CN204654563U - A kind of juice extractor of cold-storage refrigeration - Google Patents

Abstract

The utility model relates to the juice extractor of a kind of cold-storage refrigeration, comprise base, described base is provided with squeezing cup, described squeezing cup is provided with charging aperture, be provided with output in described base and stretch into electric machine assembly in described squeezing cup, the output of described electric machine assembly is fixed with spiral propeller, described spiral propeller is located in described squeezing cup, described electric machine assembly drives described spiral propeller axially to rotate, the cooling assembly for described squeezing cup inside of freezing is provided with in described base, control panel is provided with in described base, described control panel is connected with described electric machine assembly and described cooling assembly circuit respectively, described control panel controls the opening and closing of described electric machine assembly, described control panel controls the opening and closing of described cooling assembly.By arranging the cooling assembly freezed to squeezing cup inside in base, can freeze in the process that juice extractor is squeezed the juice, can ensure that the nutritional labeling of fruits and vegetables juice does not run off, the refrigerant mouthfeel of juice can be ensured again.

Description

A kind of juice extractor of cold-storage refrigeration

Technical field

The utility model relates to food processing electrical appliance equipment manufacturing technology field, particularly relates to the juice extractor of a kind of cold-storage refrigeration.

Background technology

Juice extractor is a kind of small household appliances for squeezing the fruits and vegetables group foods such as various fruit, vegetables, and its structure is simple, easy to use, generally uses in daily life.Juice extractor can produce heat to the juice heating of squeezing in the process of squeezing the juice, and affects the mouthfeel of juice.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of good refrigeration effect, the juice extractor of the cold-storage refrigeration that refrigerating efficiency is high.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind of juice extractor of cold-storage refrigeration, comprise base, described base is provided with squeezing cup, described squeezing cup is provided with charging aperture, be provided with output in described base and stretch into electric machine assembly in described squeezing cup, the output of described electric machine assembly is fixed with spiral propeller, described spiral propeller is located in described squeezing cup, described electric machine assembly drives described spiral propeller axially to rotate, the cooling assembly for described squeezing cup inside of freezing is provided with in described base, control panel is provided with in described base, described control panel is connected with described electric machine assembly and described cooling assembly circuit respectively, described control panel controls the opening and closing of described electric machine assembly, described control panel controls the opening and closing of described cooling assembly.

The beneficial effects of the utility model are: by arranging the cooling assembly freezed to squeezing cup inside in base, can freeze to the juice in squeezing cup as required in the process that juice extractor is squeezed the juice, can ensure that the nutritional labeling of fruits and vegetables juice does not run off, the refrigerant mouthfeel of juice can be ensured again.

On the basis of technique scheme, the utility model can also do following improvement.

Further, described cooling assembly comprises cooler, (phase-change material refers to and varies with temperature and change the material that physical property also can provide latent heat phase-change material.The process changing physical property is called phase transition process, and at this moment phase-change material will absorb or discharge a large amount of latent heat.), cooling piece, heat abstractor and cooling assembly power board, described cooler is inserted in described squeezing cup, described cooling piece is located on described base, the cold junction of described cooling piece abuts with described cooler, the hot junction of described cooling piece abuts with described heat abstractor, cold-storage chamber is provided with in described cooling piece, described phase-change material is located in described cold-storage chamber, between the hot junction in described cold-storage chamber and cold junction, described cooling assembly power board is connected with described control panel and described cooling piece circuit respectively, described control panel controls the opening and closing of the refrigeration mode of described cooling assembly power board, for driving described cooling piece to freeze, (cooling piece has cold junction and two sides, hot junction to described cooling assembly power board, because peltier effect cold junction temperature reduces thus can reach the object of refrigeration from cold scattering piece heat absorption after logical direct current, simultaneously hot junction can produce caloric requirement and sheds, otherwise can cooling piece be damaged.Refrigerating capacity is with the fruit juice amount of refrigeration, lower the temperature temperature, temperature fall time formation function relation, and its account form is: refrigerating capacity=fruit juice specific heat capacity × fruit juice volume (liter) × cooling number of degrees ÷ (time (dividing) × 60).The cold junction of cooling piece and cold scattering piece close contact ensure the heat transfer absorbing heat).

