KR20120089162A - Heterogeneous substance receiving device - Google Patents

Abstract

      The receiving device containing heterogeneous materials used in combination with the contents discharge direction of the container includes a main body coupled to the container neck, and a receiving part having a storage space inside the main body, and an upper part of the main body having the receiving part. A body cover having a bend is configured, and an operating part sealing surface assembly part connected by a connecting part is connected to the inside of the upper part, and an operating part having a sealing part locking device is connected to the inside of the upper part. When lifting up, the sealed part coupled to the lower side of the closing part catching device is released from the receiving part sealing hole of the receiving part, and the heterogeneous material receiving device in which the heterogeneous material in the storage space of the receiving part is dropped and mixed through the receiving part sealing hole. In the upper opening portion of the operating part sealing surface assembly portion is placed, the operating part sealing surface assembly portion of the upper portion of the operating hole discharge opening It is a state.

Description

Heterogeneous substance receiver

    The present invention is a heterogeneous material receiving device that can mix the separate contents by touching a portion of the receiving device without a separate additional device to the contents in the container, there is a conventional technology is PCT / KR06 / 5416.

The container neck holds the lid, and the received lid safely holds the contents in the container and is present for opening and closing the contents.

However, existing beverages are produced by mixing all the ingredients in a beverage-making factory regardless of their type, especially in the case of vitamin beverages, in which the original ingredients are deteriorated in the distribution process.

The object of the present invention is to allow the dissimilar materials to be easily mixed in the storage space during the lifting of the operating part, and to prevent the sealing part from blocking the receiving part sealing hole after mixing.

    In addition, in order to prevent the detachment during the initial operation of the sealing part, the sealing part is caught in the space of the sealing part locking device which forms part of the operating part so that the sealing part is not lifted off while the operating part is raised. There is another purpose.

It is also another object to configure a receiving device that can discharge the mixed contents through the perforated discharge hole formed in the process of ascending the operating unit.

    The receiving device containing heterogeneous materials used in combination with the contents discharge direction of the container includes a main body coupled to the container neck, and a receiving part having a storage space inside the main body, and an upper part of the main body having the receiving part. A body cover having a bend is configured, and an operating part sealing surface assembly part connected by a connecting part is connected to the inside of the upper part, and an operating part having a sealing part locking device is connected to the inside of the upper part. For example, the lifting part coupled to the lower portion of the sealing part catching device is lifted out of the accommodating part sealing hole of the accommodating part, and the heterogeneous material in the storage space of the accommodating part is dropped and mixed through the accommodating part sealing hole.

    In addition, the inside of the upper opening has an operating part sealing surface assembly part, and the upper part of the operating part sealing surface assembly part is intended to achieve the purpose of the discharge hole of the operating part in an open state.

    In addition, the liquid or powder is put into the storage space of the receiving portion through the perforated discharge hole of the operation portion, and sealed through the prefabricated operation portion sealing surface which is a separate sealing means toward the operation portion sealing surface assembly in the discharge hole direction, Alternatively, the prefabricated actuating part sealing surface assembled to the actuating part sealing surface assembly part may be coupled in such a manner that the upper end seals the discharge hole and the lower end is assembled to the actuating part sealing surface assembly part.

And the prefabricated actuating part sealing surface assembled to the actuating part sealing surface assembly unit is to be integrated with the anti-counterfeiting cover assembled to the upper portion of the main body cover, the prefabricated operating part sealing surface is to be connected to the cover by a perforation line.

    In addition, the prefabricated operating part sealing surface is formed in the ring frame, the annular frame is formed in the form to prevent the escape from the upward caught by the exhaust air sealing part formed on the inner wall of the discharge hole of the operating part, the operating part sealing surface assembly portion of the main body cover It consists of an incision space part with a downward open direction.

    Alternatively, the main body coupled to the contents discharge direction of the container, there is a main body having a receiving portion with a storage space therein, the upper portion of the main body has a main body cover having an upper portion for receiving the operating portion, An auxiliary operation part assembly part is provided inside the upper part, and an auxiliary operation part is assembled to the auxiliary operation part assembly part, and an upper end of the auxiliary operation part is sealed in an upper airtight sealing part of the operation part. Assembled into, the receiving portion of the receiving portion with the storage space is assembled to the sealing portion, but the sealing portion is configured to be coupled to the connection fixing part of the auxiliary operation portion.

