CN206037535U - Ice -making machine - Google Patents

Abstract

The utility model discloses an ice -making machine, it is including the base, a housing, system ice cavity, be equipped with the evaporimeter in the system ice cavity, system ice cavity below is equipped with the compressor, the adjacent department of compressor is equipped with the condenser, the evaporimeter is including the U -shaped pipe of transversely placing, the lower extreme downward bulge of U -shaped pipe and be formed with a plurality of branch pipes, the upper end and the U -shaped pipe intercommunication of branch pipe, the lower extreme of branch pipe seals, when operation of a compressor, the evaporimeter cooling is in order to make build -uping ice with fixed attention of branch pipe on every side, later utilize two -way solenoid valve to incite somebody to action the high -pressure steam of compressor output goes out to transmit to the evaporimeter, and the evaporimeter heaies up in order making the ice -cube on the branch pipe drop, and the adjacent department of system ice cavity is equipped with the material distributing cavity room, and there is default distance in ice -cube that the indoor ice chest that is equipped with of material distributing cavity, ice chest are used for the splendid attire to drop on by the branch pipe between the bottom of ice chest and the bottom of material distributing cavity room, and the bottom of ice chest is the grate structure to make the frozen water separation. The utility model discloses ice making speed is fast, machining efficiency is high, the ability is automatic separate the frozen water.

Description

A kind of ice machine

Technical field

This utility model is related to the small household appliances for manufacturing ice cube, more particularly to a kind of ice machine.

Background technology

Ice machine is a kind of refrigerating machine equipment that water is generated after vaporizer is by refrigeration system cooling ice, using band There is the refrigeration system of cold-producing medium, with water as raw material, produce ice in the energized state.Existing ice machine, majority are to put water It is placed in ice chest, multiple little lattice is set in ice chest, after water-setting build-ups ice, in each little lattice, ice cube, this system can be formed Cold mode is water to be lowered the temperature using cold air, thus ice making speed is slower, less efficient.

Utility model content

The technical problems to be solved in the utility model is, for the deficiencies in the prior art, there is provided a kind of ice making speed is fast, It is high in machining efficiency, can automatically by frozen water detached ice machine.

For solving above-mentioned technical problem, this utility model is adopted the following technical scheme that.

A kind of ice machine, which includes base, and the base is provided with housing, and the upper end of the housing is provided with top cover and turns over Lid, the top cover are fixedly connected with the casing, and described renovating is connected with top cover hinge, is provided with ice making chamber below the top cover, The ice making within the chamber is provided with vaporizer, and the ice making within the chamber is equipped with water, is provided with compressor below the ice making chamber, described The adjacent of compressor is provided with condenser, and the vaporizer and condenser are communicated in compressor, the pressure respectively by pipeline Two-way electromagnetic valve is additionally provided between the higher pressure steam outlet and vaporizer of contracting machine, and the vaporizer includes laterally disposed U-shaped Pipe, the lower end of the U-tube is downwardly projecting and be formed with multiple arms, the upper end of the arm is connected with U-tube, the arm Lower end closed, and the arm extended in the water of ice making chamber, and when compressor operation, the vaporizer cooling is making Congeal into ice around arm, make electricity on two-way electromagnetic valve afterwards, the high steam that the compressor is exported is transmitted to evaporation Device, the vaporizer heat up to make the ice cube on arm come off, and the adjacent of the ice making chamber is provided with sub-material chamber, described point Material within the chamber is provided with ice chest, and the ice chest is used for containing by the ice cube come off on arm, bottom and the sub-material chamber of the ice chest Bottom between there is predeterminable range, the bottom of the ice chest is in grate structure, to make frozen water separate.

