CN207570046U - Cold accumulation system and handpiece Water Chilling Units - Google Patents
Cold accumulation system and handpiece Water Chilling Units Download PDFInfo
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- CN207570046U CN207570046U CN201720566019.1U CN201720566019U CN207570046U CN 207570046 U CN207570046 U CN 207570046U CN 201720566019 U CN201720566019 U CN 201720566019U CN 207570046 U CN207570046 U CN 207570046U
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Abstract
The utility model discloses a kind of cold accumulation systems, including cold-storage water pot and handpiece Water Chilling Units, the handpiece Water Chilling Units include evaporator, compressor, condenser and expansion valve successively, further include subcooler, the subcooler is connected between the condenser and the expansion valve, the subcooler includes subcooler water inlet pipe, subcooler outlet pipe, working medium inlet tube and working medium outlet tube, the subcooler water inlet pipe and the subcooler outlet pipe are connect with the cold-storage water pot, the working medium inlet tube is connect with the condenser, and the working medium outlet tube is connect with the expansion valve.A kind of handpiece Water Chilling Units are also disclosed in the utility model.The utility model can increase the cold storage capacity of cold-storage water pot and improve the refrigerating capacity of handpiece Water Chilling Units in the case where compressor horsepower is constant.
Description
Technical field
The utility model is related to the technical field of water cool-storage technology more particularly to a kind of cold accumulation system and handpiece Water Chilling Units.
Background technology
Air-conditioner energy-accumulation technology is a kind of tune lotus technology being applied under Peak-valley TOU power price system.It is by user in night electricity
The made cold or thermmal storage of net electric load low ebb phase is got up, and is released again when needing daytime, and " peak is moved so as to reach power grid
Fill valley ", the win-win situation of user's power cost saving.
Power grid " peak load shifting ", the number of user's power cost saving are decided by the cold storage capacity of cold-storage water pot, the storage of cold-storage water pot
Cold is more, and the economic benefit of generation is better.
Meanwhile the refrigerating capacity of existing handpiece Water Chilling Units needs to be further improved.
Therefore, it is necessary to design a kind of cold storage capacity that can improve cold-storage water pot and the refrigerating capacity for improving handpiece Water Chilling Units
Cold accumulation system and handpiece Water Chilling Units.
Utility model content
The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of cold-storage that can improve cold-storage water pot
Amount, and the cold accumulation system and handpiece Water Chilling Units of the refrigerating capacity of handpiece Water Chilling Units can be improved.
The utility model provides a kind of cold accumulation system, and including cold-storage water pot and handpiece Water Chilling Units, the handpiece Water Chilling Units are wrapped successively
Include evaporator, compressor, condenser and expansion valve, further include subcooler, the subcooler be connected to the condenser with it is described
Between expansion valve, the subcooler includes subcooler water inlet pipe, subcooler outlet pipe, working medium inlet tube and working medium outlet tube, institute
It states subcooler water inlet pipe and the subcooler outlet pipe is connect with the cold-storage water pot, the working medium inlet tube and the condenser
Connection, the working medium outlet tube are connect with the expansion valve.
Further, the cold-storage water pot includes upper water distributor and lower water-dispensing device, during the independent cooling of the handpiece Water Chilling Units, institute
It states lower water-dispensing device to connect with the subcooler water inlet pipe, the upper water distributor is connected with the subcooler outlet pipe.
Further, the cold-storage water pot includes upper water distributor and lower water-dispensing device, during the independent cold-storage of the cold-storage water pot, institute
It states subcooler water inlet pipe and subcooler outlet pipe is connected with the upper water distributor.
Further, the cold-storage water pot includes upper water distributor and lower water-dispensing device, and the cold-storage water pot cold-storage and is put simultaneously
When cold, the subcooler water inlet pipe and subcooler outlet pipe are connected with the upper water distributor.
Further, the cold-storage water pot includes upper water distributor and lower water-dispensing device, and the evaporator is intake including evaporator
Pipe and evaporator outlet pipe, the evaporator outlet pipe connects with the lower water-dispensing device, the evaporator water inlet pipe and it is described on
Water distributor connects.
Further, the cold accumulation system further includes user terminal, and the user terminal is included for water end (W.E.) and backwater end, the confession
Water end (W.E.) is connected with the evaporator outlet pipe, and the backwater end is connected with the evaporator water inlet pipe.
Further, the cold accumulation system further includes heat exchanger, and the heat exchanger further comprises that water at low temperature is intake
For water end (W.E.) and user's backwater end, the water at low temperature water inlet end is connected with the lower water-dispensing device by end, secondary water at low temperature water outlet, user,
The secondary water at low temperature water outlet is connected with the upper water distributor, and the user connects for water end (W.E.) with described for water end (W.E.), the user
Backwater end is connected with the backwater end.
Further, the cold-storage water pot is let cool, while during the handpiece Water Chilling Units cooling, the subcooler water inlet pipe and institute
Time water at low temperature water outlet connection is stated, the subcooler outlet pipe is connected with the upper water distributor.
