CN106403430A - Refrigeration house refrigerating circulation system and refrigerating technology - Google Patents

Abstract

The invention relates to a refrigeration house refrigerating circulation system and a refrigerating technology. The refrigeration house refrigerating circulation system comprises a water return water pool used for collecting water obtained after ice making and providing summer ice melting water and water for an air cooler to conduct defrosting, a water supply water pool used for collecting water obtained after the air cooler conducts defrosting and providing water used for ice making, an underwater pool used for purifying and storing underground water and providing water for the water supply water pool, an evaporation type condenser used for ice making, an ice melting water tank used for ice melting, an air cooler defrosting adjusting station, a summer ice melting water pump, an evaporation cold circulation water pump, a winter ice melting water pump, an underground water pump, an air cooler defrosting water pump, an ice melting water tank and various connecting water pipes, wherein the air cooler defrosting adjusting station, the summer ice melting water pump, the evaporation cold circulation water pump, the winter ice melting water pump, the underground water pump, the air cooler defrosting water pump, the ice melting water tank and the various connecting water pipes make functions of the above structure achieved. According to the refrigeration house refrigerating circulation system and the refrigerating technology, the characteristic that the underground water is cool in summer and hot in winter is sufficiently utilized, the technology is simple, high efficiency and energy conservation are achieved, economic efficiency and environment friendliness are achieved, and the system and the technology are worthy of popularization.

Description

A kind of freezer ice-make cycle system and refrigeration process

Technical field：

The present invention relates to industrial ice making water circulation technical field, specifically a kind of freezer ice-make cycle system and refrigeration work Skill.

Background technology：

Short water supply is following major issue, many areas, occurred in that groundwater resources exhaust and The situation deteriorating.This is accomplished by formulating corresponding management decision-making, preferably to manage, to protect, to utilize groundwater resources, finally real The sustainable use of existing water resource, alleviates the adverse effect that groundwater abstraction causes.Subsoil water is important natural resourcess, and it is People provide domestic water, are urban residents and the main drinking water source in some big cities, groundwater abstraction on a large scale, though So bring great interests to society, but but unthinkable impact is caused on environment, and to some regions resources Sustainable development causes threat, in addition, being competed with water of municipal administration, agricultural, industry and environment is also increasingly apparent.Therefore, with How being continuously increased of groundwater resources demand, rationally recycle this problem of subsoil water and become more and more important.

The distinguishing feature of subsoil water is that the temperature when summer is significantly lower than surface water, and temperature when in the winter time is obvious Higher than surface water, in view of freezer ice-make cycle system different device is to the difference with coolant-temperature gage, subsoil water well can should For freezer ice-make cycle system, to improve the recycling rate of waterused of subsoil water, saving water resource and freezer ice-make cycle system institute The outside energy needing.

Content of the invention：

The present invention is in order to overcome drawbacks described above present in prior art, there is provided a kind of freezer of utilization subsoil water ice making Ice-make cycle system and refrigeration process.

For solving the above problems, freezer ice-make cycle system proposed by the present invention and refrigeration process, including backwater pond, confession Water pond, subsoil water pond, evaporative condenser, air-cooler defrosting regulation station, summer ice-melt water pump, evaporation cold circulating pump, Ice thawing in winter water pump, underground water pump, air-cooler defrosting water pump and ice-melt tank；Described summer ice-melt water pump is arranged on described returning In water pond, and it is connected with ice-melt tank by ice-melt water pipe；Described evaporation cold circulating pump is arranged in described water supply pool, And be connected with described evaporative condenser by water supply water pipe；Described ice thawing in winter water pump is arranged in described subsoil water pond, And be connected with described ice-melt tank by ice-melt water pipe；Described underground water pump is arranged on underground, and by subsoil water water pipe with Described subsoil water pond connects；Described backwater pond is connected with described air-cooler defrosting regulation station by defrosting water pipe, described cold Blower fan defrosting water pump is arranged on described defrosting water pipe；A water level balance mouth of upper end is passed through with water supply pool in described backwater pond It is connected；It is connected by an overflow pipe of upper end between described water supply pool and subsoil water pond.

In technique scheme, it is connected by backwater water pipe between described evaporative condenser and backwater pond.

In technique scheme, it is connected by evaporating cold spilling water water pipe between described evaporative condenser and backwater pond.

