CN109827383A - Domestic beverage is classified refrigeration equipment - Google Patents

Abstract

The invention belongs to refrigeration technology fields, refrigeration equipment is classified more particularly to a kind of domestic beverage, it includes beverage slot, refrigeration system and cooling system, and refrigeration system is by cooler and is evenly arranged on the several piece semiconductor chilling plate group of cooler two sides at refrigeration system outside is respectively provided with cooling system；The exit of beverage slot lower part is installed by outlet valve, and the mounting temperature sensor in beverage slot；Beverage slot lower part also has cooling nozzle, and cooling nozzle passes through the inlet communication of cooling water pipe one and cooler, and installation pump one on cooling water pipe one, the outlet of cooler is connected to by return pipe with the water return outlet of beverage slot.It can be realized the grading control of cryogenic temperature by this refrigeration equipment, it uses core of the semiconductor chilling plate as refrigeration equipment, process of refrigerastion is environmentally friendly, pollution-free, it is radiated simultaneously by cooling system, reduce transmitting of the hot end heat of semiconductor chilling plate to cold end, shorten the integrally cooling time, improves refrigerating efficiency, be finally reached the effect of fast-refrigerating.

Description

Domestic beverage is classified refrigeration equipment

Technical field

The present invention relates to a kind of domestic beverages to be classified refrigeration equipment, belongs to refrigeration technology field.

Background technique

In life, to meet the needs of different crowd is to cold drink, beverage is usually first refrigerated to one section in refrigerator or refrigerator-freezer Time, (about 30min or more) was drunk again.But identical temperature, but actual conditions can be reached by the cooling beverage of traditional approach Be for different types of beverage, there is different optimal consumption temperatures, such as: beer, cold water, fruit juice, carbonated drink, coffee, Portugal The beverages such as grape wine, low temperature consumption temperature are different.Beer summer optimal consumption temperature are as follows: 6-8 DEG C, winter most preferably drinks Temperature are as follows: 10-12 DEG C；Cold water best applications temperature are as follows: 12-15 DEG C；Fruit juice optimal consumption temperature are as follows: 8-10 DEG C；Carbonated drink Optimal consumption temperature is 4-5 DEG C；The optimal consumption temperature in cold coffee summer are as follows: 6 DEG C；Red wine summer optimal consumption temperature Are as follows: 15~18 DEG C；White wine summer optimal consumption temperature is 7 DEG C.Temperature height will affect the mouthfeel of beverage, prior It is to drink unfavorable low temperature beverage often to will affect the health of people.

Common beverage refrigeration equipment be it is filling under the conditions of a period of time cooling, common refrigeration modes on the market at present For Refrigeration Techniques such as ammoniacal liquor cooling, thermoelectric coolings, the low temperature for being unable to satisfy different beverages drinks demand, independently cannot accurately select Refrigeration optimum temperature.

And the above Refrigeration Technique of concrete analysis, at high cost, energy consumption, risk are big, are not suitable for the master of household equipment Restraining factors are wanted, cooling time (can be quickly cooled down in 5min), temperature must be taken into consideration for the fast-refrigerating equipment of family's beverage The technical indicators such as difference control meet the functions such as high cooling efficiency, classification temperature control, Portable belt, low-power consumption, pollution-free, therefore need Design a kind of beverage refrigerating plant that can be realized classification refrigeration.

Summary of the invention

The technical problem to be solved by the present invention is overcoming deficiency in the prior art, providing one kind can be realized refrigeration temperature Degree grading control, meet different beverages low temperature drink demand and can be realized fast-refrigerating domestic beverage classification refrigeration set It is standby.

Domestic beverage classification refrigeration equipment of the present invention includes beverage slot, refrigeration system and cooling system, refrigeration system System is by cooler and is evenly arranged on the several piece semiconductor chilling plate group of cooler two sides at each semiconductor chilling plate is in parallel, semiconductor The inner face (i.e. close to the end face of cooler) of cooling piece is cold end, and outer end face is hot end；Cooler two sides semiconductor chilling plate Outside be respectively provided with cooling system；Cooling system is integrated with refrigeration system fixing assembling；It installs in the exit of beverage slot lower part Outlet valve, and the mounting temperature sensor in cooler；Beverage slot lower part also has cooling nozzle, and cooling nozzle passes through cooling water The inlet communication of Guan Yiyu cooler, installation pump one on cooling water pipe one, the outlet of cooler pass through return pipe and beverage slot Water return outlet connection.

