JP2019147612A - Detachment prevention method for preventing threaded beverage extraction pipe support from being detached from mouthpiece of beverage storage container - Google Patents

Abstract

To provide a technology for preventing a beverage extraction pipe support from being detached from a beverage storage container.SOLUTION: In a detachment prevention method for preventing a threaded beverage extraction pipe support from being detached from a mouthpiece of the beverage storage container, the mouthpiece has a female threaded part, and the beverage extraction pipe support has a male threaded part which screws with the female threaded part. At least an upper side part of the beverage extraction pipe support is a cylindrical body. The detachment prevention method comprises: a step of preparing an annular member having an inner diameter smaller than an outer diameter of the male threaded part of the cylindrical body; and a mounting step of mounting the annular member to the mouthpiece such that the annular member not connected to the cylindrical body covers at least one part of the cylindrical body.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a detachment prevention method for preventing a beverage take-out tube support portion with a screw from coming off from a base portion of a beverage storage container.

  A technique for forming a beverage take-out portion by fixing a fitting (for example, a well-type fitting) to a base portion of a beer storage container is known.

  FIG. 1 shows a conventional beer storage container 1. FIG. 1 shows a state in which the fitting 3 is attached to the base part 2 by screwing between the male screw part 4 s of the attachment member 4 of the fitting 3 and the female screw part 2 s of the base part 2. .

  In the conventional fitting 3, rainwater or the like may enter from between the attachment member 4 and the base 2. Rainwater and the like entering from the gap are prevented from entering the beer storage container by the seal ring S, but it is preferable for hygiene that rainwater and the like stay in the gap between the mounting member 4 and the base part 2 for a long time. is not. Further, in the conventional fitting 3, if the screwing amount of the mounting member 4 is insufficient, the engagement state between the mounting member 4 and the base part 2 may be loosened, and on the other hand, the screwing amount of the mounting member 4 If is excessively large, the seal ring S may be overcompressed and the life of the seal ring S may be shortened. Moreover, it is not preferable for the product management of the beer storage container 1 that the attachment member 4 is easily detached.

  As a related technique, Patent Document 1 discloses that the attachment member is prevented from coming off by welding the flange portion of the attachment member and the base.

  Patent Document 2 discloses an extraction pipe head mounting device for a spout housing of a beverage container. In the extraction pipe head mounting device described in Patent Document 2, the main body of the extraction pipe head mounting assembly is attached to the housing by engaging the edge of the flanged member with the periphery of the side protruding lip portion of the housing. I try to fix it.

JP 2010-173710 A JP 59-26491 A

  The objective of this invention is providing the technique which prevents that an attachment member (in other words, a drink taking-out pipe support part) remove | deviates from a drink storage container.

  Hereinafter, means for solving the problem will be described using the numbers and symbols used in the embodiments for carrying out the invention. These numbers and symbols are added with parentheses for reference in order to show an example of the correspondence between the description of the claims and the mode for carrying out the invention. Accordingly, the claims should not be construed as limiting due to the bracketed description.

  In some embodiments, the cap portion (11) includes a female portion (11), wherein the cap portion (11) of the beverage storage container (5) is prevented from coming off from the cap portion (11). It has a threaded portion (11s), and at least the upper portion (13E) of the beverage take-out tube support portion (13) is a tubular body (C), and the tubular body (C) 11s) and has a male screw part (13s). The detachment preventing method includes a step of preparing an annular member (20) having an inner diameter (D4) smaller than an outer diameter (D1) of the male screw portion (13s) of the cylindrical body (C), and the cylindrical shape Attachment step of attaching the annular member (20) to the base part (11) so that the annular member (20) in a state not connected to the body (C) covers at least a part of the cylindrical body (C). It comprises.

  In the detachment prevention method, the attaching step may include disposing a first seal ring (40) between the annular member (20) and the tubular body (C).

  In the above detachment prevention method, the annular member (20) may be made of metal. Moreover, the folding | returning part (25) may be provided in at least one of the 1st edge part (20a) inside the said annular member (20), or the 2nd edge part (20b) outside.

  In the above detachment prevention method, an annular protrusion (26) protruding upward may be provided on the upper surface of the annular member (20).

  In the above detachment prevention method, the attachment step may be executed after the beverage is filled in the beverage storage container (5).

  In the above detachment prevention method, the annular member (20) includes a model number of the second seal ring (30) attached to the beverage storage container (5), a replacement date of the second seal ring (30), and the beverage. An RFID (28) for recording a history of filling a beverage in the storage container (5) or a history of use of the beverage storage container (5) may be attached.

  In the above detachment prevention method, the annular member (20) displays the model number of the second seal ring (30) attached to the beverage storage container (5) or the replacement date of the second seal ring (30). You may have the display part (29) to do.

  The detachment prevention method is arranged between the base part (11) and the beverage take-out pipe support part (13), the removal step of removing the beverage take-out pipe support part (13) from the base part (11). A seal ring exchanging step of exchanging the second seal ring (30p) that has been performed with a new second seal ring (30n); and a screwing step of screwing the beverage take-out pipe support portion (13) into the base portion (11). May further be provided.

  ADVANTAGE OF THE INVENTION By this invention, the technique which prevents that a drink taking-out pipe support part remove | deviates from a drink storage container can be provided.

