Ice making, freeze, heat straight drink machine
Technical field:
The present invention relates to household electrical appliance technical field, relate in particular to a kind of ice making, freeze, heat straight drink machine.
Background technology:
At present, direct drinking fountain be can prepare or pay warm water, hot water and (or) utensil of cold water, can satisfy the daily drinking-water of people basically, make tea, make coffee, various needs such as ready-to-eat food and modulation cold drink; Use direct drinking fountain drinking-water does not need artificial nurse, and drinking-water is convenient; Have advantages such as sanitation and hygiene, processing ease, drinking-water fashion, so direct drinking fountain entered into various places such as family, company, market, bank, office, office building, hostel, meeting room at leisure and used, yet; In use there is certain defective in existing direct drinking fountain, and the ice making refrigeration system of direct drinking fountain is to combine, operation simultaneously; When people only need cold water; The ice-making system of direct drinking fountain has also started simultaneously, has wasted the energy so virtually, uses inconvenient.
Summary of the invention:
The object of the invention be exactly the deficiency that exists to prior art and provide a kind of simple to operate, energy savings ice making, freeze, heat straight drink machine.
To achieve these goals, the technical scheme of the present invention's employing is:
Ice making, freeze, heat straight drink machine; It comprises filter, storage tank, cold jar, heat jar, ice maker, compressor, condenser, be arranged in the cold courage evaporimeter of cold jar, be arranged in ice maker the sub warhead evaporimeter, be used to regulate and control the bistable electromagnetic valve of assignment system cryogen; Filter passes through the water inlet that pipeline connects storage tank, and the delivery port of storage tank is connected with cold jar, heat jar, ice maker respectively through pipeline; The refrigerant outlet of compressor connects condenser, bistable electromagnetic valve successively through pipeline; Bistable electromagnetic valve has two refrigerant outlets; Its two refrigerant outlets are connected with refrigerant inlet, the sub warhead evaporator refrigerant inlet of cold courage evaporimeter through capillary respectively, and the refrigerant outlet of the refrigerant outlet of cold courage evaporimeter, sub warhead evaporimeter is connected with the refrigerant inlet of compressor through pipeline respectively.
Be connected with device for drying and filtering between the refrigerant inlet of the refrigerant outlet of said condenser through pipeline and bistable electromagnetic valve.
The refrigerant outlet of said compressor is used to make ice cube to break away from the magnetic valve that deices of sub warhead evaporimeter through being connected with between pipeline and the sub warhead evaporator refrigerant inlet.
The refrigerant inlet of said compressor is connected with the fluid reservoir that is used to store, cushion cold-producing medium through refrigerant outlet, the sub warhead evaporator refrigerant of pipeline and cold courage evaporimeter between exporting.
Said ice maker includes housing, is provided with ice making box, ice storage frame in the housing, is connected with the skating plate between ice making box and the ice storage frame; The sub warhead evaporimeter is arranged in the ice making box; The top of ice making box is provided with water filling port, and housing is provided with the ice mouth that is communicated with the ice storage frame, and the ice mouth place is provided with the ice dispenser structure; The ice dispenser structure include block ice mouth go out to ice swivel plate, drive out ice swivel plate Unscrew or closed ice mouth go out to ice motor; Go out to ice swivel plate and be rotatably connected on the housing, go out to ice motor and be installed on the housing, go out to ice swivel plate and be connected with the output that goes out to ice motor.
Said housing is provided with the stirring mechanism that is used to stir ice cube, and stirring mechanism comprises that rolling disc and stirring are dynamo-electric, and the output that stirs motor is connected with rolling disc, and rolling disc is arranged in the ice storage frame.
Said filter comprises PP filter core, grain active carbon filter core, compression activated carbon cartridge, RO membrane cartridge, rearmounted activated carbon cartridge successively; The inlet of PP filter core is connected with running water pipe; The outlet of PP filter core is connected with the inlet of grain active carbon filter core through pipeline; The outlet of grain active carbon filter core is connected through the inlet of pipeline with the compression activated carbon cartridge; The outlet of compression activated carbon cartridge is connected with the inlet of RO membrane cartridge through pipeline, and the outlet of RO membrane cartridge is connected with the inlet of rearmounted activated carbon cartridge through pipeline, and the outlet of rearmounted activated carbon cartridge is connected with the inlet of storage tank through pipeline.
