CN203501341U - Radiation tail end air conditioning system - Google Patents

Radiation tail end air conditioning system Download PDF

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Publication number
CN203501341U
CN203501341U CN201320343174.9U CN201320343174U CN203501341U CN 203501341 U CN203501341 U CN 203501341U CN 201320343174 U CN201320343174 U CN 201320343174U CN 203501341 U CN203501341 U CN 203501341U
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air
tail end
heat pump
radiation tail
conditioning system
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CN201320343174.9U
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不公告发明人
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National Security (Beijing) Technology Co., Ltd.
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宋波
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Abstract

The utility model discloses a radiation tail end air conditioning system and relates to the technical field of independent temperature and humidity control air conditioners. The radiation tail end air conditioning system comprises a heat pump outdoor unit, a heat pump indoor unit, a heat exchanger, a water distributor, a water collector, a radiation tail end, a fresh air unit, an air distributor and displacement air supply ports. The heat pump outdoor unit, the heat pump indoor unit and the heat exchanger are in a sequential and serial connection relationship, i.e. the heat pump outdoor unit is connected with the heat pump indoor unit and the heat pump indoor unit is connected with the heat exchanger. The heat exchanger is respectively connected with the water distributor and the water collector. The water distributor is connected with the water collector through the radiation tail end. The water distributor, the water collector and the heat exchanger are connected with the fresh air unit in parallel. The fresh air unit is connected with the air distributor. The air distributor is connected to all displacement air supply ports through a built-in air valve. The radiation tail end air conditioning system solves the common problems of the existing system that the energy consumption of dehumidification equipment is high, the energy saving effect is limited, the dehumidification effect is not ideal, the main machine occupies large area and the time-shared room-based intelligent control cannot be realized.

