CN209165532U - One source two of one kind is for Hydraulic Power System - Google Patents
One source two of one kind is for Hydraulic Power System Download PDFInfo
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- CN209165532U CN209165532U CN201821901603.9U CN201821901603U CN209165532U CN 209165532 U CN209165532 U CN 209165532U CN 201821901603 U CN201821901603 U CN 201821901603U CN 209165532 U CN209165532 U CN 209165532U
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Abstract
The utility model discloses an a kind of sources two for Hydraulic Power System, belongs to heating system field.One source two of one kind of the utility model is for Hydraulic Power System, including heat power supply device, heat exchange cycle branch, main line, ground heating system and fan coil system, described heat exchange cycle branch one end is connect with heat power supply device, the other end is connect with main line, to carry out circulating-heating to the circulation fluid in main line by heat power supply device, the ground heating system and fan coil system is both connected on main line, the liquid feeding end of the fan coil system and ground heating system is respectively positioned on the side of heat exchange cycle branch Yu main line connecting pin, and the outlet end of the fan coil system and ground heating system is respectively positioned on the other side of heat exchange cycle branch Yu main line connecting pin.The Hydraulic Power System of the utility model can satisfy heating demands, and entire Hydraulic Power System runs smoothly reliably, and heating effect is good.
Description
Technical field
The utility model relates to a kind of Hydraulic Power Systems, more specifically to an a kind of source two for Hydraulic Power System.
Background technique
With the development of economy, floor heating is more more and more universal, and the heating of winter ground heating system has become common mode, usual feelings
Under condition, ground heating system, which is all utilized under indoor floor, is laid with the mode of pipeline to realize heating, still, usually has in reality
Part construction area is smaller or building storey height is higher, at this time if only being laid with limited ground heating pipe, floor heating in bottom surface
Heat caused by pipeline is the heating demands for being insufficient for building interior.It is related in order to meet the heating demands of building
Technical staff is additionally arranged other ends, such as cooling fin, fan coil etc. on original ground heating system, still, existingly
Heating system often will appear end circulating fluid flow rate deficiency, the distribution of multiple end circulating fluid flow rates not when adding other ends
, the situations such as heat utilization is insufficient, greatly affected the heating effect of whole system.
Summary of the invention
1. utility model technical problems to be solved
For heating system above shortcomings in the prior art, the utility model provides one source two of one kind for waterpower
System, Hydraulic Power System setting ground heating system and fan coil system heat jointly, can satisfy heating demands, meanwhile, the water
Rationally, the flow of circulation fluid is sufficient in fan coil system and ground heating system, and fan coil system and floor heating for Force system arrangement
Rationally, entire Hydraulic Power System runs smoothly reliably, and heating effect is good for circulation fluid distribution in system.
2. technical solution
In order to achieve the above objectives, technical solution provided by the utility model are as follows:
One source two of one kind of the utility model for Hydraulic Power System, including heat power supply device, heat exchange cycle branch, main line,
Heating system and fan coil system, described heat exchange cycle branch one end are connect with heat power supply device, and the other end is connect with main line,
To carry out circulating-heating to the circulation fluid in main line by heat power supply device, the ground heating system and fan coil system are equal
It is connected on main line, the liquid feeding end of the fan coil system and ground heating system is respectively positioned on heat exchange cycle branch and main line
The side of connecting pin, and the outlet end of the fan coil system and ground heating system is respectively positioned on heat exchange cycle branch and main line
The other side of connecting pin.
Further, the heat exchange cycle branch includes heat exchange inlet pipe, first circulation pump and heat exchange outlet tube
Road, the heat exchange inlet pipe and heat exchange outlet tube Lu Junyu main line vertically connect, and exchange heat inlet pipe, exchange heat out liquid
The distance between two tie points of pipeline and main line are no more than four times of main line caliber.
Further, the fan coil system includes fan coil inlet pipe, second circulation pump, fan coil
Water segregator, fan coil and fan coil outlet tube road, the second circulation pump is set in fan coil inlet pipe, described
Fan coil water segregator be connected on main line by fan coil inlet pipe and fan coil outlet tube road, the wind
Machine coil pipe is connected on fan coil water segregator.
Further, the fan coil outlet tube road is equipped with first check-valve and drain valve.