Be connected with the booster pump that is used for water is squeezed into the RO membrane cartridge through pipeline between the inlet of the outlet of said compression activated carbon cartridge and RO membrane cartridge.
Have in the said storage tank and be provided with the liquid-level switch that is used for controlled filter device energising system water or stops to make water.
Be connected with immersible pump through pipeline between said ice maker and the storage tank.
Beneficial effect of the present invention is: the present invention includes the water circuit system of being made up of filter, storage tank, cold jar, heat jar, ice maker; Reach the refrigeration system of forming by compressor, condenser, cold courage evaporimeter, sub warhead evaporimeter, bistable electromagnetic valve; Filter connects storage tank; The delivery port of storage tank is connected with cold jar, heat jar, ice maker respectively, water be divided into after through filtration independently three the tunnel heat respectively, refrigeration, ice making; The compressor refrigerant outlet connects condenser, bistable electromagnetic valve successively, and bistable electromagnetic valve is connected with cold courage evaporimeter, sub warhead evaporimeter through capillary respectively, and cold courage evaporimeter, sub warhead the evaporimeter refrigerant inlet of compressor respectively connect; During work, compressor is compressed into the refrigerant gas of high pressure, high temperature with cold-producing medium, and refrigerant gas is pumped to condenser; Refrigerant gas is passed to the lower air of temperature through radiator-grid with the part heat in the condenser, and the refrigerant gas that loses heat is condensed into refrigerant liquid, when ice making; The capillary pipe end of bistable electromagnetic opening of valves connexon bullet evaporimeter; Refrigerant liquid replenishes to the sub warhead evaporimeter through capillary, and refrigerant liquid absorbs the heat of ice making object and flashes to refrigerant gas in the sub warhead evaporimeter, when refrigeration; The bistable electromagnetic opening of valves connects the capillary pipe end of cold courage head evaporimeter; Refrigerant liquid replenish to be given cold courage evaporimeter through capillary, and the heat of refrigerant liquid absorption refrigeration object in cold courage evaporimeter and flash to refrigerant gas is when needs ice making simultaneously refrigeration; Bistable electromagnetic valve is opened the capillary pipe end of connexon bullet evaporimeter and cold courage evaporimeter simultaneously; Refrigerant liquid replenishes respectively through capillary and gives cold courage evaporimeter and sub warhead evaporimeter, so realizes ice making, refrigeration work, distributes through the regulation and control of bistable electromagnetic valve to cold-producing medium; To freeze and the separately independent control of ice making; Realized the autonomous selection of people, helped energy savings the machine-processed cold ice making work of straight drink, easy to use.
Description of drawings:
Fig. 1 is a structural representation of the present invention.
Fig. 2 is the structural representation of water circuit system of the present invention.
Fig. 3 is the structural representation of refrigeration system of the present invention.
Fig. 4 is the structural representation of ice maker of the present invention.
The specific embodiment:
Below in conjunction with accompanying drawing the present invention is further described; See shown in Fig. 1~4; Ice making, freeze, heat straight drink machine; Comprise filter 3, storage tank 1, cold jar 2, heat jars 4, ice maker 5, compressor 6, condenser 7, be arranged in cold jar 2 cold courage evaporimeter 8, be arranged in ice maker 5 sub warhead evaporimeter 9, be used to regulate and control the bistable electromagnetic valve 10 of assignment system cryogen; Filter 3, storage tank 1, cold jar 2, hot jar 4, ice maker 5 composition water circuit systems, compressor 6, condenser 7, cold courage evaporimeter 8, sub warhead evaporimeter 9, bistable electromagnetic valve 10 are formed refrigeration systems.
Filter 3 connects the water inlet of storage tank 1 through pipeline; The delivery port of storage tank 1 is connected with cold jars 2, heat jars 4, ice maker 5 respectively through pipeline; Water gets into storage tank 1 through filtering the back; Be divided into then independently three the tunnel heat respectively, refrigeration, ice making, three tunnel water routes are separate, and are easy to use.
