CN205957541U - Draw heat pump heating cooling system of heat of solidification or system ice - Google Patents
Draw heat pump heating cooling system of heat of solidification or system ice Download PDFInfo
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- CN205957541U CN205957541U CN201620911664.8U CN201620911664U CN205957541U CN 205957541 U CN205957541 U CN 205957541U CN 201620911664 U CN201620911664 U CN 201620911664U CN 205957541 U CN205957541 U CN 205957541U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/52—Heat recovery pumps, i.e. heat pump based systems or units able to transfer the thermal energy from one area of the premises or part of the facilities to a different one, improving the overall efficiency
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Abstract
The utility model provides a draw heat pump heating cooling system of heat of solidification or system ice. The utility model belongs to the technical field of the energy. The utility model aims at providing a draw heat pump heating cooling system of heat of solidification or system ice, the latent heat of solidification of exttaction water reduces substantially system's water consumption, solves water shortage's problem. The utility model discloses the system by heat pump set, solidify enthalpy exchanger, cooling heat exchanger, cyclone separator, accent sand valve, ejector, water tank, cooling tower, many water pumps, valve unit become, through the tube coupling. This system can realize the incessant circulation of the freezing in succession of water, deicing and refreeze, through the valve open and close realize summer the ice -reserving refrigeration with extract the switching between the heat of solidification heating winter, has solved and has extracted the cold water heat of solidification and heat, utilize cooling tower ice -melt and ice -reserving refrigeration problem. The utility model is suitable for a draw heat supply of cold water heat of solidification and ice storage air conditioning system.
Description
Technical field
This utility model is related to a kind of heat pump heating and cooling system extracting heat of solidification or ice making, belongs to energy technology neck
Domain.
Background technology
Using heat pump techniques, develop the refrigeration and heating that low-grade, reproducible clean energy resource is used for building, be energy-conservation
One of effective way reducing discharging, has huge energy-saving and environmental protection and economic worth.But in practical engineering application, exist
The situation that the water yield is less, water temperature is low, if still routinely water resource heat pump mode, that is, extracts in water sensible heat in order to the refrigeration of building
Heating will not have feasibility.Water, when solidification freezes, can discharge substantial amounts of latent heat of solidification, reasonably develops this part
Energy, not only can solve water resource anxiety problem, also can greatly improve the energy utilization rate of system.Additionally, rational arrange
Connecting line, can make systemic-function variation, it is possible to achieve summer ice-reserving cooling, winter extract water heat of solidification heating and
The functions such as cooling tower ice-melt, Winter-summer dual purpose, there is considerable economy and practicality.
But when using extracting the heat pump of heat of solidification in water, its crucial problem is continuous freezes and timely and effectively
Except ice problem;In addition the switching of two season of summer in winter operating mode is it must be noted that the connection control problem of pipeline.
Patent No. " ZL201510759321.4 ", entitled " a kind of ice-storage air-conditioning and ice cold-storage method ", publication number
For " CN105588241A ", its de-icing method be rely on ice to leave heat-transfer surface in partial melting under buoyancy although its
Theoretically feasible, but unreliable because ice can not leave heat-transfer surface in time in actual motion.
Patent No. " ZL201220003030.4 ", entitled " a kind of ice cold-storage and thermal storage air-conditioning ", authorize publication number
" CN202747500U ", this patent is only summer ice-reserving, haves the shortcomings that efficiency is low, and winter does not still enable to extract water
Heat of solidification is in order to heat.Additionally, not referring to how deicing in this system, the long-pending attached of ice sheet not only can weaken heat exchange efficiency, seriously
Meeting lead to block, system cannot normally run.
The patent of inventor's application, Application No. " 201610312053.6 ", title is a kind of " heat extracting latent heat of solidification
Pumping system ".This patent is only the heat of solidification heating system extracting water, lacks summer ice-reserving cooling function, no compared with the system
Can Winter-summer dual purpose.The heat of solidification heating of cold water can be extracted, summer can be using ice-reserving refrigeration, a tractor serves several purposes during the system winter.