When the operating part is upward, the coupling part pulls up the upper sealing part, and when the auxiliary operating part is caught by the fixing jaw of the auxiliary operating part assembly part, the coupling part is separated from the upper sealing part to open the upper part of the operating part.

    Alternatively, the main body coupled to the contents discharge direction of the container, there is a main body having a receiving portion with a storage space therein, the upper portion of the main body has a main body cover having an upper portion for receiving the operating portion, the main body cover An auxiliary operating part assembly is provided inside the upper opening of the operation part to be in contact with the discharge air-tight part of the operating part, and the auxiliary operating part is assembled with an extended auxiliary operation part inside the auxiliary operation part assembly part, and the upper end of the auxiliary operation part is an upper discharge hole of the operation part. The sealing part is assembled in the form of being coupled to the upper sealing part of the auxiliary operation part, the sealing part is assembled in the receiving part sealing hole with the storage space, but the sealing part is configured to be coupled to the connecting unit to the connecting rod of the auxiliary operation part.

And when the operating part is upward, the discharge air-tight sealing part is pulled up and the upper sealing part, and if the auxiliary operation part is caught by the fixing jaw of the auxiliary operation part assembly portion, the discharge air-tight sealing part is separated from the upper sealing part to open the discharge hole of the operating part.

The mixed contents are discharged through the upper perforated discharge hole of the operating part, and the dischargeability of the mixed contents is significantly improved.

1 to 11 show a first embodiment of the present invention, Figure 1 shows a state in which the receiving device is coupled to the container neck, and at the same time shows the discharge hole of the operating part is open,
Figure 2 shows the cover is assembled in the discharge hole of the operation portion,
3 is a view showing a state in which the receiving portion is opened by lifting the operating portion in the same state as in FIG.
Figure 4 shows the main portion of the receiving portion, showing the assembled state of the sealing portion,
5 is a view showing a state in which the sealing portion catching device lifts the upper portion in the same state as in FIG.
Figure 6 shows the cover in a state in which the main incision,
Figure 7 shows the closed portion of the recessed state,
Fig. 8 is a side view of the operating portion, in which the space portion is made visible,
Figure 9 shows the main body cover in the state in which the incision is cut,
10 is a partial cross-sectional view of the main body sphere of the main body,
11 is a longitudinal sectional view showing a state in which a main body cover is assembled to a main body;
12 to 13 show another embodiment of the present invention, Figure 12 shows the discharge hole is open,
FIG. 13 shows a state in which the prefabricated operating part sealing surface is assembled to the operating part sealing surface assembly unit with respect to the discharge hole.
14 to 15 show yet another embodiment of the present invention, Figure 14 is a state before use,
FIG. 15 shows a state where the receiving portion is opened in the same state as in FIG. 14.
16 is a longitudinal sectional view showing yet another embodiment of the present invention.

Receiving device (1) containing a heterogeneous substance used in combination with the discharge direction of the contents of the container, the main body 10 is coupled to the container neck 101, and the storage space 12 into the interior of the main body 10 The receiving portion 11 is configured, the upper portion of the main body 10 having the receiving portion 11 is configured with a main body cover 20 having an upper sphere 21, the inside of the upper sphere 21 The actuating part sealing surface assembly part 23 connected by the connecting part 22 and the actuating part 30 having the sealing part catching device 31 are coupled to the inside of the upper spherical part 21 downwardly. When the upper portion 21 is lifted up, the sealing portion 40 coupled to the lower portion of the sealing portion catching device 31 leaves the receiving portion sealing hole 13 of the receiving portion 11, and the receiving portion 11 Heterogeneous material in the storage space 12 of the) to be mixed drop through the receiving portion sealing hole (13).

     In addition, the inner part of the upper sphere 21 has an operating part sealing surface assembly part 23, and the upper part of the operating part sealing surface assembly part 23 in the state where the discharge hole 34 of the operating part 30 is opened. The inside of the operation part 30 is to form a closed portion catching device 31 having a space 33 between the two sides of the cut portion 32 is a predetermined cut.