FIG. 1 is a cross-sectional view schematically showing a conventional beer storage container. FIG. 2 is a schematic cross-sectional view showing an example of a beverage storage container. FIG. 3 is a flowchart showing an example of a detachment preventing method for preventing the screwed beverage take-out tube support portion from being removed from the base portion of the beverage storage container in the first embodiment or the second embodiment. FIG. 4 is a diagram schematically showing one step of a detachment prevention method for preventing the screwed beverage take-out tube support part from coming off from the base part of the beverage storage container in the first embodiment. FIG. 5 is a diagram for explaining an annular member provided with a folded portion. FIG. 6 is a diagram for explaining another annular member provided with a folded portion. FIG. 7 is a view for explaining an annular member provided with an annular protrusion. FIG. 8 is a diagram for explaining the RFID or the display unit. FIG. 9 is a diagram for explaining the dust-proof film. FIG. 10 is a diagram schematically showing one step of a detachment preventing method for preventing the screwed beverage take-out tube support part from coming off from the base part of the beverage storage container in the second embodiment. FIG. 11 is a diagram for explaining an annular member provided with an engaging portion that can be engaged with a protruding portion. FIG. 12 is a view for explaining an annular member provided with a downward projecting portion. FIG. 13 is a diagram for explaining an optional additional configuration applicable to a beverage storage container. FIG. 14 is a diagram for explaining an annular member provided with a weakening portion. FIG. 15: is a flowchart which shows an example of the removal prevention method which prevents that the drink taking-out pipe support part with a screw remove | deviates from the nozzle | cap | die part of the drink storage container in 3rd Embodiment. FIG. 16 is a schematic cross-sectional view showing a state where the beverage take-out pipe support part is removed from the base part. FIG. 17 is a diagram for describing a configuration for increasing the cross-sectional area of the second seal ring. FIG. 18 is a schematic cross-sectional view showing a state after the beverage take-out tube support part is mounted on the base part. FIG. 19 is a diagram for explaining a fitting structure.

  Hereinafter, the removal prevention method which prevents that the drink taking-out pipe support part 13 with a screw | thread remove | deviates from the nozzle | cap | die part 11 of the drink storage container 5 is demonstrated with reference to an accompanying drawing. In the following description, members and parts having the same function are denoted by the same reference numerals, and repeated descriptions of members and parts having the same reference numerals are omitted. In the following description, “beverage storage container” means a container capable of storing a beverage. The beverage storage container is, for example, a stainless steel container. The beverage storage container is, for example, a beer storage container capable of storing beer.

(First embodiment)
With reference to FIG. 2 thru | or FIG. 9, the removal prevention method which prevents that the drink taking-out pipe support part 13 with a screw | thread remove | deviates from the nozzle | cap | die part 11 of the drink storage container 5 in 1st Embodiment is demonstrated. FIG. 2 is a schematic cross-sectional view showing an example of the beverage storage container 5. FIG. 3 is a flowchart showing an example of a detachment prevention method for preventing the threaded beverage take-out tube support portion 13 from coming off from the base portion 11 of the beverage storage container 5 in the first embodiment. FIG. 4 is a diagram schematically showing one step of a detachment prevention method for preventing the threaded beverage take-out tube support portion 13 from coming off from the base portion 11 of the beverage storage container 5 in the first embodiment. 5 and 6 are diagrams (schematic cross-sectional views) for explaining the annular member 20 provided with the folded portion 25. FIG. FIG. 7 is a diagram (schematic cross-sectional view) for explaining the annular member 20 provided with the annular protrusion 26. FIG. 8 is a diagram for explaining the RFID 28 or the display unit 29. In addition, the schematic plan view of the annular member 20 is described in the upper side of FIG. 8, and the schematic sectional drawing of the drink extraction part 10 with which the annular member 20 was mounted | worn is described in the lower side of FIG. FIG. 9 is a diagram (schematic cross-sectional view) for explaining the dust-proof film 50.

(Beverage storage container 5)
With reference to FIG. 2, the outline | summary of the drink storage container 5 is demonstrated. The beverage storage container 5 includes a beverage take-out unit 10 used for taking out a beverage (for example, beer).

  The beverage take-out part 10 includes a base part 11 having a female screw part 11 s and a drink take-out pipe support part 13. As for the drink taking-out pipe support part 13, at least upper part 13E is the cylindrical body C, and the cylindrical body C has the external thread part 13s. When the male screw portion 13 s of the beverage take-out tube support portion 13 is screwed into the female screw portion 11 s of the base portion 11, the beverage take-out tube support portion 13 is attached to the base portion 11. The base 11 is made of stainless steel and is welded to the container body 6 made of stainless steel. In the example shown in FIG. 2, an annular projecting portion 12 that projects in the radially outward direction is provided at the upper end of the base portion 11. Moreover, the drink taking-out pipe support part 13 is made of stainless steel. The beverage take-out tube support portion 13 is a cylindrical member inserted into the base portion 11, and the beverage take-out tube support portion 13 constitutes a well (meaning “well”) type fitting. Details of the structure of the beverage take-out pipe support 13 will be described later with reference to FIG.

(Drop prevention method for preventing the beverage take-out pipe support part 13 from coming off)
Next, a removal prevention method for preventing the beverage take-out pipe support portion 13 from coming off will be described.

  In the first step ST1, the annular member 20 is prepared. The annular member 20 may be prepared by purchasing, may be prepared by manufacturing, or may be prepared by taking out from the warehouse. As shown in FIG. 4A, the annular member 20 has an inner diameter D4 that is smaller than the outer diameter D1 of the male screw portion 13s of the cylindrical body C.

  In the second step ST <b> 2, the annular member 20 is attached to the base part 11. The second step ST2 is an attachment process of the annular member 20 (hereinafter simply referred to as “attachment process”). As shown in FIG. 4B, in the second step ST2, the annular member 20 covers at least a part of the cylindrical body C (in other words, at least a part of the annular member 20 in plan view). The annular member 20 is attached to the base part 11 so as to overlap at least a part of the cylindrical body C). The annular member 20 is a member that is not connected to the cylindrical body C, in other words, a member that is not fixed to the cylindrical body C.

  In the example illustrated in FIG. 4B, at least a part of the upper surface 13 u of the cylindrical body C is covered with the annular member 20. In other words, the inner diameter D4 of the annular member 20 is smaller than the upper end outer diameter D2 of the cylindrical body C. In this case, the entire upper portion of the male screw portion 13s is covered with the annular member 20, and the entire gap between the male screw portion 13s and the female screw portion 11s is covered with the annular member 20. Accordingly, it is possible to prevent foreign matter or rainwater from entering the gap between the male screw portion 13s and the female screw portion 11s.

  Assume that the annular member 20 is made of metal. In this case, the attaching step (second step ST2) includes a step of covering the base portion 11 with the annular member 20 (step A) and a step of fixing the annular member 20 to the base portion 11 by plastically deforming the annular member 20. (Step B).

