CN206504511U - Ice maker - Google Patents
Ice maker Download PDFInfo
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- CN206504511U CN206504511U CN201720152619.3U CN201720152619U CN206504511U CN 206504511 U CN206504511 U CN 206504511U CN 201720152619 U CN201720152619 U CN 201720152619U CN 206504511 U CN206504511 U CN 206504511U
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Abstract
The utility model is related to a kind of ice maker, including:Subcooled water provides mechanism, ice pellets transformation mechanism, extruding conveying mechanism and ice cube mould.The output end that the input of the ice pellets transformation mechanism provides mechanism with the subcooled water is connected, and the ice pellets transformation mechanism is used to subcooled water changing into ice pellets.The ice cube mould is provided with more than one every road.The input of the extruding conveying mechanism is used to receive the ice pellets that the output end of the ice pellets transformation mechanism is exported, and the output end of the extruding conveying mechanism is connected with described every road, and the extruding conveying mechanism is described every in road for ice pellets extruding to be pushed to.Above-mentioned ice maker, deiced without carrying out heating to ice making mould, but directly form ice cube by the way that ice pellets is sent in ice cube mould Zhong Ge roads, and ice cube is released by ice cube mould by the ice pellets subsequently sent into, so as to reach the effect of continuous ice-making, ice making efficiency is greatly improved.
Description
Technical field
The utility model is related to ice cube manufacture technology field, more particularly to a kind of ice maker.
Background technology
Traditional ice cube is made by being cooled in the water in ice making mould, to form ice cube in ice making mould,
Then ice making mould is heated again, the ice cube in ice making mould and ice making mould housing could be separated, so that
Complete ice cube to make, ice making is less efficient.
Utility model content
Based on this, it is necessary to overcome the defect of prior art there is provided a kind of ice maker, it need not can be heated,
Just it can realize and deice, ice making efficiency is higher.
Its technical scheme is as follows:A kind of ice maker, including:Subcooled water provides mechanism and ice pellets transformation mechanism, the ice
The output end that input and the subcooled water of grain transformation mechanism provide mechanism is connected, the ice pellets transformation mechanism for incited somebody to action
Cold water changes into ice pellets;Ice cube mould and extruding conveying mechanism, the ice cube mould is provided with more than one every road, institute
Stating the input of extruding conveying mechanism is used to receive the ice pellets that the output end of the ice pellets transformation mechanism is exported, and the extruding is defeated
The output end of mechanism is sent to be connected with described every road, the extruding conveying mechanism is described every road for ice pellets extruding to be pushed to
In.It is understood that every the size on road perpendicular to the section of ice pellets conveying direction can be according to the actual requirements ice cube it is big
Small respective design, the length every road can also be changed into according to ice pellets the speed of ice cube, the size of ice cube and ice pellets push-in every
Speed respective design in road.
Above-mentioned ice maker, after subcooled water offer mechanism provides subcooled water into ice pellets transformation mechanism, ice pellets conversion
Subcooled water can be changed into ice pellets by mechanism;The ice pellets that extruding conveying mechanism is again exported ice pellets transformation mechanism is carried out at extruding
Reason, and push to ice cube mould every in road;Ice pellets is in the ice cube energy quilt every can quickly form ice cube in road, formed
The ice pellets subsequently entered is sequentially released every road.In this way, above-mentioned ice maker, is deiced without carrying out heating to ice making mould, and
It is directly to form ice cube by the way that ice pellets is sent in ice cube mould Zhong Ge roads, and by the ice pellets subsequently sent into by ice
Block releases ice cube mould, and so as to reach the effect of continuous ice-making, ice making efficiency is greatly improved.
In one of the embodiments, the extruding conveying mechanism includes torque output mechanism, screw rod and is rotatably arranged
Sleeve outside the screw rod, the torque output mechanism is connected with the screw drive, and described sleeve one end is provided with and institute
The corresponding feeding mouth of the output end of ice pellets transformation mechanism is stated, the sleeve other end is provided with discharging opening, the ice cube shaping mould
Tool is arranged on the discharging opening.The ice pellets of the output end output of ice pellets transformation mechanism enters ice cube mould by feeding mouth
In after, torque output mechanism drive screw turns extrude the ice pellets of entrance to push to discharging opening, and enter ice cube shaping mould
In Ju Ge roads.In the present embodiment, screw rod can be Variable pitch screw, after Variable pitch screw is rotated, and can realize and ice pellets is preferably squeezed
Press effect.
