TWI353227B - Pre-cool-able beverage device - Google Patents

Description

Γ 353227 VI. Description of the Invention: [Technical Fields of the Invention] The invention relates to a bribe-cooling tilting device, and more particularly to a cold storage J beverage device that utilizes a pre-cooling-cooling unit to rapidly lower the temperature of a beverage. [Prior Art] The conventional beverage cooling device is provided in a beverage device such as a cold drink machine or a ice wine machine (not shown), as shown in Fig. 1, which includes a receiving tank 8 and a refrigerant tube 9. A plurality of partitions 82 are disposed in the interior of the accommodating tank 8 for accommodating a plurality of different drinks to be cooled. The refrigerant tube 9 is disposed around the outer side of the accommodating groove 8 The surface extends from the end of the receiving groove 8 toward the other end. In addition, the two ends of the refrigerant pipe are connected to two machines (not shown). Thereby, the refrigerant is transferred from the end of the refrigerant carrier 9 into the refrigerant pipe 9, and is outputted through the other end of the refrigerant pipe &amp; and then returned to the retractor to make the refrigerant pass through the repetitive machine. After the compressor is compressed, it is again guided to 5 ί to the refrigerant tube 9 for recycling. As described above, the refractory 9 is transferred to the accommodating groove 8, so that the refrigerant absorbs the heat energy of the beverage in the accommodating groove 8 by heat conduction, thereby providing a drink that has been cooled. In general, the above-mentioned conventional beverage cooling device has the following disadvantages. For example, the heat exchange contact area of the Caixian 9 and the accommodating tank 8 is only the area of the area where the 7th munition 9 is attached to the accommodating groove 8. Moreover, since the accommodating groove 8 forms the plurality of accommodating spaces 82, the heat exchange contact area disposed adjacent to the accommodating space ^ is further insufficient, thereby causing the heat exchange efficiency of the refrigerant tube 9 to cool the beverage. For the above reasons, it is necessary to further improve the above-mentioned conventional beverage cooling device. SUMMARY OF THE INVENTION The main object of the present invention is to provide a storage-type in a cold storage unit, pre-storing a low temperature, when == == enough to pass through the low temperature previously stored in the cold storage unit, and the speed is reduced At the reading temperature, the rib is raised in a short time to achieve the effect of rapidly cooling the beverage. The use of "enough to take or apply to other books, the second time - the purpose is to provide a cold storage beverage device," the storage tank 7C storage tank shout liquid can achieve rapid cooling effect, and in the cold storage unit The working fluid temperature can be lower than the alcoholic beverage with a lower freezing point. In order to achieve the above-described creative object, the cold storage type beverage device of the present invention comprises a containment unit and a refrigerant single m cold member. The inside of the cold storage unit is filled with a working liquid, and one or more liquid storage tanks are provided, and the liquid in the tank is stored - for rapid cooling, the cooling member is provided with one or several cold guides. The pipe body is respectively disposed between the inner wall of the peripheral portion of the cold storage unit and the compressor refrigeration unit for conveying a uniform cold source into the cold storage unit, and the working source is lowered by the cold guide pipe disposed in the cold storage unit. The temperature of the liquid is further reduced by the heat exchange between the working fluid and the liquid storage tank to quickly reduce the temperature of the beverage in the liquid storage tank. To achieve the above-described creative purpose, the cold storage beverage device of the present invention comprises a cold storage unit, a coherent cooling unit and a conduit. The cold storage unit has at least one liquid storage tank and a chamber, the liquid storage tank is accommodated in the chamber, and a working fluid is disposed between the inner wall surface of the chamber and the liquid storage tank, and the liquid storage medium The trough system 1353227 is provided with a drink for the valley, the unifying cold unit has an output end and an input end, and the refrigerating unit is configured to reduce the temperature of the uniform refrigerant; the duct has an output end and an input end of the refrigerating unit Connected, and the conduit has an input connected to the output of the refrigeration unit, the conduit extending into and through