JP3927345B2 - Foamed beverage pouring cock - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a sparkling beverage pouring cock, and more specifically, is used in a sparkling beverage pouring machine for pouring sparkling beverages typified by beer by lever operation, and a predetermined amount of sparkling beverage is poured into a container such as a mug. The present invention relates to an improvement in a cock that can be further poured with a finer foam into the sparkling beverage in the container after being dispensed.
[0002]
[Prior art]
For a device that dispenses sparkling beverages by lever operation, for example, a beer dispensing cock used in a beer server, after manually pulling a predetermined amount of beer into a mug by tilting the lever in one direction, the lever is moved in the opposite direction. Some have the function of falling down and pouring fine bubbles of beer into the beer in the mug. A tap with a foaming function disclosed in Japanese Patent Application Laid-Open No. 9-2590 is available as a pouring cock having a post-pouring function for the foam. The reason why such fine bubbles are post-poured into the beer in the mug (so-called foaming) is that a moderately foamed beer has better throat penetration when drinking, and this foam allows early escape of carbon dioxide from the beer. This is because it plays a role in preventing the outage. In recent years, a creamy foam having a finer texture has been demanded as a foam for pouring.
[0003]
[Problems to be solved by the invention]
In the beer server having the foaming function described above, only beer is poured out from a nozzle provided in the cock or a fine foam is poured back by switching operation of a lever provided in the beer pouring cock. However, after the foam is poured out, the foam remains in the nozzle, and when this foam is dripped into the next mug, when the beer is poured into the jug, the foam is mixed with the beer and the liquid changes into foam. A calling phenomenon occurs, and a lot of bubbles are generated, resulting in a so-called excessive bubble state. As a countermeasure, an air introduction hole is provided in the dispensing nozzle so that bubbles remaining in the nozzle are allowed to fall naturally.
[0004]
As mentioned earlier, fine foam-like foam is required for the post-poured foam, but since the foam in this state is highly viscous, it can be discharged even by air from the air inlet hole. It takes time and is difficult to drop completely. That is, in order not to be in an excessive foaming state, after a beer is poured out, a long waiting time is required until the next beer pouring, and foam remains in the cock body or nozzle for a long time. There is an unsanitary problem.
[0005]
After beer is poured out and foamed, the operator operates the lever momentarily to flush the beer for a moment, and this beer is used to wash away foam remaining in the cock body and nozzle. Has been done. However, the cleaning operation of instantly flowing the beer is an operation that requires very skill.
[0006]
OBJECT OF THE INVENTION
The present invention has been proposed to suitably solve the above-mentioned drawbacks inherent in the sparkling beverage dispensing cock according to the prior art, and it allows foam remaining in the cock body and nozzle to be completely dropped in a short time. An object of the present invention is to provide a sparkling beverage pouring cock that can shorten the waiting time until the next beverage pouring and can always be kept hygienic.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems and achieve the intended purpose, the sparkling beverage pouring cock according to the present invention
Is
  The sparkling beverage formed in the cock body and supplied to the sparkling beverage supply path formed in the cock bodyA sparkling beverage dispensing nozzle for dispensingThe foam obtained from the sparkling beverage supplied to the sparkling beverage supply path can be poured into a container in which the sparkling beverage is stored.foamIn the sparkling beverage pouring cock with the pouring nozzle,
  SaidfoamThe dispensing nozzle is formed with a slit extending from its lower end to a predetermined height position.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Next, the sparkling beverage pouring cock according to the present invention will be described below with reference to the accompanying drawings by giving a preferred embodiment. In this embodiment, the beer pouring cock provided in the beer server is illustrated and explained as the sparkling beverage pouring cock, but it is needless to say that the present invention is not limited to this.
[0011]
FIG. 1 is a sectional view showing a beer pouring cock 44 according to a preferred embodiment in an exploded state. The beer pouring cock 44 is attached to a beer server (foamed beverage pouring machine) 46 shown in FIG. FIG. 2 is a cross-sectional view of the beer pouring cock 44 connected to the beer supply pipe 48 extending horizontally from the beer server 46, and shows a state where neither beer nor foam is being poured out. As shown in FIG. 1, the beer pouring cock 44 includes a cock body 10, various valve mechanisms (described later) that are built in the cock body 10 to open and close flow paths for beer and foam, and beer and beer by tilting operation. It is basically composed of a lever 18 for switching the foam dispensing.