This utility model is by using liquid-solid fluidized bed with sand removing process using vortex flow carries out online ice making and deicing it is ensured that system
Realize continuous icing, deicing and the uninterrupted circulation freezing again of water, and system structure setting is flexibly, can be according to practical situation
Carry out local directed complete set, realize several functions, meet the requirement of different operating modes.
Content of the invention
The purpose of this utility model is to provide a kind of heat pump heating and cooling system extracting heat of solidification or ice making, employs solid
Liquid fluid bed and sand removing process using vortex flow it is achieved that the continuous icing of water, deicing and the uninterrupted circulation freezing again, solve due to
Water resources shortage cannot realize water resource heat pump heating refrigeration problem.At the same time it can also realize the flexible switching of Summer and winter operating mode, reach
Purpose to a tractor serves several purposes.
This utility model is to solve above technical problem, is adopted the technical scheme that:
The utility model proposes a kind of extraction heat of solidification or ice making heat pump heating and cooling system, it by source pump,
Solidify heat exchanger, supply cold heat exchanger, injector, adjust sand valve, hydrocyclone, water tank, cooling tower, intermediary's water pump, Water in Water Tank
Pump, end circulating pump, cooling tower circulating pump, intermediary's water vibration means for main pipe for supplying water, intermediary water backwater supervisor, injector outlet pipe, eddy flow remove
Sand device water inlet pipe, hydrocyclone outlet pipe, radiator drain, refrigeration feed pipe, refrigeration return pipe, end water supply arm, end
End return branch, end vibration means for main pipe for supplying water, end backwater supervisor, intermediary's water water supply arm, intermediary's water return branch, cooling tower supply water
Pipe, cooling tower return pipe and multiple valve form, and described source pump is supplied water by intermediary's water with solidification heat exchanger and leads
Pipe and intermediary water backwater supervisor form sealing and circulating;Described intermediary's water pump is arranged on intermediary water backwater supervisor;In described
It is provided with valve one on Jie's water vibration means for main pipe for supplying water;It is provided with valve two on described intermediary water backwater supervisor, and be located at intermediary's water pump
And source pump between;Described injector is connected by injector outlet pipe with solidification heat exchanger;Described heat of solidification
Heat exchanger is connected by hydrocyclone water inlet pipe with hydrocyclone;It is provided with valve on described injector outlet pipe
Three;It is provided with valve four on described hydrocyclone water inlet pipe;Described hydrocyclone is connected with injector, both it
Between be provided with tune sand valve;Described hydrocyclone is connected by hydrocyclone outlet pipe with water tank;Described water tank with draw
Emitter is connected by radiator drain;Described water tank water pump is arranged on radiator drain;On described radiator drain
It is provided with valve five, and be located between water tank water pump and injector;Described refrigeration feed pipe one end is connected with for cold heat exchanger
Logical, the other end is connected with radiator drain, and is located between water tank water pump and valve five;Described water tank with supply cold heat exchanger
By freezing, return pipe is connected;It is provided with valve six on described refrigeration feed pipe;It is provided with described refrigeration return pipe
Valve seven;Described end vibration means for main pipe for supplying water is connected with intermediary water vibration means for main pipe for supplying water, and connectivity points are located at valve one and source pump
Between;Described end backwater supervisor be connected with intermediary water backwater supervisor, and connectivity points be located at valve two and source pump it
Between;Described end circulating pump is arranged on the backwater supervisor of end;It is provided with valve 11 on described end backwater supervisor, and
Between the junction point and end circulating pump of end backwater supervisor and intermediary water backwater supervisor;Described end water supply arm
One end is connected with for cold heat exchanger, and the other end is connected with end vibration means for main pipe for supplying water;It is provided with described end vibration means for main pipe for supplying water
Valve ten, and the junction point positioned at intermediary's water vibration means for main pipe for supplying water and end vibration means for main pipe for supplying water and end vibration means for main pipe for supplying water and end water supply arm
