CN1380522A - Integrated ice cold-storing machine unit - Google Patents

Abstract

The present invention relates to an integrated ice cold-storing machine unit, and is characterized by that the compressor, condenser, throttling device, evaporator, ice-storing groove body, cold-carrying agent pump, heat exchanger, cold-carrying agent expanding box, electric regulating valve, electromagentic valve, connecting pipeline and electric control box with electric control integrated system are arranged in the box body, and on the box body a pipeline interface connected with air-conditioning refrigerating water system is set, and in the box body one or two cold-carrying pumps can be arranged, and one or two heat-exchangers also can be adopted, the ice groove and the heat exchanger can be series-connected or parallelly-connected.

Description

A kind of integrated ice cold-storing unit

Technical field

The invention belongs to refrigeration air-conditioner and ice storage technology field, relate in particular to a kind of structural design of icing the cold-storage unit.

Background technology

Ice-chilling air conditioning system is to utilize electrical network cheap electric power such as the night electricity of low-load period, and the cold of refrigeration system being produced by refrigerating medium (being generally glycol water) is stored in the water, water congeals into ice; And, the cold in the ice is discharged to the air-conditioning system cooling, thereby reduce the electrical network high load capacity phase to the demand of electric power, the air-conditioning system of realization power system " peak load shifting " on the electrical network high load capacity phase such as the daytime of electricity price costliness.Therefore this technology has obtained the support energetically of electric power policy, is developed rapidly at home.

Cold accumulation system comprises that refrigeration machine, cold-storage device, refrigerating medium-air conditioner water heat exchanger (hereinafter to be referred as heat exchanger), coolant pump, motor regulated valve and corresponding transmission ﹠ distribution pipeline and electric autocontrol system etc. partly form.At present, existing ice-storage system all is by above-mentioned each individual components, forms by design selection, the on-the-spot installation.Because ice-chilling air conditioning system equipment is many, therefore the pipeline complexity is compared with the common air-conditioning system, and its site operation, installation and debugging work load are big, and the work difficulty height causes long construction period, and systematic function is difficult to ensure the construction costs height; And because of the optimization operation of ice-storage system has direct relation with the weather of next day, the part throttle characteristics of building, the cold-storage and the factors such as getting cold characteristic of system, so the engineers and technicians of cold accumulation system and Control System Design have been proposed specific (special) requirements.

The content of invention

Purpose of the present invention and task are in order to improve construction quality, reduce system cost, shorten construction period, propose a kind ofly by standardized designs, and " the integrated ice cold-storing unit " produced in batches in factory is with the defective and the deficiency of improvement prior art.

Above-mentioned purpose and task are achieved by the following technical solution: a kind of integrated ice cold-storing unit, it is characterized in that: the electric cabinet that is furnished with compressor, condenser, throttling arrangement, evaporimeter, ice-reserving cell body, coolant pump, heat exchanger, refrigerating medium expansion tank, motor regulated valve, magnetic valve, connecting line and automatically controlled integrated system is housed in a casing, leave the pipe interface that is connected with air conditioning water system on the casing.

In technique scheme, can arrange one or two coolant pump in the described casing, its heat exchanger also can adopt one or two, and when adopting a coolant pump and a heat exchanger, ice groove and heat exchanger adopt arranged in series.When adopting two coolant pump and a heat exchanger, ice groove and heat exchanger can adopt arranged in series or be arranged in parallel dual mode.

Technical program of the present invention also lies in: when arranging two coolant pump and two heat exchangers in the casing, described two heat exchangers are arranged in parallel, and heat exchanger and ice groove employing parallel way.

Described heat exchanger can adopt forms such as plate type heat exchanger, shell and tube exchanger, double pipe heat exchanger.

Described ice-reserving cell body can adopt the interior ice-melt ice groove of forms such as snake type coiled Ice Storage Tank, cylinder type coiled Ice Storage Tank, U type vertical disc tubular type Ice Storage Tank, ice ball type Ice Storage Tank.

