first (230) and second (270) controllable elements and configured to synchronize adjustments to the first (230) and second (270) adjustable elements.
    [5]
    A system (100) for releasing content according to any of the aforementioned patent claims, wherein the first controllable element (230) and / or the second controllable element (270) are also configured to hermetically repeat the respective first opening (130) and / or second opening (170).
    [6]
    A system (100) for releasing content according to any of the aforementioned patent claims, wherein: - the container (110) further comprises a first hollow cylindrical neck (132) which is threaded and wherein the first opening (130) is placed on a side wall thereof, and - the container (110) further comprises a second hollow cylindrical neck (172) which is threaded and wherein the second opening (170) is placed on a side wall thereof.
    [7]
    A system (100) for releasing content according to any of the claims 1 to 5, wherein: - the container (110) further comprises a first hollow cylindrical neck (132) which is threaded and wherein the first opening (130) is placed on its open top end, and - the container (110) further comprises a second hollow cylindrical neck (172) which is threaded and wherein the second opening (170) is placed on the open top end of this.
    [8]
    A system (100) for releasing content according to any of the claims 1 to 5, wherein: - the container (110) further comprises a first hollow cylindrical neck (132) which is threaded and wherein the first opening (130) is placed on a side wall thereof, and - the container (110) further comprises a second hollow cylindrical neck (172) which is threaded and wherein the second opening (170) is placed on the open top end of this.
    [9]
    A system (100) for releasing content according to any of the claims 1 to 5, wherein: - the container (110) further comprises a first hollow cylindrical neck (132) which is threaded and wherein the first opening (130) is placed on its open top end, and - the container (110) further comprises a second hollow cylindrical neck (172) which is threaded and wherein the second opening (170) is placed on a side wall of this.
    [10]
    A system (100) for releasing content according to patent claims 6 to 9, wherein: - one of the first (132) or second (172) hollow cylindrical necks provided with screw thread protrudes at least partially out of the container ( 110) and the other hollow cylindrical neck (132 and 172) with screw thread protrudes at least partly inwards into the container (110), or - both first (132) and second (172) hollow cylindrical necks with screw thread at least partly go outside bulging the container (110), or - both first (132) and second (172) hollow cylindrical necks with screw threads at least partially protrude into the container (110).
    [11]
    A system (100) for releasing content according to patent claims 6 to 10, wherein the first (132) and / or second (172) threaded hollow cylindrical neck is threaded on the inner or outer surface .
    [12]
    A system (100) for releasing content according to patent claims 6 to 11, wherein the first controllable element (230) and the second controllable element (270) each comprise a threaded cylindrical closure configured for connection engage with the respective threaded hollow cylindrical necks (136 and 172), the synchronous rotation of the first controllable element (230) and the second controllable element (270) having the respective first (130) and second (170) openings hermetically limited.
    [13]
    A system (100) for releasing content according to any of the claims 1 to 5, wherein: - the container (110) comprises a bypass (120) which is hermetically connected to the void space ( 111) of the container and which is connected on one side in the direction of the top end (112) of the container wall, and on the other side is connected in the direction of the base end (114) of the container wall, - the first opening ( 130) is disposed toward the top end (112) of the bypass (120), and - the second opening (170) is positioned toward the base end (114) of the bypass (120).
    [14]
    A system (100) for releasing content according to any of the claims 1 to 5, wherein: - the container (110) further comprises a first threaded hollow cylindrical neck (132) with a first opening (130), and a second threaded hollow cylindrical neck (172) having a second opening (170), - the first (230) and second (270) adjustable elements each comprise a threaded cylindrical closure configured to form a to connect to the respective threaded hollow cylindrical necks (132 and 172), wherein a cylindrical side wall of each of the cylindrical closures is provided with an opening (234 and 274) configured to make a hermetic connection to the first (130) and second (170) openings, - wherein a synchronous rotation of the first adjustable element (230) and the second adjustable element (270) can be adjusted hermetically the respective openings (234 and 274) occludes, and thereby controlably limits the first (130) and second (170) openings.
    [15]
    A system (100) for releasing content according to any of the aforementioned patent claims, wherein the content is a liquid, and the second opening (170) is an outlet opening for liquids, and the first opening (130) a ventilation opening.
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    同族专利:
    公开号 | 公开日
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US6045013A|1998-10-07|2000-04-04|Yang; Ming-Te|Container containing liquid or the like therein|
    US6702160B1|2003-03-31|2004-03-09|H Russell Griffith|No spill container|
    法律状态:
    2019-06-12| FG| Patent granted|Effective date: 20160906 |
    2019-06-12| MM| Lapsed because of non-payment of the annual fee|Effective date: 20180930 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP15184447|2015-09-09|
    EP15184447.9|2015-09-09|PCT/EP2016/070765| WO2017042105A1|2015-09-09|2016-09-02|Interconnected flow control mechanism|
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