It is of the invention use process is as follows:

Before use, being set according to the actual situation later according to optimal consumption temperature after the determining refrigeration of different type of beverage first The cryogenic temperature of refrigeration equipment is set, starts this equipment later and freezes, if the temperature sensor in cooler is detected Beverage temperature is not up to set cryogenic temperature, then continues to flow back by return pipe and continue to make in the coolant flow channel of cooler Cold, until reach cryogenic temperature initially set, temperature can be transferred in the form of a signal controller by temperature sensor, and by The pump one that controller controls on cooling water pipe one is out of service, opens outlet valve at this time, can be connected to the beverage of required temperature, That is: the refrigeration of different temperatures can be realized according to actual needs through the invention, to meet individual requirements.

The present invention utilizes semiconductor chilling plate refrigeration principle, and process of refrigerastion is environmentally friendly, pollution-free, simultaneously as semiconductor system The temperature difference of cold hot and cold side determines refrigerating capacity, the size of refrigerating efficiency, while increasing semiconductor chilling plate, is using heat dissipation System radiates, and reduces transmitting of the hot end heat of semiconductor chilling plate to cold end, reduces the temperature difference, improves refrigerating efficiency, thus The reduction that semiconductor chilling plate temperature difference can more be met, to shorten the integrally cooling time, and reaches fast-refrigerating Effect.

In order to guarantee the proportionate relationship by electric current and cryogenic temperature in semiconductor chilling plate, using several piece semiconductor system Cold parallel connection and the mode for being distributed in cooler two sides generate different systems by the current value that control flows through semiconductor chilling plate Cooling capacity, while cooperating with thermal component and realizing fast-refrigerating.

When production application, the electricity in control refrigeration control circuit can be adjusted using conventional current knob switch Size is flowed, and uses commercially available intelligent PID temperature controller, the setting and display of Lai Shixian cooling temperature, in application, by intelligent The temperature sensor of PID temperature controller is arranged in cooler.

Preferably, two cooling systems include radiator, have medium entrance and media outlet, medium on radiator shell Outlet is connected to by cooling water pipe two with medium entrance, installation pump two on cooling water pipe two, has radiating flow passage in radiator.It should Cooling system is radiated using water-cooling pattern, and cooling water flows in radiating flow passage, and carries out loop control by pump two, sufficiently The heat in semiconductor chilling plate hot end is taken away, heat dissipation effect is more preferable.Wherein, the design form of radiating flow passage is as follows: radiator Be provided with several pieces longitudinal baffles being parallel to each other in shell, every longitudinal baffle only between a side end and radiator shell there are Communication port, and the communication port between adjacent two longitudinal baffle and radiator shell is located at the heteropleural of longitudinal baffle；Each longitudinal direction Radiating flow passage is collectively formed in partition and communication port.It may include multiple groups radiator in every group of cooling system when practical application, it is each to dissipate It can be interconnected by pipeline between hot device.

It is further preferred that every group of cooling system further includes one or more groups of radiating fin groups；It (carries on the back in the outside of radiator From the side of semiconductor chilling plate) there is thermally conductive fixed plate；Radiating fin group by several longitudinal directions radiating fin disposed in parallel with And through the heat conducting pipe composition in each radiating fin, the end of heat conducting pipe is fixed in thermally conductive fixed plate；In two cooling systems The upper and lower ends of thermally conductive fixed plate be fixedly connected by attachment beam.Two-class heat dissipation is realized by the radiating fin group added. In order to improve radiating efficiency, it can be respectively provided with radiator fan in the upper and lower of every group of radiating fin group, above and below radiating fin The radiator fan of side can be realized forced convertion heat dissipation, and the heat in the middle part of radiating fin is taken away.Dissipating after increasing radiator fan Hot systems can be realized the air-cooled bidirectional cooling of water cooling, ensure that good heat dissipation effect, while structure is compact to design, volume It is small, it is very suitable to household.

Preferably, the cool and heat ends of semiconductor chilling plate are coated with heat-conducting silicone grease, and are pasted onto respectively by heat-conducting silicone grease cold But device, on radiator, blind is to reduce energy loss while the express delivery of acceleration energy.

