CN2495958Y - Full automatic ice making and ice shaving making apparatus - Google Patents

Abstract

The utility model relates to a full automatic ice making and ice shaving making apparatus which resolves the problem of single function, low automatic level, easy pollution in the process of manual ice shaving and ice carrying and inconvenient utilization of the prior ice making, ice shaving making and ice storing machine. The utility model consists of an adiabatic ice making chamber with a rotary ice shaving machine in the top three-door machine case, an ice storing chamber with a middle layer embedding ice storing chamber evaporator, a circulating water tank at lower layer, a supply-water pump, a compressor, a condenser, a cooler, and a control and indicating circuit board. The circle water supply system is connected with a water opening by a water purifying pot which is conversely arranged the machine tank and connects into a circular water tank through a ball cock, then is sent to the ice making chamber by a supply-water pump through the cooler in the inner wall of the ice making chamber through a water distribution tube and a water distribution inclined plane. Unfrozen left water flows into a water receiving groove and returns to the circular water tank through a return pipe. The refrigerating system is connected to the condenser through the compressor and connects in series a filter, a solenoid valve and a thermostatic expansion valve to the ice making evaporator to make ice through filtering and controlling, then connects the ice storing chamber evaporator and the cooler to return to compressor air return opening after refrigeration.

Description

Full-automatic ice making ice shaver

Technical field

Full-automatic ice making ice shaver is used for the physical treatment of water such as ice making, water ice, storage ice, relates to the general storage of human lives's food and food.

Background technology

The artificial ice machine that uses has the large scale industry refrigeration ice maker at present, smash, chisel or use with the ice shaver water ice again after making each factory of bulk artificial ice transportation and sales, laboratory, hospital, restaurant or restaurant, transportation or broken process of carrying out artificial water ice again are easy to pollute and bad storage like this, current ice-flowers producing machine that rises such as refrigerator with the refrigeration system ice making but with tap water supply by artificial stir-fry ice, no ice storing cabin stores and ices, equipment is still automatic inadequately, and the running water ice making makes the surplus water that freezes flow into that trench wastes, manually to fry ice also unhygienic.

The purpose of this utility model is design, disclose a kind of circulating water supply system that uses pure water, does not have the full-automatic ice making, water ice, storage ice maker of artificial intermediate link to pollute, promote health, the loss that reduces water, raising ice making efficient to reduce.

Summary of the invention

The utility model technical issues that need to address are to adopt the qualified water source of health, and design is uninterrupted, the automatically recycled water road of sealing is used for as water system that ice making and the pollution-free gap of design processing, the full-automatic refrigerated medium icehouse that closely is connected, water ice device, mechanism of ice storing cabin take conveniently with the sanitation and hygiene that guarantee ice making, water ice and when needing ice, the time spent can not store.

Implement structure of the present utility model and include cabinet, ice-making compartment and its water system, refrigeration system, water ice device, cutter knife rest and power source, ice storing cabin, control and indicating circuit.The technical scheme of dealing with problems is: adopting the qualified pure water of health is the water source, the ice making water system is connected by the supply channel filler of the commercially available pure water bung of upside-down mounting on cabinet end face mount pad with end face spiral shell dress, supply channel makes pure water lean on gravity current to cyclic water tank along stretching under the cabinet inwall and sealing up in the inlet opening, top that is bolted in the cyclic water tank tank wall, the mouth of pipe is installed ball-cock assembly with liquid level in the control cyclic water tank in the case, the tank wall bottom of cyclic water tank is welded with delivery port and with the water inlet that pipeline is connected to supply-water pump the pure water pressurization is pumped, the supply-water pump delivery port is connected to the cooler water inlet with pipeline again and makes the pure water cooling, and the delivery port of cooler is connected to the ice-making compartment water inlet for ice-making compartment system with pipeline again

Ice, the surplus water that does not freeze in the ice making takes back cyclic water tank by the ice-making compartment return pipe with pipeline.

