JP2017138056A - Air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning system capable of being stably controlled.SOLUTION: An air conditioning system 100 has an outdoor unit 12, an indoor unit 11, and refrigerant pipes TA, T1 which connect the outdoor unit 12 and the indoor unit 11 and in which a refrigerant R1 is circulated, and is composed of a first air conditioner 1 for supplying cooling air or warm air to an air-conditioned room S1, a heat exchanger 2 connected to the refrigerant pipes TA, T1, cold/warm water pipes UA, U1, U2 connected to the heat exchanger 2 for circulating cold/warm water R2 exchanging heat with the refrigerant R1 by the heat exchanger 2, a radiation panel 3 connected to the cold/warm water pipe U1 and disposed in the air-conditioned room S1, and a second air conditioner 4 connected to the cold/warm water pipe U2. A cooling/heating capacity of the second air conditioner 4 is 10-20 times of cooling/heating capacity of the radiation panel 3.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an air conditioning system.

  Conventionally, air conditioning systems installed in buildings include a central system that distributes cold water or hot water prepared by a central heat source machine to the entire building with a large-capacity pump, and relatively small air conditioners at various locations. Dispersed and arranged individual methods are known.

In addition, an individual-type air-cooled heat pump package type air conditioner (air conditioner) having an outdoor unit and an indoor unit connected to each other by a refrigerant pipe, a heat exchanger unit connected to the refrigerant pipe, a heat exchanger unit, and a cold temperature An air conditioning system including a ceiling radiating panel connected by water piping has been proposed (see Patent Document 1 below).
According to this air conditioning system, the heat exchanger unit exchanges heat between the refrigerant flowing in the refrigerant pipe and the refrigerant flowing in the cold / hot water pipe, and the refrigerant in the cold / hot water pipe is prepared as cold water or hot water. For example, at the time of cooling, the expansion valve provided in the heat exchanger unit is opened, the coolant of the cold water flows through the cold / hot water pipe, and the expansion valve is closed when the set temperature is reached. The prepared cold water flows through the cold / hot water pipe and is supplied to the ceiling radiation panel. As described above, cold air or warm air is supplied as air supply from the air conditioner, and radiation cooling / heating is performed by the ceiling radiation panel.

JP 2014-152971 A

  However, in the air conditioning system described in Patent Document 1 described above, when the load on the ceiling radiating panel is small after the expansion valve is opened and cold water is supplied, the surface temperature of the ceiling radiating panel is too low to the set temperature, Since condensation may occur on the surface of the ceiling radiating panel, the expansion valve must be closed early to prevent the temperature of the cold water from dropping. Therefore, there is a problem that controllability is poor depending on the performance of the expansion valve.

  Then, this invention is made | formed in view of the said situation, and proposes the air-conditioning system in which stable control is possible.

In order to achieve the above object, the present invention employs the following means.
That is, an air conditioning system according to the present invention includes an outdoor unit, an indoor unit, a refrigerant pipe that connects the outdoor unit and the indoor unit and through which a refrigerant flows, and supplies cold air or hot air to the air conditioning target room. A first air conditioner to be supplied; a heat exchanger connected to the refrigerant pipe; a chilled / hot water pipe connected to the heat exchanger through which chilled / hot water exchanged with the refrigerant in the heat exchanger flows; A radiant panel connected to the cold / hot water pipe and installed in the air-conditioning target room, and a second air conditioner connected to the cold / hot water pipe, and the air conditioning capacity of the second air conditioner is the radiant panel It is characterized by comprising 10 to 20 times the air conditioning capacity.

  In the air conditioning system configured as described above, the heat exchanger exchanges heat between the refrigerant flowing through the refrigerant pipe and the cold / hot water flowing through the cold / hot water pipe. A radiant panel and a second air conditioner are connected to the cold / hot water pipe through which the heat-exchanged cold / hot water flows. The cooling / heating capacity of the second air conditioner is 10 to 20 times the cooling / heating capacity of the radiant panel. For this reason, when the load of a radiation panel is small, since a load can be processed with a 2nd air conditioning machine, the controllability of a heat exchanger can be stabilized.

  In the air conditioning system according to the present invention, it is preferable that the second air conditioner is installed in a space different from the air conditioning target room.

  In the air conditioning system configured as described above, the second air conditioner is installed in a space different from the air conditioning target room in which the radiation panel is installed. Therefore, with one air conditioning system, it is possible to cool and heat a plurality of spaces including a space where the radiation panel is installed and a space where the second air conditioner is installed.

  According to the air conditioning system of the present invention, when the load on the radiating panel is small, the load can be processed by the second air conditioner, so that the control can be stably performed.

It is a figure showing an air-conditioning system concerning one embodiment of the present invention. It is a figure which shows the structure of the radiation | emission panel of the air conditioning system which concerns on the Example of one Embodiment of this invention, and a comparative example. It is a graph which installs the air conditioning system which concerns on the comparative example of one Embodiment of this invention, and shows a temperature change. It is a graph which installs the air conditioning system which concerns on the Example of one Embodiment of this invention, and shows a temperature change.

