CN207123108U - A kind of novel energy-conserving moves ice machine - Google Patents
A kind of novel energy-conserving moves ice machine Download PDFInfo
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- CN207123108U CN207123108U CN201721039352.3U CN201721039352U CN207123108U CN 207123108 U CN207123108 U CN 207123108U CN 201721039352 U CN201721039352 U CN 201721039352U CN 207123108 U CN207123108 U CN 207123108U
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- circulation barrel
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- fluorine pump
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Abstract
It the utility model is related to a kind of novel energy-conserving movement ice machine, including frame, refrigeration compressor, condenser, direct-cooling type ice mould, four-way valve, oil eliminator, circulation barrel, fluorine pump, liquid receiver, magnetic valve, choke valve, control cabinet and lifting platform, direct-cooling type ice mould includes evaporator, the refrigeration compressor high-pressure side is connected with oil eliminator by pipeline, four ports of four-way valve pass through pipeline and oil eliminator respectively, condenser, circulation barrel, evaporator is connected, condenser is sequentially connected liquid receiver by pipeline, magnetic valve, choke valve, circulation barrel, circulation barrel is sequentially connected fluorine pump by pipeline, evaporator, circulation barrel is connected directly to refrigeration compressor low-pressure end by pipeline.This structure uses fluorine pump feed flow, increases vaporizer side refrigerant flow rates, and liquid separation is uniform, enhances evaporator heat transfer effect, highly efficient energy-conservation, ensure that ice making quality.
Description
Technical field
It the utility model is related to refrigerating field, and in particular to a kind of novel energy-conserving moves ice machine.
Background technology
It is increasing to the demand of ice cube with the development of freeze preservation industry, therefore the development of ice machine is also more next
It is more important.Traditional ice making unit, equipment is various, ice making complex process, for example, ice making and deice process, it is necessary to ice-making device, fall ice
The equipment such as frame and ice-melting pool, and these equipment are fixed apparatus, it is difficult to move, and amount of equipment power consumption is big, it is another
By the way of the ice machine or use refrigerating medium of conventional expanded valve feed flow cool down indirectly, ice making principle is aspect:Utilize load
Cryogen is as heat-exchange medium, and by carrying out heat exchange with refrigerant, refrigerant temperature reduces, and is used to make in ice cylinder so as to cool down
The water of ice, this process loss of refrigeration capacity is big, and efficiency is poor, so real be necessary to design a kind of novel energy-conserving movement ice machine.
Utility model content
Technical problem to be solved in the utility model is to overcome above mentioned problem, and proposes a kind of novel energy-conserving movement
Ice machine, removable effect can be realized, and increase vaporizer side refrigerant flow rates, evaporator refrigerant using fluorine pump feed flow
Side can more fully be soaked, and convection transfer rate increase, the heat transfer effect of further enhanced water evaporation device, reach energy-efficient
Purpose.
The technical solution of the utility model is:
A kind of novel energy-conserving movement ice machine described in the utility model, it is characterised in that:Including frame, refrigerant compression
Machine, condenser, direct-cooling type ice mould, four-way valve, oil eliminator, circulation barrel, fluorine pump, liquid receiver, magnetic valve, choke valve, control cabinet
And lifting platform, wherein the direct-cooling type ice mould includes evaporator, cooling passage is provided with evaporator;
The refrigeration compressor is fixed on lower end on the left of frame, and liquid receiver is located on the left of refrigeration compressor and is fixed on frame
Left side lower end, oil eliminator are located on the right side of refrigeration compressor and are fixed on lower end on the left of frame;The condenser is fixed on frame
Left side upper end, control cabinet are located on front side of condenser and are fixed on upper end on the left of frame;The lifting platform is located at lower end on the right side of frame,
Direct-cooling type ice mould is located at upper end on the right side of frame and is located at directly over lifting platform;The circulation barrel is arranged on condenser and direct-cooling type ice
Between mould and frame upper end is hung on, the fluorine pump is located on the right side of condenser and is arranged on below circulation barrel;
The refrigeration compressor high-pressure side is connected with oil eliminator by pipeline, and four ports of the four-way valve lead to respectively
Piping is connected with oil eliminator, condenser, circulation barrel, evaporator, and the condenser is sequentially connected liquid receiver, electricity by pipeline
Magnet valve, choke valve, circulation barrel, the circulation barrel are sequentially connected fluorine pump, evaporator by pipeline, and the circulation barrel also passes through pipeline
It is connected directly to refrigeration compressor low-pressure end.