The utility model also provides a kind of handpiece Water Chilling Units, successively including evaporator, compressor, condenser and expansion valve,
It is characterized in that, further include subcooler, the subcooler is connected between the condenser and the expansion valve, the subcooler packet
Include subcooler water inlet pipe, subcooler outlet pipe, working medium inlet tube and working medium outlet tube, the subcooler water inlet pipe and the supercooling
Device outlet pipe is connect with water at low temperature low-temperature receiver, and the working medium inlet tube is connect with the condenser, the working medium outlet tube with it is described
Expansion valve connects.
Further, the subcooler water inlet pipe is connect with the secondary low temperature supplying water end (W.E.) of cold-storage water pot, the subcooler water outlet
Pipe is connect with the secondary low-temperature return water end of the cold-storage water pot.
After adopting the above technical scheme, it has the advantages that:
Secondary water at low temperature in cold-storage water pot is introduced into subcooler by the utility model, and heat is obtained in subcooler, is risen
Warm water after temperature is flow back into cold-storage water pot, since the water temperature in cold-storage water pot increases, improves the cold storage capacity of cold-storage water pot.
On the other hand, the cold of secondary water at low temperature has been changed into refrigerating capacity by subcooler so that refrigeration working medium continues to cool down in subcooler.This
Utility model can increase the cold storage capacity of cold-storage water pot and improve handpiece Water Chilling Units in the case where compressor horsepower is constant
Refrigerating capacity.
Description of the drawings
Referring to attached drawing, the disclosure of the utility model will be easier to understand.It should be understood that:These attached drawings are used only for
The purpose of explanation, and be not intended to and the scope of protection of the utility model is construed as limiting.In figure:
Fig. 1 is the structure diagram of handpiece Water Chilling Units in the utility model the first embodiment;
Fig. 2 is the structure diagram of cold accumulation system in second of embodiment of the utility model;
Structure diagram when Fig. 3 is the independent cooling of cold accumulation system in second of embodiment of the utility model;
Structure diagram when Fig. 4 is the independent cold-storage of cold accumulation system in second of embodiment of the utility model;
Fig. 5 is structure diagram when cold accumulation system is individually let cool in second of embodiment of the utility model;
Fig. 6 is cold accumulation system cooling, the structure diagram that lets cool simultaneously in second of embodiment of the utility model;
Fig. 7 is cold accumulation system cold-storage, the structure diagram that lets cool simultaneously in second of embodiment of the utility model.
The reference numeral table of comparisons:
1- evaporator 11- evaporator water inlet pipe 12- evaporator outlet pipes
2- compressor 3- condenser 3a- subcoolers
3a1- subcooler water inlet pipe 3a2- subcooler outlet pipe 3a3- working medium inlet tubes
3a4- working medium outlet tube 4- expansion valve 5- cold-storage water pots
51- upper water distributor 52- lower water-dispensing device 511- upper water distributor outlet pipes
521- lower water-dispensing device return duct 6- cold-storage water pump 61- cold-storage pump water inlets
62- cold-storage pumping lines 7- supercooling water pump 71- supercooling water pump inlets
72- subcooled waters pump out water end (W.E.) 8- water collection tank 81- water collection tank outlet pipes
9- divides water vat 91- that water vat water inlet pipe 10- is divided to supply water supply pump
101- cooling pump water inlet 102- cooling pumping line 13- heat exchangers
132- water at low temperature water outlet 133- user of 131- water at low temperature water inlet end supplies water end (W.E.)
134- user's backwater end 14- lets cool water pump 141- and lets cool unit fixed on water pump suction end
142- lets cool pump outlet
DV1- the first regulating valve DV2- the second regulating valve DV3- third regulating valves
The tenth regulating valves of the 4th the 9th regulating valve DV10- of regulating valve DV9- of DV4-
The 13rd regulating valves of the 11st the 12nd regulating valve DV13- of regulating valve DV12- of DV11-
The 17th regulating valves of the 14th the 16th regulating valve DV17- of regulating valve DV16- of DV14-
The 20th regulating valves of the 18th the 19th regulating valve DV20- of regulating valve DV19- of DV18-
The 22nd regulating valves of the 21st regulating valve DV22- of DV21-
The 23rd regulating valves of DV23-
Specific embodiment
Further illustrate specific embodiment of the present utility model below in conjunction with the accompanying drawings.
It is readily appreciated that, technical solution according to the present utility model, in the case where not changing the utility model in essence spirit, this field
The various structures mode that can be replaced mutually of those skilled in the art and realization method.Therefore, detailed description below and
Attached drawing is only the exemplary illustration to the technical solution of the utility model, and is not to be construed as the whole of the utility model or is considered as
Utility model technical solution is defined or limited.
It mentions in the present specification or up, down, left, right, before and after, front, the back side, top, the bottom that may mention etc.