Description

A kind of radiation tail end air-conditioning system
Technical field
The utility model relates to the household air conditioning technical field of wind path and water route interlock control, particularly relates to a kind of family formula radiation tail end air-conditioning system.
Background technology
The Chinese utility model patent of application number 200920036880.2, a kind of radiation tail end aircondition is disclosed, comprise several radiation tail ends, water knockout drum, water collector, plate type heat exchanger, the new wind processor of family formula, single apartment type source pump, each radiation tail end is connected with water knockout drum, water collector respectively, water knockout drum, water collector are connected with plate type heat exchanger, plate type heat exchanger is connected with the new wind processor of family formula, single apartment type source pump in parallel between described plate type heat exchanger and the new wind processor of family formula, arranges the first water pump between single apartment type source pump and plate type heat exchanger; Beneficial effect is in room, to there will not be a large amount of dewfall, and radiating system surface temperature is easily accepted for human body, improves human sense of comfort.Its defect is that equipment power consumption is high, and energy saving of system effect is limited, cannot realize the Based Intelligent Control of locellus timesharing, cannot realize the interlock of air-supply and water circulation and control, drawback and the problem that cannot appropriate window and ventilate.
Utility model content
Based on the problems referred to above, the utility model provides a kind of radiation tail end air-conditioning system that family formula is installed that is applicable to, this device has been realized the interlock of geomantic omen road, the control of timesharing locellus, the desirable radiation tail end air-conditioning system of energy-saving effect, this radiation tail end air-conditioning system has solved that the power consumption of the ubiquitous dehumidification equipment of existing system is high, energy-saving effect is limited, effect on moisture extraction is undesirable, main frame floor space is large, cannot realize the problem of timesharing locellus Based Intelligent Control.
For achieving the above object, the utility model adopts following technical scheme.
A radiation tail end air-conditioning system, comprising:
Heat exchanger: realize heat and be delivered to cold fluid from hot fluid, or hot fluid is cooled to assigned temperature;
Water knockout drum: for cold fluid and hot fluid being assigned to each radiation tail end;
Water collector: for collecting the fluid of radiation tail end;
New blower fan group: fresh air is provided and regulates a kind of apparatus of air conditioning of humidity;
Air devider: for cold and hot gas is assigned to each supply air terminal;
Radiation tail end: be laid on room or place, for the adjusting of indoor temperature;
Also comprise machine, replaceable ventilating opening in the outer machine of heat pump, heat pump, the outer machine of described heat pump is connected with machine in described heat pump, in described heat pump, machine is connected with described heat exchanger, described heat exchanger is connected with described water collector with described water knockout drum respectively, described water knockout drum is connected with described water collector by described radiation tail end, described new blower fan group in parallel between described water knockout drum, described water collector and described heat exchanger, described new blower fan group is connected with described air devider, and described air devider is connected to replaceable ventilating opening described in each via built-in air-valve.
Preferably, the outer machine of described heat pump adopts the outer machine of DC frequency-changing air-cooled heat pump.
In above-mentioned arbitrary scheme, preferably, the outer machine of described DC frequency-changing air-cooled heat pump adopts brush DC converter technique.
In above-mentioned arbitrary scheme, preferably, in described heat pump, machine adopts machine in DC frequency-changing air-cooled heat pump.
In above-mentioned arbitrary scheme, preferably, in described DC frequency-changing air-cooled heat pump, machine adopts brush DC converter technique.
In above-mentioned arbitrary scheme, preferably, described new blower fan group adopts two low-temperature receiver dehumidification fresh air groups.
In above-mentioned arbitrary scheme, preferably, described pair of low-temperature receiver dehumidification fresh air group adopts brush DC converter technique.
In above-mentioned arbitrary scheme, preferably, described heat exchanger adopts integrated heat exchanger.
In above-mentioned arbitrary scheme, preferably, described air devider adopts intelligent air devider.
In above-mentioned arbitrary scheme preferably, the built-in air-valve of described air devider
In above-mentioned arbitrary scheme, preferably, described air-valve adopts intelligent air-valve.
In above-mentioned arbitrary scheme, preferably, described radiation tail end can adopt the arbitrary single mode layout in ceiling, ground and metope, or adopts above-mentioned several composite configuration.
In addition, a kind of its feature of radiation tail end air-conditioning system of proposition of the present utility model is as follows:
Described pair of low-temperature receiver dehumidification fresh air group and intelligent draught distributing box are arranged on balcony, toilet or kitchen;
Described radiation tail end is laid on indoor roof and/or ground;
Described heat exchanger is arranged on kitchen or toilet wall;
Water collecting and diversifying device is arranged on shelter, toilet.
For above-mentioned several equipment, be explained as follows:
Intelligence air-valve: along with the variation of indoor humidity, temperature, gas concentration lwevel, adjusting air valve open degree, thus regulate the air-valve of single branch wind pipe air output.
Intelligence air devider: along with the variation of indoor humidity, temperature, gas concentration lwevel, regulate and distribute the device of the air quantity of each branch wind pipe.
The outer machine of DC frequency-changing air-cooled heat pump: adopt DC frequency-changing compress technique, along with outdoor environment and indoor cooling and heating load require to regulate the equipment of the operate power of compressor, circulating pump, frequency converter, evaporimeter, condenser.
Machine in DC frequency-changing air-cooled heat pump: with the supporting equipment of the outer machine of the air-cooled heat of DC frequency-changing, regulate the equipment of cooling and heating load.
Two low-temperature receiver dehumidification fresh air groups: comprise brush DC frequency conversion fan, built-in dual surface cooler, cross valve, frequency-changeable compressor, this equipment regulates humidity, temperature, pressure and the air output of air according to load variations
Integrated heat exchanger: comprise circulation power water pump, Constant pressure tank, plate type heat exchanger, switching valve, water storage box, this integrated heat exchanger is by the said equipment process optimal design, form integrated heat exchanger, according to the equipment of the temperature of load request regulation output fluid, flow, pressure.
On the other hand, provide a kind of radiation tail end air-conditioner control system, comprising:
Communication module: comprise that the communication module of heat pump machine, the new communication module of blower fan group, the communication module of the communication module of air devider, heat exchanger are, the communication module of water collecting and diversifying device;
Controller: the sub-controller that comprises master controller, each room;
Sensor: comprise the sensor of measuring each room temperature, humidity, gas concentration lwevel, supply water temperature sensor, return water temperature sensor, outdoor temperature sensor, outside humidity sensor;