Further, the liquid feeding end of the fan coil system and ground heating system is respectively positioned on heat exchange cycle branch and master
The outlet end of the upside at piping connection end, the fan coil system and ground heating system is respectively positioned on heat exchange cycle branch and supervisor
The downside of road connecting pin.
Further, the ground heating system includes floor heating inlet pipe, third circulating pump, floor heating water divider and pipe network
With floor heating liquid back pipe road, the third circulating pump is connected in floor heating inlet pipe, and the floor heating water divider and pipe network are logical
It crosses floor heating inlet pipe and floor heating liquid back pipe road is connected on main line.
Further, the floor heating inlet pipe is connected to floor heating liquid back pipe road by connecting line, described
Floor heating inlet pipe on be located at connecting line position at be additionally provided with three-way water mixing valve, the three-way water mixing valve and connecting line
Connection.
Further, second check-valve is additionally provided in the floor heating inlet pipe.
Further, the heat power supply device includes air source heat pump, and the air source heat pump is connected with outer machine.
Further, the heat exchange outlet tube road is equipped with air separator.
3. beneficial effect
It is had the following beneficial effects: compared with existing well-known technique using technical solution provided by the utility model
(1) one source two of one kind of the utility model is equipped with ground heating system and fan coil for Hydraulic Power System, the Hydraulic Power System
System can be improved heating effect, meet the heating demands of building, simultaneously as ground heating system and fan coil system with
Main line connection, and the liquid feeding end of fan coil system and ground heating system is respectively positioned on heat exchange cycle branch and main line connecting pin
The outlet end of side, fan coil system and ground heating system is respectively positioned on the other side of heat exchange cycle branch Yu main line connecting pin,
Circulation fluid can enter from the side of main line and carry out circulating-heating in fan coil system and ground heating system, and flow back into master
The other side of pipeline, circulating fluid dynamic stability, also, the high temperature circulation liquid after heating and the low-temperature circulating liquid after heating can
It is mixed in main line, heat utilization ratio is high in circulation fluid, and enables to the flow of circulation fluid in main line more
The flow of circulation fluid is sufficient in abundance, fan coil system and ground heating system, and entire Hydraulic Power System runs smoothly reliably.
(2) one source two of one kind of the utility model includes heat exchange for Hydraulic Power System, the heat exchange cycle branch of the water conservancy system
Inlet pipe, first circulation pump and heat exchange outlet tube road, heat exchange inlet pipe and heat exchange outlet tube Lu Junyu main line vertically connect
It connects, and the distance between two tie points of exchange heat inlet pipe, heat exchange outlet tube road and main line are no more than main line caliber
Four times, the circulation fluid in main line enters in heat exchange cycle branch when being heated, in main line the flow of circulation fluid and
Pressure is unaffected, and heat exchange cycle branch will not grab the circulation fluid in main line, and the amount of the circulation fluid in main line is sufficient, no
Can be in the presence of that underfed, the circulating fluid flow rate in fan coil system and ground heating system fill always when heating
Foot, entire Hydraulic Power System heating effect are good.
(3) for Hydraulic Power System, the fan coil system of the water conservancy system includes blower in one source two of one kind of the utility model
Coil pipe inlet pipe, second circulation pump, fan coil water segregator, fan coil and fan coil outlet tube road, fan coil go out
Liquid pipeline is equipped with first check-valve and drain valve, and drain valve is not required to circulation fluid to be used convenient for being discharged in fan coil system
Equal liquid, convenient to clean to fan coil system, first check-valve can be avoided the circulation in fan coil outlet tube road
Liquid reflux, entire fan coil system run smoothly reliably.
(4) one source two of one kind of the utility model is for Hydraulic Power System, the fan coil system of the water conservancy system and floor heating system
The liquid feeding end of system is respectively positioned on the upside of heat exchange cycle branch Yu main line connecting pin, the feed liquor of fan coil system and ground heating system
End is respectively positioned on the downside of heat exchange cycle branch Yu main line connecting pin, under the action of natural gravity, the higher circulation fluid of temperature
Meeting nature flow to the upside of main line, and then enters in fan coil system and ground heating system, and circulates rear temperature
Lower circulation fluid is then located at the lower end of main line, partially enters in heat exchange cycle branch, partially and on the upside of main line
The circulation fluid of higher temperature mixed, circulation fluid flows smooth sequential, and circulation fluid good mixing effect.