Further, in novel energy-conserving described in the utility model moves ice machine, the circulation barrel includes cylindrical shape
No.1 cylinder and two horn bodies, No.1 cylinder and two horn bodies in laying and be interconnected up and down;Outside the No.1 cylinder
Gas-liquid import, gas outlet, inlet and leakage fluid dram are provided with side wall, the lateral wall of the two horns body is provided with fluorine pump feed flow
Mouthful;The gas-liquid import of wherein No.1 cylinder is connected with four-way valve, and the gas outlet of No.1 cylinder is connected with refrigeration compressor low-pressure end,
The inlet of No.1 cylinder is connected with choke valve, and fluorine pump supply opening is connected with fluorine pump.
Preferably, the fluorine pump supply opening on the two horns body is not less than 1.0 meters higher than fluorine pump inlet and its difference in height.
Preferably, the upper surface of the No.1 cylinder is convexly equipped with relief valve connection and pressure gauge connection, No.1 cylinder
Interface on liquid level meter, interface, Liquid level lower interface on Liquid level, and No.1 cylinder are sequentially provided with lateral wall from top to bottom
On inlet be located on Liquid level between interface, Liquid level lower interface;Liquid is additionally provided with the external side wall of two horns
Lower interface is counted in face, and two horn body lower surfaces are convexly equipped with sewage draining exit.
Further, in novel energy-conserving described in the utility model moves ice machine, the liquid receiver is cylindrical, edge
Frame fore-and-aft direction horizontal layout, its lateral wall one end are provided with the inlet being connected with condensator outlet, and the other end is provided with and electricity
The connected liquid outlet of magnet valve;Relief valve port, upper liquid-sighting glass mouth and lower liquid-sighting glass mouth are additionally provided with the lateral wall of the liquid receiver, and
The upper liquid-sighting glass open height is higher than lower liquid-sighting glass mouth.
Further, in novel energy-conserving described in the utility model moves ice machine, the condenser is air-cooled condensation
Device or evaporative condenser.
Further, in novel energy-conserving described in the utility model moves ice machine, the choke valve is thermal expansion
Valve or electric expansion valve.
Further, in novel energy-conserving described in the utility model moves ice machine, the fluorine pump uses centrifugal pump.
By said structure, the utility model improves the peripheral passage of refrigerant, and feed flow reality is doubled with reference to fluorine pump circulation
Existing energy-efficient ice making.In ice-making process, first toward topped up with water in direct-cooling type ice mould, operation control box controls refrigeration compressor, cold
Condenser starts simultaneously, and low pressure refrigerant vapor enters ice making compressor low-pressure end, is compressed into after high temperature and high pressure steam from ice making pressure
Contracting machine high-pressure side enters oil eliminator, segregation excision lubricating oil, and refrigerant vapour condenses via four-way valve into condenser thereafter
Into high pressure refrigerant liquids, then liquid reservoir, magnetic valve, choke valve are flowed through along pipeline successively by condensator outlet and enter circulation barrel,
Enter pressurization by fluorine pumping from the fluorine pump supply opening of circulation barrel to be sent into evaporator, refrigerant heat absorption is vaporized into low pressure refrigerant steaming
Vapour, flash-pot outlet are transmitted back to circulation barrel, refrigerant liquid, gas are isolated in circulation barrel, liquid is done work by fluorine pump
Evaporator is re-circulated into, gas then reenters refrigeration compressor low-pressure end, is achieved in a kind of refrigeration cycle cycle, constantly
Said process is circulated, heat is constantly absorbed in direct-cooling type ice mould, and water is gradually condensed into ice, completes ice-making process.
The beneficial effects of the utility model are:
1st, the utility model devises packaged type set structure, by refrigeration compressor, condenser, direct-cooling type ice mould, oil
The common closed assembly combination such as separator, circulation barrel, can be according to being actually needed whole unit running transform to suitable work in frame
Used on position, overcome irremovable defect after the installation of the equipment such as traditional ice-melting pool, use is more convenient.
2nd, the utility model devises fluorine pump feed flow link on chiller refrigeration circulation loop, effectively increases refrigerant
Internal circulating load and flow velocity, ensure that circulating mass of refrigerant is several times as much as evaporator evaporation amount and evaporator is had sufficiently wetting surface, hair
The heat conductive efficiency of its whole disengagement area is waved, convection transfer rate is increased, so as to greatly improve heat exchange efficiency, compared to
Conventional expanded valve feed liquid way cools down more efficient energy-saving indirectly using refrigerating medium.
3rd, be advantageous to the uniform liquid separation of evaporator refrigerant using fluorine pump feed liquid way, ensure that the refrigeration effect of refrigerating circuit
Fruit, exchange heat more abundant, thus obtained ice cube regular uniform, effectively increases the quality of ice making.
