CN1294073C

CN1294073C - Multiple flavor beverage dispensing air-mix nozzle

Info

Publication number: CN1294073C
Application number: CNB998104906A
Authority: CN
Inventors: 阿尔弗雷德·A·施罗伊尔; 达润·W·西蒙斯; 小约翰·D·桑蒂
Original assignee: Lancer Partnership Ltd
Current assignee: Lancer Partnership Ltd
Priority date: 1998-08-03
Filing date: 1999-08-02
Publication date: 2007-01-10
Anticipated expiration: 2019-08-02
Also published as: ES2277684T3; AU5546299A; EP1117612A4; CA2339361C; CA2339361A1; CN1316973A; WO2000007928A1; DE69934503D1; BR9912723A; JP2002522308A; JP3711241B2; AU744022B2; DE69934503T2; EP1117612B1; EP1117612A1

Abstract

In a beverage dispensing nozzle (10), a cap member (11) includes first, second and third beverage syrup inlet ports (21-23) coupled to respective first, second, and third beverage syrup sources. The cap member further includes a mixing fluid inlet port (27) coupled to a mixing fluid source. An inner housing (16) including a chamber (40) is coupled to the cap member. A first annulus (17) disposed within the chamber of the inner housing defines a first annular beverage syrup channel (54) with the inner housing, wherein the first beverage syrup inlet port communicates beverage syrup to the first annular beverage syrup channel. A second annulus (18) disposed within the chamber of the inner housing defines a second annular beverage syrup channel (58) with the first annulus. A third annulus (19) disposed within the chamber of the inner housing defines a third annular beverage syrup channel (64) with the second annulus.

Description

Beverage the placing nozzle and the method for utilizing its formation beverage

Technical field of the present invention

The present invention relates to beverage the placing nozzle, specifically, but be not limited to, relate to a nozzle the placing and comprise the beverage of multiple taste of flavouring additive and the beverage that do not cause drinks taste to mix the mutually nozzle of rationing.

Prior art of the present invention

Owing to provide the customer quantity of service and the quantities of beverage of the placing to increase gradually by Food ﹠ Drink service sector and very short counter space, the beverage the placing nozzle of standard can not satisfy customer requirement.In order to reduce necessary space, also, comprise that with a nozzle the placing beverage of the multiple taste of flavouring additive will suit the requirements for the needs of aesthetics.

With nozzle the placing beverage the time, be that the magma of process seasoning and the flavouring additive that just uses are when needed fully mixed with fluid-mixing (for example carbonated water or clear water) basically, make the beverage uniformity of final acquisition.When fluid-mixing is carbonated water, be that carbonated water and magma (if desired also have flavouring additive) will be mixed with such method in essence, so that carbon dioxide is overflowed within bounds and is produced undesirable foam.

A subject matter that adopts the multi-flavor nozzle to be run into is the magma leftover problem.Enter subsequently for fear of hangover in the differently flavoured beverage of the placing, remove residual magma from the beverage of previous the placing fully and be unusual difficulty.This flavour, color and the smell aspect of being retained in brings some problems for the beverage of the placing.Even only leave over also and can produce great influence to the color of limpid beverage in a spot of magma of bringing minor issue aspect smell and the flavour, this is undesirable.

Another problem that must speak of is fluid-mixing (for example, carbonated water or fresh water) and the suitable problem of mixing of magma (if desired, also comprising flavouring additive).In order to guarantee suitable mixing, requisite is that magma (if desired, also comprising flavouring additive) is exposed in the fluid-mixing with maximum surface area.To take place in the nozzle outside if mix, it is essential that so the momentum of magma stream (if desired, also comprising flavouring additive stream) is equal to or less than the momentum of fluid-mixing stream in essence.

When fluid-mixing was carbonated water, excessive foam was another problem.In order to prevent to form excessive foam, the carbonated water that under high pressure enters nozzle must little by little be reduced to barometric pressure, so that the amount that carbon dioxide is overflowed from solution is reduced to bottom line.Under high flow rate, carbon-dioxide venting problem is thorny especially.Therefore, when carbonated water in nozzle and cup during release of carbon dioxide, d/d carbon dioxide is overflowed from solution and is made the beverage of being rationed produce too much foam.Because beverage is " flat " normally, so too much foam causes the product underweight.

The early stage trial that addresses the above problem with the multi-flavor nozzle is unsuccessful.In most of the cases, as introduce in No. the 4th, 928,854, the US Patent that licenses to McCann in May 29 nineteen ninety like that, magma by one of every kind of taste independently conduit consign to jet expansion.Magma by many independently conduit flow to the discharge orifice that enters aquaporin, consign to the exit end of nozzle.The total surface area that magma contacts with fluid-mixing is smaller; Therefore suitable mixing is difficult to realize.This structure also is difficult to eliminate leaving over of magma.

General introduction of the present invention

According to the present invention, beverage the placing nozzle uses with desk-top or similar beverage dispenser.When the placing valve of the standard of activation, fluid-mixing (for example, carbonated water or fresh water) consigns to the discharge end of beverage the placing nozzle by torus section.Therefore, the circular path discharging fluid-mixing of beverage the placing nozzle around its exit end.Selected beverage magma consigns to the discharge end of beverage the placing nozzle by concentric torus section.In preferred embodiments, torus section can be closed so that limit flowing of beverage magma partly in its discharge end, guarantees to have beverage magma and the fluid-mixing direct contact of suitable momentum promotion from beverage the placing nozzle whereby.In addition, if desired, selected flavouring additive consigns to the discharge end of beverage the placing nozzle by the flavouring additive conduit.

Fluid-mixing is by consigning to the exit end of nozzle with the concentric torus section of the torus section of beverage magma.Fluid-mixing at beverage magma stream and flavouring additive stream on every side and inwardly guided so that the mating surfaces maximum of fluid-mixing and beverage magma and flavouring additive.In preferred embodiments, fluid-mixing flows with the momentum that is equal to or higher than beverage magma and flavouring additive in essence when the container from nozzle flow, to guarantee suitable mixing.In second embodiment, second kind of fluid-mixing stream flows out by the centre pipe in the beverage the placing nozzle.This is specially adapted to the situation of the nozzle and the high capacity nozzle of single taste.

The outstanding feature of the present invention is the circular pattern that is around the beverage the placing nozzle exit end that is distributed in of beverage magma, therefore provides and the contacting of the maximum face area of fluid-mixing.In preferred embodiments, the momentum during to the magma mass flowing nozzle is like this control, so that it is equal to or less than the momentum of fluid-mixing in essence, and to guarantee direct mixing, carbon dioxide is gushed out when avoiding fluid-mixing to be carbonated water simultaneously.

In preferred embodiments, beverage the placing nozzle comprises first circle, second circle and the 3rd circle, and they form the beverage magma passage of 3 annulars with inner casing.In addition, the 3rd is that innermost circle comprises the flavouring additive conduit that passes through therefrom, with permission flavouring additive is entrained in the beverage of being rationed.

So, the purpose of this invention is to provide a kind of beverage the placing nozzle, this beverage the placing nozzle distributes beverage magma and fluid-mixing with high rate of volume flow, so that form the beverage of being rationed.

