CN205860381U - A kind of air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system - Google Patents
A kind of air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system Download PDFInfo
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- CN205860381U CN205860381U CN201620866797.8U CN201620866797U CN205860381U CN 205860381 U CN205860381 U CN 205860381U CN 201620866797 U CN201620866797 U CN 201620866797U CN 205860381 U CN205860381 U CN 205860381U
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Abstract
This utility model relates to the flow isothermal hybrid energy-storing device of a kind of air-conditioning, heating circulating water system, and it includes two-flow coupling isothermal tank, at least one is arranged on the first conduit on two-flow coupling isothermal tank and at least one is arranged on the second conduit on two-flow coupling isothermal tank;First conduit includes the first water inlet being exposed at respectively on two-flow coupling isothermal tank lateral wall and the first outlet and the first intervalve being arranged between the first water inlet and the first outlet, first intervalve is arranged in two-flow coupling isothermal tank inner chamber, this utility model design is ingenious, rational in infrastructure, easy to use, with low cost, reduce energy consumption, improve systematic function.
Description
Technical field
This utility model relates to the flow isothermal hybrid energy-storing device of a kind of air-conditioning, heating circulating water system.
Background technology
In air-conditioner circulating water system, the change of the end water yield brings disorderly closedown when can not adapt to changes in flow rate to main frame
The temperature fluctuation existed with main frame batch (-type) temperature control.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of reasonable in design, compact conformation and easy to use, place
The flow isothermal hybrid energy-storing device of two discharge relations in reason air-conditioner circulating water system so that the constant flow of a variations in temperature
Exist with the variable-flow of a temperature constant simultaneously.Application of the present utility model makes the variable-flow of end and main frame obtain constant flow
Exist simultaneously and do not interfere with each other and isothermal output, when storing a certain amount of hot and cold medium to ensure constant flow variations in temperature simultaneously
The temperature constant of variable-flow.
For solving the problems referred to above, technical solution adopted in the utility model is:
A kind of air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system, including two-flow coupling isothermal tank, at least
One be arranged on two-flow coupling isothermal tank on the first conduit and at least one be arranged on two-flow coupling isothermal tank on
Second conduit;
First conduit includes being exposed at the first water inlet on two-flow coupling isothermal tank lateral wall and the first water outlet respectively
Mouth and the first intervalve being arranged between the first water inlet and the first outlet, the first intervalve is arranged on two-flow coupling
In isothermal tank inner chamber, the first intervalve is provided with at least one first water flowing throttle orifice;
Second conduit includes being exposed at the second water inlet on two-flow coupling isothermal tank lateral wall and the second water outlet respectively
Mouth and the second intervalve being arranged between the second water inlet and the second outlet, the second intervalve is arranged on two-flow coupling
In isothermal tank inner chamber, the second intervalve is provided with at least one second water flowing throttle orifice;
First water inlet, the first outlet and the first water flowing throttle orifice intercommunication, the second water inlet, the second outlet and
Second water flowing throttle orifice intercommunication, the first water flowing throttle orifice is connected by two-flow coupling isothermal tank inner chamber and the second water flowing throttle orifice
Logical;
First outlet and the second water inlet connect with indoor end respectively, the first water inlet and the second outlet respectively with
Air-conditioner host connects.
Further, the aperture of each first water flowing throttle orifice is less than the aperture of the first water inlet, each first water flowing throttling
The aperture in hole is less than the aperture of the first outlet.
Further, the hole cross-sectional area sum of the first water flowing throttle orifice is not less than the hole cross-sectional area of the first water inlet, the
The hole cross-sectional area sum of one water flowing throttle orifice is not less than the hole cross-sectional area of the first outlet.
Further, the aperture of each second water flowing throttle orifice is more than the aperture of the second water inlet, each second water flowing throttling
The aperture in hole is more than the aperture of the second outlet.
Further, the hole cross-sectional area sum of the second water flowing throttle orifice more than the hole cross-sectional area of the second water inlet, second
The hole cross-sectional area sum of water flowing throttle orifice is more than the hole cross-sectional area of the second outlet.