(5) one source two of one kind of the utility model is returned for Hydraulic Power System, the floor heating inlet pipe of the water conservancy system and floor heating
Liquid pipeline is connected to by connecting line, is located at connecting line position in floor heating inlet pipe and is additionally provided with three-way water mixing valve,
The three-way water mixing valve is connect with connecting line, by connecting line and three-way water mixing valve, the floor heating inlet pipe of ground heating system and
Circulation fluid in floor heating liquid back pipe road is able to carry out mixing, and the flow of circulation fluid at floor heating water divider and pipe network can be made more to fill
Foot, keeps system heating effect more preferable, while three-way water mixing valve control is simple, easy to use.
(6) one source two of one kind of the utility model is additionally provided with for Hydraulic Power System in the floor heating inlet pipe of the water conservancy system
Second check-valve, second check-valve can be avoided the circulation fluid in floor heating inlet pipe reflux, circulation fluid can steady flow arrive
In floor heating water divider and pipe network.
(7) for Hydraulic Power System, the heat power supply device of the water conservancy system includes air-source heat in one source two of one kind of the utility model
Pump, the air source heat pump are connected with outer machine, and air source heat pumps energy-saving environmental protection, use is safe, and long service life.
(8) one source two of one kind of the utility model is equipped with air for Hydraulic Power System, the heat exchange outlet tube road of the water conservancy system
Separator, air separator are conducive to the air of entrained in air and circulation fluid original in discharge heat exchange outlet tube road, energy
Enough avoid air from entering in fan coil and floor heating water divider and pipe network, can be improved heating effect and avoid fan coil and
Floor heating water divider and pipe network damage.
Detailed description of the invention
Fig. 1 is the overall structure diagram of one source two of one kind for Hydraulic Power System of the utility model.
Label declaration in schematic diagram:
1, outer machine;2, outer machine connecting line;3, air source heat pump;4, heat exchange cycle branch;41, exchange heat outlet tube road;42,
Exchange heat inlet pipe;43, first circulation pumps;44, air separator;5, main line;6, fan coil system;61, fan coil
Inlet pipe;62, second circulation pumps;63, fan coil outlet tube road;64, fan coil water segregator;65, fan coil;66,
First check-valve;67, drain valve;7, ground heating system;71, floor heating inlet pipe;72, third circulating pump;73, floor heating liquid back pipe
Road;74, floor heating water divider and pipe network;75, three-way water mixing valve;8, moisturizing component.
Specific embodiment
For the content for further appreciating that the utility model, the utility model is described in detail in conjunction with the accompanying drawings and embodiments.
Embodiment
As shown in connection with fig. 1, one source two of one kind of the present embodiment is for Hydraulic Power System, including heat power supply device, heat exchange cycle branch
4, main line 5, ground heating system 7 and fan coil system 6,4 one end of heat exchange cycle branch are connect with heat power supply device, the other end and master
Pipeline 5 connects, to carry out circulating-heating, ground heating system 7 and fan coil to the circulation fluid in main line 5 by heat power supply device
System 6 is both connected on main line 5, and ground heating system 7 and 6 collective effect of fan coil system can be improved heating effect, is met
The heating demands of building.The liquid feeding end of fan coil system 6 and ground heating system 7 is respectively positioned on heat exchange cycle branch 4 and main line 5 connects
The side at end is connect, and the outlet end of fan coil system 6 and ground heating system 7 is respectively positioned on heat exchange cycle branch 4 and connect with main line 5
The other side at end, it should be strongly noted that the main line 5 of the present embodiment is formula structure closed at both ends, it is preferable that main line 5
Lower end be provided with the lower end of drain valve perhaps blowdown valve main line 5 and closed by drain valve or blowdown valve, drain valve
Or blowdown valve is conveniently replaceable the impurity that the circulation fluid in main line 5 is either discharged in main line 5.Heat exchange cycle branch 4
Liquid feeding end and outlet end are connect with main line 5, the circulation fluid part in main line 5 by heat exchange cycle branch 4 liquid feeding end into
Enter into heat exchange cycle branch 4, and entered in heat power supply device by heat exchange cycle branch 4 and heated (heat exchange), after heating
The circulation fluid of high temperature flowed back into main line 5 by the outlet end of heat exchange cycle branch 4 again, be ground heating system 7 and fan coil
System 6 energizes.Since most circulation fluid is always positioned in main line 5, thus the flow of the circulation fluid in main line 5 is always
It is very sufficient, then the flow for flowing to ground heating system 7 and the circulation fluid in fan coil system 6 i.e. can be more sufficient, floor heating
System 7 and fan coil system 6 run smoothly reliably, and heating effect is good, and are needed in heating device in the prior art
It heating circulation fluid and is input to each end again, very likely there is underfed in each end in thermal process in sight,
And the structure of the present embodiment then avoids the problem, the entire Hydraulic Power System stringing of the present embodiment is reasonable, will not generate unfavorable end.
