CN207501307U - A kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying - Google Patents

Abstract

The utility model is related to a kind of humiture independent adjusting air conditioner systems of accumulation of energy dehumidifying, including temperature control unit and humidity controlling unit, temperature control unit includes high temperature cold water unit, First Heat Exchanger and dry type end, the primary side of high temperature cold water unit and First Heat Exchanger connects, the secondary side of First Heat Exchanger is connect with dry type end, humidity controlling unit includes Double-working-condition host, ice storage unit, second heat exchanger and fresh air dehumidifier, ice storage unit is connect with the primary side of the second heat exchanger, the secondary side of second heat exchanger is connect with fresh air dehumidifier, Double-working-condition host is connect with ice storage unit, it is with simple in structure, it is of low cost, Energy Efficiency Ratio is high, it is adaptable, the advantages of reliability is high, the stability of system can be enhanced, it cuts operating costs.

Description

A kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying

Technical field

The utility model is related to a kind of air-conditioning system, more particularly, to a kind of separately adjustable air-conditioning of humiture of accumulation of energy dehumidifying System.

Background technology

Air-conditioning system is the infrastructure of building, and important work is played to adjust indoor temperature, improving air quality With.Traditional air-conditioning system carries out heat and wet treatment with same equipment to air, when Indoor Thermal humidity load changes, is typically only capable to Adjusting device is crossed to maintain indoor temperature constant, at this moment indoor relative humidity is variation, and not only humidity cannot be controlled effectively System, and cause energy waste because thermic load and dehumidifying share low temperature chilled water.To solve to ask existing for traditional air-conditioning system Topic, this field has researched and developed the air-conditioning system of independent temperature-humidity control, and is promoted and applied.But existing humiture is only The air-conditioning system of vertical control, which still remains, stores up more problems and has to be solved, is mainly manifested in following aspect：Its temperature control system Because of the chiller unit using 7/12 degree, not only efficiency is low, and affects cooling capacity utilization rate because water temperature is too low；Its humidity control The refrigeration machine that system processed uses needs to increase in fresh air damping unit because 7 degree of offer cannot fully meet dehumidification requirements with water If compressor assembly meets dehumidification requirements to form double low-temperature receivers, this can increase the complexity of structure, and it is difficult to increase control Degree；Its operational mode is more single, poor to the adaptability of environment, causes that whole Energy Efficiency Ratio is relatively low, and operating cost is higher.

Utility model content

The purpose of this utility model is to provide a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying, with structure Simply, of low cost, the advantages of Energy Efficiency Ratio is high, adaptable, reliability is high, can enhance the stability of system, reduce operation into This.

To solve the above-mentioned problems in the prior art, a kind of humiture of accumulation of energy dehumidifying provided by the utility model is only Vertical to adjust air-conditioning system, including temperature control unit and humidity controlling unit, the temperature control unit includes high-temperature cooling water machine Group, First Heat Exchanger and dry type end, the high temperature cold water unit are exchanged heat by the first water-supply-pipe and the first return pipe and first The primary side connection of device, the first return pipe are equipped with first circulation and pump, the secondary side of First Heat Exchanger by the second water-supply-pipe with Second return pipe is connect with dry type end, and the second water-supply-pipe is pumped equipped with second circulation；The humidity controlling unit includes duplex Condition host, ice storage unit, the second heat exchanger and fresh air dehumidifier, the ice storage unit pass through third water-supply-pipe and third return pipe It is connect with the primary side of the second heat exchanger, third water-supply-pipe is equipped with third circulating pump, and the secondary side of the second heat exchanger passes through the Four water-supply-pipes and the 4th return pipe are connect with fresh air dehumidifier, and the 4th water-supply-pipe is equipped with the 4th circulating pump, the Double-working-condition master Machine is corresponded to by the 5th water-supply-pipe and the 5th return pipe and is connect with third return pipe and third water-supply-pipe, and make the 5th return pipe and The tie point of third water-supply-pipe is in side of the third circulating pump relative to ice storage unit, and the 5th return pipe is equipped with the 5th cycle Pump.

