法国专利FR3052153A1 CONTAINER FOR MIXING HETEROGENEOUS CONTENTS, IMPROVING THE PRODUCTION YIELD AND THE SEALING PROPERTI

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专利摘要:
A container is provided for mixing heterogeneous contents, improving manufacturing efficiency and sealability. The container for mixing heterogeneous contents comprises a container body (10) for containing a second content; an element (20) receiving a first content, formed in the container body (10) to contain a first content and comprising an upper separation capsule (22) and a lower attachment capsule (24); a shoulder (30) mounted on the rotatably containing body (10); a levable guide member (40) attached to the container body (10) and provided with a spiral groove (42); a lifting member (50) rising under the effect of a rotation of the shoulder (30) and provided with a lifting projection (52); a pump casing (60) rising with the lift member (50); a delivery pump (70) rising with the pump housing (60) for pumping the first and second contents mixed with each other; and a push-button (80) coupled to the delivery pump (70) to be depressed or disengaged and provided with a discharge outlet (82).
公开号:FR3052153A1
申请号:FR1754786
申请日:2017-05-31
公开日:2017-12-08
发明作者:Do Hoon Lee
申请人:Pum Tech Korea Co Ltd；
IPC主号:

专利说明:

Container for mixing heterogeneous contents, improving production efficiency and sealing ability
The present invention relates to a container for mixing heterogeneous contents, improving production efficiency and sealability and, more particularly, a container for mixing heterogeneous content, wherein an element receiving a first content is divided into a part. upper and lower portion when rotating a shoulder formed on an outer face of the mixing container and, at the same time, a push button mounted at an upper end of a pump is exposed to an upper portion of the mixing container. In addition, the element receiving a first content comprises an upper separation capsule and a lower attachment cap, and first and second connecting pipes are respectively formed in one piece on the upper connecting cap and the lower cap of fixation. The process of assembling a content suction passage is simplified by direct insertion of the second connecting pipe into the first connecting pipe to form the contents suction passage, thereby improving the production efficiency and the sealability of the article. Generally, there are many cases where two or more different contents are mixed and serve to multiply the effectiveness or effect of cosmetic products or drugs housed in a container.
However, after the containers have been mixed, and then the mixed contents have been stored in a single container, when the mixed contents are circulated or stored, a chemical reaction may be produced in the container causing coagulation or precipitation. mixed contents, which may cause a spill error or discoloration or degradation of the mixed contents.
Thus, according to the prior art, different contents are respectively preserved in separate containers. Then, after opening the separate container inlets, the contents are mixed in a separate container to serve.
However, the method described above may be inconvenient to use and may cause loss of the container. In addition, when the contents stored in separate containers are put in a single container, the contents may fall and contaminate the surroundings.
Therefore, in recent years, a container for mixing has been developed and used so that different contents can be mixed and used in a timely manner under the action of a user, the different contents being kept in a single container while being isolated from each other and stored in a single container.
A container for mixing homogeneous contents according to the prior art has been presented in Korean Registered Utility Model No. 20-0270335, shown in FIG. 1. The homogeneous content mixing container includes an outer container, a delivery piece of liquid rotatably mounted on an upper portion of the outer container for discharging the contents, a sealing means mounted on a lower portion of the outer container and having a separating membrane, and an inner container enclosing a housing space, a lower cover being mounted around the lower portion of the outer container for raising, and a cutaway cap attached to an upper portion of the lower cover.
However, the operculum is first removed to use the container to mix heterogeneous contents according to the prior art. Then, after a pressure has been exerted on the lower cover to break the separation membrane, the top cover separates and the liquid delivery piece must then be depressed. The use of the container for mixing heterogeneous contents according to the prior art is therefore not convenient.
In order to solve the problems described above, as shown in Figure 2, a cosmetic container for mixing two types of contents was presented in Registered Korean Utility Model No. 20-0475601 requested by the Applicant of this application and issued to the latter.
The container for cosmetic products according to the prior art comprises an element 1 receiving a first content, containing a content 1 and comprising an upper separation capsule la and a lower fixing capsule lb, a container body 2 for a second content, intended for contain content 2; a mixing outlet piece 4 disposed on a lower portion of the container body for second content and serving as a mixed content outlet 3 obtained by mixing the contents 1 and the contents 2; a pump casing 5 mounted at an upper end of the element receiving the first content and provided, on either side thereof, with guide projections housed in a liftable spiral groove of a levable guide tube 6 and in a vertical groove of a shoulder 7; a piston pump 8 mounted inside the pump housing; and a push button 9 formed at an upper end of the piston pump.
Therefore, when the shoulder 7 is rotated, while the element 1 receiving a first content is divided into upper and lower parts, the content 1 mixes with the content 2 housed in the second content container body 2 and, at the same time, the push-button 9 protrudes upward from the cosmetic container.
However, according to the prior art mentioned above, the discharge pipe 1a, which passes through the upper separation cap 1a while being connected to the bottom of the piston pump 8 and is inserted into the lower fixing cap 1b, is furthermore designed to serve as a passage for the flow of the mixed contents 3, also the assembly process of the article is complex, which therefore adversely affects the manufacturing yield of the article.