Electronic actuators: the electronic actuators of water collecting and diversifying device, the electronic actuators of air devider.
Preferably, described communication module has Ethernet interface, can realize wired or wireless communication.
In above-mentioned arbitrary scheme, preferably, sensor can be the sensor of a certain performance of independent measurement, can be also the sensor of a plurality of indexs of integral measuring.
Adopt the radiation tail end air-conditioner control system of technology of Internet of things, reach energy saving in running, the interlock control of geomantic omen road, do not produce condensation.
Wherein, all communication module in main controller controls system, realizes the coordinated operation of system, and sub-controller is carried out to centralized Control.Sub-controller is controlled the sensor in each corresponding room and the electronic actuators in corresponding room and air devider; Master controller is key control unit in native system, is equivalent to central cpu, realizes the control to whole system.
The beneficial effects of the utility model are:
1.realized the radiation tail end air-conditioning system of the indoor humiture of quick adjustment being integrated with conditioner and radiation register, when particularly the cold water temperature in radiation tail end approaches the dew-point temperature in room, start the temperature and humidity in new blower fan group quick adjustment room, Antidewing.
2. the radiation tail end air-conditioning system being integrated with conditioner and radiation register, is convenient to realize the interlock control on geomantic omen road, reaches fast regulating temperature and energy-conservation effect.
3. the radiation tail end air-conditioning system being integrated with conditioner and radiation register, even humiture that also can quick adjustment room under the state ventilating of windowing.
4. integral type heat-exchanger and the two new blower fan group of low-temperature receiver compact conformations, do not need to configure separately powerful Cooling and Heat Source unit, the method for designing that frequency conversion heat pump adopts indoor set and off-premises station to separate, single device volume reduces greatly, arrange more flexibly, solved the large problem of existing air-conditioning system area occupied.
5. the radiation tail end air-conditioning system being integrated with conditioner and radiation register, bond networking transmitter module and Temperature Humidity Sensor are easy to realize locellus timesharing Based Intelligent Control.
The utility model adopts the scheme of two low-temperature receiver dehumidification fresh air groups of little air quantity to be applicable to single building, has solved existing radiation tail end air-conditioning system and has not been suitable for the problem that family installs.
Accompanying drawing explanation
Fig. 1 is according to the structural representation of an example of a kind of radiation tail end air-conditioning system of utility model
Fig. 2 is the direction of flow schematic diagram of a kind of embodiment of a kind of radiation tail end air-conditioning system of the utility model
In figure: 1, the outer machine of heat pump, 2, machine in heat pump, 3, heat exchanger, 4, water knockout drum, 5, water collector, 6, radiation tail end, 7, new blower fan group, 8, air devider, 9, air-valve, 10, replaceable ventilating opening.
The specific embodiment
In order to understand better the utility model, below in conjunction with specific embodiment, the utility model is explained in detail.But, obviously can carry out different modification and remodeling and not exceed the wider spirit and scope of the utility model that claim limits the utility model.Therefore, following examples have exemplary and hard-core implication.
Below in conjunction with accompanying drawing, the technical solution of the utility model is elaborated: the utility model comprises the outer machine 1 of heat pump as shown in Figure 1, machine 2 in heat pump, heat exchanger 3, , described three is the relation of series connection, be that the outer machine 1 of heat pump is connected with machine 2 in heat pump, in heat pump, machine 2 is connected with heat exchanger 3, water knockout drum 4, water collector 5, radiation tail end 6, new blower fan group 7, described heat exchanger 3 is connected with water collector 5 with water knockout drum 4 respectively, described water knockout drum 4 is connected with water collector 5 by radiation tail end 6, described water knockout drum 4, new blower fan group 7 in parallel between water collector 5 and heat exchanger 3, air devider 8, replaceable ventilating opening 10, described new blower fan group 7 is connected with air devider 8, air devider 8 is connected to each replaceable ventilating opening 10 via built-in air-valve 9.
In above-described embodiment, the outer machine of heat pump adopts the outer machine of DC frequency-changing air-cooled heat pump, in described heat pump, machine adopts machine in DC frequency-changing air-cooled heat pump, described DC frequency-changing adopts brush DC converter technique, described new blower fan group adopts two low-temperature receiver dehumidification fresh air groups, described heat exchanger adopts integrated heat exchanger, described air devider adopts intelligent air devider, the built-in air-valve of described air devider, and described air-valve adopts intelligent air-valve.
Provide a utility model below in conjunction with the mounting arrangement of a certain family formula building.
The three-bed room of 150 square meters of take is example, frequency conversion air-cooled source pump is arranged on exterior wall, indoor set is arranged on kitchen or toilet wall, two low-temperature receiver dehumidification fresh air groups and intelligent draught distributing box are arranged on balcony, toilet or kitchen, radiation tail end is laid on indoor roof and/or ground, heat exchanger is arranged on kitchen or toilet wall, water collecting and diversifying device is arranged on shelter, toilet, the humiture and the gas concentration lwevel sensor that at radiating surface mounting strap, have wireless communication function, parlor configuration master control panel, ground and/or roof are installed slim air supply duct and are connected with intelligent draught distributing box, sub-controller in exhaust outlet disposed chamber is installed in each room.User regulates temperature required and humidity according to the demand of oneself on indoor sub-controller or the subsidiary remote controller of controller, indoor sub-controller sends command signal, intelligence draught distributing box is according to the open degree of Signal Regulation air-valve, water system is opened or closed to water collecting and diversifying device according to command signal, simultaneously two low-temperature receiver dehumidification fresh air groups and frequency conversion heat pump unit are according to the load variations adjust operation state of system, with maximum energy-saving mode output load.
Fig. 2 is the direction of flow schematic diagram of a kind of embodiment of a kind of radiation tail end air-conditioning system of the utility model.Suppose that the fluid in the present embodiment is water.
Water outlet route: the water outlet of the outer machine of heat pump flows to heat exchanger via machine in heat pump, a part of hot water of heat exchanger or cold water flow into water knockout drum, water knockout drum is assigned to each radiation tail end by hot water or cold water again, be pooled to again water collector, another part water outlet of heat exchanger flows into new blower fan group, participates in adjustments of gas temperature.
Backwater route: water collector and new blower fan group water are out back to heat exchanger, then machine is finally got back to machine outside heat pump in heat pump.
Go out the loop that water loop and water return loop form a complete fluid.