Orientation term is defined relative to each attached construction shown in figure, they are opposite concepts, and it is therefore possible to can root
Correspondingly changed according to its residing different location, different use states.It so also should not be by these or others side
Position term is construed to restricted term.
The first embodiment:
As shown in Figure 1, handpiece Water Chilling Units include evaporator 1, compressor 2, condenser 3 and expansion valve 4 successively, supercooling is further included
Device 3a, subcooler 3a are connected between condenser 3 and expansion valve 4, and subcooler 3a includes subcooler water inlet pipe 3a1, subcooler goes out
Water pipe 3a2, working medium inlet tube 3a3 and working medium outlet tube 3a4, subcooler water inlet pipe 3a1 and subcooler outlet pipe 3a2 and water at low temperature
Low-temperature receiver connects, and working medium inlet tube 3a3 is connect with condenser 3, and working medium outlet tube 3a4 is connect with expansion valve 4.
Wherein, evaporator 1 includes evaporator water inlet pipe 11 and evaporator outlet pipe 12, and evaporator water inlet pipe 11 passes through first
Regulating valve DV1 is connect with air-conditioning recovery end, and evaporator outlet pipe 12 is connect by the second regulating valve DV2 with air-conditioning for water end (W.E.).It steams
The evaporator outlet pipe 12 for sending out device 1 flows out cold water, is that air-conditioning supplies water for water end (W.E.), provides cold for air-conditioning, air-conditioning has utilized cold
Afterwards, cold water becomes hot water, and hot water is flowed into evaporator water inlet pipe 11 from air-conditioning backwater end, into evaporator 1, in evaporator 1
In again pass by heat exchange and become cold water.
One end of compressor 2 is connect with evaporator 1, and the other end is connect with condenser 3.
One end of condenser 3 is connect with compressor 2, and the other end is connect with subcooler 3a.Condenser 3 is also cold with cooling tower
But water is connected for water end (W.E.) with cooling water backwater end, and cooling water flows into condenser from cooling tower, for reducing the temperature of refrigeration working medium,
After cooling water heating, it is flow back into cooling tower from cooling water backwater end.
Subcooler 3a includes subcooler water inlet pipe 3a1, subcooler outlet pipe 3a2, working medium inlet tube 3a3 and working medium outlet tube
3a4, subcooler water inlet pipe 3a1 and subcooler outlet pipe 3a2 are connect with cold-storage water pot 5 (referring to Fig. 2), working medium inlet tube 3a3 with
Condenser 3 connects, and working medium outlet tube 3a4 is connect with expansion valve 4.Refrigeration working medium after cooling entered from working medium inlet tube 3a3
Cooler 3a further cools down in subcooler 3a, then is flowed out from working medium outlet tube 3a4, and evaporator 1 is flowed by expansion valve 4, will
Cold is transferred to evaporator 1.The cold of secondary water at low temperature of the cold that subcooler 3a further cools down from cold-storage water pot.Specifically
For secondary water at low temperature flows into subcooler water inlet pipe 3a1 from cold-storage water pot 5, heats up in subcooler 3a, obtains the heat of refrigeration working medium
Amount, temperature raising, and outflowed back in cold-storage water pot 5 from subcooler outlet pipe 3a2.
Wherein, subcooler water inlet pipe 3a1 is connect by third regulating valve DV3 with the secondary water at low temperature of cold-storage water pot 5 for water end (W.E.),
Subcooler outlet pipe 3a2 is connect by the 4th regulating valve DV4 with the secondary water at low temperature backwater end of cold-storage water pot 5.
One end of expansion valve 4 is connect with subcooler 3a, and the other end is connect with evaporator 1.
In the first embodiment, the secondary water at low temperature in cold-storage water pot 5 is introduced into subcooler 3a, is obtained in subcooler 3a
Heat is obtained, is flow back into after heating in cold-storage water pot 5, since the water temperature in cold-storage water pot 5 increases, improves cold-storage water pot 5
Cold storage capacity.On the other hand, subcooler 3a causes refrigeration working medium to continue to cool down in subcooler 3a, increases the refrigeration of supercooling unit
Amount.The present embodiment can increase the cold storage capacity of cold-storage water pot and improve handpiece Water Chilling Units in the case where compressor horsepower is constant
Refrigerating capacity.
The handpiece Water Chilling Units use with subcooler in the present embodiment is connect in water cold storage occasion with cold-storage water pot, can also be made
Used in other occasions for carrying water at low temperature low-temperature receiver, the cold of low temperature situation can be converted to refrigerating capacity by subcooler.The present embodiment
In the cold of time water at low temperature is utilized in cold-storage water pot, be converted into refrigerating capacity, while also improve the cold storage capacity of cold-storage water pot.