In addition, according to the prior art, since there is no provision for a sealing structure between the pump casing 5 and the liftable pipe 6, the contents escape through the gap between the pump casing 5 and the pump casing 5. 6. Even though an O-ring is further mounted in the gap, the O-ring is pulled up during the sliding movements of the pump housing.
In addition, according to the prior art, as the O-ring 3 is mounted on one side of the lower attachment cap 1b to seal the element 1 receiving the first content, it is difficult to install the O-rings 3 on the lower attachment cap lb, so we risk getting a defective item.
To solve the problems described above, the present invention aims at providing a container for mixing heterogeneous contents, improving the production efficiency and sealing ability, wherein an element receiving a first content is divided into an upper part. and a lower portion when rotating a shoulder formed on an outer face of the mixing container and, at the same time, a push button mounted at an upper end of a pump is exposed to an upper portion of the mixing container. In addition, the element receiving a first content comprises an upper separation capsule and a lower attachment cap, and first and second connecting pipes are respectively formed in one piece on the upper connecting cap and the lower cap of fixation. The process of assembling a content suction passage is simplified by direct insertion of the second connecting pipe into the first connecting pipe to form the contents suction passage, thereby improving the production efficiency and the sealability of the article.
In addition, the present invention also aims at providing a container for mixing heterogeneous contents, improving the production yield and the sealing ability, wherein a sealing ring is formed on a lower cap of attachment of an element. receiving a first content using a double injection or insertion injection process to be closely applied to an upper separation capsule, and a sealing member formed in the bottom of a housing of a pump by means of a double-injection or insertion-injection process so that it is applied to an inner periphery of a levable guide element, which improves the sealing ability of the element receiving a first content and prevents the contents from escaping by a gap between the pump housing and the levable guide element.
According to the present invention, there is provided a container for mixing heterogeneous contents, improving manufacturing efficiency and sealability, which comprises: a container body (10) for containing a second content; an element (20) receiving a first content, formed in the container body (10) to contain a first content and comprising an upper separation capsule (22) and a lower attachment capsule (24); a shoulder (30) mounted on the rotatably containing body (10); a levable guide member (40) attached to the container body (10) and provided with a spiral groove (42); a lifting member (50) rising under the effect of a rotation of the shoulder (30) and provided with a lifting projection (52); a pump casing (60) rising with the lift member (50); a delivery pump (70) rising with the pump housing (60) for pumping the first and second contents mixed with each other; and a push-button (80) coupled to the discharge pump (70) to be recessed or disengaged and provided with a discharge outlet (82), a first connecting pipe (222) being integrally formed on the upper separation capsule (22) of the element (20) receiving a first content, a second connecting pipe (242) being integrally formed on the lower attachment capsule (24) and being inserted into the first connecting pipe (222), a sealing ring (26) being formed, in the lower fixing cap (24) of the element (20) receiving a first content, using a double process injection or injection injection and being tightly applied to an inner periphery of the upper separation capsule (22), and a sealing member (62) being formed in the bottom of the pump housing (60), using a process of double injection or injection injection and being applied on a forto ur inside the levable guide member (40).
The container for mixing heterogeneous contents may further include a bottom cap (90) mounted in the bottom of the container body (10), a suction space (92) being formed in the bottom cap (90).
The container body (10) may be provided, at a lower end thereof, with a through-hole (12) through which the lower fastening cap (24) passes to be fixed, and an inlet (14) of suction space may be provided between the through hole (12) and the lower attachment cap (24). The lifting member (50) may be provided on an inner periphery thereof with a first locking projection wheel (54).
The pump housing (60) may be provided on an outer periphery thereof with a second locking projection wheel (64).
The pump housing (60) may be provided, on an inside periphery thereof, with a third locking projection wheel (66).
The upper separation capsule (22) may be provided, on an outer periphery of an upper portion thereof, with a fourth locking projection wheel (226).
According to the present invention, the container for mixing heterogeneous contents comprises the element receiving a first content, comprising the upper separation capsule and the lower attachment cap, and the first and second connecting pipes respectively integrated with the upper separation cap. and the lower fixation cap, the second connecting pipe being inserted directly into the first connecting pipe to form the content suction passage, so is the process of assembling the content suction passage simple; which improves the manufacturing efficiency of the article.