Described ice-reserving cell body can also be arranged in outside the casing, is connected with pipeline in the casing by the pipe interface that is arranged on the casing.

The present invention compared with prior art has the following advantages:

(1) good engineering quality: because mass production and strict quality inspection is arranged can guarantee product quality, for the raising of construction quality is laid a good foundation; (2) average price is low: finish because the transfer of content that much needed in the past site operation is finalized the design in the factory, so reduced construction cost; Owing to centralized purchasing, batch process, make production cost reduce simultaneously; (3) construction period shortens: on-the-spotly only need simple the installation and debugging, and can standard operation, be easy to ensure the quality of products, shorten construction period.As long as this integrated ice cold-storing unit dock with the air conditioner user chilled water pipe can realize ice-reserving, cold machine cooling, ice groove cooling and cold machine are united four kinds of operational modes of cooling with the ice groove, thereby the saving mounting cost; Refrigeration machine control and ice storage system automatic control be in one, thereby debug convenient, fast; Capital equipment and connecting line are batch production production, guarantee product quality easily; Be convenient to maintenance management; Save installing space and area, needn't adopt the large tracts of land machine room, or whole machine installation is got final product in outdoor vacant lot or roof.

Description of drawings

Fig. 1 is the connection layout of Series Sheet pump form of the present invention.

Fig. 2 is the flow graph under the independent cold-storage operating mode of Series Sheet pump form of the present invention.

Fig. 3 is the flow graph under the ice-melt cooling operating mode of Series Sheet pump form of the present invention.

Fig. 4 is the flow graph under the cold machine cooling operating mode of Series Sheet pump form of the present invention.

Fig. 5 is the flow graph under the associating cooling operating mode of Series Sheet pump form of the present invention.

Fig. 6 is the connection layout of series connection double pump form of the present invention.

Fig. 7 is the connection layout of mono heat exchanger form in parallel of the present invention.

Fig. 8 is the flow graph under the independent cold-storage operating mode of mono heat exchanger form in parallel of the present invention.

Fig. 9 is the flow graph under the ice-melt cooling operating mode of mono heat exchanger form in parallel of the present invention.

Figure 10 is the flow graph under the cold machine cooling operating mode of mono heat exchanger form in parallel of the present invention.

Figure 11 is the flow graph under the associating cooling operating mode of mono heat exchanger form in parallel of the present invention.

Figure 12 is the connection layout of double heat exchanger form in parallel of the present invention.

Figure 13 is the flow graph under the independent cold-storage operating mode of double heat exchanger form in parallel of the present invention.

Figure 14 is the flow graph under the ice-melt cooling operating mode of double heat exchanger form in parallel of the present invention.

Figure 15 is the flow graph under the cold machine cooling operating mode of double heat exchanger form in parallel of the present invention.

Figure 16 is the flow graph under the associating cooling operating mode of double heat exchanger form in parallel of the present invention.

The specific embodiment

Further specify the concrete structure of the present invention and the course of work below in conjunction with accompanying drawing:

The present invention is the electric cabinet 12 that is furnished with compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3, ice-reserving cell body 13, coolant pump 5, heat exchanger 9, refrigerating medium expansion tank 11, motor regulated valve (6,7), magnetic valve (8,10), connecting line and automatically controlled integrated system is housed in a casing 14, leaves the pipe interface a1 and the a2 that are connected with air conditioning water system on the casing.

The operation that the cold-producing medium of being made up of compressor 4, condenser 1, throttling arrangement 2 and evaporimeter 3 circulates can be divided into air-conditioning and two kinds of operating modes of ice-reserving.When refrigeration unit is operated in air conditioning condition and ice-reserving operating mode respectively, refrigerating medium drives by one or more coolant pump, magnetic valve, heat exchanger and ice-reserving cell body by refrigeration unit, electric control valve, unlatching, the cold of refrigeration unit manufacturing is discharged in air conditioner water or the ice trough inner water medium, to realize four kinds of operational modes of ice-reserving, ice-melt cooling, the independent cooling of cold machine and cold machine and ice groove associating cooling.

