WO2015160183A1 - 용기 주입구 밀봉 및 주입장치 - Google Patents

용기 주입구 밀봉 및 주입장치 Download PDF

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Publication number
WO2015160183A1
WO2015160183A1 PCT/KR2015/003781 KR2015003781W WO2015160183A1 WO 2015160183 A1 WO2015160183 A1 WO 2015160183A1 KR 2015003781 W KR2015003781 W KR 2015003781W WO 2015160183 A1 WO2015160183 A1 WO 2015160183A1
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WO
WIPO (PCT)
Prior art keywords
insert
container
injection hole
inlet
sealing
Prior art date
Application number
PCT/KR2015/003781
Other languages
English (en)
French (fr)
Korean (ko)
Inventor
강흥묵
Original Assignee
강흥묵
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 강흥묵 filed Critical 강흥묵
Priority to JP2016563114A priority Critical patent/JP6279766B2/ja
Publication of WO2015160183A1 publication Critical patent/WO2015160183A1/ko

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D47/00Closures with filling and discharging, or with discharging, devices
    • B65D47/04Closures with discharging devices other than pumps
    • B65D47/06Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D51/00Closures not otherwise provided for
    • B65D51/14Rigid discs or spherical members adapted to be held in sealing engagement with mouth of container, e.g. closure plates for preserving jars
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D53/00Sealing or packing elements; Sealings formed by liquid or plastics material

Definitions

  • the present invention relates to a device for sealing and injecting a fluid inlet of a container, and more particularly, to simply and completely seal the inlet so that a fluid such as a gas or liquid filled in the container does not leak to the outside, It relates to a container inlet sealing and injecting device capable of injecting the same fluid to the interior of the container to have a pressure inside.
  • a container made of glass material or plastic material is provided with an injection hole for filling and filling liquid such as drinking water or gas such as gas into the container, thereby injecting a fluid such as liquid or gas through the injection hole. It will store a certain amount.
  • the inlet of the container has a stopper coupled to the inlet or press-fitted and sealed to prevent the fluid filled therein from flowing out.
  • a gas such as air that generates floating force is injected through an injection hole of a plastic bottle.
  • the inlet can be sealed by a stopper coupled to the inlet
  • the gas in the PET bottle with internal pressure does not completely prevent the outflow through the inlet and the stopper of the stopper to leak out over time. There was a problem that the floating force is lost by the gas.
  • Patent Document 1 KR10-2013-0016853 A
  • Patent Document 2 KR10-2010-0018070 A
  • the present invention is to solve the problems as described above, the object is to simply and completely seal the inlet so that the fluid such as gas or liquid filled in the container does not leak to the outside, and the fluid such as gas and liquid It is to provide a container inlet sealing and injecting device that can be injected into the interior of the container to have an internal pressure.
  • the present invention in the device for sealing the inlet of the container filled with a certain amount of fluid consisting of gas or liquid, and injecting the fluid, is inserted through the outer end of the inlet, An insert inserted into the injection hole by being inserted back through the inner end of the injection hole; At least one adhesive body extending outwardly from an outer surface of the insert and interposed between the outer surface of the insert and the inner surface of the inlet to generate a sealing force, the adherent being positioned inside the container The inserted insert is folded back so that the free end is directed toward the inner side of the container while being inserted back from the inner end of the inlet toward the outer end.
  • the insert has a protrusion in contact with the contact body folded to face the free end into the container.
  • the insert further includes a connection member for transmitting an external force to the insert to enable the insertion operation through the outer end of the injection hole.
  • the connecting member is provided with a connecting groove corresponding to the connecting projection protruding in the insert so that the drop of the insert disposed inside the container is difficult to fix.
  • the insert has at least one injection hole into which the fluid is injected, and once at the bottom of the insert to which the injection hole is exposed to cover and seal the injection hole by the internal pressure of the fluid filled in the container. It includes a fixed sealing plate.
