JPH0445334A - Radiation panel - Google Patents

Abstract

PURPOSE:To realize uniformly ventilation in a room and air conditioning in the same by providing on a ceiling part a radiation panel body through which a ventilation hole is formed, and supplying ventilation air to a ceiling room defined by a radiation panel body and a ceiling surface, and further blowing off uniformly the ventilation air from the ventilation hole into the room. CONSTITUTION:A radiation panel body 26 is formed into a plate shape and is disposed on a ceiling part of a room 28, and a plurality of heat transfer pipes 30, 30... are closely disposed in a room 28 side surface of the radiation panel body 26. Further, a plurality of ventilation holes 32, 32... are formed through the radiation panel body 26. Hot water is supplied from a heat medium supply device to the heat transfer pipes 30, 30..., and the radiation panel body 26 is heated. Then, ventilation air fed from a fan is supplied to a ceiling room 34. The ventilation air existent in the vicinity of the radiation panel body 26 is heated by radiation from the radiation panel body 26, and is blown off uniformly from the ventilation holes 32, 32... of the radiation panel body 26 toward the room 28, and is allowed to flow down uniformly over the entire region of the room 28. Hereby, satisfactory air distribution in the room 28 is established.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a radiant panel, and more particularly to a radiant panel installed for indoor heating and cooling.

[Conventional technology]

Conventionally, in this type of radiant panel, as shown in FIG. 4, a radiant panel main body 12 is laid on the ceiling surface of an indoor room 10, and heat transfer tubes 14, 14 are installed on the surface of the radiant panel main body 12 on the indoor lO side.
... are installed in close contact.

The heat transfer tubes 14, 14, . . . are connected to a heat medium supply device (not shown), and a heat medium such as brine, hot water, cold water, etc. supplied from the heat medium supply device flows therethrough. Therefore, when hot water is supplied to the heat transfer tubes 14, 14, . . . from the heat medium supply device, the heat of the hot water is applied to the radiant panel main body 12, so that the indoor IO can be heated. In addition, heat exchanger tube 1
4. When cold water is supplied to 14..., the radiant panel body 1
Since it absorbs the heat of 2, it can cool indoor IO.

A heat insulating material 18 is adhered to the surface of the radiant panel main body 12 on the side of the ceiling chamber 16 to cover it. This heat insulating material 18 is provided for the purpose of preventing heat from the radiant panel main body 12 from escaping into the ceiling chamber 16.

Moreover, the air outlet 22 of the duct 20 is installed in the indoor IO. This duct 20 is connected to a blower (not shown), and air from the blower is blown out through the duct 20 from an air outlet 22 toward the room 10 . The interior of the room
The purpose of blowing air into the room IO is to supply necessary ventilation air to people in the room 10, and to circulate the air in the room 10 to uniformly cool and heat the indoor room 10.

Incidentally, as shown in FIG. 5, the radiation panel main body 24 may have a corrugated cross section. In addition, as shown in FIG.
．． 14... are attached to the ceiling chamber 16 side of the radiant panel main body 24 and are covered with a heat insulating material 18.

[Problem to be solved by the invention]

However, in the conventional radiant panel, when air is blown out from the air outlet 22 of the duct 20 shown in FIG. Since it circulates near the indoor 10
There is a drawback that the air distribution becomes uneven, making it impossible to supply ventilation air to the entire indoor room, and making it impossible to uniformly cool and heat the indoor room.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a radiant panel that can uniformly cool and heat the room by supplying ventilation air throughout the room.

[Means to solve problems]

In order to achieve the above object, the present invention includes forming a plurality of ventilation holes (32) for air circulation in a radiation panel (26) equipped with heat transfer tubes (30) through which a heat medium flows. Features.

[Effect]

According to the present invention, the radiant panel main body (26) in which the ventilation hole (32) is formed is installed on the ceiling of the room (28), and the ceiling defined by the radiant panel main body (26) and the ceiling surface Supply ventilation air to the room (34). As a result, the ventilation air supplied to the ceiling chamber (34) is heated and cooled by the radiant panel body (26), and the radiant panel body (26) is heated and cooled by the radiant panel body (26).
) is uniformly blown out from the vent holes (32) into the room (28) and flows down. Therefore, ventilation and heating and cooling of the room (28) can be performed uniformly.

〔Example〕

Preferred embodiments of the radiant panel according to the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a sectional view showing an embodiment of a radiant panel according to the present invention.

According to FIG. 1, the radiant panel main body 26 is formed into a plate shape and installed on the ceiling of a room 28. As shown in FIG. A plurality of heat transfer tubes 30, 30,
... are installed in close contact with each other.