Further, a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model, wherein, the humidity Control unit further includes third heat exchanger, and the primary side of the third heat exchanger is corresponded to by the 6th water-supply-pipe and the 6th return pipe It is connect with the 5th water-supply-pipe and the 5th return pipe, and the 5th circulating pump is made to be in the tie point of the 6th return pipe and the 5th return pipe Relative to the side of Double-working-condition host, the secondary side of third heat exchanger is corresponded to and the 4th by the 7th water-supply-pipe and the 7th return pipe Water-supply-pipe and the 4th return pipe connection, and make the tie point of the 7th water-supply-pipe and the 4th water-supply-pipe be in the 4th circulating pump relative to The side of second heat exchanger；6th water-supply-pipe is equipped with control valve M1, and the 5th between the 6th water-supply-pipe and third return pipe is defeated Water pipe is equipped with control valve M2.

Further, a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model, wherein, the described 6th The 5th return pipe between return pipe and third water-supply-pipe is equipped with control valve M3.

Further, a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model, wherein, the described 6th Return pipe is connect by the 8th return pipe with third return pipe, and the tie point of the 8th return pipe and third return pipe is made to be in the Between five water-supply-pipes and the second heat exchanger, there is no control valve M4 on the 8th return pipe, between the 8th return pipe and the 5th water-supply-pipe Third return pipe be equipped with control valve M5, third water-supply-pipe between the 5th return pipe and third circulating pump is equipped with control valve M6。

Further, a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model, wherein, the third It is connected between water-supply-pipe and third return pipe by regulation pipe, regulation pipe is equipped with control valve M7, regulation pipe and third water-supply-pipe Tie point be between control valve M6 and third circulating pump, the tie point of regulation pipe and third return pipe be in control valve M5 and Between second heat exchanger.

Further, a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model, wherein, the described 6th The 5th return pipe between return pipe and the 5th circulating pump is equipped with constant pressure water compensation apparatus.

Further, a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model, wherein, further include control Unit processed, the high temperature cold water unit, Double-working-condition host, first circulation pump, second circulation pump, third circulating pump, the 4th cycle Pump, the 5th circulating pump, control valve M1, control valve M2, control valve M3, control valve M4, control valve M5, control valve M6 and control valve M7 It is electrically connected with control unit.

A kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model compared with prior art, has following Advantage：The utility model allows temperature control unit to set by setting the temperature control unit and humidity controlling unit of independent control High temperature cold water unit, First Heat Exchanger and dry type end are put, and high temperature cold water unit is allowed to pass through the first water-supply-pipe and the first return water Pipe connect with the primary side of First Heat Exchanger, and the setting first circulation pump on the first return pipe, allows the secondary of First Heat Exchanger Side is connect by the second water-supply-pipe and the second return pipe with dry type end, and second circulation is set to pump on the second water-supply-pipe.Together When, allow humidity controlling unit setting Double-working-condition host, ice storage unit, the second heat exchanger and fresh air dehumidifier, and allow ice storage unit It is connect by third water-supply-pipe and third return pipe with the primary side of the second heat exchanger, and third is set to follow on third water-supply-pipe Ring pumps, and the secondary side of the second heat exchanger is allowed to be connect by the 4th water-supply-pipe and the 4th return pipe with fresh air dehumidifier, and the 4th 4th circulating pump is set on water-supply-pipe；Double-working-condition host is allowed to be corresponded to and third return pipe by the 5th water-supply-pipe and the 5th return pipe It is connected with third water-supply-pipe, and the tie point of the 5th return pipe and third water-supply-pipe is made to be in third circulating pump and is filled relative to ice-reserving The side put, and the 5th circulating pump is set on the 5th return pipe.By more than structure setting just constitute it is a kind of it is simple in structure, The humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of low cost, Energy Efficiency Ratio is high, adaptable, reliability is high.In reality In, it is only to realize humiture by allowing temperature control unit and humidity controlling unit respectively independent operating for the utility model Vertical control, the purpose adjusted, can enhance the flexibility of control, improve indoor air quality, reduce whole energy consumption.For temperature control Unit processed, the utility model is by using high temperature cold water unit, compared to the efficiency that chiller unit can improve 30%, cold Effective rate of utilization is also greatly improved.For humidity controlling unit, the utility model, can be straight by having adopted Double-working-condition host It connects and 5 degree of low-temperature cold waters that fresh air dehumidifier needs is provided, do not needed to compared to traditional refrigeration machine (7 degree of water supply) in fresh air dehumidification Compressor is added in unit, simplifies system structure, reduces control difficulty.Meanwhile the utility model is by allowing Double-working-condition master Machine and ice storage unit form energy-storage system, and Double-working-condition host is allowed to run and to storage at 23 points at 7 points in the low power consumption period (to next day) Ice-reserving in ice production apparatus, and allow ice storage unit by the second heat exchanger to fresh air dehumidifier at 7 points to 23 points in the peak of power consumption period () Low-temperature cold water is provided, it can be achieved that the utilization of avoiding the peak hour of electric energy, is greatly reduced operating cost, and with simple in structure, control readily Advantage.Detailed process is as follows：In the low power consumption period, Double-working-condition host and the 5th is allowed to recycle pump startup, and allow third circulating pump Stop with the 4th circulating pump, Double-working-condition host and ice storage unit are corresponded to and third return water by the 5th water-supply-pipe, the 5th return pipe Pipe, third water-supply-pipe connect and compose circulation loop, and so as to fulfill ice-reserving energy storage purpose, third, which recycles, at this time pumps up shut-off valve work With；In the peak of power consumption period, Double-working-condition host and the 5th circulating pump is allowed to stop, and third circulating pump and the 4th circulating pump is allowed to open Dynamic, secondary side and the fresh air dehumidifier of the primary side and the second heat exchanger of ice storage unit and the second heat exchanger respectively constitute cycle Circuit, so as to fulfill ice-melt cooling purpose, the 5th cycle pumps up shut-off valve effect at this time.The utility model can enhance the steady of system It is qualitative, reduce energy consumption and operation cost.

A kind of humiture of accumulation of energy dehumidifying is separately adjustable to the utility model for shown specific embodiment below in conjunction with the accompanying drawings Air-conditioning system is described in further detail：

Description of the drawings

Fig. 1 is a kind of schematic diagram of the humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model.

Specific embodiment

A kind of specific embodiment party of the humiture independent adjusting air conditioner system of accumulation of energy dehumidifying of the utility model as shown in Figure 1 Formula, including temperature control unit and humidity controlling unit.Temperature control unit specifically includes the heat exchange of high temperature cold water unit 1, first Device 2 and dry type end 3 allow high temperature cold water unit 1 to pass through the first water-supply-pipe 11 and the first return pipe 12 and the one of First Heat Exchanger 2 Secondary side connection, and first circulation is set to pump 13 on the first return pipe 12, the secondary side of First Heat Exchanger 2 is allowed to pass through the second water delivery 21 and second return pipe 22 of pipe is connect with dry type end 3, and second circulation is set to pump 23 on the second water-supply-pipe 21.Wherein, it does The diversified forms such as capillary end, copper pipe radiant panel, concrete pipe laying or dry-type fan coil can be used in formula end 3.Humidity control Unit processed includes Double-working-condition host 4, ice storage unit 5, the second heat exchanger 6 and fresh air dehumidifier 7, and ice storage unit 5 is allowed to pass through third Water-supply-pipe 51 and third return pipe 52 are connect with the primary side of the second heat exchanger 6, and third are set to follow on third water-supply-pipe 51 Ring pump 53, allows the secondary side of the second heat exchanger 6 to be connect by the 4th water-supply-pipe 61 and the 4th return pipe 62 with fresh air dehumidifier 7, And the 4th circulating pump 63 is set on the 4th water-supply-pipe 61.Double-working-condition host 4 is allowed to pass through the 5th water-supply-pipe 41 and the 5th return pipe 42 correspondences are connect with third return pipe 52 and third water-supply-pipe 51, and make the tie point of the 5th return pipe 42 and third water-supply-pipe 51 In third circulating pump 53 relative to the side of ice storage unit 5, and the 5th circulating pump 43 is set on the 5th return pipe 42.