Ice-making compartment of the present utility model is designed to drum shape, spiral helicine ice making evaporator is cast or be welded with to bucket wall interlayer, on the bucket wall outside, weld the inlet and the return-air mouth of ice making evaporator down, the circular upper end cover of ice-making compartment is inlayed with bucket wall upper end and is affixed with jackscrew, its center drilling also welds a bearing block, inlay graphite bearing or brasses in the seat, welding one ice-making compartment water inlet between center and periphery, the bottom end cover of ice-making compartment circle and bucket wall lower end are inlayed and are affixed with jackscrew, its center has also been designed bearing block and has been welded with three muscle and bottom end cover decorative cover, all the other are blank, inlay graphite bearing or brasses in the bearing block, also designing in the bottom end cover decorative cover has water receiving tank and ice-making compartment return pipe of boring welding to stretch out in outside the ice-making compartment.

In order to make ice making water be uniformly distributed in ice-making compartment bucket wall inner surface, the inner vertical shaft epimere of ice-making compartment is welded with the drip tray that rotates with vertical shaft by core, try to get to the heart of a matter drainage water distributor of boring welding as water-locator, the design of ice-making compartment bucket wall inner top side is added with the water distribution inclined-plane, the design of bucket wall inside lower end is processed with the receipts water inclined-plane that makes the surplus water income water receiving tank that does not freeze, adorn electrical heating wire to also designing in the ice-making compartment bucket wall on receivable water inclined-plane to be processed with in all electrical heating wire mounting grooves of ring, it is exported the heating of low pressure～36V by transformer and freezes and can not flow into water receiving tank and fall into ice storing cabin receiving the water inclined-plane to prevent surplus water, and electrical heating wire is by commercially available temperature detect switch (TDS) WK ₂Control, WK ₂Temperature probe be installed in the electrical heating wire mounting groove.

Its refrigeration system is compressed cold-producing medium by the air inlet that commercially available compressor compresses gas outlet welded pipe line is connected to commercially available air cooled condenser (abbreviation condenser), its liquid outlet is connected in series commercial filters with pipeline after being condensed into liquid, magnetic valve, heating power expansion valve reaches after filtration, thermal control is connected in the inlet of ice making evaporator with pipeline, discharge ice making and be connected to ice storing cabin's evaporator air inlet with pipeline at ice making evaporator spiral pipeline in the return-air mouth of ice making evaporator, after discharging refrigeration storage ice, its back-shaped pipeline is connected to the air inlet of commercially available cooler again, be connected to the return-air mouth of compressor after cooler inside spin pipeline is to the ice making water cooling with pipeline in its gas outlet, the sensor of its heating power expansion valve is mounted on the tube connector outer wall between cooler gas outlet and compressor return air mouth.

Water ice device of the present utility model is a power source by the commercially available reductor that is bolted in its installing rack, it is bolted in again on the upper end cover of ice-making compartment, the turning cylinder of reductor is connected with the vertical shaft upper end that rotates between the upper and lower end cap of ice-making compartment center graphite bearing or brasses by the connecting shaft pipe, two knife bars of vertical shaft middle part vertical axial welding, two knife bar ends are drilled with the slit-like through-holes that can the adjust water ice thickness zigzag water ice blade that wherein is spirally connected.

For making ice making, water ice, the pollution-free gap of storage ice, allow three's compactness be connected, cabinet design of the present utility model as adiabatic three-door refrigerator, on welding in three, in, following three layers of installing space, its end face be screwed with commercially available pure water barrel supply channel filler and with the supporting mount pad of pure water barrel, design has the ice cave of falling on upper strata and the middle level space bar, ice-making compartment is bolted on the ice cave edge screw that falls on cabinet upper strata with the footing through hole, setting-in back-shaped ice storing cabin evaporimeter and adiabatic medium be as ice storing cabin in the double wall of cabinet middle level, and cabinet lower floor is with footing screw be spirally connected cyclic water tank and commercially available supply-water pump, compressor, air cooled condenser, cooler and control and indicating circuit plate.

