JP5565655B2 - Ceiling radiation type air conditioning system - Google Patents

Description

  The present invention relates to a ceiling radiation type air conditioning system.

  Conventionally, the radiation panel provided in a ceiling is known (for example, refer to patent documents 1). Further, a radiation cooling device using a radiation panel having a hollow structure having a large number of holes on the surface (see, for example, Patent Document 2), and a radiation panel type cooling / heating radiator (for example, see Patent Document 3) combined with a blower fan are known. ing. Furthermore, a ceiling radiation type air conditioning system in which a radiation panel is provided on the ceiling is known (see, for example, Patent Document 4).

  When the room is cooled by the above-described ceiling radiation type air conditioning system, the perimeter load has a larger thermal load than the interior load, and therefore, the cooling is performed with a large-capacity cooling device such as a chilled beam.

  Here, the chilled beam is a device composed of a coiled pipe installed on the ceiling. The chilled water is passed through the coil to cool the air around the coil, and the cooled air is convected to the indoor lower side. It is lowered to remove the heat load on the lower side of the room.

Japanese Patent Laid-Open No. 10-232035 JP-A-8-247488 JP-A-7-119999 JP-A-8-178373

  There are two types of chilled beams, natural convection passive chilled beams and forced convection active chilled beams that introduce air-conditioned primary air. Active chilled beam. However, since the active chilled beam always operates the blower, power consumption increases. Moreover, when installing a chilled beam, since it is necessary to use a punching metal ceiling, the design restrictions arise.

  This invention is made | formed in view of the above, Comprising: It aims at providing the ceiling radiation type | formula air conditioning system excellent in energy saving property and design property.

In order to solve the above problems and achieve the object, a ceiling radiation type air conditioning system according to claim 1 of the present invention is a ceiling radiation type air conditioning system in which a radiation panel is provided on a ceiling, and the radiation panel is provided. The space inside the ceiling is divided into an interior side and a perimeter side, and a fan that can blow the air on the interior side to the perimeter side is provided in this partitioning portion, and the radiant panel has a low heat load when the perimeter heat load is low. a low load operation mode for supplying cold water to the cold water pipe Ru Ah provided, at perimeter heat load is high high load, by operating the blower, the interior is cooled by radiation effect of the radiation panel of the interior-side supplying side air to the perimeter side, the supplied air, the radiation path against the radiation panel of the perimeter side by the blower And a high-load operation mode for blowing toward the conditioned air to the perimeter Le, said radiant panel of the perimeter side is the large number of holes louver-like bored panel, in the high-load operation mode, the Cooled by the radiation effect of the radiation panel on the interior side and supplied to the perimeter side, the wind blown from the radiation panel on the perimeter side toward the perimeter passes through the radiation panel on the perimeter side It is arranged obliquely so as to face the perimeter so that forced convection occurs .

  According to the present invention, there is provided a ceiling radiation type air conditioning system in which a radiation panel is provided on a ceiling, the space in the ceiling where the radiation panel is provided is divided into an interior side and a perimeter side, and the interior side Is provided on the perimeter side so that when the perimeter heat load is low (during low load operation), the room can be cooled by the radiation effect of the radiation panel and the natural convection effect. .

  On the other hand, when the perimeter heat load is high (during high load operation), by operating the blower, the air in the ceiling on the interior side is blown against the radiation panel on the perimeter side, and the perimeter can be cooled. In this way, the motive energy of the blower can be reduced by operating the blower only when the perimeter thermal load is high and stopping the blower when the thermal load is low.

  Further, since the radiation panel is provided on the ceiling of the perimeter, it is not necessary to provide a punching metal ceiling in the case where the chilled beam is arranged as described above, and uniformity with the design of the interior side ceiling can be achieved. Therefore, it is possible to provide a ceiling radiation type air conditioning system that is excellent in energy saving and design.

FIG. 1 is a side sectional view showing an embodiment of a ceiling radiation type air conditioning system according to the present invention, and is a view at the time of low load operation. FIG. 2 is a side sectional view showing an embodiment of the ceiling radiation type air conditioning system according to the present invention, and is a diagram at the time of high load operation.

  Hereinafter, embodiments of a ceiling radiation type air conditioning system according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

  As shown in FIG. 1, a ceiling radiation type air conditioning system 10 according to the present invention includes a radiation panel 12 provided on a ceiling 4 of a room 2, a space 14 in the ceiling of the radiation panel 12, an interior side 6 and a perimeter side 8. A partition portion 18 that partitions air through the opening 16 and a circulation fan 20 (blower) provided on the perimeter side 8 of the partition portion 18 are provided.

  The radiation panel 12 includes a radiation panel 12a disposed on the interior side 6 and a radiation panel 12b disposed on the perimeter side 8, and a chilled water pipe 22 is provided at a predetermined interval on the upper surface side of each radiation panel 12a, 12b. Is provided. The radiation panel 12b on the perimeter side 8 is a galley-like panel having a large number of holes 24 so as to promote natural convection, and is disposed obliquely so as to face the perimeter A. On the other hand, the radiant panel 12a on the interior side 6 has vent holes 26 opened at a predetermined interval, and is arranged substantially horizontally.

The operation and action of the above configuration will be described.
As shown in FIG. 1, when the perimeter thermal load is low (during low load operation), cold water is supplied to the piping 22 of each radiation panel 12a, 12b by a water supply control means (not shown), and each radiation panel 12a, 12b The room 2 is cooled by the radiation effect and the natural convection effect (low load operation mode).