In one of the embodiments, the sleeve bottom is offered is additionally provided with below several water holes, the sleeve
Water receiving container, the water receiving container is connected to the subcooled water by the first pipeline and provides mechanism.Because ice pellets is sent to sleeve
During, it can attach in the water feeding sleeve without icing.The water hole of sleeve bottom being capable of not having sleeve inner
The water of icing is emitted into water receiving container, so avoids the water not frozen from being frozen in sleeve, and the water not frozen can enter
Enter to water receiving container, cold water is sent to by the first pipeline by water receiving container is provided in mechanism, realizes frozen water one cycle.
In one of the embodiments, the subcooled water, which provides mechanism, includes storage tank and heat-exchanger rig, the storage tank
It is connected by second pipe with the heat-exchanger rig, the heat-exchanger rig is connected to the ice pellets transforming machine by the 3rd pipeline
Structure.Water in storage tank enters in heat-exchanger rig by second pipe change being thermally treated resulting in subcooled water, and subcooled water passes through again
3rd pipeline, which is sent in ice pellets transformation mechanism, carries out conversion processing.
In one of the embodiments, the storage tank is connected with the pipeline that adds water, and the pipeline that adds water, which is provided with, to be used to control
Whether the controlling switch added water into the storage tank, be provided with liquid level sensor in the storage tank, the liquid level sensor with
The controlling switch is electrically connected with, and it is high that the controlling switch is used for the liquid level in the liquid level sensor detects the storage tank
Preset time period is opened when degree is less than or equal to default liquid level.In this way, the increase measured with icing, the water level of storage tank is not
Disconnected reduction, when the liquid level that liquid level sensor is detected in storage tank is less than default liquid level, controlling switch is opened dynamic
Make, the pipeline that adds water is just from water-refilling operation in trend storage tank.
In one of the embodiments, the 3rd pipeline is provided with ice crystal preventing transmission device, and the ice crystal preventing transmission device is used
Ice pellets produced by preventing in the ice pellets transformation mechanism is flowed into the heat-exchanger rig.By being set on the 3rd pipeline
After ice crystal preventing transmission device, the ice pellets produced by just can avoiding in ice pellets transformation mechanism is flowed into heat-exchanger rig so that ensured
The heat transfer effect of heat-exchanger rig.
In one of the embodiments, described ice maker also includes control module, the second pipe or described the
Water pump is provided with three pipelines, the 3rd pipeline is provided with the first temperature sensor, the control module and the water pump, institute
State the electric connection of the first temperature sensor;The control module is used in first temperature sensor senses to the described 3rd pipe
Water temperature in road increases the operating power of the water pump when water temperature is preset less than or equal to first, and in the described first temperature
Degree sensor sensing reduces the work of the water pump when water temperature is preset greater than or equal to second to the water temperature in the 3rd pipeline
Power.In this way, water pump provides power, the water in storage tank is entered in heat-exchanger rig and be converted to subcooled water and rapidly enter
Into ice pellets transformation mechanism.In addition, the first temperature sensor can sense the water temperature in the 3rd pipeline, and according in the 3rd pipeline
Water temperature accordingly controls the operating power of water pump, when the first temperature sensor senses are less than or waited to the water temperature in the 3rd pipeline
Increase the operating power of water pump when the first default water temperature, such water pump will cause the water-carrying capacity for entering heat-exchanger rig to increase,
And reduce water pump when the first temperature sensor senses to the water temperature in the 3rd pipeline are greater than or equal to the second default water temperature
Operating power, the water-carrying capacity that such water pump will to enter heat-exchanger rig reduces, just can so control in the 3rd pipeline
Water temperature be between the first default water temperature and the second default water temperature so that the temperature of subcooled water meets preset requirement.It can manage
Solution, the first default water temperature can carry out relative set according to the actual requirements with the second default water temperature.It is general, can be by the
One default water temperature is set to -2.5 degrees Celsius, and the second default water temperature is set into -1.5 degrees Celsius.
