• 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 heterogeneous content mixing container includes a first container formed therein with a separately defined contents storage space (14b) and dispensing device housing space (14a), a second container (20) coupled below the first container, first and second dispensing devices (30, 40) configured to respectively dispense the contents stored in the first container and the contents stored in the second container (20), and a push button (50) configured to operate simultaneously the first and second distribution devices (30, 40) and formed therein with first and second distribution passages (52a, 52b), respectively connected to the first and second distribution devices (30, 40), and first and second distribution orifices (54a, 54b). A connecting groove (16) is formed in the first container, and an inlet portion (22) is formed in the second container (20), so as to be coupled to each other, so that a second separate distribution device (40) is connected by a connecting element (70). Figure for the abstract: Fig 2
    公开号:FR3094354A1
    申请号:FR2003086
    申请日:2020-03-27
    公开日:2020-10-02
    发明作者:Do Hoon LEE
    申请人:Pum Tech Korea Co Ltd;
    IPC主号:
    专利说明:

    [0001] Field of the invention
    [0002] The present invention relates to a heterogeneous content mixing container, and more particularly to a heterogeneous content mixing container in which first and second containers containing different contents are vertically coupled to each other, and the separate dispensing device is connected by a connecting member at the time of coupling the first and second containers, so that the first and second containers can be easily coupled to each other and contamination of the contents with substances can be prevented external foreign matter or their spillage outside.
    [0003] Description of the state of the art
    [0004] In general, there are many cases where two or more different contents are mixed together and used in order to enhance the effectiveness or effect of cosmetics or drugs contained in a container.
    [0005] However, after the contents have been mixed and then the mixed contents are stored in a single container, it is possible that when the mixed contents are released or stored, a chemical reaction will occur in the container and causes the mixed contents to coagulate or precipitate, so that a dispensing error may occur or the mixed contents may be discolored or deteriorated.
    [0006] Thus, according to the state of the art, after keeping different contents respectively in separate containers, the contents are released individually and mixed directly when used by a user, or the different contents are stored in containers separated. Then, the contents are used after the inlets of the two containers have been opened, and the contents are mixed in a separate container. However, according to the method described above, the user has to directly mix and use the contents stored in a separate container, the risk of loss increases and the possibility of transport decreases.
    [0007] Therefore, in recent years, a container for mixing materials has been developed, which allows different contents to be mixed and used by the user when necessary, the different contents being kept in one container, while being isolated from each other and stored in the same container.
    [0008] In the prior art, Korean Patent Application No. 10-1923306 discloses a container for mixing heterogeneous materials. According to the prior art mentioned above, an inner container is inserted and mounted in an outer container, each of the containers is equipped with a pump assembly, and different cosmetics are stored in the outer container and the inner container, so that the different kinds of cosmetic contents can be simultaneously released, mixed and used with one pumping.
    [0009] However, since the prior art has a structure in which the inner container is housed in the outer container, together with the stored cosmetic contents, external foreign substances placed on an outer periphery of the inner container are introduced into the outer container during of the process of assembling or replacing the inner container into the outer container, and thus the cosmetic contents stored in the outer container are contaminated.
    [0010] On the other hand, according to the state of the art, when the outer container and the inner container containing different products are packaged separately and then assembled and used by a buyer, the container is inserted as a whole into an inlet part of the outer container opened, and thus the contents stored in the outer container overflows to the outside, due to the volume or the sudden insertion of the inner container, and contaminates the environment, and the assembly is inconvenient.
    [0011] Summary
    [0012] The present invention proposes a container for mixing heterogeneous contents, in which first and second containers for the storage of different contents are respectively connected to first and second distribution devices to allow the heterogeneous contents to be evacuated to the exterior in same time, by pressing a push-button; wherein the first and second receptacles are coupled to each other vertically by screwing, and the second separate dispensing device is connected by the connecting element at the time when the coupling of the first and second receptacles takes place, so that the first and the second container can be easily coupled with each other and the contents can be prevented from being contaminated by external foreign substances or getting dirty after being discharged outside, during pairing.
    [0013] The present invention provides a heterogeneous content mixing container comprising: a first container formed therein with a content storage space and a dispensing device accommodating space, which are defined separately; a second container coupled to a bottom of the first container; a first and a second dispensing device, configured to respectively dispense the content stored in the first container and the content stored in the second container; and a push button, configured to simultaneously actuate the first and second dispensing devices, and formed therein with first and second dispensing passages connected to the first and second dispensing devices, respectively, and first and second dispensing ports , a connecting groove, formed in the first container, and an inlet part, formed in the second container, being coupled to each other, and a second separate dispensing device being connected by a connecting member.