[0012]
(About the cock body)
A cock main body 10 shown in FIG. 1 has a beer supply path (foamed beverage supply path) 12 having a required diameter that penetrates the inside of the cock horizontally, and a beer pouring nozzle (foamed beverage pouring branch) that branches obliquely downward and extends in parallel. The two nozzles 14, 16 communicate with the beer supply path 12 internally. In FIG. 1, the right nozzle that extends obliquely downward from the cock body 10 is the beer pouring nozzle 14, and the left nozzle is the foam pouring nozzle 16.
[0013]
In FIG. 1, the right end of the cock body 10 is configured as an enlarged diameter portion, and the beer supply path 12 is opened in a hemispherical recess 26 provided in the enlarged diameter portion. The hemispherical recess 26 functions as a first valve seat described later. The cock main body 10 is attached to the beer supply pipe 48 by screwing the male screw 10a screwed on the outer periphery of the enlarged diameter portion and the female screw 50a of the union nut 50 shown in FIG. The rising portion 52 integrally formed on the left side of the cock body 10 is formed with a vertical hole 52a communicating with the beer supply path 12, and a ball 54 provided at the lower end portion of the pouring operation lever 18 in the vertical hole 52a and A connecting rod 56 is inserted. The connecting rod 56 is inserted into an insertion hole 20 a of the slider 20 described later, and transmits the movement of the lever 18 to the slider 20. The lever 18 is engaged with the cock body 10 by screwing a male screw 52b screwed on the outer periphery of the rising portion 52 with a female screw 58a of a union nut 58 attached to the ball 54 of the lever 18. Mounted.
[0014]
Further, the cock body 10 is formed with a first air hole 60 and a second air hole (air hole) 62 that communicate with the beer supply path 12 to the outside. These two air holes 60 and 62 are connected to the beer pouring nozzle 14 and the foam under the cooperative action of the first annular groove 64 and the second annular groove 66 provided around the outer periphery of the sleeve 24 to be described later at a required interval. It functions to allow the dispensing nozzle 16 to communicate with the outside or not. In FIG. 1, the first air hole 60 is located on the right side, and one of the first air holes 60 opens on the upper surface of the cock body 10 and the other opens on the beer pouring nozzle 14. . Further, the second air hole 62 is located on the left side of the first air hole 60 in FIG. The distance between the first air hole 60 and the second air hole 62 opening in the beer supply path 12 is matched to the distance between the first annular groove 64 and the second annular groove 66 (described later).
[0015]
The foam dispensing nozzle 16 is formed with two slits 72, 72 extending from the lower end to a predetermined height position with the same width dimension so as to face the side surface of the nozzle 16. The slits 72 and 72 function to completely drop the foam remaining in the cock body 10 and the foam dispensing nozzle 16 in a short time after the foam is dispensed. Incidentally, as for the length dimension of the slit 72, it is confirmed that a length of about 30 to 50% is effective with respect to the total length of the bubble pouring nozzle 16, and 40 to 50% is good and suitable. Yes. For example, in an experiment in which a slit having a width of 3 mm and a length of 25 mm was formed with respect to the foam pouring nozzle 16 having an inner diameter of 10 mm and a total length of 60 mm, bubbles remaining in the cock body 10 and the foam pouring nozzle 16 were 3-4. It was able to drop completely in seconds. In addition, in the foam extraction nozzle of the same size which does not form a slit, the foam did not fall completely even if several tens of seconds passed.
[0016]
(Various valve mechanisms)
The beer supply path 12 in the cock body 10 incorporates various valve mechanisms for opening and closing the flow paths of beer and foam. As shown in FIG. 1, the valve mechanism includes a slider 20, a sleeve 24, a valve rod 34, a first valve body 30, a first valve seat 26, a first elastic member 28, a second valve body 42, a second valve seat. 38, the second elastic member 40 and the like.