Adopt the beneficial effect of above-mentioned further scheme to be: cooling piece the effect playing refrigeration cool-down is set, effectively the low temperature of cooling piece can be delivered to the juice in squeezing cup by cold scattering piece; The phase-change material arranged in cooling piece is in the process of squeezing the juice, and phase-change material absorbs heat from fruit juice, and phase-change material from solid-state phase changes to liquid state, thus reaches the object of fruit juice refrigeration; The heat that the hot junction of cooling piece can be produced that arranges of heat abstractor discharges juice extractor.

Further, described squeezing cup is provided with the temperature detector for detecting described squeezing cup internal temperature, and described temperature detector is connected with described cooling assembly power board circuit, and described cooling assembly power board receives the temperature signal that described temperature detector detects.

Adopt the beneficial effect of above-mentioned further scheme to be: temperature detector can be monitored the temperature of the juice in squeezing cup, when the temperature that temperature detector detects is on the temperature set, cooling assembly power board controls to open cooling assembly, freezes to juice; After the temperature of juice drops to design temperature, cooling assembly power board controls to close cooling assembly.

Further, thermal conductive silicon lipid layer is provided with between the hot junction of described cooling piece and described heat abstractor.

Adopt the beneficial effect of above-mentioned further scheme to be: thermal conductive silicon lipid layer the heat conduction efficiency that can improve between cooling piece and heat abstractor is set, improve radiating effect.

Further, described heat abstractor comprises cooling water tank, water pump, bosh and the first cooling fan, described first cooling fan is located in described base, on described base, the air intake place of described first cooling fan is provided with fresh air inlet, described base is provided with exhaust vent, described bosh is located in described base, the outlet air end place of described first cooling fan, described cooling water tank abuts with the hot junction of described cooling piece, one end of described cooling water tank connects the other end by hot channel, described hot channel is provided with water pump, the stage casing of described hot channel is located in described bosh, described first cooling fan is connected with described cooling assembly power board circuit, described cooling assembly power board controls the opening and closing of described first cooling fan.

The beneficial effect of above-mentioned further scheme is adopted to be: the heat in the hot junction of the refrigerating fluid absorption refrigeration sheet in cooling water tank, micro pump be responsible for refrigerating fluid by hot channel circulate beat walk heat, the refrigerating fluid absorbing heat flows to bosh, there is the first cooling fan that refrigerating fluid is cooled in bosh, cooled refrigerating fluid enters cooling water tank heat absorption, by this continuous circulation cooling again by micro pump again.

Further, described heat abstractor comprises radiator and the second cooling fan, described radiator abuts with the hot junction of described cooling piece, described second cooling fan is fixed in described base, and the outlet air end of described second cooling fan is towards described radiator, described second cooling fan is connected with described cooling assembly power board circuit, and described cooling assembly power board controls the opening and closing of described second cooling fan.

The beneficial effect of above-mentioned further scheme is adopted to be: the radiator abutted for the hot junction of cooling piece by the second cooling fan blows heat radiation, and structure is simple.

Further, described heat abstractor comprises heat pipe, fin and the 3rd cooling fan, described fin and described 3rd cooling fan are all located in described base, on described base, the air intake place of described 3rd cooling fan is provided with fresh air inlet, described base is provided with exhaust vent, the outlet air end of described 3rd cooling fan is towards described fin, one end of described heat pipe abuts with the hot junction of described cooling piece, the other end is located in described fin, described 3rd cooling fan is connected with described cooling assembly power board circuit, described cooling assembly power board controls the opening and closing of described 3rd cooling fan.

The beneficial effect of above-mentioned further scheme is adopted to be: by heat pipe, the heat in the hot junction of cooling piece to be delivered to heat pipe one end through fin, to be blown fin by the 3rd cooling fan, realize quick heat radiating.