Filter 3 comprises PP filter core 31, grain active carbon filter core 32, compression activated carbon cartridge 33, RO membrane cartridge 34, rearmounted activated carbon cartridge 35 successively; The inlet of PP filter core 31 is connected with running water pipe; The outlet of PP filter core 31 is connected with the inlet of grain active carbon filter core 32 through pipeline; The outlet of grain active carbon filter core 32 is connected through the inlet of pipeline with compression activated carbon cartridge 33; The outlet of compression activated carbon cartridge 33 is connected with the inlet of RO membrane cartridge 34 through pipeline, and the outlet of RO membrane cartridge 34 is connected with the inlet of rearmounted activated carbon cartridge 35 through pipeline, and the outlet of rearmounted activated carbon cartridge 35 is connected with the inlet of storage tank 1 through pipeline.Be connected with the booster pump 36 that is used for water is squeezed into RO membrane cartridge 34 through pipeline between the outlet of compression activated carbon cartridge 33 and the inlet of RO membrane cartridge 34.
Have in the storage tank 1 and be provided with the liquid-level switch 16 that is used for controlled filter device 3 energising system water or stops to make water.Be connected with immersible pump 15 through pipeline between ice maker 5 and the storage tank 1.
The operation principle of water circuit system is: when tap water was pressed in 0.1-0.4Mpa, low tension switch was opened, and running water is successively through PP filter core 31, grain active carbon filter core 32, compression activated carbon cartridge 33; Get into booster pump 36 through magnetic valve; Booster pump 36 is squeezed into RO membrane cartridge 34 with water, and RO membrane cartridge 34 has condensed water and pure water two outlets, and condensed water is discharged through magnetic valve; Pure water gets into storage tank 1 through rearmounted activated carbon cartridge 35 through float switch.Liquid-level switch 16 is arranged in the storage tank 1, when the liquid level of storage tank 1 reaches certain water level, the work of just can switching on of other appliance arrangement; When liquid level attained to a high place, booster pump 36, magnetic valve quit work, and water circuit system stops to make water.Two delivery ports are arranged at storage tank 1 bottom, and a delivery port is connected to heat jar 4; Another delivery port is divided into two ends by threeway, and an end is connected to cold jar 2, and the other end connects magnetic valve, carries out moisturizing to the ice making storage tank.Liquid-level switch is also arranged in the ice making storage tank, and this liquid-level switch is a biliquid position float switch, and upper floating ball is a level control switch for water, and following ball float is the water level protection switch.When the upper floating ball of liquid-level switch in the ice making storage tank during in low water level, magnetic valve is opened, and water is from the water inlet moisturizing of ice making storage tank; The upper floating ball of liquid-level switch is when high water level in the ice making storage tank, closed electromagnetic valve; When ball float on the liquid-level switch lost efficacy, following ball float worked, for the ice making storage tank after the first road water level switch lost efficacy, guarantee that ice making can operate as normal, this is double defencive function; In the ice making storage tank, also designed a gap, this function is to have a power failure when guaranteeing because of length, and ice cube slowly melts and thawing water is discharged water through the gap of ice making storage tank by drainage arrangement.
The refrigerant outlet of compressor 6 is connected with the refrigerant inlet of condenser 7 through pipeline; The refrigerant outlet of condenser 7 is connected with the refrigerant inlet of bistable electromagnetic valve 10 through pipeline; The refrigerant outlet of bistable electromagnetic valve 10 has first outlet, second outlet; First outlet, second outlet are connected with refrigerant inlet, sub warhead evaporimeter 9 refrigerant inlets of cold courage evaporimeter 8 through capillary 11 respectively, and the refrigerant outlet of cold courage evaporimeter 8, sub warhead evaporimeter 9 refrigerant outlets are connected with the refrigerant inlet of compressor 6 through pipeline respectively.
Be connected with device for drying and filtering 12 between the refrigerant inlet of the refrigerant outlet of condenser 7 through pipeline and bistable electromagnetic valve 10, be connected with the fluid reservoir 14 that is used to store, cushion cold-producing medium between the refrigerant outlet of the refrigerant inlet of compressor 6 through pipeline and cold courage evaporimeter 8, sub warhead evaporimeter 9 refrigerant outlets.