    The operation part 30 is such that the cutout portion 32 is positioned in the connecting portion 22 direction to be coupled through the bend space 24.

    In addition, the resilient piece 14 is disposed in an upper direction of the receiving part sealing hole 13 of the receiving part 11, and the sealing part 40 is coupled to the receiving part sealing hole 13 in the sealing part 40. Resilient assembly protrusion (41) protruding to the top of the) is caught in the space 33 of the closure portion catching device (31).

    In addition, the main body sphere insertion groove 25 of the main body cover 20 may be assembled and coupled to the center of the upper main body sphere 15 of the main body 10, but in some cases, the main body 10 and the main body cover ( 20 may be integrated and may be assembled inside the main body 10 after the receiving portion 11 is separately manufactured.

    In addition, various types of threads, adhesives, or other coupling parts suitable for the container neck of the container 100 are formed on the inner side wall of the side surface of the main body 10, or the container neck 101 will be described based on what is expressed as an example in the present invention. The first thread 17 or the second thread 18, which can be joined according to the thread shape of the head), that is, can be coupled to a plurality of container necks.

    In the case of the first screw thread 17, the inner diameter of the thread is larger than that of the second screw thread 18, and it is possible to couple to the plurality of container necks, and the lower side 16 of the main body 10 is the container 100. Depending on the shape of the size can be changed.

    In the present invention as described above, it is preferable to put the contents through the discharge hole 34 and seal the discharge hole 34 in a state in which the discharge hole 34 is opened as shown in FIG. 1. As shown in the figure, it is a good example of the prefabricated operating part sealing surface 52 to move through the integral cover 50.

    Preferably, in the process of coupling the cover 50 to the upper sphere 21 of the main body cover 20, the prefabricated operating part sealing surface 52 integrally formed by the perforation line 51 has the inside of the main body cover 20. It is a good example that it is coupled in a manner sandwiched in the upper inner wall portion 26 of the operating part sealing surface assembly 23, as shown in FIG.

    For reference, in the method of closing the discharge hole 34 of the operation unit 30, although it is shown in the drawing that the receiving device 1 is coupled to the container 100, this is the content of the drawings, In practice, it is a good example to carry out in a state where the receiving device 1 is not coupled to the container 100.

    In summary, liquid or powder is put into the storage space 12 of the accommodating part 11 through the perforated discharge hole 34 of the operation part 30, and the operating part is closed in the direction of the discharge hole 34. It is sealed through the prefabricated operating part sealing surface 52 which is a separate sealing means toward the assembly unit 23, the prefabricated operating part sealing surface 52 is connected to the cover 50 by a cut line 51. will be.

    And the prefabricated operating part sealing surface 52 assembled to the operating part sealing surface assembly 23, the upper end sealing the discharge air sealing part 35 of the discharge hole 34 and the lower end of the operating part sealing surface assembly It is coupled in a manner that is assembled to (23).

    In the receiving device 1 as described above, the cover 50 is separated from the main body cover 20 and the operation part 30 while the cutting line 51 is destroyed when the cover 50 is removed in the state as shown in FIG. 2. At this time, the prefabricated operating part sealing surface 52 is in a state fixed to the operating part sealing surface assembly 23 in a long way.

    And in the state as described above, when the lifting unit 30 is lifted up and the closing portion locking device 31 together with the operating unit 30, the lower closing portion locking device 31 jaw of the space 33 in the above process The hook 41 of the hook-shaped hook portion 40 is caught in the seal portion 40 is out of the receiving portion sealing hole 13, as shown in Figure 3 shown above.

    In addition, in the process as shown in FIG. 3, the heterogeneous material in the storage space 12 is dropped and mixed into the internal contents of the container 100 through the receiving part sealing hole 13, and the mixed contents are operated by the operating part 30. It will be discharged through the discharge hole 34.

    As the following description, FIG. 4 shows a state in which the sealing portion 40 seals the storage space 12 of the accommodating portion 11, and the above figure shows the sealing portion catching device on the elastic pieces 14 on both sides. The cleavage cut-out part 32 (refer to the code | symbol shown in FIG. 1) of 31 is shown.