  As shown in FIG. 4A, the annular member 20 includes, for example, a ring-shaped top portion 21 and a skirt portion 22 (for example, an annular skirt portion). The upper end of the skirt portion 22 is connected to the outer edge of the ring-shaped top portion 21.

  In step A described above, the annular member 20 is disposed on the base part 11 so that the ring-shaped top part 21 of the annular member 20 covers at least a part of the base part 11 and the cylindrical body C. As shown in FIG. 4A, the lower end 22 b of the skirt portion 22 is positioned below the protruding portion 12 (annular protruding portion) of the base portion 11.

  In the above-described process B, the annular member 20 is fixed to the protruding portion 12 of the base portion 11 by plastically deforming the skirt portion 22. The plastic deformation of the skirt portion 22 is executed by, for example, caulking the skirt portion 22. The skirt portion 22 is preferably a completely annular skirt portion (in other words, a skirt portion covering the periphery of the protruding portion 12 over 360 degrees), but a slit or a hole is provided in a part of the skirt portion 22. It does not matter.

  In the first embodiment, since at least a part of the upper surface 13u of the cylindrical body C (the upper end surface of the cylindrical body C) is covered by the annular member 20, the cylindrical body C extends upward beyond the annular member 20. I can't move. In this way, the beverage take-out tube support portion 13 having the cylindrical body C is prevented from being detached from the base portion 11.

  Moreover, in 1st Embodiment, the annular member 20 and the drink taking-out pipe support part 13 are not connected (in other words, adhering). For this reason, if the sealing function of the seal ring (30) is impaired by the deterioration or breakage of the seal ring (30) disposed between the base part 11 and the beverage take-out pipe support part 13 by any chance. The gas (carbon dioxide gas) from the inside of the beverage storage container 5 passes through the first passage P1, the seal ring receiving chamber RS, the second passage P2, and the gap between the annular member 20 and the beverage take-out pipe support portion 13. And blow out. Therefore, even if the seal ring (30) is deteriorated or broken, the deterioration or breakage can be easily detected. Therefore, it is prevented that the beverage storage container 5 is used in a state where the sealing function by the seal ring (30) is impaired.

  Subsequently, a configuration that can be adopted in the first embodiment, in other words, an optional configuration will be described.

(Seal ring 40)
As shown in FIGS. 5A and 5B, the attachment step (second step ST2) may include disposing the seal ring 40 between the annular member 20 and the base part 11. Good. In the example illustrated in FIG. 5A, the seal ring 40 is disposed between the lower surface 20 w of the annular member 20 and the upper surface 11 u of the base part 11.

  In the example described in FIG. 5, when the beverage is filled in the beverage storage container 5 by disposing the seal ring 40 (first seal ring) between the annular member 20 and the base portion 11, the beverage is Leakage to the outside through the gap G between the annular member 20 and the base part 11 is prevented. More specifically, when a beverage is filled into the beverage storage container 5 from a beverage filling machine (not shown in FIG. 5) with the beverage supply valve 91 and the gas valve 92 opened, the beverage is , Leaking out of the beverage storage container 5 through the gap G is prevented.

  In the example shown in FIG. 5A, a seal ring receiving recess 111 is provided on the upper surface 11 u of the base part 11. Alternatively, a seal ring receiving recess may be provided on the lower surface 20 w of the annular member 20. When the seal ring receiving concave portion 111 is provided in the base portion 11, it is necessary to cut the base portion 11, but when providing the seal ring receiving concave portion in the annular member 20, it is necessary to cut the base portion 11. Absent.

(Folding part 25)
As shown in FIG. 5A, the first end 20 a on the inner side of the annular member 20 is provided with a folded portion 25 a (first folded portion), and the second end 20 b on the outer side of the annular member 20 is provided. May be provided with a folded portion 25b (second folded portion).

  Since the annular member 20 has the folded portions (25a, 25b), an operator or a user who handles the beverage storage container 5 to which the annular member 20 is attached is prevented from being injured by the edge of the annular member 20. The Therefore, the safety of the annular member 20 is improved. Moreover, since the annular member 20 has the folded portions (25a, 25b), the strength of the annular member 20 is improved.

  In the example illustrated in FIG. 5A, the folded portion 25 a is a folded portion that is folded to the lower surface side of the annular member 20, and the folded portion 25 b is a folded portion that is folded to the inner surface side of the skirt portion 22. . In this case, since the end edges of the folded portions (25a, 25b) are not exposed to the outside, the safety of the annular member 20 is further improved.

  In the example shown in FIG. 5A, the end edge of the folded portion 25a is located on the inner side of the inner edge of the upper end surface of the base portion 11, but the end edge of the folded portion 25a is as shown in FIG. It may be located outside the inner edge of the upper end surface of the base part 11. Therefore, the seal ring 40 may be disposed between the folded portion 25 a and the base portion 11.

  In the example described in FIGS. 5A and 5B, the folded portion 25 is provided at both the first end portion 20a and the second end portion 20b of the annular member 20. The mode includes a mode in which the folded portion 25 is provided on one of the first end 20 a and the second end 20 b of the annular member 20.

(Annular protrusion 26)
In the example illustrated in FIG. 7A, an annular protrusion 26 that protrudes upward is provided on the upper surface of the annular member 20. The annular protrusion 26 comes into contact with an annular seal portion 102 disposed around the nozzle portion 100 of the beverage filling machine when filling a beverage (see FIG. 7B). In addition, in FIG.7 (b), the part described with the dashed-dotted line has shown the drink filling machine typically. At the time of filling, the beverage may be supplied from the nozzle unit 100, and the gas in the beverage storage container 5 may be recovered using an annular flow path between the nozzle unit 100 and the annular seal unit 102. Alternatively, at the time of filling, the gas in the beverage storage container 5 may be recovered using the nozzle unit 100, and the beverage may be supplied from the annular flow path between the nozzle unit 100 and the annular seal unit 102 ( In this case, the beverage storage container 5 is filled in a state in which the cap part 11 is inverted so that the base part 11 is positioned below.

