JP3325778B2 - Indoor cooling system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor cooling system.
The present invention relates to an indoor cooling system capable of supplying cooling water at an appropriate temperature to a fan coil unit and / or a floor cooling panel to perform an indoor air cooling operation and a floor cooling operation independently or simultaneously.

[0002]

2. Description of the Related Art Heretofore, there has been known an indoor cooling system which can supply cooling water to a fan coil unit and a floor cooling panel to switch between indoor air cooling and floor cooling, respectively. For example, a system as exemplified in the schematic diagram of FIG. 3 is employed.

In this cooling system, a water supply pipe (2) from a cooling device (1) is connected to a floor cooling panel (5) via a pump (3) and a valve (4). The drainage pipe (6) from the cooling device (1)
The fan coil unit (8) is disposed in a bypass pipe (7) that branches off from the pump (3) and the valve (4) of the water supply pipe (2) and joins between the drains (6). ing.

[0004] When the indoor air cooling operation is performed by such a cooling system, the cooling device (1), the pump (3) and the fan coil unit (8) are operated with the valve (4) closed to perform cooling. The cooling water from the device (1) is recirculated only to the fan coil unit (8) to release the cool air into the room. On the other hand, in the case of the floor cooling operation, the fan coil unit (8) is stopped with the valve (4) opened, the cooling device (1) and the pump (3) are operated, and the cooling device (1) Cooling water to floor cooling panel (5)
The surface of the floor cooling panel (5) is cooled by cooling air flowing through the meandering pipe (51) in the floor cooling panel (5).

Further, as exemplified in FIG. 4, there has been proposed a system capable of performing indoor air operation and floor cooling operation independently or simultaneously. That is, in the case of this system, the first valve (41) is connected between the branch point (9) of the water supply pipe (2) and the floor cooling panel (5) by the bypass pipe (10) upstream of the fan coil unit (8). 7) is provided with a second valve (42). During indoor air cooling operation, the first valve (41) is closed and the second valve (42) is opened to supply cooling water only to the fan coil unit (8). ,on the other hand,
During the floor cooling operation, the first valve (41) is opened and the second valve (42) is closed to supply the cooling water only to the floor cooling panel (2). In the case of simultaneous operation, these valves (41) and (42) are both opened so that cooling water can be supplied to both the fan coil unit (8) and the floor cooling panel (5).

[0006]

However, in such a cooling system, the temperature of the cooling water supplied to the floor cooling panel (5) is lower than the temperature of the cooling water supplied to the fan coil unit (8) (about 7 ° C.). The temperature of the water needs to be set as high as, for example, about 12 ° C. If the temperature of the cooling water supplied to the fan coil unit (8) is high, its cooling capacity is reduced, and a sufficient cooling effect cannot be obtained, while the temperature of the cooling water supplied to the floor cooling panel (5) is too low. This is because condensation occurs on the panel surface.

Therefore, it is practically extremely difficult to simultaneously perform the indoor air cooling operation and the floor cooling operation by the conventional cooling system as illustrated in FIG. FIG.
Also, in the system illustrated in FIG. 4, even when switching from the indoor air cooling operation to the floor cooling operation, the cooling water of about 7 ° C. supplied to the fan coil unit (8)
On the day when the dew condensation temperature is high, all the devices are stopped, for example, when switching from indoor air cooling operation to floor cooling operation, and the water temperature is changed to the floor cooling panel (5). 5) It is necessary to take measures such as waiting for the temperature to rise to a temperature suitable for the supply to (5). However, in this case, it takes time to raise the water temperature, and there is a problem that the floor cooling operation cannot be started quickly.

The present invention has been made in view of the above circumstances, and has a cooling system capable of smoothly switching from indoor air cooling operation to floor cooling operation, and the efficiency of indoor air cooling and floor cooling. It is an object of the present invention to provide a cooling system capable of simultaneous simultaneous operation.

[0009]

According to a first aspect of the present invention for solving the above-mentioned problems, cooling air at different temperatures is supplied to a fan coil unit and a floor cooling panel arranged in parallel to provide indoor air cooling and cooling. A cooling system for independently performing floor cooling, wherein a water supply pipe from a cooling device is connected to a floor cooling panel via a pump and a valve, a drain pipe from the floor cooling panel is connected to the cooling device, and a pump and a valve are provided. A fan coil unit is arranged in a bypass pipe that branches off from a water supply pipe in between and joins a drain pipe, and a temperature sensor is provided in either the upstream or downstream of the fan coil unit, and the valve is closed. In the indoor air cooling operation in which the cooling device, pump and fan coil unit are operated in the state, the fan coil unit is stopped with the valve opened. When switching to the floor cooling operation for operating the cooling device and the pump, the cooling device is stopped with the valve closed until the water temperature detected by the temperature sensor reaches the floor cooling panel supply water temperature, and the pump and the fan coil unit are turned off. An indoor cooling system is provided which is operated to perform a cold water heating operation.