[0017]
(About the slider)
In FIG. 1, reference numeral 20 denotes a cylindrical slider that is slidably inserted into the beer supply path 12 in a substantially intimate contact state, and an insertion hole 20 a that intersects the axial direction is formed in a substantially intermediate portion of the slider 20. ing. A connecting rod 56 provided at the lower end of the lever 18 is inserted into the insertion hole 20a when assembled, and the slider 20 is moved forward and backward in the beer supply path 12 by tilting the lever 18 forward and backward. Further, in FIG. 1, a seal body 38 is fitted into a cylindrical recess recessed at the right end of the slider 20, and this seal body 38 functions as a second valve seat that allows a second valve body 42 to be described later to be seated. . The male screw 20 b screwed on the outer periphery of the right end of the slider 20 is screwed with a female screw 25 a screwed on the inner periphery of the left end of a sleeve 24 described later, so that the slider 20 and the sleeve 24 are connected.
[0018]
(About the sleeve)
In FIG. 1, reference numeral 24 denotes a cylindrical sleeve that is slidably inserted into the beer supply path 12 in a substantially intimate contact state, and a cylindrical hollow portion 25 penetrating in the axial direction is formed in the sleeve 24. . A female screw 25 a screwed on the left inner peripheral surface of the cylindrical hollow portion 25 is screwed into the male screw 20 b of the slider 20. The right end of the cylindrical hollow portion 25 is configured as an inner step portion 25b, and this inner step portion 25b functions as a positioning portion when a second elastic member 40 described later is inserted into the cylindrical hollow portion 25. Further, a valve rod insertion hole 68 that communicates with the cylindrical hollow portion 25 is formed in the inner step portion 25b to allow insertion of a valve rod 34, which will be described later.
[0019]
A first annular groove 64 and a second annular groove 66 are provided around the outer periphery of the sleeve 24 at predetermined intervals, which are connected to the first air hole 60 and the second air hole 62 formed in the cock body 10 described above. Under the cooperative action, the beer pouring nozzle 14 and the foam pouring nozzle 16 are communicated / not communicated. In FIG. 1, the first annular groove 64 is located on the right side of the sleeve 24, and the second annular groove 66 is located on the left side thereof. As described above, the interval between the first annular groove 64 and the second annular groove 66 corresponds to the interval between the first air hole 60 and the second air hole 62. Further, four through holes 22 are formed in the radial direction of the outer periphery of the sleeve and communicated with the cylindrical hollow portion 25 with the second annular groove 66 in the sleeve 24 on the right side. These through-holes 22 can communicate with the foam dispensing nozzle 16 during the foam dispensing operation of the lever 18 described later.
[0020]
(About the first disc)
As described above, a hemispherical recess functioning as the first valve seat 26 is formed in the enlarged diameter portion of the cock body 10, and the first valve seat 26 communicates with the inlet of the beer supply path 12. . The first valve body 30 is seated on the first valve seat 26 so that the communication between the beer supply pipe 48 and the beer supply passage 12 can be freely opened and closed. The first valve body 30 is elastically pressed by a first elastic member 28 such as a coil spring interposed between the first valve body 30 and the conical opening surface 48a of the beer supply pipe 48 at the time of assembly. It is in contact. Further, in FIG. 1, the first valve body 30 is formed as a hemispheric rubber seal surface 30a on the left side to ensure fluid tightness with the first valve seat 26, and the right side is formed as a spindle-shaped head 30b. . The first valve body 30 is formed with a through hole 31 penetrating the center in the axial direction so as to communicate with a liquid passage 32 of a valve rod 34 described later.
[0021]
(About the valve stem)
The valve rod shown by the reference numeral 34 in FIG. 1 is configured as a long rod member, and a liquid passage 32 is formed through the center in the axial direction thereof. The valve rod 34 is connected to the first valve body 30 at the right end of FIG. 1, and allows the liquid passage 32 to communicate with the through hole 31 of the first valve body 30. Further, a male screw 34a is screwed on the outer periphery of the left end portion of the valve stem 34, and is engaged with a female screw 42a screwed inside the second valve body 42 described later, so that the valve stem 34 and the second valve body are engaged. 42 is connected. As shown in FIG. 2, the valve stem 34 is inserted into the sleeve 24 through the valve stem insertion hole 68 of the sleeve 24 when assembled. A second elastic member 40 (described later) such as a coil spring is externally attached to the valve stem 34, and between the second valve body 42 (described later) connected to the valve stem 34 and the inner step portion 25 b of the sleeve 24. The second valve member 42 is forcibly seated on the second valve seat 38 of the slider 20 by elastically interposing the second elastic member 40.