  When the annular protrusion 26 is provided on the upper surface of the annular member 20, the surface pressure acting between the annular member 20 and the seal portion 102 is higher than when the annular protrusion 26 is not provided. . For this reason, the risk that a beverage leaks from between the annular member 20 and the seal portion 102 during filling of the beverage is reduced.

(Inner diameter D4 of annular member 20)
In the example shown in FIG. 8, the inner diameter D4 of the annular member 20 is larger than the upper end inner diameter D3 of the cylindrical body C. When the inner diameter D4 is larger than the upper end inner diameter D3, interference (contact or the like) between the annular member 20 and the nozzle portion 100 of the beverage filling machine is suppressed. On the other hand, when the inner diameter D4 is smaller than the upper end inner diameter D3 of the cylindrical body C, in other words, when the inner edge portion of the annular member 20 protrudes inward beyond the upper end inner edge of the cylindrical body C. The annular member 20 may interfere with the nozzle portion 100 of the beverage filling machine.

(RFID28)
As shown in FIG. 8, the annular member 20 may be attached with an RFID 28. The RFID 28 includes a model number of a seal ring (hereinafter referred to as “second seal ring 30”) disposed between the base portion 11 and the beverage take-out pipe support portion 13, a replacement date of the second seal ring 30 (in other words, For example, information such as the mounting date of the second seal ring 30), a beverage filling history of the beverage storage container 5, or a usage history of the beverage storage container 5 is recorded. RFID is an abbreviation for Radio-frequency identification and is also referred to as an RFID tag. When the model number of the second seal ring 30 is recorded in the RFID 28 (RFID tag), the second used in the beverage storage container 5 without removing the annular member 20 by reading the RFID 28 with a reader. The type of the seal ring 30 can be grasped. Further, when the replacement date of the second seal ring 30 is recorded in the RFID 28, the RFID 28 is read by a reader so that the service life of the second seal ring 30 used in the beverage storage container 5 and / or Therefore, it is possible to easily grasp the replacement time when a new seal ring should be replaced. When the beverage filling history of the beverage storage container 5 is recorded in the RFID 28, it is easy to determine what kind of beer is filled in the beverage storage container 5 by reading the RFID 28 with a reader. Can grasp. Further, when the usage history of the beverage storage container 5 is recorded in the RFID 28, it is possible to easily grasp when and where the beverage storage container 5 has been delivered.

  In the example illustrated in FIG. 8, a space SP exists between the annular member 20 and the base portion 11. The space SP can be used as a space for arranging the RFID 28. More specifically, in the example illustrated in FIG. 8, the RFID 28 is disposed in a space SP between the lower surface 20 w of the annular member 20 and the upper surface 11 u of the base part 11.

  In the example illustrated in FIG. 8, the RFID 28 is disposed between the annular member 20 and the base part 11. For this reason, the RFID 28 is protected by the annular member 20 and the base part 11. Therefore, the risk that the RFID 28 is damaged is small. When the seal ring 40 is disposed between the annular member 20 and the base portion 11, the RFID 28 is preferably disposed on the radially outer side of the seal ring 40. In this case, it is suppressed that RFID28 contacts liquids, such as a drink and rain water.

(Display unit 29)
As shown in FIG. 8, the annular member 20 may include a display unit 29 that displays information such as the model number of the second seal ring 30 or the replacement date of the second seal ring 30. The display unit 29 may be a printing unit that prints information by a method such as laser printing.

  When the model number of the second seal ring 30 is displayed on the annular member 20, the type of the second seal ring 30 used in the beverage storage container 5 can be grasped without removing the annular member 20. it can. When the replacement date of the second seal ring 30 is displayed on the annular member 20, the service life of the second seal ring 30 used in the beverage storage container 5 and / or a new seal ring is displayed. It is possible to easily grasp the replacement time to be replaced.

  In the example described in FIG. 8, the display unit 29 is provided on the upper surface of the annular member 20. Therefore, the operator can easily grasp information such as the model number of the second seal ring 30 and the replacement date of the second seal ring 30 at a glance. In the example illustrated in FIG. 8, the annular member 20 is provided with an RFID 28 and a display unit 29. Alternatively, only one of the RFID 28 and the display unit 29 may be disposed on the annular member 20.

(Dust-proof film 50)
As shown in FIG. 9, the dust-proof film 50 may be disposed on the annular member 20 so as to cover the central hole 20 h of the annular member 20. In the example illustrated in FIG. 9, the dustproof film 50 is disposed so as to cover the entire annular member 20. The dustproof film 50 prevents foreign matter, rainwater, and the like from entering the cylindrical body C. The dustproof film 50 may be printed with information such as the type of beer filled in the beverage storage container 5 and the filling date.

  In the first embodiment, the annular member 20 is made of, for example, stainless steel. When the annular member 20 is made of stainless steel, the annular member 20 is unlikely to corrode. For this reason, when the annular member 20 is attached to the base part 11 for a long period of time, the annular member 20 is preferably made of stainless steel. Alternatively, the annular member 20 may be made of a metal different from stainless steel, such as aluminum. In this case, it is possible to reduce the manufacturing cost of the annular member 20.

  In the first embodiment, the beverage storage container 5 and / or the annular member 20 includes the above-described seal ring 40, folded portion 25, annular protrusion 26, RFID 28, display unit 29, and dustproof film 50. Any combination may be applied.

(Second Embodiment)
With reference to FIG. 3, FIG. 10 thru | or FIG. 14, the removal prevention method which prevents that the drink taking-out pipe support part 13 with a screw | thread remove | deviates from the nozzle | cap | die part 11 of the drink storage container 5 in 2nd Embodiment is demonstrated. FIG. 3 is a flowchart illustrating an example of a detachment prevention method for preventing the threaded beverage take-out pipe support portion 13 from coming off from the base portion 11 of the beverage storage container 5 according to the second embodiment. FIG. 10 is a diagram schematically showing one step of a detachment preventing method for preventing the threaded beverage take-out tube support portion 13 from coming off from the base portion 11 of the beverage storage container 5 in the second embodiment. FIG. 11 is a diagram (schematic cross-sectional view) for explaining the annular member 20 provided with the engaging portion 221 that can be engaged with the protruding portion 12. FIG. 12 is a diagram (schematic cross-sectional view) for explaining the annular member 20 provided with the downward projecting portion 23. FIG. 13 is a diagram for explaining an optional additional configuration applicable to the beverage storage container 5. FIG. 14 is a view for explaining the annular member 20 provided with the weakening portion 24. 13 and 14, a schematic plan view of the annular member 20 is described. On the lower side of FIGS. 13 and 14, a schematic cross-sectional view of the beverage take-out unit 10 to which the annular member 20 is attached is shown. Have been described.