the cold storage unit to contact the working fluid. The invention further comprises a cold storage beverage device having a cold storage unit, a coherent cooling unit, a heat exchange unit, two flow guiding tubes and a drainage unit. The cold storage unit has at least one liquid storage tank and a chamber, the liquid storage tank is accommodated in the chamber, and a working fluid is disposed between the inner wall surface of the chamber and the liquid storage tank, and the storage The liquid trough is for accommodating a beverage; the refrigerating unit has an output end and an input end, and the refrigerating unit is configured to reduce the temperature of the uniform refrigerant, and the heat exchange unit is provided with a first side flow channel And the second side flow channel, wherein the first side flow channel and the second side flow channel both have two openings; the two flow guiding tubes are connected between the refrigeration unit and the heat exchange unit, and the two guides One of the flow tubes is respectively connected to the output end and the input end of the refrigeration unit, and the two flow guide tubes are respectively connected to the two openings of the first side flow channel of the miscellaneous exchange unit; the drainage unit is connected The two openings σ of the second side flow channel of the heat exchange unit and the chamber of the cold storage unit are configured to drive the working fluid to flow in the engraving unit, the chamber and the second side flow passage. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; It is shown as a cooling circuit (4) of the cold storage type -6 - 1353227 beverage device of the first embodiment of the present invention. The cold storage device of the present invention (4) comprises a uniform cooling unit b-duct 2 and a cold storage unit 3. The refrigeration unit i is configured to reduce the temperature of the refrigerant, wherein the refrigeration unit i includes an output end 11, an input end 12, a flow controller 13, a compressor 14, and a radiator 15, and The refrigerant may be selected from a refrigerant. The output terminal u and the input terminal 12 are for outputting a refrigerant (ie, a low-temperature refrigerant) cooled by the refrigeration unit 或 or a refrigerant (ie, a high-temperature refrigerant) that is to be cooled by the refrigeration unit 1 . The flow control unit 13 is connected to the output terminal u to control the flow rate of the refrigerant output by the refrigeration unit 1; the compressor 14 is connected to the input terminal 12 so as to be rotated by the input terminal 12 The refrigerant is compressed to be in a high pressure state; and the radiator 15 is connected between the flow controller 13 and the compressor 14 to dissipate the refrigerant in the high pressure state and then pass through the flow controller 13 and The wheel end u is output by the refrigerant unit j. Referring again to FIG. 2, the duct 2 extends into and through the cold storage unit 3' and the duct 2 also includes an input end 21 and an output end 22, and the input end 21 and the output end 22 are respectively connected. And the output end 11 and the input end 12 of the cooling unit ,, so that the refrigerant outputted by the refrigerating unit 流入 flows into the duct 2 from the input end 21, and then passes through the cold storage unit 3 along the duct 2, and then The output terminal 22 is returned to the refrigeration unit 1. The cold storage unit 3 includes at least one liquid storage tank 31 and a chamber 32. The liquid storage tank 31 is located in the chamber 32 and has an accommodating space 311 for accommodating the beverage to be cooled, and the liquid storage tank 31 and the inner wall of the valley to 32 is filled with a working fluid%, wherein the inner space of the valley to 32 is preferably a closed space, and the working fluid 33 is selected from an antifreeze liquid, and the working fluid 33 Portions of the duct 2 extending in the storage unit 2 of the i S1 are in contact with each other. As shown in FIG. 2, in the present embodiment, the conduit 2 extending into and passing through the cold storage unit 3 spirally surrounds the liquid storage tank 31 provided in the cold storage unit 3, even attached to the liquid storage tank. 31 The outer surface 'the storage tank 31 of the cold storage unit 3 can be selected as one or more in order to store different kinds of drinks, and the liquid storage tank 31 has a drainage portion 312 and an access valve. 