Brief description of the drawings
Fig. 1 is dimensional structure diagram one of the present utility model.
Fig. 2 is dimensional structure diagram two of the present utility model.
Fig. 3 is the structural representation of circulation barrel described in the utility model.
Fig. 4 is the structural representation of liquid receiver described in the utility model.
Embodiment
The utility model is further described in conjunction with accompanying drawing:
It is shown referring to Figures 1 and 2, a kind of novel energy-conserving movement ice machine described in the present embodiment, including frame 1, refrigeration
Compressor 2, condenser 3, direct-cooling type ice mould 4, four-way valve 5, oil eliminator 6, circulation barrel 7, fluorine pump 8, liquid receiver 9, magnetic valve 10,
Choke valve 11, control cabinet 12 and lifting platform 13, wherein the direct-cooling type ice mould 4 includes evaporator, cooling is provided with evaporator
Liquid passage.
The refrigeration compressor 2 is fixed on the left side lower end of frame 1, and liquid receiver 9 is located at the left side of refrigeration compressor 2 and is fixed on
The left side lower end of frame 1, oil eliminator 6 are located at the right side of refrigeration compressor 2 and are fixed on the left side lower end of frame 1;The condenser 3 is solid
The left side upper end of frame 1 is scheduled on, control cabinet 12 is located at the front side of condenser 3 and is fixed on the left side upper end of frame 1;The lifting platform 13
In the right side lower end of frame 1, direct-cooling type ice mould 4 is located at the right side upper end of frame 1 and directly over lifting platform 13;The circulation barrel 7
It is arranged between condenser 3 and direct-cooling type ice mould 4 and is hung on the upper end of frame 1, the fluorine pump 8 is located at the right side of condenser 3 and set
Put below circulation barrel 7.
The high-pressure side of refrigeration compressor 2 is connected with oil eliminator 6 by pipeline, four ports point of the four-way valve 5
It is not connected by pipeline with oil eliminator 6, condenser 3, circulation barrel 7, evaporator, the condenser 3 is sequentially connected by pipeline
Liquid receiver 9, magnetic valve 10, choke valve 11, circulation barrel 7, the circulation barrel 7 are sequentially connected fluorine pump 8, evaporator, institute by pipeline
State circulation barrel 7 and the low-pressure end of refrigeration compressor 2 is also connected directly to by pipeline.
Specifically, with reference to shown in Fig. 3, circulation barrel 7 described in the present embodiment includes cylindric No.1 cylinder and two horn bodies,
No.1 cylinder and two horn bodies in laying up and down and are interconnected;Gas-liquid import is provided with the lateral wall of the No.1 cylinder
702nd, gas outlet 701, inlet 703 and leakage fluid dram 704, the lateral wall of the two horns body are provided with fluorine pump supply opening 705;Its
The gas-liquid import 702 of middle No.1 cylinder is connected with four-way valve 5, gas outlet 701 and the low-pressure end phase of refrigeration compressor 2 of No.1 cylinder
Even, the inlet 703 of No.1 cylinder is connected with magnetic valve 10, and fluorine pump supply opening 705 is connected with fluorine pump 8.It is worth noting that, institute
The fluorine pump supply opening 705 stated on two horn bodies is not less than 1.0 meters higher than the import of fluorine pump 8 and its difference in height.
The upper surface of the No.1 cylinder is convexly equipped with relief valve connection 706 and pressure gauge connection 707, relief valve connection 706
Corresponding connection safety valve, the corresponding connection pressure gauge of pressure gauge connection 707;It is sequentially provided with from top to bottom on the lateral wall of No.1 cylinder
Interface 708 on liquid level meter, interface 709, Liquid level lower interface 710 on Liquid level, and the inlet on No.1 cylinder 703
Between interface on Liquid level 709, Liquid level lower interface 710;It is additionally provided with the external side wall of two horns under liquid level meter
Interface 711, two horn body lower surfaces are convexly equipped with sewage draining exit 712.Wherein, on liquid level meter interface 708, liquid level meter lower interface 711 it
Between be connected with liquid level meter, for showing liquid level in circulation barrel 7;Interface 709, Liquid level lower interface 710 on Liquid level
Between connect two position sensor, in circulation barrel 7 liquid level accurate detection sensing.