Preferably, the ice making within the chamber is additionally provided with Chan Liao mechanisms, and the Chan Liao mechanisms include pulp-collecting box, the splicing Box is in semi-cylindrical shaped, and the pulp-collecting box is respectively arranged at two ends with plug, is respectively equipped with rotating shaft, two rotating shafts difference on two plugs Through the side wall of ice making chamber, and the rotating shaft is rotated with the side wall of ice making chamber and is connected, one of two rotating shafts be connected with for The drive mechanism for driving pulp-collecting box to rotate, the side of the pulp-collecting box is provided with shovel board, be provided between the shovel board and pulp-collecting box to Few two hinged components, the two ends of the hinged component respectively with shovel board and pulp-collecting box chain connection, the bottom of the hinged component is provided with Inverted triangle projection, the edge of the shovel board is outwardly block, and the block keeps out the first inclined side in inverted triangle projection Wall, the second sloped sidewall of the inverted triangle projection are kept out with the edge of pulp-collecting box, by the hinged component and inverted triangle projection When making pulp-collecting box promote shovel board to raise up, the shovel board is in downward-sloping state, and the ice side that goes out of the ice making chamber is formed with inwardly Recessed arc slopes, the shovel board are kept out in the arc slopes away from lateral edges of pulp-collecting box, when the drive mechanism drives When pulp-collecting box is rotated backward, the pulp-collecting box is turned over and drives shovel board to decline, to make pulp-collecting box that ice cube is poured in shovel board, Rear drive mechanism drive pulp-collecting box to rotate forward, the pulp-collecting box promotes shovel board to raise up to above arc slopes, and by ice cube Send ice making chamber.

Preferably, two limited blocks are provided with the top of the hinged component, the limited block is protruding upward and the two sets respectively In the two ends of hinged component, two limited blocks are respectively used to keep out shovel board and pulp-collecting box, to limit the flip angle of shovel board and pulp-collecting box Degree.

Preferably, the ice side that goes out of the ice making chamber is formed with the arc slopes for concaving, and opens up in the arc slopes There are multiple grooves, the interior outside connection of ice making chamber, the groove are oliquely downward inclined and extend to ice chest by the groove Lower end.

Preferably, the groove extends to the upper end of arc slopes, is in comb shaped structure to make the arc slopes.

Preferably, height of the height on the arc slopes top more than edge on ice chest.

Preferably, the dorsal part of the housing offers air-out window, and the condenser is located at compressor and the air outlet window Between mouthful, the condenser is provided with fan near the side of air-out window, and the air side of the fan is towards air-out window, described Condenser includes two standpipes, is provided with multiple capillary tubies being parallel to each other, between two neighboring capillary tube between two standpipes It is fixed with one of multiple fin, two standpipes and is provided with coolant inlet and cooling liquid outlet, the standpipe is formed with capillary tube The capillary pipeline for being bent by serpentine repeatedly, coolant inlet and cooling liquid outlet are divided into the two ends of capillary pipeline, the cooling Liquid entrance and cooling liquid outlet are communicated in compressor respectively by pipeline, during the compressor operation, produce on the condenser Raw heat is blowed to the dorsal part of housing by fan.

Preferably, two neighboring fin is in that positive " V " shape or inverted " v " are arranged.

Preferably, the base includes base plate, offers air intake window on the base plate, and the air intake window is located at pressure Below contracting machine, during the lower end of the air flow to compressor at the air intake window, the lower end for compressor provides heat, with The coolant not being gasified totally that vaporizer is returned is made to be gasified.

Preferably, water filling port is provided with the top of the ice making chamber, be provided with water pump, the water outlet of the water pump in the housing Mouth is communicated in the water filling port, is provided with liquid level sensor in the water filling port, and the liquid level sensor is used for when the water filling port Inside there is current one signal of telecommunication of out-of-date generation.

In ice machine disclosed in this utility model, low-pressure steam and high steam are successively delivered to into evaporation using compressor Device so that the water-setting around arm is first build-up ice by vaporizer, finisher heat up to make ice cube come off, as water directly connects Tactile vaporizer, therefore very fast into speed of icing, without waiting for the long period, substantially increases ice making efficiency, meanwhile, ice making chamber and Sub-material chamber is disposed adjacent so that the ice cube for preparing is stored, it is to avoid take the space of ice making chamber, therefore topology layout More rationally, additionally, the ice chest with grate structure is provided with sub-material within the chamber, effectively realize being automatically separated for frozen water, Contribute to user's pickup ice cube.

