• 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:
    A heterogeneous content mixture container comprising a first container (10) comprising a storage space (12) and a coupling space (14); a second container (20) coupled to the container (10) and including an inlet port (22) and a coupling portion (24); a first evacuation unit (30) in the container (10) for evacuating contents; a second evacuation unit (40) in the container (20) for evacuating contents; and a push button (50) for operating the exhaust units (30, 40) and including exhaust passages (52a, 52b) and outlets (54a, 54b) connected to the exhaust units (30 , 40), the coupling space (14) and the coupling portion diverging to one side from a center between the containers (10, 20), and the second drain being connected to the drain passage (52b) when the coupling portion is screwed onto a lower portion of the coupling space. Figure for abstract: Fig. 2
    公开号:FR3095577A1
    申请号:FR2004255
    申请日:2020-04-29
    公开日:2020-11-06
    发明作者:Do Hoon LEE
    申请人:Pum Tech Korea Co Ltd;
    IPC主号:
    专利说明:

    [0001] context
    [0002] The present invention relates to a heterogeneous content mixing container, and more particularly, a heterogeneous content mixing container in which a coupling portion and a second evacuation unit deviate to a side from the center of a second container , are screw-coupled to a lower portion of a first container, and the installation sizes and heights of the first and second drain units are different from each other, so that the first and second containers are easily coupled so to prevent contents from being contaminated and heterogeneous contents are simultaneously discharged according to a predetermined mixing ratio to improve convenience of use and cost-effectiveness.
    [0003] In general, there are many cases in which two or more heterogeneous contents are mixed and used in order to enhance the effectiveness or effect of cosmetics or remedies contained in a container.
    [0004] However, when the contents to be mixed for use are distributed and stored after being mixed and contained together in a single container in advance, a chemical reaction occurs in the container, so that the contents solidify or precipitate, resulting in improper drainage or discoloration or alteration of contents.
    [0005] For this reason, according to the related art, a concept has been proposed in which, after the contents having different components are contained in different containers, when in use, the user discharges the contents and mixes the discharged contents directly . Alternatively, there is a concept in which the heterogeneous contents are contained in separate containers, and in use, the contents are mixed in a separate container after opening the inlets of two containers. Such designs have the disadvantage of expecting the user to mix the contents in separate containers for use, risk of loss, and poor transportability.
    [0006] Accordingly, a heterogeneous content mixing container has recently been developed in which heterogeneous contents are contained in a single container while being separated, and the contents are mixed for use by user manipulation as required.
    [0007] The related art discloses a heterogeneous content mixing container in Korean Patent Registered No. 10-1923306, where an inner container is inserted and installed in an outer container, one of a set of pumps installed in the inner container , different cosmetic contents are contained in the inner and outer containers, respectively, and the cosmetic contents are mixed and used by simultaneously dispensing the cosmetic contents with pumping.
    [0008] However, since the related art is a structure in which the inner container is contained together with cosmetic contents contained in the outer container, foreign substances, which are stuck on the outer periphery of the inner container in the process of assembly of the inner container with the outer container or the replacement of the inner container, are introduced into the outer container, and thus contaminate the cosmetic contents contained in the outer container. In addition, since the inner container is fully inserted into the open inlet of the outer container, the contents in the outer container overflow due to the volume or sudden insertion of the inner container, so that the environment is contaminated and assembly impractical.
    [0009] Further, according to the related art, although the structure of each pump set and the quantity of the contents to be discharged are different from each other, the installation location of the pump set and the length of the passage of discharge are the same, so that the heterogeneous contents discharged through each set of pumps are discharged to an outside with a time difference, so that it is inconvenient to use the mixing container.
    [0010] Summary
    [0011] To solve the problems described above, an object of the present invention is to provide a container for mixing heterogeneous contents, in which the first and second containers in which heterogeneous contents are stored are connected to the first and second evacuation units , respectively, distribute the heterogeneous contents to an exterior at once, a coupling portion of the second container and the second discharge unit deviate to a side from the center of the first and second containers, and the second discharge unit is connected to the second discharge passage of a push button while being screw-coupled to a lower portion of the first container, so that it is easy to couple the first and second containers, and it is possible to prevent contamination of the contents by foreign substances during the coupling process.