Shown in reference picture 1 and Fig. 4, liquid receiver 9 is cylindrical described in the present embodiment, along the fore-and-aft direction horizontal layout of frame 1,
Its lateral wall one end is provided with exports the inlet 901 being connected with condenser 3, and the other end is provided with the liquid outlet being connected with magnetic valve 10
902;Relief valve port 903, upper liquid-sighting glass mouth 904 and lower liquid-sighting glass mouth 905, and institute are additionally provided with the lateral wall of the liquid receiver 9
State the height of liquid-sighting glass mouth 904 and be higher than lower liquid-sighting glass mouth 905.The corresponding installation safety valve of relief valve port 903, upper liquid-sighting glass mouth 904
Correspond to the upper and lower liquid-sighting glass of installation respectively with lower liquid-sighting glass mouth 905, be easy to observe the inner case of liquid receiver 9.
It should be noted that condenser 3 described in the present embodiment is air-cooled condenser or evaporative condenser, the choke valve
11 be heating power expansion valve or electric expansion valve, and the fluorine pump 8 uses centrifugal pump.
The course of work of the present embodiment is described as follows.
Before ice making start, add water, after the water in direct-cooling type ice mould 4 is full of, operation control box 12 toward direct-cooling type ice mould 4 is interior
So that refrigeration compressor 2, condenser 3 start simultaneously, low pressure refrigerant vapor enters refrigeration by the low-pressure stage of refrigeration compressor 2 and pressed
Contracting machine 2, the steam condition of HTHP is compressed into refrigeration compressor 2, entering oil through the hiigh pressure stage of refrigeration compressor 2 separates
Device 6, the lubricating oil separation carried secretly in the superheated steam that oil eliminator 6 discharges refrigeration compressor 2 is out and discharging refrigerant steams
Vapour.Thereafter the steam of HTHP enters condenser 3 by four-way valve 5, goes out after being condensed into high pressure refrigerant liquid from condenser 3
Mouthful outflow, enters liquid receiver 9 along the inlet 901 of liquid receiver 9, and is flowed out from the liquid outlet 902 of liquid receiver 9, by magnetic valve 10,
Choke valve 11, the refrigerant liquid by throttling are entered in circulation barrel 7 by the inlet 703 of circulation barrel 7.Reservoir in said process
Bucket 9 serves regulation refrigerant liquid quantity delivered, and the effect of unnecessary refrigerant liquid is reclaimed in storage.Refrigeration in circulation barrel 7
Agent liquid is sucked by fluorine pump supply opening 705 by fluorine pump 8, and the coolant of evaporator is entered back into by centrifuging the acting pressurization of fluorine pump 8
In passage, constantly absorb the heat of the reclaimed water of direct-cooling type ice mould 4 and be vaporized into low pressure refrigerant vapor, then flowed out from evaporator
The gas-liquid import 702 of the top of circulation barrel 7 is returned to by four-way valve 5, now circulation barrel 7 plays separation refrigerant liquid and gas
Act on, the liquid in circulation barrel 7 is entered in evaporator from fluorine pump supply opening 705 by fluorine pump power cycle again, and circulation barrel 7
Interior gas is discharged by the gas outlet 701 of circulation barrel 7 and returns to refrigeration compressor 2 by the low-pressure end of refrigeration compressor 2, completes a system
SAPMAC method.Refrigerant circulates in refrigeration systems, makes the heat of water in direct-cooling type ice mould 4 gradual constantly by refrigerant suction
It is condensed into ice.After the completion for the treatment of ice making, switching four-way valve 5 is deiced, and driving lifting platform 13 drives ice cube to move down together, and user will
The ice cube made is moved.The present embodiment is simple in construction, and automaticity is high, conveniently moving, ice making good energy-conserving effect, comprehensive
Cost is low.
Specific embodiment described herein only illustrative principle of the present utility model and its effect, not for
Limit the utility model.Any person skilled in the art all can be without prejudice under spirit and scope of the present utility model, to upper
State embodiment and carry out modifications and changes.Therefore, as long as those of ordinary skill in the art is new without departing from this practicality
Spirit and all equivalent modifications completed under technological thought or change disclosed in type, should be wanted by right of the present utility model
Ask and covered.