    And FIG. 5 shows a state in which the closed portion catching device 31 hangs up the catching protrusion 41 of the closed portion 40 in the same state as in FIG. 4, that is, the closed portion 40 The resilient piece 14 is inclined in the direction of the receiving portion sealing hole 13 in the upward process, this is because the resilient piece 14 is designed to be inclined at a predetermined angle from the beginning.

    In addition, in the state as shown in FIG. 5, when the sealing part catching device 31 is lowered, the lower end of the sealing part 40 contacts the upper end of the elastic piece 14 so that the sealing part 40 is the receiving part sealing hole 13. It will not move in the direction.

    As illustrated in FIG. 6, the prefabricated operating part sealing surface 52 forms a ring frame 53, and the ring frame 53 is an exhaust air sealing part 35 formed in the inner wall of the discharge hole 34 of the operating part 30. ) And the upper side of the annulus 53 has a side sealing part 54 so that the side sealing part 54 is an exhaust air sealing part of the operating part 30. 35) to maintain the sealing force.

6, the cover 50 can be changed in design, and for example, after the prefabricated operating part sealing surface 52 is separately manufactured, the operating part 30 is assembled to the cover 50 first. Or assembled into a separate material (in consideration of barrier property or sealing property) by the multi-color injection machine (double injection machine, etc.) will be.

    Reference numeral 55 in the figure shows a skirt.

    7 shows the sealing part 40, the sealing part 40 may be inserted into the receiving part sealing hole 13 to form a resilient elastic sealing part 42 having a wing shape in the sealing part 40 to continuously maintain the airtightness. It is.

As shown in FIG. 8, the operation part 30 is shown, and the shape of the space 33 is deformable, and as an example, the length of the space 33 can be freed, as shown by a dotted line, as well as the sealing part 40. The hook-shaped locking projection 41 is to be formed as a sharp space jaw 36 end of the lower end of the space 33 so as to hook like a fish hook.

    9 shows the main body cover 20, and forms an elastic flexural elastic sealing part 27 at the inner upper end portion of the upper spherical part 21, and the flexural elastic sealing part 27 of the actuating part 30 is provided. The sealing portion catching device 31 is in contact with each other to maintain airtightness.

    In addition, the inner working part of the main body cover 20, the closing surface assembly 23 has an incision space portion 28 in which a predetermined portion is cut downward, the characteristic is to prevent the remaining heterogeneous material in a narrow space to be.

    10 shows the main body portion 15 of the main body 10. The main body elastic portion 19 is disposed in the inner direction of the main body portion 15, and the containment portion is sealed in the outer direction of the receiving portion 11. As shown in FIG. A portion RS is formed, and further, a groove H is provided on the outer side of the main body sphere 15 to make it difficult to separate the main body cover 20.

    11 illustrates a state in which the main body cover 20 is assembled to the main body 10, and both elastic pieces 14 of the main body 10 and both connecting portions 22 of the main body cover 20 are in a straight line. It is shown to be assembled.

    As another embodiment (FIG. 12, FIG. 13), after the prefabricated operating part sealing surface 52 is manufactured separately, it is assembled to the operating part sealing surface assembly part 23 as shown in FIG. And the technical configuration, such as lifting the operating unit 30 is the same as the example described above (content described before Figure 11)

As another embodiment (FIGS. 14 and 15), the main body 10 coupled to the contents discharge direction of the container 100 may include a main body 10 having a receiving portion 11 having a storage space 12 therein. In addition, the upper portion of the main body 10 has a main body cover 20 having an upper sphere 21 for receiving the operating portion 30, the auxiliary operation inside the upper sphere 21 of the main body cover 20 With the sub-assembly portion 37, the auxiliary operation unit assembly portion 37 to assemble a long extended auxiliary operation unit 60, the upper end of the auxiliary operation unit 60 is discharged to the upper end of the operation unit 30 The airtight sealing part 35 is assembled in the form of being sealed to the top sealing part 61 of the auxiliary operation part 60, the receiving part sealing hole 13 of the receiving part 11 having the storage space (12) Assembling the sealing portion 40, the sealing portion 40 is configured to be coupled to the connecting rod fixing portion 43 of the auxiliary operation unit 60.