Further, flow coupling isothermal pot sidewall is provided with heat-insulation layer.
Further, the first conduit is positioned at above the second conduit.
Further, the bottom end cover of flow coupling isothermal tank is provided with the check valve interface for connecting with tap water.
Further, the upper end cover of two-flow coupling isothermal tank is provided with vent valve.
Further, two-flow coupling isothermal tank is provided with support.
Use and have the beneficial effects that produced by technique scheme:
This utility model is compared to tradition water air-conditioning, and under same pressure, temperature is identical, plays good mixing and energy storage is made
With, amplitude peak optimizes original place energy air conditioner water circulation system, makes main frame secondary cycle and end circulate relatively independent operation,
The flow of each blood circulation is solely dependent upon the technical parameter feature of self water pump, closes when end circulation and maybe can not meet master
During machine circular flow, main frame flow water flowing throttle orifice in two-flow coupling isothermal tank returns to host computer system;Can guarantee that one
The system of the system of individual constant flow and a variable-flow jointly exists and runs, and effectively protects the security of system of independent heat supply equipment
Make ground can avoid frequently report to the police prolongation main frame service life and energy-saving and cost-reducing minimizing main frame start and stop time to a certain extent by main frame
Number.
This utility model design is ingenious, rational in infrastructure, easy to use, with low cost, reduces energy consumption.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Fig. 2 is sectional structure schematic diagram of the present utility model.
Wherein: 1, two-flow coupling isothermal tank;2, the first conduit;3, the second conduit;4, upper end cover;5, vent valve;6, under
End cap;7, check valve interface;8, support;9, the first water flowing throttle orifice;10, the first water inlet;11, the first outlet;12, second
Water inlet;13, the second outlet;14, the second water flowing throttle orifice.
Detailed description of the invention
As shown in Figure 1, 2, this utility model include two-flow coupling isothermal tank 1, at least one be arranged on two-flow coupling
The first conduit 2 on isothermal tank 1 and at least one be arranged on the second conduit 3 on two-flow coupling isothermal tank 1;First conduit
2 include the first water inlet 10 and the first outlet 11 that are exposed at respectively on two-flow coupling isothermal tank 1 lateral wall and arrange
The first intervalve between the first water inlet 10 and the first outlet 11, the first intervalve is arranged on two-flow coupling isothermal tank
In 1 inner chamber, the first intervalve is provided with at least one first water flowing throttle orifice 9;Second conduit 3 includes being exposed at respectively
The second water inlet 12 and the second outlet 13 on two-flow coupling isothermal tank 1 lateral wall and be arranged on the second water inlet 12 and
The second intervalve between second outlet 13, the second intervalve is arranged in two-flow coupling isothermal tank 1 inner chamber, in second
Between be provided with at least one second water flowing throttle orifice 14 on pipe;First water inlet the 10, first outlet 11 and the first water flowing joint
Discharge orifice 9 intercommunication, the second water inlet the 12, second outlet 13 and the second water flowing throttle orifice 14 intercommunication, the first water flowing throttle orifice 9 leads to
Cross two-flow coupling isothermal tank 1 inner chamber and the second water flowing throttle orifice 14 connects;First outlet 11 and the second water inlet 12 are respectively
Connecting with indoor end, the first water inlet 10 connects with water air-conditioner host respectively with the second outlet 13.
Further, the hole cross-sectional area sum of the first water flowing throttle orifice 9 is more than the hole cross-sectional area of the first water inlet 10,
The hole cross-sectional area sum of the first water flowing throttle orifice 9 is more than the hole cross-sectional area of the first outlet 11.
Further, the hole cross-sectional area sum of the second water flowing throttle orifice 14 is more than the hole cross-sectional area of the second water inlet 12,
The hole cross-sectional area sum of the second water flowing throttle orifice 14 is more than the hole cross-sectional area of the second outlet 13.