Second of embodiment:
As shown in Fig. 2, cold accumulation system, including cold-storage water pot 5 and handpiece Water Chilling Units, handpiece Water Chilling Units include evaporator 1, pressure successively
Contracting machine 2, condenser 3 and expansion valve 4 further include subcooler 3a, and subcooler 3a is connected between condenser 3 and expansion valve 4, supercooling
Device 3a include subcooler water inlet pipe 3a1, subcooler outlet pipe 3a2, working medium inlet tube 3a3 and working medium outlet tube 3a4, subcooler into
Water pipe 3a1 and subcooler outlet pipe 3a2 are connect with cold-storage water pot 5, and working medium inlet tube 3a3 is connect with condenser 3, working medium outlet tube
3a4 is connect with expansion valve 4.
Further, cold-storage water pot 5 includes upper water distributor 51 and lower water-dispensing device 52.
Wherein, the 9th regulating valve DV9 is provided at the upper water distributor outlet pipe 511 of upper water distributor 51, lower water-dispensing device 52
The tenth regulating valve DV10 is provided at lower water-dispensing device return duct 521.
The 9th regulating valve DV9, the 14th regulating valve DV14 and the are equipped between upper water distributor 51 and subcooler outlet pipe 3a2
Four regulating valve DV4.
The 9th regulating valve DV9, the 11st regulating valve DV11, the are equipped between upper water distributor 51 and subcooler water inlet pipe 3a1
17 regulating valve DV17, supercooling water pump 7 and third regulating valve DV3.
The tenth regulating valve DV10, the 13rd regulating valve DV13, mistake are equipped between lower water-dispensing device 51 and subcooler water inlet pipe 3a1
Water supply pump 7 and third regulating valve DV3.
Further, evaporator 1 includes evaporator water inlet pipe 11 and evaporator outlet pipe 12, and evaporator outlet pipe 12 is under
Water distributor 52 connects, and evaporator water inlet pipe 11 is connected with upper water distributor 51.
Wherein, cold-storage water pump 6 is additionally provided between evaporator water inlet pipe 11 and upper water distributor 51, cold-storage water pump 6 includes cold-storage
Pump water inlet 61 and cold-storage pumping line 62, are additionally provided with the 18th regulating valve between cold-storage water pump 6 and upper water distributor 51
DV18, the 11st regulating valve DV11 and the 9th regulating valve DV9.
The second regulating valve DV2, the 16th regulating valve DV16, are additionally provided between evaporator outlet pipe 12 and lower water-dispensing device 52
12 regulating valve DV12 and the tenth regulating valve DV10.
Further, cold accumulation system 5 further includes user terminal, and user terminal is included for water end (W.E.) and backwater end, for water end (W.E.) and evaporation
Device outlet pipe 12 connects, and backwater end is connected with evaporator water inlet pipe 11.
Specifically, as shown in Fig. 2, in the present embodiment user terminal be air-conditioning, including dividing water vat 9 and water collection tank 8, divide water vat 9
To supply water end (W.E.), supply water for air conditioner user;Water collection tank 8 is backwater end, and the return water of air conditioner user flows into water collection tank 8.Evaporator is discharged
For the cold water of pipe 12 from the inflow of water vat water inlet pipe 91 is divided to divide water vat 9, the raising of the cold water temperature that has used becomes return water, and return water is from catchmenting
The water collection tank outlet pipe 81 of cylinder 8 is flowed into evaporator water inlet pipe 11.
Optionally, what air conditioner user end can also be production low-temperature cooling water uses water end (W.E.).
Further, cold accumulation system 5 further includes heat exchanger 13, and heat exchanger 13 further comprises water at low temperature water inlet end
131st, secondary water at low temperature water outlet 132, user supply water end (W.E.) 133 and user's backwater end 134, water at low temperature water inlet end 131 and lower water-dispensing device
52 connections, secondary water at low temperature water outlet 132 are connected with upper water distributor 51, and user connects for water end (W.E.) 133 with for water end (W.E.), user's backwater end
134 connect with backwater end.
Water pump 14, the 23rd regulating valve are let cool specifically, being equipped between water at low temperature water inlet end 131 and lower water-dispensing device 52
DV23, the tenth regulating valve DV10.
The 22nd regulating valve DV22, the 11st regulating valve are equipped between secondary water at low temperature water outlet 132 and upper water distributor 51
DV11 and the 9th regulating valve DV9.
User is for water end (W.E.) 133 and divides between water vat 9 equipped with the 21st regulating valve DV21.
The 20th regulating valve DV20 is equipped between user's backwater end 134 and water collection tank 8 and supplies water supply pump 10.
Referring to Fig. 3, structure diagram when Fig. 3 is the independent cooling of cold accumulation system in second of embodiment of the utility model.