In this use, when the operating part 30 is upwardly coupled, the coupling part pulls up the upper sealing part 61, and when the auxiliary operation part 60 is caught by the fixing jaw L of the auxiliary operation part assembly part 37, the coupling part is engaged. As the part 38 is separated from the upper sealing part 61, the upper part of the operating part space UH of the operating part 30 is opened. (See FIG. 15).

And in the state as shown in FIG. 15, when the operating unit 30 is lowered, the coupling unit 38 is pushed down while pushing the upper sealing unit 61 of the auxiliary operating unit 60 downward, and is sealed in the above process. When the lower end of the portion 40 is in contact with the elastic piece 14, the sealing portion 40 is stopped no longer stop.

When the operation unit 30 is lowered further in this process, the connecting unit 62 moves to the inner space of the connecting fixing unit 43, and the coupling unit 38 is at the top of the auxiliary operating unit 60 in the same process. It is to be assembled in the groove formed on the outside of the sealing portion 61, to maintain the original sealing function, but the lower receiving portion sealing hole 13 is always open.

As another embodiment (FIG. 16), The main body 10 coupled to the contents discharge direction of the container has a main body 10 having a storage space 12 and a receiving portion 11 therein, and an operating portion 30 as an upper portion of the main body 10. There is a main body cover 20 having an upper sphere portion 21 for receiving a secondary operation in contact with the discharge air-tight portion 35 of the operating portion 30 inside the upper sphere portion 21 of the main body cover 20. Assembling the auxiliary operation unit 60 is extended to the inside of the auxiliary operation unit assembly unit 37, the sub-assembly unit 37, and the upper end of the auxiliary operation unit 60 of the operation unit 30 The upper discharge airtight sealing part 35 is assembled in the form of being coupled to the upper sealing part 61 of the auxiliary operation part 60, and is sealed in the receiving part sealing hole of the receiving part 11 having the storage space 12. Assemble the part 40 (see the receiving part sealing hole 13 in Fig. 15), the sealing portion 40 is configured to be coupled to the fixing portion 43 is coupled to the connecting rod 62 of the auxiliary operation unit 60 will be.

And when the operation part 30 is upward, the exhaust air sealing part 35 pulls up the upper sealing part 61, and the auxiliary operation part 60 is fixed to the fixing jaw (L) of the auxiliary operation part assembly part 37. When it is caught, the discharge hole of the operating part 30 is opened while the discharge air sealing part 35 of the operating part 30 is separated from the upper sealing part 61, and the discharge hole is referred to as the inner part of the discharge air sealing part 35. To say.

In such a state, that is, in the state in which the operating part 30 is raised, when the operating part 30 is lowered, the auxiliary air-operating part 60 while the exhaust air-tight sealing part 35 pushes the upper sealing part 61 downward. It goes down, and at this time, the sealing portion 40 is stopped by hanging down on the resilient piece (14).

In addition, in the above state, when the operation unit 30 is lowered a little more, the connecting table 62 moves downward toward the inner space of the connecting fixing unit 43, and the sealing unit 40 and the connecting table 62 come closer to each other. It will be in the form, and therefore, the receiving portion sealing hole 13 as shown in Figure 15 is that the sealing portion 40 does not re-closing.

It is suitable for mixing heterogeneous substances with drinking water or vitamins.

1: accommodation device 10: main body
11: accommodating part 12: storage space
13: airtight seal 14: elastic piece
15: body portion 16: lower side portion
17: 1st screw thread 18: 2nd screw mount
19: body portion elasticity sealing portion 20: body cover
21: upper part 22: connection part
23: operating part sealing surface assembly 24: bend space
25: body portion insertion groove 26: upper inner wall portion
27: elastic bending portion 28: incision space
30: operating part 31: sealing device
32: incision 33: space
34: exhaust hole 35: exhaust air sealing
36: space jaw 37: auxiliary operation unit assembly
38: coupling part 40: sealing part
41: locking projection 42: elastic sealing
43: connecting station 50: cover
51: perforated line 52: prefabricated closed portion
53: annute 54: side sealing
56: fixing part 60: auxiliary operation part
61: upper sealing part 62: connecting rod
100: container H: groove
L: Fixed Jaw RS: Receiving Part
UH: Upper floating space

Claims (11)