    [0012] Another object of the present invention is to provide a heterogeneous content mixture container in which the content storage capacities of the first and second containers 10 and 20 and the installation sizes and heights of the first and second evacuation units 30 and 40 installed in the first and second containers 10 and 20 are formed differently from each other, so that heterogeneous contents discharged from the first and second discharge units 30 and 40 are simultaneously discharged to an exterior in a mixing ratio predetermined without time difference, which improves convenience and cost-effectiveness of use.
    [0013] According to the present invention, there is provided a container for mixing heterogeneous contents which comprises a first container formed therein with a contents storage space and a container coupling space which are separated from each other; a second container coupled to the first container and formed with an inlet port and a coupling portion; a first evacuation unit installed in the first container to evacuate stored contents; a second evacuation unit installed in the second container to evacuate stored contents; and a push button configured to operate the first and second exhaust units and formed with first and second exhaust passages and first and second outlets which are connected to the first and second exhaust units, respectively, wherein the container coupling space of the first container and the inlet and the coupling portion of the second container diverge to one side from a center between the first and second containers, and the second drain is connected to the second passage evacuation when the coupling portion of the second container is screw-coupled to a lower portion of the container coupling space of the first container.
    [0014] A cap member formed therein with a support plate can be further coupled to the first container, and the support plate can be formed with a drain unit installation hole for installing the first drain unit and formed with a vent passage through-hole through which the second vent passage passes.
    [0015] The first and second evacuation units may include pumps configured to evacuate contents to an exterior through pumping.
    [0016] The first evacuation unit can be formed to have a size relatively smaller than a size of the second evacuation unit, and the second evacuation unit can be installed at a height relatively lower than a height of the first discharge unit, whereby heterogeneous contents are discharged to an exterior while being mixed in a predetermined ratio due to differences between the sizes and heights of the first and second discharge units.
    [0017] The mixing ratio of contents discharged by each of the first and second discharge units may be 1:4 to 1:5.
    [0018] The first escape passage of the push button can be configured to have a length relatively shorter than a length of the second escape passage.
    [0019] A flexible sealing member can be formed on one end of the second evacuation passage of the push button and can be equipped with the second evacuation unit installed in the second container when the first container is coupled to the second container.
    [0020] According to the embodiments of the present invention, the coupling portion of the second container and the second drain unit deviate to one side from the center of the first and second containers, and the second drain unit is connected to the second discharge passage, so that it is easy to couple the first and second containers, and it is possible to prevent contamination of the contents by foreign substances during the coupling process.
    [0021] Further, according to the embodiments of the present invention, the content storage capacities of the first and second containers and the installation sizes and heights of the first and second evacuation units installed in the first and second containers are formed differently from each other, so that the heterogeneous contents discharged from the first and second discharge units can be simultaneously discharged to an outside according to a predetermined mixing ratio without time difference, which improves convenience and cost-effectiveness in use.
    [0022] Further, according to the embodiments of the present invention, the first and second evacuation units are installed in the first and second containers, respectively, and the heterogeneous contents are mixed and used by coupling the first and second containers as required while that the heterogeneous contents contained in the first and second containers are discharged and used separately, so that it is possible to improve the use of the container.
    [0023] Figure 1 is a perspective view of a mixing container according to one embodiment of the present invention.
    [0024] Figure 2 is an exploded perspective view of a mixing container according to one embodiment of the present invention.
    [0025] Figure 3 is a cross-sectional view of a mixing container according to one embodiment of the present invention.
    [0026] Figure 4 is a plan view of a mixing container according to one embodiment of the present invention.
    [0027] Fig. 5 is a cross-sectional view illustrating a state before the coupling of the second container to the first container according to an embodiment of the present invention.
    [0028] Fig. 6 is a cross-sectional view illustrating a state in which a temporary cover and a temporary push button of the second container are separated from each other according to an embodiment of the present invention.
    [0029] Fig. 7 is a cross-sectional view illustrating a state in which the second container is screw-coupled to a lower portion of the first container according to one embodiment of the present invention.
    [0030] Fig. 8 is a cross-sectional view illustrating a state in which the push button of the mixing container according to an embodiment of the present invention is pushed to allow simultaneous discharge of the heterogeneous contents.