An air conditioning system according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing an air conditioning system according to an embodiment of the present invention.
As shown in FIG. 1, an air conditioning system 100 includes a main air conditioner (first air conditioner, air conditioner) 1, a heat exchanger unit (heat exchanger) 2, a ceiling radiant panel unit (radiant panel) 3, and a fan. A coil unit (second air conditioner) 4. In the living room (air conditioning target room) S1, the indoor unit 11 of the main air conditioner 1 and the ceiling radiating panel unit 3 are provided. A fan coil unit 4 is provided in a corridor S2 provided adjacent to the living room S1.
As the second air conditioner, in addition to the fan coil unit 4, a small air conditioner, a compact air han, or the like configured with a cold / hot water coil (not shown) and a fan (not shown) can be employed.

  The main air conditioner 1 includes an indoor unit 11, an outdoor unit 12, and a refrigerant main pipe (refrigerant pipe) TA that connects the indoor unit 11 and the outdoor unit 12 and through which the refrigerant R1 flows. The main air conditioner 1 prepares cold air or hot air in the indoor unit 11 by the refrigerant R1 flowing through the refrigerant main TA, and the prepared cold air or hot air passes through the air supply duct 13 to the living room S1. Supplied as supply air SA.

  A branch refrigerant pipe (refrigerant pipe) T1 is connected to the refrigerant main pipe TA. A heat exchanger unit 2 is connected to the branch refrigerant pipe T1. The heat exchanger unit 2 is connected to a cold / hot water main pipe (cold / hot water pipe) UA.

  The heat exchanger unit 2 includes a heat exchanger body 21 for exchanging heat between the refrigerant R1 flowing through the refrigerant main TA and the cold / hot water R2 flowing through the cold / hot water main UA, and the cold / hot water R2 inside the cold / hot water main UA. And a pump 22 that circulates between the ceiling radiating panel unit 3. Further, the heat exchanger unit 2 includes an expansion tank 23 that absorbs the thermal expansion of the cold / hot water R2, and a control unit 24 that controls the supply amount of the refrigerant R1 to the heat exchanger body 21 by operating an expansion valve. doing.

  A first cold / hot water pipe (cold / hot water pipe) U1 and a second cold / hot water pipe (cold / hot water pipe) U2 are connected to the cold / hot water main pipe UA. The ceiling radiant panel unit 3 is connected to the first cold / hot water pipe U1. A fan coil unit 4 is connected to the second cold / hot water pipe U2.

  The ceiling radiation panel unit 3 is provided on the ceiling surface of the living room S1. The ceiling radiation panel unit 3 has a plurality of panels 31. The ceiling radiation panel unit 3 is provided with a circulation pipe (not shown). The circulation pipe is connected to the first cold / hot water pipe U1. The cold / hot water R2 flowing through the first cold / hot water pipe U1 is introduced into the circulation pipe. It is set as the structure which performs radiant cooling and heating because cold / hot water R2 distribute | circulates the inside of a circulation pipe.

  The fan coil unit 4 is installed in the hallway S2. The fan coil unit 4 prepares cold air or hot air with the cold / hot water R2 flowing through the second cold / hot water pipe U2, and blows the prepared cold air or hot air to the corridor S2 from the outlet.

The cooling / heating capacity of the fan coil unit 4 is set to be about 10 to 20 times the cooling / heating capacity of the ceiling radiant panel unit 3. In this embodiment, the diameter of the second cold / hot water pipe U2 connected to the fan coil unit 4 is larger than the diameter of the first cold / hot water pipe U1 connected to the ceiling radiant panel unit 3, and the cold / hot water that circulates. The air conditioning capacity is adjusted by adjusting the amount of R2. For example, the second cold / hot water pipe U2 is a pipe having a pipe diameter of about 25 mm, and the first cold / hot water pipe U1 is a pipe having a pipe diameter of about 10 mm to 20 mm. Moreover, the structure which raises the cooling / heating capability of the fan coil unit 4 by increasing the number of rows of coils (not shown) constituting the fan coil unit 4 may be adopted.
Moreover, the temperature difference of the entrance / exit of the ceiling radiation panel unit 3 is set to about 2 degrees, and the temperature difference of the entrance / exit of the fan coil unit 4 is set to about 5 degrees to control.

  In the air conditioning system 100 configured as described above, the heat exchanger unit 2 exchanges heat between the refrigerant R1 flowing through the branch refrigerant pipe T1 and the cold / hot water R2 flowing through the cold / hot water main pipe UA. The ceiling radiant panel unit 3 and the fan coil unit 4 are connected to the first cold / hot water pipe U1 and the second cold / hot water pipe U2 through which the heat-exchanged cold / hot water R2 flows. The cooling / heating capacity of the fan coil unit 4 is set to 10 to 20 times the cooling / heating capacity of the ceiling radiant panel unit 3. For this reason, when the load on the ceiling radiating panel unit 3 is small, the fan coil unit 4 can process the load, so that the controllability of the heat exchanger unit 2 can be stabilized.