Further, two-flow coupling isothermal tank 1 sidewall is provided with heat-insulation layer.
Further, the aperture of each first water flowing throttle orifice 9 is less than the aperture of the first water inlet 10, each first water flowing joint
The aperture of discharge orifice 9 is less than the aperture of the first outlet 11.
Further, the aperture of each second water flowing throttle orifice 14 is more than the aperture of the second water inlet 12, each second water flowing
The aperture of throttle orifice 14 is more than the aperture of the second outlet 13.
Further, the first conduit 2 is positioned at above the second conduit 3.
Further, the bottom end cover 6 of two-flow coupling isothermal tank 1 is provided with the check valve for connecting with tap water
Interface 7.
Further, the upper end cover 4 of two-flow coupling isothermal tank 1 is provided with vent valve 5, exhaust and convenient.
Further, two-flow coupling isothermal tank 1 is provided with support 8.
When using this utility model, by water pump, main frame water is extracted into two-flow coupling isothermal tank by the first water inlet 10
In 1, realizing indoor heating or cooling by first outlet the 11, second water inlet 12, water returns two-flow coupling isothermal tank
1, being flowed out by the second outlet 13, when need not indoor heating or cooling, closing its circulation waterway, water pump only needs low
Load operation, even if obtaining main frame water to enter two-flow coupling isothermal tank by the first water inlet 10 and the first water flowing throttle orifice 9
1, the water in its cavity is carried out soak cycles, then by the second water flowing throttle orifice 14, is flowed out by the second outlet 13,
Ensure constant temperature isothermal in two-flow coupling isothermal tank 1, reduce the power consumption of water pump,
This utility model can carry out moisturizing by check valve, by vent valve aerofluxus, is incubated by heat-insulation layer, uses the
One conduit 2, above the second conduit 3, reduces heat waste, improves cycle efficieny, by arranging water flowing throttle orifice aperture, increases water
The liquid resistance that stream passes through, reduces heat waste.Preferably, the aperture of water flowing throttle orifice is the aperture of corresponding water inlet or outlet
1.5 2 times, water flowing throttle orifice is preferably below 10mm, can use the setting of throttle orifice pore size in choke valve.
This utility model water one-way valve interface 7 is positioned at the bottom of two-flow coupling isothermal tank 1, and vent valve is positioned to be gone up most
End, thus realize lower end water inlet upper end aerofluxus, and by two-flow coupling isothermal tank 1 inner chamber top trapped air, design science.
As improvement, it is provided with at the first water flowing throttle orifice 9 and the second water flowing throttle orifice 14 and beats with the unidirectional of spring
The baffle plate opened, it is provided that to indoor heating or the efficiency of cooling, reduces heat waste.I.e. when to indoor heating or cooling time, by gear
Plate reduces heat losses, and when closing its circulation waterway, baffle plate overcomes spring-return power under the effect of hydraulic pressure, couples at two-flow
Heat exchange in isothermal tank 1.
This utility model is compared to tradition water air-conditioning, and under same pressure, temperature is identical, plays good mixing and energy storage is made
With, amplitude peak optimizes original place energy air conditioner system, makes main frame secondary cycle and end circulate relatively independent operation, each
The flow of blood circulation is solely dependent upon the technical parameter feature of self water pump, closes when end circulation and maybe can not meet main frame circulation
During flow, main frame flow water flowing throttle orifice in two-flow coupling isothermal tank returns to host computer system;Can guarantee that a constant current
The system of amount and the system of a variable-flow jointly exist and run, and the effectively security of system of protection independent heat supply equipment makes ground energy
Main frame avoids frequently report to the police prolongation main frame service life and minimizing main frame start-stop time of saving energy and reduce the cost to a certain extent.
Last it is noted that above example is only in order to illustrate the technical solution of the utility model, it is not intended to limit;
Although this utility model being described in detail with reference to previous embodiment, it will be understood by those within the art that:
Technical scheme described in previous embodiment still can be modified by it, or is equal to wherein portion of techniques feature
Replace;It is combined being apparent to multiple technical schemes of the present utility model as those skilled in the art.And these
Amendment or replacement, do not make the essence of appropriate technical solution depart from spirit and the model of this utility model embodiment technical scheme
Enclose.