  • the contact body has a first wing contacting the inner end of the inlet at the beginning of the fluid injection into the container to limit the discharge of the fluid through the inlet, and the inside of the fluid filled in the container at the end of the fluid injection into the container It includes a second wing which is inserted back by the pressure and in close contact with the inner surface of the injection hole in addition to the first wing or partially in contact with the inner surface of the injection hole.
  • the present invention is a device for sealing the inlet of the container filled with a certain amount of fluid consisting of gas or liquid, and injecting the fluid, comprising an insert disposed in the inlet, and outwardly from the outer surface of the insert A sealing part extending to have at least one adhesive body interposed to generate a sealing force between an outer surface of the insert and an inner surface of the injection hole;
  • An operation unit having a predetermined length connecting member connected to one end of the insert to provide an external force to insert the insert through an outer end of the injection hole;
  • an injection line connected to a first injection hole formed at an outer surface of the end of the connection member in the connection member and injected to fill the container with a fluid through the first injection hole exposed to the inside of the container.
  • the present invention is a device for sealing the inlet of the container filled with a certain amount of fluid consisting of gas or liquid, and injecting the fluid, comprising an insert disposed in the inlet, and outwardly from the outer surface of the insert A sealing part extending to have at least one adhesive body interposed to generate a sealing force between an outer surface of the insert and an inner surface of the injection hole; An operation unit having a predetermined length connecting member connected to one end of the insert to provide an external force to insert the insert through an outer end of the injection hole; And an injection part forming an injection line in communication with the second injection hole formed through the insert, in the connection member, and injecting the container with fluid through the second injection hole exposed to the inside of the container. It provides a container inlet seal and injection device comprising a.
  • the second injection hole is connected in contact with the nozzle provided at the end of the injection line, the insert is on the bottom surface to cover and seal the first injection hole by the internal pressure of the fluid filled in the container It includes a sealing plate to which one end is fixed.
  • the inlet is assembled with the inlet further comprises a guide portion is inserted into the placement member, the guide portion is formed with a female screw portion coupled to the male screw portion of the inlet port and the first inner diameter portion detachably assembled to the inlet, It is provided with a guide adapter of a predetermined length in contact with the outer surface of the connecting member formed through the second inner diameter portion for guiding the shangdong.
  • At least one O-ring member is provided between the inner surface of the second inner diameter portion and the outer surface of the connection member.
  • the boundary area between the first inner diameter portion and the second inner diameter portion is provided with at least one packing member in contact with the contact jaw protruding to the outer surface of the connecting member.
  • the insert has a protrusion in contact with the contact body folded to face the free end into the container.
  • connection member is provided with a connection groove corresponding to the connection projection protruding to the insert so that the fall of the insert disposed in the container is difficult to fix.
  • the insert has at least one injection hole into which the fluid is injected, and once at the bottom of the insert to which the injection hole is exposed to cover and seal the injection hole by the internal pressure of the fluid filled in the container. It includes a fixed sealing plate.
  • the contact body has a first wing contacting the inner end of the inlet at the beginning of the fluid injection into the container to limit the discharge of the fluid through the inlet, and the inside of the fluid filled in the container at the end of the fluid injection into the container It includes a second wing which is inserted back by the pressure and in close contact with the inner surface of the injection hole in addition to the first wing or partially in contact with the inner surface of the injection hole.
  • the insert is provided between the outer surface of the insert and the inner surface of the injection hole, which is provided on the outer surface of the insert which is inserted downward through the injection hole and then reversely inserted, so that the insert can be generated. It is possible to simply and completely seal the inlet of the container filled with a certain amount of fluid by the downward insertion and upward reverse insertion operation of the container.
  • FIG. 1 is an exploded perspective view illustrating a container inlet seal and injection device according to a first embodiment of the present invention.
  • FIG. 2 is a cross-sectional perspective view showing a container inlet seal and injection device according to a first embodiment of the present invention.
