CN109163483A - It artificial snow-making and send snow system and is used for artificial snow-making and send the aerial cooler of snow system - Google Patents

Abstract

The present invention relates to a kind of artificial snow-making and send snow system and be used for artificial snow-making and send the aerial cooler of snow system, artificial snow-making of the invention and send snow system include ice making module, refrigeration module and strength send snow module.Aerial cooler of the invention includes inlet section, cooling end and outlet section.Artificial snow-making of the invention and to send snow system to be influenced by season and weather small, installation, disassembly are facilitated with carrying, and site requirements is not high.Aerial cooler of the invention is mainly used in strength and send in snow module, and the air of high temperature and pressure is rapidly cooled to low temperature by the aerial cooler of mating refrigeration module, to guarantee the arrival freezing point of medium in conveyance conduit (flake ice, pipe ice etc.) high quality.

Description

It artificial snow-making and send snow system and is used for artificial snow-making and send the aerial cooler of snow system

Technical field

It the present invention relates to a kind of artificial snow-making and send snow system and is used for artificial snow-making and send the aerial cooler of snow system, belong to system Cool equipment technical field.

Background technique

As people's recreation is increasingly enriched, occurs more and more artificial skifields now, occur in the market thus A variety of device for making artificial snow matched with skifield, at present with there are two types of wide: snowmaker and split type ice making artificial snow-making Equipment.Snowmaker is ground into flakes after can making ice at 0 DEG C of environment temperature or less, 5 DEG C of water temperature or less, and leads to overcooled sky Gas is transported to slideway, shape artificial skiing field；The equipment of split type ice making artificial snow-making containing ice making, trash ice and send snow equipment, is installed in In computer room or rain shade, pass through the air delivery after cooled to slideway, shape artificial skiing field.The existing following disadvantage of equipment: 1, by season and climatic effect.2, it takes up a large area, needs to build computer room, movement is more difficult, and movement, installing engineering amount are big.3, Cost of investment is higher.

Summary of the invention

(1) technical problems to be solved

In order to solve the above problem of the prior art, the present invention provides a kind of artificial snow-making and send snow system and be used for artificial snow-making and send snow The aerial cooler of system.

(2) technical solution

In order to achieve the above object, the main technical schemes that the present invention uses include, a kind of artificial snow-making and send snow system, and feature exists In: including making ice module, refrigeration module and strength send snow module, and it includes roots blower, air cooling that the strength, which send snow module, Device, Blowing stopper and ice crusher, the roots blower, aerial cooler, Blowing stopper and ice crusher are sequentially connected in series, the ice making module The ice end that connects of snow module is sent to be connected to strength, the refrigeration module connects with the import of aerial cooler refrigerating medium and refrigerating medium outlet It is logical.

Further, the ice making module include the first compressor, the first condenser, the first liquid storage device, the first expansion valve, Ice maker and the first water tank, between first compressor, the first condenser, the first liquid storage device, the first expansion valve and ice maker Forming circuit, is formed into a loop between the ice maker and the first water tank.

Further, the refrigeration module include the second compressor, the second condenser, the second liquid storage device, the second expansion valve, Evaporator and the second water tank, between second compressor, the second condenser, the second liquid storage device, the second expansion valve and evaporator Forming circuit, is formed into a loop between the evaporator and the second water tank.

A kind of aerial cooler, including inlet section, cooling end and outlet section, the inlet section include inlet section shell, institute Stating outlet section includes outlet section shell, and the inlet section shell and outlet section shell both ends are all equipped with air inlet and air outlet, into The area of wind portion air inlet is less than its air outlet, and the area of outlet section air inlet is greater than its air outlet, and the cooling end includes cold But portion's shell, be contained in the heat exchanger of the cooling end interior of shell, be additionally provided with guarantor between the cooling end shell and heat exchanger The air outlet of warm layer, cooling end shell one end and inlet section is interconnected, and the other end and the air outlet of outlet section mutually interconnect It is logical.

Further, the cooling end shell is cylindrical shape, and the inlet section shell and outlet section shell are all in inside Empty truncated cone-shaped.

Further, being equipped with one in the inlet section shell promotes gas uniformly through the air diffusing machine of heat exchanger Structure.