  The second embodiment is different from the first embodiment in that the annular member 20 is made of resin. The second embodiment will be described with a focus on differences from the first embodiment, and a repetitive description of matters already described in the first embodiment will be omitted. For this reason, even if not explicitly described in the second embodiment, it goes without saying that the matters already described in the first embodiment can be applied to the second embodiment.

(Beverage storage container 5)
The beverage storage container 5 in the second embodiment is the same as the beverage storage container in the first embodiment. For this reason, the repeated description about the drink storage container 5 is abbreviate | omitted.

(Drop prevention method for preventing the beverage take-out pipe support part 13 from coming off)
In the first step ST1, the annular member 20 is prepared. The annular member 20 may be prepared by purchasing, may be prepared by manufacturing, or may be prepared by taking out from the warehouse. An inner diameter D4 (see FIG. 10A) of the annular member 20 in the second embodiment is the same as the inner diameter of the annular member in the first embodiment.

  In the second step ST <b> 2, the annular member 20 is attached to the base part 11. As shown in FIG. 10B, in the second step ST2, the annular member 20 covers at least a part of the cylindrical body C (in other words, at least a part of the annular member 20 in plan view). The annular member 20 is attached to the base part 11 so as to overlap at least a part of the cylindrical body C). The annular member 20 is a member that is not connected to the cylindrical body C, in other words, a member that is not fixed to the cylindrical body C.

  When the annular member 20 is made of resin, the attachment step (second step ST2) includes a step (step A) of covering the base portion 11 with the annular member 20, and a circular deformation by thermally deforming or elastically deforming the annular member 20. A step of attaching the member 20 to the base part 11 (step B).

  In the example illustrated in FIG. 10A, the annular member 20 is an annular member having, for example, a ring-shaped top portion 21 and a skirt portion 22 (for example, an annular skirt portion). The upper end of the skirt portion 22 is connected to the outer edge of the ring-shaped top portion 21.

  In step A described above, the annular member 20 is disposed on the base part 11 so that the ring-shaped top part 21 of the annular member 20 covers at least a part of the base part 11 and the cylindrical body C. As shown in FIG. 10A, the lower end 22 b of the skirt portion 22 is positioned below the protruding portion 12 (annular protruding portion) of the base portion 11.

  In the example illustrated in FIG. 10B, the annular member 20 is fixed to the protruding portion 12 of the base portion 11 by deforming the skirt portion 22 in the above-described step B. The deformation of the skirt portion 22 is performed by, for example, applying pressure to the skirt portion 22 while heating the skirt portion 22. In this case, the annular member 20 is preferably made of a thermoplastic resin.

  Alternatively, as illustrated in FIG. 11B, the annular member 20 may be fixed to the protruding portion 12 of the base portion 11 by elastically deforming the skirt portion 22 in the above-described step B. In the example illustrated in FIG. 11A, an engagement portion 221 that can be engaged with the protruding portion 12 is provided inside the skirt portion 22. The shape of the engaging portion 221 is, for example, a shape that can get over the protruding portion 12 when the annular member 20 is pushed downward from above into the base portion 11. When pulling up 20 from below to above, the shape is such that the protrusion 12 cannot be overcome. In the example shown in FIG. 11A, the lower surface of the engaging portion 221 is an inclined surface 221a that can get over the protruding portion 12, and the upper surface of the engaging portion 221 is a horizontal surface 221b that cannot get over the protruding portion 12. (The horizontal plane 221b includes a substantially horizontal plane.)

(Downward protruding part 23)
As shown in FIG. 12, the annular member 20 may include a downward projecting portion 23. The downward projecting portion 23 is, for example, an annular projecting portion disposed on the inner edge portion of the annular member 20.

  In the example illustrated in FIG. 12, the annular member 20 includes a downward projecting portion 23 that projects toward the upper surface 13 u of the beverage take-out tube support portion 13 (in other words, the upper surface 13 u of the cylindrical body C). For this reason, when the annular member 20 is attached to the base part 11, the downward projecting part 23 and the upper surface 13u of the cylindrical body C are in contact with each other, or the downward projecting part 23 and the upper surface 13u of the cylindrical body C are in contact with each other. The distance becomes shorter (for example, the distance becomes 2 mm or less, or 1 mm or less). For this reason, it is suppressed that the drink taking-out pipe support part 13 loosens upwards, and it is between the male screw part 13s and the female screw part 11s from the clearance gap between the annular member 20 and the cylindrical body C. Intrusion of foreign matter or rainwater or the like toward the gap is suppressed.

  In addition, the structure of the downward protrusion part 23 may be employ | adopted in 1st Embodiment. Or the folding | returning part 25a in 1st Embodiment may function as the downward protrusion part 23. FIG.

(RFID28, display unit 29, seal ring 40, dustproof film 50)
As shown in FIG. 13, the RFID 28 may be disposed on the annular member 20 (more specifically, the lower surface of the annular member 20). In addition, a display unit 29 may be provided on the upper surface of the annular member 20. Further, a seal ring 40 may be disposed between the annular member 20 and the base part 11. In the example illustrated in FIG. 13, the annular member 20 is provided with the seal ring receiving recess 111 that receives the seal ring 40, but the seal ring receiving recess may be provided in the base portion 11. Moreover, the dustproof film 50 may be arrange | positioned at the annular member 20 so that the center hole 20h of the annular member 20 may be covered. Since the functions of the RFID 28, the display unit 29, the seal ring 40, and the dustproof film 50 have been described, repeated descriptions of the RFID 28, the display unit 29, the seal ring 40, and the dustproof film 50 are omitted.