  • FIG 3 is a cross-sectional view illustrating a container inlet seal and injection device according to a first embodiment of the present invention.
  • 4A to 4E are operational flowcharts illustrating a container inlet seal and injection device according to a first embodiment of the present invention.
  • FIG. 5 is an exploded perspective view illustrating a container inlet seal and injection device according to a second embodiment of the present invention.
  • FIG. 6 is a cross-sectional perspective view illustrating a container inlet seal and injection device according to a second embodiment of the present invention.
  • FIG. 7 is a cross-sectional view showing a container inlet seal and injection device according to a second embodiment of the present invention.
  • 8A to 8F are operational flowcharts illustrating a container inlet seal and injection device according to a second embodiment of the present invention.
  • 9A and 9B are operation state diagrams illustrating a container inlet seal and injection device according to a third embodiment of the present invention.
  • the container inlet sealing and injecting device 100 includes a container 1 filled with a fluid such as a beverage or a gas such as air.
  • the inlet 2 can be easily and completely sealed to prevent fluid leakage, and includes an insert 111 and an adhesive body 113 to obtain a sealing force using the internal pressure of the fluid filled into the container. do.
  • the insert 111 is provided at the end of the container (1) is inserted into the interior of the container through the outer end (2a) of the injection port (2) through which the injection and discharge of fluid is made, and then the By reverse insertion through the inner end 2b, it is a cylindrical insertion structure which is disposed inside the hollow hole cylindrical injection port 2.
  • the insert 111 has a corresponding insertion from the top to the bottom in the drawing through the outer end 2a of the inlet 2 at the outside of the container 1 and the inner end of the inlet 2 at the inside of the container ( 2b) is made of a cylindrical body having an outer diameter relatively smaller than the inner diameter of the injection hole 2 to enable reverse insertion from the bottom to the upper direction in the drawing, and made of an elastic body such as rubber, resin or plastic. desirable.
  • the insert 111 is preferably provided with a size having substantially the same or relatively short length and the length between the outer end (2a) and the inner end (2b) of the injection hole (2).
  • the close contact body 113 may extend in a radial direction outward from the outer surface of the insert 111, may be formed in a ring-shaped plate body that is continuous in the circumferential direction and has a predetermined thickness.
  • the adhesive body 113 is interposed between the outer surface of the insert 111 and the inner surface of the injection hole 2 to be in close contact to generate a sealing force to prevent the fluid filled in the interior of the container from leaking to the outside.
  • the close contact body 113 extending to the outer surface of the insert 111 has an insert 111 positioned inside the container 1 from an inner end 2b of the injection port 2 to an outer end 2a.
  • the starting end extending from the insert is naturally folded and interposed between the outer surface of the insert and the inner surface of the injection hole in the process of reverse insertion toward the free end 113c toward the inside of the container. It is a close contact.
  • the contact body 113 is in contact with the inner end (2b) of the inlet 2 in the initial injecting the fluid into the container (1) to limit the discharge of the fluid through the inlet (2) to the outside
  • the injection port 2 while being inserted back together with the first blade 113a by the internal pressure of the fluid filled in the container at the end of the fluid injection in which the fluid is completely filled in the container 1.
  • It includes a second wing 113b in close contact with the inner surface of the) to generate a sealing force.
  • the second blade 113b is a portion of the wing including a starting end extending from the insert is located on the inner surface of the injection hole while the rest of the wing including a free end from the inner end of the injection hole to have a wedge function It is preferable to protrude to the inside of the container.
  • the close contact body 113 is shown and described as being provided on the upper and lower outer surfaces of the insert 111, respectively, but is not limited thereto, and may be provided as a number or more than one wing, the injection hole
  • the second blade 113b which is located at the inner end of (2) and is in close contact with the inner surface, has a first wing 113a adjacent to the outer end so as to increase the sealing force at the inner end 2b by the wedge function. It is preferable to have a thickness of a size relatively larger than the thickness of the.