    [0014] Further, the first container may include a first upper container and a first lower container which are coupled together.
    [0015] On the other hand, the first upper container can be formed with a support plate on which the first dispensing device and the second dispensing device can be partially installed.
    [0016] Further, a sealing member may be formed between the first upper container and the first lower container to block an open portion of the first lower container, and the first and second dispensing devices may pass through the sealing member.
    [0017] Additionally, the first container and the second container can be screw-coupled together.
    [0018] On the other hand, the connection groove of the first container and the inlet part of the second container can be inclined to one side from the centers of the first and second containers.
    [0019] Furthermore, the connection element can be provided at the level of the inlet part of the second container and can comprise an upper connection part, protruding towards the open portion of the inlet part and connected to a second casing of the second dispensing device when the first and second containers are coupled together, a lower connecting part protruding inward from the second container and connected to a second suction tube of the second dispensing device , and a coupling part connected to the input part.
    [0020] Further, at least one airflow hole may be formed in the outer sides of the upper connecting part and the lower connecting part of the connecting member.
    [0021] On the other hand, the first and second dispensing devices can comprise pumps configured to evacuate the contents to the outside by pumping.
    [0022] In addition, a second envelope of the second dispensing device can be installed on the first container, a second suction tube of the second dispensing device can be installed on the connecting element, so as to be inserted into the second container, and the second envelope and the second suction tube of the second dispensing device can be automatically connected to each other by the connecting element when the first container is coupled to the second container.
    [0023] According to an embodiment of the present invention, first and second containers intended to store different contents can be connected respectively to first and second distribution devices, and the heterogeneous contents can be evacuated to the outside at the same time, by an action of pressure on a push-button, the first and second receptacles being able to be coupled vertically by screwing one to the other. The second separate dispensing device can be connected via the connecting member at the time of coupling the first and second containers, so that the first and second containers can be easily coupled together. other and that contamination of the contents with external foreign substances or their soiling after having been evacuated to the outside, during coupling, can be avoided.
    [0024] shows a perspective view of a mixing container according to the embodiment of the present invention,
    [0025] shows an exploded perspective view of the mixing container according to the embodiment of the present invention,
    [0026] shows a sectional view of the mixing container according to the embodiment of the present invention,
    [0027] shows a sectional view illustrating a state before a second container is coupled to a first container according to the embodiment of the present invention,
    [0028] shows a sectional view illustrating a state in which the first container is coupled to the second container, according to the embodiment of the present invention,
    [0029] shows a sectional view illustrating a state in which a container cover is separated from the first container of the mixing container according to the embodiments of the present invention,
    [0030] shows a sectional view showing a state in which heterogeneous contents are dispensed simultaneously when a push button of the mixing container according to the present invention is pressed, and
    [0031] shows a cross-sectional view showing a state in which the contents are introduced into first and second dispensing devices, while the push button of the mixing container according to an embodiment of the present invention is returned to its initial position.
    [0032] Detailed Description of Embodiments
    [0033] Figure 1 shows a perspective view of the mixing vessel according to the embodiment of the present invention. Figure 2 is an exploded perspective view of the mixing vessel according to the embodiment of the present invention. Figure 3 is a cross-sectional view of the mixing vessel according to the embodiment of the present invention.
    [0034] As shown in the drawing, the mixing container according to one embodiment of the present invention may comprise a first container 10, a second container 20, a first dispensing device 30, a second dispensing device 40 and a push button. 50.
    [0035] The first container 10 encloses a first liquid or gel-like content C1 and is made with a hard cylindrical shape. The first container 10 is not limited to the hard cylindrical shape and can be formed in different ways and from different materials.
    [0036] As shown in Figures 2 and 3, the first container 10 comprises a first upper container 12 and a first lower container 14, so that the first lower container 14 can be coupled to the first upper container 12 by being inserted into a lower part of the first upper container 12. Although the first upper container 12 is shown as being screw-coupled to the first lower container 14 in the drawing of the mixing container according to one embodiment of the present invention, it is not limited thereto. ci, and various coupling schemes, such as undercut coupling, protrusion and groove coupling or force coupling, can be implemented.