    [0031] Fig. 9 is a cross-sectional view illustrating a state in which the contents are fed into the first and second discharge units while the push button of the mixing container according to one embodiment of the present invention is restored to its original position.
    [0032] Detailed Description of Embodiments
    [0033] In the detailed description which follows, reference is made to the accompanying drawings which show, by way of illustration, specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It is understood that various embodiments of the present invention, while differing, are not necessarily mutually exclusive. By way of example, a particular feature, structure, or feature described herein in connection with one embodiment may be implemented in other embodiments without departing from the spirit and scope of this invention. Further, it is understood that the location or arrangement of individual elements in each disclosed embodiment may be changed without departing from the spirit and scope of the present invention.
    [0034] With respect to terms used in an exemplary embodiment of the present invention, general terms currently and commonly used are selected for function with respect to the present invention. However, the terms may vary depending on the intention of a technician specialized in the art in question, the advent of a new technology, etc. In specific cases, terms may be chosen arbitrarily, and in such case their definitions will be described in the corresponding description of the present invention. Accordingly, the terms used in the description should not necessarily be construed as mere names of the terms, but be defined based on the meanings of the terms and the overall content of the present invention.
    [0035] In addition, when a part "contains" certain elements, unless explicitly stated otherwise, it is meant that other elements may be included, but not excluded.
    [0036] A heterogeneous content mixture container according to one embodiment of the present invention will be described with reference to Figures 1 to 9.
    [0037] Figure 1 is a perspective view of a mixing container according to one embodiment of the present invention. Figure 2 is an exploded perspective view of a mixing container according to one embodiment of the present invention. Figure 3 is a cross-sectional view of a mixing container according to one embodiment of the present invention. Figure 4 is a plan view of a mixing container according to one embodiment of the present invention.
    [0038] As shown, a mixing container according to one embodiment of the present invention may include a first container 10, a second container 20, a first vent unit 30, and a second vent unit 40, as well as a button - pusher 50.
    [0039] A first content C1 of the liquid or gel type is contained in the first container 10 which is rigid and formed cylindrically. Of course, the first container 10 is not limited to rigidity and cylindrical shape, and can be formed in various shapes or of various materials.
    [0040] A content storage space 12 may be formed in the first container 10, in which the first content C1 and part of the first evacuation unit 30 are contained, and may be coupled to the second container 20 to form a coupling space container 14 in which the second evacuation unit 40 is partially contained.
    [0041] As shown in Figure 2, the container coupling space 14 can deviate to one side from the center of the first container 10, and be separated from the content storage space 12 by a partition 15.
    [0042] In addition, a stepped sill 14a may project inward from an inner periphery of the container coupling space 14, and a thread may be formed on a lower portion of the stepped sill 14a to be screw-coupled. to the second containing 20.
    [0043] As shown in Figure 3, the open top portion of the first container 10 is coupled to a sealing cap 16, and a sealing plate 18 made of plastic material is coupled to an upper portion of the sealing cap 16 , to thereby improve the airtightness of the first container 10. Namely, the sealing cap 16 closes the open portion of the first container 10, and the sealing plate 18 is sandwiched between the sealing cap 16 and a cap member 60 which will be described later to prevent the first content C1 contained in the internal space of the first container 10 from leaking to an exterior or external foreign substances from flowing into the internal space of the first container 10 .
    [0044] The sealing cap 16 may be formed with a partition insertion hole 16a into which the partition 15 of the first container 10 is inserted, and the sealing plate 18 may be formed with a first through hole 18a through which passes the first exhaust unit 30 and a second through hole 18b through which the second exhaust passage 52b passes.
    [0045] In this case, the sealing plate 18 is formed of a flexible material. Preferably, seal plate 18 may be formed from one or more of urethane rubber, natural rubber, elastomer, nitrile-butadiene rubber (NBR), and silicone, or one or more of elastic polypropylene, polyethylene, acrylonitrile-butadiene-styrene (ABS) and thermoplastic elastomer (TPE). Of course, the sealing plate 18 is not limited to the materials described above, and can be formed of various materials having elasticity within a certain range.