  • the first wing 113a and the second wing 113b protruding in a ring shape from the outer surface of the insert 111 are illustrated and described as being provided with the same outer diameter, but the present invention is not limited thereto.
  • the free end of the second wing 113b located near the inner end 2b of the inner end 2b may be provided with different outer diameters so as not to be caught by the inner end and pushed out of the container.
  • the insert 111 is folded in contact with the free end 113c toward the inner end 2b of the injection hole 2 so as to increase the sealing force between the injection hole and the insert 113.
  • 113b In contact with the first and second wings 113a, 113b may be provided with at least one ring-shaped protrusion 115 having an arc-shaped cross section so as to increase the overall outer diameter of the insert 111, the second The protrusion 115 which is in contact with the second wing formed near the wing 113b is formed near the first wing 113a adjacent to the outer end so as to increase the sealing force at the inner end 2b. It may be provided with a relatively larger outer diameter than the protrusion.
  • the second blade 113b positioned at the inner end of the injection hole 2 and in close contact with the inner surface thereof has a first wing adjacent to the outer end of the injection hole so as to increase the sealing force at the inner end 2b. It is preferable to have a thickness of a size relatively larger than the thickness of 113a). .
  • the protrusions 115 protruding in the arc-shaped cross-section so as to be adjacent to the first and second blades from the outer surface of the insert 111 are also shown and described as having the same outer diameter, but is not limited to this, the injection hole (2) End portions of the second wing 113b located near the inner end 2b of the may be provided with different outer diameters so as not to be caught by the inner end and pushed out of the container.
  • the protrusions 115 protruding close to the first and second wings, which are the close contact bodies 113 extending from the insert 111, are adjacent to the close contact bodies which are folded toward the outer end side of the injection hole. It should be provided at a position closer to the inner end 2b of the injection hole than the two wings 113a and 113b.
  • the insert 111 includes a connection member 116 of a predetermined length to provide an external force of a certain strength to enable the operation of inserting from the top to the bottom through the outer end (2a) of the inlet (2). .
  • the connecting member 116 is exposed through the inner end of the container and the insertion protrusion 111 protruding from the insert so that the insertion 111 disposed in the container is difficult to fall by its own weight and It may be provided with a coupling groove (116a) correspondingly.
  • the connecting groove 116a and the connecting protrusion 114 are moved upside down from the inner end of the injection port to the outer end by the internal pressure of the fluid filled in the container, It is preferable to be connected by an interference fit method or a screwing method so as to allow selective separation from the insert after sealing while temporarily fixing it in a difficult manner.
  • connection protrusion 114 is temporarily fixed to the connection groove 116a and temporarily fixed or connected, or by screwing the female screw portion formed in the connection groove 116a and the male screw portion formed in the connection protrusion 114. Can be connected.
  • connection method between the connecting member 116 and the insert 111 is not limited to the interference fit connection or screw connection, and the magnet using a locking method or magnetic force that can be attached and detached between the insert 111 and the connecting member 116.
  • Various temporary connection methods such as the method can be selectively employed.
  • connection member 116 is illustrated and described as being made of a rod member having a predetermined length, but is not limited thereto, and the dropping of the insert 111 disposed in the container through the injection hole 2 by the attraction force is performed. It can be placed in the inlet for difficult temporary fixation and can be replaced by a variety of means such as a wire to perform the connecting function.
  • connection protrusion 114 is shown and described as being formed to have a predetermined height in the bottom surface of the recess 112 recessed to a predetermined depth to open to the upper portion of the insert 111, but is not limited thereto. It may be protruded at the bottom of the connection member to correspond to the connection groove recessed in the insert.
  • the insert 111 penetrates at least one injection hole 118a through which the fluid supplied from the outside is injected in one direction at a supply pressure of a predetermined strength so as to inject the fluid into the container, and the container ( 1)
  • the injection hole 118a is exposed so that the injection hole 118a is naturally covered and sealed by the internal pressure of the filled fluid upon completion of the fluid injection therein, and the insert 111 is affected by the internal pressure of the fluid.