In addition, depending on the container for mixing heterogeneous contents, improving the production efficiency and the sealing ability, the sealing ring is formed on the lower fixing cap of the element receiving a first content, to using a double-injection or insertion-injection process, so that it is tightly applied to the upper separation capsule, and the sealing element is formed in the bottom of the pump housing, to the by a double injection or insertion injection process, so that it is tightly applied to the inner periphery of the levable guide member, thereby improving the sealability of the receiving member a first content and prevents the contents from escaping through the gap between the pump casing and the levable guide member. The invention will be better understood from the detailed study of some embodiments taken as nonlimiting examples and illustrated by the appended drawings in which: FIG. 1 is a view showing a container for mixing heterogeneous contents according to the prior art; FIG. 2 is a view representing a container for a cosmetic product, for mixing two types of contents according to the prior art; Figure 3 is a perspective view showing a container for mixing heterogeneous contents, improving manufacturing efficiency and sealability, according to one embodiment of the present invention; FIG. 4 is an exploded perspective view showing a container for mixing heterogeneous contents, improving manufacturing yield and sealability, according to one embodiment of the present invention; FIG. 5 is a sectional view showing a container for mixing heterogeneous contents, improving manufacturing efficiency and sealability, according to one embodiment of the present invention; FIG 6 is a sectional view showing a state in which heterogeneous contents are mixed and, at the same time, a push button appears or disappears following the rotation of the shoulder of a container for mixing heterogeneous contents, improving manufacturing efficiency and sealability, according to one embodiment of the present invention; FIG. 7 is a sectional view showing a state in which the mixed contents are discharged by pressing a push-button of a container to mix heterogeneous contents, improving the production yield and the sealing ability, according to one embodiment of the present invention; and FIG. 8 is a sectional view showing a state in which the mixed contents are sucked up while pushing up a pushbutton of a container to mix heterogeneous contents, improving manufacturing efficiency and sealability. according to one embodiment of the present invention.
A container for mixing heterogeneous contents, improving manufacturing yield and sealability, according to one embodiment of the present invention will now be described with reference to the accompanying drawings.
Fig. 3 is a perspective view showing a container for mixing heterogeneous contents, improving manufacturing yield and sealability, according to an embodiment of the present invention. Fig. 4 is an exploded perspective view showing a container for mixing heterogeneous contents, improving manufacturing efficiency and sealability, according to one embodiment of the present invention. Fig. 5 is a sectional view showing a container for mixing heterogeneous contents, improving manufacturing yield and sealability, according to one embodiment of the present invention.
According to one embodiment of the present invention, there is provided a container for mixing heterogeneous contents, improving manufacturing yield and sealability, which comprises a container body 10 for containing a second content; an element 20 receiving a first content, formed in the container body 10 to contain a first contents and comprising an upper separation capsule 22 and a lower attachment cap 24; a shoulder 30 mounted on the rotatably containing body 10; a levable guide member 40 attached to the container body 10 and provided with a spiral groove 42; a lifting member 50 rising under the effect of a rotation of the shoulder and being provided with a lifting projection 52; a pump casing 60 rising with the lift member 50; a delivery pump 70 rising with the pump housing 60, the delivery pump 70 pumping the first and second contents mixed with each other; and a push-button 80 coupled to the discharge pump 70 to be able to be pushed in or out and provided with a discharge outlet 82.
A second content is housed in the container body 10, and a coupling hole 15, in which the levable guide member 40 is mounted, is formed in an upper part of the container body 10.
A first coupling projection 16 is formed on an outer periphery of a lower portion of the container body 10, and a plurality of anti-rotation grooves 17 are formed on a underside of the first coupling projection 16.
A lower downward extension 18 is formed at a lower end of the container body. A through hole 12 is formed within the lower extension 18 such that the lower attachment cap 24 passes through the through hole 12 to be secured.
A plurality of through-hole projections 122 are formed on an inner periphery of the through-hole 12. The through-hole projections 122 protrude inwardly of the through-hole 12. A suction-space inlet 14, through which are introduced the first and second contents during their mixing, is formed between the projections 122 of through hole.
A bottom cap 90 for closing a lower portion of the container body 10 may further be mounted at the bottom of the container body 10.
A second protrusion 96 is formed on an inner periphery of an upper portion of the lower cap 90 and is coupled undercut with the first mating protrusion 16 of the container body 10.
A plurality of anti-rotation protrusions 97, which retain the lower cap 90 such that the lower cap 90 is prevented from spinning without any traction on a lower face of the second coupling projection 96. The anti-rotation protrusions 97 are inserted into anti-rotation grooves 17 of the container body 10.
An upwardly extending upper extension 98 is formed within the lower capsule 90, so that the lower extension 18 is housed within the lower capsule 90.
A suction space 92 is formed within the upper extension 98. The first and second contents mixed with each other in the container body 10 are stored temporarily in the suction space 92 by the pump. of repression 70.
A sealing ring 95 of elastic material may further be formed in the suction space 92 to maintain the sealing of the suction space 92. An outer periphery of the sealing ring 95 is closely applied on an inner periphery of the upper extension 98 of the lower capsule 90 and an upper surface of the sealing ring 95 is tightly applied to a lower end of the lower extension 18 of the container body 10. The element 20 receiving a first content is formed in the container body 10 and contains the first content. The element 20 receiving a first content comprises the upper separation capsule 22 and the lower fixing catch 24. The upper receiving capsule 22 and the lower attachment catch 24 are coupled to one another and are separated from each other. each other at the time of use, so that the first content accommodated in the first content receiving element 20 is mixed with the second content accommodated in the container body 10.