Both ends of the heat transfer tubes 30, 30, . . . are bundled together, and both ends of the bundled tubes are connected to a heat medium supply device (not shown). Therefore, the heat medium such as hot water and cold water supplied from the medium supply device to the heat transfer tubes 30, 30, etc. is circulated to the heat medium supply device. That is, for example, when hot water is supplied from the heat medium supply device to the heat exchanger tubes 30, 30..., the heat of the hot water is given to the radiant panel main body 26 via the heat exchanger tubes 30, 30, and heat exchange is performed. be exposed. As a result, the temperature of the hot water decreases, but the radiant panel main body 2
6 is heated, the hot water discharged from the radiant panel main body 26 is sent back to the heat medium supply device and heated as described above, and then the heat exchanger tubes 30, 30...
supplied to

By the way, a plurality of ventilation holes 32, 32, . . . are formed in the radiation panel main body 26. This ventilation hole 32.32
... are formed in the entire area of the radiant panel body 26, and the indoor room 28 and the ceiling room 34 are communicated with each other through the ventilation holes 32, 32.... In the ceiling chamber 34, an air outlet of a duct 36 is arranged. The duct 36 is connected to a blower fan (not shown), and by rotating the blower fan, ventilation air from the blower fan is blown out through the duct 36 and from the outlet 38 to the entire interior of the ceiling chamber 34.

Next, the operation of the radiant panel configured as described above will be explained.

First, hot water is supplied from the heat medium supply device to the heat transfer tubes 30, 30, . . . to heat the radiant panel main body 26 and start heating the room 28. Next, ventilation air sent from the blower fan is supplied to the ceiling room 34 from the air outlet. Since the surface of the radiant panel main body 26 on the side of the ceiling chamber 34 is not covered with a heat insulating material, the supplied ventilation air is radiated from the radiant panel main body 26 by heat radiation from the radiant panel main body 26.
Nearby ventilation air is heated. The heated ventilation air then flows through the ventilation holes 32.3 of the radiant panel main body 26.
2... towards the room 28 as shown by the arrows in the figure. The blown ventilation air flows down uniformly over the entire area of the room 28, thereby making it possible to obtain good air distribution in the room 28. Therefore, indoor 2
8 heating can be performed uniformly.

In addition, when cooling the room 28, cold water is supplied to the heat transfer tubes 30, 30...
The heat in the room 28 is absorbed by the radiant panel main body 26. Thereby, the room 28 can be cooled. Further, when ventilation air is supplied from the air outlet 38 at the same time as cooling, the ventilation air cooled by the radiation panel main body 26 flows uniformly down toward the room 28 from the ventilation holes 32, 32, . . . . Therefore, even when cooling the indoor room 28, a good air distribution can be obtained in the indoor room 28, so that the indoor room 28 can be cooled uniformly.

In addition, in this embodiment, after the ventilation air supplied to the ceiling room 34 is cooled or heated by the radiant panel body 26, the ventilation air supplied to the ceiling room 34 is cooled or heated.
8, the room 28 can be efficiently cooled and heated without covering the radiant panel main body 26 with a heat insulating material.

FIG. 2 shows a second embodiment of the radiant panel according to the invention.

According to FIG. 2, the radiation panel main body 26 is constructed integrally with the duct 40. This duct 40 is connected to a blower fan (not shown), and the ventilation air supplied from the blower fan is directly supplied to the room 28 from the ventilation holes 32, 32, without being blown into the ceiling room 34 shown in FIG. It can be blown out. In addition, as shown in FIG.
It may be curved to the 8 side. Thereby, heating and cooling by the radiant panel main body 42 can be performed efficiently.

In addition, in this embodiment, the ventilation hole 3 is provided in the radiation panel main body 26.42.
2, the ventilation hole 32 may be a longitudinal slit-shaped ventilation hole. Further, in this embodiment, a case has been described in which the radiation panel is installed on the ceiling, but the radiation panel is not limited to this, and may be installed on the side wall of the room 28.

〔Effect of the invention〕

As explained above, according to the radiant panel according to the present invention,
Since a plurality of ventilation holes for air circulation are formed in the radiant panel main body, the ventilation air blown out from the ventilation holes can uniformly distribute the air in the room and uniformly cool and heat the room.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view showing a first embodiment of a radiant panel according to the present invention, FIG. 2 is a cross-sectional view of main parts showing a second embodiment of a radiant panel according to the present invention, and FIG. 3 is a cross-sectional view showing a second embodiment of a radiant panel according to the present invention. FIG. 4 is a sectional view of the main part showing the third embodiment of the radiant panel, FIG. 4 is a sectional view of the first embodiment of the conventional radiant panel, and FIG. 5 is a sectional view of the main part of the second embodiment of the conventional radiant panel. FIG. 6 is a sectional view of a main part showing a third embodiment of a conventional radiant panel. 26.42...Radiation panel body, 30...Heat transfer tube, 32...Vent hole, 36.40...Duct. Applicant Hitachi Plant Construction Co., Ltd. Figure 4 Figure 55 Figure

Claims (1)

[Claims] (1) A radiant panel equipped with heat exchanger tubes through which a heat medium flows, characterized in that a plurality of ventilation holes for air circulation are formed in the radiant panel.