  • the sealing plate 118 when the free end of the sealing plate 118 is opened to open the injection hole 118a during the fluid injection through the injection hole, and the internal pressure of the fluid filled in the container increases, The sealing plate 118 is in close contact with the bottom surface of the insert 111 by the internal pressure of the fluid to block the injection hole to block the outflow of the fluid through it.
  • the first and second wings which are the close contact bodies 113, are disposed. Since the contact and interference between the 113a and 113b and the injection hole 2 are naturally released, the first and second wings 113a and 113b extending from the outer surface of the insert are elastically restored to an initial state and the insert ( 111 is unfolded so as to be approximately perpendicular to the outer surface.
  • the insert 111 is coupled to the end of the connection member 116 held by the user and temporarily fixed to the upper side of the contact body in a state of being suspended from the end of the connection member without falling into the container.
  • One wing 113a is disposed to contact the inner end 2b of the injection hole 2.
  • Injection through the injection hole (118a) is the first wing (113a) that is in close contact with the outside of the insert 11 is in contact with the inner end of the injection port to limit the external discharge of the fluid through the injection port, this restriction May include discharge of a fluid, such as a gas remaining in the container, to the outside.
  • the insert 111 is filled with the fluid filled container. It is moved upward so as to be reversely inserted from the inner end of the injection port to the outer end side by the internal pressure of the inlet.
  • the first wing 113a and the second wing 113b constituting the close contact body 113 are folded so that each free end 113c faces the inside of the container which is the inner end 2b and is inserted into the injection hole.
  • the overall outer diameter of the insert is increased to generate a sealing force for sealing the inlet.
  • the second blade 113b is a portion of the wing including the start end starting from the outer surface of the insert 111 is located on the inner surface of the injection port while the rest of the wing including the free end is the insert It is preferable to protrude to the inside of the container together with the lower end portion of the insert from the inner end of the injection port so as to maintain the sealing function while preventing the 111 from being drawn out of the container by the internal pressure of the container.
  • connection member which is raised together with the insert releases the connection between the connection groove and the connection protrusion so as to be separated from the insert.
  • the container (1) by combining the external stopper 190 that is screwed with the external threaded portion (2c) formed on the outer surface of the inlet (2), the outer The stopper can be completely sealed together with the adhesive body so that the fluid injected into the container does not leak out.
  • the container inlet sealing and injecting apparatus 100a includes a container 1 filled with a fluid such as a beverage or a gas such as air.
  • the inlet 2 can be easily and completely sealed to prevent fluid leakage, and the sealing unit 110, the operating unit 120, and the injection unit can be obtained to obtain a sealing force by using the internal pressure of the fluid filled into the container.
  • the unit 130 is included.
  • the sealing unit 110 is inserted into the injection hole (2) of the container as in the first embodiment 111, and extends outward from the outer surface of the insert 111, the insert 111 At least one contact member 113 is interposed to generate a sealing force between the outer surface of the inlet and the inner surface of the injection port 2, the detailed description thereof will be omitted below, the same reference numerals for the same member To give.
  • the operation unit 120 includes a connection member 121 of a predetermined length to provide an external force of a predetermined strength to enable the operation of inserting from the top to the bottom through the outer end (2a) of the injection hole (2).
  • the connecting member 121 is a cylindrical member of a predetermined length having an outer diameter approximately the same as the inner diameter of the groove so that the end is inserted into the groove 112 formed in a predetermined depth recessed on the upper surface of the insert 111. Although illustrated and described as being made, but is not limited to this, it may be made in the form of a connecting bar that is a cylindrical member of a predetermined length having an outer diameter relatively smaller than the inner diameter of the groove.