Junction point between;One end of described end return branch is connected with for cold heat exchanger, and the other end is responsible for end backwater
It is connected, and be located between valve 11 and end circulating pump;It is provided with valve eight on described end water supply arm;Described
Valve nine is provided with the return branch of end;One end of described intermediary's water water supply arm is connected with source pump, the other end
It is connected with intermediary water vibration means for main pipe for supplying water, and be located between valve one and solidification heat exchanger;Described intermediary's water return branch
One end is connected with source pump, and the other end is connected with intermediary water backwater supervisor, and is located between intermediary's water pump and valve two;
It is provided with valve 12 on described intermediary's water water supply arm;It is provided with valve 13 in described intermediary's water return branch;Institute
The one end of the cooling tower feed pipe stated is connected with cooling tower, and the other end is connected with intermediary water water supply arm, and is located at heat pump
Between unit and valve 12;One end of described cooling tower return pipe is connected with cooling tower, the other end and intermediary's water backwater
Arm is connected, and is located between source pump and valve 13;Described cooling tower circulating pump is arranged on cooling tower return pipe
On;It is provided with valve 14 on described cooling tower feed pipe;It is provided with valve 15 on described cooling tower return pipe.
A kind of described heat pump heating and cooling system extracting heat of solidification or ice making, it also includes ice-melt feed pipe, ice-melt is returned
Water pipe, ice-melt circulating pump, are connected by ice-melt feed pipe between described water tank and cooling tower;Described cooling tower and water tank
Between be connected by ice-melt return pipe;Described ice-melt circulating pump is arranged on ice-melt feed pipe;Described ice-melt feed pipe
On be provided with valve 16.
Operation logic of the present utility model is:
Under Water in Water Tank pumping action, the water in water tank enters injector, and the sand going out with injector injection enters solidifying after mixing
Gu heat exchanger, part water condenses in solidification heat exchanger after discharging latent heat and becomes ice, and mixture of ice and water and sand return rotation
Stream desander, by mixture of ice and water and sand separation, the sand after separating enters injector and by injection again to hydrocyclone, simultaneously
Mixture of ice and water enters water tank.In winter, intermediary's heat transferring medium enters heat after the latent heat of solidification of extract water in solidification heat exchanger
Pump assembly, unit rejects heat to end water by refrigerant cycle, and heated end water delivers to user in order to heat.Summer
In season, intermediary's heat transferring medium enters source pump after the latent heat of solidification of extract water in solidification heat exchanger, and unit passes through cold-producing medium
Circulation rejects heat to the cooling water from cooling tower, and the cooling water entrance cooling tower after heat absorption heats up is cooled again.Water
In case, 0 DEG C of water enters after refrigerated heat exchanger is heated up with end water heat exchange and returns water tank, and cooled end water is delivered to user and used
With end refrigeration.
This utility model has following features and its advantage with respect to prior art:
1. the patent of Publication No. CN202747500U only can in summer ice-reserving, Application No. 201610312053.6
Patent only enables winter extraction heat of solidification heating.This utility model cannot be only used for winter extract cold water in heat of solidification in order to
Heating, it may also be used for summer extracts heat of solidification ice-reserving, is freezed using ice-reserving, additionally, the system can also make full use of air
Low-grade energy in source, when outdoor temperature is more than 0 DEG C, starts cooling tower ice-melt, supplements output.
2. compared with relying on buoyancy deicing and existing mechanical deicing technique with the patent of Publication No. CN105588241A,
This utility model is frozen and deicing online using liquid-solid fluidized bed and sand removing process using vortex flow, efficiency be remarkably improved 20% with
On.
3. this utility model relies on solid particle with current frequent impact heat exchange wall so that being attached to the ice of heat exchange wall
Damage layer, stripping, it is ensured that the high efficiency of deicing, reduce heat transfer resistance, substantially increase heat transfer efficiency, the operation effect of system
Rate will at least improve 30%.