  Moreover, since the fan coil unit 4 is installed in the corridor S2, which is a space different from the living room S1, a plurality of spaces can be cooled and heated by the single air conditioning system 100.

(Examples and comparative examples)
Hereinafter, examples of the embodiment described above will be described in comparison with comparative examples.
In the embodiment, the fan coil unit 4 shown in FIG. 1 is provided in the same room as the room S1 in which the ceiling radiating panel unit 3 is provided. The amount of the cold / hot water R2 flowing through the second cold / hot water pipe U2 is 16 L / min, and the amount of the cold / hot water R2 flowing through the first cold / hot water pipe U1 is 1.6 L / min.

FIG. 2 is a diagram showing a configuration of a radiation panel of an air conditioning system according to an example and a comparative example of one embodiment of the present invention.
As shown in FIG. 2, the ceiling radiating panel unit 3 includes four panels 31A, 31B, 31C, and 31D. The cold / hot water R2 which distribute | circulates the 1st cold / hot water pipe U1 is the structure introduce | transduced into the panel 31B and the panel 31C in order from the panel 31A, and is derived | led-out from the panel 31D.

  In the embodiment, the fan coil unit 4 is operated Hi, and in the comparative example, the fan coil unit 4 is stopped. Moreover, hydro unit NHBB160V2C (made by Daikin) is used as the heat exchanger unit 2, and the outlet set temperature is set to 16 degrees. In the thermo ON condition, the inlet water temperature is set temperature +3.5 degrees, and in the thermo OFF condition, the outlet water temperature is set temperature -3 degrees or set temperature -2 degrees for 5 minutes.

FIG. 3 is a graph showing a temperature change by installing an air conditioning system according to a comparative example of one embodiment of the present invention. FIG. 4 is a graph showing a temperature change by installing an air conditioning system according to an example of one embodiment of the present invention.
As shown in FIG. 3, in the comparative example, that is, the situation where the fan coil unit 4 is stopped, the temperature rapidly decreases after the thermo-ON. On the other hand, as shown in FIG. 4, in the example, that is, the situation where the fan coil unit 4 is in the Hi operation, the temperature drop is moderate after the thermo-ON as compared with the comparative example. Also, the thermo-ON and thermo-OFF times are substantially equal. For this reason, the heat exchanger unit 2 can stably control the temperature.

  The various shapes and combinations of the constituent members shown in the above-described embodiments are merely examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention.

  For example, in the embodiment described above, the fan coil unit 4 is provided in the hallway S2, which is a space different from the living room S1 in which the ceiling radiating panel unit 3 is provided, but the present invention is not limited to this. The ceiling radiation panel unit 3 and the fan coil unit 4 may be provided in the same space.

  The space where the fan coil unit 4 is provided is not limited to the hallway S2. It may be a space such as a toilet or a smoking room.

1 ... Main air conditioner (first air conditioner)
2 ... Heat exchanger unit (heat exchanger)
3 ... Ceiling radiant panel unit (radiant panel)
4 ... Fan coil unit (second air conditioner)
DESCRIPTION OF SYMBOLS 11 ... Indoor unit 12 ... Outdoor unit 13 ... Air supply duct 21 ... Heat exchanger main body 22 ... Pump 23 ... Expansion tank 24 ... Control means 100 ... Air conditioning system S1 ... Living room (air-conditioning object room)
S2 ... corridor TA ... refrigerant main (refrigerant pipe)
T1 ... Branch refrigerant pipe (refrigerant pipe)
UA ... Cold / hot water main (cold / hot water piping)
U1 ... First cold / hot water pipe (cold / hot water pipe)
U2 ... Second cold / hot water pipe (cold / hot water pipe)
R1 ... refrigerant R2 ... cold and hot water

Claims (2)

An outdoor unit, an indoor unit, a refrigerant pipe that connects the outdoor unit and the indoor unit and through which a refrigerant flows, and that supplies cold air or hot air to an air-conditioned room;
A heat exchanger connected to the refrigerant pipe;
A cold / hot water pipe connected to the heat exchanger, through which cold / hot water heat-exchanged with the refrigerant in the heat exchanger flows;
A radiant panel connected to the cold / hot water pipe and installed in the air conditioning target room;
A second air conditioner connected to the cold / hot water pipe,
The air conditioning system characterized in that the air conditioning capacity of the second air conditioner is configured to be 10 to 20 times the air conditioning capacity of the radiation panel.   The air conditioning system according to claim 1, wherein the second air conditioner is installed in a space different from the air conditioning target room.

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