  The second embodiment has the same effects as the first embodiment. Further, when the annular member 20 is made of resin, the manufacturing cost of the annular member 20 is reduced. Therefore, every time the beverage storage container 5 is filled with a beverage (for example, beer), the annular member 20 may be replaced with a new annular member. Moreover, the attachment process (2nd step ST2) which attaches the cyclic | annular member 20 to the nozzle | cap | die part 11 may be performed before the drink filling process of filling the drink storage container 5 with a drink, and is performed after a drink filling process. May be.

  When the attaching process (second step ST2) of the annular member 20 is executed after the beverage filling process, there arises a problem of interference (contact etc.) between the annular member 20 and the nozzle portion 100 of the beverage filling machine. Absent. Further, there is no possibility that the beverage leaks from the gap between the annular member 20 and the base part 11 when the beverage is filled by the beverage filling machine. Furthermore, when the attachment process (second step ST2) is performed after the beverage filling process, there is no need to adjust the vertical movement stroke of the nozzle unit 100 of the beverage filling machine in relation to the annular member 20. In other words, there is no need to change the control parameters of the beverage filling machine.

  When the attachment process (second step ST2) is executed after the beverage filling process, as shown in FIG. 14, the annular member 20 is a member with a weakening portion 24 (for example, with an annular notch portion). There may be. In addition, in this specification, when taking out a drink from the drink storage container 5, the member made cyclic | annular is regarded as the cyclic | annular member 20. FIG. Therefore, in the example shown in FIG. 14, the central hole is not provided in the member (20) when being attached to the base portion 11, but when the beverage is taken out from the beverage storage container 5, the member is caused by the breakage of the weakening portion 24. Since (20) is annular, the member (20) is considered an annular member. In this case, the inner diameter D4 of the annular member 20 means the inner diameter of the annular member 20 when the beverage is taken out from the beverage storage container 5 (in other words, the diameter of the central hole 20h).

  When the annular member 20 is not provided with the central hole 20h when the annular member 20 is attached to the base part 11, the annular member 20 functions as a member that prevents foreign matter, rainwater, and the like from entering the cylindrical body C. To do.

  In the second embodiment, the beverage storage container 5 and / or the annular member 20 includes the above-described downward projecting portion 23, weakening portion 24, RFID 28, display portion 29, seal ring 40, and dustproof film 50. Any combination may be applied. In the second embodiment, the annular member 20 may be provided with the annular protrusion 26 described in the first embodiment (the annular protrusion 26 protruding upward).

(Third embodiment)
With reference to FIG. 15 thru | or FIG. 18, the removal prevention method which prevents that the drink taking-out pipe support part 13 with a screw | thread remove | deviates from the nozzle | cap | die part 11 of the drink storage container 5 in 3rd Embodiment is demonstrated. FIG. 15 is a flowchart illustrating an example of a detachment prevention method for preventing the threaded beverage take-out tube support portion 13 from coming off from the base portion 11 of the beverage storage container 5 according to the third embodiment. FIG. 16 is a schematic cross-sectional view showing a state where the beverage take-out tube support portion 13 is removed from the base portion 11. FIG. 17 is a diagram for describing a configuration for increasing the cross-sectional area of the second seal ring 30n. FIG. 18 is a schematic cross-sectional view showing a state after the beverage take-out pipe support part 13 is mounted on the base part 11.

  In addition to the first step ST1 and the second step ST2 described above, the detachment prevention method according to the third embodiment includes a step of removing the beverage take-out pipe support portion 13 from the base portion 11, and a seal for replacing the second seal ring 30. A ring exchanging step, a step of attaching the beverage take-out pipe support portion 13 to the cap portion 11, and a filling step of filling the beverage storage container 5 with a beverage. In other respects, the third embodiment is the same as the first embodiment or the second embodiment. In the third embodiment, the differences from the first embodiment and the second embodiment will be mainly described, and the description that is repeated in the matters described in the first embodiment or the second embodiment will be repeated. Omitted. For this reason, it is needless to say that the matters described in the first embodiment or the second embodiment can be applied to the third embodiment even if not explicitly described in the third embodiment. .

(Annular member 20)
The annular member 20 in the third embodiment is the same as the annular member 20 in the first embodiment (or the annular member 20 in the second embodiment). Therefore, the repeated description about the annular member 20 is omitted.

(Drop prevention method for preventing the removal of the beverage take-out pipe support 13)
In 1st step ST101, the drink taking-out pipe support part 13 is removed from the nozzle | cap | die part 11. FIG. 1st step ST101 is the removal process (henceforth a "removal process") of the drink taking-out pipe support part 13. FIG. The removal process is executed by rotating the beverage take-out pipe support part 13 relative to the base part 11 around the base part central axis AX. More specifically, the screwing between the female screw part 11s of the base part 11 and the male screw part 13s of the beverage take-out pipe support part 13 is released by the relative rotation. FIG. 16 shows a state after the execution of the first step ST101. If the annular member 20 is already attached to the base 11 before the first step ST101, the annular member 20 is removed before the first step ST101. The removal of the annular member 20 is executed by forcibly plastically deforming the annular member 20 or destroying the annular member 20.

  In the second step ST102, the second seal ring 30p (see FIG. 16) arranged between the base part 11 and the beverage take-out pipe support part 13 is replaced with a new second seal ring 30n (FIG. 17 (d)). Exchanged). The second step ST102 is a seal ring replacement process.

  The new second seal ring 30n has a cross-sectional area (cross-sectional area in a plane perpendicular to the ring circumferential direction) that is larger than the second seal ring 30p disposed between the base part 11 and the beverage take-out pipe support part 13. May be a large seal ring. By increasing the cross-sectional area of the new second seal ring 30n, the compression rate when the second seal ring 30n is compressed can be reduced. As a result, the service life (product life) of the second seal ring 30n is increased.