Another object of the present invention provides a kind of beverage the placing nozzle, and this beverage the placing nozzle will be eliminated the lamination between beverage magma and the fluid-mixing.

The 3rd purpose of the present invention provides a kind of beverage the placing nozzle, and can the ration beverage of multiple taste of this beverage the placing nozzle is avoided the leftover problem between the magma of different tastes simultaneously.

The 4th purpose of the present invention provides a kind of beverage the placing nozzle, and this beverage the placing nozzle will have the flavouring additive conduit that passes through from this nozzle, with permission flavouring additive is entrained in the beverage of being rationed.

Another object of the present invention provides a kind of method of utilizing beverage the placing nozzle to form beverage, and this method comprises the steps: beverage magma is consigned to the first beverage magma inlet of head components;

Fluid-mixing is consigned to the fluid-mixing inlet of head components;

Beverage magma from first beverage magma inlet is consigned to first torus section that inner casing that is connected with head components and first circle that is arranged in the inner casing the inside are limited;

Discharge beverage magma in the mode of the not mixed substantially fluid of annular fluidised form dilution from the first annular beverage magma passage;

Fluid-mixing from the fluid-mixing inlet is consigned to the annular fluid-mixing passage that shell and inner casing limited that is connected with head components; And

With the fluid-mixing of annular fluidised form discharging from annular fluid-mixing passage, this blowdown mixes with it so that contact with the beverage magma of outflow in the outside of beverage the placing nozzle.

Another kind of purpose of the present invention provides a kind of method of utilizing beverage the placing nozzle to form beverage, and this method comprises the steps:

Beverage magma is consigned to the first beverage magma inlet of head components;

Beverage magma is consigned to the second beverage magma inlet of head components;

Fluid-mixing is consigned to the fluid-mixing inlet of head components;

Beverage magma from first beverage magma inlet is consigned to the inner casing that is connected with head components and is arranged in the first passage that first circle in the inner casing is limited;

Discharging is from the beverage magma of the first beverage magma passage;

Beverage magma from second beverage magma inlet is consigned to the second channel that second circle that is arranged in the inner casing and first circle are limited;

Discharging is from the beverage magma of the second beverage magma passage;

Fluid-mixing from the fluid-mixing inlet is consigned to the fluid-mixing passage that shell and inner casing limited that is connected with head components; And

Discharging from the fluid-mixing of fluid-mixing passage so that mix with the beverage magma that flows out.

Another object of the present invention provides a kind of beverage the placing nozzle, comprising:

Head components, these parts comprise the first beverage magma inlet that is connected with the first beverage magma source, the second beverage magma inlet that is connected with the second beverage magma source and the fluid-mixing inlet that is connected with the fluid-mixing source;

The inner casing that is connected with head components, this inner casing defines inner chamber;

Be arranged in first circle of the inner chamber the inside of inner casing, first circle and inner casing define the first beverage magma passage, and wherein first beverage magma inlet sends beverage magma to first beverage magma passage, so that from the placing nozzle discharge;

Be arranged in second circle of the inner chamber the inside of inner casing, second circle defines the second beverage magma passage with first circle, and wherein second beverage magma inlet sends beverage magma to second beverage magma passage, so that from the placing nozzle discharge; And

The shell that is connected with head components, this shell and inner casing define annular fluid-mixing passage, and wherein the fluid-mixing inlet sends fluid-mixing to the fluid-mixing passage, so that mix from beverage the placing nozzle discharge and with the beverage magma that flows out.

Another object of the present invention provides a kind of method of utilizing beverage the placing nozzle to form beverage, and this method comprises the steps:

Fluid-mixing is consigned to the fluid-mixing inlet of head components;

Beverage magma from first beverage magma inlet is consigned to the first passage that inner casing that is connected with head components and first circle that is arranged in the inner casing the inside limit;

Discharge beverage magma in the mode of not mixed fluid dilution from the first annular beverage magma passage;

Fluid-mixing from fluid-mixing inlet is consigned to the fluid-mixing passage that the shell that is connected with head components and inner casing limit; And

Discharging, mixes with it so that contact with the beverage magma of outflow in the outside of beverage the placing nozzle from the fluid-mixing of fluid-mixing passage.

In view of following statement, other purposes of the present invention, characteristics and advantage will become fairly obvious for the people who is familiar with this technology.

Accompanying drawing will illustrate

Fig. 1 is the transparent view that illustrates the air-blast atomizer of flavor beverage dispensing according to first embodiment.

Fig. 2 is the transparent view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment.

Fig. 3 is the front elevation that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment.

Fig. 4 is the plan view from above that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment preferred.

Fig. 5 is the cutaway view that the line 5-5 in Fig. 3 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment preferred.

Fig. 6 is the face upwarding view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment preferred.

Fig. 7 is the cutaway view that the line 7-7 in Fig. 4 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment preferred.

Fig. 8 is the cutaway view that the line 8-8 in Fig. 4 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment preferred.

Fig. 9 is the cutaway view that the line 9-9 in Fig. 4 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to first embodiment preferred.

Figure 10 is the cutaway view that the line 7-7 in Fig. 4 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to second embodiment.

Figure 11 is the cutaway view that the line 8-8 in Fig. 4 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to second embodiment.

Figure 12 is the cutaway view that the line 9-9 in Fig. 4 cuts open, and it illustrates the pneumatic mixing orifice of flavor beverage dispensing according to second embodiment.

Figure 13 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 3rd embodiment.

Figure 14 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 4th embodiment.

Figure 15 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 5th embodiment.

Figure 16 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 6th embodiment.

Figure 17 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 7th embodiment.

Figure 18 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 8th embodiment.

Figure 19 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the 9th embodiment.

Figure 20 is the cutaway view that illustrates the pneumatic mixing orifice of flavor beverage dispensing according to the tenth embodiment.

Of the present invention being described in detail

Erect image Fig. 1-9 illustrate like that, beverage the placing nozzle 10 comprises head components 11, O shape circle 12, liner 13-15, inner casing 16, first circle (being outer field circle), 17, second circle (i.e. Zhong Jian circle) the 18, the 3rd circle (being the circle of internal layer) 19 and shell 20.Inner casing 16 defines inner chambers 40 and comprises the through hole 44 that enters inner chamber 40.Inner casing 16 comprises the cavity 41-44 (seeing figures.1.and.2) that is communicated with inner chamber 40 by conduit 45-47 respectively.Even conduit 45-47 is connected on the cavity 41-43 separately, they are also by separated with one heart; That is, conduit 47 is in the inside, and conduit 45 is in the centre, and conduit 46 at outermost (with reference to Fig. 7-Fig. 9).Conduit 45-47 is separated so with one heart, so that beverage magma can independently enter inner chamber 40 from 3.The inwall of the inner casing 16 of definition inner chamber comprises stepped hole 48-51.