Preferably, there is coolant flow channel in cooler, stop of the beverage inside cooler can be made by coolant flow channel Time is longer, and cooling effect is more preferable.The coolant flow channel of preferred following structure type in the present invention: several pieces are equipped in cooler casing Parallel partition up and down, only there are flow ports between a side end and cooler casing for every partition；Adjacent two partition and cooling Flow ports between device shell are located at the heteropleural of partition；Coolant flow channel is collectively formed in each partition and flow ports.

When practical application, cooler may include at least two groups cooling unit, all have cooling stream in every group of cooling unit Road (it is identical as the coolant flow channel structure of above-mentioned cooler), and each cooling unit is connected to by connecting pipeline.

Preferably, beverage slot top has beverage filling mouth, and two hang plates, two hang plates bilateral symmetry is arranged in interior bottom And it is tilted down respectively from the two sidewalls of beverage slot to groove body bottom, and the lower lumen of beverage slot is separated into bottom two symmetrically Section sealing space and middle part section triangular in shape store space in up-side down triangle；The outlet of beverage slot and cooling nozzle With store space and communicate.

Except above-mentioned points, pipeline used in this refrigeration equipment (includes: that cooling water pipe one, return pipe, each cooling unit of connection are used Connecting pipeline and each radiator of connection pipeline etc.) all using food grade silicone pipe, clean hygiene is green safe.

Compared with the prior art, the invention has the beneficial effects that:

1, the present invention can be realized the function of cryogenic temperature grading control, use semiconductor chilling plate as refrigeration equipment Core, it is process of refrigerastion environmental protection, pollution-free, while radiating by cooling system, the hot end for reducing semiconductor chilling plate is hot The transmitting to cold end is measured, the integrally cooling time is shortened, refrigerating efficiency is improved, is finally reached the effect of fast-refrigerating；

2, since each semiconductor chilling plate is connected in parallel, when open circuit occurs in semiconductor chilling plate a certain in the course of work Afterwards, the use of entire refrigeration equipment is had no effect on, equipment job stability is high；

3, cooling system is further increased heat dissipation effect, can more be met using water cooling, the combination heat dissipation of air-cooled two-stage The reduction of semiconductor chilling plate hot and cold side temperature difference improves refrigerating efficiency；

4, overall structure of the present invention is small and exquisite, easy to carry and be suitable for family and use, noiseless in use process, pollution-free, It is suitble to large-scale promotion application.

Detailed description of the invention

Fig. 1 is one of structural schematic diagram of the invention；

Fig. 2 is second structural representation of the invention；

Fig. 3 is the sectional view of beverage slot；

Fig. 4 is the structural schematic diagram of cooling system and two sides cooling system；

Fig. 5 is the sectional view of cooler；

Fig. 6 is the sectional view of radiator；

Fig. 7 is to omit one of cooling system and its structural schematic diagram of two sides cooling system after each pipeline；

Fig. 8 is to omit the second structural representation of cooling system and its two sides cooling system after each pipeline；

Fig. 9 is to omit the top view of cooling system and its two sides cooling system after each pipeline.

In figure: 1, beverage slot；2, return pipe；3, refrigeration system；4, cooling system；5, one is pumped；6, cooling water pipe one；7, go out Water valve；8, thermally conductive fixed plate；9, attachment beam；

1.10, space is stored；1.20, hang plate；1.30, sealing space；

3.10, cooler；3.11, import；3.12, connecting pipeline；3.13, outlet；3.14, cooler casing；3.15, every Plate；3.16, flow ports；3.17, coolant flow channel；3.20, semiconductor chilling plate；

4.10, radiator fan；4.20, radiating fin group；4.21, radiating fin；4.22, heat conducting pipe；4.30, radiator； 4.31, pipeline；4.32, medium entrance；4.33, media outlet；4.34, radiator shell；4.35, radiating flow passage；4.36, it is longitudinal Partition；4.37, communication port.

Specific embodiment

The embodiment of the present invention is described further with reference to the accompanying drawing:

As shown in figure 1-9, domestic beverage classification refrigeration equipment of the present invention includes beverage slot 1,3 and of refrigeration system Cooling system 4.