Control of the present utility model and indicating circuit are terminated at 220V 36V, 12V transformer by L, the N two of civil power～220V, the two termination bridge rectifier inputs of its secondary coil～12V, output direct current 12V is connected to the ice making on the cabinet panel, the double-pole of storage ice change-over switch K after the rectification, and direct current 12V is connected to cabinet panel ice making indicator lamp L when double-pole is thrown in the ice making position ₁And relay J ₁The line bag and pass through relay J ₃Normally closed contact, temperature detect switch (TDS) WK ₁Normal opened contact succeed electrical equipment J ₂The line bag, make cabinet panel ice making indicator lamp L ₁Light indication just in ice making, relay J ₁Work, J ₁The normal opened contact closure, compressor, air cooled condenser, magnetic valve are by closed J ₁Normal opened contact is connected to civil power～220V and starts, magnetic valve is opened, cold-producing medium makes ice-making compartment, ice storing cabin's cooling through heating power expansion valve throttling control back to the ice making evaporator feed flow, and when the ice-making compartment inner surface reached low temperature-20 ℃, its temperature probe was loaded on the interior temperature detect switch (TDS) WK of ice making locular wall ₁Engage relay J ₂Line bag two ends make supply-water pump, reductor, through J ₂Closed normal opened contact J ₂Be connected to～220V and start water supply, water is connected to the ice-making compartment water inlet through cooler cooling back with pipeline and flow to drip tray, water distributor, water distribution in ice-making compartment water distribution inclined-plane and inner surface and freezing, and the water ice blade that is decelerated the machine drive when icing to certain thickness scrapes the ice storing cabin that on the ice-making compartment the bottom end cover blank and ice cave that falls falls into the cabinet middle level.When the double-pole of change-over switch K was thrown in storage ice position, rectification direct current 12V was connected to the storage ice indicator lamp L on the cabinet panel ₂And by the temperature detect switch (TDS) WK of ice storing cabin ₃Normal opened contact be connected to relay J ₃Line bag two ends, make storage ice indicator lamp L ₂Light indication storage ice, temperature probe is loaded on the commercially available temperature detect switch (TDS) WK of ice storing cabin's wall ₃Thermorelay J according to storage ice needs ₃And the compressor that connects of normal opened contact, air cooled condenser, liquid supply electromagnetic valve electric current of make-and-break are to keep the storage ice temperature of ice storing cabin.

The beneficial effects of the utility model are:

1. the utility model uses pure water to be the water source; with circulating water supply system ice making automatic, sealing; cleaning, the health of ice making have been guaranteed; water in the periodical feeding process in the cyclic water tank gives the cold ice-making compartment ice making of delivering to again by the first by the road force feed of pump to cooler; 0 ℃ the surplus water of freezing in the ice-making compartment flows into water receiving tank and does not waste one and flow back to cyclic water tank again through return pipe along receiving the water inclined-plane; thereby save like this water source again energy savings improved ice making efficient; pure water barrel is anhydrous or more during water-exchanging bucket; need not to shut down, ice making water ice process can be carried out continuously automatically.

2. the utility model collects ice making, water ice, storage and ices in a case, the water ice device drives the water ice blade by reductor and rotates in the ice-making compartment of sealing, the ice storing cabin cabinet middle level of design under ice-making compartment, reasonable, the pollution-free gap of compact conformation, open middle level ice storing cabin door when needing ice and take conveniently, in the time of need not icing such as refrigerator can store water ice.

3. ice making, water ice, storage ice are automatic control, temperature control, and is easy to operate, indication is eye-catching, has avoided artificial participation, eliminated pollution, saved the labour.

Description of drawings:

Accompanying drawing 1 is full-automatic ice making ice shaver general assembly schematic diagram;

Accompanying drawing 2 is the ice-making compartment structural representation;

Accompanying drawing 3 is full-automatic ice making ice shaver cabinet schematic diagram;

Accompanying drawing 4 is control and indicating circuit figure.