First circle (being outer field circle) 17 comprises upper semisection 52 and discharge section 53 (seeing figures.1.and.2).First circle (being outer field circle) 17 is installed in inner chamber 40 the insides of inner casing 16 like this, so that upper semisection 52 engages with stepped hole 49.This upper semisection can be press fit in the stepped hole 49, perhaps as this first embodiment, uses adhesion agent that the first half 52 of this part is bonded to stepped hole 49.First is that wall forms torus section 54 within outer field circle 17 and the inner casing 16 that defines stepped hole 48, and this passage is connected with the conduit 46 of inner casing 16.The beverage magma a large amount of between draining period that guarantees torus section 54 around first circle (being outer field circle) 17, flow equably (with reference to Fig. 7-9).Assist the discharge-channel 55 of torus section 54 when discharge section 53 is included in discharging beverage magma, because discharge section 53 is to make by such size, so that it resides within the lower semisection of inwall of inner casing 16 (with reference to Fig. 6) in essence.Discharge beverage magma in limited annularly flow mode during discharge section 53 work, when beverage the placing nozzle 10 flows out, be evenly distributed, provide maximum surface area to contact whereby with the fluid-mixing that flows out from beverage the placing nozzle 10 simultaneously to guarantee beverage magma.

Second circle (i.e. Zhong Jian circle) 18 comprises upper semisection 56 and discharge section 57 (seeing figures.1.and.2).Second circle (i.e. Zhong Jian circle) 18 is installed within first circle (being outer field circle) 17, so that upper semisection 56 engages with stepped hole 58.This upper semisection 56 can with stepped hole 50 force fits, perhaps as this first embodiment, stick with glue agent this upper semisection 56 and stepped hole 50 be bonded together.The inwall of second circle (i.e. Zhong Jian circle), 17 and first circle (being outer field circle) 17 forms torus section 58, and this torus section is connected with the conduit 45 of inner casing 16.Torus section 58 guarantees in beverage magma a large amount of between draining period at flow in equably around second circle (i.e. Zhong Jian circle) 18 (with reference to Fig. 7-9).When being included in discharging beverage magma, discharge section 57 assists the discharge-channel 59 of torus section 58, because discharge section 57 is to make by such size, thus it to reside in essence in the scope of a lower part of in-to-in wall be within the lower semisection of inwall of first circle (being the circle of internal layer) 17.According to restricted annularly flow discharging beverage magma, when beverage the placing nozzle 10 flows out, be evenly distributed during discharge section 57 work, provide maximum surface area to contact whereby with the fluid-mixing that flows out from beverage the placing nozzle 10 simultaneously to guarantee beverage magma.

The 3rd circle (being the circle of internal layer) 19 comprises canned paragraph 60, interlude 61 and discharge section 62 (seeing figures.1.and.2).The 3rd circle (being the circle of internal layer) 19 is installed within second circle (i.e. Zhong Jian circle) 18 like this, so that the through hole 44 of canned paragraph 60 by inner casing 16 stretches out and engage with 44 inwall of definition through hole definition on the inner casing.Canned paragraph 60 can define the inwall force fit of through holes 44 with inner casing 16, perhaps as this first embodiment, sticks with glue agent canned paragraph 60 is bonded on the inwall of inner casing 16 definition through holes 44.The 3rd is that the inwall of the circle 19, stepped hole 51 of internal layer and second circle 18 in the middle of promptly forms 16 conduit 47 bonded assembly torus sections 64 with inner casing.Torus section 64 guarantees that a large amount of beverage magma is the circle 19 of internal layer flow equably (with reference to 7-9) round the 3rd between draining period.When being included in discharging beverage magma, discharge section 62 assists the discharge-channel 63 of torus section 64, because discharge section 62 is to make by such size, so that it resides in the lower semisection scope of inwall of second circle (i.e. Zhong Jian circle) 18 in essence.Discharge section 62 is discharged beverage magma by restricted annularly flow when operation, be for rectangular distribution when beverage the placing nozzle 10 flows out in beverage magma guaranteeing, provide maximum surface area to contact whereby with the fluid-mixing from 10 outflows of beverage the placing nozzle simultaneously in order to be.Although that embodiment preferred discloses is circle 17-19, the people who is familiar with this technology will admit that alternative form (for example, ellipse or polygon) also can utilize.

Head components 11 comprises by separately connecting duct 37-39 and passes beverage magma that head components 11 is communicated with separately the beverage magma outlet 24-26 respectively 21-23 (with reference to Fig. 1, Fig. 2 and Fig. 7-9) that enters the mouth.Head components 11 comprises the protrusion 35 of assisting inner casing 16 to fix on the head components 11.Beverage magma outlet 24-26 is assembled on the inner casing 16 in the corresponding cavity 41-42 with a smack, and inner casing 16 is fixed on the head components 11.Liner 13-15 is installed in around each beverage magma outlet 24-26, so that mobile sealing is provided and assists inner casing 16 to fix on head components 11.In addition, the canned paragraph 60 of the 3rd circle (being the inner annular thing) 19 stretches out by the hole 44 of inner casing 16, and it is assembled to around the protrusion 35 of head components 11 with a smack, assists inner casing 16 to fix on head components 11.Along with inner casing 16 is fixed on the head components 11, relates to beverage magma inlet 21, conduit 37, beverage magma outlet 24, cavity 41, conduit 45 and comprise that the beverage magma path of the torus section 58 of discharge-channel 59 is established.Relate to beverage magma inlet 22, conduit 38, beverage magma outlet 25, cavity 42, conduit 46 and comprise discharge-channel 55 torus section 54 beverage magma path and relate to beverage magma inlet 23, conduit 39, beverage magma outlet 26, cavity 43, conduit 47 and comprise that the beverage magma path of the torus section 64 of discharge-channel 63 also is established.

Head components 11 comprises by connecting duct 28 and passes fluid-mixing inlet 27 (with reference to Fig. 1-3 and Fig. 6) that head components 11 is communicated with fluid-mixing exit passageway 66-71.In this first embodiment, fluid-mixing exit passageway 66-71 is separated equably in head components 11 scopes and is communicated with the toroidal cavity 36 of a part of head components 11 definition, so that pay fluid-mixing along the whole circumference of toroidal cavity 36.In this first embodiment, preferred fluid-mixing is the carbonated water that forms soda when beverage magma merges.Yet the people who is familiar with this technology will admit that other fluid-mixing (for example, fresh water) also can be used.In addition, although embodiment preferred has disclosed from the process of beverage magma and fluid-mixing (for example carbonated water or fresh water) formation beverage, but the people who is familiar with this technology will admit fluid-mixing (for example, carbonated water or fresh water) and can replace beverage magma independent by the placing of beverage path road as the front is introduced.

Head components 20 comprises and allows to utilize suitable well-known device with the placing valve bonded

assembly journal stirrup

29 and 30 of head components 11 with standard.Each beverage magma inlet 21-23 is connected on the beverage magma conduit, so that beverage magma is offered beverage the placing nozzle 10.Equally, fluid-mixing inlet 27 is connected on the fluid-mixing conduit, so that fluid-mixing is offered beverage the placing nozzle 10.Utilizing screw or other suitable fasteners to be fixed to binding clip on each clamper 31-33 keeps beverage magma conduit and is connected with separately beverage magma inlet 21-23 and keeps fluid-mixing conduit and fluid-mixing and enter the mouth and 27 be connected.Head components 11 comprises the groove 34 that is used to hold O shape circle 12.