[0022]
(About the second disc)
In FIG. 1, reference numeral 42 indicates a second valve body inserted into the sleeve 24. The second valve body 42 is a cylindrical body that is short in the axial direction and can be inserted into the sleeve 24 in a close-contact manner, and an axial female screw 42a is screwed to the right end in FIG. As described above, the second valve body 42 is connected to the valve rod 34 by screwing the female screw 42a with the male screw 34a screwed to the left end portion of the valve rod 34 as described above. In addition, a pore 36 is formed in the center of the second valve body 42. By connecting the second valve body 42 and the valve stem 34 during assembly, the pore 36 is formed in the valve stem 34. It communicates with the liquid passage 32. And since the beer which arrived from the liquid channel | path 32 is made into the fine foam when passing the said pore 36, the internal diameter of this pore 36 is set very small like an orifice. Furthermore, the left open end of the second valve body 42 is configured as a reduced diameter head as shown in FIG. 1, and this reduced diameter head can be seated on a second valve seat 38 provided on the slider 20. ing. Note that the force for pressing the second valve body 42 against the second valve seat 38 and always seating is mainly given by the first elastic member 28 provided on the first valve body 30 side.
[0023]
(Assembly of various valve mechanisms)
Each member described above is organically assembled and then inserted into the beer supply path 12 of the cock body 10. In actual assembly, the side of the valve rod 34 that does not include the first valve body 30 is inserted into the sleeve 24 through the valve rod insertion hole 68. After the sleeve is inserted, the valve rod 34 is inserted into the second elastic member 40 represented by the coil spring, and then the male screw 34a at the left end of the valve rod 34 is screwed into the female screw 42a of the second valve body 42. . At this time, as shown in FIG. 2, the coil spring 40 can be stored in the cylindrical hollow portion 25 of the sleeve 24, and the right end portion of the coil spring 40 is regulated by the inner step portion 25b, and the left end portion is It is regulated by the second valve body 42.
[0024]
Next, the sleeve 24 and the slider 20 are connected by screwing a female screw 25 a on the inner periphery of the left end of the sleeve 24 and a male screw 20 b on the outer periphery of the right end of the slider 20. At this time, the coil spring 40 is compressed in the cylindrical hollow portion 25 of the sleeve 24, and elastically biases the sleeve 24 to the right in the axial direction in FIG. 2, and the second valve body 42 to the second valve seat 38. I'm seated. The elasticity of the coil spring 40 is set so that the slider 20 can be urged to the left to hold the lever 18 in the upright position shown in FIG. However, the elasticity of the coil spring 40 as the second elastic member is set smaller than the elasticity of the coil spring 28 as the first elastic member.
[0025]
The various valve mechanisms assembled in this way are inserted into the beer supply path 12 of the cock body 10, and then the lever 18 is attached to the cock body 10. The cock body 10 is attached to the beer supply pipe 48. Since these attachment operations are known, the description of the operations is omitted. When the assembly is completed, the coil spring 28 is elastically interposed between the first valve body 30 and the conical opening surface 48a of the beer supply pipe 48. Therefore, the first valve body 30 is the first valve body 30. Sitting on the seat 26, the communication between the beer supply pipe 48 and the beer supply path 12 is always shut openably.
[0026]
[Effect of the embodiment]
Next, the operation of the beer pouring cock according to the embodiment will be described below. FIG. 2 is a cross-sectional view of a beer dispensing cock 44 according to an embodiment in which the various valve mechanisms shown in FIG. At this time, the lever 18 is in a neutral position before operation, and neither beer nor foam is poured out. That is, before the operation of the lever 18, the first valve body 30 is seated by being pressed against the first valve seat 26 by the coil spring 28 disposed on the conical opening surface 48 a of the beer supply pipe 48, and the beer supply from the beer supply pipe 48. The supply of beer to the road 12 is shut off. The second valve body 42 connected to the valve stem 34 is urged to the left in the axial direction by the coil spring 28, so that the second valve body 42 is seated on the first valve seat 26 provided on the slider 20, 42 pores 36 are closed. For this reason, the supply of beer to the beer pouring nozzle 14 and the supply of foam to the foam pouring nozzle 16 are not performed.