4., only with parts such as traditional hydrocyclone, injector, cooling towers, process form is simple for this utility model,
The stable and reliable operation of system, and small investment.
Brief description
Fig. 1 is structural representation of the present utility model
Fig. 2 is the structural representation of this utility model specific embodiment two
Source pump 1, solidification heat exchanger 2, for cold heat exchanger 3, injector 4, adjust sand valve 5, hydrocyclone 6, water tank
7th, cooling tower 8, intermediary's water pump 9, water tank water pump 10, end circulating pump 11, cooling tower circulating pump 12, intermediary's water vibration means for main pipe for supplying water 13,
Intermediary water backwater supervisor 14, injector outlet pipe 15, hydrocyclone water inlet pipe 16, hydrocyclone outlet pipe 17, water tank go out
Water pipe 18, refrigeration feed pipe 19, refrigeration return pipe 20, end water supply arm 21, end return branch 22, end vibration means for main pipe for supplying water
23rd, end backwater supervisor 24, intermediary's water water supply arm 25, intermediary's water return branch 26, cooling tower feed pipe 27, cooling tower backwater
Pipe 28, valve one 29-1, valve two 29-2, valve three 29-3, valve four 29-4, valve five 29-5, valve six 29-6, valve seven
29-7, valve eight 29-8, valve nine 29-9, valve ten 29-10, valve 11 29-11, valve 12 29-12, valve 13
29-13, valve 14 29-14, valve 15 29-15, valve 16 29-16, ice-melt feed pipe 30, ice-melt return pipe 31, melt
Ice circulating pump 32.
Specific embodiment
Specific embodiment one, as shown in figure 1, the heat pump heat supply of a kind of extraction heat of solidification of present embodiment or ice making supplies
Cooling system, it by source pump 1, solidification heat exchanger 2, for cold heat exchanger 3, injector 4, adjust sand valve 5, hydrocyclone 6, water
Case 7, cooling tower 8, intermediary's water pump 9, water tank water pump 10, end circulating pump 11, cooling tower circulating pump 12, intermediary's water vibration means for main pipe for supplying water
13rd, intermediary's water backwater supervisor 14, injector outlet pipe 15, hydrocyclone water inlet pipe 16, hydrocyclone outlet pipe 17, water tank
Outlet pipe 18, refrigeration feed pipe 19, refrigeration return pipe 20, end water supply arm 21, end return branch 22, end vibration means for main pipe for supplying water
23rd, end backwater supervisor 24, intermediary's water water supply arm 25, intermediary's water return branch 26, cooling tower feed pipe 27, cooling tower backwater
Pipe 28 and multiple valve composition, described source pump 1 passes through intermediary's water vibration means for main pipe for supplying water 13 and intermediary with solidification heat exchanger 2
Water backwater supervisor 14 formation sealing and circulating;Described intermediary's water pump 9 is arranged on intermediary water backwater supervisor 14;Described intermediary's water
Valve one 29-1 is provided with vibration means for main pipe for supplying water 13;It is provided with valve two 29-2 on described intermediary water backwater supervisor 14, and be located at
Between intermediary's water pump 9 and source pump 1;Described injector 4 is connected by injector outlet pipe 15 with solidification heat exchanger 2
Logical;Described solidification heat exchanger 2 is connected by hydrocyclone water inlet pipe 16 with hydrocyclone 6;Described injector
Valve three 29-3 is provided with outlet pipe 15;Valve four 29-4 is provided with described hydrocyclone water inlet pipe 16;Described
Hydrocyclone 6 is connected with injector 4, is provided with tune sand valve 5 between the two;Described hydrocyclone 6 and water tank 7 pass through rotation
Stream desander outlet pipe 17 is connected;Described water tank 7 is connected by radiator drain 18 with injector 4;Described water tank
Water pump 10 is arranged on radiator drain 18;Valve five 29-5 is provided with described radiator drain 18, and is located at Water in Water Tank
Between pump 10 and injector 4;Described refrigeration feed pipe 19 one end is connected with for cold heat exchanger 3, the other end and water tank water outlet