In one of the embodiments, the heat-exchanger rig includes plate type heat exchanger, gas-liquid separator, compressor, condensation
Device, cooling fan, compensator and electric expansion valve, the gas-liquid separator, the compressor, the condenser, the balance
Tank and the electric expansion valve are sequentially connected, and the cooling fan is arranged on the condenser;The plate type heat exchanger is changed
Thermal medium outlet end is connected with the gas-liquid separator, heat transferring medium arrival end and the electronic expansion of the plate type heat exchanger
Valve is connected, and the water inlet end of the plate type heat exchanger is connected with the second pipe, the water side of the plate type heat exchanger and institute
The 3rd pipeline is stated to be connected.Due to using the subcooled water for the formation that exchanged heat in plate type heat exchanger, plate type heat exchanger generally not freeze
Block pipeline.Wherein, the subcooled water that plate type heat exchanger is preferentially selected in shallow close plate-type heat exchanger, shallow close plate-type heat exchanger is not
It can freeze and block internal pipeline.
In one of the embodiments, described ice maker also includes control module, the heat exchange of the plate type heat exchanger
The pipeline that media outlet end is connected with the gas-liquid separator is provided with second temperature sensor, the control module and the electricity
Sub- expansion valve, the second temperature sensor are electrically connected with;The control module is used for according to the second temperature sensor sense
The heat exchange medium temperature size for the heat transferring medium port of export answered controls the aperture size of the electric expansion valve.Control module
The heat exchange medium temperature size at the heat transferring medium port of export detected according to second temperature sensor, accordingly adjusts electronic expansion
After the aperture size of valve, the heat transfer effect between the heat transferring medium in plate type heat exchanger and water just can be controlled, so as to control
The temperature of subcooled water is in preset range.
In one of the embodiments, the ice pellets transformation mechanism includes ice slurry generator, ultrasonic wave energy transducer head and ultrasound
Wave producer, the supersonic generator is connected with the ultrasonic wave energy transducer head, and the ultrasonic wave energy transducer head is sent out with the ice slurry
Raw device is connected.Ice slurry generator can make it that subcooled water changes into ice slurry, and supersonic generator by the ultrasonic wave of generation through ultrasound
Ripple transducing head is fed through in ice slurry generator, and constantly the subcooled water and ice slurry in ice slurry generator are shaken by ultrasonic wave
It is dynamic so that ice slurry changes into ice pellets.
Brief description of the drawings
Fig. 1 is the structural representation of the ice maker described in the embodiment of the utility model one;
Fig. 2 is the structural representation of the ice maker described in another embodiment of the utility model;
Fig. 3 is the structural representation of the ice maker described in the another embodiment of the utility model;
Fig. 4 is the structural representation of the ice maker described in the utility model another embodiment.
10th, subcooled water provides mechanism, and 11, storage tank, 111, add water pipeline, 112, controlling switch, 113, liquid level sensor,
12nd, heat-exchanger rig, 121, plate type heat exchanger, 122, gas-liquid separator, 123, compressor, 124, condenser, 125, cooling fan,
126th, compensator, 127, electric expansion valve, 128, second temperature sensor, 13, second pipe, the 14, the 3rd pipeline, 141, ice crystal
Preventing transmission device, the 142, first temperature sensor, 20, ice pellets transformation mechanism, 21, ice slurry generator, 22, ultrasonic wave energy transducer head, 23,
Supersonic generator, 30, extruding conveying mechanism, 31, torque output mechanism, 32, screw rod, 33, sleeve, 331, water hole, 332,
Water receiving container, the 333, first pipeline, 40, ice cube mould, 41, every road, 50, ice cube receive container, 60, water pump, 70, ice
Grain, 80, ice cube.
Embodiment
To enable above-mentioned purpose of the present utility model, feature and advantage more obvious understandable, below in conjunction with the accompanying drawings to this
The embodiment of utility model is described in detail.Elaborate many details in order to abundant in the following description
Understand the utility model.But the utility model can be implemented with being much different from other manner described here, this area
Technical staff can do similar improvement in the case of without prejudice to the utility model intension, therefore the utility model is not by following public affairs
The limitation for the specific embodiment opened.