Shell 20 is assemblied in a smack and comprises the leak free O shape circle 12 and assist shell 16 is fixed on the head components 11 on the head components 11 of flowing is provided.Shell 20 comprises

flange

74 and 75 and

mark

76 and 77, so that with well-known method shell 20 is installed on the placing valve of standard.Shell 20 further is included in the lip part 73 that its exit end extends internally.The outer wall of the partial sum inner casing of the definition toroidal cavity 36 definition torus section 72 that combines on the inwall of shell 20 and the head components 11.When shell 20 was fixed on the head components 11, the fluid-mixing path that relates to fluid-mixing inlet 27, conduit 28, fluid-mixing exit passageway 66-71 and torus section 72 was established.Although embodiment preferred plans fluid-mixing (for example, carbonated water and fresh water) and beverage magma are combined the enforcement the placing, the people who is familiar with this technology will admit that fluid-mixing can be rationed separately, so that fluid-mixing itself is provided.

During operation, fluid-mixing enters beverage the placing nozzle 10 by fluid-mixing inlet 27, flows to fluid-mixing exit passageway 66-71 by conduit 28 then, finally flows into toroidal cavity 36 (with reference to Fig. 7-9).Toroidal cavity 36 holds a large amount of fluid-mixings, so that torus section 72 mixed fluids are filled in and form uniform flowing in the torus section 72 when guaranteeing that fluid-mixing flows to the discharge end of torus section 72 downwards by torus section 72.In preferred embodiments, the discharge end of torus section 72 can be closed partly, so that increase the momentum of the fluid-mixing of torus section 72, the fluid-mixing that makes outflow is evenly distributed round the whole circumference of torus section 72.Shell 20 extends inward into lip part 73 and inwardly guides fluid-mixing that it is flowed towards the beverage magma stream that flows out one of

discharge section

53,57 and 62.Inwardly the guiding fluid-mixing creates conditions and for preventing that magma from a kind of method of washing the discharge end of torus section 72 that provides being provided for directly mixing.

Beverage magma inlet 21-23 receives the differently flavoured beverage magma of the source (not shown) of beverage magma by catheter delivery respectively.Every kind of beverage magma is by its specific flow path, so that discharge (with reference to Fig. 7-9) from beverage the placing nozzle 10 as the front is introduced.For example, the beverage magma that consigns to beverage magma inlet 21 flows by conduit 37, beverage magma outlet 24, cavity 41, conduit 45, torus section 58 and discharge-channel 59, emits from beverage the placing nozzle 10

then.Torus section

54,58 and 64 provide a large amount of beverage magma respectively around first circle (being outer field circle), second circle (i.e. Zhong Jian circle) and the 3rd circle (being the circle of internal layer), so that by the discharging of one of

discharge section

53,57 and 62.

Discharge section

53,57 and 62 limits flowing of beverage magma, is evenly distributed when beverage the placing nozzle 10 flows out with assurance beverage magma, thereby guarantees from the long-pending maximum of mating surfaces of the fluid-mixing of torus section 72 outflows.Although have only a kind of beverage magma to be rationed simultaneously usually, be to be understood that in order to provide the beverage that mixes local flavor to discharge more than one beverage magma simultaneously by the beverage nozzle 10 of rationing.

An annular vent that key character is a beverage magma of beverage the placing nozzle 10 makes in the air of fluid-mixing below the placing nozzle 10 of annular vent to contact with beverage magma whereby.It is long-pending that the annular vent shape of beverage magma and fluid-mixing has increased by two kinds of mating surfacess between the liquid stream greatly, thereby cause more effective mixing.In addition, beverage magma and fluid-mixing mix the hygienic issues that has taken place when having eliminated the mixed cabin that adopts nozzle interior in beverage the placing nozzle 10 outsides; Promptly because the toughness of beverage magma causes insanitary bacterium in the inner a large amount of breedings of mixed cabin.Although this introduction be 3 beverage magma sources that separate with 3 circles,, the people who is familiar with this technology will admit to provide the beverage magma source and the circle of any amount, comprising a beverage magma source and circle.In addition, the mono-fluid-mixing stream that flows out from torus section 72 can be divided into two or more liquid streams.

Erect image with Figure 10-12 illustrate like that, second embodiment 100 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 100 with same numeral.Beverage the placing nozzle 100 is shaped as beverage the placing nozzle 10 and operates, difference only is that beverage the placing nozzle 100 comprises the conduit 101 that is connected with conduit 28, so that fluid-mixing is sent in the centre pipe 102 of the 3rd circle (being the circle of internal layer) 19.In addition, the 3rd circle (being the circle of internal layer) 18 is included in the outlet 103 of the inside discharging fluid-mixing of beverage magma stream.So conduit 28 not only consigns to fluid-mixing exit passageway 66-71 to fluid-mixing, and consign to conduit 101, consign to centre pipe 102 then.Centre pipe 102 is paid fluid-mixing by the center of beverage the placing nozzle 100, and it flows out from the inboard of beverage magma stream there, to strengthen mixing of fluid-mixing and beverage magma.Be used to ration the beverage of single local flavor and be satisfactory especially when using at beverage the placing nozzle 100 as high-capacity beverage the placing nozzle.Diffuser 104 can be positioned within the conduit 101, prevents on each side of centre pipe 102 that mono-liquid stream from flowing out from exporting 103, improves the surface contact between fluid-mixing and the beverage magma whereby so that fluid-mixing is directed to.

Erect image with Figure 13 illustrate like that, the 3rd embodiment 200 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 200 with identical numeral.Beverage the placing nozzle 200 is shaped as beverage the placing nozzle 10 and operates, difference is that the exit end of first circle (being outer field circle) 17 in beverage the placing nozzle 200 comprises cylindrical-conical cutting tip 201, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that the exit end of cylindrical-conical cutting tip 202, the three circles (being the circle of internal layer) 19 comprises cylindrical-conical cutting tip 203.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 16, the obconic beverage magma outlet 204 of cylindrical-conical cutting tip 201,202 and 203 definition, the outlet of this beverage magma helps to prevent that beverage magma from leaving over, because be easy to form meiobar in beverage magma outlet 204.With during forming beverage, meiobar allows fluid-mixing to flow in beverage magma outlet 204 at ration beverage magma and fluid-mixing, cleans beverage magma whereby and exports 204 so that remove any beverage magma of leaving over.

Erect image with Figure 14 illustrate like that, the 4th embodiment 300 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 300 with identical numeral.Beverage the placing nozzle 300 is shaped as beverage the placing nozzle 10 and operates, difference is that first circle (being outer field circle), 17 exit end comprises the cutting tip 301 of concave surface in beverage the placing nozzle 300, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that cutting tip 302, the three circles (being the circle of internal layer) 19 the exit end of concave surface comprises the cutting tip 303 of concave surface.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 16, the beverage magma jet expansion 304 of the cutting tip 301,302 of concave surface and 303 definition concave surfaces, this beverage magma jet expansion helps to prevent that beverage magma from leaving over, because be easy to form meiobar in beverage magma outlet 304.During the beverage magma and fluid-mixing formation beverage of the placing, meiobar allows fluid-mixing to flow in beverage magma outlet 304, cleans the outlet 204 of beverage magma whereby so that remove any beverage magma of leaving over.