In technique scheme, described evaporative condenser is also associated with tap water pipe for summer moisturizing.

In technique scheme, described subsoil water pond is divided into aqua storage tank, active carbon purifying layer, middle tank and quartz sand Purifying layer, the water inlet of described subsoil water water pipe is arranged on the upper end of described quartz sand purifying layer, described quartz sand purifying layer and The first lower mouth of a river passing through bottom between middle tank is connected, and passes through top between described middle tank and active carbon purifying layer Filling pipe end is connected, and is connected by the second lower mouth of a river of bottom between described active carbon purifying layer and aqua storage tank.

In technique scheme, described air-cooler defrosting regulation station passes through air-cooler defrosting main sewer and water supply pool phase Even.

In technique scheme, the upper end in described backwater pond is provided with overfall, and described overfall is connected with an overflow Pipe.

A kind of freezer refrigerating technique, including following step：

Subsoil water pump groundwater abstraction sequentially enters quartz sand purifying layer, middle tank, activated carbon through subsoil water water pipe Purifying layer and aqua storage tank, obtain pure subsoil water, flowed to by overflow pipe when the water in aqua storage tank reach a certain height and supply Water tank；

Be arranged in water supply pool evaporation cold circulating pump by the groundwater mining in water supply pool to evaporating type condensing It is used for ice making in device, by tap water water pipe, evaporative condenser is supplied water when groundwater supply is not enough；Vaporation-type is cold Water after condenser ice making flows in backwater pond by backwater water pipe, by evaporating cold overflowing during water excess in evaporative condenser Water water pipe flows in backwater pond；

Water in backwater pond is extracted and is used for air-cooler defrosting to air-cooler defrosting regulation station by air-cooler defrosting water pump, cold The water of blower fan defrosting is back to water supply pool through air-cooler defrosting main sewer；

During winter, it is arranged on ice thawing in winter water pump in aqua storage tank by the groundwater mining in aqua storage tank in ice-melt tank For ice-melt；

During summer, the water in backwater pond is drawn in ice-melt tank the summer ice-melt water pump being arranged in backwater pond For ice-melt.

The present invention is had the advantages that and advantage compared with prior art：

Freezer ice-make cycle system proposed by the present invention and refrigeration process distinguish subsoil water summer temp low winter temperature height Feature be respectively used to ice making and ice-melt, take full advantage of nature heat and natural cold quantity；Subsoil water pond is provided with purifying area The water being used in ice making is pure drinkable, expand institute's ice making can range, subsoil water pond, water supply pool and backwater water The collective effect in pond, makes ice making water obtain the recycling of maximum magnitude, the utilization rate that both improve water also improves water The utilization rate of middle energy, also improves ice making efficiency, and present invention process is simple, energy-efficient, economic and environment-friendly, is worthy to be popularized.

Brief description：

Fig. 1 is the structured flowchart of cold chain ice tank blood circulation proposed by the present invention.

In figure numbers explanation：1st, backwater pond；2nd, water supply pool；3rd, subsoil water pond；4th, evaporative condenser；5th, cold wind Machine defrosting regulation station；6th, summer ice-melt water pump；7th, evaporate cold circulating pump；8th, ice thawing in winter water pump；9th, underground water pump；10th, cold Blower fan defrosting water pump；11st, ice-melt tank；12nd, ice-melt water pipe；13rd, water supply water pipe；14th, subsoil water water pipe；15th, defrosting water pipe； 16th, overflow pipe；17th, backwater water pipe；18th, evaporate cold spilling water water pipe；19th, tap water water pipe；20th, air-cooler defrosting drain pipe； 21st, overflow pipe；301st, aqua storage tank；302nd, active carbon purifying layer；303rd, middle tank；304th, quartz sand purifying layer.