The upper separation capsule 22, which is mounted in the pump casing 60, rises with the pump casing 60 when the shoulder 30 is rotated.
A plurality of fourth locking wheel lockers 226 are formed on an outer periphery of an upper portion of the upper separation capsule 22. An upward convexly hemispherical top receiver member 224 is formed on a lower face of the fourth wheel 226 with locking projection. A first connecting pipe 222 extends downwardly from the center of the interior of the upper receiving member 224.
The lower attachment cap 24 is fixed during its passage through the through hole 12 of the container body 10.
An attachment groove 246 in which a through-hole protrusion 122 of the container body 10 is formed is formed on an outer periphery of the lower portion of the lower fastening capsule 24. A hemispherical-shaped lower receiving member 244 concavits to the The top is formed on an upper face of the lower attachment cap 24. A second connecting pipe 242 extends upwardly from the center of the interior of the lower receiving member 244.
A sealing ring 26 of elastic material is formed on the upper portion of the lower receiving member 244 of the lower attachment cap 24, by a double injection or insertion injection process such that the ring sealing 26 is applied to an inner periphery of the upper receiving member 224 of the upper separation capsule 22.
Thus, the sealability and manufacturing yield of the first contents receiving member 20 comprising the upper separation capsule 22 and the lower fixing cap 24 are improved.
In this way, according to the prior art, as shown in FIG. 2, since the O-ring 3 is mounted on the lower attachment cap 24, the assembly process for providing the O-ring 3 with the lower attachment cap 24 is not simple, also defective items are frequently obtained, which adversely affects the manufacturing performance of the article. In contrast, according to the present invention, since the sealing ring 26 is formed on the lower attachment cap 24 by a double injection or insertion injection process, there is no longer any assembly process of the sealing ring 26, which improves the manufacturing efficiency of the article. In addition, the sealing ring 26 is integrated with the lower fixing cap 24 by means of a double injection or insertion injection process, which improves the sealing ability.
In addition, the first connecting pipe 222 is integrally formed on the upper separation capsule 22 of the first content receiving member 20, and the second connecting pipe 242 is integrally formed on the first lower attachment cap 24 to be inserted into the first connecting pipe 222.
Thus, according to the prior art, as shown in FIG. 2, the discharge pipe 1a, which passes through the upper separation capsule 1a while being connected to the bottom of the piston pump 8 and is inserted into the lower capsule of 1b attachment, is further formed to serve as a flow passage of the mixed contents 3, also the assembly process of the article is complicated, which adversely affects the manufacturing yield of the article.
Thus, to solve the problems, the mixing container according to the present invention comprises the first and second connecting pipes 222 and 242 formed integrally, respectively on the upper separation capsule 22 and the lower fixing capsule 24. De further, the second connecting pipe 242 is directly inserted into a bottom portion 222 to form a suction passage 28 of contents, so that the process of assembling the contents suction passage is simplified in comparison with that of the prior art, which improves the manufacturing efficiency of the article. The shoulder 30 is rotatably mounted on an upper portion of the container body 10 to rotate the lift member 50.
A vertical guide groove 32 in which is inserted the lifting projection 52 of the lifting member 50 and an anti-repair projection wheel 34 which holds the shoulder 30 to prevent the shoulder 30 from separating from an upper part of the levable guide member 40 are formed on an inner periphery of the shoulder 30.
An outlet discharge insertion groove 36, into which the discharge outlet 83 of the pushbutton 80 is inserted, is formed on one side of an upper part of the shoulder 30. The levable guide member 40 is mounted in a fixed manner on the upper part of the container body 10 so that the lift member 50 rises while being rotated.
A receiving projection wheel 41, placed at an upper end of the container body 10, protrudes from the outer periphery of the levable guide member 40 so that the levable guide member 40 is prevented from falling into the interior. of the container body 10.
A spiral groove 42 in which is inserted the liftable projection 52 of the lift member 50 is formed on an upper portion of the wheel 41 receiving projection. A second anti-separation projection wheel 44, with which a first anti-separation projecting wheel 34 is engaged, of the shoulder 30 is formed on an upper part of the spiral groove 42.
A coupling projection 45 inserted into the coupling hole 15 of the container body 10 is formed on a lower part of the receiving projection wheel 41 and is secured so that the levable guide member 40 is prevented from disengage from the container body 10 or rotate without any traction. The lift member 50 is formed within the leverable guide member 40 and rises while being rotated in conjunction with the shoulder 30.
The lifting projection 52 is formed on the outer periphery of the lift member 50 and is inserted into the spiral groove 42 of the liftable guide member 40 so that the liftable projection 52 slides and rises as it moves. is rotated by the shoulder 30.
A first locking wheel 54, which raises the pump casing 60 when the lifting element 50 is raised, is formed on the inner periphery of the lift member 50. A first wheel 56 with a fixing projection for fixing the Delivery pump 70 projects inwardly from an upper face of the first wheel 54 with a locking projection.
The pump housing 60 is formed inside the lift member 50 and rises together with the lift member 50.
A second locking projection wheel 64 which is engaged with the first lockable wheel 54 of the lift member 50 is formed on the outer periphery of the pump housing 60. A third lock-locking wheel 66 which is engaged with a fourth protruding wheel 226 of the upper separation capsule 22 to be lifted with the upper separation capsule 22 when the pump casing 60 is raised protrudes inwardly from an inner periphery of a lower portion of the pump housing 60.