Erect image with Figure 15 illustrate like that, the 5th embodiment 400 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 400 with identical numeral.Beverage the placing nozzle 400 is shaped as beverage the placing nozzle 10 and operates, difference is that first circle (being outer field circle), 17 exit end comprises the bulge 402 of convex surface in beverage the placing nozzle 400, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that bulge 403, the three circles (being the circle of internal layer) 19 the exit end of convex surface comprises the bulge 404 of convex surface.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 16, the beverage magma jet expansion 405 of the bulge 402,403 of convex surface and 404 definition convex surfaces, this beverage magma jet expansion helps to prevent that beverage magma from leaving over, because the beverage magma that the permission of the shape of convexity is rationed flows to the latter half of beverage magma jet expansion 405, the fluid-mixing that is flowed out rinses out there.

Erect image with Figure 16 illustrate like that, the 6th embodiment 500 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 500 with identical numeral.Beverage the placing nozzle 500 is shaped as beverage the placing nozzle 10 and operates, difference is that the exit end of first circle (being outer field circle) 17 in beverage the placing nozzle 500 comprises downward-sloping edge 502, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that the exit end of downward-sloping edge 503, the three circles (being the circle of internal layer) 19 comprises cylindrical-conical edge 504.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 16, downward-sloping edge 502,503 and the cylindrical-conical beverage magma jet expansion 505 of conical edge 504 definition, this beverage magma jet expansion helps to prevent that beverage magma from leaving over, because the beverage magma that the permission of the shape of cone is rationed flows to the latter half of beverage magma jet expansion 505, be rinsed by the mobile of fluid-mixing of being rationed there.

Erect image with Figure 17 illustrate like that, the 7th embodiment 600 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 600 with identical numeral.Beverage the placing nozzle 600 is shaped as beverage the placing nozzle 10 and operates, difference is that the exit end of first circle (being outer field circle) 17 in beverage the placing nozzle 600 comprises downward-sloping edge 602, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that the exit end of downward-sloping edge 603, the three circles (being the circle of internal layer) 19 comprises truncated cone shape edge 604.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 17, downward-sloping edge 602,603 and truncated cone shape edge 604 definition truncated cone shape beverage magma jet expansions 605, this beverage magma jet expansion helps to prevent that beverage magma from leaving over, because the beverage magma that the permission of the shape of truncated cones is rationed flows to the latter half of beverage magma jet expansion 605, be rinsed by the mobile of fluid-mixing of being rationed there.In addition, the beverage magma jet expansion 605 of frustroconical is cut flat part 606 and is constituted low pressure zone, and this meiobar prevents that beverage magma from forming bubble and helping fluid-mixing flushing outlet.

Erect image with Figure 18 illustrate like that, the 8th embodiment 700 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 700 with identical numeral.Beverage the placing nozzle 700 is shaped as beverage the placing nozzle 10 and operates, difference is that the exit end of first circle (being outer field circle) 17 in beverage the placing nozzle 700 comprises stacked edge 702 downwards, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that the exit end of stacked edge 703, the three circles (being the circle of internal layer) 19 comprises stacked conical edge 704 downwards.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 17, downward stacked edge 702,703 and the stacked conical beverage magma jet expansion 705 of stacked conical edge 704 definition, this beverage magma jet expansion helps to prevent that beverage magma from leaving over, because the beverage magma that the permission of the shape of stacked circular cone is rationed flows to the latter half of beverage magma jet expansion 705, be rinsed by the mobile of fluid-mixing of being rationed there.In addition, stacked downwards edge 702,703 and stacked conical edge 704 form the crack that excessive beverage magma is played the bleeding point effect, so, when rationing subsequently, the beverage magma of being rationed flows on the beverage magma that is collected but does not mix, and eliminates beverage magma whereby and leaves over.

Erect image with Figure 19 illustrate like that, the 9th embodiment 800 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 800 with identical numeral.Beverage the placing nozzle 800 is shaped as beverage the placing nozzle 10 and operates, difference is that the exit end of first circle (being outer field circle) 17 in beverage the placing nozzle 800 comprises stacked edge 802 downwards, the exit end of second circle (i.e. Zhong Jian circle) 18 comprises that the exit end of stacked edge 803, the three circles (being the circle of internal layer) 19 comprises stacked frustroconical edge 804 downwards.When first circle (being outer field circle) 17, when second circle (i.e. Zhong Jian circle) the 18 and the 3rd circle (being the circle of internal layer) 19 is fixed within the inner casing 17, downward stacked edge 802,803 and the stacked frustroconical beverage magma jet expansion 805 of stacked frustroconical edge 804 definition, this beverage magma jet expansion helps to prevent that beverage magma from leaving over, because the beverage magma that the permission of stacked truncated conical shape is rationed flows to the latter half of beverage magma jet expansion 805, be rinsed by the mobile of fluid-mixing of being rationed there.In addition, stacked downwards edge 802,803 and stacked frustroconical edge 804 form the crack that excessive beverage magma is played the bleeding point effect, so, when rationing subsequently, the beverage magma of being rationed flows on the beverage magma that is collected but does not mix, and eliminates beverage magma whereby and leaves over.In addition, the planar section of stacked frustroconical beverage magma jet expansion 805 forms meiobar, prevents from beverage magma formation bubble and help to export with the fluid-mixing flushing.

Erect image with Figure 20 illustrate like that, the tenth embodiment 900 of beverage the placing nozzle is in fact identical with ration first embodiment 10 of nozzle of beverage in structure and operating aspect.Therefore, structure and the class of operation beverage that is similar to the component part of beverage the placing nozzle 10 is rationed the component part of nozzle 900 with identical numeral.Beverage the placing nozzle 900 is shaped as beverage the placing nozzle 10 and operates, difference is that the 3rd circle (being the circle of internal layer) 919 and head components 911 comprise some improvement, so that allow flavouring additive is flowed out from beverage the placing nozzle 900 with beverage magma and fluid-mixing.In this tenth embodiment, the example of flavouring additive includes but not limited to be used for forming the cherry or the vanilla of new beverage composite (for example, cherry cola).

The 3rd circle (being the circle of internal layer) 919 comprises canned paragraph 960, interlude 961 and discharge section 962.The erect image front is such about the description of beverage the placing nozzle 10, and the 3rd circle (being the circle of internal layer) 919 is installed within second circle (i.e. Zhong Jian circle) 18, stretches out and define the inwall joint of the inner casing 16 of through hole from the through hole of inner casing.But the 3rd circle (being the circle of internal layer) 919 comprises the

passage

907 and 908 that is used for by the 3rd circle (being the circle of internal layer) 919 payment flavouring additives.Interlude 961 and discharge section 962 are identical with the interlude 61 and the discharge section 62 of the 3rd circle (being the circle of internal layer) 19 except definition portion of channel 907,908.Canned paragraph 60 is identical with the canned paragraph 60 of the 3rd circle (being the circle of internal layer) 919 except definition cavity 909 and portion of channel 907,908.

