JPS6080044A - Ventilating device - Google Patents

Abstract

PURPOSE:To obtain the ventilating device having small number of parts and small size and effecting total heat exchange with an inexpensive cost by employing a heat exchanging fan provided with blades of moisture absorbing material. CONSTITUTION:A heat exchanging fan is rotated when an electric source is thrown into a motor 16. According to the rotation of the fan, air in a room is sucked into the groove 13a of one side of the wavy blade 13 while the air of outdoor is sucked into the the groove 13b at the other side of the blade 13. In this case, both airs flow along both sides of the blade 13, therefore, heat is transferred from the air having higher temperature to the air having lower temperature. Further, the blade 13 is provided with the moisture absorbing property, therefore, the indoor air is dehumidified in case it is humidified upon room heating in winter to prevent drying of indoor, for example, and the moisture is delivered to the air having low humidity or the outdoor air, for example in this case, which flows along the opposite side of the blade 13.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF THE INVENTION The present invention relates to a ventilation system that performs total heat exchange between indoor dirty air exhausted to the outdoors and air taken in from the outdoors.

Conventional Structure and Problems In the winter heating situation in our country, an individual heating system is generally used in which combustion heating appliances such as kerosene stoves and gas stoves are installed and direct heating is performed. On the other hand, as residences become more airtight, the problem of indoor air pollution, which is undesirable for the living environment, such as an increase in oxygen-deficient carbon dioxide due to combustion, has come into focus. Near conditioners are also becoming more popular, and these air conditioning equipment are becoming more sophisticated, and ventilation is becoming recognized as an important element.

Therefore, in recent years, ventilation devices that perform heat exchange and humidity exchange, that is, total heat exchange, between indoor air to be exhausted and outdoor air to be taken in have been considered.

Hereinafter, the conventional ventilation system as described above will be explained with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a total heat exchanger, which is composed of a hygroscopic partition plate 2 and mountain-shaped spacer plates 3, 3, which are collected in alternating orthogonal directions. Reference numeral 4 indicates a first fan, and reference numeral 6 indicates a second fan, each of which takes in and blows indoor and outdoor air, and is driven by the motor 6. The arrow 7 shows the flow of indoor air, and the arrow 8 shows the flow of outdoor air.

The operation of the ventilation system configured as 31.2 or more will be explained below. When the operation starts, the motor 6 rotates, the fans 4 and 6 are driven, and indoor air and outdoor air 8 are sucked into the total heat exchanger 1. At this time, both airs pass between the mountain-shaped spacing plates 3.3 that are perpendicular to each other alternately, but due to the action of the partition plates 2, they do not mix. Thereupon, both air exchange heat through the partition plate 2. Since the partition plate 2 still has hygroscopicity, it absorbs moisture from the more humid air and transmits the humidity to the other air.

In this way, total heat exchange is performed. After the total heat exchange, the air 7 taken in from the room is blown outside, and the air 8 taken in from the outside is blown into the room.

However, the above-mentioned ventilation system requires a large and complex total heat exchanger 1, a motor 6, and two fans 4, 6, and has many components, making the entire system large and expensive. have. Furthermore, total heat exchanger 1
The ventilation passages are narrow and dust tends to accumulate, making them unreliable.

OBJECTS OF THE INVENTION In view of the above-mentioned drawbacks, the present invention provides a ventilation system that is compact, inexpensive, and highly reliable for total heat exchange.

Structure of the Invention In order to achieve this object, the ventilation device of the present invention is composed of an exhaust air path, an intake air path, and a heat exchange fan provided to airtightly separate the two paths. The blade has a wavy shape with grooves located in a radial pattern and is made of a hygroscopic material.

With this configuration, all heat exchange can be achieved with a single heat exchange fan, which reduces the size and cost of the device.In addition, the rotation of the heat exchange fan, that is, the total heat exchanger itself, prevents the adhesion of dust. This makes it possible to realize a highly reliable ventilation system that is unlikely to occur.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. In FIGS. 2 and 3, 9 is the inner casing of the chamber 6, 1o is the outdoor casing, and 11 is a partition plate. The indoor casing 9 and the partition plate 11 separate the exhaust air path from the outdoor casing 10. The plate 11 forms an intake air path B. Reference numeral 12 designates a heat exchange fan having wave-shaped blades 13 made of a hygroscopic material such as Japanese paper, and a groove portion 13a formed by the wave-shaped blades 13.