Among each figure:

1. pure water barrel, 2. ball-cock assembly, 3. cyclic water tank, 4. cyclic water tank delivery port, 5. supply-water pump water inlet, 6. supply-water pump, 7. supply-water pump delivery port, 8. cooler water inlet, 9. cooler, 10. cooler delivery port, 11. ice-making compartment water inlets, 12. drip trays, 13. water distributor, 14. water distribution inclined-planes, 15. water ice blades, 16. jackscrew, 17. ice making evaporators, 18. electrical heating wires, the electrical heating wire mounting groove, 19. jackscrew, 20. receive water inclined-plane, 21. water receiving tanks, 22. muscle, 23. bearing blocks, 24. spheroidal graphite bearing or brasses, 25. vertical shaft, 26. ice-making compartment bottom end covers, 27. footing, 28. ice-making compartment return pipe, 29. the return-air mouth, 30. inlets, 31. ice-making compartment upper end covers, 32. screw, 33. installing rack, 34. connecting shaft pipes, 35. screws, 36. reductor, 37. spheroidal graphite bearing or brasses, 38. bearing blocks, 39. ice-making compartments, 40. ice storing cabin's evaporator air inlet, 41. ice storing cabin's evaporimeter, 42. ice storing cabin evaporimeter gas outlets, 43. cooler air inlets, 44. cooler gas outlet, 45. the compressor return air mouth, 46. compressors, 47. compressor outlets, 48. condenser air inlet, 49. condenser, 50. condenser liquid outlets, 51. filters, 52. magnetic valve, 53. heating power expansion valve, 54. cabinet upper stratas, 55. cabinet middle levels, ice storing cabin, 56. cabinet lower floor, 57. cabinets.

K. change-over switch, L ₁. ice making indicator lamp, L ₂. storage ice indicator lamp, J ₁. relay J ₁, J ₂. relay J ₂, J ₃. relay J ₃, WK ₁. temperature detect switch (TDS) WK ₁, WK ₂. temperature detect switch (TDS) WK ₂, WK ₃. temperature detect switch (TDS) WK ₃, the T. transformer.

The specific embodiment

Ice-making compartment of the present utility model (39) is a drum shape, spiral helicine ice making evaporator (17) is cast or be welded with to bucket wall interlayer, on the bucket wall outside, weld the inlet (30) and the return-air mouth (29) of ice making evaporator (17) down, ice-making compartment upper end cover (31) is inlayed with bucket wall upper end and is affixed with jackscrew (16), a bearing block (38) is welded at its center, interior edge spheroidal graphite bearing or brasses (37), welding ice-making compartment water inlet (11) between center and periphery, ice-making compartment bottom end cover (26) is inlayed with bucket wall lower end and is affixed with jackscrew (19), its center design has bearing block (23) and ice-making compartment bottom end cover (26) decorative cover to weld with three muscle (22), all the other blank works leak ice cave, inlay graphite bearing or brasses (24) in the bearing block (23), in ice-making compartment bottom end cover (26) decorative cover also design water receiving tank (21) is arranged and weld an ice-making compartment return pipe (28) and stretch out outdoor.

The inner vertical shaft of ice-making compartment (39) (25) epimere is welded with the drip tray (12) that rotates with vertical shaft (25) by core, a water distributor (13) is welded in the boring of trying to get to the heart of a matter, the design of ice-making compartment (39) bucket wall inner top side has water distribution inclined-plane (14), the design of bucket wall inside lower end is processed with the receipts water inclined-plane (20) that makes the surplus water income water receiving tank (21) that does not freeze, be processed with ring all electrical heating wire mounting grooves (18) to also designing in receivable water inclined-plane (20) ice-making compartment (39) the bucket wall, electrical heating wire (18) can not flow into water receiving tank (21) with transformer T output～36V heating to prevent that surplus water from freezing on receipts water inclined-planes (20), and electrical heating wire (18) is by temperature detect switch (TDS) WK ₂Control, WK ₂Temperature probe be installed in the electrical heating wire mounting groove.