Multi-form according to ice storage system, ice cold-storage unit can be divided into Series Sheet pump, polyphone double pump, mono heat exchanger in parallel and double heat exchanger in parallel four classes.Embodiment 1: the integrated ice cold-storing unit of Series Sheet pump form:

Fig. 1 is the connection layout of Series Sheet pump form integrated ice cold-storing unit.

In refrigerant loop, by be linked in sequence into the closed system of cold-producing medium tube connector by compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3.

In refrigerating medium loop, with coolant pump 5, evaporimeter 3, electric control valve 6 and 7, magnetic valve 8 and 10, heat exchanger 9, refrigerating medium expansion tank 11 and ice-reserving cell body 13 connect into a closed system by the refrigerating medium tube connector.

With the cooling medium driving arrangement of the compressor in the refrigerant loop 4, condenser 1 and the coolant pump 5 in the refrigerating medium loop, electric control valve 6 and 7, magnetic valve 8 and 10 and the sensing device that is used to detect states such as cold-producing medium and refrigerating medium concentrate in the electric cabinet 12 by electric signal line or lead, realize the optimization operation of whole device.

The parts of above-mentioned formation refrigerant loop and refrigerating medium loop and electric cabinet concentrated be contained in the casing 14, housing leaves connector a1, the a2 that connects air conditioner user outward, and air conditioning water flows out the supply air conditioner user from the a2 mouth, gets back to unit from the a1 mouth.

(a) when ice-storage system operates in the ice-reserving pattern (as shown in Figure 2), cold-producing medium circular flow is in the ice-reserving operating mode, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Magnetic valve 10 and electric control valve 6 in the refrigerating medium loop are closed, and magnetic valve 8 and electric control valve 7 are opened; Refrigerating medium is inflow evaporator 3 after coolant pump 5 pressurizations, flows into ice making in the ice-reserving cell body 13 behind the absorption cold, behind the released cold quantity, returns coolant pump 5 through electric control valve 7 and magnetic valve 8 again, enters next circulation.

(b) when ice-storage system operates in ice-melt cooling pattern (as shown in Figure 3), the cold-producing medium circulation quits work.Coolant pump 5 operations in the refrigerating medium loop, magnetic valve 8 cuts out, and magnetic valve 10 is opened, and electric control valve 6 and 7 respectively is opened to certain aperture, and control enters the temperature of the refrigerating medium of heat exchanger 9; Refrigerating medium is after flowing through evaporimeter 3 after coolant pump 5 pressurizations, flow into 13 ice-melts of ice-reserving cell body get cold after, after the refrigerating medium that electric control valve 7 and process electric control valve 6 bypass are come mixes, after magnetic valve 10 enters heat exchanger 9 cooling air conditioning waters, return coolant pump 5 again, enter next circulation.

(c) when ice-storage system operates in the independent cooling pattern of cold machine (as shown in Figure 4), cold-producing medium circular flow is in air conditioning condition, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Coolant pump 5 operations in the refrigerating medium loop, electric control valve 7 cuts out with magnetic valve 8, and electric control valve 6 is opened with magnetic valve 10; Refrigerating medium enters through electric control valve 6 and magnetic valve 10 and to return coolant pump 5 after heat exchanger 9 cools off air conditioning waters after coolant pump 5 pressurization back inflow evaporator 3 absorbs colds, enters next circulation.

(d) when ice-storage system operates in cold machine with ice groove associating cooling pattern (as shown in Figure 5), cold-producing medium circular flow is in air conditioning condition, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Coolant pump 5 operations in the refrigerating medium loop, magnetic valve 8 cuts out, and magnetic valve 10 is opened, and electric control valve 6 and 7 respectively is opened to certain aperture, and control enters the temperature of the refrigerating medium of heat exchanger 9; Refrigerating medium is after inflow evaporator 3 absorbs cold after coolant pump 5 pressurizations, flow into again 13 ice-melts of ice-reserving cell body get cold after, after the refrigerating medium that electric control valve 7 and process electric control valve 6 bypass are come mixes, after magnetic valve 10 enters heat exchanger 9 cooling air conditioning waters, return coolant pump 5 again, enter next circulation.Embodiment 2: the integrated ice cold-storing unit of series connection double pump form:

Fig. 6 is the connection layout of series connection double pump form integrated ice cold-storing unit of the present invention.