1sb is located approximately radially from the rotation center axis 14. 16 is a motor that drives the heat exchange fan 12. The heat exchange fan/12 itself hermetically separates the exhaust air path and the intake air path B. 16.1
7 is an intake port for indoor and outdoor air, respectively, 18 is an exhaust port that exhausts air taken from indoors to the outside, and 19 is an exhaust port for air taken from outdoors to a blank space.
is a main plate which has a boss and holds the blade 13 from the inner peripheral side, and the boss is attached to the rotating shaft 14 of the motor 16.

Reference numeral 21 denotes an outer circumferential plate that holds the blade 13 from the outer circumferential side, and the outer circumference of the outer circumferential plate faces the supporting plate 11, and a suitable seal is applied between them. The air taken in from the indoor and outdoor air flows through the grooves 13&, 13b formed by the wave-shaped blades 13, and does not mix with each other.

The operation of the ventilation system configured as described above will be explained below. 1. When the power is turned on, the motor 16
rotates the heat exchange fan. As a result, indoor air is drawn into the groove 131L on one side of the wave-shaped blade 13, and outdoor air is drawn into the groove 13b on the other side. At this time, both air flows through the blades 13 on both sides, and heat is transferred from the higher temperature air to the lower temperature air. However, since the blades 13 have hygroscopic properties, if the air is humid, for example when humidifying the room to prevent it from drying out during winter heating, the blades 13 will absorb moisture from the indoor air. It adds humidity to the less humid air flowing on the other side, in this case the outdoor air. This prevents indoor moisture from escaping outdoors.

In this way, by performing total heat exchange, the indoor air can always be kept under constant conditions, and the load on the air conditioner can be reduced.

As described above, according to this embodiment, by using a heat exchange fan having blades made of hygroscopic material, it is possible to provide a small-sized ventilation device that performs total heat exchange at low cost and with a small number of parts. Furthermore, since the air passage, that is, the groove of the heat exchange fan, rotates, dust tends to adhere to it.
＜It is highly reliable with little deterioration in total heat exchange performance.

In addition, if a heat exchange fan in which both air flows intersect on both sides of the blades 13 as shown in FIGS. 4 and 6 is used,
Similar effects can be achieved with a simpler structure for the exhaust and intake paths. The configuration consists of the heat exchange fan groove 13&,
Since this embodiment is the same as the previous embodiment except that the lines 13b intersect, the explanation will be omitted.

Effects of the Invention As described above, the present invention comprises an exhaust air passage, an intake air passage, and a heat exchange fan provided to airtightly separate the two classes, and the blades of the heat exchange fan are wave-shaped. This configuration makes it possible to create a ventilation system that is small, inexpensive, has a small number of parts, and performs highly reliable total heat exchange with less dust adhesion, and its effectiveness is outstanding. There is something.

[Brief explanation of the drawing]

Fig. 1 is a sectional view of a conventional ventilation system, Fig. 2 is a sectional view of a ventilation system according to an embodiment of the present invention, Fig. 3 is a perspective view of a heat exchange fan of the ventilation system, and Fig. 4 6 is a sectional view of a ventilation device according to another embodiment of the present invention, and FIG. 6 is a perspective view showing a heat exchange fan of the ventilation device. 9... Indoor casing, 1o... Outdoor casing, 11... Partition plate, 12...
・・・Heat exchange fan, 13...Blade, Mu・
...Exhaust air path, B...Intake air path. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
711 Figure 2 Figure 3 20 I3 娑1. j mountain 13-1 porridge 4 figure f

Claims (1)

[Claims] An exhaust air path that takes in indoor air and exhausts it outside, an intake air path that takes in outdoor air and takes air into the room, and a blade that is wave-shaped and made of a hygroscopic material with grooves located almost radially. a heat exchange fan having a heat exchange fan, the heat exchange fan airtightly separates the exhaust air path and the intake air path by itself, and allows total heat exchange between two types of air generated on both sides of the blades. .