Further, air diffusing mechanism includes the multilayer truncated cone-shaped diffusing part being arranged in the shell of inlet section, often Layer truncated cone-shaped diffusing part is all coaxially disposed with inlet section shell, and adjacent truncated cone-shaped diffusing part passes through sheet fixing piece stationary phase Even, outermost truncated cone-shaped diffusing part is fixedly linked by annular fixed pieces and inlet section shell.

Further, the heat exchanger is finned heat exchanger.

Further, the outlet section outer casing bottom is equipped with discharge outlet, and the outlet section inner surface of outer cover is equipped with insulating layer, The insulating layer bottom is provided with the rhone being connected to discharge outlet, and air outlet is equipped with temperature detection mouth.

Further, the cooling end outer casing bottom is additionally provided with discharge outlet.

(3) beneficial effect

The beneficial effects of the present invention are:

1, artificial snow-making of the invention and send snow system highest that can run at 45 DEG C of environment temperature, 40 DEG C of water temperature, by season and weather Influence it is small, can satisfy the requirement of skifield and Summer Indoor skifield outside winter room completely.

2, it artificial snow-making of the invention and send all devices of snow system mountable in container, is set according to needed for skifield Artificial snow-making system can be mounted in two containers or a container by standby size, only need to be by container hanging when in-site installation In designated position, water receiving connects electricity and can be used, and installing engineering amount is small and can be directly in outdoor application, and uses in a place Next place can be moved to after complete rapidly to use.

3, artificial snow-making of the invention and all devices of snow system is sent to be installed in container, in addition machine is built at the scene of being not required to Room or rain shade, and do not need to carry out the work such as pipeline welding when in-site installation, engineering site is quick and easy for installation, short time limit And reuse ratio is high, can reduce cost of investment.

4, present invention is mainly applied to strengths to send in snow module, and the aerial cooler of mating refrigeration module is by high temperature and pressure Air is rapidly cooled to low temperature, to guarantee the arrival freezing point of medium in conveyance conduit (flake ice, pipe ice etc.) high quality.

5, condensed water can be discharged in aerial cooler cooling end shell of the invention and the water outlet of outlet section in time, extend The service life of equipment.

6, air intake of the invention increases air diffusing mechanism, guarantees that air inlet is evenly distributed to finned heat exchanger.

Detailed description of the invention

Fig. 1 is artificial snow-making and the flow diagram for sending snow system；

Fig. 2 is the flow diagram for making ice module；

Fig. 3 is the flow diagram of refrigeration module；

Fig. 4 is the flow diagram that strength send snow module；

Fig. 5 is the structural schematic diagram of aerial cooler；

Fig. 6 is the perspective view figure of inlet section；

Fig. 7 is the schematic diagram of internal structure of inlet section；

Fig. 8 is sectional view of the Fig. 1 along A-A；

Fig. 9 is sectional view of the Fig. 1 along B-B.

[description of symbols]

1: the first compressor；

2: the first condensers；

3: the first liquid storage devices；

4: the first expansion valves；

5: ice maker；

6: the first water tanks；

7: first circulation pump；

8: the second compressors；

9: the second condensers；

10: the second liquid storage devices；

11: the second expansion valves；

12: evaporator；

13: the second water tanks；

14: second circulation pump

15: third circulating pump；

16: aerial cooler；

17: roots blower；

18: Blowing stopper；

19: ice crusher；

20: inlet section；

201: inlet section shell

202: air diffusing mechanism；

2021: truncated cone-shaped diffusing part；

2012: sheet fixation member；

2013: cyclic annular fixation member；

30: cooling end；

301: cooling end shell；

302: heat exchanger；

303: insulating layer；

304: partition；

305: sealing ring；

306: refrigerating medium outlet；

307: discharge outlet；

308: refrigerating medium import；

40: outlet section；

401: outlet section shell；

402: insulating layer；

403: rhone；

404；Discharge outlet；

405: temperature detection mouth.

Specific embodiment

In order to preferably explain the present invention, in order to understand, with reference to the accompanying drawing, by specific embodiment, to this hair It is bright to be described in detail.

As shown in figure 4, strength send snow module by roots blower 17, aerial cooler 16, Blowing stopper 18 and ice crusher 19 according to Secondary to be composed in series, 17 air outlet of roots blower is connected to 16 air inlet of aerial cooler, 16 air outlet of aerial cooler and pass wind The connection of 18 entrance of machine, the outlet of Blowing stopper 18 are connected to 19 entrance of ice crusher, and Blowing stopper 18 is additionally provided with one and connects ice end, and described connects Ice end is to fall ice mouth 5D.