  • the connecting member 121 is exposed through the inner end of the container and the connecting protrusion 114 protruding from the insert so that the insert 111 disposed in the container is temporarily fixed to fall due to its own weight and It may be provided with a corresponding coupling groove 121a.
  • connection groove 121a and the connection protrusion 114 may be reversely inserted into the outer end 2a from the inner end 2b of the injection port by the internal pressure of the fluid filled in the container, It is preferable that the insert is connected by an interference fit method or a screwing method so as to allow selective separation from the insert 111 after sealing while temporarily fixing the insert.
  • connection protrusion 114 is shown and described as being formed to have a predetermined height in the bottom surface of the recess 112 recessed to a predetermined depth to open to the upper portion of the insert 111, but is not limited thereto. It may be protruded at the bottom of the connection member to correspond to the connection groove recessed in the insert.
  • the injection unit 130 has an injection line 132 connected to the first injection hole 131 formed to expose the discharge end to the side outer surface of the end of the connection member 121, the body of the connection member 121 Is formed therein, the injection line 132 is in communication with the external supply line 133 having a regulator to supply the fluid injection through the first injection hole 131 while maintaining a predetermined supply pressure constant do.
  • the container is filled with the fluid through the first injection hole 131 inserted through the inlet 2 of the container and exposed together with the insert.
  • the first injection hole 131 is preferably formed near the lower end of the connection member 121, the first injection hole 131 is the groove when the coupling between the groove and the connection member of the insert
  • the assembly should be designed so as not to cover the first injection hole 131 exposed to the side by.
  • the injection unit 130 is in contact with the nozzle 134 provided at the end of the injection line 132 formed inside the body of the connection member, and is in communication with the second injection.
  • the ball 135 By forming the ball 135 through the insert 111, the fluid injected through the second injection hole can be filled in the container.
  • the insert 111 formed through the second injection hole 135 may naturally cover and seal the second injection hole 135 by the internal pressure of the fluid filled when the fluid injection in the container 1 is completed. It may be provided with a sealing plate 136, one end of which is fixed to the bottom surface.
  • the free end of the sealing plate 136 is opened to open the second injection hole while the fluid injection through the second injection hole is made, but when the internal pressure of the fluid filled in the container increases.
  • the sealing plate 136 is in close contact with the bottom of the insert to block the second injection hole 135 to block the external outflow of the fluid through it.
  • the injection hole 2 includes a guide 140 for guiding the connecting member to more smoothly perform the lowering operation to insert into the interior of the container through the injection hole.
  • the guide portion 140 forms a female screw portion 141a coupled to the male screw portion 2c formed on the outer surface of the injection hole 2 on the inner surface thereof, and thus, the first inner diameter part 141 detachably assembled to the injection hole. And a guide adapter 143 having a predetermined length through which the second inner diameter part 142 is formed to contact the outer surface of the connection member 121 to guide the shank movement of the connection member.
  • the second inner diameter portion 142 is preferably made of an inner diameter relatively smaller than the inner diameter size of the first inner diameter portion 141, the first inner diameter portion 141 and the second inner diameter portion 142 Each inner diameter size may be changed according to the outer diameter size of the injection hole 2 and the outer diameter size of the connecting member 121 assembled thereto.
  • At least one O-ring member 142a is provided between the inner surface of the second inner diameter portion 142 and the outer surface of the connection member 121 to limit the outflow of the fluid through the gap formed at the assembly portion. It is desirable to.
  • At least one packing member 145 is preferably provided to limit the outflow of the fluid through the gap formed between the inner surfaces of the guide adapter 143.
  • connection protrusion 114 of the insert 111 is shown.
  • connection groove 121a of the connection member 121 are temporarily fixed to each other, and the connection member 121 is inserted into the second inner diameter part 142 of the guide adapter 143, and then the connection member The insert 111 temporarily fixed to the lower end of the container is placed on the top of the inlet (2).