Head components 911 is shaped as head components 11 and operates, but head components 911 further comprises by separately

interface channel

905 and 906 flavouring additives that are communicated with separately flavouring

additive outlet

903 and 904 by head components 911 and enters the mouth 901 and 902.Identical with head components 11, the outlet of the beverage magma of head components 911 is assemblied on the inner casing 16 in the corresponding cavity with a smack, and inner casing 16 is fixed on the head components 911.Liner is installed in around each beverage magma outlet, so that fluid-tight is provided and assists inner casing 16 is fixed on the head components 911.In addition, the canned paragraph 960 of the 3rd circle (being the circle of internal layer) 919 that the through hole by inner casing 16 stretches out is assemblied in around the protrusion 35 of head components 911 with a smack, so that assist inner casing 16 to be fixed on the head components 911.Along with inner casing 16 is fixed on the head components 911, relate to flavouring additive inlet 901, passage 905; The flavouring additive conduit of flavouring additive outlet 903 and passage 907 is formed.Equally, relate to flavouring additive inlet 902, passage 906; The flavouring additive conduit of flavouring additive outlet 904 and passage 908 is formed.

To merge the ration operation of nozzle 10 of the operation of beverage the placing nozzle 900 when producing the beverage that needs and beverage identical paying fluid-mixing and beverage magma.But beverage the placing nozzle 900 offers the user to the option right that changes beverage flavor by appending payment from the flavouring additive (for example cherry or vanilla) in flavouring additive source.When the user had selected certain flavouring additive, the sort of flavouring additive entered corresponding

flavouring additive inlet

901 or 902, then through

corresponding passage

905 or 906 and

flavouring additive outlet

903 or 904 flow to corresponding passage 907 or 908.Chosen flavouring additive passes corresponding

passage

907 or 908, flow out from the 3rd circle (being the circle of internal layer) 919, flavouring additive merges with beverage magma that is flowing and fluid-mixing there, so that produce the beverage of another kind of local flavor, for example cherry cola or vanilla cola.

Although the present invention is stated according to above-mentioned embodiment, but such description only is to illustrate for example, and, for the person of ordinary skill of the art, will to fall into scope of the present invention will be conspicuous for many replacement schemes, equivalence and variation in various degree.Therefore, the scope of the present invention restriction where face is not described by fwd in office, but define by claims.

Claims

1. beverage the placing nozzle, comprising:

Head components, these parts comprise first beverage magma inlet that is connected with the first beverage magma source and the fluid-mixing inlet that is connected with the fluid-mixing source;

Inner casing, it is connected with head components and defines inner chamber;

First circle, it is arranged at the inner chamber the inside of inner casing, this circle and inner casing define the first beverage magma passage, and wherein first beverage magma inlet sends the first beverage magma passage to beverage magma to, so that the mode of diluting with not mixed fluid is from the beverage nozzle discharge of rationing; And

Shell, it is connected with head components, and shell limits the fluid-mixing passage with inner casing, and wherein the fluid-mixing inlet sends fluid-mixing to the fluid-mixing passage so that from beverage the placing nozzle discharge, thereby contact with the beverage magma that flows out in beverage the placing nozzle outside, so that mix with it.

2. according to the beverage of claim 1 the placing nozzle, wherein the first beverage magma passage in annular fluidised form mode from beverage the placing nozzle discharge beverage magma.

3. according to the beverage of claim 1 the placing nozzle, fluid-mixing passage wherein in annular fluidised form mode from beverage the placing nozzle discharge fluid-mixing.

4. according to the beverage the placing nozzle of claim 1, wherein inner casing comprises first cavity, and this cavity is connected with the first inner casing conduit of the first beverage magma channel connection.

5. according to the beverage of claim 4 the placing nozzle, wherein head components comprises and first beverage magma inlet bonded assembly, the first beverage magma discharge orifice, wherein the first beverage magma discharge orifice is installed in first cavity of inner casing, inner casing is connected, so that beverage magma is sent to inner casing with head components.

6. according to the beverage the placing nozzle of claim 1, wherein head components comprises that many fluid-mixings that are connected on enter the mouth upward and the fluid-mixing exit passageway of fluid-mixing channel connection, so that fluid-mixing flows into the fluid-mixing passage in the form of a ring.

7. according to the beverage the placing nozzle of claim 1, wherein head components comprises that being connected on fluid-mixing enters the mouth upward and the conduit that is communicated with inner casing, so that pay fluid-mixing by the center of beverage the placing nozzle.

8. according to the beverage the placing nozzle of claim 7, wherein diffuser resides in the conduit, so that pay fluid-mixing by the center of beverage the placing nozzle.

9. according to the beverage of claim 2 the placing nozzle, wherein first circle comprises discharging unit for discharging, and the annular fluidised form of the beverage magma that this component limitations flows out from beverage the placing nozzle is to guarantee rectangular distribution.

10. according to the beverage the placing nozzle of claim 9, wherein discharging unit for discharging comprises many discharge-channels of assisting the first beverage magma passage when beverage the placing nozzle discharge beverage magma.

11. according to the beverage the placing nozzle of claim 1, wherein shell comprises the lip part that extends internally, so that inwardly guiding is from the fluid-mixing stream of beverage the placing nozzle outflow.

12. according to the beverage the placing nozzle of claim 1, wherein head components further comprises the second beverage magma inlet that is connected with the second beverage magma source.

13. beverage the placing nozzle according to claim 12, second circle that further comprises the inner chamber the inside that is arranged in inner casing, second circle limits the second beverage magma passage with first circle, wherein second beverage magma inlet sends beverage magma to second beverage magma passage, so that from beverage the placing nozzle discharge.

14. according to the beverage of claim 13 the placing nozzle, wherein the second beverage magma passage in the mode of not mixed fluid dilution from beverage the placing nozzle discharge beverage magma.

15. according to the beverage of claim 13 the placing nozzle, the second beverage magma passage wherein in annular fluidised form mode from beverage the placing nozzle discharge beverage magma.

16. according to the beverage of claim 13 the placing nozzle, wherein inner casing comprises second cavity that is connected on the second inner casing conduit with the second beverage magma channel connection.

17. beverage the placing nozzle according to claim 16, wherein head components further comprises the second beverage magma discharge orifice that is connected on the second beverage magma inlet, wherein the second beverage magma discharge orifice is fit to be installed in second cavity of inner casing, so that inner casing is connected with head components and beverage magma is sent to inner casing.

18. according to the beverage of claim 15 the placing nozzle, wherein second circle comprises discharging unit for discharging, the annular fluidised form of the beverage magma that this component limitations flows out from beverage the placing nozzle is to guarantee rectangular distribution.

19. according to the beverage of claim 18 the placing nozzle, wherein discharging unit for discharging comprises manyly from beverage the placing nozzle discharge beverage magma the time, assists the discharge-channel of the second beverage magma passage.

20. according to the beverage the placing nozzle of claim 14, wherein head components further comprises the 3rd beverage magma inlet that is connected with the 3rd beverage magma source.

21. beverage the placing nozzle according to claim 20, the 3rd circle that further comprises the inner chamber the inside that is arranged in inner casing, the 3rd circle limits the 3rd beverage magma passage with second circle, wherein the 3rd beverage magma inlet sends beverage magma to the 3rd beverage magma passage, so that from beverage the placing nozzle discharge.