    [0037] On the other hand, a first elastic sealing ring 17a is provided between the first upper container 12 and the first lower container 14, so that a sealing force between the first upper container 12 and the first lower container 14 can be further improved.
    [0038] A support plate 13 may be provided inside the first upper container 12, wherein the support plate 13 may be formed with a first dispensing device mounting hole 13a, on which a first dispensing device 30 is installed. , and may be formed with a second dispensing device mounting hole 13b, on which part of the set of components of the second dispensing device 40 is installed.
    [0039] Further, first to third vertical guide rods 15a, 15b and 15c can extend vertically from an upper surface of the support plate 13, so that vertical movements of the push button 50 can be guided. As shown in Figure 2, the first vertical guide rod 15a can be made in the manner of a pillar having a cross shape, seen from above, and the second and third vertical guide rods 15b and 15c can be made in the manner of a curved pillar in at least one direction to present an insertion space 15d, in top view.
    [0040] The first lower container 14 may be formed therein with a dispensing device accommodating space 14a for receiving part of the second dispensing device 40, and the dispensing device accommodating space 14a is formed therein. exterior with a content storage space 14b intended to receive part of the first distribution device 30, while storing a first content C1. The dispensing device accommodating space 14a may be divided and separated from the content storage space 14b by a partition wall 14c, the partition wall 14c may have a cylindrical shape with an empty interior space.
    [0041] On the other hand, a connection groove 16, located inwardly recessed from the first container 10, can be formed in a lower part of the first lower container 14. In other words, when the first container 10 is coupled to the second container 20, a second casing 41 and a second suction tube 43 of the second dispensing device 40 are automatically connected to each other by a connecting element 70, while the connecting groove 16 surrounds an outer periphery of an inlet portion 22 of the second container 20. In other words, once the elements of the second dispensing device 40 are installed separately in the first container 10 and the second container 20, the entire configuration of the second device distribution 40 separate is connected by the connecting element 70, when the first container 10 is coupled to the second container 20.
    [0042] The connection groove 16 of the first container 10 may be formed so as to slope to one side from the center of the first container 10, and may be screw-coupled, covering the inlet portion 22 of the second container 20. Connecting groove 16 of first container 10 can be coupled to inlet portion 22 of second container 20 in various ways in addition to screw coupling.
    [0043] Furthermore, as shown in Figure 2, it is possible to additionally provide a sealing element 18 between the first upper container 12 and the first lower container 14. The sealing element 18 closes an upper part of the first container lower container 14, being inserted at least partially into an open portion of the first lower container 14, and the first dispensing device 30 and the second dispensing device 40 pass through the sealing element 18.
    [0044] A sealing plate 19 formed of an elastic material may further be provided between the sealing element 18 and the first upper container 12, so that the sealing forces of the dispensing device housing space 14a and content storage space 14b can be maintained. On the other hand, as for the sealing element 18, the first distribution device 30 and the second distribution device 40 pass through the sealing plate 19.
    [0045] As shown in Figure 3, at least a portion of connector 70 is secured upon insertion into inlet portion 22 of second container 20. Connector 70 may include an upper connector portion 72, projecting in the direction of an open portion of the inlet part 22 and connected to the second casing 41 of the second dispensing device 40 when the first and second containers 10 and 20 are coupled together, and a lower connection part 74, projecting inwardly from the second container 20 and connected to the second suction tube 43 of the second dispensing device 40, and a coupling part 76 coupled to the inlet part 22. drop prevention collar 76a may be formed on an upper end of the coupling part 76 of the connecting element 70 and placed on an upper end of the inlet part 22 to prevent the connecting element 70 from fall into the second container 20.
    [0046] Furthermore, at least one airflow hole 78 may be formed on the outer sides of the upper connecting part 72 and the lower connecting part 74 of the connecting member 70. When the second content C2 is introduced into the second container 20 and the connecting member 70, one side of which is coupled to the second suction tube 43, is inserted into the second container 20, the air flow port 78 can serve as a passage configured to evacuate air from the second container 20 to the outside and serve as a passage configured to introduce air from outside into the second container 20, depending on the amount of second content C2 dispensed during use .
    [0047] In addition, a second sealing ring 17b formed of an elastic material can be provided between an upper end of the connecting element 70 and the separating wall 14c of the first lower container 14.