  On the other hand, as shown in FIG. 2, when the perimeter thermal load is high (during high load operation), the circulation fan 20 in the space 14 in the ceiling is operated (high load operation mode). Then, the circulation fan 20 sucks the air 28 in the ceiling on the interior side 6 cooled by the radiation effect of the radiation panel 12 a on the interior side 6 as air-conditioned primary air, and passes through the opening 16 of the partition portion 18 to the ceiling on the perimeter side 8. Supply to the inner space.

  The supplied air is applied to the radiation panel 12b on the perimeter side 8 by the circulation fan 20 and blown out toward the perimeter A. The cooling capacity of the perimeter A is enhanced by the effect of forced convection caused by the blown wind passing through the radiation panel 12b on the perimeter 8 side. By doing in this way, the cooling effect similar to the perimeter air conditioning by the conventional active chilled beam mentioned above can be acquired.

Note that when the radiation capability of the radiation panel 12b of perimeter side 8 at the time of low load operation is 200 W / m ^2, the cooling capacity at high-load operation, and the radiation capacity 200 W / m ² for the radiant panel 12b, The total convection capacity of 100 W / m ² is 300 W / m ² , and the cooling capacity of the perimeter A is improved.

  Thus, according to the ceiling radiation type air conditioning system 10 of the present invention, since the radiation panel 12b is arranged on the ceiling of the perimeter A, it is not necessary to provide a punching metal ceiling when arranging a chilled beam. Therefore, it is possible to give design considerations such as being able to achieve uniformity with the ceiling design by the radiation panel 12a on the interior side 6.

  In addition, when installing the above-mentioned active chilled beam, the equipment capacity is selected based on the peak heat load of the perimeter, so it becomes over-spec except during the summer peak heat load, and the power energy for the circulation fan may be wasted. is there. However, according to the ceiling radiation type air conditioning system 10 of the present invention, the circulation fan 20 is operated only when the perimeter heat load is high, and the circulation fan 20 is stopped when the heat load is low. Can be reduced.

  Further, according to the ceiling radiation type air conditioning system 10 of the present invention, the ceiling air 28 cooled by the radiation panel 12a on the interior side 6 is sent to the radiation panel 12b on the perimeter side 8 by the circulation fan 20, It can be effectively used for perimeter processing.

  In the above embodiment, a sensor for detecting the perimeter thermal load may be provided, and the low load operation mode and the high load operation mode may be switched and controlled according to the perimeter thermal load detected by the sensor. Further, the operation mode may be switched manually.

  As described above, the ceiling radiation type air conditioning system according to the present invention is a ceiling radiation type air conditioning system in which a radiation panel is provided on the ceiling, wherein the space in the ceiling in which the radiation panel is provided is divided into an interior side and a perimeter. Since the blower that can blow the air on the interior side to the perimeter side is provided in this partition portion, when the perimeter thermal load is low (during low load operation), the radiation effect of the radiation panel The room can be cooled by the natural convection effect.

  On the other hand, when the perimeter heat load is high (during high load operation), by operating the blower, the air in the ceiling on the interior side is blown against the radiation panel on the perimeter side, and the perimeter can be cooled. In this way, the motive energy of the blower can be reduced by operating the blower only when the perimeter thermal load is high and stopping the blower when the thermal load is low.

  In addition, since a radiation panel is provided on the ceiling of the perimeter, it is not necessary to provide a punching metal ceiling in the case of arranging a chilled beam, and the design and uniformity of the interior ceiling can be achieved. Therefore, it is possible to provide a ceiling radiation type air conditioning system that is excellent in energy saving and design.

  As described above, the ceiling radiation type air conditioning system according to the present invention is useful for indoor air conditioning in a thermal environment in which the perimeter heat load is larger than the interior load, and in particular, it is desired to consider energy saving and ceiling design at the same time. Suitable for indoor air conditioning.

DESCRIPTION OF SYMBOLS 2 Indoor 4 Ceiling 6 Interior side 8 Perimeter side 10 Ceiling radiation type air conditioning system 12 Radiation panel 12a Interior side radiation panel 12b Perimeter side radiation panel 14 Space in ceiling 16 Opening 18 Partition part 20 Circulation fan (blower)
22 cold water piping 24 holes 26 ventilation holes 28 air in the ceiling A perimeter

Claims (1)

A ceiling radiation type air conditioning system with a radiation panel on the ceiling,
Partition the space in the ceiling where the radiation panel is provided into the interior side and the perimeter side,
In this partition part, a fan that can blow the air on the interior side to the perimeter side is provided,
The perimeter heat load is low low load, and low load operation mode for supplying cold water to Oh Ru cold water pipe is provided on the radiation panel,
When the perimeter heat load is high and the load is high, the fan is operated to supply the interior side air cooled by the radiation effect of the interior side radiation panel to the perimeter side . A high-load operation mode in which the blower blows air-conditioned air toward the perimeter from the radiation panel by hitting the radiation panel on the perimeter side ;
The radiant panel on the perimeter side is a gallery-like panel having a large number of holes, and is cooled by the radiation effect of the radiant panel on the interior side and supplied to the perimeter side in the high load operation mode. The air blown toward the perimeter from the radiation panel on the perimeter side is arranged obliquely so as to face the perimeter so that forced convection occurs through the radiation panel on the perimeter side. Ceiling radiation type air conditioning system.

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