Description of the drawings

Axonometric charts of the Fig. 1 for ice machine.

Fig. 2 removes top cover for ice machine and the structure chart after renovating.

Cut-away views of the Fig. 3 for ice machine.

Axonometric charts of the Fig. 4 for vaporizer.

Top views of the Fig. 5 for vaporizer.

Fig. 6 is the sectional view in Fig. 5 along line A-A.

Axonometric charts one of the Fig. 7 for Chan Liao mechanisms.

Axonometric charts two of the Fig. 8 for Chan Liao mechanisms.

Fig. 9 is the enlarged drawing of part A in Fig. 8.

Axonometric charts three of the Figure 10 for Chan Liao mechanisms.

Figure 11 is the enlarged drawing of part B in Figure 10.

Figure 12 is the structure chart one of ice making chamber and sub-material chamber.

Figure 13 is the structure chart two of ice making chamber and sub-material chamber.

Figure 14 is the structure chart three of ice making chamber and sub-material chamber.

Axonometric charts of the Figure 15 for ice machine dorsal part visual angle.

Structural representations of the Figure 16 for condenser.

Partial exploded views of the Figure 17 for ice machine.

Cut-away views of the Figure 18 for another visual angle of ice machine.

Figure 19 is the structure chart four of ice making chamber and sub-material chamber.

Specific embodiment

With reference to the accompanying drawings and examples this utility model is described in more detail.

The utility model discloses a kind of ice machine, with reference to shown in Fig. 1 to Fig. 6, which includes base 1, on the base 1 Housing 10 is provided with, the upper end of the housing 10 is provided with top cover 11 and renovates 12, and the top cover 11 is fixedly connected with housing 10, described 12 are renovated with 11 chain connection of top cover, and the lower section of the top cover 11 is provided with ice making chamber 13, steaming is provided with the ice making chamber 13 Device 20 is sent out, and the ice making chamber 13 is built with water, is provided with compressor 30, the phase of the compressor 30 below the ice making chamber 13 Adjacent place is provided with condenser 40, and the vaporizer 20 and condenser 40 are communicated in compressor 30, the compression respectively by pipeline Two-way electromagnetic valve is additionally provided between the higher pressure steam outlet of machine 30 and vaporizer 20, and the vaporizer 20 includes laterally disposed U-tube 200, the lower end of the U-tube 200 is downwardly projecting and is formed with multiple arms 201, the upper end of the arm 201 and U-shaped Pipe 200 is connected, the lower end closed of the arm 201, and the arm 201 is extended in the water of ice making chamber 13, works as compression When machine 30 operates, the vaporizer 20 is lowered the temperature and congeal into ice around arm 201 with being made, and makes electricity on two-way electromagnetic valve afterwards, will The high steam of the output of the compressor 30 is transmitted to vaporizer 20, and the vaporizer 20 heats up to make the ice cube on arm 201 Come off, the adjacent of the ice making chamber 13 is provided with sub-material chamber 14, is provided with ice chest 15, the ice chest in the sub-material chamber 14 15 are used for containing by the ice cube come off on arm 201, exist pre- between the bottom of the ice chest 15 and the bottom of sub-material chamber 14 If distance, the bottom of the ice chest 15 is in grate structure, to make frozen water separate.

In above-mentioned ice machine, low-pressure steam and high steam are successively delivered to into vaporizer using compressor so that evaporation Water-setting around arm 201 is first build-up ice by device 20, finisher 20 heat up to make ice cube come off, due to water directly contact steam Device 20 is sent out, thus it is very fast into speed of icing, without waiting for the long period, ice making efficiency is substantially increased, meanwhile, 13 He of ice making chamber Sub-material chamber 14 is disposed adjacent so that the ice cube for preparing is stored, it is to avoid take the space of ice making chamber 13, therefore structure Layout is more reasonable, additionally, being provided with the ice chest 15 with grate structure in sub-material chamber 14, effectively realizes frozen water oneself It is dynamic to separate, contribute to user's pickup ice cube.

