JPS6020027A - Air heating and cooling device - Google Patents

Abstract

PURPOSE:To prevent the noise from being generated and make a thin-sized and small-sized unit by a method wherein an ion air generating device for producing ion flow is arranged at an air blowing part. CONSTITUTION:In an air heating and cooling device in which suctioned air is passed through a heat exchanger unit 102 to heat, cool and blow itself, an air wind generating device 104 for producing ion wind is arranged at an air blowing part 103. The air producing device is composed of ionization units 105 and electrode plates 106, the ionization units 105 being connected to positive polarity of a high DC power supply and in turn the electrode plates 106 being connected to negative polarity. With this arrangement, ion flow will be generated to flow from the ionization units 105 to the electrode plates 106 under an electric potential between the ionization units 105 and the electrode plates 106. As a result, since the flow generating device producing no noise may act as a fan, it is made possible to prevent noise. Further, since it is not necessary to provide any fan space, it is possible to made a small-sized and thin-sized device.

Description

[Detailed Description of the Invention] The present invention can be installed, for example, on the wall, floor, or ceiling of a room.
The present invention relates to an air heating/cooling device that blows hot air during heating and cold air during cooling.

A conventional example will be explained with reference to FIG. 141 and FIG. The symbol l in FIG.
A heat exchanger 2 is attached to 1 (air intake side).

In addition, an air outlet 3 is formed in the lower part of the outer casing l, and an air outlet 3 is equipped with an outlet louver (damper) 4. An inner assembly of the outlet louver 4 (j is a fan The blowing louver 4 is set downward as shown in Fig. 2, and the cloudy air is blown downward.10 This heats and cools the room.

However, in such a configuration, the operation of the fan 5 is accompanied by noise, which is not desirable, and if the fan 5 is made smaller in order to make the entire device thinner or smaller, the performance will decrease and the above-mentioned problem will occur. The noise becomes even louder.

The present invention has been made based on the above points, and its purpose is to prevent noise and reduce the overall thickness of the device.
An object of the present invention is to provide an air heating/cooling device that can be downsized.

That is, the air-free heating/cooling device according to the present invention is an air heating/cooling device in which sucked air passes through a heat exchange area to be heated or cooled and then blown out. The configuration is equipped with the following features.

Therefore, since the blowing device that does not produce noise functions as a fan, noise can be prevented, and since no space is required for the fan, the device can be made smaller and thinner.

A first embodiment of the present invention will be described below with reference to FIGS. 33 to 7. Reference numeral 101 in FIG. A heat exchanger 102 is installed on the front side (air inflow side) inside the outer casing 101.The intake air is heated or cooled when passing through this heat exchanger 102.The lower part of the outer casing 101 A viewing outlet 103 is formed in the air outlet 103, and a blowing device 104 for generating ion wind is attached to this air outlet 103.

The air blowing device 104 includes an ionization section 105 and an electrode plate 1.
06, and the ionization section 105 is the sixth
As shown in the figure, it is connected to the (+) pole side of the high voltage DC power supply 107, while the electrode 106 is connected to the ←) pole side.

Further, the upper 21 electrode plate 106 is connected to the hinge portion 1 as shown in FIG.
0B allows wJ to be performed twice within a predetermined range. This electrode plate 106 is connected to the hinge portion 1 as shown in FIG.
09 to the supporting member 110 in the form of a link. Therefore, the configuration is such that all the electrode plates 106 can be rotated by moving the support member 110 in the direction shown by the arrow in FIG.

According to the above configuration, the ionization section 105 and the electrode plate 1
A so-called ion wind is generated in the direction of the ionization section 105 or the +7 electrode plate 10'6 due to the potential difference between the electrode plate 10'6 and the +7 electrode plate 10'6. The generation of this ion wind generates a desired airflow in the direction shown by the arrow. In other words, the configuration is such that the function of the conventional 7A/ is performed by the blower device 104. Further, during cooling, the electrode plate 106 is set horizontally as shown in FIG. 3, while during heating, it is set downward as shown in FIG. This allows selective heating and cooling.

As described above, according to the air heating/cooling device according to the present embodiment, the blowing device 104 that generates ionized wind functions as a conventional fan, and the blowing device 104 does not generate noise like a 7-amp lift. Since there is no noise, it is possible to prevent noise. Further, since no space is required for the fan, the device can be made smaller and thinner. The electrode plate 106 also functions as a conventional louver, and the direction of the wind can be adjusted by changing the direction as appropriate.

Furthermore, since the device 104 also has a dust collection function,
It is also possible to purify the indoor air. .

Next, a second embodiment will be described with reference to FIGS. 8 to 1θ. That is, this second embodiment has a configuration in which the blowing device 104 is formed as one unit. frame lll
The ionizing section 105 and the electrode plate 106 are incorporated into the ionizing section 105 and the electrode plate 106 is rotatable about the hinge section 112. Therefore, cooling can be performed by rotating as shown in FIG. 8, and heating can be performed by rotating as shown in FIG. 9, and of course the same effects as in the first embodiment can be achieved. It is easy to attach and detach during maintenance, etc., and work efficiency can be greatly improved.

FIG. 11 is a diagram showing a third embodiment of the present invention applied to a floor-standing device, and its operation and effects are the same as those of the first embodiment. In the figure, 1011' indicates an inlet, and 113 indicates a louver. This is an air heating/cooling device that is equipped with an air blower that generates ion wind in an air blower section.

Therefore, since the blowing device that does not produce noise functions as a fan, noise can be prevented, and since no space is required for the fan, the device can be made smaller and thinner.

[Brief explanation of the drawing]

1 and 2 are cross-sectional views of an air heating/cooling device showing a conventional example, and FIGS. 3 to 7 are views showing a first embodiment of the present invention. Cross-sectional views of the heating/cooling device, Figures 5 to 7 are detailed views of the blower device.
Figures 10 to 10 are diagrams showing the second embodiment, Figures 8 and 9 are cross-sectional views of the air heating/cooling device, Figure 10 is a detailed diagram of the blower, and Figure il1 is the third embodiment. FIG. 1 is a cross-sectional view of an example air heating/cooling device. 101...Outer casing, 102...Heat exchanger% ios・
... Viewing outlet, 104... Air blowing device. Applicant Sub-Agent 9F Buri Suzue TakehikotMJ 3 figures, 2 figures, 5 figures, 3 IPo figure, 3 Ip figure, 7 figures

Claims (1)

[Claims] An air heating/cooling device that heats or cools sucked air through a heat exchange section and blows it out, characterized in that the air heating/cooling device is equipped with an air blower n that generates an ion wind in a nitrogen suction section. Device.