    [0046] At the same time, a cap member 60 may further be coupled to an upper portion of the first container 10. A support plate 62 may be formed within the cap member 60. The support plate 62 is formed with a drain unit installation hole 62a connected to the first through hole 18a of the sealing plate 18, on which the first drain unit 30 is installed, and formed with a drain passage through hole 62b connected to the second through hole 18b of the sealing plate 18, through which the second exhaust passage 52b passes.
    [0047] In the drawing of the mixing container according to one embodiment of the present invention, the first container 10 and the cap member 60 throat-coupled to each other are illustrated, but the embodiment does not differ. not limit it. The first container 10 and the cap member 60 can be coupled to each other in various coupling profiles such as a coupling of a protrusion and a groove, a force fit, etc.
    [0048] The second container 20 is coupled to the lower portion of the first container 10, and may be formed in a cylindrical manner corresponding to the first container 10 for continuity of the external appearance of the mixing container.
    [0049] A second content C2 can be kept in the second container 20. Preferably, the second content C2, which is different from the first content C1, can enhance the effectiveness or the effect when used by being mixed with the first content. C1.
    [0050] An inlet 22 is formed at one side of the second container 20. The second contents C2 are loaded through the inlet 22 into which the second discharge unit 40 can be installed.
    [0051] A coupling portion 24 is coupled to the inlet 22. The coupling portion 24 is fixedly coupled while surrounding the inlet 22 to secure the second exhaust unit 40.
    [0052] The outer periphery of the coupling portion 24 is formed with a screw thread which is screw-coupled with the screw thread formed inside the container coupling space 14 of the first container 10, and the upper end of the coupling portion 24 is sealed on the stepped sill 14a of the coupling space 14. In this case, the coupling portion 24 and the inlet 22 are eccentric (the center of an object diverges to one side so that the centers do not match) such as the container coupling space 14 of the first container 10. That is, the coupling portion 24 and the inlet port 22 diverge to a side from the center of the second container 20.
    [0053] In other words, the first and second containers 10 and 20 in which heterogeneous contents are stored are connected to the first and second evacuation units 30 and 40, respectively, and distribute the heterogeneous contents to an exterior at once. The coupling portion 24 and the second evacuation unit 40 are formed in the second container 20 and diverge to one side from the center of the first and second containers 10 and 20. The second evacuation unit 40 is connected to the second vent passage 52b of the push button 50 while being screw-coupled to the lower portion of the first container 10. Accordingly, it is easy to assemble the first and second containers 10 and 20 through a screw coupling. screwing, and it is possible to prevent contamination of the contents by foreign substances during the assembly process.
    [0054] Fig. 5 is a cross-sectional view illustrating a state before coupling the second container to the first container according to an embodiment of the present invention. Fig. 6 is a cross-sectional view illustrating a state in which a temporary cover and a temporary push button of the second container are separated from each other according to an embodiment of the present invention.
    [0055] At the same time, prior to the coupling of the second container 20 to the first container 10, the second container 20 is individually packaged and distributed and sold separately from the first container 10. As shown in Figure 5, the temporary push button 26 can be coupled fixedly to the second evacuation unit 40 installed in the inlet 22 of the second container 20, and the temporary cover 28 can be detachably coupled to the coupling portion 24 of the second container 20.
    [0056] Of course, when the second container 20 is coupled to the first container 10 to use a mixture of heterogeneous contents, as shown in Figure 6, the temporary cover 28 is separated from the second container 20 and the temporary push button 26 is separated from the second evacuation unit 40.
    [0057] The first drain unit 30 is installed in the drain unit installation hole of the cap member 60 of the first container 10 in a state that at least a portion of the first drain unit 30 is inserted in the content storage space 12 of the first container 10, and evacuates the first content C1 stored in the first container 10 to an exterior.
    [0058] In this case, the first evacuation unit 30 is preferably a pump intended to evacuate a predetermined quantity of content to an exterior by a pumping operation.
    [0059] As shown in Figure 3, the first evacuation unit 30 may include a first housing 31 formed on one side thereof with a first content inlet 31a, a first suction valve 32 configured to open or close the first content inlet 31a of the first housing 31, a first suction pipe 33 coupled to a lower portion of the first housing 31 for sucking the first content C1 into the first housing 31, a first housing cap 34 fixedly coupled to a of the first housing 31, a first piston holder 35 formed inside the first housing 31 to move in a pump operating direction, a first piston 36 fitted to the outside of the first piston holder 35 to be in close contact with the inner surface of the first housing 31, a first rod 37 coupled to an upper portion of the first piston support 35, and a first spring 38 elastically supporting the first re rod 37.
