JPH10197194A - Air conditioning system with ability regulating function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To ensure heat exchanging to meet air conditioning load by variably setting a heat transfer area of the heat exchanging by partly shielding a midway route of refrigerant. SOLUTION: An indoor heat exchanger 14 of an indoor unit 13 is formed of small heat exchangers 14a to 14c which can be independently operated, a refrigerant route 15 is branched from an outdoor heat exchanger 12 of an outdoor unit 11, and refrigerant branch routes 15a, 15b, 15c are formed so that refrigerant arrives at the exchangers 15a to 14c. At the routes 15a to 15c, solenoid valves 18a to 18c are provided at an upstream side of the exchangers 14a to 14c, the valves 18a to 18c are selectively shut off to selectively operate te exchangers 14a to 14c, thereby substantially variably setting a heat transfer area.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multistage air heat exchanger, in which a part of the refrigerant passage is partially cut off, thereby making the heat transfer area of the heat exchange variable and ensuring heat exchange corresponding to the air conditioning load. The present invention relates to an air conditioning system having a capacity adjusting function.

[0002]

2. Description of the Related Art Conventionally, an air conditioning system 1 as shown in FIG.
In the case where the refrigerant path 6 from the heat exchanger 3 constituting the outdoor unit 2 to the heat exchanger 5 constituting the plurality of indoor units 4 is provided, the electromagnetic wave is supplied to the branch path on the entrance side of the heat exchanger 5 after the branch. The flow of the refrigerant is controlled by a shutoff device such as a valve 7. In this case, the flow rate flowing through each heat exchanger 5 is controlled depending on the air conditioning load in the room where the heat exchanger 5 is installed.

[0003]

The total flow rate of the refrigerant flowing through the air conditioning system 1 is determined by the total air conditioning load in the room where the heat exchanger 5 constituting the indoor unit 4 is installed and the pressure loss (flow resistance) in the pipe. ),
Since the distribution amount to each indoor heat exchanger 5 is determined by the flow resistance and the air conditioning load, the distribution amount is easily affected by the flow resistance and the air conditioning load of the other indoor heat exchangers 5. The present invention has been proposed in order to improve such inconvenience, and in a multi-stage air heat exchanger, the heat transfer area of heat exchange can be made variable by partially blocking the middle path of the refrigerant. It is another object of the present invention to provide an air conditioning system having a capacity adjustment function that ensures heat exchange corresponding to an air conditioning load.

[0004]

In order to solve the above-mentioned problems, the present invention provides an air conditioner having a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting an indoor unit. In the system, the indoor heat exchanger constituting the indoor unit is constituted by a plurality of independently operable small heat exchangers, and the refrigerant path from the outdoor heat exchanger constituting the outdoor unit is branched, and each of the small heat exchangers A refrigerant branch path is formed so that the refrigerant reaches the heat exchanger, and a flow path opening / closing means is interposed in the refrigerant branch path on the upstream side of the small heat exchanger to selectively shut off the flow path opening / closing means. Thus, the heat transfer area was made substantially variable. The present invention also provides an air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting an indoor unit, wherein the indoor heat exchanger constituting the indoor unit is operated by a plurality of independent operations. It is constituted by possible small heat exchangers, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. In the refrigerant branch path, a flow path opening / closing means is interposed downstream of the small heat exchanger, and the flow path opening / closing means is selectively shut off, so that the heat transfer area is substantially variable. The present invention also provides an air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting a plurality of indoor units, wherein the indoor heat exchanger constituting the indoor unit comprises a plurality of indoor heat exchangers. It is configured by a small heat exchanger that can operate independently, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. By interposing a flow path opening / closing means on the upstream side of the small heat exchanger in these refrigerant branch paths, by selectively blocking these flow path opening / closing means,
The heat transfer area was made substantially variable. Further, the present invention provides an air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting a plurality of indoor units, wherein a plurality of indoor heat exchangers constituting the indoor unit are provided. It is configured by a small heat exchanger that can operate independently, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. In the refrigerant branch path, a flow path opening / closing means is interposed downstream of the small heat exchanger, and the flow path opening / closing means is selectively shut off, so that the heat transfer area is substantially variable.

[0005]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of an air conditioning system having a capacity adjusting function according to the present invention will be described with reference to the drawings. FIG. 1 shows an air conditioning system 10 having a capacity adjusting function. The air conditioning system 10 has a refrigerant path from an outdoor heat exchanger 12 constituting an outdoor unit 11 to an indoor heat exchanger 14 constituting a plurality of indoor units 13. 15 are provided.

The outdoor unit 11 has a refrigerant path 15
, A compressor 16 is provided upstream of the outdoor heat exchanger 12 and an expansion valve 17 is provided downstream thereof.

On the other hand, the indoor heat exchanger 14 constituting the indoor unit 13 is a small heat exchanger 14a which can operate independently.
14b, 14c, the outdoor unit 1
The refrigerant path 15 from the outdoor heat exchanger 12 is branched,
Refrigerant branch paths 15a, 15b, and 15c are formed so that the refrigerant reaches each of the small heat exchangers 14a to 14c.