313. The drainage portion 312 extends through the wall surface of the chamber 32, and one of the through holes 312 is in communication with the accommodating space 311 of the liquid storage tank 31 to open one of the containers 7 containing the beverage to be cooled. The draining portion 312 is assembled to allow the beverage in the container 7 to enter the accommodating space 311 of the liquid storage tank 31 via the drain portion 312. The access valve 313 is disposed at the bottom of the liquid storage tank 31 and also extends through the wall surface of the chamber 32 so that the user can take out the beverage in the liquid storage tank 31 through the access valve 313 for drinking. Referring to FIG. 2 again, when the cold storage beverage device of the first embodiment of the present invention is operated, the low temperature refrigerant generated by the refrigeration unit 流入 flows into the cold storage unit 3 along the conduit 2. . At this time, the low-temperature refrigerant continuously flowing in the duct 2 surrounding the liquid storage tank 31 exchanges heat with the working fluid 33 stored in the cold storage unit 3, thereby lowering the temperature of the working fluid 33 while also making the The low-temperature refrigerant absorbs the heat energy of the working fluid 33 to become the high-temperature refrigerant, and the high-temperature refrigerant is returned to the refrigeration unit 1 along the conduit 2. The cooling operation of the working fluid 33 can be completed before the beverage to be cooled is placed in the accommodating space 311, so that the cold storage unit 3 presents a pre-cooling state, and can be according to the needs of the user. Setting a predetermined temperature to be reached by the working fluid 33, so that when the working fluid 33 reaches the predetermined temperature scale, the flow control of the refrigeration unit (four) 13 stops the 1353227 refrigerant continues to be transferred along the conduit 2 into the reservoir. Cold unit 3. When the beverage to be cooled is placed in the accommodating space 311, the working fluid 33 that has reached the preset temperature will be heat exchanged with the normal temperature beverage initially placed in the liquid storage tank 31 to use the working fluid. The pre-established low temperature of 33 quickly reduces the iffel degree of the drink, thereby achieving the effect of rapid cooling. At this time, due to the cold storage, the working fluid 33 stored in the element 3 is increased in intensity due to the absorption of the heat energy of the normal temperature drink, and once the temperature of the working fluid 33 is higher than the preset temperature, the unit is The flow control 13 of 1 (4) actuates the low temperature refrigerant to enter the cold storage unit 3 along the guide 2 to re-lower the temperature of the cold storage unit 3 to the preset temperature. In the third embodiment of the present invention, the cold-cooled cooling material (4) of the second embodiment of the present invention is provided, wherein the storage system of the second embodiment is provided with an extension into the health The duct 2 of the cold unit 3, and the 4'-drain unit 5 and the second draft tube 6, during which the god-H is connected between the fresh feed 4 and the cold storage unit 3, and is connected to the heat The switching unit 4 and the cooling unit 1 are two-side flow two: the device 4 is provided with a first side flow channel 41 and 411 and a first first side flow channel 41 has a first input port two input port 42H412' The second side flow channel 42 has a first first draft tube 51 and an m output D 422; the flow guiding unit 5 has a drain f 52 of the refrigeration unit 1. In this embodiment The first passage of the one side flow passage 41 is connected to the other wheel inlet 411 of the first flow guide tube 6 through one of the two flow guide tubes 6, and the input end 12 transmits the two doses through the wheel- The output port 412' is configured such that the refrigeration and the first input port 4n flow into the first side flow path 41 of the heat exchange unit 4, and then return to the refrigeration unit 1 via the input end 12 and the first output port 412 to form a uniform cold. Agent At the same time, the second input port 421 of the first side flow channel 42 of the heat exchange unit 4 is connected to the chamber 32 of the cold storage unit 3 through the first drainage official 51, and the chamber is permeable to the first A drainage tube 52 is connected in series with a circulating pump 53 and then connected to the first output port 422 of the second side 々il channel 42 to connect the heat exchanger 4 through the first and second drainage tubes 51, 52. The cooling unit 3 constitutes a working fluid circulation circuit, wherein the circulation pump 53 is configured to drive the working fluid 33 to flow in the working fluid circulation circuit. In the example of the present embodiment, the first side flow passage flows into the first side flow passage. The refrigerant of 41 and the working fluid 33 flowing into the second side flow passage 42 are heated in the heat exchange