For Series Sheet pump form integrated ice cold-storing unit as shown in Figure 1, series connection double pump form integrated ice cold-storing unit is set up a coolant pump 15 on the inlet pipeline of heat exchanger 9 on the basis of Series Sheet pump form integrated ice cold-storing unit, its objective is by coolant pump 5 and be responsible for overcoming the resistance of refrigerating medium in evaporimeter 3 and ice groove 13 refrigerating medium passages, and be responsible for overcoming resistance in the heat exchanger 9 refrigerating medium passages by coolant pump 15.When coolant pump 5 was operated in different mode like this, the variation of its resistance was not very big, not only helps the type selecting of coolant pump 5 and 15, and helped the reliability service of whole unit.

Under various operational modes, refrigerating medium flows to embodiment 1.Embodiment 3: the integrated ice cold-storing unit of mono heat exchanger form in parallel:

Fig. 7 is the connection layout of mono heat exchanger form integrated ice cold-storing unit in parallel of the present invention.

Compare with series connection double pump form integrated ice cold-storing unit shown in Figure 6 with Series Sheet pump form integrated ice cold-storing unit shown in Figure 1, in order to solve under the ice groove independent cooling pattern drag losses unnecessary in evaporimeter, and improve the cold machine of ice groove and unite the inlet temperature of icing groove under the cooling pattern, improve the ice groove and get the cooling rate rate, change the original ice groove and the series arrangement of heat exchanger into parallel-connection structure.

(a) when ice-storage system operates in the ice-reserving pattern (as shown in Figure 8), cold-producing medium circular flow is in the ice-reserving operating mode, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Magnetic valve 10 and electric control valve 6 are closed in the refrigerating medium loop, and magnetic valve 8 and electric control valve 7 are opened, coolant pump 5 operations, and coolant pump 15 is closed; Refrigerating medium flows to after coolant pump 5 pressurizations and flows into ice making in the ice-reserving cell body 13 after evaporimeter 3 absorbs cold, behind the released cold quantity, returns coolant pump 5 by electric control valve 7 and magnetic valve 8 successively again, enters next circulation.

(b) when ice-storage system operates in ice-melt cooling pattern (as shown in Figure 9), the cold-producing medium circulation is out of service.Coolant pump 5 and magnetic valve 8 in the refrigerating medium loop are closed, coolant pump 15 operations, and magnetic valve 10 is opened, and electric control valve 6 and 7 respectively is opened to certain aperture, and control enters the temperature of the refrigerating medium of heat exchanger 9; The refrigerating medium that flows out from heat exchanger 9 through flow to behind the electric control valve 7 the ice-reserving cell body 13 ice-melt get cold after, mix with the refrigerating medium of coming through electric control valve 6 bypass, successively by magnetic valve 10 and coolant pump 15, flow back to heat exchanger 9 again, enter next circulation.

(c) when ice-storage system operates in the independent cooling pattern of cold machine (as shown in figure 10), cold-producing medium circular flow is in air conditioning condition, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4. Electric control valve 6 and 7 cuts out in the refrigerating medium loop, magnetic valve 8 and 10 and coolant pump 5 and 15 open; Refrigerating medium by after entering heat exchanger 9 and air conditioner water after magnetic valve 10 and the coolant pump 15 and carrying out heat exchange, returns coolant pump 5 through magnetic valve 8 and enters next circulation after coolant pump 5 pressurization back inflow evaporator 3 absorbs colds.