By more than structure setting just constitute it is a kind of it is of simple structure and low cost, Energy Efficiency Ratio is high, adaptable Accumulation of energy dehumidifying humiture independent adjusting air conditioner system.In practical applications, the utility model is by allowing temperature control unit With the respective independent operating of humidity controlling unit, independent temperature-humidity control, the purpose adjusted are realized, the flexible of control can be enhanced Property, indoor air quality is improved, reduces whole energy consumption.For temperature control unit, the utility model is by using high temperature cold water Unit 1, compared to the efficiency that chiller unit can improve 30%, cold effective rate of utilization is also greatly improved.For Humidity controlling unit, the utility model can directly provide 5 degree of low temperature of the needs of fresh air dehumidifier 7 by having adopted Double-working-condition host 4 Cold water does not need to add compressor in fresh air dehumidification unit, simplifies system knot compared to traditional refrigeration machine (7 degree of water supply) Structure reduces control difficulty.Meanwhile the utility model is by allowing Double-working-condition host 4 and ice storage unit 5 to form energy-storage system, The low power consumption period (23 points to next day 7 points) allows Double-working-condition host 4 to run and the ice-reserving into ice storage unit 5, and in peak of power consumption Period (7 points to 23 points) allows ice storage unit 5 to provide low-temperature cold water, it can be achieved that electric energy to fresh air dehumidifier 7 by the second heat exchanger 6 Utilization of avoiding the peak hour, operating cost is greatly reduced, and have the advantages that it is simple in structure, control it is easy.Detailed process is as follows：In electricity consumption Low-valley interval allows 4 and the 5th circulating pump 43 of Double-working-condition host to start, and 53 and the 4th circulating pump 63 of third circulating pump is allowed to stop, Double-working-condition host 4 and ice storage unit 5 are corresponded to defeated with third return pipe 52, third by the 5th water-supply-pipe 41, the 5th return pipe 42 Water pipe 51 connects and composes circulation loop, and so as to fulfill ice-reserving energy storage purpose, third circulating pump 53 plays cut-off valve action at this time；With Electric peak period allows 4 and the 5th circulating pump 43 of Double-working-condition host to stop, and 53 and the 4th circulating pump 63 of third circulating pump is allowed to open Dynamic, ice storage unit 5 is respectively constituted with the primary side of the second heat exchanger 6 and the secondary side of the second heat exchanger 6 with fresh air dehumidifier 7 Circulation loop, so as to fulfill ice-melt cooling purpose, the 5th circulating pump 43 plays cut-off valve action at this time.