    [0048] The first and second sealing rings 17a and 17b and the sealing plate 19 are made of a flexible material and can be made of at least one of the following materials: urethane rubber, natural rubber, elastomer, NBR (nitrile rubber- butadiene) and silicone (silicone); or at least one of the following elastic materials: polypropylene, polyethylene, acrylonitrile-butadiene-styrene (ABS) and thermoplastic elastomer (TPE). The first and second sealing rings 17a and 17b and the sealing plate 19 are not limited to the materials described above and can be made from other materials, in a range having a predetermined elasticity.
    [0049] The second container 20 can be coupled to the lower part of the first container 10 and can be made with a cylindrical shape corresponding to the first container 10 to ensure the continuity of the appearance of the mixing container.
    [0050] The second content C2 can be stored in the second container 20. The second content C2 is different from the first content C1 and can increase the effectiveness or effect when used in combination with the first content C1.
    [0051] The inlet part 22 is formed on one side of the second container 20, in which the inlet part 22 is coupled to the first container 10 and serves as a filling inlet into which the second content C2 is introduced. The inlet portion 22 may be provided with a thread on its outer circumference, so as to be screw-coupled to a thread made on the connection groove 16 of the first container 10. Furthermore, before the second container 20 is coupled to the first container 10, the second container 20 may be individually packaged, dispensed, and sold separately from the first container 10. In this case, a temporary lid 23 may be coupled to the inlet portion 22 of the second container 20.
    [0052] On the other hand, the connecting element 70 is inserted and fixed inside the inlet part 22, and the second suction tube 43 of the second delivery device 40 is coupled to the lower part of the connecting element 70 and positioned inside the second container 20.
    [0053] As described above, after the first container 10 and the second container 20 have been packaged, distributed and sold separately, the inlet portion 22 of the second container 20 can be inserted and coupled to the connecting groove 16 of the first container. 10, for use. When the upper connecting part 72 of the connecting element 70 coupled to the second container 20 is inserted into a lower part of the second casing 41 of the second dispensing device 40, the upper connecting part 72 is coupled to the second dispensing device 40 installed separately on the first container 10 and the second container 20, and the connecting groove 16 of the first container 10 is at the same time screw-coupled to the outer periphery of the inlet part 22 of the second container, surrounding the periphery exterior.
    [0054] Therefore, the first container 10 can be more easily coupled to the second container 20, the first contents C1 can be protected from contamination by external foreign substances during the process of coupling the second container 20, and the tightness of the second container 20 can be held stably, including before and after the coupling of the first container to the second container 20.
    [0055] Although the first container 10 is shown as being screw-coupled to the second container 20 in the drawing illustrating the mixing container according to one embodiment of the present invention, it is not limited thereto, and various diagrams couplings, such as undercut coupling, protrusion and groove coupling or force coupling, can be implemented.
    [0056] The first dispensing device 30 is installed in the first dispensing device mounting hole 13a of the first container 10, while at least a part of the first dispensing device 30 is inserted into the content storage space 14b of the first container 10, and evacuates to the outside the first content C1 stored in the first container 10.
    [0057] The first dispensing device 30 may be a pump configured to dispense a fixed amount of content outward by a pumping action.
    [0058] As shown in FIG. 3, the first dispensing device 30 may comprise: a first casing 31 formed on one of its sides with a first content suction orifice 31a; a first suction valve 32 configured to open and close the first content suction port 31a of the first envelope 31; a first suction tube 33 coupled to a lower part of the first casing 31 to suck the first content C1 into the first casing 31; a first shroud plug 34 fixedly coupled to an upper portion of the first shroud 31; a first piston support 35 formed inside the first casing 31 to move vertically in the first casing 31; a first piston 36 mounted on an outer side of the first piston holder 35 to come into close contact with an inner surface of the first casing 31; a first rod 37 coupled to an upper part of the first piston support 35; and a first spring 38 configured to resiliently support the first rod 37.
    [0059] The second dispensing device 40 is installed in the second dispensing device mounting hole 13b, while one component of the set of components is inserted into the dispensing device accommodating space 14a of the first container 10, and the other components are installed inside the second container 20. In other words, once the components of the second dispensing device 40 have been separated and installed respectively in the first container 10 and the second container 20, the all of the components of the second dispensing device 40 are connected by the connecting element 70, so as to be in an operating state when the first container 10 is coupled to the second container 20.
    [0060] The second dispensing device 40 evacuates to the outside the second content C2 stored in the second container 20. The second dispensing device 40 can be a pump configured to dispense a fixed quantity of the content to the outside by the action of pumping .