[0027]
As shown in FIG. 3, in the state before the lever operation, the first annular groove 64 and the second annular groove 66 provided around the outer periphery of the sleeve 24 are formed in the first cock hole 10 formed in the cock body 10. The positions are set so as to correspond to the air holes 60 and the second air holes 62. For this reason, outside air is introduced to (1) the first air hole 60 → the first annular groove 64 → the beer pouring nozzle 14, and (2) the second air hole 62 → the second annular groove 66 → foam. It is introduced into the dispensing nozzle 16. That is, the beer remaining on the inner wall of the beer pouring nozzle 14 by the immediately preceding beer pouring operation is easily dropped by the introduced air, and remains on the inner wall of the cock body 10 and the foam pouring nozzle 16 by the immediately preceding foam pouring operation. Bubbles are also dropped by the introduced air.
[0028]
(About beer pouring operation)
As shown in FIG. 4, when the first operation for tilting the lever 18 toward the front side (the left side in the drawing) is performed, the slider 20 moves backward in the beer supply path 12 in the right direction. The slider 20 is connected to the sleeve 24, and the valve rod 34 connected to the end of the second valve body 42 is urged to the left by the second coil spring 40. Move in the direction. For this reason, the first valve body 30 also moves in the right direction against the elasticity of the first coil spring 28, thus opening the first valve seat 26. Thereby, the beer from the beer supply pipe 48 is poured out from the beer dispensing nozzle 14 to the mug (container) 70 shown in FIG.
[0029]
At this time, as shown in the enlarged view of the main part of FIG. 5, the second valve body 42 is urged to the left in the axial direction by the coil spring 40, so it sits on the second valve seat 38 and closes the pore 36. ing. Accordingly, at this stage, no foam is supplied to the foam dispensing nozzle 16. Further, since the slider 20 is moved rightward by the first operation of the lever 18, the communication between the first annular groove 64 of the sleeve 24 and the first air hole 60 of the cock body 10 is cut off. For this reason, external air is not introduced into the beer pouring nozzle 14, and excessive foaming due to air mixing during beer pouring is effectively prevented. It should be noted that the position of the slider 20 in the first operation stage is that the communication between the second annular groove 66 of the sleeve 24 and the second air hole 62 of the cock body 10 has not been blocked, External air has been introduced.
[0030]
(About bubble pouring operation)
As shown in FIG. 6, when the second operation for tilting the lever 18 backward is performed, the slider 20 moves forward in the left direction along the beer supply path 12 against the second coil spring 40. At this time, since the valve rod 34 is elastically pressed to the left by the first coil spring 28 via the first valve body 30, the position of the valve rod 34 is not changed from the position shown in FIG. 2 before the lever operation. That is, the second valve seat 38 provided on the slider 20 is separated from the second valve body 42 fixed to the valve rod 34, and the pore 36 opened in the second valve body 42 is opened. . For this reason, beer from the beer supply pipe 48 tends to flow out of the pores 36 through the through hole 31 penetrating the first valve body 30 and the liquid passage 32 of the valve rod 34. However, since the pore 36 is set to have a sufficiently small inner diameter like an orifice as described above, the beer becomes a fine foam here. Then, as shown in FIG. 7, the foam enters the foam pouring nozzle 16 through the radial hole 22 formed in the sleeve 24, and is then poured into the beer stored in the mug 70 from the nozzle 16. The
[0031]
At this time, as shown in the enlarged view of the main part of FIG. 7, the slider 20 is moved to the left by the second operation of the lever 18, so that the second annular groove 66 of the sleeve 24 and the second air hole 62 of the cock body 10 Communication has been cut off. For this reason, external air is not introduced into the bubble pouring nozzle 16, and air is not mixed into fine high-quality bubbles passing through the nozzle 16 so that bubble collapse does not occur. Note that the position of the slider 20 in the second operation stage does not block the communication between the first annular groove 64 and the first air hole 60. That is, external air is introduced into the beer pouring nozzle 14.
[0032]
When the lever 18 is returned to the neutral position after the foam is poured from the foam pouring nozzle 16 into the mug 70 in which the beer is stored, the second air hole 62 of the cock body 10 is opened as shown in FIG. External air is introduced through communication with the foam dispensing nozzle 16 via the second annular groove 66 of the sleeve 24, and the foam remaining in the cock body 10 and the foam dispensing nozzle 16 falls due to the introduced air. . In this case, the foam remaining in the foam dispensing nozzle 16 has a creamy texture and is highly viscous, and it takes time for all the foam to fall even when external air is introduced.