The receiving device containing heterogeneous materials used in combination with the contents discharge direction of the container includes a main body coupled to the container neck, and a receiving part having a storage space inside the main body, and an upper part of the main body having the receiving part. A body cover having a bend is configured, and an operating part sealing surface assembly part connected by a connecting part is connected to the inside of the upper part, and an operating part having a sealing part locking device is connected to the inside of the upper part. When lifting up, the sealed part coupled to the lower side of the closing part catching device is released from the receiving part sealing hole of the receiving part, and the heterogeneous material receiving device in which the heterogeneous material in the storage space of the receiving part is dropped and mixed through the receiving part sealing hole. To
The inner part of the upper sphere is provided with an operating part sealing surface assembly, the upper part of the operating part sealing surface assembly, characterized in that the discharge hole of the operating part is in an open state.     The method of claim 1, wherein the liquid or powder is put into the storage space of the receiving portion through the perforated discharge hole of the operating portion, and the prefabricated operating portion closed surface as a separate sealing means toward the operating portion sealing surface assembly in the discharge hole direction. Heterogeneous material receiving device, characterized in that sealed through. The method of claim 2, wherein the prefabricated actuating part sealing surface assembled to the actuating part sealing surface assembly is heterogeneous, characterized in that the upper end is sealed in the discharge hole and the lower end is assembled in the actuating part sealing surface assembly. Material receiving device.     3. The heterogeneous material receiving device according to claim 2, wherein the prefabricated operating part sealing surface assembled to the operating part sealing surface assembly part is integral with the anti-counterfeiting cover assembled to the upper part of the main body cover. The heterogeneous material receiving device according to claim 4, wherein the prefabricated operating part sealing surface is connected to the cover by a cut line.
The method of claim 1, wherein the prefabricated operating part sealing surface is formed in the ring frame, the annular material receiving heterogeneous material, characterized in that the form to prevent the escape from upward caught by the exhaust air sealing part formed in the inner wall of the discharge hole of the operation part Device.
The method of claim 1, wherein the operation unit sealing surface assembly portion of the main body cover is heterogeneous material receiving device, characterized in that consisting of the incision space portion of the predetermined downward direction.
The main body coupled to the contents discharge direction of the container has a main body with a receiving portion therein with a storage space therein, and an upper part of the main body with a main cover having an upper part for accommodating an operating part, and inside the upper part of the main cover It has an auxiliary operation unit assembly portion, the auxiliary operation unit assembly to assemble a long extended auxiliary operation portion, the upper end of the auxiliary operation portion is assembled in a form in which the upper exhaust airtight sealing portion of the operating portion is sealed to the upper sealing portion of the auxiliary operation portion and Heterogeneous receiving device, characterized in that the container is assembled with a sealing portion in the receiving portion of the receiving portion with the storage space, the sealing portion is configured to be coupled to the connecting portion of the auxiliary operation unit.
9. The method of claim 8, wherein when the operating portion is up, the engaging portion pulls up the upper sealing part, and when the auxiliary operating part is caught by the fixing jaw of the auxiliary operating part assembly, the engaging part is separated from the upper sealing part, and the upper part of the operating part is opened. One dissimilar material receiver.
    The main body coupled to the contents discharge direction of the container has a main body having a storage space and a receiving portion therein, and an upper portion of the main body has a main cover having an upper portion for accommodating an operating portion, and inside the upper portion of the main cover Assembling the auxiliary operation unit assembly in contact with the discharge air-tight sealing portion of the operating portion, the auxiliary operation unit is assembled inside the auxiliary operation unit assembly extended long, and the upper end of the auxiliary operation portion is the upper discharge air-tight sealing portion of the operation unit Assembled in the form of coupled to the top sealing, the receiving portion of the receiving portion with the storage space is assembled to the sealing portion, the sealing portion receiving heterogeneous material, characterized in that the connecting portion is configured to be coupled to the connecting rod of the auxiliary operation unit Device. 11. The method of claim 10, wherein when the operating portion is upward, the discharge air-tight sealing portion is pulled up the upper sealing portion, and if the auxiliary operation portion is caught by the fixing jaw of the auxiliary operating portion assembly portion, the discharge hole of the operating portion is opened while the discharge air-tight sealing portion is separated from the upper sealing portion. Heterogeneous material receiving device.

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