According to a second aspect of the present invention, there is provided a cooling system for supplying cooling water at different temperatures to a fan coil unit and a floor cooling panel arranged in series to perform indoor air cooling and floor cooling independently or simultaneously. , A water supply pipe from the cooling device is connected to the floor cooling panel via the pump, the fan coil unit and the first valve, and a drain pipe from the floor cooling panel is connected to the cooling device, and the fan coil unit and the first valve are connected. A second valve is provided in a bypass pipe that branches from a water supply pipe between the two and joins a drain pipe.
A temperature sensor is provided in either the upstream or downstream of the valve. (A) When performing indoor air cooling and floor cooling independently, the first valve is closed and the second valve is opened. From the indoor air cooling operation in which the cooling device, the pump and the fan coil unit are operated, to the floor cooling operation in which the first valve is opened and the fan coil unit is stopped while the second valve is opened, and the cooling device and the pump are operated. At the time of switching, the first valve is closed, the cooling device is stopped with the second valve open, and the pump and the fan coil unit are operated until the cold water temperature detected by the temperature sensor reaches the floor cooling panel supply water temperature. When performing the cold water temperature raising operation and (b) simultaneously performing the indoor air cooling and the floor cooling, the cooling device and the pump are opened with the first valve and the second valve opened. And operating the fan coil unit, and when the cold water temperature sensed by the temperature sensor is lower than the floor cooling panel water supply temperature, the cooling device, the pump and the fan coil unit are closed in a state where the first valve is closed and the second valve is opened. To perform only the indoor air cooling operation, thereby providing an indoor cooling system.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail by showing embodiments with reference to the attached drawings.

[0012]

FIG. 1 is a schematic view showing an embodiment of an indoor cooling system according to the first invention. For example, in the case of this indoor cooling system, the water supply pipe (2) from the cooling device (1)
Is connected to a floor cooling panel (5) via a pump (3) and a valve (4), and a drain pipe (6) from the floor cooling panel (5) is connected to a cooling device (1) and a water supply pipe is connected. A fan coil unit (8) is disposed in a bypass pipe (7) that branches from between the pump (3) and the valve (4) in (2) and joins between drains (6). Further, a temperature sensor (10) is provided between the pump (3) of the water supply pipe (2) and the branch point (9).

When the indoor air cooling operation is performed by such a cooling system, the cooling device (1), the pump (3), and the fan coil unit (8) are operated with the valve (4) closed to perform cooling. Cooling water (approximately 7 ° C.) from the device (1) is returned only to the fan coil unit (8) to discharge the cool air into the room. On the other hand, in the case of the floor cooling operation, the fan coil unit (8) is stopped with the valve (4) opened, the cooling device (1) and the pump (3) are operated, and the cooling device (1) Cooling water (12
℃) is returned to the floor cooling panel (5) only, and the surface of the floor cooling panel (5) is cooled by cooling air flowing through the meandering pipe (51) in the floor cooling panel (5).

When switching from the indoor air cooling operation to the floor cooling operation, the water temperature detected by the temperature sensor (10) is changed to the supply water temperature (about 12 ° C.) to the floor cooling panel (5).
Cooling device (1) with valve (4) closed until
Is stopped, and the pump (3) and the fan coil unit (8) are operated to perform the cold water heating operation. The cool air of the cold water is quickly released by the fan coil unit (8), and the floor cooling operation can be started quickly.

The position of the temperature sensor (10) is not limited to the example of FIG. 1, but may be any position as long as it can measure the temperature of cold water flowing upstream or downstream of the fan coil unit (8). . FIG. 2 is a schematic diagram showing one embodiment of the indoor cooling system of the second invention. For example, in the case of this indoor cooling system, the water supply pipe (2) from the cooling device (1) is connected to the floor cooling panel (5) via the pump (3), the fan coil unit (8) and the first valve (41). And the drain pipe (6) from the floor cooling panel (5) connects to the cooling device (1), and from the water supply pipe (2) between the fan coil unit (8) and the first valve (41). The bypass pipe (7) that branches and joins the drain pipe (6) is provided with a second valve (42). Further, a temperature sensor (1) is provided between the fan coil unit (8) of the water supply pipe (2) and the branch point (9).
0) is also provided.

When the indoor air cooling operation is performed by such a cooling system, the first valve (41) is closed,
The cooling device (1), the pump (3) and the fan coil unit (8) are operated with the second valve (42) opened, and the cooling water (about 7 ° C.) from the cooling device (1) is supplied to the fan coil unit. The cooling air is released only to (8) and the cold air is discharged into the room. On the other hand, in the case of floor cooling operation, both valves (4
1) The open / close state of (42) is reversed to stop the fan coil unit (8), and the cooling device (1) and the pump (3)
Is operated, and the cooling water (about 12 ° C.) from the cooling device (1) is returned only to the floor cooling panel (5) to cool the surface thereof.