Pipe 18 is connected, and is located between water tank water pump 10 and valve five 29-5;Described water tank 7 passes through refrigeration with for cold heat exchanger 3
Return pipe 20 is connected;Valve six 29-6 is provided with described refrigeration feed pipe 19;Arrange on described refrigeration return pipe 20
There is valve seven 29-7;Described end vibration means for main pipe for supplying water 23 is connected with intermediary water vibration means for main pipe for supplying water 13, and connectivity points are located at valve one
Between 29-1 and source pump 1;Described end backwater supervisor 24 is connected with intermediary water backwater supervisor 14, and connectivity points are located at
Between valve two 29-2 and source pump 1;Described end circulating pump 11 is arranged on end backwater supervisor 24;Described end
Valve 11 29-11 is provided with backwater supervisor 24, and is located at the connection of end backwater supervisor 24 and intermediary water backwater supervisor 14
Between point and end circulating pump 11;One end of described end water supply arm 21 is connected with for cold heat exchanger 3, the other end with end
End vibration means for main pipe for supplying water 23 is connected;Valve ten 29-10 is provided with described end vibration means for main pipe for supplying water 23, and is located at intermediary water water supply master
Between the junction point of the junction point of pipe 13 and end vibration means for main pipe for supplying water 23 and end vibration means for main pipe for supplying water 23 and end water supply arm 21;Described
One end of end return branch 22 be connected with for cold heat exchanger 3, the other end and end backwater supervisor 24 is connected, and is located at
Between valve 11 29-11 and end circulating pump 11;It is provided with valve eight 29-8 on described end water supply arm 21;Described
Valve nine 29-9 is provided with end return branch 22;One end of described intermediary's water water supply arm 25 is connected with source pump 1
Logical, the other end is connected with intermediary water vibration means for main pipe for supplying water 13, and is located at valve one 29-1 and solidifies between heat exchanger 2;Described
One end of intermediary's water return branch 26 is connected with source pump 1, and the other end is connected with intermediary water backwater supervisor 14, and is located at
Between intermediary's water pump 9 and valve two 29-2;It is provided with valve 12 29-12 on described intermediary's water water supply arm 25;Described
Valve 13 29-13 is provided with intermediary's water return branch 26;Described one end of cooling tower feed pipe 27 is connected with cooling tower 8
Logical, the other end is connected with intermediary water water supply arm 25, and positioned between source pump 1 and valve 12 29-12;Described is cold
But one end of tower return pipe 28 is connected with cooling tower 8, and the other end is connected with intermediary water return branch 26, and is located at heat pump machine
Between group 1 and valve 13 29-13;Described cooling tower circulating pump 12 is arranged on cooling tower return pipe 28;Described cooling
Valve 14 29-14 is provided with tower feed pipe 27;Valve 15 29-15 is provided with described cooling tower return pipe 28.
Specific embodiment two, as shown in Fig. 2 the system of present embodiment, its difference with specific embodiment one
It is that it also includes ice-melt feed pipe 30, ice-melt return pipe 31, ice-melt circulating pump 32, logical between described water tank 7 and cooling tower 8
Cross ice-melt feed pipe 30 to be connected;It is connected by ice-melt return pipe 31 between described cooling tower 8 and water tank 7;Described melts
Ice circulating pump 32 is arranged on ice-melt feed pipe 30;Valve 16 29-16 is provided with described ice-melt feed pipe 30.This enforcement
The beneficial effect of mode is using cooling tower ice-melt, reduces system required water amount, and when outdoor wet bulb temperature reaches necessarily
During numerical value, cooling tower heating system clean water makes the degree that its temperature raises larger, no longer produces ice, this in heat transmission equipment
In the case of, running efficiency of system is higher.