A sealing member mounting means 61 extends downwardly from the outer periphery of the lower portion of the pump housing 60. The sealing member 62 of elastic material is formed on the sealing member mounting means 61 by a double injection or insertion injection process while surrounding the mounting means 61. sealing member, such that the sealing member mounting means 61 is closely applied to the inner periphery of the levable guide member 40.
Thus, the sealing member 62 prevents contents from leaking through the gap between the pump housing 60 and the liftable guide member 40 when the body 10 is tilted or turned over. The sealing member 62 is in an annular form and includes an inner ring 622, a connecting means 624 extending outwardly from the inner ring 622 and an outer ring 626 extending upwardly from the inner ring 622. connecting means 624.
The sealing member 61 of the pump housing 60 is inserted between the inner ring 622 and the outer ring 626 of the sealing member 62.
A plurality of projecting projection wheels 626a are formed on an inner periphery of the outer ring 626. An attachment groove 61a is formed at a location corresponding to the protruding wheel 626a.
A protruding wheel 626b is formed on an outer periphery of the sealing member 62 to be closely applied to an inner periphery of a lower portion of the levable guide member 40. The sealing member 62, the sealing ring 26 and a ring 95 of airtightness are of elastic material and, preferably, are made of a material selected from natural rubber, an elastomer, silicone rubber and acrylonitrile-butadiene rubber (NBR), polypropylene (PP) or polyethylene (PE).
The delivery pump 70 is installed inside the pump housing 60. The discharge pump 70 is caused to rise together with the pump casing 60 to pump the first and second mixed contents into the container body 10.
The discharge pump 70 is mounted on an upper portion of the upper separation capsule 22 while being located at an upper end of the pump housing 60. The delivery pump 70 comprises a cylinder 71 provided, on a lower part thereof, with a suction hole 78 of contents, a non-return valve 72 for selectively opening or closing the suction hole 78 of contents, a sealing member 73 mounted on an upper part of the cylinder to seal the inside of the cylinder 71, a piston 74 formed inside the cylinder 71, a piston segment 75 disposed at the outside the piston 74 to be closely applied to an inner side surface of the cylinder 71, a movable vertical member 76 mounted on an upper portion of the piston, 74, and a resilient member 77 for resiliently supporting the movable vertical member 76 .
A second wheel 716 with a fixing projection, on which a fixed pressure is exerted by the first wheel 56 with a projection for fixing the lifting element 50, is formed on an outer periphery of an upper part of the cylinder 71 of the pump. repression 70.
In addition, a pump sealing ring 79 may be further formed between the second wheel 716 with the projection of the cylinder 71 and the upper end of the pump housing 60.
The push-button 80 is mounted on an upper part of the discharge pump 70 so as to be able to go in or out
The discharge outlet 82 for discharging the contents pumped by the discharge pump 70 is formed on one side of the pushbutton 80.
A downwardly extending pump coupling means 84 is formed on an inside of the push-button 80 and is coupled with the movable vertical member 76 of the discharge pump 70. A discharge passage 86 is formed without the pump coupling means 84.
A method for assembling a container for mixing heterogeneous contents, improving manufacturing yield and sealability, according to one embodiment of the present invention will now be described in detail.
To assemble the container for mixing heterogeneous contents, improving manufacturing efficiency and sealability, according to one embodiment of the present invention, as shown in Figs. 4 and 5, after the ring of Air tightness 95 was first installed inside the upper extension 98 of the lower cap 90 and the lower cap 90 was mounted on the underside of the container body, the inside of the container body 10 is filled with the second content.
When the lower cap 90 is coupled to the container body 10, the first coupling projection 16 of the container body 10 is engaged in undercut engagement with the second coupling projection 96 of the lower cap 90 while the projection anti-rotation 97 is inserted into the anti-rotation groove 17 of the container body 10.
Then, the element 20 receiving a first content is filled with the first content. The upper separation capsule 22 of the element 20 receiving a first content is returned to fill the upper reception element 224 of the upper separation capsule 22 with the first content and the lower attachment capsule 24 is coupled with the upper capsule. separation 22.
In this case, the sealing ring 26 is formed on the upper part of the lower receiving element 244 of the lower fixing cap 24 by means of a double injection or insertion injection method, such that the sealing ring 26 is tightly applied to the inner periphery of the upper receiving element 224 of the upper fixing cap 22. The element 20 receiving a first content is then housed in the underside of the housing 60 of pump. The fourth impeller 226 with a locking projection of the element 20 receiving a first content passes over the third wheel 66 with the locking projection of the pump housing 60.
After that, the discharge pump 70 is installed inside the pump housing 60, and the pump housing 60 is inserted into the lower part of the levable guide element 40.
In this case, the sealing member 62 is formed on the sealing member 61 of the pump housing 60 by means of a double injection or insertion-injection process of such a kind. that the sealing member 62 is closely applied to the inner periphery of the levable guide member 40.
Then, while the lift member 50 is inserted between the liftable guide member 40 and the pump housing 60, the lift member 50 is coupled to the pump housing 60. The liftable projection 52 of the lift member 50 is inserted into the spiral groove 42 of the liftable guide member 40, and the first lockable wheel 54 of the liftable member 50 passes over the second wheel 64. protruding pump housing lock. The first wheel 56 with a projecting projection of the lifting element 50 presses on the upper end of the second wheel 716 with the fixing projection of the delivery pump 70 to fix the second wheel 716 with a fixing projection. The levable guide member 40 assembled as described above is then coupled with the upper portion of the container body. The coupling protrusion 45 of the levable guide member 40 is coupled with the coupling hole 15 of the container body 10 and, at the same time, the projection wheel 41 of the levable guide member 40 is placed at the upper end of the container body.