Specific embodiment：

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail：

In the present embodiment, freezer ice-make cycle system proposed by the present invention and refrigeration process, including backwater pond 1, supply water Pond 2, subsoil water pond 3, evaporative condenser 4, air-cooler defrosting regulation station 5, summer ice-melt water pump 6, evaporation cool circulation water Pump 7, ice thawing in winter water pump 8, underground water pump 9, air-cooler defrosting water pump 10 and ice-melt tank 11；Summer ice-melt water pump 6 is arranged In backwater pond 1, and it is connected with ice-melt tank 11 by ice-melt water pipe 12；Evaporation cold circulating pump 7 is arranged on water supply pool 2 Interior, and be connected with evaporative condenser 4 by water supply water pipe 13；Ice thawing in winter water pump 8 is arranged in subsoil water pond 3, and leads to Cross ice-melt water pipe 12 to be connected with ice-melt tank 11；Underground water pump 9 is arranged on underground, and passes through subsoil water water pipe 14 and subsoil water Pond 3 connects；Backwater pond 1 is connected with air-cooler defrosting regulation station by defrosting water pipe, and air-cooler defrosting water pump is arranged on punching On white water pipe 15；Backwater pond 1 is connected by a water level balance mouth of upper end with water supply pool 2；Water supply pool 2 and Groundwater The overflow pipe 16 passing through upper end between pond 3 is connected.

It is connected by backwater water pipe 17 between evaporative condenser 4 and backwater pond 1.

Pass through the cold spilling water water pipe 18 of evaporation between evaporative condenser 4 and backwater pond 1 to be connected.

Evaporative condenser 4 is also associated with tap water water pipe 19 for summer moisturizing.

Freezer ice-make cycle system in the present embodiment contains two evaporation cold circulating pumps 7, four evaporating type condensings Device 4, each evaporation cold circulating pump 7 provides ice making water, the steaming of each evaporative condenser 4 for two evaporative condensers 4 Feel cold spilling water water pipe 18 and tap water water pipe 19 all accumulate a big pipe in end, with facilitate the collection evaporating cold spilling water and The supply of tap water.

Subsoil water pond 3 is divided into aqua storage tank 301, active carbon purifying layer 302, middle tank 303 and quartz sand purifying layer 304, the water inlet of subsoil water water pipe 14 is arranged on the upper end of quartz sand purifying layer 304, quartz sand purifying layer 304 and middle tank The first lower mouth of a river passing through bottom between 303 is connected, and passes through the upper of top between middle tank 303 and active carbon purifying layer 302 The mouth of a river is connected, and is connected by the second lower mouth of a river of bottom between active carbon purifying layer 302 and aqua storage tank 301.

Air-cooler defrosting regulation station 5 is connected with water supply pool 2 by air-cooler defrosting drain pipe 20.

The upper end in backwater pond 1 is provided with overfall, and overfall is connected with an overflow pipe 21.

A kind of freezer refrigerating technique, including following step：

Underground water pump 9 groundwater abstraction sequentially enters quartz sand purifying layer 304, middle tank through subsoil water water pipe 14 303rd, active carbon purifying layer 302 and aqua storage tank 301, obtain pure subsoil water, when the water in aqua storage tank 301 reach a certain height Water supply pool 2 is flowed to by overflow pipe 16；

The evaporation cold circulating pump 7 being arranged in water supply pool 2 will be cold to vaporation-type for the groundwater mining in water supply pool 2 It is used for ice making in condenser 4, by tap water water pipe 19, evaporative condenser 4 is supplied water when groundwater supply is not enough；Steam Water after hairdo condenser 4 ice making flows in backwater pond 1 by backwater water pipe 17, during water excess in evaporative condenser 4 Flowed in backwater pond 1 by evaporating cold spilling water water pipe 18；

Water in backwater pond 1 is extracted and is used for air-cooler punching to air-cooler defrosting regulation station 5 by air-cooler defrosting water pump 10 Frost, the water of air-cooler defrosting is back to water supply pool 2 through air-cooler defrosting drain pipe 20；

During winter, the ice thawing in winter water pump 8 that is arranged in aqua storage tank 301 is by the groundwater mining in aqua storage tank 301 to melting It is used for ice-melt in ice water tank 11；

During summer, the water in backwater pond 1 is drawn into ice-melt water by the summer ice-melt water pump 6 being arranged in backwater pond 1 It is used for ice-melt in groove 11.

Finally illustrate, above example only in order to technical scheme to be described and unrestricted, although with reference to relatively Good embodiment has been described in detail to the present invention, it will be understood by those within the art that, can be to the skill of the present invention Art scheme is modified or equivalent, the objective without deviating from technical solution of the present invention and scope, and it all should be covered at this In the right of invention.