Operation principle
During heat supply in winter, Open valve three 29-3, valve four 29-4, valve five 29-5, valve ten 29-10, valve 11
29-11, valve 12 29-12, valve 13 29-13, remaining valve is closed.Under water source water pump 10 effect, water
Water in case 7 enters injector 4 via radiator drain 18, and water mixes with through the detached sand of hydrocyclone 6 in injector 4
Become water sand mixture, water sand mixture enters solidification heat exchanger 2 through injector outlet pipe 15, part water is in solidification heat exchanger
Become ice, mixture of ice and water and sand enter hydrocyclone 6, rotation through hydrocyclone water inlet pipe 16 after discharging heat of solidification in 2
By mixture of ice and water and sand separation, sand enters injector 4 and by injection again to stream desander 6, and mixture of ice and water is through Swirling flow sand-removing
Device outlet pipe 17 returns water tank 7, then carries out recirculation.Under intermediary's water pump 9 effect, intermediary's heat transferring medium returns via intermediary's water
Water supervisor 14, intermediary's water return branch 26 enter source pump 1, through being supplied by intermediary's water after discharging heat in source pump 1
Water arm 25, intermediary's water vibration means for main pipe for supplying water 13 enter solidification heat exchanger 2, and intermediary's heat transferring medium absorbs in solidification heat exchanger 2
Flow into intermediary water backwater supervisor 14 after the heat of solidification of water and complete sealing and circulating.Under end circulating pump 11 effect, end water is through end
End backwater supervisor 24, intermediary water backwater supervisor 14 entrance source pump 1, supply through intermediary's water after heat absorption temperature rise in source pump 1
Water supervisor 13, end vibration means for main pipe for supplying water 23 deliver to user in order to heat.When the wet bulb temperature of outside atmosphere is higher than 0 DEG C, opening valve
Men Shiliu 29-16, the water that ice-melt circulating pump 32 extracts in water tank 7 enters cooling tower 8 via ice-melt feed pipe 30, and water is in cooling tower
Through by ice-melt return pipe 31 reflow tank 7 after completing with air heat-exchange in 8 to heat up, and then the ice in water tank 7, water are risen
Temperature.
During summer ice-reserving refrigeration, Open valve one 29-1, valve two 29-2, valve three 29-3, valve four 29-4, valve five
29-5, valve six 29-6, valve seven 29-7, valve eight 29-8, valve nine 29-9, valve 14 29-14, valve 15 29-15,
Remaining valve is closed.Under water source water pump 10 effect, the water in water tank 7 enters injector via water source outlet pipe 18
4, water is mixed into water sand mixture with through the detached sand of hydrocyclone 6 in injector 4, and water sand mixture is through injector water outlet
Pipe 15 enters solidification heat exchanger 2, and part water becomes ice, mixture of ice and water after discharging heat of solidification in solidification heat exchanger 2
Enter hydrocyclone 6 with sand through hydrocyclone water inlet pipe 16, mixture of ice and water and sand separation, sand are entered by hydrocyclone 6
Enter injector 4 and by injection again, mixture of ice and water returns water tank 7 through hydrocyclone outlet pipe 17, then carries out recirculation.
Under intermediary's water pump 9 effect, intermediary's heat transferring medium, through intermediary water backwater supervisor 14 entrance source pump 1, is released in source pump 1
Solidification heat exchanger 2 is entered through intermediary's water vibration means for main pipe for supplying water 13, intermediary's heat transferring medium absorbs in solidification heat exchanger 2 after thermal discharge
Flow into intermediary water backwater supervisor 14 after the heat of solidification of water and complete sealing and circulating.Under cooling tower circulating pump 12 effect, cooling tower is cold
But water cooled tower return pipe 28, intermediary's water return branch 26 enter source pump 1, and cooling water absorbs heat in source pump 1
Enter cooling tower and be cooled through intermediary's water water supply arm 25, cooling tower feed pipe 27 after intensification, then carry out recirculation.In water tank
In the presence of water pump 10, in water tank 0 DEG C of water enters and supplies cold heat exchanger 3 through radiator drain 18, refrigeration feed pipe 19, and water exists
Return water tank 7 for after heat absorption intensification in cold heat exchanger 3 through refrigeration return pipe 20, under end circulating pump 11 effect, end water
Through end backwater supervisor 24, end return branch 22 enter supply cold heat exchanger 3, end water in for cold heat exchanger 3 with water tank
Cold water heat exchange is lowered the temperature, and the end water after cooling delivers to user in order to freeze through end water supply arm 21, end vibration means for main pipe for supplying water 23.