In addition, while the underside of the lower attachment cap 24 passes through the through hole 12 of the container body 10, the through-hole projection 122 of the through-hole 12 is housed in the fastening groove 246 of the lower attachment cap 24, thereby forming the inlet 14 through which the first and second contents are fed into the suction space 92 of the lower capsule 90. The shoulder 30 is then coupled with the top of the guide member The lifting projection 52 of the lifting element 50 is inserted into the vertical guide groove 32 of the shoulder 30 and the first wheel 34 protruding against separation of the shoulder 30 passes over the second wheel 44. protruding anti-separation of the levable guide element 40.
Finally, the push-button 80 is mounted on the upper part of the shoulder 30. The push-button pump coupling means 80 is mounted on the movable vertical element 76 of the delivery pump 70, and the discharge outlet 82 is inserted into the outlet discharge insertion groove 36 of the shoulder 30, which puts an end point to the assembly of the container for mixing heterogeneous contents, improving the production efficiency and the ability to the seal, according to the present invention.
With reference to the accompanying drawings, there will now be described a method of using the container for mixing heterogeneous contents, improving manufacturing yield and sealability, assembled as described above.
Fig. 6 is a sectional view showing a state in which heterogeneous contents are mixed and, at the same time, a push button appears or disappears as a result of the rotation of the shoulder of a container for mixing heterogeneous contents, Improving the manufacturing yield and sealability according to one embodiment of the present invention. Fig. 7 is a sectional view showing a state in which the mixed contents are discharged by pushing a push-button of a container to mix heterogeneous contents, improving production efficiency and sealability, according to the present invention. Fig. 8 is a sectional view showing a state in which the mixed contents are sucked up while a push-button of a container is being raised to mix heterogeneous contents, improving the production yield and the ability to sealing according to the present invention.
In order to use the container for mixing heterogeneous contents, improving production efficiency and sealing ability, according to the present invention, the container body 10 is first held with one hand and with the other hand , the shoulder 30 is turned in the counterclockwise direction.
As shown in FIG. 6, when the shoulder 30 is rotated counterclockwise, the lift member 50 is rotated together with the shoulder 30. In this case, while the liftable projection 52 of the Liftable element 50 slides in the state where the lifting projection 52 is inserted into the spiral groove 42 of the levable guide member 40, the lifting projection 42 rises.
As described above, as the lift member 50 rises, the first lock projection wheel 54 raises the second lock projection wheel 64 of the pump housing 60 and, at the same time, the third projection wheel 66 locking the pump housing 60 raises the fourth wheel 226 locking projection of the upper separation capsule 22, so that the pump housing 60, the discharge pump 70 and the upper separation capsule 22 rise together with the liftable element 50.
In this case, as the lower attachment cap 24 is immobilized by the through-hole protrusion 122 of the container body 10, while the upper separation cap 22 and the lower attachment cap 24 are separated from each other the first content housed in the element 20 receiving a first content is mixed with the second content housed in the container body 10.
After that, as shown in FIG. 7, when the push-button 80 is depressed, while the push button 80 is sinking, the movable vertical member 76 and the piston 74 of the delivery pump 70 coupled with the lower part of the push button 80 lower.
In this case, since the piston 75 of the delivery pump 70 is tightly applied to the inner side surface of the cylinder 71, while only the piston 74 is descending, an interval is created between the piston 74 and the piston segment 75 of such so that the backflow of content is created.
Then, when the push-button 80 is pressed continuously, the piston segment 75 is compressed by the lower end of the movable vertical member 76, so that the volume of the cylinder 71 decreases as the segment 75 The plunger piston 73 is lowered in conjunction with the piston 74. Thus, while the suction hole 78 of the contents of the nonreturn valve 72 is closed by the discharge pressure prevailing in the cylinder 71, the content housed in the cylinder 71 is delivered between the piston 74 and the piston ring 75, so that the content passes through the discharge passage 86 of the contents of the push-button 80 and is discharged via the discharge outlet 82.
As shown in FIG. 8, if the pressure exerted on the push-button 80 is released, the push button 80 rises under the effect of the elasticity of the elastic element 77 resiliently supporting the push-button 80 and the movable vertical member 76 mounted on the underside of the pushbutton 80 and the piston 74 also rise. In this case, as the detent projection wheel formed at the lower end of the outer face of the piston 74 lifts the piston segment 75, while the gap between the piston 74 and the piston ring 75 is obstructed, the piston 74 and the piston ring 75 rise together, so the volume of the cylinder increases, which creates a depression.
After that, while the check valve 72 is lifted by the depression created from inside the cylinder 71, the suction hole 78 of contents formed on the lower surface of the cylinder 71 is open, also the first and second contents mixed in the container body are introduced into the cylinder 71.
In this case, after the first and second mixed contents in the container body 10 have been introduced into the suction space 92 via inlet 13 of the suction space, the first and second contents are introduced into the cylinder via the suction passage 28 formed by the first connecting pipe 222 of the upper separation cap 22 and the second connecting pipe 242 of the lower mixing cap 24.