In practical application, in order to form ice cube, can be by 20 directly contact water of vaporizer, if 20 overall immersion water of vaporizer In, then its main part can congeal into ice, and cause some position long-time attachment ice of vaporizer, and then affect ice making effect Rate.

For solving these problems, the scheme that the present embodiment is adopted is that the roof of the U-tube 200 is into the arm 201 Be extended between the bottom of baffle plate 202, the baffle plate 202 and arm 201 and there is space, between two neighboring arm 201 away from It is 33mm from the length for 28mm, the arm 201.

Wherein, due to the presence of arm 201, ice cube can be produced during its refrigeration, so U-tube 200 need not be immersed in the water, is kept away Exempt to take up room because U-tube surface freezes, prevented from having undesirable effect ice-making effect, meanwhile, between two arms 201 Distance be set to 28mm, and the length of arm 201 is set to 33mm, therefore nugget size made by which is about width 20mm, length 30mm, the ice cube of the size can be used directly, without the need for crushing again, processing, additionally, this size is arranged also being Make between two arms 201, to reach minimum range, and then shorten the flow channel length of vaporizer 20, heat exchange length can be shortened simultaneously Reduce thermal losses.

On this basis, the vaporizer 20 also includes support 203, one end and the U-tube 200 of the support 203 Top is fixedly connected, and the other end of the support 203 is folded upward at and is fixed on the inwall of ice making chamber 13.Wherein, Support 203 is fixed on the top of U-tube 200 while support, fixation is played, also, and this set is in order to avoid accounting for With the space of 200 bottom of U-tube, therefore can further shorten the flow channel length of vaporizer 20.

Used as a kind of optimal way, a support arm of the U-tube 200 is provided with 4 arms 201, the U-tube 200 Another support arm be provided with 5 arms 201, the arm 201 on two support arms of the U-tube 200 is interspersed.Should be staggeredly Distribution is disposed to cause the distribution of arm 201 more reasonable.

In common automation equipment, rewinding, the mechanism of shovel material are usually the clutch end increase by drive part Individual scoop, scoop and drive part realize chain connection using rotating shaft, but this hinging manner, due to the upset row of scoop Journey is uncontrollable, and scoop easily excessively overturns, and causes scoop use.Especially for some small household appliances such as ice machine Speech, scoop needs to have certain upset ability to be combined with the chamber of the gradient, radian, if scoop by ice cube stop etc. because Element affects and occurs excessively to overturn, then cannot play a part of to shovel ice, and then affect the stability of ice machine.

In this regard, refer to Fig. 2, Fig. 7 to Figure 12, the scheme adopted by the present embodiment is for the ice making chamber 13 is interior also to be set You Chanliao mechanisms 50, the Chan Liao mechanisms 50 include pulp-collecting box 500, and the pulp-collecting box 500 is in semi-cylindrical shaped, and the pulp-collecting box 500 are respectively arranged at two ends with plug 501, are respectively equipped with rotating shaft 502 on two plugs 501, and two rotating shafts 502 are each passed through ice making The side wall of chamber 13, and the side wall of the rotating shaft 502 and ice making chamber 13 rotates and is connected, one of two rotating shafts 502 are connected with use In the drive mechanism 503 for driving pulp-collecting box 500 to rotate, the side of the pulp-collecting box 500 is provided with shovel board 504, the shovel board 504 with Be provided with least two hinged components 505 between pulp-collecting box 500, the two ends of the hinged component 505 respectively with shovel board 504 and pulp-collecting box 500 chain connections, the bottom of the hinged component 505 are provided with inverted triangle projection, and the edge of the shovel board 504 is outwardly block 506, the block 506 keeps out the first sloped sidewall 507 in inverted triangle projection, the second sloped sidewall of the inverted triangle projection 508 are kept out with the edge of pulp-collecting box 500, make pulp-collecting box 500 promote shovel board 504 by the hinged component 505 and inverted triangle projection When raising up, the shovel board 504 is in downward-sloping state, and the ice side that goes out of the ice making chamber 13 is formed with the arc slopes for concaving 130, the shovel board 504 is kept out in the arc slopes 130 away from lateral edges of pulp-collecting box 500, when 503 band of the drive mechanism When dynamic pulp-collecting box 500 is rotated backward, the pulp-collecting box 500 is turned over and drives shovel board 504 to decline, to make pulp-collecting box 500 incite somebody to action Ice cube is poured in shovel board 504, rear drive mechanism 503 drive pulp-collecting box 500 rotate forward, the pulp-collecting box 500 promote shovel board 504 raise up to above arc slopes 130, and ice cube is sent ice making chamber 13.