The foregoing is only preferred embodiment of the present utility model, be not limited to, although with reference to the foregoing embodiments
This utility model is described in detail, for a person skilled in the art, it still can be to aforesaid technology
Scheme is modified, or carries out equivalent to wherein some technical characteristics, should be included in protection model of the present utility model
Within enclosing.
Claims (2)
1. a kind of heat pump heating and cooling system extracting heat of solidification or ice making, it by source pump (1), solidification heat exchanger (2),
For cold heat exchanger (3), injector (4), adjust sand valve (5), hydrocyclone (6), water tank (7), cooling tower (8), intermediary's water pump
(9), water tank water pump (10), end circulating pump (11), cooling tower circulating pump (12), intermediary's water vibration means for main pipe for supplying water (13), intermediary's water return
Water supervisor (14), injector outlet pipe (15), hydrocyclone water inlet pipe (16), hydrocyclone outlet pipe (17), water tank go out
Water pipe (18), refrigeration feed pipe (19), refrigeration return pipe (20), end water supply arm (21), end return branch (22), end
Vibration means for main pipe for supplying water (23), end backwater supervisor (24), intermediary's water water supply arm (25), intermediary's water return branch (26), cooling tower supply
Water pipe (27), cooling tower return pipe (28) and multiple valve composition are it is characterised in that described source pump (1) and heat of solidification
Heat exchanger (2) passes through intermediary's water vibration means for main pipe for supplying water (13) and intermediary's water backwater supervisor (14) forms sealing and circulating;Described intermediary's water
Pump (9) is arranged in intermediary's water backwater supervisor (14);It is provided with valve one (29-1) in described intermediary's water vibration means for main pipe for supplying water (13);
Be provided with valve two (29-2) in described intermediary water backwater supervisor (14), and be located at intermediary's water pump (9) and source pump (1) it
Between;Described injector (4) is connected by injector outlet pipe (15) with solidification heat exchanger (2);Described heat of solidification is changed
Hot device (2) is connected by hydrocyclone water inlet pipe (16) with hydrocyclone (6);On described injector outlet pipe (15)
It is provided with valve three (29-3);It is provided with valve four (29-4) on described hydrocyclone water inlet pipe (16);Described eddy flow
Desander (6) is connected with injector (4), is provided with tune sand valve (5) between the two;Described hydrocyclone (6) and water tank (7)
It is connected by hydrocyclone outlet pipe (17);Described water tank (7) is connected by radiator drain (18) with injector (4)
Logical;Described water tank water pump (10) is arranged on radiator drain (18);It is provided with valve on described radiator drain (18)
Five (29-5), and be located between water tank water pump (10) and injector (4);Described refrigeration feed pipe (19) one end and cooling heat exchange
Device (3) is connected, and the other end is connected with radiator drain (18), and be located at water tank water pump (10) and valve five (29-5) it
Between;Described water tank (7) is connected by the return pipe (20) that freezes with for cold heat exchanger (3);Described refrigeration feed pipe (19)
On be provided with valve six (29-6);It is provided with valve seven (29-7) on described refrigeration return pipe (20);Supply water in described end
Supervisor (23) is connected with intermediary's water vibration means for main pipe for supplying water (13), and connectivity points are located between valve one (29-1) and source pump (1);
Described end backwater supervisor (24) is connected with intermediary's water backwater supervisor (14), and connectivity points are located at valve two (29-2) and heat
Between pump assembly (1);Described end circulating pump (11) is arranged on end backwater supervisor (24);Described end backwater supervisor
(24) it is provided with valve 11 (29-11) on, and be located at the connection of end backwater supervisor (24) and intermediary's water backwater supervisor (14)
Between point and end circulating pump (11);Described one end of end water supply arm (21) is connected with for cold heat exchanger (3), another