    [0060] The second evacuation unit 40 is installed in the inlet 22 of the second container 20, and at least a part of the total configuration is contained in the container coupling space 14 of the first container 10. The second unit evacuation 40 evacuates the second content C2 stored in the second container 20 to an outside.
    [0061] The second evacuation unit 40, which is a pump intended to evacuate a predetermined quantity of contents to an exterior by a pumping operation, is fixed to the inlet 22 by the coupling portion 24 of the second container 20. In addition, the second evacuation unit 40 deviates to one side from the center of the second container 20 because the inlet 22 and the coupling portion 24 are eccentrically formed in the second container 20.
    [0062] As shown in Figure 3, the second evacuation unit 40 may include a second housing 41 formed on one side thereof with a second contents inlet 41a, a second suction valve 42 configured to open or closing the second content inlet 41a of the second housing 41, a second suction pipe 43 configured to suck the second content C2 into the second housing 31, a second housing cap 44 coupled to an upper portion of the first housing 31 to secure the second housing to one side of the second container 20, a second piston holder 45 formed inside the second housing 31 to move in an operating direction of the pump, a second piston 46 fitted to the outside of the second piston support 45 to be in close contact with the inner surface of the second housing 31, a second rod 47 coupled to an upper portion of the second piston support 45, and a second spring 48 elastically supporting the second rod th 37.
    [0063] In this case, when the coupling portion 24 of the second container 20 is screw-coupled while being inserted into the container coupling space 14 of the first container 10, the second evacuation unit 40 can be connected through the second evacuation passage 52b of the push button 50 and of the sealing member 70.
    [0064] In a state where the sealing member 70 is formed of a flexible material and is coupled to the second evacuation passage 52b of the push button 50, when the first container 10 and the second container 20 are coupled, the member seal 70 is fitted in the second evacuation unit 40 installed in the second container 20, so that the push button 50 and the second evacuation unit 40 are connected while being stably sealed.
    [0065] In other words, the sealing member 70 may include a coupling portion 72 which is formed into a tube whose upper and lower portions are open and which is coupled to the second evacuation passage 52b, and a sealing insert 74 inserted into the upper portion of the second vent unit 40. The coupling portion 72 is inserted and fixedly coupled to one end of the second vent passage 52b, and the insertion portion of seal 74 is a seal fit in an upper inner periphery of the second stem 47 of the second evacuation unit 40.
    [0066] At the same time, as shown in Fig. 3, the first and second evacuation units 30 and 40 may have different sizes from each other depending on the mixing ratio of contents of the first and second containers 10 and 20. Namely, when the first container 10 and the second container 20 are coupled for use of heterogeneous contents, to adjust the first content C1 stored in the first container 10 and the second content C2 stored in the second container 20 according to a ratio of optimal mixing, the contents storage volumes of the first and second containers 10 and 20 can be different from each other, and at the same time, the sizes of the first and second disposal units 30 and 40 can be different one from the other.
    [0067] By way of example, when the first content C1 evacuated by the first evacuation unit 30 is evacuated in a greater or lesser quantity than the second content C2 evacuated by the second evacuation unit 40 for mixing and use, the first housing 31 of the first evacuation unit 30 and the components operated inside and outside the first housing 31 can be formed to have sizes larger or smaller than those of the second housing 41 of the second unit exhaust 40 and components operated inside and outside the second housing 41.
    [0068] In this case, it is suitable that the mixing ratio of contents discharged through the first and second discharge units 30 and 40 is 1:4 to 1:5. Accordingly, the internal area of the second container 20 and the second housing 41 of the second evacuation unit 40 can be 4 to 5 times greater than that of the first container 10 and the first housing 31 of the first evacuation unit. 30. Of course, the mixing ratio of the first and second contents C1 and C2 is not limited thereto, and can be modified in various ways according to each kind of contents stored in the first and second containers 10 and 20, the objective and method of use, etc.