Its water system is connected with end face supply channel filler by pure water barrel (1) bung of upside-down mounting on cabinet (57) end face mount pad, supply channel is bolted in cyclic water tank (3) tank wall top along stretching under cabinet (57) inwall and sealing up, its mouth of pipe is installed ball-cock assembly (2) with the interior liquid level of control cyclic water tank (3), cyclic water tank (3) tank wall bottom weld cycle water outlet of water tank (4) also connects supply-water pump water inlet (5) with pipeline, supply-water pump delivery port (7) connects cooler water inlet (8) with pipeline again, cooling ice making water aftercooler delivery port (10) is connected to ice-making compartment water inlet (11) with pipeline again, ice making in ice-making compartment (39), the surplus water of Jie Binging is not again in ice-making compartment return pipe (28) takes back cyclic water tank (3).

Its refrigeration system connects condenser air inlet (48) by compressor outlet (47) welded pipe line cold-producing medium is compressed, be condensed into liquid, condenser liquid outlet (50) serial connection filter (51), magnetic valve (17) (52), heating power expansion valve (53) makes liquid after filtration,, be connected to the inlet (30) of ice making evaporator after the thermal control with pipeline, after discharging ice making, its spiral pipeline is connected to ice storing cabin's evaporator air inlet (40) from its underpart return-air mouth (29), after back-shaped pipeline discharges refrigeration storage ice, ice storing cabin evaporimeter gas outlet (42) is connected to cooler air inlet (43) again and gives the cooling ice making water at its spiral pipeline, takes back to compressor return air mouth (45) from cooler gas outlet (44) at last.The sensor of heating power expansion valve (53) is mounted on the outer wall of cooler gas outlet (44) and compressor return air mouth (45) tube connector.

Water ice device of the present utility model is by the reductor (36) that is bolted in its installing rack (33) with screw (35) source that is used as power, installing rack (33) is bolted on the ice-making compartment upper end cover (31) with screw (32) again, the turning cylinder of reductor (36) is connected with vertical shaft (25) upper end that rotates between the upper and lower end cap of ice-making compartment center graphite bearing or brasses with connecting shaft pipe (34), two knife bars of middle part vertical axial welding of vertical shaft (25), two knife bar ends are drilled with the slit-like through-holes that can adjust water ice thickness, and zigzag water ice blade (15) is spirally connected in the hole.

Cabinet (57) design of full-automatic ice making ice shaver is as three-door refrigerator, its end face spiral shell dress pure water barrel (1) mount pad and supply channel filler, ice-making compartment (39) is bolted in cabinet upper strata (54) with footing (27), double wall setting-in back-shaped ice storing cabin's evaporimeter (41) and adiabatic medium in cabinet middle level (55) done ice storing cabin, in the cabinet lower floor (56) with footing be spirally connected cyclic water tank (3), supply-water pump (6), compressor (46), condenser (49), cooler (9), control and indicating circuit plate.

Its control indicating circuit is terminated at the primary coil two ends of 220V 36N, 12V transformer T by L, the N two of civil power～220V, its secondary～12V two termination bridge rectifiers two inputs, rectification output direct current 12V is connected to the double-pole of change-over switch K, when double-pole was thrown in the ice making position, direct current 12V was connected to ice making indicator lamp L ₁And relay J ₁The line bag also passes through relay J ₃Normally closed contact, temperature detect switch (TDS) WK ₁Normal opened contact be connected to relay J ₂Line bag two ends make the panel ice making indicator lamp L of cabinet (57) ₁Light relay J ₁Work, J ₁The normal opened contact closure, compressor (46), condenser (49), magnetic valve (52) are by closed J ₁Contact is connected to～220V and starting, make ice-making compartment (39), ice storing cabin (55) cooling, and when ice-making compartment (39) inner surface reached-20 ℃ of temperature, temperature probe was loaded on the temperature detect switch (TDS) WK in the ice making locular wall ₁Engage relay J ₂Make supply-water pump (6), reductor (36), through J ₂Contact is connected to～220V and start water supply, water flow to ice-making compartment water inlet (11), drip tray (12), water distributor (13), water distribution inclined-plane (14) and freezes at ice-making compartment (39) inner surface after cooler (9) cooling, be decelerated the blank and ice cave that falls that water ice blade (15) that machine (36) drives scrapes by ice-making compartment bottom end cover (26) when icing to certain thickness and fall into ice storing cabin (55).