During the independent cooling of handpiece Water Chilling Units, lower water-dispensing device 52 is connected with subcooler water inlet pipe 3a1, upper water distributor 51 and subcooler
Outlet pipe 3a2 is connected.It specifically includes:
The independent cooling process of handpiece Water Chilling Units:Water collection tank outlet pipe 81 of the air-conditioning return water through water collection tank 8, by supplying water supply pump
10th, the 19th regulating valve DV19, the first regulating valve DV1, evaporator water inlet pipe 11 flow into evaporator 1 and carry out heat exchange, lose heat
Into water at low temperature, outflow evaporator outlet pipe 12 passes through for quantitative change, the second regulating valve DV2 and the 16th regulating valve DV16, divide water vat into
Water pipe 91 enters and divides water vat 9, is used for air conditioner user.
Subcooling process of the secondary water at low temperature in subcooler:Secondary water at low temperature after being let cool in cold-storage water pot 5, through lower water distribution
Device 52, the 13rd regulating valve DV13, passes through supercooling pump 7, third regulating valve DV3, subcooler water inlet pipe at the tenth regulating valve DV10
3a1, into subcooler 3a, temperature increases after obtaining heat, by subcooler outlet pipe 3a2, the 4th regulating valve DV4, the 14th
Regulating valve DV14, the 9th regulating valve DV9, upper water distributor outlet pipe 511 enter cold-storage water pot 5.
Cold-storage water pot 5 is time water at low temperature under normal conditions, in upper water distributor 51, and water temperature is about 14 DEG C, lower water-dispensing device 52
In for water at low temperature, water temperature is about 4 DEG C.When cold-storage water pot 5 is let cool, the water at low temperature outflow in lower water-dispensing device 52.When having let cool
Bi Hou, only time water at low temperature in cold-storage water pot 5, because this water at low temperature is flowed out from lower water-dispensing device 52 at this time, for for subcooler
3a provides cold.
The situation of the independent cooling of handpiece Water Chilling Units, the cold-storage typically in the flat section or peak of power consumption after peak of power consumption
When the cold of water pot is finished, it can utilize and the independent cooling of unit is subcooled.Electricity price highest during peak of power consumption, electricity price during low power consumption
Minimum, electricity price during flat section is moderate.Therefore, typically in low power consumption, cold-storage is carried out to cold-storage water pot, cold is stored
Come.Until peak of power consumption, cold-storage water pot is let cool, and can consume minimum electricity, cost-effective.During flat section, then cold water is utilized
Unit carrys out cooling.So as to reach power grid " peak load shifting ", the win-win situation of user's power cost saving.
The present embodiment under conditions of handpiece Water Chilling Units electricity consumption is not increased, can improve the refrigerating capacity of handpiece Water Chilling Units.Meanwhile
Improve the cold storage capacity of cold-storage water pot.
Referring to Fig. 4, structure diagram when Fig. 4 is the independent cold-storage of cold accumulation system in second of embodiment of the utility model.
During cold-storage 5 independent cold-storage of water pot, subcooler water inlet pipe 3a1 and subcooler outlet pipe 3a2 connect with upper water distributor 51
It is logical.It specifically includes:
The independent process of cool of cold-storage water pot:Secondary water at low temperature in cold-storage water pot 5 through upper water distributor 51, the 9th regulating valve DV9,
11st regulating valve DV11, the 18th regulating valve DV18, by cold-storage water pump 6, the first regulating valve DV1, into evaporator 1, drop
Evaporator outlet pipe 12 is flowed out after temperature, through the second regulating valve DV2, the 16th regulating valve DV16, the 12nd regulating valve DV12, the tenth
Regulating valve DV10, lower water-dispensing device 52 enter cold-storage water pot 5.
Subcooling process of the secondary water at low temperature in subcooler:Secondary water at low temperature in cold-storage water pot 5 is adjusted through upper water distributor the 51, the 9th
Save valve DV9, the 11st regulating valve DV11, the 17th regulating valve DV17, by be subcooled pump 7, third regulating valve DV3, subcooler into
Water pipe 3a1 enters subcooler 3a, and temperature increases after obtaining heat, by the 4th regulating valve DV4, the 14th regulating valve DV14, with
The secondary water at low temperature flowed out in the cold-storage water pot 5 mixes in cold-storage water pot return duct 511 together, and a mixing water part is through cold-storage
Water pump 6 carries out next round charge cycle, and mixing water another part carries out next round by water supply pump 7 and crosses SAPMAC method.
Further, 6 flow of cold-storage water pump is computed determining with lift according to cold storage capacity and the cold-storage temperature difference.
Further, the flow of supercooling water pump 7 is computed determining according to supercooling temperature with lift with crossing cold flow.
The present embodiment can improve the cold storage capacity of cold-storage sink and under conditions of handpiece Water Chilling Units electricity consumption is not increased,
Improve the refrigerating capacity of handpiece Water Chilling Units.
The independent cold-storage of cold-storage water pot is typically what is carried out in electricity consumption ebb.
Referring to Fig. 5, Fig. 5 is structure diagram when cold accumulation system is individually let cool in second of embodiment of the utility model.