The refrigerant branch paths 15a to 15
c, on the upstream side of the small heat exchangers 14a to 14c, there are provided electromagnetic valves 18a, 18b, 18c as flow passage opening / closing means.
Are interposed respectively. These solenoid valves 18a to 18
c is configured such that the opening and closing operation can be selectively performed in each indoor unit 13.

With this configuration, by selectively shutting off the electromagnetic valves 18a to 18c in each of the indoor units 13, each of the small heat exchangers 14a to 14c is selectively operated to substantially reduce the heat transfer area. It is variable.
The electromagnetic valves 18a to 18c may be interposed on the refrigerant branch paths 15a to 15c downstream of the small heat exchangers 14a to 14c as shown in FIG.

According to the air conditioning system 10 having the capacity adjusting function as described above, the electromagnetic valves 18a to 18c in each of the indoor units 13 are selectively shut off.
Each of the small heat exchangers 14a to 14c can be selectively operated, and the heat transfer area can be easily changed. Thereby, a necessary and sufficient amount of refrigerant according to the air conditioning load can be controlled and flown, and the indoor heat exchanger 14 can be controlled.
Ability can be adjusted freely. In addition, since the control of the supply amount of the refrigerant is possible in one indoor heat exchanger 14, it is hardly affected by another indoor heat exchanger 14.

As described above, in the air conditioning system 10 having the capacity adjusting function according to the present invention, a plurality of indoor units 13 are provided.
However, the present invention can be implemented in a system having one indoor unit. In this case, in the installed room, the small heat exchangers 14a to 14c are selectively operated by selectively shutting off the solenoid valves 18a to 18c based on the room temperature detecting means in the room temperature setting means, for example, to thereby provide a heat transfer area. And the capacity of the indoor heat exchanger 14 can be freely adjusted.

[0012]

As described above, according to the present invention, (1) the heat transfer area can be easily changed by changing the blockage of the refrigerant flow. (2) A required and sufficient amount of refrigerant according to the air conditioning load can be controlled and flown. (3) Since control can be performed in one heat exchanger, it is hardly affected by other heat exchangers.

[0013]

[Brief description of the drawings]

FIG. 1 is a schematic system explanatory diagram showing an example of an air conditioning system having a capacity adjusting function according to the present invention.

FIG. 2 is a schematic system explanatory view showing another example of the air conditioning system having a capacity adjusting function according to the present invention.

FIG. 3 is a schematic system explanatory diagram showing an example of an air conditioning system having a current capacity adjustment function.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Air-conditioning system 11 Outdoor unit 12 Outdoor heat exchanger 13 Indoor unit 14 Indoor heat exchanger 14a-14c Small heat exchanger 15 Refrigerant path 15a-15c Refrigerant branch path 16 Compressor 17 Expansion valve 18a-18c Solenoid valve

Continued on the front page (51) Int.Cl. ⁶ Identification code FI F25B 5/02 F25B 5/02 Z

Claims (4)

[Claims] In an air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting an indoor unit, a plurality of independent operations of the indoor heat exchanger constituting the indoor unit are performed. It is constituted by possible small heat exchangers, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. In the refrigerant branch path, a flow path opening / closing means is interposed on the upstream side of the small heat exchanger, and by selectively blocking these flow path opening / closing means, the heat transfer area is substantially variable. Air conditioning system with the ability to adjust the capacity. 2. An air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting an indoor unit, wherein the indoor heat exchanger constituting the indoor unit is operated by a plurality of independent operations. It is constituted by possible small heat exchangers, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. In the refrigerant branch path, a flow path opening / closing means is interposed on the downstream side of the small heat exchanger, and by selectively blocking these flow path opening / closing means, the heat transfer area is substantially variable. Air conditioning system with the ability to adjust the capacity. 3. An air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting a plurality of indoor units, wherein an indoor heat exchanger constituting the indoor unit is provided with a plurality of indoor heat exchangers. It is configured by a small heat exchanger that can operate independently, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. By interposing a flow path opening / closing means on the upstream side of the small heat exchanger in these refrigerant branch paths and selectively shutting off these flow path opening / closing means, the heat transfer area can be substantially varied. An air conditioning system with a characteristic capacity adjustment function. 4. In an air conditioning system provided with a refrigerant path from an outdoor heat exchanger constituting an outdoor unit to an indoor heat exchanger constituting a plurality of indoor units, an indoor heat exchanger constituting the indoor unit is provided with a plurality of indoor heat exchangers. It is configured by a small heat exchanger that can operate independently, branches the refrigerant path from the outdoor heat exchanger that constitutes the outdoor unit, and forms a refrigerant branch path so that the refrigerant reaches each small heat exchanger. By interposing a flow path opening / closing means on the downstream side of the small heat exchanger in these refrigerant branch paths and selectively shutting off these flow path opening / closing means, the heat transfer area can be substantially varied. The air conditioning system having a capacity adjusting function according to claim 1.