In above-mentioned Chan Liao mechanisms, when pulp-collecting box 500 is turned over, arcuately slopes 130 decline to drive shovel board 504, shovel There is the trend drawn close between plate 504 and pulp-collecting box 500, while the ice cube in pulp-collecting box 500 is poured in shovel board 504, work as pulp-collecting box When 500 promotion shovel boards 504 raise up, shovel board 504 is connected to arc slopes 130 in real time, in the presence of inverted triangle projection, shovel board 504 is in downward-sloping state, it is possible to ice cube is limited in the groove that shovel board 504 is formed with arc slopes 130, until Shovel board 504 reaches the top of arc slopes 130, and ice cube is sent ice making chamber 13 preferably.This utility model is in hinged component 505 In the presence of inverted triangle projection, shovel material is realized exactly and is discharged, improve the stability of the ice machine course of work.

In the present embodiment, in order to avoid shovel board 504 is significantly overturn to the top of pulp-collecting box 500, the top of the hinged component 505 Portion is provided with two limited blocks 509, and the limited block 509 is protruding upward and the two is respectively arranged on the two ends of hinged component 505, two limits Position block 509 is respectively used to keep out shovel board 504 and pulp-collecting box 500, to limit the flip angle of shovel board 504 and pulp-collecting box 500.

Further, in order to realize on-off control, a rotating shaft 502 away from drive mechanism 503 is provided with driving lever 510, The lateral wall of the ice making chamber 13 is provided with two microswitch, and the driving lever 510 is located between two microswitch, by institute State the cooperation of driving lever 510 and microswitch and control the upset stroke of pulp-collecting box 500.

Used as a kind of optimal way, the drive mechanism 503 is the mechanism that motor is engaged with reduction gear component.

In practical application, need to be separated with dividing plate between the ice-making compartment of ice machine and ice collection room, recycle shovel material machine Ice cube is delivered to ice collection room from ice-making compartment shovel by structure etc., but if dividing plate excessively rises steeply, is difficult to carry out shovel ice operation, meanwhile, by Water filling always is needed in ice-making compartment, and dividing plate has higher height, so the water level in ice making room will be caused too high, hold It is also easy to produce harmful effect.

Fig. 2, Figure 12 to Figure 14 is refer to, in the present embodiment, the ice side that goes out of the ice making chamber 13 is formed with and concaves Arc slopes 130, offer multiple grooves 131 in the arc slopes 130, the groove 131 is by ice making chamber 13 Outside connection, the groove 131 are oliquely downward inclined and extend to the lower end of ice chest 15.

In said structure, as the ice side that goes out of ice making chamber 13 is provided with arc slopes 130, and the arc slopes 130 Cave inward, so, Chan Liao mechanisms can arcuately slopes 130 and shovel ice upwards, so as to easily by ice cube from ice making Ice collection room is delivered in room, simultaneously as groove 131 is oliquely downward inclined, so in the presence of groove 131, can be by ice making cavity In room 13, unnecessary water is drained into below ice chest 15, and the top half of arc slopes 130 can still be played and stop ice cube Effect.By said structure, the effect for avoiding water level too high has been effectively played.

Used as a kind of optimal way, the groove 131 extends to the upper end of arc slopes 130, to make the arc slopes 130 In comb shaped structure.The advantage of this structure is easy to process, production and clears up.