When the double-pole of change-over switch K is thrown in storage ice position, the storage ice indicator lamp L of cabinet (57) panel ₂Light, temperature probe is loaded on the temperature detect switch (TDS) WK of ice storing cabin (55) wall ₃Thermorelay J according to ice storing cabin (55) needs ₃And the compressor (46) that connects through its normal opened contact, condenser (49), magnetic valve (52) electric current of make-and-break are to keep the storage ice temperature of ice storing cabin (55).

Claims (3)

1. a full-automatic ice making ice shaver includes ice maker, water ice device, ice storing cabin, control and indicating circuit, and its ice maker includes ice-making compartment, water system, refrigeration system, and the water ice device includes ice sword, knife rest and power source,

It is characterized in that: ice-making compartment is designed to drum shape, spiral helicine ice making evaporator is cast or be welded with to bucket wall interlayer, on the bucket wall outside, weld the inlet and the return-air mouth of ice making evaporator down, the circular upper end cover of ice-making compartment is inlayed with bucket wall upper end and is affixed with jackscrew, its center drilling also welds a bearing block, graphite bearing or brasses are inlayed in inside, welding one ice-making compartment water inlet between center and periphery, the bottom end cover of ice-making compartment circle and bucket wall lower end are inlayed and are affixed with jackscrew, its center has also been designed bearing block and has been welded with three muscle and bottom end cover decorative cover, all the other are blank, inlay graphite bearing or brasses in the bearing block, also designing in the bottom end cover decorative cover has water receiving tank and ice-making compartment return pipe of punching welding to stretch out in outside the ice-making compartment;

Its water system is connected with end face supply channel filler by the commercially available pure water bung of upside-down mounting on cabinet end face mount pad, supply channel is bolted in cyclic water tank tank wall top along stretching under the cabinet inwall and sealing up, its mouth of pipe is installed ball-cock assembly with liquid level in the control cyclic water tank, welding delivery port in cyclic water tank tank wall bottom also pressurizes to water with the water inlet that pipeline is connected to supply-water pump, the supply-water pump delivery port gives cold with the water inlet that pipeline is connected to cooler again to water, the delivery port of cooler is connected to the ice-making compartment water inlet with pipeline again, ice making in ice-making compartment, the surplus water of Jie Binging does not take back cyclic water tank from the ice-making compartment return pipe by pipeline again;

Its refrigeration system is connected to commercially available air cooled condenser air inlet by the compressor outlet welded pipe line cold-producing medium is compressed, be condensed into liquid, the condenser liquid outlet is connected in series commercial filters with pipeline, magnetic valve, heating power expansion valve makes liquid after filtration,, be connected in the inlet of ice making evaporator after the thermal control with pipeline, return-air mouth from the ice making evaporimeter after its spiral pipeline discharges ice making is connected to ice storing cabin's evaporator air inlet with pipeline, after discharging refrigeration, its back-shaped pipeline is connected to the air inlet of commercially available cooler again, be connected to the return-air mouth of compressor at last with pipeline in its gas outlet through cooler spiral pipeline, the sensor of its heating power expansion valve is mounted on the tube connector outer wall between cooler gas outlet and compressor return air mouth;