    [0069] In addition, as shown in Figure 3, the second exhaust unit 40 is preferably installed at a relatively lower height than the first exhaust unit 30. That is, the second exhaust unit 40 is installed below the first evacuation unit 30 with respect to the inner upper end of the push button 50 and is eccentric with respect to the second container 20, so that the second evacuation unit 40 pumping a relatively large quantity of contents is farther from the outlet than the first evacuation unit 30. Accordingly, the first content C1 pumped by the first evacuation unit 30 and the second content C2 pumped by the second evacuation unit 40 are simultaneously evacuated to an exterior.
    [0070] As described above, according to the present invention, the content storage capacities of the first and second containers 10 and 20 and the installation sizes and heights of the first and second disposal units 30 and 40 installed in the first and second containers 10 and 20 are formed differently from each other, so that the heterogeneous contents discharged from the first and second discharge units 30 and 40 are simultaneously discharged to an outside according to a predetermined mixing ratio without time difference, thereby improve convenience and cost-effectiveness of use.
    [0071] The push button 50 is formed to be movable up and down on one side of the first container 10, and is operated together with the first and second evacuation units 30 and 40 while being depressed by a depressing operation. of a user.
    [0072] The first and second exhaust passages 52a and 52b respectively connected to the first and second exhaust units 30 and 40 described above may be formed inside the push button 50, and the first and second exhaust ports 54a and 54b may be formed on side ends exposed to exteriors of the first and second vent passages 52a and 52b, respectively. First and second exit ports 54a and 54b may be arranged along the outer periphery of push button 50.
    [0073] The first evacuation passage 52a of the push button 50 is coupled to the first rod 37 of the first evacuation unit 30 to allow the movement of the first content C1 pumped by the first evacuation unit 30 to the first orifice of exit 54a. The second evacuation passage 52b is coupled to the second rod 47 of the second evacuation unit 30 to allow the displacement of the second content C2 pumped by the second evacuation unit 40 to the second outlet orifice 54b.
    [0074] At the same time, as shown in Fig. 4, it is preferable that the first and second exhaust passages 52a and 52b have different lengths from each other. Namely, when the first and second contents C1 and C2 are mixed and used by differing the evacuation amounts of the first and second contents C1 and C2 through the difference between the sizes of the first and second evacuation units 30 and 40, the first and second contents C1 and C2 are discharged from the first and second discharge passages 52a and 52b having the same length with a time difference. Therefore, the first exhaust passage 52a connected to the first exhaust unit 30 with a relatively small exhaust amount is formed to be shorter than the second exhaust passage 52b connected to the second exhaust unit 40. with a relatively large discharge amount, so that the first and second contents C1 and C2 can be discharged to an outside at the same time.
    [0075] Additionally, as shown in Figure 3, a container cover 80, which protects the push button 50 while protecting the push button 50 when carrying or storing the mixing container, can be detachably coupled to the cap member 60.
    [0076] Figures 7 to 9 are views illustrating the assembly and the use of a container for mixing heterogeneous contents according to one embodiment of the present invention. Below, the processes for assembling and using a container for mixing heterogeneous contents according to an embodiment of the present invention will be described with reference to Figures 7 and 8.
    [0077] Fig. 7 is a cross-sectional view illustrating a state in which the second container is screw-coupled to a lower portion of the first container according to one embodiment of the present invention. Figure 8 is a cross-sectional view illustrating a state in which the push button of the mixing container according to an embodiment of the present invention is pushed to allow the heterogeneous contents to be simultaneously evacuated. Fig. 9 is a cross-sectional view illustrating a state in which the contents are fed into the first and second discharge units while the push button of the mixing container according to one embodiment of the present invention is restored to its original position.
    [0078] First, in order to assemble the mixing container according to one embodiment of the present invention, as shown, the first content C1 is loaded into the content storage space 12 of the first container 10, and after the coupling the sealing cap 16 to the open top portion of the container 10, the sealing plate 18 is placed on the upper portion of the sealing cap 16. In this case, the first through hole 18a of the sealing plate 18 is located at the upper portion of the contents storage space 12 of the first container 10, and the second through hole 18b of the first container 10 is located at the upper portion of the container coupling space 14 of the first containing 10.