As shown in Fig. 2, ice making module is that strength send snow module to convey ice source, ice making module includes that refrigeration cycle and water route are followed Two processes of ring.

Refrigeration cycle: 1 refrigerant exit 1B of the first compressor and 2 entrance 2A of the first condenser connection, the outlet of the first condenser 2 2B is connected to 3 entrance 3A of the first liquid storage device, and the first liquid storage device 3 outlet 3B is connected to 4 entrance 4A of the first expansion valve, the first expansion valve 4 outlet 4B are connected to 5 entrance 5A of ice maker, and ice maker 5 exports 5B and is connected to 1 refrigerant inlet 1A of the first compressor.Ice maker 5 is logical It crosses and falls ice mouth 5D and be connected to Blowing stopper 18.

Waterway circulating: 6 water outlet 6C of the first water tank is connected to water inlet 5C at the top of ice maker, 6 water outlet 6C of the first water tank Circulating pump 7, the first water tank water inlet (being not drawn into figure) and ice maker bottom are additionally provided between the water inlet 5C of ice maker top Water outlet (being not drawn into figure) connection.First water tank is additionally provided with additional water inlet 6A and discharge outlet 6B.

Refrigeration module as shown in Figure 3 includes that refrigeration cycle and refrigerating medium recycle two processes.

Refrigeration cycle: 8 refrigerant exit of the second compressor is connected to 8B with 9 entrance 9A of the second condenser, and the second condenser goes out Mouth 9B is connected to 10 entrance 10A of the second liquid storage device, and the second liquid storage device 10 outlet 10B is connected to the entrance 11A of the second expansion valve 11, The outlet 11B of second expansion valve 11 is connected to 12 first entrance 12A of evaporator, the compression of 12 first outlet 12B of evaporator and second 8 refrigerant inlet 8A of machine connection.

Refrigerating medium circulation: 12 second outlet 12D of evaporator is connected to the first entrance 13A of the second water tank 13, evaporator 12 Second entrance 12C be connected to the first outlet 13B of the second water tank 13.

The second outlet 13D of second water tank 13 is connected to 16 refrigerating medium entrance 16B of aerial cooler, and the of the second water tank 13 Two entrance 13C are connected to 16 refrigerating medium of aerial cooler outlet 16A.

This equipment further includes for check valve and pipeline needed for connecting components in addition to the above necessary equipment.

The all devices of this modular snow making device are mountable in container, and the instrument size according to needed for skifield can Artificial snow-making system is mounted in two containers or a container, when in-site installation, only container crane need to be mounted in specific bit It sets, it is i.e. usable that water receiving connects electricity, and installing engineering amount is small and can be directly in outdoor application, and after use can be fast in a place Speed moves to next place and uses.

The following are each module working principles:

Strength send snow module: roots blower 17 sucks extraneous air, will since roots blower 17 does work in the process of running Extraneous air is heated into hot-air, and hot-air carries out heat exchange after entering aerial cooler 16, cooled down by aerial cooler 16 After become cold air, the ice bank in Blowing stopper 18 is walked to be sent to ice crusher 19 when cold air passes through Blowing stopper 18, ice is in trash ice It is crushed in machine 19, is then sent into extraneous place by air supply duct, forms skifield.

Make ice the refrigeration cycle of module: cold via first after refrigerating medium is compressed into high temperature and high pressure gas by the first compressor 1 Condenser 2 is condensed into normal temperature high voltage liquid refrigerating medium by the first condenser 2 and enters the first liquid storage device 3, and liquid refrigerating medium is from first Inflated valve 4 becomes the misty liquid refrigerating medium of low-temp low-pressure after liquid storage device 3 comes out after throttling, and then enters ice maker 5, is making For evaporation and heat-exchange at the gaseous coolant of low-temp low-pressure, gaseous coolant is eventually returned to ice making compressor 1, such to recycle in ice device 5.

Make ice the waterway circulating of module: the water in water tank 6 is extracted into the top water inlet of ice maker 5 by circulating pump 7, and water is being made Heat exchange is carried out in ice device 5 and is condensed into ice, and ice is fallen into after being scraped by the Ice scraping knife in ice maker 5 in Blowing stopper 18, and is being made The water for carrying out not build-uping ice after heat exchange in ice device 5 returns to water tank 6 by the discharge outlet of 5 bottom of ice maker, so recycles.