22. according to the beverage of claim 21 the placing nozzle, wherein the 3rd beverage magma passage in the mode of not mixed fluid dilution from beverage the placing nozzle discharge beverage magma.

23. according to the beverage of claim 21 the placing nozzle, the 3rd beverage magma passage wherein in annular fluidised form mode from beverage the placing nozzle discharge beverage magma.

24. according to the beverage of claim 21 the placing nozzle, wherein inner casing comprises the 3rd cavity that is connected on the 3rd inner casing conduit with the 3rd beverage magma channel connection.

25. beverage the placing nozzle according to claim 24, wherein head components further comprises the 3rd beverage magma discharge orifice that is connected on the 3rd beverage magma inlet, wherein the 3rd beverage magma discharge orifice is fit to be installed in the 3rd cavity of inner casing, so that inner casing is connected with head components and beverage magma is sent to inner casing.

26. according to the beverage the placing nozzle of claim 23, wherein the 3rd circle comprises in order to guarantee that rectangular distribution limits the discharging unit for discharging of the annular fluidised form of the beverage magma that flows out beverage the placing nozzle.

27. according to the beverage the placing nozzle of claim 26, wherein discharging unit for discharging comprises many discharge-channels of assisting the 3rd beverage magma passage from beverage the placing nozzle discharge beverage magma the time.

28. according to the beverage the placing nozzle of claim 1, wherein first circle comprises outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

29. according to the beverage the placing nozzle of claim 13, wherein second circle comprises outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

30. according to the beverage the placing nozzle of claim 21, wherein the 3rd circle comprises outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

31. according to the beverage the placing nozzle of claim 13, the line of centers of wherein align first circle and second circle is to limit the outlet of beverage magma, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

32. according to the beverage the placing nozzle of claim 21, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit the outlet of beverage magma, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

33. according to the beverage the placing nozzle of claim 21, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit obconic beverage magma outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

34. according to the beverage the placing nozzle of claim 21, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit the beverage magma outlet of concave surface, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

35. according to the beverage the placing nozzle of claim 21, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit the beverage magma outlet of convex surface, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

36. beverage the placing nozzle according to claim 21, wherein align the line of centers of first circle, second circle and the 3rd circle to limit the outlet of cylindrical-conical beverage magma, and the fluidised form that beverage magma is handled in this outlet dexterously carries over to prevent beverage magma.

37. beverage the placing nozzle according to claim 21, wherein align the line of centers of first circle, second circle and the 3rd circle to limit the beverage magma outlet of frustroconical, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

38. beverage the placing nozzle according to claim 21, wherein align the line of centers of first circle, second circle and the 3rd circle to limit stacked cylindrical-conical beverage magma outlet, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

39. beverage the placing nozzle according to claim 21, wherein align the line of centers of first circle, second circle and the 3rd circle to limit the beverage magma outlet of stacked frustroconical, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

40. according to the beverage the placing nozzle of claim 1, wherein head components further comprises the flavouring additive inlet that is connected with the flavouring additive source.

41. according to the beverage the placing nozzle of claim 40, wherein flavouring additive enters the mouth and flavouring additive is sent to the flavouring additive passage of first circle, so that from beverage the placing nozzle discharge.

42. according to the beverage the placing nozzle of claim 41, wherein head components comprises the flavouring additive discharge side that is connected on the flavouring additive inlet, wherein the flavouring additive discharge side sends flavouring additive to the flavouring additive passage.

43. a beverage the placing nozzle, comprising:

44. according to the beverage of claim 43 the placing nozzle, wherein inner casing comprise be connected on the first inner casing conduit and with first cavity of the first beverage magma channel connection.

45. beverage the placing nozzle according to claim 44, wherein head components comprises the first beverage magma discharge side that is connected on the first beverage magma inlet, wherein the first discharge of beverage mouth is installed in first cavity the inside of inner casing, so that inner casing is connected with head components and beverage magma is sent to inner casing.

46. according to the beverage the placing nozzle of claim 43, wherein head components comprises that many fluid-mixings that are connected on enter the mouth upward and the fluid-mixing discharge-channel of fluid-mixing channel connection, so that fluid-mixing flows into the fluid-mixing passage ringwise.

47. according to the beverage the placing nozzle of claim 43, wherein head components comprises that being connected on the fluid-mixing inlet goes up the conduit that is communicated with inner casing, so that pay fluid-mixing by the center of beverage the placing nozzle.

48. according to the beverage the placing nozzle of claim 43, wherein diffuser resides in the conduit, so that pay fluid-mixing by the center of beverage the placing nozzle.

49. according to the beverage of claim 43 the placing nozzle, wherein first circle comprises that the fluidised form of the beverage magma that restriction is flowed out from beverage the placing nozzle is to guarantee the well-distributed discharging unit for discharging.

50. according to the beverage the placing nozzle of claim 49, wherein discharging unit for discharging comprises many discharge-channels of assisting the first beverage magma passage from beverage the placing nozzle discharge beverage magma the time.

51. according to the beverage the placing nozzle of claim 43, wherein shell comprises the lip shape part that extends internally, so that the fluid-mixing of guiding outflow beverage the placing nozzle flows in flowing to.

52. according to the beverage of claim 43 the placing nozzle, wherein inner casing comprises second cavity that is connected on the second inner casing conduit with the second beverage magma channel connection.

53. beverage the placing nozzle according to claim 52, wherein head components further comprises the second beverage magma discharge side that is connected on the second beverage magma inlet, wherein the second beverage magma discharge side is installed in second cavity of inner casing, so that inner casing is connected with head components, and beverage magma is sent to inner casing.

54. according to the beverage the placing nozzle of claim 43, wherein second circle comprises that the fluidised form that limits the beverage magma that flows out beverage the placing nozzle is to guarantee the well-distributed discharging unit for discharging.

55. according to the beverage the placing nozzle of claim 54, wherein discharging unit for discharging comprises many discharge-channels of assisting the second beverage magma passage from beverage the placing nozzle discharge beverage magma the time.

56. according to the beverage the placing nozzle of claim 43, wherein head components further comprises the 3rd beverage magma inlet that is connected with the 3rd beverage magma source.

57. beverage the placing nozzle according to claim 56, the 3rd circle that wherein further comprises the inner chamber the inside that is arranged in inner casing, the 3rd circle and second circle limit the 3rd beverage magma passage together, wherein the 3rd beverage magma inlet sends beverage magma to the 3rd beverage magma passage, so that from beverage the placing nozzle discharge.

58. according to the beverage of claim 57 the placing nozzle, wherein inner casing comprises the 3rd cavity that is connected on the 3rd inner casing conduit with the 3rd beverage magma channel connection.

59. beverage the placing nozzle according to claim 58, wherein head components further comprises the 3rd beverage magma discharge side that is connected on the 3rd beverage magma inlet, wherein the 3rd beverage magma discharge side is installed in the 3rd cavity of inner casing, so that inner casing is connected with head components, beverage magma is sent to inner casing.

60. according to the beverage of claim 57 the placing nozzle, wherein the 3rd circle comprises that the fluidised form of the beverage magma that restriction is flowed out from beverage the placing nozzle is to guarantee the well-distributed discharging unit for discharging.