Claims (10)
1. an air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system, it is characterised in that: include two-flow coupling etc.
Temperature tank (1), at least one is arranged on the first conduit (2) on two-flow coupling isothermal tank (1) and at least one is arranged on double
The second conduit (3) on flow coupling isothermal tank (1);
First conduit (2) includes being exposed at respectively the first water inlet (10) on two-flow coupling isothermal tank (1) lateral wall and the
One outlet (11), is provided with the first intervalve, the first intervalve between the first water inlet (10) and the first outlet (11)
It is arranged in two-flow coupling isothermal tank (1) inner chamber, the first intervalve is provided with at least one first water flowing throttle orifice (9)
;
Second conduit (3) includes being exposed at respectively the second water inlet (12) on two-flow coupling isothermal tank (1) lateral wall and the
Two outlets (13), are provided with the second intervalve, the second intervalve between the second water inlet (12) and the second outlet (13)
It is arranged in two-flow coupling isothermal tank (1) inner chamber, the second intervalve is provided with at least one second water flowing throttle orifice
(14);
First water inlet (10), the first outlet (11) and the first water flowing throttle orifice (9) intercommunication, the second water inlet (12),
Two outlets (13) and the second water flowing throttle orifice (14) intercommunication, the first water flowing throttle orifice (9) couples isothermal tank by two-flow
(1) inner chamber and the connection of the second water flowing throttle orifice (14);
First outlet (11) connects with indoor end respectively with the second water inlet (12), the first water inlet (10) and the second water outlet
Mouth (13) connects with air-conditioner host respectively.
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: the aperture of each first water flowing throttle orifice (9) is less than the aperture of the first water inlet (10), each first water flowing throttle orifice (9)
Aperture less than the aperture of the first outlet (11).
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: the hole cross-sectional area sum of the first water flowing throttle orifice (9) is not less than the hole cross-sectional area of the first water inlet (10), and first leads to
The hole cross-sectional area sum of water throttle orifice (9) is not less than the hole cross-sectional area of the first outlet (11).
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: the aperture of each second water flowing throttle orifice (14) is more than the aperture of the second water inlet (12), each second water flowing throttle orifice
(14) aperture is more than the aperture of the second outlet (13).
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: the hole cross-sectional area sum of the second water flowing throttle orifice (14) is more than the hole cross-sectional area of the second water inlet (12), the second water flowing
The hole cross-sectional area sum of throttle orifice (14) is more than the hole cross-sectional area of the second outlet (13).
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: on flow coupling isothermal tank (1) sidewall, it is provided with heat-insulation layer.
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: the first conduit (2) is positioned at the second conduit (3) top.
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: on the bottom end cover (6) of flow coupling isothermal tank (1), it is provided with the check valve interface (7) for connecting with tap water.
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature exists
In: on the upper end cover (4) of two-flow coupling isothermal tank (1), it is provided with vent valve (5).
A kind of air-conditioning the most according to claim 1, the flow isothermal hybrid energy-storing device of heating circulating water system, its feature
It is: on two-flow coupling isothermal tank (1), be provided with support (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620866797.8U CN205860381U (en) | 2016-08-11 | 2016-08-11 | A kind of air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system |
Applications Claiming Priority (1)
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CN201620866797.8U CN205860381U (en) | 2016-08-11 | 2016-08-11 | A kind of air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system |
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Publication Number | Publication Date |
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CN205860381U true CN205860381U (en) | 2017-01-04 |
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ID=57658115
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CN201620866797.8U Active CN205860381U (en) | 2016-08-11 | 2016-08-11 | A kind of air-conditioning, the flow isothermal hybrid energy-storing device of heating circulating water system |
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2016
- 2016-08-11 CN CN201620866797.8U patent/CN205860381U/en active Active
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