Scheme as an optimization, present embodiment allow humidity controlling unit to be also provided with third heat exchanger 8, third are allowed to change The primary side of hot device 8 is corresponded to by the 6th water-supply-pipe 81 and the 6th return pipe 82 to be connected with the 5th water-supply-pipe 41 and the 5th return pipe 42 It connects, and the 5th circulating pump 43 is made to be in the tie point of the 6th return pipe 82 and the 5th return pipe 42 relative to Double-working-condition host 4 Side, allow third heat exchanger 8 secondary side by the 7th water-supply-pipe 83 and the 7th return pipe 84 correspond to the 4th water-supply-pipe 61 and 4th return pipe 62 connects, and make the tie point of the 7th water-supply-pipe 83 and the 4th water-supply-pipe 61 be in the 4th circulating pump 63 relative to The side of second heat exchanger 6.And control valve M1 is provided on the 6th water-supply-pipe 81, in the 6th water-supply-pipe 81 and third return pipe Control valve M2 is provided on the 5th water-supply-pipe 41 between 52.This structure setting can be such that humidity controlling unit is transported with various working Row enhances the adaptability and stability of system.Its carrying out practically process is as follows：When needing ice-reserving energy storage, Double-working-condition host 4 is allowed Start with the 5th circulating pump 43,53 and the 4th circulating pump 63 of third circulating pump is allowed to stop, control valve M2 is allowed to open, allows control valve M1 It closes, Double-working-condition host 4 runs and to 5 ice-reserving of ice storage unit.When needing ice-melt cooling, third circulating pump 53 and the 4th is allowed to recycle Pump 63 starts, and 4 and the 5th circulating pump 43 of Double-working-condition host is allowed to stop, control valve M1 and control valve M2 is allowed to be turned off, ice storage unit 5 By the second heat exchanger 6 low-temperature cold water is provided to fresh air dehumidifier 7.When needing host cooling, Double-working-condition host the 4, the 5th is allowed to follow Ring pump 43 and the 4th circulating pump 63 start, and third circulating pump 53 is allowed to stop, and control valve M1 is allowed to open, and control valve M2 is allowed to close, double Operating mode host 4 provides low-temperature cold water by third heat exchanger 8 to fresh air dehumidifier 7.By more than structure setting, and allow humidity control Unit processed in different periods selectively with different mode operations, on the basis of enhancing system suitability and operation stability On, energy consumption and operating cost can be reduced, improves the whole Energy Efficiency Ratio of system.

As the scheme that advanced optimizes, present embodiment is also between the 6th return pipe 82 and third water-supply-pipe 51 Control valve M3 is provided on 5th return pipe 42.This setting can be such that humidity controlling unit is run with air conditioning operating mode, wherein, Double-working-condition host 4, the 5th circulating pump 43, the 4th circulating pump 63 and third circulating pump 53 is allowed to start, control valve M1 is allowed to open, is allowed Control valve M2 and control valve M3 is closed, and Double-working-condition host 4 combines ice storage unit 5 by third heat exchanger 8 and passes through the second heat exchanger 6 Low-temperature cold water is provided to fresh air dehumidifier 7 jointly, further enhances the adaptability and stability of system.Meanwhile this is specific real The mode of applying allows the 6th return pipe 82 to be connect by the 8th return pipe 91 with third return pipe 52, and makes the 8th return pipe 91 and third The tie point of return pipe 52 is between the 5th water-supply-pipe 41 and the second heat exchanger 6, and has not put control on the 8th return pipe 91 Valve M4 processed is provided with control valve M5 on the third return pipe 52 between the 8th return pipe 91 and the 5th water-supply-pipe 41, the 5th Control valve M6 is provided on third water-supply-pipe 51 between return pipe 42 and third circulating pump 53.The utility model passes through setting the Eight return pipes 91 and control valve M4, control valve M5 and control valve M6 can make humidity controlling unit operating mode to be supplied to run when storing, Wherein, Double-working-condition host 4, the 5th circulating pump 43, the 4th circulating pump 63 and third circulating pump 53 is allowed to start, allow control valve M2, Control valve M3 and control valve M4 are opened, and control valve M6 is allowed to control flow therein by adjusting aperture, allow control valve M1 and control Valve M5 is closed, Double-working-condition host 4 to 5 ice-reserving of ice storage unit, while ice storage unit 5 by the second heat exchanger 6 to fresh air dehumidifier 7 Low-temperature cold water is provided, further enhances the adaptability and stability of system, and with simple in structure, controls the characteristics of easy. It is connected, and adjusted by regulation pipe 92 in addition, present embodiment also allows between third water-supply-pipe 51 and third return pipe 52 It saves and control valve M7 is provided on pipe 92, and the tie point of regulation pipe 92 and third water-supply-pipe 51 is made to be in control valve M6 and third is followed Between ring pump 53, the tie point of regulation pipe 92 and third return pipe 52 is made to be between control valve M5 and the second heat exchanger 6.This By the aperture of adjusting control valve M7 the humidity of media in third water-supply-pipe 51 is adjusted, in enhancing system operation in structure setting On the basis of stability, cold consumption can be reduced, save the energy, practicability is stronger.Present embodiment is also in the 6th return water Constant pressure water compensation apparatus 44 is provided on the 5th return pipe 42 between 82 and the 5th circulating pump 43 of pipe, passes through constant pressure water compensation apparatus 44 The stability of humidity controlling unit operation can be enhanced.