End is connected with end vibration means for main pipe for supplying water (23);It is provided with valve ten (29-10) on described end vibration means for main pipe for supplying water (23), and be located at
The junction point of intermediary's water vibration means for main pipe for supplying water (13) and end vibration means for main pipe for supplying water (23) and end vibration means for main pipe for supplying water (23) and end water supply arm
(21) between junction point;Described one end of end return branch (22) is connected with for cold heat exchanger (3), the other end with end
End backwater supervisor (24) is connected, and is located between valve 11 (29-11) and end circulating pump (11);Supply water in described end
Valve eight (29-8) is provided with arm (21);It is provided with valve nine (29-9) in described end return branch (22);Described
One end of intermediary's water water supply arm (25) be connected with source pump (1), the other end is connected with intermediary's water vibration means for main pipe for supplying water (13)
Logical, and be located between valve one (29-1) and solidification heat exchanger (2);Described one end of intermediary's water return branch (26) and heat
Pump assembly (1) is connected, and the other end is connected with intermediary's water backwater supervisor (14), and is located at intermediary's water pump (9) and valve two
(29-2) between;It is provided with valve 12 (29-12) in described intermediary's water water supply arm (25);Described intermediary's water backwater props up
It is provided with valve 13 (29-13) on pipe (26);Described one end of cooling tower feed pipe (27) is connected with cooling tower (8),
The other end is connected with intermediary's water water supply arm (25), and is located between source pump (1) and valve 12 (29-12);Described
One end of cooling tower return pipe (28) be connected with cooling tower (8), the other end is connected with intermediary's water return branch (26), and
Between source pump (1) and valve 13 (29-13);Described cooling tower circulating pump (12) is arranged on cooling tower return pipe
(28) on;It is provided with valve 14 (29-14) on described cooling tower feed pipe (27);On described cooling tower return pipe (28)
It is provided with valve 15 (29-15).
2. a kind of heat pump heating and cooling system extracting heat of solidification or ice making according to claim 1 it is characterised in that it
Also include ice-melt feed pipe (30), ice-melt return pipe (31), ice-melt circulating pump (32), described water tank (7) and cooling tower (8) it
Between be connected by ice-melt feed pipe (30);It is connected by ice-melt return pipe (31) between described cooling tower (8) and water tank (7)
Logical;Described ice-melt circulating pump (32) is arranged on ice-melt feed pipe (30);It is provided with valve on described ice-melt feed pipe (30)
Men Shiliu (29-16).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620911664.8U CN205957541U (en) | 2016-08-22 | 2016-08-22 | Draw heat pump heating cooling system of heat of solidification or system ice |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620911664.8U CN205957541U (en) | 2016-08-22 | 2016-08-22 | Draw heat pump heating cooling system of heat of solidification or system ice |
Publications (1)
Publication Number | Publication Date |
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CN205957541U true CN205957541U (en) | 2017-02-15 |
Family
ID=57978191
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CN201620911664.8U Withdrawn - After Issue CN205957541U (en) | 2016-08-22 | 2016-08-22 | Draw heat pump heating cooling system of heat of solidification or system ice |
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CN (1) | CN205957541U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106152612A (en) * | 2016-08-22 | 2016-11-23 | 青岛科创蓝新能源股份有限公司 | A kind of heat pump heating and cooling system extracting heat of solidification or ice making |
-
2016
- 2016-08-22 CN CN201620911664.8U patent/CN205957541U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106152612A (en) * | 2016-08-22 | 2016-11-23 | 青岛科创蓝新能源股份有限公司 | A kind of heat pump heating and cooling system extracting heat of solidification or ice making |
CN106152612B (en) * | 2016-08-22 | 2018-05-01 | 青岛科创蓝新能源股份有限公司 | A kind of heat pump heating and cooling system for extracting heat of solidification or ice making |
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