The water ice device is by the commercially available reductor that is bolted in its installing rack source that is used as power, be bolted in its installing rack on the upper end cover of ice-making compartment, the reductor turning cylinder is connected with the vertical shaft upper end that rotates between the upper and lower end cap of ice-making compartment center graphite bearing or brasses by the connecting shaft pipe, two knife bars of vertical shaft middle part vertical axial welding, two knife bar ends are drilled with the slit-like through-holes that can the adjust water ice thickness zigzag water ice blade that wherein is spirally connected;

Cabinet design as adiabatic three-door refrigerator, interior welds upper, middle and lower-ranking installing space, its end face be equipped with commercially available pure water barrel supply channel filler and with the supporting mount pad of pure water barrel, design has the ice cave of falling on upper strata and the middle level dividing plate, ice-making compartment is bolted in the cabinet upper strata with the footing through hole and falls on the screw of ice cave limit, setting-in back-shaped ice storing cabin evaporimeter and adiabatic medium be as ice storing cabin in the double wall of cabinet middle level, and lower floor is with footing screw be spirally connected cyclic water tank and commercially available supply-water pump, compressor, air cooled condenser, cooler, control and indicating circuit plate;

Its control and indicating circuit are terminated at 220V36V, 12V transformer by L, the N two of civil power～220V, the two termination bridge rectifier inputs of its secondary coil～12V, output direct current 12V is connected to the double-pole of ice making, storage ice change-over switch K after the rectification, when double-pole was thrown in the ice making position, direct current 12V was connected to cabinet panel ice making indicator lamp L ₁And relay J ₁The line bag also passes through J ₃Normally closed contact, temperature detect switch (TDS) WK ₁Normal opened contact succeed electrical equipment J ₂The line bag, ice making this moment indicator lamp L ₁Bright, relay J ₁Work, J ₁The normal opened contact closure, compressor, air cooled condenser, liquid supply electromagnetic valve are by closed J ₁Normal opened contact is connected to civil power～220V and starts, ice-making compartment, ice storing cabin's cooling, and when the ice-making compartment inner surface reached-20 ℃ of temperature, its temperature probe was loaded on the temperature detect switch (TDS) WK in the ice making locular wall ₁Engage relay J ₂, supply-water pump, reductor are through J ₂Closed normal opened contact is connected to～220V and start water supply, water freezes at the ice-making compartment inner surface to ice-making compartment water inlet, drip tray, water distributor, water distribution inclined-plane after the cooler cooling, and the water ice blade that the machine that is decelerated when icing to certain thickness drives scrapes by blank on the ice-making compartment bottom end cover and the ice cave that falls and falls in the ice storing cabin in middle level;

When the double-pole of change-over switch K was thrown in storage ice position, cabinet panel storage ice indicator lamp was bright, and temperature probe is loaded on the temperature detect switch (TDS) WK of ice storing cabin's wall ₃Thermorelay J according to storage ice needs ₃And the compressor that connects of normal opened contact, air cooled condenser, magnetic valve electric current of make-and-break are to keep the storage ice temperature of ice storing cabin.

2. full-automatic ice making ice shaver according to claim 1 is characterized in that: the inner vertical shaft epimere of its ice-making compartment is welded with the drip tray that rotates with vertical shaft by core, and the boring welding water distributor of trying to get to the heart of a matter is as water-locator.

3. full-automatic ice making ice shaver according to claim 1 is characterized in that: its ice-making compartment bucket wall inner top side design is processed with and makes ice making water be uniformly distributed in the water distribution inclined-plane of inner surface, the inside lower end design is processed with the receipts water inclined-plane that makes the surplus water income water receiving tank that does not freeze, design in the receivable water inclined-plane ice-making compartment bucket wall is processed with all electrical heating wire mounting grooves of ring, interior dress electrical heating wire is heated by transformer output～36V, prevent to receive the icing surplus water that does not freeze that makes in water inclined-plane and can not flow into water receiving tank and fall into ice storing cabin, electrical heating wire is by temperature detect switch (TDS) WK ₂Control, WK ₂Temperature probe be installed in the electrical heating wire mounting groove.

Images