When switching from the indoor air cooling operation to the floor cooling operation, the water temperature detected by the temperature sensor (10) is changed to the supply water temperature (about 12 ° C.) to the floor cooling panel (5).
, The first valve (41) is closed, and the second valve (4) is closed.
The cooling device (1) is stopped with 2) opened, and the pump (3) and the fan coil unit (8) are operated to perform the cold water heating operation. The cool air of the cold water is quickly released by the fan coil unit (8), and the floor cooling operation can be started quickly.

On the other hand, in the case of the system illustrated in FIG. 2, the cooling device (1), the pump (3) and the fan coil unit (1) are opened with the first valve (41) and the second valve (42) opened. By operating 8), indoor air cooling and floor cooling can be operated simultaneously. That is, since the chilled water from the cooling device (1) flows from the fan coil unit (8) to the floor cooling panel (5), even if chilled water of about 7 ° C. is supplied, the chilled air is cooled by the fan coil unit ( 8) and rises to a temperature suitable for supply to the floor cooling panel (5). When the load on the fan coil unit (8) is small and the water temperature does not rise to a predetermined temperature, the first valve (41) is closed by a signal from the temperature sensor that senses this,
With the second valve (42) open, the cooling device (1)
The pump (3) and the fan coil unit (8) are operated to perform only the indoor air cooling operation.

The position of the temperature sensor (10) is not limited to the example shown in FIG.
Any location can be used as long as the temperature of the cold water flowing upstream or downstream of the can be measured. Of course, the present invention is not limited to the above-described example, and it goes without saying that various aspects are possible in detail.

[0020]

As described above in detail, according to the present invention, a cooling system capable of smoothly switching from indoor air cooling operation to floor cooling operation, and efficient simultaneous operation of indoor air cooling and floor cooling are possible. A cooling system is provided.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing one embodiment of an indoor cooling system of the first invention.

FIG. 2 is a schematic view showing an embodiment of an indoor cooling system according to the second invention.

FIG. 3 is a schematic diagram showing an example of a conventional indoor cooling system.

FIG. 4 is a schematic diagram showing another example of a conventional indoor cooling system.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 cooling device 2 water supply pipe 3 pump 4 valve 41 first valve 42 second valve 5 floor cooling panel 51 meandering pipe 6 drain pipe 7 bypass pipe 8 fan coil unit 9 branch point 10 temperature sensor

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-5-126345 (JP, A) JP-A-5-118621 (JP, A) JP-A-10-38324 (JP, A) JP-A-5-118324 280768 (JP, A) JP-A-3-271642 (JP, A) JP-A-63-204042 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) F24F 11/02 102

Claims (2)

(57) [Claims] 1. A cooling system for supplying cooling water at different temperatures to a fan coil unit and a floor cooling panel arranged in parallel to perform indoor air cooling and floor cooling independently, wherein a water supply pipe from the cooling device is a pump. And a drain pipe from the floor cooling panel connected to the cooling device via a valve, and a fan coil connected to a bypass pipe branched from a water supply pipe between the pump and the valve and joined to the drain pipe. The unit is installed, and a temperature sensor is provided in either the upstream or downstream of the fan coil unit, and the indoor air cooling operation in which the cooling device, the pump and the fan coil unit are operated with the valve closed. With the valve open, stop the fan coil unit and switch to floor cooling operation to operate the cooling device and pump When cooling, the cooling device is stopped with the valve closed until the water temperature detected by the temperature sensor reaches the floor cooling panel supply water temperature, and the pump and fan coil unit are operated to perform the cold water heating operation. Indoor cooling system. 2. A cooling system which supplies cooling water at different temperatures to a fan coil unit and a floor cooling panel arranged in series to perform indoor air cooling and floor cooling independently or simultaneously, wherein water is supplied from a cooling device. Pipe is pump,
It is connected to the floor cooling panel via the fan coil unit and the first valve, and a drain pipe from the floor cooling panel is connected to the cooling device, and branches off from a water supply pipe between the fan coil unit and the first valve. A second valve is provided in a bypass pipe that joins the drain pipe, and a temperature sensor is provided in a pipe line either upstream or downstream of the second valve, and (a) indoor air cooling and floor cooling are independently performed. When the first valve is closed and the second valve is opened, the cooling device, the pump and the fan coil unit are operated in the indoor air cooling operation, and the first valve is opened and the fan is opened in the second valve opened state. When the coil unit is stopped and switched to the floor cooling operation in which the cooling device and the pump are operated, the chilled water temperature detected by the temperature sensor becomes the floor cooling panel supply water temperature. Until the first valve is closed and the second valve is opened, the cooling device is stopped, the pump and the fan coil unit are operated to perform the cold water heating operation, and (b) the indoor air cooling and the floor cooling are simultaneously performed. When performing, the cooling device with the first valve and the second valve open,
When the pump and the fan coil unit are operated and the chilled water temperature detected by the temperature sensor is lower than the floor cooling panel water supply temperature, the cooling device, the pump and the fan coil are closed with the first valve closed and the second valve opened. An indoor cooling system, wherein the unit is operated to perform only indoor air cooling operation.