In description of the present utility model, it is to be understood that term " first ", " second " are only used for describing purpose, and
It is not intended that indicating or implying relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define
At least one this feature can be expressed or be implicitly included to the feature of " first ", " second ".In description of the present utility model,
" multiple " are meant that at least two, such as two, three etc., unless otherwise specifically defined.
, can be with when an element is considered as " connection " another element it should be noted that in embodiment described above
It is directly to another element or may be simultaneously present intermediary element.On the contrary, when element for be referred to as " direct " with it is another
When element is connected, in the absence of intermediary element.
As shown in figure 1, a kind of ice maker described in the utility model embodiment, including:Subcooled water provides mechanism 10, ice
Grain transformation mechanism 20, extruding conveying mechanism 30 and ice cube mould 40.
The output end that the input of the ice pellets transformation mechanism 20 provides mechanism 10 with the subcooled water is connected, the ice
Grain transformation mechanism 20 is used to subcooled water changing into ice pellets 70.Wherein, subcooled water refers to water of the temperature below 0 degree Celsius,
Generally from the water that temperature is -2 degrees Celsius.The ice cube mould 40 is provided with more than one every road 41.The extruding conveying
The input of mechanism 30 is used to receive the ice pellets 70 that the output end of the ice pellets transformation mechanism 20 is exported, the extruding conveyer
The output end of structure 30 is connected with described every road 41, the extruding conveying mechanism 30 be used for by the extruding of ice pellets 70 push to it is described every
In road 41.It is understood that can be according to the actual requirements every the size on road 41 perpendicular to the section of ice pellets conveying direction
The size respective design of ice cube 80, the length every road 41 can also be changed into according to ice pellets 70 speed of ice cube 80, ice cube 80 it is big
Small and ice pellets 70 is pushed into every the speed respective design in road 41.
Above-mentioned ice maker, after subcooled water offer mechanism 10 provides subcooled water into ice pellets transformation mechanism 20, ice pellets
Transformation mechanism 20 can change into subcooled water ice pellets 70;The ice pellets that extruding conveying mechanism 30 is again exported ice pellets transformation mechanism 20
70 carry out extrusion process, and push to ice cube mould 40 every in road 41;Ice pellets 70 in road 41 every can quickly form
Ice cube 80, the ice pellets 70 that the ice cube 80 formed can subsequently be entered sequentially is released every road 41.In this way, above-mentioned ice maker,
Deiced without carrying out heating to ice making mould, but directly by the way that ice pellets 70 is sent into the Zhong Ge roads 41 of ice cube mould 40
Middle formation ice cube 80, and ice cube 80 is released by ice cube mould 40 by the ice pellets 70 subsequently sent into, it is continuous so as to reach
The effect of ice making, ice making efficiency is greatly improved.
In the present embodiment, described ice maker also includes ice cube and receives container 50.Ice cube receives container 50 and is arranged on ice
The output end of block forming die 40, ice cube 80 falls to ice cube and received in container 50 after being extruded, receiving container 50 by ice cube enters
Row collection is handled.
In addition, the extruding conveying mechanism 30 includes torque output mechanism 31, screw rod 32 and is rotatably set in the spiral shell
Sleeve 33 outside bar 32.The torque output mechanism 31 is connected with the screw rod 32.Described one end of sleeve 33 be provided with
The corresponding feeding mouth of the output end of the ice pellets transformation mechanism 20, the other end of sleeve 33 is provided with discharging opening.The ice cube
Mould 40 is arranged on the discharging opening.The ice pellets 70 of the output end output of ice pellets transformation mechanism 20 is entered by feeding mouth
After in ice cube mould 40, the drive screw 32 of torque output mechanism 31, which is rotated, makes the ice pellets extruding of entrance push to discharging opening,
And enter ice cube mould 40 every in road 41.In the present embodiment, screw rod 32 can be Variable pitch screw 32, Variable pitch screw 32
After rotation, it can realize to the preferable squeezing effect of ice pellets 70.
In addition, referring to Fig. 2, the bottom of the sleeve 33 offers several water holes 331, the lower section of sleeve 33 is also set
There is water receiving container 332.The water receiving container 332 is connected to the subcooled water by the first pipeline 333 and provides mechanism 10.Due to ice
During grain 70 is sent to sleeve 33, it can attach in the water feeding sleeve 33 without icing.The water hole of the bottom of sleeve 33
331 can be emitted into the water without icing inside sleeve 33 in water receiving container 332, so avoid the water not frozen in set
Frozen in cylinder 33, and the water not frozen can enter water receiving container 332, be sent into by water receiving container 332 by the first pipeline 333
There is provided to cold water in mechanism, realize frozen water one cycle.