Further, the outer wall of described squeezing cup is provided with heat-preservation cotton.

The beneficial effect of above-mentioned further scheme is adopted to be: arranging of heat-preservation cotton can carry out heat-insulation and heat-preservation to juice after refrigeration.

Further, in the sidewall of described squeezing cup, be provided with thermal insulating cavity, for vacuum or be filled with nitrogen in described thermal insulating cavity.

The beneficial effect of above-mentioned further scheme is adopted to be: to vacuumize in the middle of the bilayer of the sidewall of squeezing cup or the structure of inflated with nitrogen can play the effect of insulation.

Further, stick pusher is provided with in the described charging aperture on described squeezing cup.

The beneficial effect of above-mentioned further scheme is adopted to be: the arranging of stick pusher can play the effect pushed by fruits and vegetables block in squeezing cup.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model first embodiment;

Fig. 2 is the structural representation of the utility model second embodiment;

Fig. 3 is the structural representation of the utility model the 3rd embodiment.

In accompanying drawing, the list of parts representated by each label is as follows:

1, base, 2, squeezing cup, 3, charging aperture, 4, electric machine assembly, 5, spiral propeller, 6, cooling assembly, 7, control panel, 8, cooler, 9, phase-change material, 10, cooling piece, 11, heat abstractor, 12, cooling assembly power board, 13, cold-storage chamber, 14, temperature detector, 15, thermal conductive silicon lipid layer, 16, cooling water tank, 17, water pump, 18, bosh, 19, first cooling fan, 20, fresh air inlet, 21, exhaust vent, 22, radiator, 23, second cooling fan, 24, heat pipe, 25, fin, 26, 3rd cooling fan, 27, heat-preservation cotton, 28, thermal insulating cavity, 29, stick pusher, 30, net-filter assembly, 31, hot channel.

Detailed description of the invention

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

Embodiment one

As shown in Figure 1, the present embodiment comprises base 1, described base 1 is provided with squeezing cup 2, described squeezing cup 2 is provided with charging aperture 3, be provided with output in described base 1 and stretch into electric machine assembly 4 in described squeezing cup 2, the output of described electric machine assembly 4 is fixed with spiral propeller 5, net-filter assembly 30 is provided with in described squeezing cup 2, described spiral propeller 5 is located in described net-filter assembly 30, described electric machine assembly 4 drives described spiral propeller 5 axial rotation, the cooling assembly 6 for described squeezing cup 2 inside of freezing is provided with in described base 1, control panel 7 is provided with in described base 1, described control panel 7 is connected with described electric machine assembly 4 and described cooling assembly 6 circuit respectively, described control panel 7 controls the opening and closing of described electric machine assembly 4, described control panel 7 controls the opening and closing of described cooling assembly 6.

Described cooling assembly 6 comprises cooler 8, phase-change material 9, cooling piece 10, heat abstractor 11 and cooling assembly power board 12, described cooler 8 is inserted in described squeezing cup 2, described cooling piece 10 is located on described base 1, the cold junction of described cooling piece 10 abuts with described cooler 8, the hot junction of described cooling piece 10 abuts with described heat abstractor 11, cold-storage chamber 13 is provided with in described cooling piece 10, described phase-change material 9 is located in described cold-storage chamber 13, between the hot junction in described cold-storage chamber 13 and cold junction, described cooling assembly power board 12 is connected with described control panel 7 and described cooling piece 10 circuit respectively, described control panel 7 controls the opening and closing of the refrigeration mode of described cooling assembly power board 12, described cooling assembly power board 12 freezes for driving described cooling piece 10.Described squeezing cup 2 is provided with the temperature detector 14 for detecting described squeezing cup 2 internal temperature, and described temperature detector 14 is connected with described cooling assembly power board 12 circuit, and described cooling assembly power board 12 receives the temperature signal that described temperature detector 14 detects.Thermal conductive silicon lipid layer 15 is provided with between the hot junction of described cooling piece 10 and described heat abstractor 11.