The independent discharging cold course of cold-storage water pot:Water at low temperature in cold-storage water pot 5 through lower water-dispensing device 52, the tenth regulating valve DV10,
23rd regulating valve DV23, by letting cool water pump 14, from 131 inflow heat exchanger 13 of heat exchanger water at low temperature water inlet end, it is low
Warm water becomes time water at low temperature after heat exchange, is flowed out from secondary water at low temperature water outlet 132, through the 22nd regulating valve DV22, the
11 regulating valve DV11, the 9th regulating valve DV9, upper water distributor 51 enter in cold-storage water pot 5.
The opposite side of heat exchanger 13, water collection tank outlet pipe 81 of the air-conditioning return water through water collection tank 8, for water supply pump 10, second
Ten regulating valve DV20, from 134 inflow heat exchanger 13 of user's backwater end, air-conditioning return water after the cooling of over-heat-exchanger 13, from
Family is flowed out for water end (W.E.) 133, through the 21st regulating valve DV21, water vat water inlet pipe 91 is divided to make into water vat 9 is divided for air conditioner user
With.
Cold-storage water pot individually lets cool what is carried out typically in the case of peak of power consumption.
Referring to Fig. 6, Fig. 6 is that cold accumulation system simultaneously show by cooling and structure when letting cool in second of embodiment of the utility model
It is intended to.
Cold-storage water pot 5 is let cool, while during handpiece Water Chilling Units cooling, and subcooler water inlet pipe 3a1 connects with time water at low temperature water outlet 132
Logical, subcooler outlet pipe 3a2 is connected with upper water distributor 51.
Cold accumulation system while cooling and discharging cold course:Air-conditioning return water concentrates on water collection tank 8, by water collection tank outlet 81,
By for water supply pump 10, the 19th regulating valve DV19, the first regulating valve DV1, evaporator water inlet pipe 11, flowing into evaporator 1 and carrying out
Heat exchange, lose heat become water at low temperature, by evaporator outlet pipe 12, the second regulating valve DV2 and the 16th regulating valve DV16,
Water vat water inlet pipe 91 is divided to enter and divides water vat 9, is used for air conditioner user.
Further, air-conditioning return water from user's backwater end 134 for water supply pump 10, the 20th regulating valve DV20 by flowing into heat
Exchanger 13, air-conditioning return water carry out heat exchange in heat exchanger 13, and temperature flows out after reducing from user for water end (W.E.) 133, through second
11 regulating valve DV21, with through 12 and the 16th regulating valve DV16 of evaporator outlet pipe flow out cold water mix, from water knockout drum into
Water end (W.E.) 91 enters and divides water vat 9, is used for air conditioner user.
Further, the water at low temperature in cold-storage water pot 5 is adjusted through lower water-dispensing device 52, the tenth regulating valve DV10, the 23rd
Valve DV23, by letting cool water pump 14, from 131 inflow heat exchanger 13 of water at low temperature water inlet end, water at low temperature is after heat exchange from secondary
Water at low temperature water outlet 132 is flowed out, through the 22nd regulating valve DV22, the 11st regulating valve DV11, the 9th regulating valve DV9, upper cloth
Hydrophone 51 enters in cold-storage water pot 5.
Further, the secondary water at low temperature flowed out from the secondary water at low temperature water outlet 132 of heat exchanger 13 is adjusted through the 22nd
Valve DV22, the 17th regulating valve DV17,7, third regulating valve DV3, subcooler water inlet pipe 3a1 are pumped by being subcooled, in subcooler 3a
After obtaining thermal temperature raising, the secondary water at low temperature by the 4th regulating valve DV4, the 14th regulating valve DV14 and heat exchanger 13 goes out
The secondary water at low temperature that water end (W.E.) 132 flows out mixes at upper water distributor outlet pipe 511, enters through the 9th regulating valve DV9, upper water distributor 51
Cold-storage water pot 5 (when the secondary low temperature water flow of heat exchanger 13 is more than the flow of the subcooler 3a of handpiece Water Chilling Units).It is alternatively, a part of
Enter cold-storage water pot 5 through the 9th regulating valve DV9, upper water distributor 51, another part is through the 11st regulating valve DV11 and heat exchanger
The secondary water at low temperature mixing of 13 secondary water at low temperature water outlet 132 outflow, through the 17th regulating valve DV17, supercooling water pump 7, supply supercooling
Device 3a is reused (in the case of flow of the secondary low temperature water flow of heat exchanger 13 less than handpiece Water Chilling Units subcooler 3a).
On the one hand the present embodiment under conditions of handpiece Water Chilling Units electricity consumption is not increased, can improve the refrigeration of handpiece Water Chilling Units
Amount;On the other hand the temperature from the subcooler 3a cooling waters flowed out is improved, increases the cold storage capacity of cold-storage water pot 5.
Cold accumulation system cooling and lets cool what is typically carried out in flat section simultaneously.
Referring to Fig. 7, Fig. 7 is that cold accumulation system simultaneously show by cold-storage and structure when letting cool in second of embodiment of the utility model
It is intended to.