Refrigeration system 3 is made of cooler 3.10 and 16 piece TEC1-12704 semiconductor chilling plate 3.20, to guarantee to pass through The proportionate relationship of electric current and temperature, 16 block semiconductor cooling piece 3.20 is in parallel to be accessed in refrigeration control circuit and is evenly distributed on cold But 3.10 two sides of device.Equipped with several pieces parallel partitions 3.15 up and down in cooler casing 3.14, an every partition 3.15 only side There are flow ports 3.16 between portion and cooler casing 3.14, the flowing between adjacent two partition 3.15 and cooler casing 3.14 Mouth 3.16 is located at the heteropleural of partition 3.15, and each partition 3.15 is collectively formed coolant flow channel 3.17 with flow ports 3.16, passes through Coolant flow channel 3.17 can make residence time of the beverage inside cooler 3.10 longer, and cooling effect is more preferable.In the present embodiment, Cooler 3.10 includes two groups of cooling units, all has coolant flow channel 3.17 in every group of cooling unit, two cooling units pass through company Siphunculus road 3.12 is connected to.

1 top of beverage slot has beverage filling mouth, installs outlet valve 7 at the outlet 3.13 of 1 lower part of beverage slot, and in cooling Mounting temperature sensor in device 3.10, for detecting beverage cryogenic temperature；1 lower part of beverage slot also has cooling nozzle, cooling water Mouth is connected to by cooling water pipe 1 with the import 3.11 of cooler 3.10, installation pump 1, cooler 3.10 on cooling water pipe 1 Outlet 3.13 be connected to the water return outlet of beverage slot 1 by return pipe 2.Two hang plates 1.20 of interior bottom setting of beverage slot 1, two It the bilateral symmetry of hang plate 1.20 and is tilted down respectively from the two sidewalls of beverage slot 1 to groove body bottom, and by the lower part of beverage slot 1 Inner cavity is separated into the symmetrical section in bottom two sealing space 1.30 and middle part section triangular in shape storing in up-side down triangle Space 1.10；The outlet of beverage slot and cooling nozzle with store space 1.10 and communicate.

3.20 outside of semiconductor chilling plate of 3.10 two sides of cooler is arranged in cooling system 4 comprising radiator 4.30, Radiating fin group 4.20 and radiator fan 4.10.There is medium entrance 4.32 and media outlet 4.33 on radiator shell 4.34, Media outlet 4.33 is connected to by cooling water pipe two with medium entrance 4.32, installation pump two, radiator shell on cooling water pipe two It is provided with several pieces longitudinal baffles 4.36 being parallel to each other in 4.34, every longitudinal baffle 4.36 only a side end and radiator shell There are communication ports 4.37 between 4.34, and the communication port 4.37 between adjacent two longitudinal baffle 4.36 and radiator shell 4.34 is divided Not Wei Yu longitudinal baffle 4.36 heteropleural, radiating flow passage 4.35, this reality is collectively formed with communication port 4.37 in each longitudinal baffle 4.36 It applies in example, there are two groups of radiators 4.30 in every group of cooling system 4, interconnected between each radiator 4.30 by 4.31 phase of pipeline It is logical.There is multiple groups radiating fin group 4.20 in every group of cooling system 4；The outside of radiator 4.30 (deviates from semiconductor chilling plate 3.20 side) there is thermally conductive fixed plate 8；Radiating fin group 4.20 by several longitudinal directions radiating fin 4.21 disposed in parallel and It is formed through the heat conducting pipe 4.22 in each radiating fin 4.21, the end of heat conducting pipe 4.22 is fixed in thermally conductive fixed plate 8；Two The upper and lower ends of thermally conductive fixed plate 8 in cooling system 4 pass through attachment beam 9 and are fixedly connected.Every group of radiating fin group 4.20 Upper and lower is respectively provided with radiator fan 4.10.It can be realized level-one water-cooling by radiator 4.30, pass through the radiating fin added Piece group 4.20 can be realized two-class heat dissipation, can also realize that forced convertion is radiated after opening radiator fan 4.10, by radiating fin The heat at 4.21 middle parts is taken away, so that heat dissipation effect is further increased, to meet 3.20 hot and cold side temperature difference of semiconductor chilling plate Reduction, improve refrigerating efficiency.

The present embodiment adjusts the size of current in control refrigeration control circuit using conventional current knob switch, and adopts It, can either be real with commercially available ARTM-8 temperature patrol inspection measurement and control instrument (function of having gathered intelligent PID temperature controller and controller) The setting and display of existing cooling temperature, and the operation of pump one, pump two and radiator fan can be controlled.In application, by ARTM-8 The temperature sensor of temperature patrol inspection measurement and control instrument is arranged in cooler 3.10, for detecting beverage cryogenic temperature, and passes through ARTM- 8 temperature patrol inspection measurement and control instruments form closed-loop control, make beverage temperature Real-time Feedback.

