JPH0420728A - Refrigerating system - Google Patents

Abstract

PURPOSE:To obtain a refrigerating system in which a cold air does not directly run against a human body to provide a comfortable environment by actuating a dehumidifier in response to a detection signal of a condensation sensor. CONSTITUTION:When a condensation sensor 12 detects the condensation on a ceiling 11, a controller 12a changes over a changeover valve 13a in response to the detection signal so that a refrigerant is sent through an outside pipe line 5b in a direction shown by an arrow B to a dehumidifier 3. and the controller 12a actuates a fan of the dehumidifier 3 to dehumidify the interior of a room 10. having passed through the dehumidifier 3, the refrigerant is circulated through an outside pipe line 5d in a direction of an arrow D to a refrigerant feed device 4. When no detection signal is supplied from the sensor 12, the system as described above is restored to the former state, so that the refrigeration is performed by means of ceiling pipe lines 2. In this manner, refrigeration and dehumidification are repeated to provide a comfortable environment.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a cooling system that cools and dehumidifies air to cool a room.

[Conventional technology]

Conventional cooling systems cool indoor rooms by using a fan to blow air cooled by a heat exchanger installed inside the cooling device.

[Problem to be solved by the invention]

However, with the above structure, the low-temperature cold air used for air conditioning may directly hit the human body, causing discomfort. In particular, when people are sleeping, cold air directly hits their bodies, which can induce illnesses such as colds.

An object of the present invention is to provide a cooling system that provides a comfortable environment without direct cold air hitting the human body.

[Means to solve the problem]

The cooling system of the present invention includes a ceiling pipe installed on the ceiling, a dehumidifier that dehumidifies indoor air, a refrigerant supply device that circulates refrigerant to the dehumidifier and the ceiling pipe, and a dew condensation system installed on the ceiling surface. The dehumidifier is equipped with a sensor, and the dehumidifier is operated based on a detection signal from the dew condensation sensor.

[Effect]

The cooling system of the present invention cools a room by circulating and supplying a refrigerant from a refrigerant supply device to ceiling piping arranged on the ceiling. Additionally, when a condensation sensor installed on the ceiling detects condensation, the dehumidifier is activated.

〔Example〕

An example of this developed cooling system is shown in Figures 1 and 2.
This will be explained based on the diagram.

FIG. 1 is a partially sectional perspective view of a room 10 in which a cooling system 1 is installed. This cooling system 1 includes a refrigerant supply device 4 that circulates cooled refrigerant using an internal pump, and a ceiling 1.
1, a dew condensation sensor 12 installed on the indoor surface of the ceiling 11, and a dehumidifier 3 installed inside the room 10.

This ceiling piping 2 is arranged in a meandering manner all over the interior of a ceiling 11 fixed to a ceiling base plate 7 supported by a ceiling base frame 6. This ceiling 11 is made up of a piping panel 8 on which ceiling piping 2 is arranged in a meandering manner, and a gypsum board 9. Further, a dew condensation sensor 12 provided on the indoor surface of the ceiling 11 is connected to a controller 12a that detects dew condensation and operates the dehumidifier 3.

The refrigerant supply port of the ceiling pipe 2 is connected to the refrigerant supply device 4 via the external pipe 5a via one of the switching valves 13a, and the refrigerant supply port of the dehumidifier 3 is connected to the refrigerant supply device 4 via the other of the switching valves 13a. It is connected to the refrigerant supply device 4 through an external pipe 5b.

In addition, each refrigerant outlet of the ceiling piping 2 and dehumidifier 3 is
It is connected to the refrigerant supply device 4 by an external pipe 5C5d.

The operation of the cooling system 1 configured as described above will be explained.

The refrigerant cooled by the refrigerant supply device 4 is sent from one side of the switching valve 13a to the external pipe 5a (in the direction of arrow A in FIG. 1) and is supplied to the ceiling pipe 2 disposed inside the ceiling 11. The supplied refrigerant absorbs the heat around the ceiling pipe 2 and cools the room 10 by natural convection through the plaster board 9, and then is sent through the external pipes 5c and 5d (in the direction of arrow C→arrow in Fig. 1). ) is circulated to the refrigerant supply device 4.