It should be noted that the utility model is additionally provided with control unit in practical applications, and allow high temperature cold water unit 1, Double-working-condition host 4, first circulation pump 13, second circulation pump 23, third circulating pump 53, the 4th circulating pump 63, the 5th circulating pump 43, Control valve M1, control valve M2, control valve M3, control valve M4, control valve M5, control valve M6 and control valve M7 are electric with control unit Connection in order to control, improves the degree of automation.In addition, the first circulation pump 13 in the utility model is not limited to be arranged on the On one return pipe 12, it can also be arranged on the first water-supply-pipe 11；Second circulation pump 23 is not limited to be arranged on the second water-supply-pipe 21 On, it can also be arranged on the second return pipe 22.Similarly, third circulating pump 53, the 4th circulating pump 63 and the 5th circulating pump 43 It is not limited to be correspondingly arranged on third water-supply-pipe 51, the 4th water-supply-pipe 61 and the 5th return pipe 42, third can also be correspondingly arranged On return pipe 52, the 4th return pipe 62 and the 5th water-supply-pipe 41, and corresponding position adjustment is carried out, it is new that this practicality equally can be achieved The technical purpose of type.

It is separately adjustable to a kind of humiture of accumulation of energy dehumidifying below to help skilled in the art to understand the utility model The operational process and control mode of air-conditioning system make schematic illustration, and detailed process is as follows：

First, according to the refrigeration requirement according to dry type end 3, high temperature cold water unit 1, first circulation pump 13 and second circulation is allowed to pump 23 Start, high temperature cold water unit 1 provides high temperature cold water by First Heat Exchanger 2 to dry type end 3, and room is realized by dry type end 3 Interior temperature it is separately adjustable.

2nd, according to electricity consumption period and the moisture removal demand of fresh air dehumidifier 7, humidity controlling unit is allowed selectively to store Ice energy storage operating mode supplies five kinds of operating mode, ice-melt cooling operating mode, air conditioning operating mode, host cooling operating mode mode operations when storing, and leads to It crosses fresh air dehumidifier 7 and realizes the separately adjustable of indoor humidity.Wherein, when the electricity consumption period is divided into peak of power consumption and low power consumption two Section, peak of power consumption period are 7 points to 23 points, and the low power consumption period is 23 points to 7 points of next day.

A, in the low power consumption period, no fresh air dehumidification demand, humidity controlling unit is allowed to be run with ice-reserving energy storage operating mode.Its In, 4 and the 5th circulating pump 43 of Double-working-condition host starts, and 53 and the 4th circulating pump 63 of third circulating pump stops, control valve M2 and control Valve M3 processed is opened, and control valve M1, control valve M4, control valve M5, control valve M6 and control valve M7 are closed.Double-working-condition host 4 is to storage 5 ice-reserving energy storage of ice production apparatus.

B, in the low power consumption period, when having fresh air dehumidification demand, humidity controlling unit is allowed supply operating mode operation when storing.Its In, Double-working-condition host 4, the 5th circulating pump 43, the 4th circulating pump 63 and third circulating pump 53 start, control valve M2, control valve M3 and control valve M4 is opened, and control valve M6 and control valve M7 are adjusted, and control valve M1 and control valve M5 are closed.Double-working-condition host 4 to 5 ice-reserving of ice storage unit, while ice storage unit 5 provides low-temperature cold water by the second heat exchanger 6 to fresh air dehumidifier 7.Wherein, it controls Valve M6 and control valve M7 is adjusted, and refers to control flow therein by the aperture of adjusting control valve M6 and control valve M7.