In this refrigeration equipment, the inner face (i.e. close to the end face of cooler 3.10) of semiconductor chilling plate 3.20 is cold end, Outer end face is hot end.The cold end of semiconductor chilling plate 3.20 is coated with heat-conducting silicone grease and pastes cooler 3.10 by heat-conducting silicone grease On；The hot end of semiconductor chilling plate 3.20 is also coated with heat-conducting silicone grease and is pasted on radiator 4.30 by heat-conducting silicone grease.It is cooling Water pipe 1, return pipe 2, the connecting pipeline 3.12 for being connected to two cooling units and the pipeline for being connected to each radiator 4.30 4.31 is equal all using food grade silicone pipe, and clean hygiene is green safe.

The present embodiment use process is as follows:

After energization, integrally cooling equipment is started to work, and cooling beverage will be needed to pour into beverage slot 1, then according to not Optimal consumption temperature with beverage sets cryogenic temperature.Beverage is exported from beverage slot to flow out, into the cooling stream of cooler 3.10 Road 3.17, and freeze under the action of 3.10 two sides semiconductor chilling plate 3.20 of cooler, if cooling time need to be shortened, accelerate system It is cold such as to need to be cooled down in 1-3 minutes, it needs to adjust current knob switch, flows through the electric current of semiconductor chilling plate 3.20 Value increases, and increases refrigerating capacity caused by semiconductor chilling plate 3.20, while it is (i.e. same to open air-cooled, water cooling twin-stage radiating mode Pump two, radiator fan 4.10 on Shi Qidong radiator cooling water pipe two), quickly reduce the hot and cold side of semiconductor chilling plate 3.20 The temperature difference improves refrigerating efficiency, if (being greater than 3 minutes if you need to cooling time) without fast-refrigerating, only enables first order water cooling mode (only starting the pump two on radiator cooling water pipe two) is radiated.The temperature of 3.13 position of outlet of cooler 3.10 Sensor is capable of the cooling temperature value of real-time detection beverage, and Real-time Feedback, if the beverage temperature in cooler 3.10 does not reach institute The cryogenic temperature of setting then continues to flow back into the coolant flow channel 3.17 of cooler 3.10 by return pipe 2, until reaching initial Temperature can be transferred in the form of a signal ARTM-8 temperature patrol inspection measurement and control instrument by the cryogenic temperature of setting, temperature sensor, and by The pump 1 that ARTM-8 temperature patrol inspection measurement and control instrument controls on cooling water pipe 1 is out of service, opens outlet valve 7 at this time, can be connected to The beverage of required temperature.

This refrigeration equipment can realize the grading control of cryogenic temperature according to actual needs, meet individual requirements；Using Core of the semiconductor chilling plate 3.20 as refrigeration equipment, process of refrigerastion are environmentally friendly, pollution-free；Since semiconductor chilling plate 3.20 is cold The temperature difference in hot end determines that refrigerating capacity, the size of refrigerating efficiency are combined while increasing semiconductor chilling plate 3.20 using two-stage Heat-removal modalities radiate, and reduce transmitting of the hot end heat of semiconductor chilling plate 3.20 to cold end, reduce the temperature difference, improve refrigeration Efficiency, therefore the present embodiment can greatly meet the reduction of 3.20 hot and cold side temperature difference of semiconductor chilling plate, most final minification The short integrally cooling time, achieve the effect that fast-refrigerating.Meanwhile entire refrigeration equipment compact structure, it is easy to carry and be suitable for family Front yard uses, noiseless, pollution-free, suitable large-scale promotion application in use process.