    [0061] As shown in Figure 3, the second dispensing device 40 may comprise: a second envelope 41 formed on one of its sides with a second content suction orifice 41a; a second suction valve 42 configured to open and close the second content suction port 41a of the second envelope 41; a second suction tube 43 configured to suck into the second envelope 41 the second content C2 stored in the second container 20; a second shroud plug 44 coupled to an upper portion of the second shroud 41 to secure the second shroud 41 to one side of the second container 20; a second piston support 45 formed inside the second casing 41 to move vertically inside the second casing 41; a second piston 46 mounted on an outer side of the second piston holder 55 to come into close contact with an inner surface of the second shell 41; a second rod 47 coupled to an upper part of the second piston support 45; and a second spring 48 configured to elastically support the second rod 47.
    [0062] The second casing 41, the second suction valve 42, the second casing plug 44, the second piston support 45, the second piston 46, the second rod 47 and the second spring 48 of the second distribution device 40 are installed on the support plate 13 of the first container 10, but the second suction tube 43 of the second dispensing device 40 is installed inside the second container 20 via the connecting element 70. other words, the second casing 41 of the second dispensing device 40 is installed on the first container 10, the second suction tube 43 of the second dispensing device 40 is installed on the connecting element 70 so as to be inserted into the second container 20, so that the second casing 41 and the second suction tube 43 of the second dispensing device 40 are automatically connected together by the connecting element 70 when the first container 10 is coupled to the second container 20.
    [0063] Furthermore, the first distribution device 30 and the second distribution device 40 may have a different size and structure from each other, depending on the ratio of use between the first and the second content C1 and C2 in front of be pumped. For example, when the first content C1 dispensed by the first dispensing device 30 is configured to be dispensed, mixed and used to a greater extent than the second content C2 dispensed by the second dispensing device 40, a piston stroke distance and an inside diameter of the cylinder of the first dispensing device 30 can be greater than those of the second dispensing device 40.
    [0064] The push button 50 is coupled to the first container 10 so as to move up and down to simultaneously actuate the first and second dispensing devices 30 and 40, when actuated by pressure from the user. .
    [0065] First and second dispensing passages 52a and 52b, connected to first and second dispensing devices 30 and 40, are respectively formed inside push button 50, and first and second dispensing orifices 54a and 54b are formed inside one of the end portions exposed respectively outside the first and second distribution passages 52a and 52b.
    [0066] The first dispensing passage 52a of the push button 50 is connected to the first rod 37 of the first dispensing device 30 to allow the first content C1 pumped by the first dispensing device 30 to move towards the first dispensing orifice 54a, and the second dispensing passage 52b is connected to the second rod 47 of the second dispensing device 30 to allow the second content C2 pumped by the second dispensing device 40 to move towards the second dispensing orifice 52b.
    [0067] As shown in Figure 1, the first and second dispensing orifices 54a and 54b may be formed on the left and right respectively on the outer sides of the push button 50. In other words, the first dispensing orifice 54a and the second dispensing orifice 54b are arranged parallel and next to each other, so that the first content C1 dispensed from the first dispensing orifice 54a and the second content C2 dispensed from the second dispensing orifice 54b can be easily mixed with each other and used. The positions of the first dispensing orifice 54a and the second dispensing orifice 54b can be modified in different ways taking into account ease of use, aesthetics and consumer tastes.
    [0068] As shown in Figure 2, the first through third vertical guide portions 55a, 55b, and 55c may extend downward within the push button 50 to guide vertical movements of the push button 50 with the first and third vertical guide rods 15a, 15b and 15c of the first container 10. The first vertical guide part 55a is formed with an insertion groove 55d having a cross shape into which the first vertical guide rod 15a is inserted, in a bottom view. The second and third vertical guide parts 55b and 55c are inserted into the insertion spaces 15d of the second and third vertical guide rods 15b and 15c.
    [0069] Additionally, first container 10 may be coupled to a container cover 60 configured to surround and protect push button 50 during transport or storage.
    [0070] Figures 4 to 8 show views illustrating the assembly and use of the heterogeneous content mixing container according to one embodiment of the present invention. The assembly and use of the heterogeneous content mixing vessel according to one embodiment of the present invention will be described with reference to the drawings mentioned above.