The fan coil system 6 of the present embodiment and the liquid feeding end of ground heating system 7 are respectively positioned on heat exchange cycle branch 4 and main line
The side of 5 connecting pins, and the outlet end of fan coil system 6 and ground heating system 7 is respectively positioned on heat exchange cycle branch 4 and main line 5
The other side of connecting pin, circulation fluid can be entered in the system of fan unit piping 6 and ground heating system 7 from the side of main line 5 and be carried out
Circulating-heating, and the other side of main line 5 is flowed back into, circulating fluid dynamic stability, meanwhile, it is flowed back by heat exchange cycle branch 4
The low-temperature circulating liquid after high temperature circulation liquid and heating after heating in main line 5 can be mixed in main line 5, can
Achieve the effect that mixed water, the waste heat in low-temperature circulating liquid after heating can be utilized, and be greatly utilized in main line 5
The heat of circulation fluid reduces the number heated in circulation fluid input heat exchange cycle branch 4, reduces energy consumption, save
Can be environmentally friendly, also, most of all, mixed water energy enough makes the flow of the circulation fluid in main line 5 be far longer than heat exchange cycle branch 4
The flow of middle circulation fluid, the system of fan unit piping 6 and ground heating system 7 are not in the insufficient situation of circulating fluid flow rate, entire waterpower
System can steadily meet heating demands, and the Hydraulic Power System of the present embodiment can be avoided using expedition pump, whole system pressure
Power is normal, safe to use.As a preferred embodiment, the feed liquor of the fan coil system 6 of the present embodiment and ground heating system 7
End is respectively positioned on the upside of heat exchange cycle branch 4 Yu 5 connecting pin of main line, and the outlet end of fan coil system 6 and ground heating system 7 is equal
Positioned at the downside of heat exchange cycle branch 4 and 5 connecting pin of main line, under the action of natural gravity, circulation fluid is by heat exchange cycle branch
After road 4 enters in main line 5, can be fallen first to the downside of main line 5, and the lower circulation fluid of temperature is then after circulating heating
Positioned at the lower end of main line 5, the circulation fluid of different temperatures can be mixed touching at this time, and under the action of buoyancy, temperature compared with
High circulation fluid can float upwards, reach the upside of main line 5, and the lower circulation fluid of temperature is located under main line 5
Side, the higher circulation fluid of upside temperature can be entered orderly in fan coil system 6 and ground heating system 7 and carry out flowing heating,
And the circulation fluid for being located at 5 downside of main line then partially enters in heat exchange cycle branch 4, inputs heat source by heat exchange cycle branch 4
It is heated in device.This kind of structure can make circulation fluid flow smooth sequential, and promote the mixed effect of circulation fluid, simultaneously
By this kind of structure, circulation fluid is not needed when mixing by other equipment, more energy saving.It should be noted that in this implementation
In example, fan coil system 6 and ground heating system 7 are connected at the different location of 5 upside of main line, that is, are connected to main line
On 5 different height, and by above content it is known that the temperature of the circulation fluid of the different height position of main line 5 is not
Identical, fan coil system 6 and ground heating system 7, which are connected to, can make to enter fan coil at the different height of main line 5
System 6 and the temperature of the circulation fluid in ground heating system 7 be not identical, can satisfy fan coil system 6 and 7 pairs of ground heating system circulations
If desired the different demands of liquid temperature make the temperature of the circulation fluid entered in fan coil system 6 higher, then by fan unit
Guard system 6 is connected at the higher position of main line 5.The Hydraulic Power System of the present embodiment can satisfy different ends to circulation
Heat can be reasonably transported in each end by the different demands of liquid temperature, very easy to use reliable.