The refrigerant outlet of compressor 6 deices magnetic valve 13 through being connected with between pipeline and sub warhead evaporimeter 9 refrigerant inlets; Deicing magnetic valve 13 makes ice cube break away from sub warhead evaporimeter 9; In the time will deicing piece; Unlatching deices magnetic valve 13, and compressor 6 pumps to sub warhead evaporimeter 9 with high temperature, higher pressure refrigerant gas, and refrigerant gas transmits heat and makes ice cube break away from sub warhead evaporimeter 9 for sub warhead evaporimeter 9.
In refrigeration system when work,, compressor 6 is compressed into the refrigerant gas of high pressure, high temperature with cold-producing medium, and refrigerant gas is pumped to condenser 7; Refrigerant gas is passed to the lower air of temperature through radiator-grid with the part heat in the condenser 7, and the refrigerant gas that loses heat is condensed into refrigerant liquid, when ice making; Bistable electromagnetic valve 10 is opened capillary 11 ends of connexon bullet evaporimeter 9, and refrigerant liquid replenishes to sub warhead evaporimeter 9 through capillary 11, and refrigerant liquid absorbs the heat of ice making object and flashes to refrigerant gas in sub warhead evaporimeter 9; When refrigeration, bistable electromagnetic valve 10 is opened capillary 11 ends that connect cold courage head evaporimeter, and refrigerant liquid replenishes through capillary 11 and gives cold courage evaporimeter 8; The heat of refrigerant liquid absorption refrigeration object in cold courage evaporimeter 8 and flash to refrigerant gas; When needs ice making simultaneously refrigeration, bistable electromagnetic valve 10 is opened capillary 11 ends of connexon bullet evaporimeter 9 and cold courage evaporimeter 8 simultaneously, and refrigerant liquid replenishes respectively through capillary 11 and gives cold courage evaporimeter 8 and sub warhead evaporimeter 9; So realize ice making, refrigeration work; Regulation and control through 10 pairs of cold-producing mediums of bistable electromagnetic valve distribute, and will freeze and the separately independent control of ice making, have realized the autonomous selection of people to the machine-processed cold ice making work of straight drink; Help energy savings, easy to use.
Ice maker 5 includes housing 51; Be provided with ice making box 52, ice storage frame 53 in the housing 51; Be connected with skating plate 54 between ice making box 52 and the ice storage frame 53, be provided with the sub warhead evaporimeter 9 that is used to make ice cube in the ice making box 52, the top of ice making box 52 is provided with water filling port 55; Housing 51 is provided with ices motor; The output of icing motor is connected with ice making box 52, ices Electric Machine Control ice making box 52 water in the ice making box 52 is poured out, and the ice cube on the sub warhead evaporimeter 9 comes off and flows in the ice storage frame 53 through skating plate 54.
Housing 51 is provided with the ice mouth that is communicated with ice storage frame 53, and the ice mouth place is provided with ice dispenser structure 56, ice dispenser structure 56 include block ice mouth go out to ice swivel plate 561, drive out ice swivel plate 561 Unscrews or closed ice mouth go out to ice motor 562; Going out to ice swivel plate 561 is rotatably connected on the housing 51; Go out to ice motor 562 and be installed on the housing 51, go out to ice swivel plate 561 and be connected, when getting ice with the output that goes out to ice motor 562; Go out to ice motor 562 and control out ice swivel plate 561 Unscrew ice mouths; after getting the ice end, go out to ice motor 562 and control out ice swivel plate 561 rotating closed ice mouths, this through the traditional solenoid actuated mode of motor drive mode replacement; long service life, and can work long hours.
Housing 51 is provided with the stirring mechanism 57 that is used to stir ice cube; Stirring mechanism 57 comprises rolling disc 571 and stirs dynamo-electric 572; The output that stirs motor is connected with rolling disc 571, and rolling disc 571 is arranged in ice storage frame 53, when going out to ice; Stir motor-driven rolling disc 571 and rotate, the ice cube in the ice storage frame 53 flows out from ice mouth under the rotation of rolling disc 571.
In a word, the above only is preferred embodiment of the present invention, so all equivalences of doing according to the described structure of patent claim of the present invention, characteristic and principle change or modify, includes in patent claim of the present invention.