    [0071] Fig. 4 is a sectional view illustrating a state before a second container is coupled to a first container according to the embodiment of the present invention. Fig. 5 is a sectional view illustrating a state in which the first container is coupled to the second container according to the embodiment of the present invention. Fig. 6 is a sectional view illustrating a state in which the container cover is separated from the first container of the mixing container according to the embodiment of the present invention. Fig. 7 is a sectional view showing a state in which heterogeneous contents are simultaneously dispensed when the push button of the mixing container according to the embodiment of the present invention is pressed. Fig. 8 is a sectional view showing a state in which the contents are introduced into the first and second dispensing devices, while the push button of the mixing container according to an embodiment of the present invention is returned to its position initial.
    [0072] First, to assemble the mixing container according to one embodiment of the present invention, as shown in the drawings, the first dispensing device 30, which comprises the first shell 31, the first suction valve 32, the first suction tube 33 and the first envelope plug 34, the first piston holder 35, the first piston 36, the first rod 37 and the first spring 38, are installed on the first delivery device mounting hole 13a of the first upper container 12, and the second casing 41, the second suction valve 42, the second casing plug 44 and the second piston support 45, the second piston 46, the second rod 47 and the second spring 48 among all the components of the second delivery device 40 are installed on the second delivery device mounting hole 13b.
    [0073] Then, the push button 50 is coupled to the first upper container 12 so as to move vertically, the first and second dispensing passages 52a and 52b of the push button 50 being respectively connected to the first stem 37 of the first dispensing device 30 and to the second rod 47 of the second dispensing device 40. At the same time, the second and third vertical guide portions 55b and 55c of the push button 50 are inserted into the insertion space 15d of the second and third guide rods 15b and 15c formed in the first container 10, and the first vertical guide rod 15a of the first container 10 is inserted into the insertion groove 55d formed in the first vertical guide portion 55a of the push button 50.
    [0074] Then, the first liquid or gel-like content C1 is introduced into the content storage space 14b of the first lower container 14, the sealing member 18 is inserted into the open upper part of the first lower container 14, and the first upper container 12 is coupled to the first lower container 14, surrounding the upper part of the first lower container 14.
    [0075] At this time, the first sealing ring 17a is inserted between the first lower container 14 and the sealing member 18, the sealing plate 19 is inserted between the sealing member 18 and the first upper container 12 , and the second sealing ring 17b is fixed to the inner upper end of the connection groove 16 of the first lower container 14.
    [0076] Then, after having poured the second liquid or gel-like content C2 into the second container 20, the connecting element 70 is inserted and fixed inside the inlet part 22 of the second container 20. In this state , the second suction tube 43 of the second delivery device 40 has been coupled to the lower connecting part 74 of the connecting element 70.
    [0077] Then, as shown in Figure 4, the first container 10 and the second container 20, assembled in the manner described above, are packaged separately. The connection groove 16 of the first container 10 is sealed and the temporary cover 23 is coupled to the inlet part 22 of the second container 20, so as to prevent the penetration of foreign substances into the first and second containers 10 and 20, during distribution or storage.
    [0078] On the other hand, when the mixing vessel is assembled in the manner described above, the inlet portion 22 of the second vessel 20 is inserted into the connection groove 16 formed in the lower part of the first vessel 10 and screw-coupled with rotation, as shown in Figure 5. The connection groove 16 of the first container 10 is coupled to the second container 20 by surrounding the outer periphery of the inlet portion 22 of the second container 20. At the same time, the upper connection portion 72 of the connecting element 70 coupled to the second container 20 is inserted into the lower part of the second casing 41 of the second dispensing device 40, so that the components of the second dispensing device 40, which are installed separately in the first container 10 and the second container 20, are interconnected. Consequently, the first content C1 stored in the first container 10 and the second content C2 stored in the second container 20 are in a state allowing them to be dispensed together via the first and second dispensing devices 30 and 40.
    [0079] Then, as shown in Figure 6, the container lid 60 is removed from the first container 10. As shown in Figure 7, the first content C1 stored in the first container 10 and the second content C2 stored in the second container 20 are dispensed together, when the first dispensing device 30 and the second dispensing device 40 are actuated at the same time by pressing the push button 50, and thus the different contents dispensed in the manner described above are mixed and used.
    [0080] More particularly, when the first and the second delivery device 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 parts of the first and second rods 37 and 47 are moving down. Since the first and second pistons 36 and 46 of the first and second dispensing device 30 and 40 come into close contact with the interior surfaces of the first and second casings 31 and 41, only the first and second piston supports 35 and 45 move downwards, which creates spaces between the first and second piston supports 35 and 45 and the first and second pistons 36 and 46, and thus distribution passages of the first and second contents C1 and C2 are formed.