Claims (11)

1. a radiation tail end air-conditioning system, comprising:
Heat exchanger (3): realize heat and be delivered to cold fluid from hot fluid, or hot fluid is cooled to assigned temperature;
Water knockout drum (4): for cold fluid and hot fluid being assigned to each radiation tail end;
Water collector (5): for collecting the fluid of radiation tail end;
New blower fan group (7): fresh air is provided and regulates a kind of apparatus of air conditioning of humidity;
Air devider (8): for cold and hot gas is assigned to each supply air terminal;
Radiation tail end (6): be laid on room or place, for the adjusting of indoor temperature;
It is characterized in that: also comprise the outer machine (1) of heat pump, machine (2) in heat pump, replaceable ventilating opening (10), the outer machine (1) of heat pump is connected with machine (2) in heat pump, in heat pump, machine (2) is connected with heat exchanger (3), described heat exchanger (3) is connected with water collector (5) with water knockout drum (4) respectively, described water knockout drum (4) is connected with water collector (5) by radiation tail end (6), described water knockout drum (4), new blower fan group (7) in parallel between water collector (5) and heat exchanger (3), described new blower fan group (7) is connected with air devider (8), air devider (8) is connected to each replaceable ventilating opening (10) via built-in air-valve (9).
2. radiation tail end air-conditioning system according to claim 1, is characterized in that: the outer machine (1) of described heat pump adopts the outer machine of DC frequency-changing air-cooled heat pump.
3. radiation tail end air-conditioning system according to claim 2, is characterized in that: the outer machine of described DC frequency-changing air-cooled heat pump adopts brush DC converter technique.
4. radiation tail end air-conditioning system according to claim 1, is characterized in that: in described heat pump, machine (2) adopts machine in DC frequency-changing air-cooled heat pump.
5. radiation tail end air-conditioning system according to claim 4, is characterized in that: in described DC frequency-changing air-cooled heat pump, machine adopts brush DC converter technique.
6. radiation tail end air-conditioning system according to claim 1, is characterized in that: described new blower fan group (7) adopts two low-temperature receiver dehumidification fresh air groups.
7. radiation tail end air-conditioning system according to claim 6, is characterized in that: described pair of low-temperature receiver dehumidification fresh air group adopts brush DC converter technique.
8. radiation tail end air-conditioning system according to claim 1, is characterized in that: described heat exchanger (3) adopts integrated heat exchanger.
9. radiation tail end air-conditioning system according to claim 1, is characterized in that: described air devider (8) adopts intelligent air devider.
10. radiation tail end air-conditioning system according to claim 1, is characterized in that: described air devider (8) comprises air-valve (9).
11. radiation tail end air-conditioning systems according to claim 10, is characterized in that: described air-valve (9) adopts intelligent air-valve.
CN201320343174.9U 2013-04-01 2013-06-17 Radiation tail end air conditioning system Active CN203501341U (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
CN201320156789.0 2013-04-01
CN201320156789 2013-04-01
CN201320343174.9U CN203501341U (en) 2013-04-01 2013-06-17 Radiation tail end air conditioning system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320343174.9U CN203501341U (en) 2013-04-01 2013-06-17 Radiation tail end air conditioning system