  From the viewpoint of increasing the cross-sectional area of the new second seal ring 30n, the seal ring receiving recess 131 of the beverage take-out pipe support portion 13 may be cut (see FIG. 17C). By increasing the depth of the seal ring receiving recess 131 by cutting, the cross-sectional area of the new second seal ring 30n can be increased. Note that the cutting process (the process of cutting the seal ring receiving recess 131) is performed between the first step ST101 and the second step ST102 described above.

  In the third step ST103, the beverage take-out pipe support part 13 is screwed into the base part 11. The third step ST103 is a screwing process. FIG. 18 shows a state after the execution of the third step ST103.

  FIG. 18 shows a state in which the beverage take-out tube unit U1 is supported by the beverage take-out tube support portion 13. The third step ST103 may be executed in a state in which the beverage take-out pipe unit U1 is supported by the drink take-out pipe support part 13, or after the execution of the third step ST103, the beverage take-out pipe support part 13 is provided with the beverage take-out pipe. The unit U1 may be supported.

  From the viewpoint of extending the service life (product life) of the second seal ring 30, the compression ratio in the height direction of the second seal ring 30 by executing the screwing step is 30% or less (more preferably 25% or less). ) Is preferable. For example, the height of the second seal ring 30 at the time of no load is defined as “height H1”, and the height of the seal ring receiving chamber RS formed by screwing the beverage take-out pipe support portion 13 into the base portion 11 is defined. When defined as “height H2,” the value of (H1−H2) / H1 is preferably 0.3 or less (more preferably, 0.25 or less).

  Further, liquid flows from the first passage P1 formed by screwing the beverage take-out tube support portion 13 into the base portion 11 toward the second passage P2 formed by screwing the beverage take-out tube support portion 13 into the base portion 11. From the viewpoint of preventing leakage, it is preferable that the compression ratio in the height direction of the second seal ring 30n by executing the screwing step is 5% or more (more preferably 10% or more). In the example shown in FIG. 18, the first passage P1 is a passage disposed immediately below the inner edge of the seal ring receiving chamber RS and is a passage communicating with the beverage storage container interior UA. Further, the second passage P <b> 2 is a passage disposed immediately above the outer edge of the seal ring receiving chamber RS and is a passage communicating with the outside of the beverage storage container 5.

  In the fourth step ST104, the annular member 20 is prepared. The fourth step ST104 is the same as the first step ST1 in the first embodiment (or the second embodiment). Therefore, a repeated description of the fourth step ST104 is omitted.

  In the fifth step ST105, the annular member 20 is attached to the base part 11. The fifth step ST105 is the same as the second step ST2 in the first embodiment (or the second embodiment). Therefore, a repeated description of the fifth step ST105 is omitted.

  When the RFID 28 is attached to the annular member 20, the RFID includes the model number of the second seal ring 30n, the replacement date of the second seal ring 30n, and the type of beverage filled in the beverage storage container 5 ( A recording process of recording one aspect of the beverage filling history) or a delivery destination of the beverage storage container 5 (one aspect of the usage history of the beverage storage container 5) is executed. The recording process is preferably performed after the RFID 28 is mounted on the annular member 20, but may be performed before the RFID 28 is mounted on the annular member 20. Moreover, the above-mentioned recording process may be performed before the below-mentioned drink filling process (6th step ST106), and may be performed after a drink filling process.

  Moreover, when the display part 29 is provided in the cyclic | annular member 20, formation (for example, printing) of the display part 29 may be performed before 5th step ST105, and is performed after 5th step ST105. May be. The display unit 29 displays the model number of the second seal ring 30n or the replacement date of the second seal ring 30n.

  In the sixth step ST106, the beverage storage container 5 is filled with a beverage. The sixth step ST106 is a beverage filling process. In the beverage filling step, for example, the tip of the nozzle portion 100 is inserted into the cylindrical body C via the central hole 20h of the annular member 20, and the first valve body of the beverage supply valve 91 is inserted by the tip of the nozzle portion 100. 91a is pressed downward. Thus, the beverage is filled in the beverage storage container 5 with the beverage supply valve 91 opened by the nozzle portion 100. In addition, when the attachment process (5th step ST105) of the cyclic | annular member 20 is performed after a drink filling process, the front-end | tip of the nozzle part 100 is a cylindrical body directly without passing through the center hole 20h of the cyclic | annular member 20. Needless to say, it is inserted into C.

  The sixth step ST106 may be executed before the execution of the fifth step ST105, or may be executed after the execution of the fifth step ST105.

  After the execution of the fifth step ST105 and the sixth step ST106, a dustproof film placement step of placing the dustproof film 50 on the annular member 20 so as to cover the annular member 20 may be executed. The dustproof film placement step may be executed, for example, by placing the dustproof film 50 so as to cover the annular member 20 and then heating and dusting the dustproof film 50. In this case, the dustproof film 50 is a heat shrink film.

  The third embodiment has the same effect as the first embodiment or the second embodiment. In addition, after the annular member 20 is attached to the base part 11, the second seal ring 30 between the base part 11 and the beverage take-out pipe support part 13 cannot be easily replaced (particularly, the base part 11 includes When the annular member 20 is fixed by crimping). On the other hand, the third embodiment includes a seal ring exchanging step of exchanging the second seal ring 30p with a new second seal ring 30n. Therefore, after the annular member 20 is attached to the base part 11, the third embodiment The sealing function of the second seal ring 30n is maintained. In particular, when the cross-sectional area of the newly installed second seal ring 30n is larger than the cross-sectional area of the existing second seal ring 30p, the compression ratio of the second seal ring 30n can be reduced. . In this case, the service life (product life) of the second seal ring 30n is increased. When the annular member 20 is provided with the RFID 28 or the display unit 29, it is possible to easily manage the replacement time (time to be replaced) of the second seal ring 30n.

(Fitting structure)
An example of the fitting structure will be described with reference to FIG. FIG. 19 is a diagram (schematic cross-sectional view) for explaining the fitting structure.