Claims (10)

1. a kind of domestic beverage is classified refrigeration equipment, it is characterised in that: including beverage slot (1), refrigeration system (3) and cooling system (4), refrigeration system (3) by cooler (3.10) and is evenly arranged on the several piece semiconductor chilling plate (3.20) of cooler (3.10) two sides Composition, each semiconductor chilling plate (3.20) is in parallel, and the inner face of semiconductor chilling plate (3.20) is cold end, and outer end face is hot end； Cooling system (4) are respectively provided on the outside of cooler (3.10) two sides semiconductor chilling plate (3.20)；Cooling system (4) and refrigeration are System (3) fixing assembling is integrated；Outlet valve (7) are installed at the outlet (3.13) of beverage slot (1) lower part, and in cooler (3.10) Interior mounting temperature sensor；Beverage slot (1) lower part also has cooling nozzle, and cooling nozzle passes through cooling water pipe one (6) and cooling The import (3.11) of device (3.10) is connected to, one (5) of installation pump, the outlet (3.13) of cooler (3.10) on cooling water pipe one (6) It is connected to by return pipe (2) with the water return outlet of beverage slot (1).

2. domestic beverage according to claim 1 is classified refrigeration equipment, it is characterised in that: two cooling systems (4) include Radiator (4.30) has medium entrance (4.32) and media outlet (4.33), media outlet on radiator shell (4.34) (4.33) it is connected to by cooling water pipe two with medium entrance (4.32), installation pump two on cooling water pipe two, in radiator (4.30) With radiating flow passage (4.35).

3. domestic beverage according to claim 2 is classified refrigeration equipment, it is characterised in that: set in radiator shell (4.34) It is equipped with several pieces longitudinal baffles (4.36) being parallel to each other, every longitudinal baffle (4.36) only a side end and radiator shell (4.34) there are communication port (4.37) between, and the circulation between adjacent two longitudinal baffle (4.36) and radiator shell (4.34) Mouth (4.37) is located at the heteropleural of longitudinal baffle (4.36)；Each longitudinal baffle (4.36) is collectively formed scattered with communication port (4.37) Hot flow path (4.35).

4. domestic beverage according to claim 2 or 3 is classified refrigeration equipment, it is characterised in that: every group of cooling system (4) is also Including one or more groups of radiating fin groups (4.20)；The outside of radiator (4.30) has thermally conductive fixed plate (8)；Radiating fin group (4.20) by several longitudinal directions radiating fin disposed in parallel (4.21) and through the heat conducting pipe in each radiating fin (4.21) (4.22) it forms, the end of heat conducting pipe (4.22) is fixed on thermally conductive fixed plate (8)；Thermally conductive fixation in two cooling systems (4) The upper and lower ends of plate (8) pass through attachment beam (9) and are fixedly connected.

5. domestic beverage according to claim 4 is classified refrigeration equipment, it is characterised in that: every group of radiating fin group (4.20) Upper and lower be respectively provided with radiator fan (4.10).

6. domestic beverage according to claim 2 is classified refrigeration equipment, it is characterised in that: semiconductor chilling plate (3.20) Cool and heat ends are coated with heat-conducting silicone grease, and are pasted onto cooler (3.10), on radiator (4.30) by heat-conducting silicone grease respectively.

7. according to claim 1, domestic beverage described in 2,3,5 or 6 is classified refrigeration equipment, it is characterised in that: cooler (3.10) there are coolant flow channel (3.17) in.

8. domestic beverage according to claim 7 is classified refrigeration equipment, it is characterised in that: set in cooler casing (3.14) Have several pieces parallel partitions (3.15) up and down, every partition (3.15) only between a side end and cooler casing (3.14) there are Flow ports (3.16)；Flow ports (3.16) between adjacent two partition (3.15) and cooler casing (3.14) are located at partition (3.15) heteropleural；Coolant flow channel (3.17) are collectively formed in each partition (3.15) and flow ports (3.16).

9. according to claim 1, domestic beverage described in 2,3,5 or 6 is classified refrigeration equipment, it is characterised in that: cooler (3.10) include at least two groups cooling unit, all had in every group of cooling unit coolant flow channel (3.17), and each cooling unit is logical Cross connecting pipeline (3.12) connection.

10. domestic beverage according to claim 6 is classified refrigeration equipment, it is characterised in that: beverage slot (1) top has drink Expect filling exit, two hang plates (1.20) are arranged in interior bottom, and two hang plates (1.20) are symmetrically and respectively from beverage slot (1) Two sidewalls are tilted down to groove body bottom, and the lower lumen of beverage slot (1) is separated into the symmetrical section in bottom two in triangle The sealing space (1.30) of shape and middle part section store space (1.10) in up-side down triangle；The outlet of beverage slot and cooling nozzle With store space (1.10) and communicate.