JPH04165232A - Cold radiation panel - Google Patents

Abstract

PURPOSE:To provide a comfortable cold radiation panel on the cooling surface of which no dew is formed by a method wherein a radiation surface is formed of a porous substance. CONSTITUTION:Woolen cloth 2 is stuck as a porous substance to the front of a panel body 5 and forms duct structure so that air is fed from the rear, and a heat insulating material 8 is disposed to a rear. A cooler 4 is arranged on the up stream side in the panel body 5 and cold air is fed with the aid of a blower 3 to which a cooler 4 is located. The cooler 4 composes a vaporizer for heat pump system 14 comprising a compressor 11, an expansion valve 12, and a condenser 10. Further, the cooler is not especially limited to a device utilizing the heat pump system and, for example, a Peltier element may be also used. Water dehumidified by the cooler 4 to produce a dew is discharged as a drain 13 to the outside of a system. Indoor air 7 produces dehumidified cold air 6 by means of the cooler 4 and dehumidified microair-flow 1, which is discharged through the porous substance 2. The porous substance 2 is cooled to impart cold radiation.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a radiant cooling radiant panel that can provide comfortable cooling of the head-cold-foot-warm type.

[Conventional technology]

Figure 3 shows a conventional cooling radiant panel, in which 11 is a compressor, 12 is an expansion valve, 10 is a condenser, 4 is an evaporator, and 5 is a panel body, and the surface of the panel body 5 is the cooling surface. .

In conventional cold radiant panels, the cooling surface is in direct contact with the air as shown in Figure 3, so the dew point of the air is easily reached (for example, in a 27°C 60% I atmosphere, the dew point is 21°C), and the cooling surface is in direct contact with the air. If the cooling surface becomes sticky due to condensation and is therefore moldy or dirty, or if the cooling surface is near a person, water droplets may adhere to the body.
It was extremely unpleasant.

(Problems to be Solved by the Invention) In view of the above-mentioned drawbacks, the present invention attempts to provide a comfortable cold radiation panel panel that does not cause dew condensation on the cooling surface.

[Means to solve the problem]

The gist of the present invention is a cold radiant panel that performs radiant cooling by sending air cooled by a cooler into the panel main body, characterized in that the radiant surface is formed of a porous body, The cooler is composed of a bacterial cold body, a heat pump, a Vertier element, or the like.

[For production]

By sending cooled dehumidified air into the panel body whose front surface is made of porous material, the porous material is cooled and can provide cold radiation. Furthermore, since the dehumidified micro-airflow is blown out from the entire surface of the porous material, the cooling surface is No condensation.

Since dehumidified air is sent from the rear to the front of the panel body, which has been cooled and has reached its dew point, the surface vapor pressure decreases, creating a cooling surface that does not condense.

[Example] <Example 1> The panel main body 5 has a rasher cloth 2 pasted as a porous material on the front side,
It has a duct structure so that air can be sent in from the rear, and a heat insulating material 8 is placed on the rear. Cold air is sent into the panel body 5 by a blower 3 having a cooler 4 disposed on the upstream side.

The cooler 4 constitutes an evaporator of a heat pump system 14 that includes a compressor 11, an expansion valve 12, and a condenser 10. Note that the cooler is not particularly limited to one that utilizes this heat pump system, and may be one that uses a Peltier element, for example.

Water dehumidified and condensed in the cooler 4 is discharged to the outside of the system as a drain 13.

The indoor air 7 is turned into dehumidified cold air 6 by the cooler 4, and is blown out from the porous body 2 as a dehumidified micro-airflow I. Further, the porous body 2 is cooled and provides cold radiation.

<Example 2> The panel main body 5 has a rasher cloth 2 pasted on the front, a duct structure so that air can be fed from the rear, and a heat insulating material 9 on the rear surface.
, 8 are stacked parallel to each other with an interval between them. The cooler 4 and the air passage 1 are arranged between the heat insulating materials 8 and 9 so that the cold air 6.6 generated by the cooler 4 made of a cold storage body can be sent into the panel body 5.
8 and a blower 3 are arranged, and one side of the air passage 18 is equipped with a panel main body 5.
The other side has an open structure that allows external air 7 to be taken in.

The cooler 4 is adapted to be cooled by an evaporator 15 of an attached heat pump system 14.

A drain device 19 for draining the condensed water 13 is attached to the lower end of the cooler 4.

〔Effect of the invention〕

According to the cold radiant panel of the present invention, dehumidified air is sent from the rear to the front of the panel body that has been cooled and reached the dew point.
The surface vapor pressure is reduced and a cooling surface without condensation is obtained.

As described above, according to the present invention, it is possible to provide a cold radiation panel that does not cause dew condensation.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing one embodiment of the present invention, FIG. 2 is a sectional view showing another embodiment of the invention, and FIG. 3 is a side view showing a conventional example. 1... Dehumidifying micro-airflow, 2... Porous body (rasha cloth), 3
... Air blower, 4... Cooler, 5... Panel body (duct body), 6... Dehumidifying cold air, 7... Indoor air, 8.
9... Heat insulating material, 10... Condenser, 11... Compressor, 12... Expansion valve, 13... Drain, 14...
Heat pump system, 15... Cold storage material, 16...
Duct (air path), 17... Condensation water, 18... Air path,
19...Drain device. 11th

Claims (1)

[Claims] (1) A cold radiant panel that performs radiant cooling by sending air cooled by a cooler into the panel body, characterized in that the radiant surface is formed of a porous body.