  In the example described in FIG. 19, the upper portion 13E of the beverage take-out pipe support portion 13 is configured by a cylindrical body C, and the lower end portion of the dispensing head is attached to the cylindrical body. More specifically, the cylindrical body C is provided with a locking portion 138 that engages with the lower end portion of the dispense head. The fact that the upper portion 13E of the beverage take-out tube support portion 13 is formed of a cylindrical body corresponds to the fact that the beverage take-out tube support portion 13 constitutes a well-type fitting.

  A second valve seat portion 92b that contacts the second valve body 92a is disposed on the inner peripheral portion of the upper portion 13E (tubular body C) of the beverage take-out pipe support portion 13, and the second valve body 92a and the second valve body 92a The gas valve 92 is constituted by the two valve seat portions 92b. The gas valve 92 is a valve that prohibits or allows gas movement between the inside and the outside of the beverage storage container 5. The second valve body 92a is attached to the upper end portion of the beverage take-out pipe 90.

  The lower portion 13F of the beverage take-out pipe support portion 13 is configured by a cylindrical body D. The bottom wall of the cylindrical body D is provided with a bottom hole Dh1 into which the beverage take-out pipe 90 is inserted. A plurality of through holes Dh <b> 2 are provided on the side wall of the cylindrical body D. The gas (carbon dioxide gas) supplied into the cylindrical body D through the gas valve 92 moves to the outside of the cylindrical body D, in other words, the inside of the beverage storage container 5 through the through hole Dh2. .

  A second urging member 94 (spring) is disposed between the bottom wall of the cylindrical body D and the upper end portion of the beverage take-out pipe 90, and the beverage take-out pipe 90 is interposed via the second urging member 94. And supported by the bottom wall of the cylindrical body D. The second urging member 94 urges the second valve body 92a upward, and the gas valve 92 is maintained in the closed state by the second urging member 94.

  The second valve body 92a also functions as a valve seat portion (in other words, the first valve seat portion 91b) of the beverage supply valve 91. The first valve body 91a (the valve body of the beverage supply valve 91) can contact the first valve seat portion 91b. In the example shown in FIG. 19, a first urging member 93 (spring) is disposed inside the beverage take-out pipe 90, and the first urging member 93 urges the first valve body 91a upward. . The beverage supply valve 91 is maintained in the closed state by the first biasing member 93. The beverage supply valve 91 is a valve that prohibits or allows the movement of the beverage between the inside and the outside of the beverage storage container 5.

  The present invention is not limited to the embodiments described above, and it is obvious that the embodiments can be appropriately modified or changed within the scope of the technical idea of the present invention. In addition, various techniques used in each embodiment can be applied to other embodiments as long as no technical contradiction occurs. Furthermore, the optional additional configuration in each embodiment can be omitted as appropriate.

1: Beer storage container 2: Cap part 2 s: Female screw part 3: Fitting 4: Mounting member 4 s: Male screw part 5: Beverage storage container 6: Container body 10: Beverage takeout part 11: Cap part 11 s: Female screw part 11 u : Upper surface 12: Protruding portion 13: Beverage take-out pipe support portion 13E: Upper portion 13F: Lower portion 13s: Male screw portion 13u: Upper surface 20: Annular member 20a: First end portion 20b: Second end portion 20h: Central hole 20w: lower surface 21: ring-shaped top portion 22: skirt portion 22b: lower end 23: downward projecting portion 24: weakening portion 25: folded portion 25a: folded portion 25b: folded portion 26: annular projecting portion 28: RFID
29: Display part 30, 30n, 30p: 2nd seal ring 40: Seal ring 50: Dust-proof film 90: Beverage take-out pipe 91: Beverage supply valve 91a: 1st valve body 91b: 1st valve seat part 92: Gas valve 92a : Second valve element 92b: second valve seat portion 93: first biasing member 94: second biasing member 100: nozzle portion 102: seal portion 111: seal ring receiving recess 131: seal ring receiving recess 138: locking Part 221: Engagement part 221a: Inclined surface 221b: Horizontal plane AX: Center part central axis C: Cylindrical body D: Cylindrical body Dh1: Bottom hole Dh2: Through hole G: Gap P1: First path P2: Second path RS: seal ring receiving chamber S: seal ring SP: space U1: beverage take-out pipe unit UA: inside beverage storage container

Claims (8)

It is a detachment prevention method for preventing a beverage take-out pipe support part with a screw from coming off from a base part of a beverage storage container,
The base part has a female screw part,
The beverage take-out pipe support part has a cylindrical body at least at an upper part, and the cylindrical body has a male screw part screwed into the female screw part,
The detachment prevention method is:
Preparing an annular member having an inner diameter smaller than the outer diameter of the male screw portion of the cylindrical body;
An attachment prevention method comprising: an attaching step of attaching the annular member to the base portion so that the annular member not connected to the tubular body covers at least a part of the tubular body. The detachment prevention method according to claim 1, wherein the attaching step includes disposing a first seal ring between the annular member and the cylindrical body. The annular member is made of metal,
The detachment prevention method according to claim 1 or 2, wherein a folded portion is provided on at least one of the inner first end portion or the outer second end portion of the annular member. The detachment prevention method according to any one of claims 1 to 3, wherein an annular protrusion that protrudes upward is provided on an upper surface of the annular member. The detachment prevention method according to any one of claims 1 to 3, wherein the attaching step is performed after the beverage is filled in the beverage storage container. In the annular member, the model number of the second seal ring attached to the beverage storage container, the replacement date of the second seal ring, the filling history of the beverage in the beverage storage container, or the use history of the beverage storage container The RFID according to any one of claims 1 to 5, wherein an RFID for recording is attached. The said annular member has a display part which displays the model number of the 2nd seal ring with which the said drink storage container was mounted | worn, or the replacement date of a 2nd seal ring. Detaching prevention method. A removal step of removing the beverage take-out pipe support from the base,
A seal ring exchanging step of exchanging the second seal ring disposed between the base portion and the beverage take-out pipe support portion with a new second seal ring;
A screwing step of screwing the beverage take-out pipe support part into the base part, and
The detachment prevention method according to any one of claims 1 to 7, wherein the removal step, the seal ring replacement step, and the screwing step are performed before the attachment step.

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