    [0081] Then, the lower ends of the first and second rods 37 and 47, which move downwards, press the first and second pistons 36 and 46, so that the first and second pistons 36 and 46 descend together with the first and second bearing supports. piston 35 and 45, thus reducing the volumes inside the first and second envelopes 31 and 41. Consequently, the first and second suction valves 32 and 42 close off the first and second content suction ports 31a and 41a due to the discharge pressures in the first and second casings 31 and 41, and the first and second contents C1 and C2 of the first and second casings 31 and 41 come out between the first and second piston supports 35 and 45 and the first and second pistons 36 and 46 pass through the interior of the first and second piston supports 35 and 45 and the first and second distribution passages 52a and 52b and are evacuated respectively towards the first and second dispensing orifices 54a and 54b.
    [0082] Then, as shown in Figure 8, when the pressure of the push button 50 is released, the first and second rods 37 and 47 and the first and second piston supports 35 and 45 coupled to the underside of the first and second rods 37 and 47 move upwards due to the elasticities of the first and second springs 38 and 48 to elastically support the first and second rods 37 and 47. At this time, the lower parts of the first and second piston supports 35 and 45 pull the first and second pistons 36 and 46 upwards, thereby closing the spaces between the first and second piston carriers 35 and 45 and the first and second pistons 36 and 46, so that the first and second piston carriers 35 and 45 move upwards with the first and second pistons 36 and 46.
    [0083] Accordingly, vacuum pressures are produced due to the increased volumes within the first and second shells 31 and 41, and the first and second suction valves 32 and 42 are lifted by the vacuum pressure, thus opening the first and second contents suction orifices 31a and 41a, so that the first and second contents C1 and C2 stored in the first and second containers 10 and 20 are introduced respectively into the first and second envelopes 31 and 41.
    [0084] Then, the various contents distributed in the manner described above are mixed and used.
    权利要求:
    Claims (10)
    [0001]
    Container for mixing heterogeneous contents comprising: a first container (10) formed therein with a content storage space (14b) and a dispensing device accommodating space (14a), which are defined separately; a second container (20) coupled to a bottom of the first container (10); a first and a second dispensing device (30, 40), configured to respectively dispense the content stored in the first container (10) and the content stored in the second container (20); and a push button (50), configured to simultaneously actuate the first and second dispensing devices (30, 40), and formed therein with first and second dispensing passages (52a, 52b) connected respectively to the first and second dispensing devices (30, 40), and first and second dispensing orifices (54a, 54b), characterized in that a connection groove (16), formed in the first container (10), and an inlet part (22), formed in the second container (20), are coupled to each other, so that a second separate distribution device (40) is connected by a connection element (70).
    [0002]
    A heterogeneous content mixing container according to claim 1, wherein the first container (10) comprises a first upper container (12) and a first lower container (14) coupled together.
    [0003]
    A container for mixing heterogeneous contents according to claim 2, wherein the first upper container (12) is formed therein with a support plate (13) on which the first dispensing device (30) and the second dispensing device (40) are partially installed.
    [0004]
    A heterogeneous content mixing container according to claim 2, wherein a sealing member (18) is formed between the first upper container (12) and the first lower container (14) to block an open portion of the first lower container (12 ), and the first dispensing device (30) and the second dispensing device (40) pass through the sealing member (18).
    [0005]
    A heterogeneous content mixing container according to claim 1, wherein the first container (10) and the second container (20) are screw-coupled together.
    [0006]
    A heterogeneous content mixing container according to claim 1, wherein the connection groove (16) of the first container (10) and the inlet portion (22) of the second container (20) are inclined to one side from the centers first and second containers (10, 20).
    [0007]
    Container for mixing heterogeneous contents according to claim 1, in which the connection element (70) is at the level of the inlet part (22) of the second container (20) and comprises an upper connection part (72) forming projecting towards the open portion of the inlet part (22) and connected to a second casing (41) of the second dispensing device (40) when the first and second containers (10, 20) are coupled together the other, a lower connection part (74) protruding inward from the second container (20) and connected to a second suction tube (43) of the second dispensing device (40), and a coupling part (76) connected to the input part (22).