Described heat abstractor 11 comprises cooling water tank 16, water pump 17, bosh 18 and the first cooling fan 19, described first cooling fan 19 is located in described base 1, on described base 1, the air intake place of described first cooling fan 19 is provided with fresh air inlet 20, described base 1 is provided with exhaust vent 21, described bosh 18 is located in described base 1, the outlet air end place of described first cooling fan 19, described cooling water tank 16 abuts with the hot junction of described cooling piece 10, one end of described cooling water tank 16 connects the other end by hot channel 31, described hot channel 31 is provided with water pump 17, the stage casing of described hot channel 31 is located in described bosh 18, described first cooling fan 19 is connected with described cooling assembly power board 12 circuit, described cooling assembly power board 12 controls the opening and closing of described first cooling fan 19.The outer wall of described squeezing cup 2 is provided with heat-preservation cotton 27.Stick pusher 29 is provided with in described charging aperture 3 on described squeezing cup 2.

Embodiment two

As shown in Figure 2, the present embodiment comprises base 1, described base 1 is provided with squeezing cup 2, described squeezing cup 2 is provided with charging aperture 3, be provided with output in described base 1 and stretch into electric machine assembly 4 in described squeezing cup 2, the output of described electric machine assembly 4 is fixed with spiral propeller 5, net-filter assembly 30 is provided with in described squeezing cup 2, described spiral propeller 5 is located in described net-filter assembly 30, described electric machine assembly 4 drives described spiral propeller 5 axial rotation, the cooling assembly 6 for described squeezing cup 2 inside of freezing is provided with in described base 1, control panel 7 is provided with in described base 1, described control panel 7 is connected with described electric machine assembly 4 and described cooling assembly 6 circuit respectively, described control panel 7 controls the opening and closing of described electric machine assembly 4, described control panel 7 controls the opening and closing of described cooling assembly 6.

Described cooling assembly 6 comprises cooler 8, phase-change material 9, cooling piece 10, heat abstractor 11 and cooling assembly power board 12, described cooler 8 is inserted in described squeezing cup 2, described cooling piece 10 is located on described base 1, the cold junction of described cooling piece 10 abuts with described cooler 8, the hot junction of described cooling piece 10 abuts with described heat abstractor 11, cold-storage chamber 13 is provided with in described cooling piece 10, described phase-change material 9 is located in described cold-storage chamber 13, between the hot junction in described cold-storage chamber 13 and cold junction, described cooling assembly power board 12 is connected with described control panel 7 and described cooling piece 10 circuit respectively, described control panel 7 controls the opening and closing of the refrigeration mode of described cooling assembly power board 12, described cooling assembly power board 12 freezes for driving described cooling piece 10.Described squeezing cup 2 is provided with the temperature detector 14 for detecting described squeezing cup 2 internal temperature, and described temperature detector 14 is connected with described cooling assembly power board 12 circuit, and described cooling assembly power board 12 receives the temperature signal that described temperature detector 14 detects.Thermal conductive silicon lipid layer 15 is provided with between the hot junction of described cooling piece 10 and described heat abstractor 11.

Described heat abstractor 11 comprises radiator 22 and the second cooling fan 23, described radiator 22 abuts with the hot junction of described cooling piece 10, described second cooling fan 23 is fixed in described base 1, and the outlet air end of described second cooling fan 23 is towards described radiator 22, described second cooling fan 23 is connected with described cooling assembly power board 12 circuit, and described cooling assembly power board 12 controls the opening and closing of described second cooling fan 23.The outer wall of described squeezing cup 2 is provided with heat-preservation cotton 27.Stick pusher 29 is provided with in described charging aperture 3 on described squeezing cup 2.