    [0079] Next, the first evacuation unit 30, which has the first housing 31, the first suction valve 32, the first suction pipe 33, the first housing cap 34, the first piston holder 35, the first piston 36, the first rod 37, and the first spring 38, is installed in the first through hole 18a of the sealing plate 18, and the cap member 60 is fixedly coupled to the upper portion of the first container 10.
    [0080] Next, the push button 50 is coupled to the upper portion of the cap member 60 to be movable up and down. The first vent passage 52a of the push button 50 is coupled to the first rod 37 of the first vent unit 30. The second vent passage 52b is inserted into the vent passage through hole 62b of the cap member 60 and the second through hole 18b of the seal plate 18. In this case, the flexible seal member 70 is coupled to the end of the second vent passage 52b of the push button 50.
    [0081] Then, while surrounding the push button 50, the container cover 80 is detachably coupled to the cap member 60.
    [0082] Then, the second content C2 is loaded through the inlet 22 of the second container 20. The second evacuation unit 40, which includes the second housing 41, the second suction valve 42, the second suction 43, the second housing cap 44, the second piston holder 45, the second piston 46, the second rod 47, and the second spring 48, is installed on the inlet port 22, then the coupling portion 24 is coupled to the outside of the inlet 22 of the second container 20.
    [0083] Then, as shown in Figure 5, the first container 10 and the second container 20 assembled as described above are packaged separately. In this case, the temporary push button 26 is coupled to the end of the second evacuation unit 40, and the temporary cover 28 is coupled to the second container 20.
    [0084] At the same time, even when it is desired to use the assembled mixing container as described above, as shown in Figure 6, the temporary cover 28 coupled to the second container 20 is separated from the temporary push button 26 coupled to the second evacuation unit 40.
    [0085] Then, as shown in Figure 7, the coupling portion 24 of the second container 20 is coupled by screwing by rotation of the coupling portion 24 in one direction during the insertion of the coupling portion 24 into the lower portion of the container coupling space 14 of the first container 10. In this case, the upper end of the coupling portion 24 of the second container 20 is sealed on the stepped threshold 14a of the first container 10, and the second unit of evacuation 40 and the second evacuation passage 52b are connected to each other by the sealing member 70. Consequently, the first content C1 stored in the first container 10 and the second content C2 stored in the second container 20 can be evacuated together through the first and second evacuation units 30 and 40.
    [0086] Then, as shown in Fig. 8, the first contents C1 stored in the first container 10 and the second contents C2 stored in the second container 20 are discharged together when the first and second discharge units 30 and 40 are simultaneously depressed by pushing the push button 50, and the discharged heterogeneous contents are mixed and used.
    [0087] In more detail, when the first and second evacuation units 30 and 40 are pressed together, the first and second rods 37 and 47 and the first and second piston supports 35 and 45 coupled to the lower portions of the first and second rods 37 and 47 move down. In this case, since the first and second pistons 36 and 46 of the first and second evacuation units 30 and 40 make close contact with the inner surfaces of the first and second housings 31 and 41, while the first and second piston supports 35 and 45 move downward, a space is generated between the first and second piston supports 35 and 45 and the first and second pistons 36 and 46, which generates the evacuation passages of the first and second contents C1 and C2 .
    [0088] Then, the first and second pistons 36 and 46 are depressed by the lower ends of the first and second rods 37 and 47 moved downward, so that the internal volumes of the first and second housings 31 and 41 are reduced. Accordingly, while the first and second suction valves 32 and 42 close the first and second content inlets 31a and 41a due to the evacuation pressures in the first and second housings 31 and 41, the first and second contents C1 and C2 contained in the first and second housings 31 and 41 come out between the first and second piston supports 35 and 45 and the first and second pistons 36 and 46, and pass through the interiors of the first and second piston supports 35 and 45 and the first and second discharge passages 52a and 52b, so that the first and second contents C1 and C2 are discharged through the first and second outlets 54a and 54b.
    [0089] Then, as shown in Figure 9, when the pressure of the push button 50 is released, due to the elasticity of the first and second springs 38 and 48 elastically supporting the first and second rods 37 and 47, the first and second supports pistons 35 and 45 coupled to the lower sides of the first and second rods 37 and 47 move upward. In this case, the lower portions of the first and second piston supports 35 and 45 pull up the first and second pistons 36 and 46, and the first and second piston supports 35 and 45 and the first and second pistons 36 and 46 move upwards while the space between the first and second piston supports 35 and 45 and the first and second pistons 36 and 46 is blocked.