Claims (8)
1. a kind of novel energy-conserving moves ice machine, it is characterised in that:Including frame, refrigeration compressor, condenser, direct-cooling type ice
Mould, four-way valve, oil eliminator, circulation barrel, fluorine pump, liquid receiver, magnetic valve, choke valve, control cabinet and lifting platform, wherein described straight
Cold type ice mould includes evaporator, and cooling passage is provided with evaporator;
The refrigeration compressor is fixed on lower end on the left of frame, and liquid receiver is located on the left of refrigeration compressor and is fixed on the left of frame
Lower end, oil eliminator are located on the right side of refrigeration compressor and are fixed on lower end on the left of frame;The condenser is fixed on the left of frame
Upper end, control cabinet are located on front side of condenser and are fixed on upper end on the left of frame;The lifting platform is located at lower end on the right side of frame, direct-cooled
Formula ice mould is located at upper end on the right side of frame and is located at directly over lifting platform;The circulation barrel be arranged on condenser and direct-cooling type ice mould it
Between and be hung on frame upper end, the fluorine pump is located on the right side of condenser and is arranged on below circulation barrel;
The refrigeration compressor high-pressure side is connected with oil eliminator by pipeline, and four ports of the four-way valve pass through pipe respectively
Road is connected with oil eliminator, condenser, circulation barrel, evaporator, and the condenser is sequentially connected liquid receiver, electromagnetism by pipeline
Valve, choke valve, circulation barrel, the circulation barrel are sequentially connected fluorine pump, evaporator by pipeline, and the circulation barrel is also straight by pipeline
Refrigeration compressor low-pressure end is connected in succession.
2. novel energy-conserving according to claim 1 moves ice machine, it is characterised in that:The circulation barrel includes cylindric
No.1 cylinder and two horn bodies, No.1 cylinder and two horn bodies are in laying up and down and are interconnected;The outside of the No.1 cylinder
Gas-liquid import, gas outlet, inlet and leakage fluid dram are provided with wall, the lateral wall of the two horns body is provided with fluorine pump feed flow
Mouthful;The gas-liquid import of wherein No.1 cylinder is connected with four-way valve, and the gas outlet of No.1 cylinder is connected with refrigeration compressor low-pressure end,
The inlet of No.1 cylinder is connected with choke valve, and fluorine pump supply opening is connected with fluorine pump.
3. novel energy-conserving according to claim 2 moves ice machine, it is characterised in that:Fluorine pump on the two horns body supplies
Liquid mouth is not less than 1.0 meters higher than fluorine pump inlet and its difference in height.
4. the novel energy-conserving movement ice machine according to Claims 2 or 3, it is characterised in that:The upper end of the No.1 cylinder
Face is convexly equipped with relief valve connection and pressure gauge connection, is sequentially provided with liquid level meter and connects from top to bottom on the lateral wall of No.1 cylinder
Interface, Liquid level lower interface on mouth, Liquid level, and the inlet on No.1 cylinder is located at interface, liquid level on Liquid level
Between control lower interface;Liquid level meter lower interface is additionally provided with the external side wall of two horns, two horn body lower surfaces are convexly equipped with row
Dirty mouth.
5. novel energy-conserving according to claim 1 moves ice machine, it is characterised in that:The liquid receiver is cylindrical, edge
Frame fore-and-aft direction horizontal layout, its lateral wall one end are provided with the inlet being connected with condensator outlet, and the other end is provided with and electricity
The connected liquid outlet of magnet valve;Relief valve port, upper liquid-sighting glass mouth and lower liquid-sighting glass mouth are additionally provided with the lateral wall of the liquid receiver, and
The upper liquid-sighting glass open height is higher than lower liquid-sighting glass mouth.
6. novel energy-conserving according to claim 1 moves ice machine, it is characterised in that:The condenser is air-cooled condenser
Or evaporative condenser.
7. novel energy-conserving according to claim 1 moves ice machine, it is characterised in that:The choke valve is heating power expansion valve
Or electric expansion valve.
8. novel energy-conserving according to claim 1 moves ice machine, it is characterised in that:The fluorine pump uses centrifugal pump.
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CN201721039352.3U CN207123108U (en) | 2017-08-18 | 2017-08-18 | A kind of novel energy-conserving moves ice machine |
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CN201721039352.3U CN207123108U (en) | 2017-08-18 | 2017-08-18 | A kind of novel energy-conserving moves ice machine |
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CN207123108U true CN207123108U (en) | 2018-03-20 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107339839A (en) * | 2017-08-18 | 2017-11-10 | 浙江冰欧新能源科技有限公司 | A kind of novel energy-conserving moves ice machine |
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2017
- 2017-08-18 CN CN201721039352.3U patent/CN207123108U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107339839A (en) * | 2017-08-18 | 2017-11-10 | 浙江冰欧新能源科技有限公司 | A kind of novel energy-conserving moves ice machine |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20211025 Address after: 241200 Room 806, 8th floor, comprehensive service building, Fanchang Economic Development Zone, Wuhu City, Anhui Province Patentee after: Bingou cold chain technology (Wuhu) Co.,Ltd. Address before: 317511 Yingbin Industrial Zone, Songmen Town, Wenling City, Taizhou City, Zhejiang Province (shouwangshan) Patentee before: ZHEJIANG BINGOU NEW ENERGY TECHNOLOGY Co.,Ltd. |
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TR01 | Transfer of patent right |