The refrigeration cycle of refrigeration module: cold via second after refrigerating medium is compressed into high temperature and high pressure gas by the second compressor 8 Condenser 9 is condensed into normal temperature high voltage liquid refrigerating medium by the second condenser 9 and enters the second liquid storage device 10, and liquid refrigerating medium is from the Two liquid storage devices 10 are become the misty liquid refrigerating medium of low-temp low-pressure after the throttling of second expansion valve 11 after coming out, then enter evaporation Device 12, for evaporation and heat-exchange at the gaseous coolant of low-temp low-pressure, gaseous coolant is eventually returned to the second compressor in evaporator 12 8, so recycle.

The refrigerating medium of refrigeration module recycles: the hot refrigerating medium of hot-zone in the second water tank 13 is extracted into evaporation by second circulation pump 14 After carrying out heat exchange in device 12, becomes cold refrigerating medium and return to 13 cold-zone of the second water tank, second circulation pump 15 will be in the second water tank 13 The cold refrigerating medium of cold-zone is extracted into aerial cooler 16 after progress heat exchange, is become hot refrigerating medium and is returned to 13 hot-zone of the second water tank It is interior, so recycle.

In order to cooperate above-mentioned artificial snow-making and its send snow equipment, an aerial cooler is also devised thus, mating strength is sent The air of high temperature and pressure is rapidly cooled to low temperature by the aerial cooler of snow module, to guarantee medium in conveyance conduit (flake ice, pipe Ice etc.) high quality arrival freezing point.

As shown in figure 5, aerial cooler is mainly made of inlet section 20, cooling end 30 and 40 three parts of outlet section.

As shown in figure 8, cooling end 30 is mainly made of cooling end shell 301, heat exchanger 302 and insulating layer 303.Heat exchanger 302 be preferably finned heat exchanger.Cooling end shell 301 is cylindrical, and both ends are equipped with circular flange, and heat exchanger 302 accommodates In in cooling end shell 301, refrigerating medium outlet 306 and the refrigerating medium import 308 of heat exchanger 302 run through cooling end shell 301.It changes The bottom of hot device 302 is equipped with support base, and the supporting leg of support base runs through cooling end shell 301.30 both ends of cooling end be equipped with every Plate 304, partition 304 are equipped with foam process hole, insulating layer 303 are additionally provided between cooling end shell 301 and heat exchanger 302, protect The making material of warm layer 303 is preferably polyurethane foam plastics, and 301 bottom of cooling end shell is equipped with discharge outlet 307, for being discharged The condensed water generated in cooling end 30.

Inlet section shell 201 or 401 both ends of outlet section shell are all equipped with ventilation opening, since the internal diameter of conveyance conduit is much smaller than Cooling end shell 301, therefore inlet section shell 201 or 401 both ends of outlet section shell ventilation open area are small one and large one, preferably The inlet section the truncated cone-shaped shell 201 or 401 ventilation opening of outlet section shell for being designed to inner hollow are all equipped with circular flange, ventilation The small one end of mouth and conveyance conduit flanged joint, the big one end of ventilation opening and 401 flange of inlet section shell 201 or outlet section shell Connection, junction is additionally provided with sealing ring 305.The air-admitting surface of inlet section 20 is less than its air outlet, the air inlet of outlet section 40 Area is greater than its air outlet.

As shown in Figure 6 and Figure 7, being equipped with one in inlet section shell 201 promotes gas uniformly through the air of heat exchanger 302 Diffusing mechanism 202, air diffusing mechanism 202 are the multilayer truncated cone-shaped diffusing part 2021 being arranged in inlet section shell 201, every layer Truncated cone-shaped diffusing part 2021 is all coaxially disposed with inlet section shell 201, and multilayer truncated cone-shaped diffusing part 2021 is in inlet section shell 201 It is interior to form multiple air intake passages, to achieve the purpose that diffusing.

In order to keep the structure of air diffusing mechanism 202 more stable, also design fixing piece, including 2022 He of annular fixed pieces Sheet fixing piece 2023.Adjacent truncated cone-shaped diffusing part 2021 is fixedly linked by sheet fixing piece 2023, outermost rotary table Shape diffusing part 2021 is fixedly linked by annular fixed pieces 2022 with inlet section shell 201, to guarantee that pipeline air is uniform By having enough effective cross-sections when heat exchanger 302.