(d) when ice-storage system operates in cold machine with ice groove associating cooling pattern (as shown in figure 11), cold-producing medium circular flow is in air conditioning condition, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4. Magnetic valve 8 and 10 is opened in the refrigerating medium loop, and coolant pump 5 and 15 all puts into operation, and electric control valve 6 and 7 all is opened to certain aperture and controls the refrigerant temperature that enters heat exchanger 9; The refrigerating medium that is come out by heat exchanger 9 is divided into three tunnel: one tunnel process magnetic valve 8 by coolant pump 5 inflow evaporators 3 absorption colds; Another road is got cold by ice-melt in the electric control valve 7 inflow ice-reserving cell bodies 13; Third Road directly from the electric control valve 6 bypass come; Send into heat exchanger 9 after three tunnel refrigerating mediums that converge are pressurizeed by coolant pump 15 through magnetic valve 10 and enter next circulation.Embodiment 4: the integrated ice cold-storing unit of double heat exchanger form in parallel:

Figure 12 is the connection layout of double heat exchanger form integrated ice cold-storing unit in parallel of the present invention.

Represent that with Series Sheet pump form integrated ice cold-storing unit shown in Figure 1, series connection double pump form integrated ice cold-storing unit shown in Figure 6 and Fig. 7 mono heat exchanger form integrated ice cold-storing unit in parallel compares, can satisfy apolegamy under the various operating modes for ease of the coolant pump pressure head, improve under ice groove and the cold machine associating cooling pattern and get cold reliability, the heat exchanger that both are public is separated into two heat exchangers, constitutes double heat exchanger in parallel system.Double heat exchanger form integrated ice cold-storing unit in parallel has the refrigerating medium/air conditioner water heat exchanger 9 and 17 of two parallel connections, makes refrigeration machine cooling and ice groove cooling use separately independently heat exchanger.

(a) when ice-storage system operates in the ice-reserving pattern (as shown in figure 13), cold-producing medium circular flow is in the ice-reserving operating mode, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Magnetic valve 8 is opened in the refrigerating medium loop, magnetic valve 10 with 16 and electric control valve 6 and 7 and the air-condition freezing water loop in magnetic valve 18 and 19 all close, coolant pump 15 is out of service, coolant pump 5 is moved; Refrigerating medium behind the inflow evaporator 3 absorption colds of coolant pump 5 pressurization back by magnetic valve 8 after go into ice making in the ice-reserving cell body 13, the refrigerating medium behind the released cold quantity flows to coolant pump 5 again and enters next circulation.

(b) when ice-storage system operates in ice-melt cooling pattern (as shown in figure 14), the cold-producing medium circulation is out of service.Refrigerating medium carries out heat exchange by heat exchanger 9 and air conditioner water.At this moment, magnetic valve 8,16 and 18 and coolant pump 5 close, magnetic valve 10 and 19 and coolant pump 15 open, electric control valve 6 and 7 respectively is opened to certain aperture, control enters the refrigerant temperature of heat exchanger 9; The refrigerating medium that flows out from heat exchanger 9 through electric control valve 7 flow into 13 ice-melts of ice-reserving cell bodies get cold after, mix with the refrigerating medium of coming through electric control valve 6 bypass, inflow heat exchanger 9 carries out heat exchange with air conditioning water after magnetic valve 10 is by coolant pump 15 pressurizations again, enters next circulation.Air conditioning water enters unit from connector a1, enters heat exchanger 9 by magnetic valve 19, flows out from connector a2 after obtaining cold.

(c) when ice-storage system operates in the independent cooling pattern of cold machine (as shown in figure 15), cold-producing medium circular flow is in air conditioning condition, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Refrigerating medium carries out heat exchange by heat exchanger 17 and air conditioner water in the refrigerating medium loop, and magnetic valve 16 and 18 is opened, and magnetic valve 8,10,19 and electric control valve 6 and 7 are all closed, and coolant pump 15 is closed, coolant pump 5 operations; Refrigerating medium enters through magnetic valve 16 and returns coolant pump 5 after heat exchanger 17 and air conditioning water carry out heat exchange and enter next circulation after coolant pump 5 pressurization back inflow evaporator 3 absorbs colds.Air conditioning water enters unit from connector a1, enters heat exchanger 17 by magnetic valve 18, flows out from connector a2 after obtaining cold.