Specifically, the subcooled water, which provides mechanism 10, includes storage tank 11 and heat-exchanger rig 12.The storage tank 11 passes through
Second pipe 13 is connected with the heat-exchanger rig 12.The heat-exchanger rig 12 is connected to the ice pellets by the 3rd pipeline 14 and converted
Mechanism 20.Water in storage tank 11 enters in heat-exchanger rig 12 by second pipe 13 change being thermally treated resulting in subcooled water, mistake
Cold water is sent in ice pellets transformation mechanism 20 by the 3rd pipeline 14 carries out conversion processing again.
In addition, referring to Fig. 3, the storage tank 11 is connected with the pipeline 111 that adds water.The pipeline 111 that adds water, which is provided with, to be used for
Control whether the controlling switch 112 added water into the storage tank 11.Liquid level sensor 113, institute are provided with the storage tank 11
Liquid level sensor 113 is stated to be electrically connected with the controlling switch 112.The controlling switch 112 is used in the liquid level sensor
113 detect liquid level in the storage tank 11 opens preset time period less than or equal to when presetting liquid level.In this way, with
The increase of icing amount, the water level of storage tank 11 is constantly reduced, when the liquid level that liquid level sensor 113 is detected in storage tank 11 is high
When degree is less than default liquid level, the breakdown action of controlling switch 112, the pipeline 111 that adds water just is grasped from moisturizing in trend storage tank 11
Make.
Further, the 3rd pipeline 14 is provided with ice crystal preventing transmission device 141.The ice crystal preventing transmission device 141 is used for
Ice pellets 70 produced by preventing in the ice pellets transformation mechanism 20 is flowed into the heat-exchanger rig 12.By in the 3rd pipeline 14
After upper setting ice crystal preventing transmission device 141, the ice pellets 70 produced by just can avoiding in ice pellets transformation mechanism 20 flows into heat exchange dress
Put in 12 so that ensure the heat transfer effect of heat-exchanger rig 12.
Further, described ice maker also includes control module.The second pipe 13 or the 3rd pipeline 14
On be provided with water pump 60.3rd pipeline 14 is provided with the first temperature sensor 142.The control module and the water pump
60th, first temperature sensor 142 is electrically connected with.The control module is used to sense in first temperature sensor 142
Increase the operating power of the water pump 60 when water temperature is preset less than or equal to first to the water temperature in the 3rd pipeline 14, and
Water temperature in for sensing the 3rd pipeline 14 in first temperature sensor 142 is greater than or equal to the second default water temperature
When reduce the operating power of the water pump 60.In this way, water pump 60 provides power, the water in storage tank 11 is set to enter heat-exchanger rig
Subcooled water is converted in 12 and is rapidly introduced into ice pellets transformation mechanism 20.In addition, the first temperature sensor 142 can sense
Water temperature in 3rd pipeline 14, and the operating power of water pump 60 is accordingly controlled according to water temperature in the 3rd pipeline 14, when the first temperature
Sensor 142 senses the work for increasing water pump 60 when the water temperature in the 3rd pipeline 14 presets water temperature less than or equal to first
Power, such water pump 60 will cause the water-carrying capacity for entering heat-exchanger rig 12 to increase, and when the first temperature sensor 142 is sensed
Water temperature in 3rd pipeline 14 reduces the operating power of water pump 60, such water pump 60 when water temperature is preset greater than or equal to second
The water-carrying capacity for entering heat-exchanger rig 12 will be caused to reduce, just can so control the water temperature in the 3rd pipeline 14 to be in first pre-
If between water temperature and the second default water temperature so that the temperature of subcooled water meets preset requirement.It is understood that the first default water
Temperature can carry out relative set according to the actual requirements with the second default water temperature.General, the first default water temperature can be set to-
2.5 degrees Celsius, the second default water temperature is set to -1.5 degrees Celsius.