In the present embodiment, the height on 130 top of arc slopes is more than the height on edge on ice chest 15.Its role is to, When ice cube reaches arc 130 top of slopes, can automatically fall in ice chest 15.

In the present embodiment, in order to sense to deicing condition, the top of the arc slopes 130 is provided with infrared tube biography Sensor, the transmitting terminal 132 and receiving terminal 133 of the infrared tube sensor are divided into the two ends of arc slopes 130.This is infrared right The effect of tube sensor is that have ice cube one signal of telecommunication of more out-of-date output when 130 top of arc slopes.

Ice machine is the refrigeration plant that compressor, condenser, vaporizer combine, and wherein, vaporizer is used for freezing into ice, And condenser then needs to distribute heat in time, being generally equipped with fan carries out air draft.In existing ice machine, typically by condenser Located at the left and right sides of housing, this results in, on the operating board in house kitchen, The hot blast of ice machine sidepiece can cause discomfort to human body, it is seen that the interior layout of product is not reasonable.Meanwhile, lead in prior art Frequently with the condenser of coiled structure, this condenser not only needs to coordinate the compressor of relatively high power, and caliber is larger, Coolant is wasted very, additionally, the condenser of coiled structure also has that radiating is difficult.

Refer to shown in Fig. 2, Figure 15 to Figure 17, in the present embodiment, the dorsal part of the housing 1 offers air-out window 100, The condenser 40 is located between compressor 30 and the air-out window 100, the condenser 40 near air-out window 100 Side is provided with fan 400, and towards air-out window 100, the condenser 40 includes two standpipes for the air side of the fan 400 401, multiple capillary tubies 402 being parallel to each other are provided between two standpipes 401, are fixed with many between two neighboring capillary tube 402 One of individual fin 403, two standpipes 401 are provided with coolant inlet 404 and cooling liquid outlet 405, the standpipe 401 and capillary Pipe 402 forms the capillary pipeline for being bent by serpentine repeatedly, and coolant inlet 404 and cooling liquid outlet 405 are divided into capillary pipeline Two ends, the coolant inlet 404 and cooling liquid outlet 405 are communicated in compressor 30, the compression respectively by pipeline When machine 30 operates, the heat produced on the condenser 40 blows to the dorsal part of housing 1 by fan 400.

In said structure, as condenser 40 and air-out window 100 are arranged at the dorsal part of ice machine, so working as fan During 400 operating, hot blast can be sent from the dorsal part of housing 10, it is to avoid hot blast blows to human body.Meanwhile, with regard to condenser 40 Concrete structure, which employs the mode that serpentine capillary pipeline coordinates multiple fin 403, not only saves coolant, and be easy to Condenser 40 is radiated, so as to ensure that condenser 40 being capable of steady operation.

Further, two neighboring fin 403 is in that positive " V " shape or inverted " v " are arranged.

In the present embodiment, offer with regard to casing part, the top of the base 1 and in the outside of the sub-material chamber 14 Multiple recesses 141, are provided with vertical jack 142 in the recess 141, and the bottom of the housing 1 extends internally multiple journal stirrups 101, the journal stirrup 101 is corresponded with recess 141, and the lower end of the journal stirrup 101 is provided with vertical latch 102, the latch 102 are inserted in jack 142.During installation, first the journal stirrup 101 on housing 10 can be slipped in recess 141, then make latch 102 Alignment, insertion jack 142 in so that the outside of ice machine without parts such as screws, be not only easy to assembling, also so that ice machine more It is attractive in appearance.

Further, for reinforced structure, the upper end of the journal stirrup 101 is provided with two reinforcements 103, the reinforcement 103 are connected to housing 1.