Further, the heat exchange cycle branch 4 of the present embodiment includes heat exchange inlet pipe 42, first circulation pump 43 and heat exchange
Outlet tube road 41 is vertical with main line 5 connect for outlet tube road 41, heat exchange inlet pipe 42 and heat exchange, and heat exchange inlet pipe
42, exchange heat four times of the distance between outlet tube road 41 and two tie points of main line 5 no more than 5 caliber of main line, and first
The circulation fluid that circulating pump 43 is able to drive in main line 5 enters in heat exchange cycle branch 4.Herein exchange heat inlet pipe 42, change
The distance between hot outlet tube road 41 and two tie points of main line 5 refer to heat exchange inlet pipe 42 and heat exchange outlet tube road
The distance between two crosspoints of both 41 axial line and main line 5 at main line 5.According to equation principle,
When two loops interconnect, i.e. it is connected with another loop on a loop, at this time between the liquid feeding end and outlet end of another loop
Pipeline be known as condominium, two loops are interconnected by condominium, if the pressure drop at condominium both ends can be eliminated, loop
Flowing will not influence the flowing of another loop, and when the distance between the liquid feeding end of another loop and outlet end very little, it should
Pressure difference is then approximately equal to zero between the liquid feeding end and outlet end of loop, i.e. the pressure drop at condominium both ends is almost nil, therefore, works as heat exchange
When inlet pipe 42 and heat exchange outlet tube road 41 meet above-mentioned condition, then the inlet pipe that exchanges heat 42, heat exchange outlet tube road 41 and master
Pressure difference between two connecting pins of pipeline 5 is zero or is substantially equal to zero, is located between two connecting pins in main line 5
The flow and pressure of circulation fluid not will receive the influence of heat exchange cycle branch 4, then the flowing of the circulation fluid in entire main line 5
The influence of heat exchange cycle branch 4 is not will receive, the circulation fluid in main line 5, which enters in heat exchange cycle branch 4, to be heated
When, the flow of circulation fluid and pressure are unaffected in main line 5, and heat exchange cycle branch 4 will not grab the circulation in main line 5
The amount of liquid, the circulation fluid in main line 5 is sufficient, will not be in the presence of underfed when heating, fan coil system 6
Circulating fluid flow rate in ground heating system 7 is sufficient always, and entire Hydraulic Power System heating effect is good, and the Hydraulic Power System is to circulation fluid
When being heated, only the temperature of the circulation fluid in main line 5 is had an impact, the parameters such as flow will not then be had an impact,
Entire Hydraulic Power System only carries heat.Preferably, the heat exchange inlet pipe 42 of the present embodiment and heat exchange outlet tube road 41 pass through two
A threeway is connect with main line 5, and the distance between two symmetrical center lines of two threeways are no more than the four of 5 caliber of main line
Times, by two, heat exchange cycle branch 4 connect more convenient with main line 5.
Further, above-mentioned fan coil system 6 includes fan coil inlet pipe 61, second circulation pump 62, blower
Coil pipe water segregator 64, fan coil 65 and fan coil outlet tube road 63, wherein second circulation pump 62 is set to fan coil feed liquor
On pipeline 61, fan coil water segregator 64 is connected to supervisor by fan coil inlet pipe 61 and fan coil outlet tube road 63
On road 5, fan coil 65 is connected on fan coil water segregator 64, and fan coil 65 is settable multiple, entire fan unit piping
6 structures of uniting are simple, and it is convenient to manufacture.Fan coil outlet tube road 63 be equipped with first check-valve 66 and drain valve 67, first
Check-valves 66 is set to 67 top of drain valve, and first check-valve 66 enough avoids the circulation fluid in fan coil outlet tube road 63 from flowing back,
Entire fan coil system 6 runs smoothly reliably, and drain valve 67 can then facilitate to be discharged in fan coil system 6 and not need to make
Circulation fluid, impurity etc., it is convenient that fan coil system 6 is cleaned.In addition, being additionally provided on fan coil outlet tube road 63
Ball valve (does not mark) in figure, and ball valve is located at the lower section of drain valve 67, can adjust circulation fluid in fan coil outlet tube road 63
Flow velocity, so that control loop liquid flows back into the speed in main line 5.