Embodiment three

As shown in Figure 3, the present embodiment comprises base 1, described base 1 is provided with squeezing cup 2, described squeezing cup 2 is provided with charging aperture 3, be provided with output in described base 1 and stretch into electric machine assembly 4 in described squeezing cup 2, the output of described electric machine assembly 4 is fixed with spiral propeller 5, net-filter assembly 30 is provided with in described squeezing cup 2, described spiral propeller 5 is located in described net-filter assembly 30, described electric machine assembly 4 drives described spiral propeller 5 axial rotation, the cooling assembly 6 for described squeezing cup 2 inside of freezing is provided with in described base 1, control panel 7 is provided with in described base 1, described control panel 7 is connected with described electric machine assembly 4 and described cooling assembly 6 circuit respectively, described control panel 7 controls the opening and closing of described electric machine assembly 4, described control panel 7 controls the opening and closing of described cooling assembly 6.

Described cooling assembly 6 comprises cooler 8, phase-change material 9, cooling piece 10, heat abstractor 11 and cooling assembly power board 12, described cooler 8 is inserted in described squeezing cup 2, described cooling piece 10 is located on described base 1, the cold junction of described cooling piece 10 abuts with described cooler 8, the hot junction of described cooling piece 10 abuts with described heat abstractor 11, cold-storage chamber 13 is provided with in described cooling piece 10, described phase-change material 9 is located in described cold-storage chamber 13, between the hot junction in described cold-storage chamber 13 and cold junction, described cooling assembly power board 12 is connected with described control panel 7 and described cooling piece 10 circuit respectively, described control panel 7 controls the opening and closing of the refrigeration mode of described cooling assembly power board 12, described cooling assembly power board 12 freezes for driving described cooling piece 10.Described squeezing cup 2 is provided with the temperature detector 14 for detecting described squeezing cup 2 internal temperature, and described temperature detector 14 is connected with described cooling assembly power board 12 circuit, and described cooling assembly power board 12 receives the temperature signal that described temperature detector 14 detects.Thermal conductive silicon lipid layer 15 is provided with between the hot junction of described cooling piece 10 and described heat abstractor 11.

Described heat abstractor 11 comprises heat pipe 24, fin 25 and the 3rd cooling fan 26, described fin 25 and described 3rd cooling fan 26 are all located in described base 1, on described base 1, the air intake place of described 3rd cooling fan 26 is provided with fresh air inlet 20, described base 1 is provided with exhaust vent 21, the outlet air end of described 3rd cooling fan 26 is towards described fin 25, one end of described heat pipe 24 abuts with the hot junction of described cooling piece 10, the other end is located in described fin 25, described 3rd cooling fan 26 is connected with described cooling assembly power board 12 circuit, described cooling assembly power board 12 controls the opening and closing of described 3rd cooling fan 26.Thermal insulating cavity 28 is provided with, for vacuum or be filled with nitrogen in described thermal insulating cavity 28 in the sidewall of described squeezing cup 2.Stick pusher 29 is provided with in described charging aperture 3 on described squeezing cup 2.

The utility model by arranging the cooling assembly 6 freezed to squeezing cup 2 inside in base 1, can freeze to the juice in squeezing cup 2 as required in the process that juice extractor is squeezed the juice, can ensure that the nutritional labeling of fruits and vegetables juice does not run off, the refrigerant mouthfeel of juice can be ensured again.Cooling piece 10 the effect playing refrigeration cool-down is set, effectively the low temperature of cooling piece 10 can be delivered to the juice in squeezing cup 2 by cold scattering piece; The phase-change material 9 arranged in cooling piece 10 is in the process of squeezing the juice, and phase-change material 9 is from fruit juice heat absorption, and phase-change material 9 from solid-state phase changes to liquid state, thus reaches the object of fruit juice refrigeration; The heat that the hot junction of cooling piece 10 can be produced that arranges of heat abstractor 11 discharges juice extractor.Temperature detector 14 can be monitored the temperature of the juice in squeezing cup 2, and when the temperature that temperature detector 14 detects is on the temperature set, cooling assembly power board 12 controls to open cooling assembly 6, freezes to juice; After the temperature of juice drops to design temperature, cooling assembly power board 12 controls to close cooling assembly 6.Thermal conductive silicon lipid layer 15 the heat conduction efficiency that can improve between cooling piece 10 and heat abstractor 11 is set, improve radiating effect.