For domestic ice maker, its generally have miniaturization the characteristics of, cause vaporizer, condenser all smaller, Particularly vaporizer, which is lowered the temperature to water during coolant evaporation so that water-setting forms this, but in compressor Under effect, some not evaporating completely coolant can also with gasification coolant together be back to compressor, cause have liquid The coolant of state is back to compressor, and concentrates on the lower end of compressor, and Jing touching tests understand, the temperature of compressor lower end compared with It is low, the behavior in service of compressor can be affected after these liquid, gaseous coolant mixing so that compressor is damaged, and has a strong impact on system Cold efficiency.

In this regard, refer to shown in Figure 15, Figure 17 and Figure 18, in the present embodiment, the base 1 includes base plate 104, described Air intake window 105 is offered on base plate 104, and the air intake window 105 is located at below compressor 30, when the air intake window 105 During the lower end of the air flow at place to compressor 30, the lower end for compressor 30 provides heat, to make vaporizer 20 return not The coolant being gasified totally is gasified.

In said structure, in the presence of fan, air-flow is entered from the lower section of compressor 30, when air contact is to compressor When 30, due to the temperature change inside and outside compressor so that the liquid coolant for being back to compression motor spindle occurs second gasification, enters And reduce the load of compressor, it is to avoid compressor is damaged, and improves refrigerating efficiency, meanwhile, air-flow after compressor, gas The temperature of stream can be substantially reduced, and this colder air-flow is acted on through condenser 40 by fan, and condenser 40 is served preferably Cooling effect, it can be seen that, the present embodiment substantially increases heat exchange effect so that ice machine has more reliability and stable Property.

In actual applications, ice machine generally coordinates the structure water filling of smart seat using water pot, or directly adopts water pump Water filling, the water level that these water flooding regimes are easily caused ice making within the chamber are too high, or the situation of hydropenia occurs, and is susceptible to overflow Water, unloaded refrigeration etc., with certain potential safety hazard.

For solving these problems, in the present embodiment, Figure 19 is refer to, the top of the ice making chamber 13 is provided with water filling port 134, water pump is provided with the housing 1, the outlet of the water pump is communicated in the water filling port 134, sets in the water filling port 134 There is liquid level sensor, the liquid level sensor is used for having current one signal of telecommunication of out-of-date generation when the water filling port 134 is interior.

Wherein, in the presence of liquid level sensor so that ice machine can collect charging state constantly, and then avoid peace Full hidden danger.

The above is this utility model preferred embodiment, is not limited to this utility model, all in this practicality Modification, equivalent or improvement made in new technical scope etc., should be included in the model protected by this utility model In enclosing.

Claims (10)

1. a kind of ice machine, it is characterised in that include base, the base is provided with housing, and the upper end of the housing is provided with Top cover and renovate, the top cover is fixedly connected with the casing, and described renovating is connected with top cover hinge, is provided with system below the top cover Ice chamber, the ice making within the chamber are provided with vaporizer, and the ice making within the chamber is equipped with water, is provided with compression below the ice making chamber Machine, the adjacent of the compressor are provided with condenser, and the vaporizer and condenser are communicated in compressor respectively by pipeline, Two-way electromagnetic valve is additionally provided between the higher pressure steam outlet and vaporizer of the compressor, and the vaporizer includes laterally disposed U-tube, the lower end of the U-tube is downwardly projecting and is formed with multiple arms, and the upper end of the arm is connected with U-tube, institute The lower end closed of arm is stated, and the arm is extended in the water of ice making chamber, when compressor operation, the vaporizer drop Congeal into ice around Wen Yiling arms, make electricity on two-way electromagnetic valve afterwards, the high steam transmission that the compressor is exported To vaporizer, the vaporizer heats up to make the ice cube on arm come off, and the adjacent of the ice making chamber is provided with sub-material chamber, The sub-material within the chamber is provided with ice chest, and the ice chest is used for containing by the ice cube come off on arm, the bottom of the ice chest with point There is predeterminable range between the bottom of material chamber, the bottom of the ice chest is in grate structure, to make frozen water separate.