In addition, referring to Fig. 4, the heat-exchanger rig 12 includes plate type heat exchanger 121, gas-liquid separator 122, compressor
123rd, condenser 124, cooling fan 125, compensator 126 and electric expansion valve 127.The gas-liquid separator 122, the compression
Machine 123, the condenser 124, the compensator 126 and the electric expansion valve 127 are sequentially connected, the cooling fan 125
It is arranged on the condenser 124.The heat transferring medium port of export of the plate type heat exchanger 121 and the phase of gas-liquid separator 122
Even, the heat transferring medium arrival end of the plate type heat exchanger 121 is connected with the electric expansion valve 127, the plate type heat exchanger 121
Water inlet end be connected with the second pipe 13, the water side of the plate type heat exchanger 121 is connected with the 3rd pipeline 14
It is logical.Pipeline is blocked because the subcooled water for using the formation that exchanged heat in plate type heat exchanger 121, plate type heat exchanger 121 will not generally freeze.
Wherein, the subcooled water that plate type heat exchanger 121 is preferentially selected in shallow close plate-type heat exchanger 121, shallow close plate-type heat exchanger 121 is not
It can freeze and block internal pipeline.
In addition, described ice maker also includes control module.The heat transferring medium port of export of the plate type heat exchanger 121 with
The connected pipeline of the gas-liquid separator 122 is provided with second temperature sensor 128.The control module and the electronic expansion
Valve 127, the second temperature sensor 128 are electrically connected with.The control module is used for according to the second temperature sensor 128
The heat exchange medium temperature size of the heat transferring medium port of export of sensing controls the aperture size of the electric expansion valve 127.Control
The heat exchange medium temperature size at the heat transferring medium port of export that molding root tuber is detected according to second temperature sensor 128 is corresponding to adjust
After the aperture size for saving electric expansion valve 127, the heat exchange between the heat transferring medium and water in plate type heat exchanger 121 just can be controlled
Effect, so as to control the temperature of subcooled water in preset range.
In addition, the ice pellets transformation mechanism 20 includes ice slurry generator 21, ultrasonic wave energy transducer head 22 and supersonic generator
23.The supersonic generator 23 is connected with the ultrasonic wave energy transducer head 22, and the ultrasonic wave energy transducer head 22 is sent out with the ice slurry
Raw device 21 is connected.Ice slurry generator 21 can cause subcooled water to change into ice slurry, and supersonic generator 23 is by the ultrasonic wave of generation
Be fed through through ultrasonic wave energy transducer head 22 in ice slurry generator 21, by ultrasonic wave constantly to the subcooled water in ice slurry generator 21 and
Ice slurry is vibrated so that ice slurry changes into ice pellets 70.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope of this specification record is all considered to be.
Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed,
But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area
For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to
Protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.
Claims (10)
1. a kind of ice maker, it is characterised in that including:
Subcooled water provides mechanism and ice pellets transformation mechanism, and input and the subcooled water of the ice pellets transformation mechanism provide mechanism
Output end be connected, the ice pellets transformation mechanism be used for subcooled water is changed into ice pellets;
Ice cube mould and extruding conveying mechanism, the ice cube mould is provided with more than one every road, and the extruding is conveyed
The input of mechanism is used to receive the ice pellets that the output end of the ice pellets transformation mechanism is exported, the extruding conveying mechanism it is defeated
Go out end with described every road to be connected, the extruding conveying mechanism is described every in road for ice pellets extruding to be pushed to.
2. ice maker according to claim 1, it is characterised in that the extruding conveying mechanism includes torque and exports machine
Structure, screw rod and the sleeve being rotatably set in outside the screw rod, the torque output mechanism are connected with the screw drive, institute
Sleeve one end is stated provided with the feeding mouth corresponding with the output end of the ice pellets transformation mechanism, the sleeve other end is provided with discharging
Mouthful, the ice cube mould is arranged on the discharging opening.
3. ice maker according to claim 2, it is characterised in that the sleeve bottom offers several water holes,
Water receiving container is additionally provided with below the sleeve, the water receiving container is connected to the subcooled water by the first pipeline and provides mechanism.
4. ice maker according to claim 1, it is characterised in that the subcooled water, which provides mechanism, includes storage tank with changing
Thermal, the storage tank is connected by second pipe with the heat-exchanger rig, and the heat-exchanger rig is connected by the 3rd pipeline
To the ice pellets transformation mechanism.