    [0090] Accordingly, the internal volumes of the first and second housings 31 and 41 are increased to generate vacuum pressures, and while the first and second suction valves 32 and 42 are lifted by the vacuum pressures, the first and second ports content inlet 31a and 41a are open, so that the first and second contents C1 and C2 stored in the first and second containers 10 and 20 are introduced into the first and second housings 31 and 41.
    [0091] Then, the first and second contents C1 and C2 which are heterogeneous and evacuated together as described above, are used by being mixed.
    [0092] While the present invention has been described above by way of particular examples, including specific elements, by means of limited embodiments and drawings, it should be appreciated that they are provided merely to facilitate the overall understanding of the present invention, the present invention is not limited to the above embodiments, and various changes and modifications may be made from the above disclosures by one of ordinary skill in the art to which reports the present invention.
    权利要求:
    Claims (7)
    [0001]
    Mixture container of heterogeneous contents comprising:a first container (10) formed therein with a content storage space (12) and a container coupling space (14) which are separated from each other; a second container (20) coupled to the first container (10) and formed with an inlet port (22) and a coupling portion (24); a first discharge unit (30) installed in the first container (10) to discharge stored contents; a second discharge unit (40) installed in the second container (20) to discharge stored contents; and a push button (50) configured to operate the first and second exhaust units (30, 40) and formed with first and second exhaust passages (52a, 52b) and first and second exit ports (54a , 54b) which are connected to the first and second drain units (30, 40), respectively, wherein the container coupling space (14) of the first container (10) and the inlet (22) and the coupling portion (24) of the second container (20) diverge to one side from a center between the first and second containers (10, 20), and the second drain is connected to the second drain passage (52b) when the coupling portion (24) of the second container (20) is screw-coupled to a lower portion of the container coupling space (14) of the first container.
    [0002]
    A heterogeneous content mixture container according to claim 1, wherein a cap member (60) in which a support plate (62) is formed is further coupled to the first container (10), and the support plate (62) is formed with a drain unit installation hole (62a) for installing the first drain unit (30) and formed with a drain passage through hole (62b) through which the second drain passage passes evacuation (52b).
    [0003]
    A heterogeneous contents mixture container according to claim 1, wherein the first and second evacuation units (30, 40) include pumps configured to evacuate contents to an exterior by pumping.
    [0004]
    A heterogeneous content mixture container according to claim 1, wherein the first venting unit (30) is formed to have a size relatively smaller than a size of the second venting unit (40), and the second venting unit discharge unit (40) is installed at a relatively lower height than a height of the first discharge unit (30), so that heterogeneous contents are discharged to an exterior while being mixed in a predetermined ratio due to differences between the sizes and heights of the first and second evacuation units (30, 40).
    [0005]
    A heterogeneous content mixing container according to claim 1, wherein the mixing ratio of the contents discharged from each of the first and second discharge units (30, 40) is 1:4 to 1:5.
    [0006]
    A heterogeneous content mixture container according to claim 1, wherein the first exhaust passage (52a) of the push button (50) is configured to have a length relatively shorter than a length of the second exhaust passage (52b ).
    [0007]
    A heterogeneous content mixture container according to claim 1, wherein a flexible sealing member (70) is formed on one end of the second discharge passage (52b) of the push button (50) and is equipped with the second unit drain (40) installed in the second container (20) when the first container (10) is coupled to the second container (20).
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    同族专利:
    公开号 | 公开日
    JP2020183286A|2020-11-12|
    CN111874450A|2020-11-03|
    KR102132301B1|2020-07-10|
    US20200346839A1|2020-11-05|
    JP6966594B2|2021-11-17|
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    KR102236452B1|2021-01-26|2021-04-05|박동민|Container unit|
    法律状态:
    2021-04-21| PLFP| Fee payment|Year of fee payment: 2 |
    2021-12-03| PLSC| Publication of the preliminary search report|Effective date: 20211203 |
    优先权:
    申请号 | 申请日 | 专利标题
    KR10-2019-51968|2019-05-03|
    KR1020190051968A|KR102132301B1|2019-05-03|2019-05-03|Heterogeneous contents mixing vessel|
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