(d) when ice-storage system operates in cold machine with ice groove associating cooling pattern (as shown in figure 16), cold-producing medium circular flow is in air conditioning condition, and cold-producing medium flows along compressor 4, condenser 1, throttling arrangement 2, evaporimeter 3 directions, returns compressor 4.Refrigerating medium is respectively by two closed circuits in the refrigerating medium loop, by heat exchanger 9 and 17 and air conditioner water carry out heat exchange, magnetic valve 8 cuts out, magnetic valve 10,16,18,19 and electric control valve 6,7 are all opened, coolant pump 5 and 15 all puts into operation; The refrigerating medium system exists cold machine cooling and ice groove cooling two circulations: refrigerating medium enters through magnetic valve 16 and returns coolant pump 5 after heat exchanger 17 and air conditioning water carry out heat exchange and enter next circulation after coolant pump 5 pressurization back inflow evaporators 3 absorb colds in the cold machine cooling circulation; The refrigerating medium that flows out from heat exchanger 9 in the circulation of ice groove cooling through electric control valve 7 flow into 13 ice-melts of ice-reserving cell bodies get cold after, mix with the refrigerating medium of coming through electric control valve 6 bypass, inflow heat exchanger 9 carries out heat exchange with air conditioning water after magnetic valve 10 is by coolant pump 15 pressurizations again, enters next circulation.Air conditioning water is entered by connector b1 and divides two branch roads behind the unit, and a branch road enters heat exchanger 17 by magnetic valve 18, and another branch road enters heat exchanger 9 by magnetic valve 19, converges from connector b2 after obtaining cold.

Claims (8)

1, a kind of integrated ice cold-storing unit, it is characterized in that: the electric cabinet that is furnished with compressor, condenser, throttling arrangement, evaporimeter, ice-reserving cell body, coolant pump, heat exchanger, refrigerating medium expansion tank, motor regulated valve, magnetic valve, connecting line and automatically controlled integrated system is housed in a casing, leave the pipe interface that is connected with air conditioning water system on the casing.

2, according to the described a kind of integrated ice cold-storing unit of claim 1, it is characterized in that: arrange a coolant pump and a heat exchanger in the described casing, ice groove and heat exchanger adopt arranged in series.

3, according to the described a kind of integrated ice cold-storing unit of claim 1, it is characterized in that: arrange two coolant pump and a heat exchanger in the described casing, described ice groove and heat exchanger adopt arranged in series.

4, according to the described a kind of integrated ice cold-storing unit of claim 3, it is characterized in that: described ice groove and heat exchanger adopt and are arranged in parallel.

5, according to the described a kind of integrated ice cold-storing unit of claim 1, it is characterized in that: arrange two coolant pump and two heat exchangers in the described casing, described two heat exchangers adopt in parallel, and heat exchanger is arranged in parallel with the ice groove.

6, according to the described a kind of integrated ice cold-storing unit of arbitrary claim among the claim 1-5, it is characterized in that: described heat exchanger adopts any in plate type heat exchanger, double pipe heat exchanger or the shell and tube exchanger.

7, according to the described a kind of integrated ice cold-storing unit of arbitrary claim among the claim 1-5, it is characterized in that: described ice-reserving cell body can formula adopt any the interior ice-melt in snake type coiled Ice Storage Tank, cylinder type coiled Ice Storage Tank, U type vertical disc tubular type Ice Storage Tank or the ice ball type Ice Storage Tank to ice groove.

8, according to the described a kind of integrated ice cold-storing unit of claim 1, it is characterized in that: described ice-reserving cell body is arranged in outside the casing, is connected with pipeline in the casing by the pipe interface that is arranged on the casing.

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