The cold-storage and when letting cool simultaneously of cold-storage water pot 5, subcooler water inlet pipe 3a1 and subcooler outlet pipe 3a2 with upper water distribution
Device 51 connects.
Cold accumulation system while cold-storage and discharging cold course:Secondary water at low temperature in cold-storage water pot 5 is adjusted through upper water distributor the 51, the 9th
Valve 9, the 18th regulating valve DV18, by cold-storage water pump 6, the first regulating valve DV1 enters evaporator 1 at the 11st regulating valve DV11,
Through the second regulating valve DV2, the 16th regulating valve DV16, the 12nd regulating valve DV12, the tenth regulating valve DV10, lower water distribution after cooling
Device 52 enters cold-storage water pot 5.
Further, the secondary water at low temperature in cold-storage water pot 5 is through upper water distributor 51, the 9th regulating valve DV9, the 11st regulating valve
DV11, the 17th regulating valve DV17 enter subcooler 3a by the way that pump 7, third regulating valve DV 3, subcooler water inlet pipe 3a1 is subcooled,
Temperature increases after obtaining heat, by the 4th regulating valve DV4, the 14th regulating valve DV14, time with the cold-storage water pot 5 outflow
Water at low temperature mixes in cold-storage water pot return duct 511, and a mixing water part carries out next round charge cycle through cold-storage water pump 6, mixes
Heshui another part carries out next round by water supply pump 7 and crosses SAPMAC method.
Further, the water at low temperature in cold-storage water pot 5 is adjusted through lower water-dispensing device 52, the tenth regulating valve DV10, the 23rd
Valve DV23, by letting cool water pump 14, from 131 inflow heat exchanger 13 of heat exchanger water at low temperature water inlet end, water at low temperature is handed over through overheat
The secondary water at low temperature become after changing is flowed out from secondary water at low temperature water outlet 132, and after the 22nd regulating valve DV22, a part is through the
18 regulating valve DV18, charge cycle is entered by cold-storage water pump 6;A part passes through subcooled water through the 17th regulating valve DV17
Pump 7 entered SAPMAC method;Remainder enters cold-storage water through the 11st regulating valve DV11, the 9th regulating valve DV9, upper water distributor 51
In tank 5.
Cold accumulation system simultaneously cold-storage and discharging cold course, because cold storage capacity, let cool with cross cold variation, can cold-storage water pot,
Cold-storage water pump, let cool water pump, supercooling water pump and relevant regulating valve between generate many operating conditions, the utility model can root
It is controlled and is adjusted according to actual demand.
Further, the flow of cold-storage water pump 6 is computed determining with lift according to cold storage capacity and the cold-storage temperature difference.
Further, the flow of supercooling water pump 7 is computed determining according to supercooling temperature with lift with crossing cold flow.
Further, the flow for letting cool water pump 14 is computed determining according to the amount of letting cool with lift with letting cool temperature difference.
The present embodiment can improve the cold storage capacity of cold-storage sink, improve the refrigerating capacity of handpiece Water Chilling Units and reduce handpiece Water Chilling Units
Power consumption.
Cold accumulation system cold-storage and is let cool typically in electricity consumption ebb simultaneously, it is still necessary to be carried out in the case of using cold
's.Cold-storage water pot one side cold-storage at this time, lets cool on one side.When the unit of user terminal is more, need cold larger, at this time cooling-water machine
The acceptable cooling simultaneously of group.
The utility model realizes the peak load shifting of handpiece Water Chilling Units electricity consumption;Increase the cold storage capacity and cooling-water machine of cold-storage water pot
The refrigerating capacity of group reduces the electricity consumption of handpiece Water Chilling Units;Save the operating cost of cooling process.
Above-described is only the principle and preferred embodiment of the utility model.It should be pointed out that for the general of this field
For logical technical staff, on the basis of the utility model principle, several other modifications can also be made, also should be regarded as this practicality
Novel protection domain.
Claims (10)
1. a kind of cold accumulation system, including cold-storage water pot and handpiece Water Chilling Units, the handpiece Water Chilling Units include condenser and expansion valve, special
Sign is, further includes subcooler, and the subcooler is connected between the condenser and the expansion valve, and the subcooler includes
Subcooler water inlet pipe, subcooler outlet pipe, working medium inlet tube and working medium outlet tube, the subcooler water inlet pipe and the subcooler
Outlet pipe is connect with the cold-storage water pot, and the working medium inlet tube is connect with the condenser, the working medium outlet tube with it is described
Expansion valve connects.
2. cold accumulation system according to claim 1, which is characterized in that the cold-storage water pot includes upper water distributor and lower water distribution
Device, during the independent cooling of the handpiece Water Chilling Units, the lower water-dispensing device is connected with the subcooler water inlet pipe, the upper water distributor and institute
State the connection of subcooler outlet pipe.