  • the insert 111 connected to the connection member is inserted and disposed in the injection hole inner surface, and as shown in FIG. 8C, the first inner diameter portion of the guide adapter 143 ( The guide adapter 143 is assembled to the injection hole 2 and fixed by screwing the 141 and the male screw part 2c of the injection hole.
  • the insert 111 connected to the lower end of the connecting member is an injection hole ( It is inserted into the injection hole through the outer end 2a of 2).
  • the insert 111 may be connected to the injection hole 2 by the lowering operation of the connecting member 121 assembled to the second inner diameter part 142 of the guide adapter 143.
  • the insert When inserted into the container through the inner end 2b, since the contact and interference between the first and second wings 113a and 113b, which are the close contact bodies 113, and the injection port 2 are naturally released, the insert The first and second wings 113a and 113b extending from the outer surface of the elastic member may be elastically restored to an initial state and unfolded to have a substantially right angle with respect to the outer surface of the insert 111.
  • the insert 111 connected to the end of the connection member 121 held by the user or suspended temporarily by the friction with the second inner diameter part 142 does not fall into the container, but the end of the connection member does not fall. It is maintained in a suspended state, the upper side of the first wing 113a of the close contact body is disposed to contact the inner end (2b) of the injection port (2).
  • the first injection hole 131 exposed laterally on the outer surface of the connecting member 121 is located in the inner end (2b) or the container of the injection hole 2 is exposed to the outside.
  • the second injection hole 135 is formed through the insert 111 and the nozzle 134 communicates with the second injection hole 135.
  • the sealing plate 136 which is in close contact with the bottom surface of the insert 111, is discharged by the earth output of the injected fluid. It flips over and opens a 2nd injection hole.
  • the sealing plate 136 is in close contact with the bottom surface of the insert by the internal pressure of the fluid to block the second injection hole 135 through this It will block the outflow of the fluid.
  • the upward movement of the guide adapter 143 is limited by the locking operation between the contact member 125 and the packing member 145 formed on the outer surface of the connection member 121 or a relatively thick thickness than the first wing. It is limited not to exceed the inner end of the container by the adhesion between the second wing and the inlet surface having a to prevent the outflow of the fluid through the gap generated in the assembly portion between the guide adapter and the connecting member.
  • the free end 113c of the first wing 113a and the second wing 113b constituting the contact body 113 of the insert 111 reversely inserted into the injection hole 2 has the inner side of the container.
  • the overall outer diameter of the insert is increased to generate a sealing force to naturally and completely seal the inlet 2.
  • the first wing 113a folded to face the free end toward the inside of the container is in close contact with the inner surface of the injection hole, and the second blade 113b has an insert inserted into the injection hole, separated from the injection hole, and separated from the injection hole. Part of the body including the free end so as not to lose is to be located in the wedge near the free end.
  • the fluid having a predetermined pressure When the fluid having a predetermined pressure is filled inside the container to have a preset internal pressure through the external supply line 133, the fluid remaining in the injection line by a regulator (not shown) connected to the external supply line. It is preferable to exhaust the gas to the outside.
  • connection member 121 which is raised together with the insert releases the connection between the connection groove and the connection protrusion period and is reversed in the injection hole. Separation and removal from the press-inserted insert 111, the male screw portion (2c) and the first inner diameter of the injection hole is disassembled and removed from the injection port (2) by disassembling the guide adapter 143.
  • the container 1 from which the guide adapter 143 is removed is coupled to the outer plug 190 which is screwed with the male screw part 2c formed on the outer surface of the injection hole 2 as in the first embodiment.
  • the outer plug is able to seal completely with the adhesive body so that the fluid injected into the container does not leak to the outside.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Closures For Containers (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
  • Filling Or Discharging Of Gas Storage Vessels (AREA)
PCT/KR2015/003781 2014-04-15 2015-04-15 용기 주입구 밀봉 및 주입장치 WO2015160183A1 (ko)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2016563114A JP6279766B2 (ja) 2014-04-15 2015-04-15 容器注入口密封及び注入装置

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