Claims (8)

1. a kind of freezer ice-make cycle system is it is characterised in that include：Backwater pond (1), water supply pool (2), subsoil water pond (3), evaporative condenser (4), air-cooler defrosting regulation station (5), summer ice-melt water pump (6), evaporation cold circulating pump (7), the winter Ji Rongbing water pump (8), underground water pump (9), air-cooler defrosting water pump (10) and ice-melt tank (11)；Described summer ice-melt water pump (6) it is arranged in described backwater pond (1), and be connected with ice-melt tank (11) by ice-melt water pipe (12)；Described evaporation is cold to follow Ring water pump (7) is arranged in described water supply pool (2), and is connected with described evaporative condenser (4) by water supply water pipe (13)； Described ice thawing in winter water pump (8) is arranged in described subsoil water pond (3), and by ice-melt water pipe (12) and described ice-melt tank (11) connect；Described underground water pump (9) is arranged on underground, and by subsoil water water pipe (14) and described subsoil water pond (3) Connect；Described backwater pond (1) is connected with described air-cooler defrosting regulation station (5) by defrosting water pipe (15), described air-cooler Defrosting water pump (10) is arranged on described defrosting water pipe (15)；Described backwater pond (1) passes through the one of upper end with water supply pool (2) Water level balance mouth is connected；Pass through an overflow pipe (16) phase of upper end between described water supply pool (2) and subsoil water pond (3) Even.

2. freezer ice-make cycle system according to claim 1 it is characterised in that described evaporative condenser (4) with return Pass through backwater water pipe (17) between water pond (1) to be connected.

3. freezer ice-make cycle system according to claim 1 it is characterised in that described evaporative condenser (4) with return Pass through the cold spilling water water pipe (18) of evaporation between water pond (1) to be connected.

4. according to claim 1 it is characterised in that described evaporative condenser (4) is also associated with tap water water pipe (19) it is used for summer moisturizing.

5. according to claim 1 it is characterised in that described subsoil water pond (3) is divided into aqua storage tank (301), activated carbon Purifying layer (302), middle tank (303) and quartz sand purifying layer (304), the water inlet of described subsoil water water pipe (14) is arranged on The upper end of described quartz sand purifying layer (304), passes through bottom between described quartz sand purifying layer (304) and middle tank (303) The first lower mouth of a river be connected, by the filling pipe end phase on top between described middle tank (303) and active carbon purifying layer (302) Even, it is connected by the second lower mouth of a river of bottom between described active carbon purifying layer (302) and aqua storage tank (301).

6. according to claim 1 it is characterised in that described air-cooler defrosting regulation station (5) is arranged by air-cooler defrosting Water pipe (20) is connected with water supply pool (2).

7. according to claim 1 it is characterised in that the upper end of described backwater pond (1) is provided with overfall, described overflow Head piece is connected with an overflow pipe (21).

8. a kind of freezer refrigerating technique is it is characterised in that include following step：

Underground water pump (9) groundwater abstraction sequentially enters quartz sand purifying layer (304), middle tank through subsoil water water pipe (14) (303), active carbon purifying layer (302) and aqua storage tank (301) obtain pure subsoil water, and the water in aqua storage tank (301) reaches one Determine to flow to water supply pool (2) by overflow pipe (16) during height；

It is arranged on evaporation cold circulating pump (7) in water supply pool (2) by the groundwater mining in water supply pool (2) to vaporation-type It is used for ice making, by tap water water pipe (19) to evaporative condenser (4) when groundwater supply is not enough in condenser (4) Supply water；Water after evaporative condenser (4) ice making flows in backwater pond (1) by backwater water pipe (17), evaporative condenser (4) flowed in backwater pond (1) by evaporating cold spilling water water pipe (18) during water excess in；

Water in backwater pond (1) is extracted and is used for air-cooler to air-cooler defrosting regulation station (5) by air-cooler defrosting water pump (10) Defrosting, the water of air-cooler defrosting is back to water supply pool (2) through air-cooler defrosting drain pipe (20)；

During winter, the groundwater mining in aqua storage tank (301) is arrived by the ice thawing in winter water pump (8) being arranged in aqua storage tank (301) It is used for ice-melt in ice-melt tank (11)；

During summer, the water in backwater pond (1) is drawn into ice-melt by summer ice-melt water pump (6) being arranged in backwater pond (1) It is used for ice-melt in tank (11).