3. cold accumulation system according to claim 1, which is characterized in that the cold-storage water pot includes upper water distributor and lower water distribution
Device, during the independent cold-storage of the cold-storage water pot, the subcooler water inlet pipe and subcooler outlet pipe are connected with the upper water distributor.
4. cold accumulation system according to claim 1, which is characterized in that the cold-storage water pot includes upper water distributor and lower water distribution
Device, cold-storage water pot cold-storage and when letting cool simultaneously, the subcooler water inlet pipe and subcooler outlet pipe with the upper water distribution
Device connects.
5. cold accumulation system according to claim 1, which is characterized in that the cold-storage water pot includes upper water distributor and lower water distribution
Device, evaporator include evaporator water inlet pipe and evaporator outlet pipe, and the evaporator outlet pipe is connected with the lower water-dispensing device, institute
Evaporator water inlet pipe is stated to connect with the upper water distributor.
6. cold accumulation system according to claim 5, which is characterized in that the cold accumulation system further includes user terminal, the use
Family end is included for water end (W.E.) and backwater end, described to be connected for water end (W.E.) with the evaporator outlet pipe, the backwater end and the evaporation
Device water inlet pipe connects.
7. cold accumulation system according to claim 6, which is characterized in that the cold accumulation system further includes heat exchanger, described
Heat exchanger further comprises water at low temperature water inlet end, secondary water at low temperature water outlet, user for water end (W.E.) and user's backwater end, the low temperature
Water water inlet end is connected with the lower water-dispensing device, and the secondary water at low temperature water outlet is connected with the upper water distributor, and the user supplies water
End is connected with described for water end (W.E.), and user's backwater end is connected with the backwater end.
8. cold accumulation system according to claim 7, which is characterized in that the cold-storage water pot is let cool, while the cooling-water machine
During group cooling, the subcooler water inlet pipe is connected with the secondary water at low temperature water outlet, the subcooler outlet pipe and the upper cloth
Hydrophone connects.
9. a kind of handpiece Water Chilling Units, successively including evaporator, compressor, condenser and expansion valve, which is characterized in that further include supercooling
Device, the subcooler are connected between the condenser and the expansion valve, and the subcooler includes subcooler water inlet pipe, supercooling
Device outlet pipe, working medium inlet tube and working medium outlet tube, the subcooler water inlet pipe and the subcooler outlet pipe and low temperature water cooling
Source connects, and the working medium inlet tube is connect with the condenser, and the working medium outlet tube is connect with the expansion valve.
10. handpiece Water Chilling Units according to claim 9, which is characterized in that time of the subcooler water inlet pipe and cold-storage water pot
Low temperature supplying water end (W.E.) connects, and the subcooler outlet pipe is connect with the secondary low-temperature return water end of the cold-storage water pot.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107014017A (en) * | 2017-05-19 | 2017-08-04 | 深圳佩尔优科技有限公司 | Cold accumulation system and control method |
CN107143954A (en) * | 2017-05-19 | 2017-09-08 | 海南佩尔优科技有限公司 | Cold accumulation system and control method |
CN108646833A (en) * | 2018-08-10 | 2018-10-12 | 北京源数科技有限公司 | Thermostat and temperature and humidity control system |
WO2020251480A1 (en) * | 2019-06-14 | 2020-12-17 | Maxeff Teknoloji̇ Anoni̇m Şi̇rketi̇ | Water sourced heating-cooling machine with refrigerant cooling unit that cools with an external cooling source and heating-cooling method |
CN115614868A (en) * | 2022-10-14 | 2023-01-17 | 江苏区宇能源有限公司 | Energy storage cooling system and operation method thereof |
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2017
- 2017-05-19 CN CN201720566019.1U patent/CN207570046U/en active Active
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107014017A (en) * | 2017-05-19 | 2017-08-04 | 深圳佩尔优科技有限公司 | Cold accumulation system and control method |
CN107143954A (en) * | 2017-05-19 | 2017-09-08 | 海南佩尔优科技有限公司 | Cold accumulation system and control method |
CN107143954B (en) * | 2017-05-19 | 2024-01-23 | 海南佩尔优科技有限公司 | Cold accumulation system and control method |
CN108646833A (en) * | 2018-08-10 | 2018-10-12 | 北京源数科技有限公司 | Thermostat and temperature and humidity control system |
CN108646833B (en) * | 2018-08-10 | 2024-03-19 | 北京源数科技有限公司 | Constant temperature equipment and temperature and humidity control system |
WO2020251480A1 (en) * | 2019-06-14 | 2020-12-17 | Maxeff Teknoloji̇ Anoni̇m Şi̇rketi̇ | Water sourced heating-cooling machine with refrigerant cooling unit that cools with an external cooling source and heating-cooling method |
CN115614868A (en) * | 2022-10-14 | 2023-01-17 | 江苏区宇能源有限公司 | Energy storage cooling system and operation method thereof |
CN115614868B (en) * | 2022-10-14 | 2023-10-27 | 江苏区宇能源有限公司 | Energy storage cooling system and operation method thereof |
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