unit 4 to cause the working fluid 32 stored in the cold storage unit 3 to rapidly lower its temperature to The preset temperature reaches the rapid pre-cooling effect of the cold storage unit 3. In summary, the interior of the valley trough 8 is partitioned into a plurality of accommodating spaces 82 by using a plurality of partition plates 81 as compared with the conventional beverage cooling device. To accommodate several kinds of drinks, but the cooling efficiency is low and the heat exchange area is small. The present invention utilizes the chamber 32 of the cold storage unit 3 to accommodate the at least one liquid storage tank 31, and fills the working fluid 33 between the inner wall surface of the chamber 32 and the liquid storage tank 31, and then The cooling unit 丨 cooling agent exchanges heat with the working fluid %, so that the cold storage unit 3 can achieve a pre-cooling effect before the liquid storage tank 31 accommodates the beverage. The heat exchange contact area of the refrigerant tube 9 and the accommodating tank 8 of the conventional beverage cooling device is limited to the area of the area where the refrigerant tube 9 is attached to the accommodating groove 8, since the working fluid 33 of the present invention is attached to the chamber Between the inner wall surface of 32 and the liquid storage tank 31, and covering the outer surface of the liquid storage tank 31, it greatly increases the area of heat exchange of the beverage, thereby improving the efficiency of cooling the beverage. Although the present invention has been disclosed by the above-described preferred embodiments, it is not intended to limit the present invention, and it is still within the spirit and scope of the present invention to make various changes and modifications to the above embodiments. The protection of the creation of the material, so the scope of protection of this creation is subject to the definition of the scope of the patent application. [Simple description of the drawing] Fig. 1: A partial perspective view of the cooling device of the f-test. Figure 2 is a schematic view of the first embodiment of the present invention. Fig. 3 is a schematic view of the second embodiment of the present invention. [Main component symbol description] [Invention] 1 Refrigeration unit 12 input terminal 14 refrigerant compressor 2 conduit 22 output terminal 31 reservoir 312 drainage portion 32 chamber 4 heat exchanger of the restaurant cold beverage set cooling back 11 output 13 flow controller 15 radiator 21 Input terminal 3 cold storage unit 311 accommodation space 313 access valve 33 working fluid 41 first side flow channel Γ 353227 411 first input end 42 second side flow channel 422 second output end 51 first drainage tube 6 two-flow tube 71 opening [conventional] 8 accommodating groove 82 accommodating space 412 first output end 421 second input end 5 drainage unit 52 second drainage tube 7 container 81 spacer 9 refrigerant tube

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Claims (1)

1-353227 VII. Patent application scope: 1. A cold storage type beverage device device comprising: a cold storage unit having at least one liquid storage tank and a chamber, wherein the at least one liquid storage tank is accommodated in the capacity In the chamber, the inner wall surface of the chamber and the at least one liquid storage tank have a working fluid' and the at least one liquid storage tank is for accommodating a beverage; the uniform cooling unit has a round out end and an input And the cooling unit is configured to reduce the temperature of the refrigerant; and a conduit has an output connected to the input of the refrigeration unit, and the conduit has an input and an output of the refrigeration unit The end is connected, and the conduit extends into and through the cold storage unit to contact the working fluid. 2. The cold storage type beverage device according to claim 1, wherein the portion of the conduit extending into the cold storage unit spirally surrounds each of the liquid storage tanks. 3. The cold storage type beverage device of claim 2, wherein the catheter is attached to an outer surface of each of the liquid storage tanks. 4. The cold storage type low-temperature beverage device device according to claim 1, wherein each of the liquid storage tanks further has a drainage portion extending through a wall surface of the chamber, and the drainage portion has a through hole and the liquid storage portion. The slots are connected. 5. The cold storage beverage farm according to claim 1, wherein a bottom of each of the liquid storage tanks is provided with an intake valve, and the access valve extends through the wall of the chamber. 6. The cold storage type beverage device according to item 1 of the patent application scope, wherein the one 13 one tsi