When adopting the heat abstractor 11 comprising cooling water tank 16, water pump 17, bosh 18 and the first cooling fan 19 be, the heat in the hot junction of the refrigerating fluid absorption refrigeration sheet 10 in cooling water tank 16, micro pump 17 is responsible for refrigerating fluid to be circulated by hot channel 31 to beat heat, the refrigerating fluid absorbing heat flows to bosh 18, bosh 18 li has the first cooling fan 19 that refrigerating fluid is cooled, cooled refrigerating fluid again again enters cooling water tank 16 by micro pump 17 and absorbs heat, by this continuous circulation cooling.

Adopt heat abstractor 11 structure comprising radiator 22 and the second cooling fan 23 simple.Adopt the heat abstractor 11 comprising heat pipe 24, fin 25 and the 3rd cooling fan 26, by heat pipe 24, the heat in the hot junction of cooling piece 10 is delivered to heat pipe 24 one end through fin 25, blown by the 3rd cooling fan 26 pairs of fin 25, realize quick heat radiating.

Arranging of heat-preservation cotton 27 can carry out heat-insulation and heat-preservation to juice after refrigeration.To vacuumize in the middle of the bilayer of the sidewall of squeezing cup 2 or the structure of inflated with nitrogen can play the effect of insulation.The arranging of stick pusher 29 can play the effect pushed by fruits and vegetables block in squeezing cup 2.

Use the operation of refrigeration fruit juice: if user wishes to drink freezing fruit juice, user powers in advance and opens juice extractor, select reservation refrigeration mode, after selecting, cooling assembly 6 starts work, cooling piece 10 cold junction absorbs heat from cool storage material, phase-change material 9 is allowed to be phase-changed into solid-state cold-storage, work when user starts pattern rear motor startup band dynamic spiral propeller 5 of squeezing the juice, user now can put stick pusher 29 into fruit chunk, squeezing juice starts, the fruit juice squeezed is now high than the phase point temperature of phase-change material 9, phase-change material 9 is absorbed heat from fruit juice by shell, phase-change material 9 is from solid-state phase changes to liquid state, thus reach the object of fruit juice refrigeration, temperature detector 14 constantly detects the temperature of fruit juice, after reaching target temperature, cooling assembly 6 is stopped to work, the fruit juice of juice receiving cup contact refrigeration, now user can enjoy iced fruit juice.

The utility model conveniently can realize effect of iced fruit juice, meets the demand of user, reaches the object of drinking mouthfeel promoting fruit juice.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. the juice extractor of a cold-storage refrigeration, it is characterized in that, comprise base (1), described base (1) is provided with squeezing cup (2), described squeezing cup (2) is provided with charging aperture (3), be provided with output in described base (1) and stretch into electric machine assembly (4) in described squeezing cup (2), the output of described electric machine assembly (4) is fixed with spiral propeller (5), described spiral propeller (5) is located in described squeezing cup (2), described electric machine assembly (4) drives described spiral propeller (5) axial rotation, be provided with for the inner cooling assembly (6) of the described squeezing cup (2) that freezes in described base (1), control panel (7) is provided with in described base (1), described control panel (7) is connected with described electric machine assembly (4) and described cooling assembly (6) circuit respectively, described control panel (7) controls the opening and closing of described electric machine assembly (4), described control panel (7) controls the opening and closing of described cooling assembly (6).