权利要求:
Claims (5)
[1" id="c-fr-0001]
A container for mixing heterogeneous contents, improving manufacturing yield and sealability, the container for mixing heterogeneous contents comprising: a container body (10) for containing a second content; an element (20) receiving a first content, formed in the container body (10) to contain a first content and comprising an upper separation capsule (22) and a lower attachment capsule (24); a shoulder (30) mounted on the rotatably containing body (10); a levable guide member (40) attached to the container body (10) and provided with a spiral groove (42); a lifting member (50) rising under the effect of a rotation of the shoulder (30) and provided with a lifting projection (52); a pump casing (60) rising with the lift member (50); a delivery pump (70) rising with the pump housing (60) for pumping the first and second contents mixed with each other; and a push-button (80) coupled to the discharge pump (70) to be recessed or disengaged and provided with a discharge outlet (82), a first connecting pipe (222) being integrally formed on the upper separation capsule (22) of the element (20) receiving a first content, a second connecting pipe (242) being integrally formed on the lower attachment capsule (24) and being inserted into the first connecting pipe (222), a sealing ring (26) being formed, in the lower fixing cap (24) of the element (20) receiving a first content, using a double process injection or insertion injection and being tightly applied to an inner periphery of the upper separation capsule (22), and a sealing member (62) being formed in the bottom of the pump housing (60), using a process of double injection or injection injection and being applied on a forto ur inside the levable guide member (40).
[2" id="c-fr-0002]
The heterogeneous content mixing container according to claim 1, further comprising a lower capsule (90) mounted in the lower container body (10), a suction space (92) being formed in the lower capsule (90). ).
[3" id="c-fr-0003]
The container for mixing heterogeneous contents according to claim 1, wherein the container body (10) is provided, at a lower end thereof, with a through hole (12) through which the lower fastening cap passes. (24) to be fixed, and an inlet (14) of suction space is formed between the through hole (12) and the lower attachment cap (24).
[4" id="c-fr-0004]
The container for mixing heterogeneous contents according to claim 1, wherein the liftable member (50) is provided, on an inner periphery thereof, with a first locking projection wheel (54), the housing ( 60) is provided on an outer periphery thereof with a second locking projection wheel (64), the pump housing (60) is provided with an inner periphery thereof a third locking projection wheel (66), and the upper separation cap (22) is provided on an outer periphery thereof with a fourth locking projection wheel (226).
[5" id="c-fr-0005]
A container for mixing heterogeneous contents according to claim 1, wherein the sealing member (62) comprises an inner ring (622), a connecting means (624) extending out of the ring interior (622), and an outer ring (626) extending upwardly from the connecting means (624), and a pump housing sealing member (61) is inserted between the inner ring (622) and the outer ring (626).