    [0008]
    A heterogeneous content mixing container according to claim 7, wherein at least one airflow hole (78) is formed in the outer sides of the upper connecting part (72) and the lower connecting part (74 ) of the connecting element (70).
    [0009]
    A container for mixing heterogeneous contents according to claim 1, wherein the first and second dispensing devices (30, 40) comprise pumps configured to dispense the contents (C1, C2) outwards by pumping.
    [0010]
    A container for mixing heterogeneous contents according to claim 1, in which a second envelope (41) of the second dispensing device is installed on the first container (20), a second suction tube (43) of the second dispensing device (40 ) is installed on the connection member (70) and inserted into the second container (20), and the second casing (41) and the second suction tube (43) of the second dispensing device (40) are automatically connected to each other by the connecting element (70) when the first container (10) is coupled to the second container (20).
    类似技术:
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    FR2685285A1|1993-06-25|Method for packaging any liquid product and bottle obtained by this method
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    FR2671330A1|1992-07-10|Portable manual dispenser with pump for cream and cosmetic product
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    FR2716806A1|1995-09-08|Residual liquid collection container for surgical use etc.
    BE1017394A3|2008-08-05|CONTAINER FOR SOLID FOODS.
    同族专利:
    公开号 | 公开日
    US20200307891A1|2020-10-01|
    JP2020163146A|2020-10-08|
    CN111746944A|2020-10-09|
    JP6903189B2|2021-07-14|
    US11180304B2|2021-11-23|
    引用文献:
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    GB1138690A|1966-10-24|1969-01-01|Procter & Gamble Ltd|Multicompartment container for pourable materials|
    DE2940564A1|1979-10-06|1981-04-16|Henkel KGaA, 4000 Düsseldorf|LIQUID RESERVOIR TO CONNECT TO A SPRAY PUMP|
    AT138034T|1989-07-25|1996-06-15|Oreal|DISPENSER FOR AT LEAST ONE LIQUID PRODUCT|
    US5305810A|1992-05-22|1994-04-26|Philip Meshberg|Apparatus and method for filling and dispensing a highly viscous product from a container|
    US5339990A|1992-11-10|1994-08-23|Wilder Robert E|Adjustable pump dispenser|
    FR2835813B1|2002-02-13|2004-05-07|Lablabo|DEVICE FOR PACKAGING AND DISPENSING MULTIPLE FLUIDS COMPRISING AT LEAST TWO PUMPS|
    US20050115988A1|2003-12-01|2005-06-02|Brian Law|Multiple liquid foamer|
    KR200390095Y1|2005-05-06|2005-07-18|주식회사 태평양|Essence cosmetic case for mixing powder|
    CN101992896A|2009-08-21|2011-03-30|刘洋|Liquid container device with self-suction pipe|
    US8408429B2|2009-11-11|2013-04-02|The Clorox Company|Bottle with integral dip tube|
    US8857636B2|2009-11-12|2014-10-14|John Lewis Sullivan|Sectional container with a detachable base and lid cover|
    KR200481759Y1|2014-11-20|2016-11-09|아모레퍼시픽|Mixing container for two liquid having a push pocket|
    KR101789573B1|2016-12-29|2017-10-25|연우|Spuit type cosmetics container|
    KR101928640B1|2017-01-18|2018-12-12|강성일|Receptacle for separately keeping and mixed use of different materials|
    KR20180085253A|2017-01-18|2018-07-26|강성일|Receptacle for separately keeping and mixed use of different materials|
    KR101923306B1|2017-03-24|2018-11-28|강성일|Receptacle for separately keeping and mixed use of different materials|
    CN208631257U|2018-08-13|2019-03-22|刘平海|It is a kind of that assembling and voluntarily filling small-sized aerosol container may be implemented|WO2021007591A1|2019-07-09|2021-01-14|The Procter & Gamble Company|Multi-composition product dispenser|
    CN114080359A|2019-07-09|2022-02-22|宝洁公司|Multiple composition product dispenser|
    USD922872S1|2019-11-19|2021-06-22|Yonwoo Co., Ltd.|Container for cosmetics|
    法律状态:
    2021-03-04| PLFP| Fee payment|Year of fee payment: 2 |
    优先权:
    申请号 | 申请日 | 专利标题
    KR20190035981|2019-03-28|
    KR10-2019-35981|2019-03-28|
    KR1020190072258A|KR102178156B1|2019-03-28|2019-06-18|Heterogeneous contents mixing vessel|
    KR10-2019-72258|2019-06-18|
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