61. according to the beverage the placing nozzle of claim 60, wherein discharging unit for discharging comprises many discharge-channels of assisting the 3rd beverage magma passage when beverage the placing nozzle discharge beverage magma.

62. according to the beverage the placing nozzle of claim 43, wherein first circle comprises outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

63. according to the beverage the placing nozzle of claim 43, wherein second circle comprises outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

64. according to the beverage the placing nozzle of claim 57, wherein the 3rd circle comprises outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

65. according to the beverage the placing nozzle of claim 43, wherein first circle and second circle define beverage magma outlet in irregular shape, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

66. beverage the placing nozzle according to claim 57, wherein align the line of centers of first circle, second circle and the 3rd circle to limit beverage magma in irregular shape outlet, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

67. according to the beverage the placing nozzle of claim 57, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit obconic beverage magma outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

68. according to the beverage the placing nozzle of claim 57, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit the beverage magma outlet of concave surface, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

69. according to the beverage the placing nozzle of claim 57, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit the beverage magma outlet of convex surface, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

70. according to the beverage the placing nozzle of claim 57, the line of centers of first circle that wherein aligns, second circle and the 3rd circle is to limit cylindrical-conical beverage magma outlet, the fluidised form that beverage magma is handled in this outlet carries over to prevent beverage magma.

71. beverage the placing nozzle according to claim 57, wherein align the line of centers of first circle, second circle and the 3rd circle to limit the beverage magma outlet of frustroconical, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

72. beverage the placing nozzle according to claim 57, wherein align the line of centers of first circle, second circle and the 3rd circle to limit stacked cylindrical-conical beverage magma outlet, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

73. beverage the placing nozzle according to claim 57, wherein align the line of centers of first circle, second circle and the 3rd circle to limit the beverage magma outlet of stacked frustroconical, and the fluidised form of this outlet processing beverage magma carries over to prevent beverage magma.

74. according to the beverage the placing nozzle of claim 43, wherein head components further comprises the flavouring additive inlet that is connected with the flavouring additive source.

75. according to the beverage the placing nozzle of claim 74, wherein flavouring additive enters the mouth and flavouring additive is sent to the flavouring additive passage of second circle, so that from beverage the placing nozzle discharge.

76. according to the beverage the placing nozzle of claim 75, wherein head components comprises the flavouring additive discharge side that is connected on the flavouring additive inlet, wherein the flavouring additive discharge side sends flavouring additive to the flavouring additive passage.

77. a method of utilizing beverage the placing nozzle to form beverage, this method comprises the steps:

Fluid-mixing is consigned to the fluid-mixing inlet of head components;

78. utilize beverage the placing nozzle to form the method for beverage according to claim 77, further comprise with the step of annular fluidised form from first beverage magma passage discharging beverage magma.

79. utilize beverage the placing nozzle to form the method for beverage according to claim 77, further comprise with the step of annular fluidised form from fluid-mixing passage discharging fluid-mixing.

80. utilize beverage the placing nozzle to form the method for beverage according to claim 77, further comprise the steps:

Beverage magma from second beverage magma inlet is consigned to second circle that is arranged in the inner casing and the second channel of first circle definition; And

Discharging is from the beverage magma of the second annular beverage magma passage.

81. 0 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise the step of discharging beverage magma in the mode of not mixed fluid dilution from the second beverage magma passage.

82. 0 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise with the step of annular fluidised form from second beverage magma passage discharging beverage magma.

83. 0 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise the steps:

Beverage magma is consigned to the 3rd beverage magma inlet of head components;

Beverage magma from the 3rd beverage magma population is consigned to the third channel of the 3rd circle that is arranged in the inner casing and the definition of second circle; And

Discharging is from the beverage magma of the 3rd annular beverage magma passage.

84. 3 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise the step of discharging beverage magma in the mode of not mixed fluid dilution from the 3rd beverage magma passage.

85. 3 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise with the step of annular fluidised form from the 3rd beverage magma passage discharging beverage magma.

86. utilize beverage the placing nozzle to form the method for beverage according to claim 77, further comprise the steps:

The fluid-mixing that enters the mouth from fluid-mixing is paid at center by beverage the placing nozzle; And

Discharging is from the fluid-mixing at the center of beverage the placing nozzle, makes it to contact the beverage magma of outflow and mixes in beverage the placing nozzle outside.

87. utilize beverage the placing nozzle to form the method for beverage according to claim 77, further comprise the step of fluidised form of utilizing the outlet of first circle to handle the beverage magma that emits to prevent that beverage magma from carrying over.

88. 0 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise the step of fluidised form of utilizing the outlet of second circle to handle the beverage magma that emits to prevent that beverage magma from carrying over.

89. 3 utilize beverage the placing nozzle to form the method for beverage according to Claim 8, further comprise the stepped hole of fluidised form that utilizes the outlet of the 3rd circle to handle the beverage magma that emits to prevent that beverage magma from carrying over.

90. utilize beverage the placing nozzle to form the method for beverage according to claim 77, further comprise the steps:

Flavouring additive is consigned to the flavouring additive inlet of head components;

Flavouring additive from flavouring additive inlet is consigned to flavouring additive passage in first circle;

Discharging is from the flavouring additive of first circle.

91. a method of utilizing beverage the placing nozzle to form beverage, this method comprises the steps:

Fluid-mixing is consigned to the fluid-mixing inlet of head components;

Discharging is from the beverage magma of the first beverage magma passage;

Beverage magma from second beverage magma inlet is consigned to the second channel that second circle that is arranged in the inner casing and first circle limit;

Discharging is from the beverage magma of the second beverage magma passage;

92. utilize beverage the placing nozzle to form the method for beverage according to claim 91, further comprise the steps:

Beverage magma is consigned to the 3rd beverage magma inlet of head components;

Beverage magma from the 3rd beverage magma inlet is consigned to the third channel that the 3rd circle that is arranged in the inner casing and second circle limit; And

Discharging is from the beverage magma of the 3rd beverage magma passage.

93. utilize beverage the placing nozzle to form the method for beverage according to claim 91, further comprise the steps:

Discharging is from the fluid-mixing of beverage the placing nozzle center, so that mix with the beverage magma that flows out.

94. utilize beverage the placing nozzle to form the method for beverage according to claim 91, further comprise the step of fluidised form of utilizing the outlet of first circle to handle the beverage magma that emits to prevent that beverage magma from carrying over.

95. utilize beverage the placing nozzle to form the method for beverage according to claim 91, comprise that further the fluidised form of utilizing the outlet of second circle to handle the beverage magma that emits prevents the step that beverage magma carries over.

96. utilize beverage the placing nozzle to form the method for beverage according to claim 92, comprise that further the fluidised form of utilizing the outlet of the 3rd circle to handle the beverage magma that emits prevents the step that beverage magma carries over.

97. utilize beverage the placing nozzle to form the method for beverage according to claim 91, further comprise the steps:

Flavouring additive from flavouring additive inlet is consigned to flavouring additive passage in the second circle scope;

Discharging is from the flavouring additive of second circle.