C, it in the peak of power consumption period, when having the semen donors of fresh air dehumidification demand and ice storage unit 5 that can meet dehumidification, allows Humidity controlling unit is run with ice-melt cooling operating mode.Wherein, 53 and the 4th circulating pump 63 of third circulating pump starts, Double-working-condition host 4 and the 5th circulating pump 43 stop, control valve M5 and control valve M6 are opened, control valve M1, control valve M2, control valve M3, control valve M4 and control valve M7 is closed.Ice storage unit 5 provides low-temperature cold water by the second heat exchanger 6 to fresh air dehumidifier 7.

D, in the peak of power consumption period, when having the semen donors of fresh air dehumidification demand and ice storage unit 5 that cannot meet dehumidification, Humidity controlling unit is allowed to be run with air conditioning operating mode.Wherein, Double-working-condition host 4, the 5th circulating pump 43,63 and of the 4th circulating pump Third circulating pump 53 starts, and control valve M1, control valve M5 and control valve M6 are opened, control valve M2, control valve M3, control valve M4 It is closed with control valve M7.Double-working-condition host 4 combines ice storage unit 5 by the second heat exchanger 6 jointly to new by third heat exchanger 8 Air dehumidifier 7 provides low-temperature cold water.

E, in the peak of power consumption period, when having the ice storage amount of fresh air dehumidification demand and ice storage unit 5 to exhaust, humid control list is allowed Member is run with host cooling operating mode.Wherein, Double-working-condition host 4, the 5th circulating pump 43 and the 4th circulating pump 63 start, third cycle Pump 53 stops, and control valve M1 is opened, control valve M2, control valve M3, control valve M4, control valve M5, control valve M6 and control valve M7 It closes.Double-working-condition host 4 provides low-temperature cold water by third heat exchanger 8 to fresh air dehumidifier 7.

The humiture independent adjusting air conditioner system of accumulation of energy dehumidifying provided by the utility model is realizing independent temperature-humidity control On the basis of, the operation stability of air-conditioning system can be enhanced, whole Energy Efficiency Ratio is improved, and pass through the utilization of avoiding the peak hour of electric energy, reduce Operation cost.

Above example is only the description of the preferred embodiment progress to the utility model, not please to the utility model The restriction that protection domain is asked to carry out, under the premise of the spirit of the design of the utility model is not departed from, those skilled in the art are according to this The various forms of deformations that the technical solution of utility model is made should all fall into the guarantor that claims of the utility model determine In the range of shield.

Claims (7)

1. a kind of humiture independent adjusting air conditioner system of accumulation of energy dehumidifying, including temperature control unit and humidity controlling unit, It is characterized in that, the temperature control unit includes high temperature cold water unit (1), First Heat Exchanger (2) and dry type end (3), described High temperature cold water unit (1) is connect by the first water-supply-pipe (11) and the first return pipe (12) with the primary side of First Heat Exchanger (2), First return pipe (12) is equipped with first circulation and pumps (13), the secondary side of First Heat Exchanger (2) by the second water-supply-pipe (21) and Second return pipe (22) is connect with dry type end (3), and the second water-supply-pipe (21) is equipped with second circulation and pumps (23)；The humidity control Unit processed includes Double-working-condition host (4), ice storage unit (5), the second heat exchanger (6) and fresh air dehumidifier (7), the ice storage unit (5) it is connect by third water-supply-pipe (51) and third return pipe (52) with the primary side of the second heat exchanger (6), third water-supply-pipe (51) third circulating pump (53) is equipped with, the secondary side of the second heat exchanger (6) passes through the 4th water-supply-pipe (61) and the 4th return pipe (62) it is connect with fresh air dehumidifier (7), the 4th water-supply-pipe (61) is equipped with the 4th circulating pump (63), the Double-working-condition host (4) It is connect by the way that the 5th water-supply-pipe (41) and the 5th return pipe (42) are corresponding with third return pipe (52) and third water-supply-pipe (51), and The 5th return pipe (42) and the tie point of third water-supply-pipe (51) is made to be in third circulating pump (53) relative to ice storage unit (5) Side, the 5th return pipe (42) are equipped with the 5th circulating pump (43).