[0033]
However, since the slits 72 and 72 are formed from the lower end to a predetermined height position in the foam dispensing nozzle 16 of the embodiment, the foam remaining in the portion where the slits 72 and 72 are formed is extremely small. The bubbles easily fall, and the bubbles remaining on the nozzle upper part and the cock body 10 are pulled by the suction force caused by the falling of the bubbles and fall in a short time. That is, the foam remaining in the cock main body 10 and the foam extraction nozzle 16 can be completely dropped in a short time after the foam is extracted, and the waiting time until the next beer extraction can be shortened. Further, since the foam does not remain in the cock body 10 or the foam dispensing nozzle 16 for a long time, it is hygienic, and it is possible to prevent the foam from being dried and becoming dirty in the nozzle. Further, the formation of the slit 72 disperses the flow velocity of the foam and reduces the hitting of the foam against the liquid surface of the beer, so that it is possible to suppress the generation of large foam due to the impact of falling.
[0034]
In the embodiment, the number of slits formed in the foam dispensing nozzle is two, but it may be one or more, and the formation position is not limited to the side surface, and any position is acceptable. There may be. Further, the shape of the slit itself may be a shape in which the width gradually narrows toward the upper side, in addition to the slit having the same width over its entire length.
[0035]
[Another example]
FIG. 9 shows a main part of a beer pouring cock according to another embodiment, and the basic configuration is the same as that of the above-described embodiment, and therefore only different portions will be described. In the beer pouring cock 44 of another embodiment, the inner wall surface of the foam pouring nozzle 16, that is, the surface in contact with foam (foam contact surface) is coated with various water repellent materials that are not problematic for food hygiene. The treated layer 74 is formed.
[0036]
According to this configuration, the foam remaining in contact with the treatment layer 74 of the foam dispensing nozzle 16 at the time of foam dispensing falls very easily due to the water repellent action of the treatment layer 74 and enters the nozzle 16. The remaining foam is reliably discharged in a short time. That is, the foam remaining in the cock body 10 and the foam extraction nozzle 16 can be completely dropped in a short time after the foam is extracted, and the waiting time until the next beer extraction can be shortened. Further, since the foam does not remain in the cock body 10 or the foam dispensing nozzle 16 for a long time, it is hygienic, and it is possible to prevent the foam from drying and becoming dirty in the nozzle.
[0037]
In the other embodiment described above, the case where the water repellent treatment (treatment layer 74) is applied to the inner wall surface of the foam dispensing nozzle 16 has been described. However, instead of the water repellent treatment, a treatment layer coated with a hydrophilic material is used. You may make it perform the hydrophilic treatment which forms. In this case, the foam remaining in contact with the hydrophilic treatment layer of the foam dispensing nozzle 16 at the time of foam dispensing changes into a liquid state in a short time due to the hydrophilic action of the treatment layer and drops very easily. In addition, the same effect as described above can be obtained. Further, by applying water repellent treatment or hydrophilic treatment to the inner wall surface of the foam dispensing nozzle 16, it becomes difficult for the inner wall surface to be contaminated and it becomes hygienic.
[0038]
In addition, in the case where the slit is formed in the foam dispensing nozzle as in the above-described embodiment, the foam can be more reliably dropped by performing water repellent treatment or hydrophilic treatment on the inner wall surface (foam contact surface). .
[0040]
【The invention's effect】
  As explained above, according to the sparkling beverage dispensing cock according to the invention of claim 1,foamBy forming a slit in the dispensing nozzle,Foam pouringThe foam remaining in the nozzle can be completely dropped in a short time. In other words, since the next sparkling beverage can be supplied in a short time after the foam has been poured out, it is possible to provide a larger amount of the sparkling beverage in which an appropriate amount of foam has been poured in the short time. Also, the foamFoam pouringBecause it does not remain in the nozzle for a long time,foamThe dispensing cock itself can always be kept hygienic.Furthermore, by forming a slit in the foam dispensing nozzle, the foam flow velocity is dispersed, and the foam hitting against the liquid surface of the sparkling beverage is reduced, thereby suppressing the generation of large foam due to the impact of dropping. Can do.In the invention of claim 2,foamExternal air is introduced into the dispensing nozzle through the air holes formed in the cock body.Foam pouringThe falling of bubbles remaining inside the nozzle is further facilitated.According to the invention of claim 3, the communication between the first annular groove and the first air hole is interrupted and the communication between the second annular groove and the second air hole is interrupted during the operation of pouring the sparkling beverage of the lever. Because it is set so that it does not lead to external air is not introduced into the sparkling beverage pouring nozzle when pouring the sparkling beverage, and the sparkling beverage poured out from the sparkling beverage pouring nozzle is caused by air mixing Excessive foaming is effectively prevented, and the communication between the second annular groove and the second air hole is interrupted and the communication between the first annular groove and the first air hole is interrupted during the post-pouring operation of the lever foam. Since it is set so as not to shut off, external air is not introduced into the foam dispensing nozzle when the foam is poured, and air is mixed into fine high-quality foam that passes through the foam dispensing nozzle. No bubble collapse.