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104359211A (en) * 2014-10-22 2015-02-18 东南大学 System and control method for preventing and eliminating dew formation of radiation tail end
CN104697085A (en) * 2015-02-12 2015-06-10 上海境和环境科技有限公司 Household combination type radiant air conditioning system, control method and corresponding control system
WO2016179884A1 (en) * 2015-01-16 2016-11-17 北京恒通绿建节能科技有限公司 Variable-refrigerant-flow radiant air-conditioning system
CN106839227A (en) * 2017-03-31 2017-06-13 际高贝卡科技有限公司 A kind of semi-central air conditioning of independent temperature-humidity control

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104359211A (en) * 2014-10-22 2015-02-18 东南大学 System and control method for preventing and eliminating dew formation of radiation tail end
WO2016179884A1 (en) * 2015-01-16 2016-11-17 北京恒通绿建节能科技有限公司 Variable-refrigerant-flow radiant air-conditioning system
CN104697085A (en) * 2015-02-12 2015-06-10 上海境和环境科技有限公司 Household combination type radiant air conditioning system, control method and corresponding control system
CN104697085B (en) * 2015-02-12 2018-05-01 上海境和环境科技有限公司 Divide family combined type air-conditioning system
CN106839227A (en) * 2017-03-31 2017-06-13 际高贝卡科技有限公司 A kind of semi-central air conditioning of independent temperature-humidity control

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GR01 Patent grant
GR01 Patent grant
C41 Transfer of patent application or patent right or utility model
TR01 Transfer of patent right

Effective date of registration: 20150930

Address after: 100020, Beijing, Chaoyang District Kanto shop No. 1 North Street

Patentee after: CITIC Guoan Investment Company Limited

Patentee after: Xingguo science and Technology Co Ltd

Patentee after: Song Bo

Address before: 701 room 1, unit 90, three weft Road, Zhenxing District, Dandong, Liaoning, China

Patentee before: Song Bo

C41 Transfer of patent application or patent right or utility model
TR01 Transfer of patent right

Effective date of registration: 20151103

Address after: 100020, Beijing, Chaoyang District Kanto shop No. 1 North Street

Patentee after: CITIC Guoan Investment Company Limited

Patentee after: Xingguo science and Technology Co Ltd

Patentee after: Tibet RUIMI Technology Co. Ltd.

Address before: 100020, Beijing, Chaoyang District Kanto shop No. 1 North Street

Patentee before: CITIC Guoan Investment Company Limited

Patentee before: Xingguo science and Technology Co Ltd

Patentee before: Song Bo

TR01 Transfer of patent right

Effective date of registration: 20180710

Address after: 100191 No. 6, No. 66, 66 Garden Road, Haidian District, Beijing 616

Patentee after: National Security (Beijing) Technology Co., Ltd.

Address before: 100020 North Street, No. 1, Guandong store, Chaoyang District, Beijing

Co-patentee before: Xingguo science and Technology Co Ltd

Patentee before: CITIC Guoan Investment Company Limited

Co-patentee before: Tibet RUIMI Technology Co. Ltd.