2. ice machine as claimed in claim 1, it is characterised in that the ice making within the chamber is additionally provided with Chan Liao mechanisms, the shovel Material mechanism includes pulp-collecting box, the pulp-collecting box is in semi-cylindrical shaped, and the pulp-collecting box is respectively arranged at two ends with plug, two plugs On be respectively equipped with rotating shaft, two rotating shafts are each passed through the side wall of ice making chamber, and the rotating shaft is rotated with the side wall of ice making chamber One of connection, two rotating shafts are connected with the drive mechanism for driving pulp-collecting box to rotate, and the side of the pulp-collecting box is provided with shovel board, Be provided with least two hinged components between the shovel board and pulp-collecting box, the two ends of the hinged component respectively with shovel board and pulp-collecting box hinge Connection, the bottom of the hinged component are provided with inverted triangle projection, and the edge of the shovel board is outwardly block, and the block is kept out In the first sloped sidewall of inverted triangle projection, the second sloped sidewall of the inverted triangle projection is kept out with the edge of pulp-collecting box, mat Pulp-collecting box is made to promote shovel board when raising up by the hinged component and inverted triangle projection, the shovel board is in downward-sloping state, the system The ice side that goes out of ice chamber is formed with the arc slopes for concaving, and the shovel board is kept out in the arc away from lateral edges of pulp-collecting box Slopes, when the drive mechanism drives pulp-collecting box to rotate backward, the pulp-collecting box is turned over and drives shovel board to decline, to make Pulp-collecting box is poured on ice cube in shovel board, rear drive mechanism drive pulp-collecting box to rotate forward, the pulp-collecting box promotes shovel board to raise up To above arc slopes, and ice cube is sent into ice making chamber.

3. ice machine as claimed in claim 2, it is characterised in that be provided with two limited blocks at the top of the hinged component, it is described Limited block is protruding upward and the two is respectively arranged on the two ends of hinged component, and two limited blocks are respectively used to keep out shovel board and pulp-collecting box, To limit the flip angle of shovel board and pulp-collecting box.

4. ice machine as claimed in claim 1, it is characterised in that the ice side that goes out of the ice making chamber is formed with the arc for concaving Shape slopes, offer multiple grooves in the arc slopes, the groove by the interior outside connection of ice making chamber, the groove to Obliquely downward inclines and extends to the lower end of ice chest.

5. ice machine as claimed in claim 4, it is characterised in that the groove extends to the upper end of arc slopes, so that make should Arc slopes are in comb shaped structure.

6. ice machine as claimed in claim 4, it is characterised in that the height on the arc slopes top is more than edge on ice chest Highly.

7. ice machine as claimed in claim 1, it is characterised in that the dorsal part of the housing offers air-out window, described cold Condenser is located between compressor and the air-out window, and the condenser is provided with fan, the wind near the side of air-out window Towards air-out window, the condenser includes two standpipes, is provided with multiple being parallel to each other between two standpipes for the air side of fan Capillary tube, be fixed with one of multiple fin, two standpipes between two neighboring capillary tube and be provided with coolant inlet and cooling Liquid is exported, and the standpipe forms the capillary pipeline for being bent by serpentine repeatedly, coolant inlet and cooling liquid outlet point with capillary tube Located at the two ends of capillary pipeline, the coolant inlet and cooling liquid outlet are communicated in compressor respectively by pipeline, described During compressor operation, the heat produced on the condenser is blowed to the dorsal part of housing by fan.

8. ice machine as claimed in claim 7, it is characterised in that two neighboring fin is in that positive " V " shape or inverted " v " set Put.

9. ice machine as claimed in claim 1, it is characterised in that the base includes base plate, offers on the base plate Air intake window, the air intake window below the compressor, the lower end of the air flow to compressor at the air intake window When, the lower end for compressor provides heat, is gasified with the coolant not being gasified totally for making vaporizer return.

10. ice machine as claimed in claim 1, it is characterised in that be provided with water filling port, the shell at the top of the ice making chamber Water pump is provided with vivo, and the outlet of the water pump is communicated in the water filling port, is provided with liquid level sensor in the water filling port, described Liquid level sensor is used for working as current one signal of telecommunication of out-of-date generation in the water filling port.