5. ice maker according to claim 4, it is characterised in that the storage tank is connected with the pipeline that adds water, described to add
Waterpipe, which is provided with the controlling switch for being used for controlling whether to add water into the storage tank, the storage tank, is provided with level sensing
Device, the liquid level sensor is electrically connected with the controlling switch, and the controlling switch is used in liquid level sensor detection
Preset time period is opened when liquid level is less than or equal to default liquid level into the storage tank.
6. ice maker according to claim 4, it is characterised in that the 3rd pipeline is provided with ice crystal preventing transmission device,
The ice pellets that the ice crystal preventing transmission device is used for produced by preventing in the ice pellets transformation mechanism is flowed into the heat-exchanger rig.
7. ice maker according to claim 4, it is characterised in that also including control module, the second pipe or institute
State and water pump is provided with the 3rd pipeline, the 3rd pipeline is provided with the first temperature sensor, the control module and the water
Pump, first temperature sensor are electrically connected with;The control module is used in first temperature sensor senses described in
Water temperature in 3rd pipeline increases the operating power of the water pump when water temperature is preset less than or equal to first, and for described
First temperature sensor senses reduce the water pump when water temperature is preset greater than or equal to second to the water temperature in the 3rd pipeline
Operating power.
8. ice maker according to claim 4, it is characterised in that the heat-exchanger rig includes plate type heat exchanger, gas-liquid
Separator, compressor, condenser, cooling fan, compensator and electric expansion valve, the gas-liquid separator, the compressor, institute
State condenser, the compensator and the electric expansion valve to be sequentially connected, the cooling fan is arranged on the condenser;Institute
The heat transferring medium port of export for stating plate type heat exchanger is connected with the gas-liquid separator, the heat transferring medium entrance of the plate type heat exchanger
End is connected with the electric expansion valve, and the water inlet end of the plate type heat exchanger is connected with the second pipe, described board-like to change
The water side of hot device is connected with the 3rd pipeline.
9. ice maker according to claim 8, it is characterised in that also including control module, the plate type heat exchanger
The pipeline that the heat transferring medium port of export is connected with the gas-liquid separator is provided with second temperature sensor, the control module and institute
Electric expansion valve, the second temperature sensor is stated to be electrically connected with;The control module is used to be sensed according to the second temperature
The heat exchange medium temperature size of the heat transferring medium port of export of device sensing controls the aperture size of the electric expansion valve.
10. the ice maker according to any one of claim 1 to 9, it is characterised in that the ice pellets transformation mechanism includes ice
Generator, ultrasonic wave energy transducer head and supersonic generator are starched, the supersonic generator is connected with the ultrasonic wave energy transducer head, institute
Ultrasonic wave energy transducer head is stated with the ice slurry generator to be connected.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106642860A (en) * | 2017-02-20 | 2017-05-10 | 南京野崎制冷科技有限公司 | Ice making device |
CN110243117A (en) * | 2018-03-07 | 2019-09-17 | 佛山市顺德区美的饮水机制造有限公司 | Water dispenser and its ice making control method and device |
-
2017
- 2017-02-20 CN CN201720152619.3U patent/CN206504511U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106642860A (en) * | 2017-02-20 | 2017-05-10 | 南京野崎制冷科技有限公司 | Ice making device |
CN110243117A (en) * | 2018-03-07 | 2019-09-17 | 佛山市顺德区美的饮水机制造有限公司 | Water dispenser and its ice making control method and device |
CN112524855A (en) * | 2018-03-07 | 2021-03-19 | 佛山市顺德区美的饮水机制造有限公司 | Water dispenser and ice making control method and device thereof |
CN112539584A (en) * | 2018-03-07 | 2021-03-23 | 佛山市顺德区美的饮水机制造有限公司 | Water dispenser and ice making control method and device thereof |
CN112539584B (en) * | 2018-03-07 | 2022-02-22 | 佛山市顺德区美的饮水机制造有限公司 | Water dispenser and ice making control method and device thereof |
CN112524855B (en) * | 2018-03-07 | 2022-03-18 | 佛山市顺德区美的饮水机制造有限公司 | Water dispenser and ice making control method and device thereof |
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