At the same time, above-mentioned ground heating system 7 include floor heating inlet pipe 71, third circulating pump 72, floor heating water divider and
Pipe network 74 and floor heating liquid back pipe road 73, third circulating pump 72 is connected in floor heating inlet pipe 71, floor heating water divider and pipe network 74
It is connected on main line 5 by floor heating inlet pipe 71 and floor heating liquid back pipe road 73.It should be noted that the floor heating of the present embodiment
Inlet pipe 71 is connected to floor heating liquid back pipe road 73 by connecting line, and connecting line position is located in floor heating inlet pipe 71
The place of setting is additionally provided with three-way water mixing valve 75, which connect with connecting line.Pass through connecting line and three-way water mixing valve
75, the circulation fluid in the floor heating inlet pipe 71 and floor heating liquid back pipe road 73 of ground heating system 7 is able to carry out mixing, can make floor heating
The flow of circulation fluid is more sufficient at water segregator and pipe network 74, keeps system heating effect more preferable, while three-way water mixing valve 75 controls
Simply, easy to use.Three-way water mixing valve 75 is set in ground heating system 7, and the circulation fluid of entire Hydraulic Power System can not only be in master
Mixed water is carried out in pipeline 5, additionally it is possible to mixed water is carried out in ground heating system 7, the circulating fluid flow rate of entire Hydraulic Power System is more sufficient,
Entire Hydraulic Power System is higher to the utilization rate of circulation fluid heat.Due to realizing floor heating inlet pipe 71 by three-way water mixing valve 75
Mixing with the circulation fluid in floor heating liquid back pipe road 73 is technology known in those skilled in the art, and details are not described herein again.
In addition, being additionally provided with second check-valve 76 in above-mentioned floor heating inlet pipe 71, second check-valve 76 can be avoided floor heating inlet tube
In road 71 circulation fluid reflux, circulation fluid can steady flow into floor heating water divider and pipe network 74, improve ground heating system
Heat stability.Certainly, drain valve and ball valve are similarly equipped on the floor heating liquid back pipe road 73 of the present embodiment.
The heat power supply device of the present embodiment includes air source heat pump 3, which is connected by outer machine connecting line 2
There is outer machine 1,3 energy conservation and environmental protection of air source heat pump, use is safe, and long service life.It is provided using air source heat pump 3 for circulation fluid
Heat or cooling capacity have been the prior arts, and air source heat pump 3 and air source heat pump 3 employed in the present embodiment and periphery
Connection structure is all made of conventional structure, herein just no longer to air source heat pump 3 and air source heat pump 3 and heat exchange cycle branch 4,
The connection structure etc. of outer machine 1 specifically describes.
In addition, being additionally provided with air separator 44 on above-mentioned heat exchange outlet tube road 41, air separator 44 is conducive to be discharged
The air for the entrained in original air and circulation fluid of exchanging heat in outlet tube road 41, can be avoided air and enters fan coil 65
In floor heating water divider and pipe network 74, it can be improved heating effect and fan coil 65 and floor heating water divider and pipe network 74 avoided to damage
It is bad, extend the service life of fan coil system 6 and ground heating system 5.
Certainly, the Hydraulic Power System of the present embodiment is also connected with moisturizing component 8, which is connected to heat exchange cycle branch
On road 4, which can carry out moisture supplement to Hydraulic Power System in time, avoid leading to entire water because circulation fluid evaporates
The underfed of circulation fluid in Force system.The also prior art of moisturizing component 8, equally repeats no more in the present embodiment.
One source two of one kind of the utility model is for Hydraulic Power System, and Hydraulic Power System arrangement is reasonable, fan coil system and ground
The flow of circulation fluid is sufficient in heating system, and circulation fluid distribution is reasonable in fan coil system and ground heating system, entire waterpower system
System runs smoothly reliably, and heating effect is good.
Schematically the utility model and embodiments thereof are described above, description is not limiting, attached drawing
Shown in be also one of the embodiments of the present invention, actual structure is not limited to this.So if this field
Those of ordinary skill enlightened by it, without deviating from the purpose of the present invention, without creatively designing
Frame mode similar with the technical solution and embodiment, all should belong to the protection range of the utility model.
Claims (10)
1. an a kind of source two is for Hydraulic Power System, it is characterised in that: including heat power supply device, heat exchange cycle branch (4), main line (5),
Ground heating system (7) and fan coil system (6), described heat exchange cycle branch (4) one end are connect with heat power supply device, the other end with
Main line (5) connection, to carry out circulating-heating, the floor heating system to the circulation fluid in main line (5) by heat power supply device
System (7) and fan coil system (6) are both connected on main line (5), the fan coil system (6) and ground heating system (7)
Liquid feeding end be respectively positioned on the sides of heat exchange cycle branch (4) Yu main line (5) connecting pin, and the fan coil system (6)
The other side of heat exchange cycle branch (4) Yu main line (5) connecting pin is respectively positioned on the outlet end of ground heating system (7).