2. the humiture independent adjusting air conditioner system of a kind of accumulation of energy dehumidifying described in accordance with the claim 1, which is characterized in that described Humidity controlling unit further includes third heat exchanger (8), the primary side of the third heat exchanger (8) by the 6th water-supply-pipe (81) and 6th return pipe (82) correspondence is connect, and be in the 5th circulating pump (43) with the 5th water-supply-pipe (41) and the 5th return pipe (42) The tie point of 6th return pipe (82) and the 5th return pipe (42) is relative to the side of Double-working-condition host (4), third heat exchanger (8) Secondary side to pass through the 7th water-supply-pipe (83) and the 7th return pipe (84) corresponding with the 4th water-supply-pipe (61) and the 4th return pipe (62) it connects, and the tie point of the 7th water-supply-pipe (83) and the 4th water-supply-pipe (61) is made to be in the 4th circulating pump (63) relative to the The side of two heat exchangers (6)；6th water-supply-pipe (81) is equipped with control valve M1, the 6th water-supply-pipe (81) and third return pipe (52) Between the 5th water-supply-pipe (41) be equipped with control valve M2.

3. the humiture independent adjusting air conditioner system of a kind of accumulation of energy dehumidifying described in accordance with the claim 2, which is characterized in that described The 5th return pipe (42) between 6th return pipe (82) and third water-supply-pipe (51) is equipped with control valve M3.

4. the humiture independent adjusting air conditioner system of a kind of accumulation of energy dehumidifying described in accordance with the claim 3, which is characterized in that described 6th return pipe (82) is connect by the 8th return pipe (91) with third return pipe (52), and makes the 8th return pipe (91) and third The tie point of return pipe (52) is between the 5th water-supply-pipe (41) and the second heat exchanger (6), is not had on the 8th return pipe (91) Control valve M4, the third return pipe (52) between the 8th return pipe (91) and the 5th water-supply-pipe (41) are equipped with control valve M5, the Third water-supply-pipe (51) between five return pipes (42) and third circulating pump (53) is equipped with control valve M6.

5. the humiture independent adjusting air conditioner system to dehumidify according to a kind of accumulation of energy described in claim 4, which is characterized in that described It is connected between third water-supply-pipe (51) and third return pipe (52) by regulation pipe (92), regulation pipe (92) is equipped with control valve The tie point of M7, regulation pipe (92) and third water-supply-pipe (51) is between control valve M6 and third circulating pump (53), regulation pipe (92) it is between control valve M5 and the second heat exchanger (6) with the tie point of third return pipe (52).

6. the humiture independent adjusting air conditioner system to dehumidify according to a kind of accumulation of energy described in claim 5, which is characterized in that described The 5th return pipe (42) between 6th return pipe (82) and the 5th circulating pump (43) is equipped with constant pressure water compensation apparatus (44).

7. the humiture independent adjusting air conditioner system to dehumidify according to a kind of accumulation of energy described in claim 6, which is characterized in that also wrap Include control unit, the high temperature cold water unit (1), Double-working-condition host (4), first circulation pump (13), second circulation pump (23), the Three circulating pumps (53), the 4th circulating pump (63), the 5th circulating pump (43), control valve M1, control valve M2, control valve M3, control valve M4, control valve M5, control valve M6 and control valve M7 are electrically connected with control unit.