As shown in figure 9, Cryogenic air, by generating when outlet section 40 with condensed water, shell 401 inner surface in outlet section is set There is insulating layer 402, shell 401 bottom in outlet section is equipped with discharge outlet 404, and 402 bottom of insulating layer is also provided with one and discharge outlet 404 The rhone 403 of connection, air outlet reserve temperature detection mouth 401, test real-time leaving air temp when necessary.

Claims (10)

1. a kind of artificial snow-making and sending snow system, it is characterised in that: including making ice module, refrigeration module and strength send snow module, described It includes roots blower (17), aerial cooler (16), Blowing stopper (18) and ice crusher (19), Roots's wind that strength, which send snow module, Machine (17), aerial cooler (16), Blowing stopper (18) and ice crusher (19) are sequentially connected in series, and the ice making module and strength send snow mould Block connects the connection of ice end, the refrigeration module and aerial cooler (16) refrigerating medium import and refrigerating medium outlet.

2. a kind of artificial snow-making according to claim 1 and sending snow system, it is characterised in that: the ice making module includes the first pressure Contracting machine (1), the first condenser (2), the first liquid storage device (3), the first expansion valve (4), ice maker (5) and the first water tank (6), it is described It is formed back between first compressor (1), the first condenser (2), the first liquid storage device (3), the first expansion valve (4) and ice maker (5) Road is formed into a loop between the ice maker (5) and the first water tank (6).

3. according to a kind of artificial snow-making described in claim 1 and sending snow system, it is characterised in that: the refrigeration module includes the second compression Machine (8), the second condenser (9), the second liquid storage device (10), the second expansion valve (11), evaporator (12) and the second water tank (13), institute It states between the second compressor (8), the second condenser (9), the second liquid storage device (10), the second expansion valve (11) and evaporator (12) Forming circuit, is formed into a loop between the evaporator (12) and the second water tank (13).

4. a kind of artificial snow-making for described in claim 1 and a kind of aerial cooler for sending snow system, it is characterised in that: including Inlet section (20), cooling end (30) and outlet section (40), the inlet section (20) include inlet section shell (201), the outlet air Portion (40) includes outlet section shell (401), and the inlet section shell (201) and outlet section shell (401) both ends are all respectively equipped with The area of air inlet and air outlet, inlet section (20) air inlet is less than its air outlet, and the area of outlet section (40) air inlet is greater than Its air outlet, the cooling end (30) include cooling end shell (301), are contained in changing for cooling end shell (301) inside Hot device (302) is additionally provided with insulating layer (23), the cooling end shell between the cooling end shell (301) and heat exchanger (302) (301) air outlet of one end and inlet section (20) is interconnected, and the air outlet of the other end and outlet section (40) is interconnected.

5. a kind of aerial cooler as claimed in claim 4, it is characterised in that: the cooling end shell (301) is cylindrical shape, institute It states inlet section shell (201) and outlet section shell (401) is all the truncated cone-shaped of inner hollow.

6. a kind of aerial cooler as claimed in claim 4, it is characterised in that: be equipped with one in the inlet section shell (201) Promote gas uniformly through the air diffusing mechanism (202) of heat exchanger (302).

7. a kind of aerial cooler as claimed in claim 3, it is characterised in that: air diffusing mechanism (202) includes setting Multilayer truncated cone-shaped diffusing part (2021) in inlet section shell (201), every layer of truncated cone-shaped diffusing part (2021) all with inlet section Shell (201) coaxial arrangement, adjacent truncated cone-shaped diffusing part (2021) are fixedly linked by sheet fixing piece (2022), outermost layer Truncated cone-shaped diffusing part (2021) be fixedly linked with inlet section shell (201) by annular fixed pieces (2023).

8. a kind of aerial cooler as described in claim 4,5,6 or 7, it is characterised in that: the heat exchanger (302) is fin Formula heat exchanger.

9. a kind of aerial cooler as claimed in claim 8, it is characterised in that: outlet section shell (401) bottom is equipped with row The mouth of a river (404), outlet section shell (401) inner surface are equipped with insulating layer (402), and insulating layer (402) bottom is provided with one The rhone (403) that item is connected to discharge outlet (404), air outlet are equipped with temperature detection mouth (405).

10. a kind of aerial cooler as claimed in claim 9, it is characterised in that: cooling end shell (301) bottom is additionally provided with Discharge outlet (307).