Moreover, when the dew condensation sensor 12 detects dew condensation on the ceiling 11,
Controller with that detection signal! 2a switches the switching valve 13a and sends the refrigerant to the external pipe 5b (in the direction of arrow B in FIG. 1) and supplies it to the dehumidifier 3.

Further, the controller 12a operates a fan (not shown) of the dehumidifier 3 to dehumidify the room 10. The refrigerant that has passed through the dehumidifying IR 3 is circulated to the refrigerant supply device 4 via the external pipe 5d (in the direction of the arrow in FIG. 1). Then, when the detection signal from the dew condensation sensor 12 disappears, the original state returns, and cooling by the ceiling piping 2 is performed.

In this way, cooling and dehumidification are repeated to create a comfortable environment.

Next, another embodiment of this cooling system will be described based on FIG. 3.

This cooling system 1' includes a refrigerant supply device 4 that circulates refrigerant using an internal pump, a ceiling pipe 2 disposed on a ceiling 11, and an indoor 10 of this ceiling 11, as in the above-described embodiment.
It consists of a dew condensation sensor 12 installed on the surface of the room 10, and a dehumidifier 813 installed inside the room 10.

The refrigerant supply port of the ceiling pipe 2 is connected to the refrigerant supply device 4 through an external pipe 5a', and the refrigerant supply port of the dehumidifier 3 is connected to an external pipe 5b' having a valve 13b in the middle thereof. Further, each refrigerant discharge port of the ceiling pipe 2 and the dehumidifier 3 is connected to the refrigerant supply device 4 through an external pipe 5C5d'.

The operation of the cooling system B configured as described above will be explained.

The refrigerant cooled by the refrigerant supply device 4 is sent to the external pipe 5a' and supplied to the ceiling pipe 2 disposed inside the ceiling 11. The supplied refrigerant removes the heat around the ceiling piping 2 and cools the room 10 by natural convection through the plasterboard 9.
The refrigerant is sent through the external pipe 5c' and circulated to the refrigerant supply device 4.

In addition, when the sensor 12 detects dew condensation on the ceiling 11 in this state, the controller 12a uses the detection signal to control the valve 13.
Opening of b and dehumidification [operation of 3 are performed. As a result, the refrigerant is also sent to the external pipe 5b', and the ceiling pipe 2 cools the room 10 and the dehumidifier 813 dehumidifies the room 10. The refrigerant supplied to the dehumidifier 3 is sent through the external pipe 5d' and circulated to the refrigerant supply device 4.

In this way, the valve 1 in response to the detection signal of the dew condensation sensor 12
By the operation 3b, the room 10 is cooled and dehumidified.

[Effects of the Invention] The cooling system of the present invention cools a room by circulating and supplying a refrigerant from a refrigerant supply device to ceiling piping arranged on the ceiling. In addition, when a condensation sensor installed on the ceiling detects condensation, the dehumidifier is activated to remove moisture.As a result, cold air does not directly hit the human body and condensation does not form on the ceiling, creating a comfortable environment.

[Brief explanation of drawings]

FIG. 1 is a partial cross-sectional perspective view of an installation example of an embodiment of the cooling system of the present invention, FIG. 2 is a block diagram of its configuration, and FIG.
The figure is a block diagram of the configuration of another embodiment. 1.1'...Cooling system, 2...Ceiling piping, 3.
... Dehumidifier, 4... Refrigerant supply device, 11... Ceiling,
12... Condensation sensor

Claims (1)

[Claims] A dehumidifier that dehumidifies indoor air, a refrigerant supply device that circulates refrigerant to the dehumidifier and the ceiling piping, and a dew condensation sensor installed on the ceiling. A cooling system that operates the dehumidifier based on a detection signal from a sensor.