2. the juice extractor of a kind of cold-storage refrigeration according to claim 1, it is characterized in that, described cooling assembly (6) comprises cooler (8), phase-change material (9), cooling piece (10), heat abstractor (11) and cooling assembly power board (12), described cooler (8) is inserted in described squeezing cup (2), described cooling piece (10) is located on described base (1), the cold junction of described cooling piece (10) abuts with described cooler (8), the hot junction of described cooling piece (10) abuts with described heat abstractor (11), cold-storage chamber (13) is provided with in described cooling piece (10), described phase-change material (9) is located in described cold-storage chamber (13), between the hot junction of described cold-storage chamber (13) and cold junction, described cooling assembly power board (12) is connected with described control panel (7) and described cooling piece (10) circuit respectively, described control panel (7) controls the opening and closing of the refrigeration mode of described cooling assembly power board (12), described cooling assembly power board (12) is freezed for driving described cooling piece (10).

3. the juice extractor of a kind of cold-storage refrigeration according to claim 2, it is characterized in that, described squeezing cup (2) is provided with the temperature detector (14) for detecting described squeezing cup (2) internal temperature, described temperature detector (14) is connected with described cooling assembly power board (12) circuit, and described cooling assembly power board (12) receives the temperature signal that described temperature detector (14) detects.

4. the juice extractor of a kind of cold-storage refrigeration according to Claims 2 or 3, is characterized in that, be provided with thermal conductive silicon lipid layer (15) between the hot junction of described cooling piece (10) and described heat abstractor (11).

5. the juice extractor of a kind of cold-storage refrigeration according to Claims 2 or 3, it is characterized in that, described heat abstractor (11) comprises cooling water tank (16), water pump (17), bosh (18) and the first cooling fan (19), described first cooling fan (19) is located in described base (1), on described base (1), the air intake place of described first cooling fan (19) is provided with fresh air inlet (20), described base (1) is provided with exhaust vent (21), described bosh (18) is located in described base (1), the outlet air end place of described first cooling fan (19), described cooling water tank (16) abuts with the hot junction of described cooling piece (10), one end of described cooling water tank (16) connects the other end by hot channel (31), described hot channel (31) is provided with water pump (17), the stage casing of described hot channel (31) is located in described bosh (18), described first cooling fan (19) is connected with described cooling assembly power board (12) circuit, described cooling assembly power board (12) controls the opening and closing of described first cooling fan (19).

6. the juice extractor of a kind of cold-storage refrigeration according to Claims 2 or 3, it is characterized in that, described heat abstractor (11) comprises radiator (22) and the second cooling fan (23), described radiator (22) abuts with the hot junction of described cooling piece (10), described second cooling fan (23) is fixed in described base (1), and the outlet air end of described second cooling fan (23) is towards described radiator (22), described second cooling fan (23) is connected with described cooling assembly power board (12) circuit, described cooling assembly power board (12) controls the opening and closing of described second cooling fan (23).

7. the juice extractor of a kind of cold-storage refrigeration according to Claims 2 or 3, it is characterized in that, described heat abstractor (11) comprises heat pipe (24), fin (25) and the 3rd cooling fan (26), described fin (25) and described 3rd cooling fan (26) are all located in described base (1), on described base (1), the air intake place of described 3rd cooling fan (26) is provided with fresh air inlet (20), described base (1) is provided with exhaust vent (21), the outlet air end of described 3rd cooling fan (26) is towards described fin (25), one end of described heat pipe (24) abuts with the hot junction of described cooling piece (10), the other end is located in described fin (25), described 3rd cooling fan (26) is connected with described cooling assembly power board (12) circuit, described cooling assembly power board (12) controls the opening and closing of described 3rd cooling fan (26).

8. the juice extractor of a kind of cold-storage refrigeration according to any one of claims 1 to 3, it is characterized in that, the outer wall of described squeezing cup (2) is provided with heat-preservation cotton (27).

9. the juice extractor of a kind of cold-storage refrigeration according to any one of claims 1 to 3, it is characterized in that, thermal insulating cavity (28) is provided with, for vacuum or be filled with nitrogen in described thermal insulating cavity (28) in the sidewall of described squeezing cup (2).

10. the juice extractor of a kind of cold-storage refrigeration according to any one of claims 1 to 3, is characterized in that, be provided with stick pusher (29) in the described charging aperture (3) on described squeezing cup (2).