[Brief description of the drawings]
FIG. 1 is a sectional view showing each member constituting a sparkling beverage dispensing cock according to a preferred embodiment of the present invention in an exploded state.
FIG. 2 is a cross-sectional view of a sparkling beverage pouring cock according to an embodiment connected to a beverage supply pipe of a beverage dispensing machine, in which neither a sparkling beverage nor foam is poured out because the lever is in a neutral position before operation. Is shown.
3 is an enlarged view of a main part showing a positional relationship of sleeves in FIG. 2. FIG.
FIG. 4 is a cross-sectional view of a sparkling beverage pouring cock according to an embodiment connected to a beverage supply pipe of a beverage dispensing machine, showing a state in which only sparkling beverage is being dispensed by a first operation of a lever. Yes.
5 is an enlarged view of a main part showing a positional relationship of sleeves in FIG. 4. FIG.
FIG. 6 is a cross-sectional view of a sparkling beverage dispensing cock according to an embodiment connected to a beverage supply pipe of a beverage dispensing machine, showing a state in which only fine bubbles are being dispensed by a second operation of the lever. Yes.
7 is an enlarged view of a main part showing a positional relationship of sleeves in FIG. 6. FIG.
FIG. 8 is a side view of a sparkling beverage dispensing machine equipped with a sparkling beverage dispensing cock according to a preferred embodiment.
FIG. 9 is a cross-sectional view of an essential part showing a sparkling beverage dispensing cock according to another embodiment.
[Explanation of symbols]
10 Cock body
12 Beer supply channel (foamed beverage supply channel)
16 Foam pouring nozzle (pouring nozzle)
62 Second air hole (air hole)
70 Mug (container)

Claims (3)

A sparkling beverage dispensing nozzle (14) for pouring sparkling beverages formed in the cock body (10) and fed into the sparkling beverage supply path (12) formed in the cock body (10), and the sparkling beverage supply In the sparkling beverage dispensing cock provided with the foam dispensing nozzle (16) capable of post-pouring the foam obtained from the sparkling beverage supplied to the passage (12) into the container (70) in which the sparkling beverage is stored,
A foamed beverage pouring cock, wherein the foam pouring nozzle (16) is formed with a slit (72) extending from a lower end thereof to a predetermined height position.   The sparkling beverage dispensing cock according to claim 1, wherein an air hole (62) through which external air can be introduced into the foam dispensing nozzle (16) is formed in the cock body (10). The cock body (10) has a first air hole (60) capable of introducing external air into the sparkling beverage pouring nozzle (14) and a second air capable of introducing external air into the foam pouring nozzle (16). A hole (62) is formed,
The first air hole (60) and the second air hole (62) are in close contact with the sparkling beverage supply path (12) before the operation of the lever (18) for switching the dispensing of the sparkling beverage and the foam by a tilting operation. The first annular groove (64), which is provided around the outer periphery of the sleeve (24) slidably inserted in a state and communicates with the first air hole (60) and the sparkling beverage dispensing nozzle (14), and the sleeve (24) is positioned so as to correspond to the second annular groove (66) that is provided around the outer periphery of (24) and communicates with the second air hole (62) and the foam dispensing nozzle (16),
When the sleeve (24) is moved by the sparkling beverage pouring operation of the lever (18), the communication between the first annular groove (64) and the first air hole (60) is cut off and the second annular ring is disconnected. When the communication between the groove (66) and the second air hole (62) is not blocked, and the sleeve (24) is moved by the bubble pouring operation of the lever (18), the second annular groove ( 66) and the second air hole (62) are disconnected from each other, and the communication between the first annular groove (64) and the first air hole (60) is not blocked. The sparkling beverage pouring cock according to claim 1.

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