2. an a kind of source according to claim 1 two is for Hydraulic Power System, it is characterised in that: the heat exchange cycle branch
It (4) include heat exchange inlet pipe (42), first circulation pump (43) and heat exchange outlet tube road (41), the heat exchange inlet pipe
(42) and heat exchange outlet tube road (41) are vertical with main line (5) connect, and heat exchange inlet pipe (42), exchange heat outlet tube road
(41) it is no more than four times of main line (5) caliber with the distance between two tie points of main line (5).
3. an a kind of source according to claim 2 two is for Hydraulic Power System, it is characterised in that: the fan coil system
(6) include fan coil inlet pipe (61), second circulation pump (62), fan coil water segregator (64), fan coil (65) and
Fan coil outlet tube road (63), the second circulation pump (62) are set on fan coil inlet pipe (61), the wind
Machine coil pipe water segregator (64) is connected to main line (5) by fan coil inlet pipe (61) and fan coil outlet tube road (63)
On, the fan coil (65) is connected on fan coil water segregator (64).
4. an a kind of source according to claim 3 two is for Hydraulic Power System, it is characterised in that: the fan coil outlet tube
Road (63) is equipped with first check-valve (66) and drain valve (67).
5. an a kind of source according to claim 1 two is for Hydraulic Power System, it is characterised in that: the fan coil system
(6) and the liquid feeding end of ground heating system (7) is respectively positioned on the upsides of heat exchange cycle branch (4) Yu main line (5) connecting pin, the wind
The outlet end of machine coil system (6) and ground heating system (7) is respectively positioned under heat exchange cycle branch (4) and main line (5) connecting pin
Side.
6. one source two of one kind described in any one is for Hydraulic Power System according to claim 1~5, it is characterised in that: the ground
Heating system (7) includes floor heating inlet pipe (71), third circulating pump (72), floor heating water divider and pipe network (74) and floor heating liquid back pipe
Road (73), the third circulating pump (72) are connected on floor heating inlet pipe (71), the floor heating water divider and pipe network
(74) it is connected on main line (5) by floor heating inlet pipe (71) and floor heating liquid back pipe road (73).
7. an a kind of source according to claim 6 two is for Hydraulic Power System, it is characterised in that: the floor heating inlet pipe
(71) it is connected to floor heating liquid back pipe road (73) by connecting line, connecting tube is located in the floor heating inlet pipe (71)
It is additionally provided at the position of road three-way water mixing valve (75), the three-way water mixing valve (75) is connect with connecting line.
8. an a kind of source according to claim 7 two is for Hydraulic Power System, it is characterised in that: the floor heating inlet pipe
(71) second check-valve (76) are additionally provided on.
9. an a kind of source according to claim 1 two is for Hydraulic Power System, it is characterised in that: the heat power supply device includes sky
Air supply heat pump (3), the air source heat pump (3) are connected with outer machine (1).
10. an a kind of source according to claim 2 two is for Hydraulic Power System, it is characterised in that: the heat exchange outlet tube road
(41) air separator (44) are equipped with.
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CN201821901603.9U CN209165532U (en) | 2018-11-19 | 2018-11-19 | One source two of one kind is for Hydraulic Power System |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111043640A (en) * | 2019-12-09 | 2020-04-21 | 珠海格力电器股份有限公司 | Heating system and control method thereof |
CN114165828A (en) * | 2021-12-01 | 2022-03-11 | 青岛海信日立空调系统有限公司 | Air conditioning system |
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2018
- 2018-11-19 CN CN201821901603.9U patent/CN209165532U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111043640A (en) * | 2019-12-09 | 2020-04-21 | 珠海格力电器股份有限公司 | Heating system and control method thereof |
CN111043640B (en) * | 2019-12-09 | 2023-07-25 | 珠海格力电器股份有限公司 | Heating system and control method thereof |
CN114165828A (en) * | 2021-12-01 | 2022-03-11 | 青岛海信日立空调系统有限公司 | Air conditioning system |
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