类似技术:

公开号 | 公开日 | 专利标题

FR3052153A1|2017-12-08|CONTAINER FOR MIXING HETEROGENEOUS CONTENTS, IMPROVING THE PRODUCTION YIELD AND THE SEALING PROPERTIES

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FR3101862A3|2021-04-16|JAR FOR COSMETICS OR OTHER LIQUID OR PASTE PRODUCTS

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同族专利:

公开号 | 公开日

JP2017214151A|2017-12-07|

US20170348714A1|2017-12-07|

CN107444784A|2017-12-08|

JP6329305B2|2018-05-23|

US10195625B2|2019-02-05|

KR20170136686A|2017-12-12|

FR3052153B1|2021-10-15|

KR101817065B1|2018-01-11|

CN107444784B|2019-07-16|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US1611601A|1926-06-15|1926-12-21|James T Fields|Sirup pump|

US2305286A|1940-07-29|1942-12-15|Knapp Monarch Co|Aerator and charging mechanism therefor|

US2533806A|1949-07-06|1950-12-12|Harry R Holzapfel|Bottle|

FR2722765B1|1994-07-25|1996-08-23|Oreal|CONTAINER ALLOWING THE STORAGE OF AT LEAST TWO PRODUCTS, THE MIXTURE OF THESE PRODUCTS AND THE DISTRIBUTION OF THE MIXTURE THUS OBTAINED|

FR2749833B1|1996-06-13|1998-07-31|Kerplas Snc|PRODUCT DISTRIBUTION CONTAINER|

JP4198332B2|2001-05-29|2008-12-17|株式会社吉野工業所|Mixing container|

KR200270335Y1|2001-10-10|2002-04-03|조휘철|A vessel for container the cosmetic differ in kind|

DE10231749B4|2002-07-13|2004-07-29|Aero Pump GmbH, Zerstäuberpumpen|Suction-pressure pump for dispensing a liquid from a container|

DE10315936A1|2003-04-03|2004-10-28|Ing. Erich Pfeiffer Gmbh|Discharge device for at least one medium|

US20090211927A1|2008-02-21|2009-08-27|Wu Kuo Cheng|Container structure for contain different beverages|

WO2010114309A2|2009-03-30|2010-10-07|Lee Jeong-Min|Bottle cap|

FR2953497B1|2009-12-09|2012-06-08|Valois Sas|HEAD OF DISTRIBUTION OF FLUID PRODUCT.|

TW201311513A|2011-09-09|2013-03-16|David Tong|Multi-medicament container|

KR101295505B1|2012-08-20|2013-08-09|이영재|Bottle cap with low end gasket|

KR101478978B1|2013-01-15|2015-01-07|연우|Cosmetic vessel having mixed two-type materials|

KR200475601Y1|2013-05-20|2014-12-24|펌텍코리아 |Mixing container for two contents|

CN203407941U|2013-09-02|2014-01-29|杭州厨意科技有限公司|Cup cover assembly of food processor|

EP2957347B1|2014-06-18|2017-02-22|Albea Thomaston Inc.|System for dispensing a mixture of a first product and a second product|

KR20170078392A|2015-12-29|2017-07-07|주식회사 에프에스코리아|Cosmetic container|FR3042181B1|2015-10-08|2020-02-28|Qualipac|DEVICE FOR PACKAGING AND DISPENSING BY DOSE OF A FLUID PRODUCT|

CN108820428B|2018-05-18|2019-11-19|杭州三晶工艺塑料有限公司|A kind of push type packaging bottle of skin care product|

KR102161515B1|2019-02-26|2020-10-05|코스맥스 주식회사|Cosmetic case|

KR102120247B1|2019-03-22|2020-06-17|펌텍코리아|Cosmetic container with improved sealing and convenience|

KR102178156B1|2019-03-28|2020-11-18|펌텍코리아|Heterogeneous contents mixing vessel|

KR102226973B1|2019-05-07|2021-03-15|주식회사 삼화|Mixing container having spuid|

KR20210064892A|2019-11-26|2021-06-03|펌텍코리아 |Discharge container of different contents|

KR20210064893A|2019-11-26|2021-06-03|펌텍코리아 |Discharge container of different contents|

KR102228242B1|2020-02-21|2021-03-15|강민구|Mud mixing device of pump vessel|

EP3925705A1|2020-06-16|2021-12-22|Zhejiang Z&Z Industrial Co., Ltd.|Vacuum pump|

KR102186826B1|2020-08-25|2020-12-04|전성규|Liquid container for beauty treatment combined with diffuser|

法律状态:
2018-05-09| PLFP| Fee payment|Year of fee payment: 2 |

2019-05-07| PLFP| Fee payment|Year of fee payment: 3 |

2020-05-18| PLFP| Fee payment|Year of fee payment: 4 |

2021-05-06| PLFP| Fee payment|Year of fee payment: 5 |

2021-05-07| PLSC| Search report ready|Effective date: 20210507 |

优先权:

申请号 | 申请日 | 专利标题

KR1020160068365A|KR101817065B1|2016-06-01|2016-06-01|Two kinds of contents mixing vessel with improved productivity and sealing force|

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