JPH07253220A - Heater regulator installed under window of building - Google Patents

Abstract

PURPOSE:To provide a regulating device for heating installed under a window of a building, which is capable of causing the temperature environment near the window to be almost constant, by introducing air, guided along a window glass, into a heating device as much as possible. CONSTITUTION:A case 7 is provided with a guide plate 13 for guiding air into an air suction port 9 in a heating device installed under a window of a building, in which a panel type heating device 6 equipped with the air suction port 9 and an air discharging port 10 is installed at the indoor side of a wall surface 4 supporting the lower end of a glass window 1, cold air guided downward is introduced from the air suction port 9 into the case 7 and the air is discharged into a room from the air discharging port 10 through an air passage 15 in the case 7 after effecting heat exchange between warm air in the case 7. On the other hand, the width of the air passage 15 in the case 7 is made narrower as it is nearer to the discharging port 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating adjusting device for a window portion of a building, and more particularly to a heating adjusting device for a window portion of a building which is suitable for heating a window portion of a skyscraper having many glass windows. Regarding

[0002]

2. Description of the Related Art Generally, in a high-rise building, it is required to set a temperature environment different from the outside air and to adjust the temperature of the whole room to a uniform temperature throughout the year by achieving high airtightness and high heat insulation. ing.

By the way, in the vicinity of the window glass of such a high-rise building, that is, in the so-called perimeter zone, the temperature of the room rapidly rises during the day due to the irradiation light from the sun.
Moreover, it is difficult to reach the air conditioning effect from the room. Therefore, independent natural convection, which is different from other places, occurs in this vicinity, and it is difficult to set the same temperature as other places in summer and winter.

That is, in such a perimeter zone, in winter, the temperature rises due to sunlight, while cold air is guided through the window to the floor. Therefore, a person near the window has a high sensible temperature of the upper body, but causes a problem that only the feet are cold. Therefore, conventionally, a panel-like heating device has been installed in such a perimeter zone, and this heating device heats cold air in the winter so that the cold air flowing near the feet approaches the indoor average temperature.

Such a heating device is generally provided with an air intake port at the upper part, introduces the cool air guided through the glass window into the heat generating part from this air intake port, and at the same time, warms the heat exchanged inside. Similarly, the air is discharged to the outside from the air outlet provided at the top.

[0006] Such a heating device is installed indoors in a state of being in contact with the wall surface.

[0007]

By the way, conventionally, even when such a panel-shaped heating device is installed near the window, all the cold air guided downward through the glass window is introduced into the heating device. However, some cold air will stop in the vicinity. Moreover, since the air heated by the direct sunlight is also mixed in the vicinity of the window, the temperature environment is not yet uniform.

In view of the above situation, the present invention can introduce the air guided downward through the glass window into the heating device as much as possible to bring the temperature environment near the window portion close to the average temperature in the room. It is an object to provide a heating control device in a window of a possible building.

[0009]

In the heating device for a building according to the present invention for achieving the above object, heat is generated on the indoor side of the wall surface supporting the lower end of the glass window arranged at the opening of the building. A panel-like heating device having a body and having an air intake port at least in the upper part of a substantially rectangular case and an air discharge port is mounted on another part, and cool air guided downward through the glass window is introduced. A window portion of a building adapted to be introduced into the case from an air intake port, and after having exchanged heat with warm air in the case, the air is discharged from the air exhaust port to the room through an air passage in the case. In the heating adjustment device in, the guide plate for guiding the air guided downward along the glass window into the air intake port is installed in the case, and is directed toward the air discharge port in the case. The air passage, closer to the air outlet, and characterized in that it is formed narrow width.

[0010]

According to the present invention having the above structure, the air guided downward through the window glass is positively guided by the guide plate so as to be introduced into the air intake port, so that a large amount of cold air flowing therethrough is introduced. The air can be warmed in the heating system. Further, the air that has been warmed and heat-exchanged in the heating device is guided through the narrowed air passage as it goes upward, and is discharged from the air discharge port, so that it is vigorously discharged from the air discharge port. Become. Therefore, it becomes possible to effectively release the warmed warm air to a room far away in the form of natural convection.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a heating adjusting device for a window portion of a building according to the present invention will be described below with reference to the drawings.

FIG. 1 shows the vicinity of a window portion of a building in which a heating adjusting device according to a first embodiment of the present invention is installed. An opening 1 is continuously formed in the lateral direction in the vicinity of, for example, the outer wall on the south side of the building, and a window glass 2 is disposed in the opening 1 while being supported by a frame 3 or the like.

A panel-shaped heating device 6 is installed in contact with the wall surface 4 on the room 5 side of the wall surface 4 supporting the frame 3. This heating device 6 is generally called a pelican heater, has a height substantially equal to that of the wall surface 4 near the window, and the heat generating portion 6a is formed in a substantially rectangular case 7.

The heating unit 6a of the heating device 6 may be of any type as long as it generates heat when energized, but it is already known in consideration of the uniformity of heat generation. The use of sheet heating elements is preferred.

As shown in FIG. 2, the sheet heating element has a structure in which lead wires 9 and 9 are embedded on both sides of a strip material 8 such as thermoplastic resin or rubber mixed with conductive fine particles such as carbon. have.

In this structure, the strip 8 acts as a heating resistor, and when a DC or AC voltage E is applied between the lead wires 9 as electrodes as shown in the drawing, the strip 8 is lead through the strip 8. An electric current flows between the wires 9 and 9 to heat the strip 8.

In this case, the amount of heat generation can be adjusted by adjusting the material and amount of the conductive fine particles mixed in the strip material 8, and the lead wires 9 and 9 can be provided over almost the entire length of the strip material 8. Since it is embedded all over, it is possible to generate heat almost uniformly over the entire surface of the strip material 8.

The case 7 is also provided with an air inlet 9 and an air outlet 10. Of these, at least the air intake port 9 is formed in the upper part of the case 7 facing the glass window 2.

A guide plate 11 having an L-shaped cross section is installed laterally on the upper portion of the wall that separates the air inlet 9 and the air outlet 10 of the case 7. This guide plate 11 is
This is for positively guiding the air flowing downward through the glass window 2 into the air intake port 9 as indicated by an arrow A ₁ , and extends above the air intake port 9 like a canopy.

On the other hand, an inclined plate 13 is installed between the heat generating portion 6a and the cover 12 arranged in front of the heat generating portion 6a. This inclined plate 13 is attached to the floor surface 1 as shown.
The upper end 13a is fixed in the vicinity of the air discharge port 10 and is inclined so as to approach the heat generating portion 6a as it goes upward from the lower portion close to 4. Therefore, due to the inclined plate 13, the air passage 15 formed on the right side of the heating portion 6a in the figure.
Is narrower toward the top.

The heating adjustment device for the window portion of the building according to this embodiment is formed as described above, and its operation will be described below. First, in winter, cold air drops down through the glass window 1, and this cold air is positively captured by the guide plate 11 as shown by arrow A ₁ . Therefore, most of the cold air flowing downward through the glass window 1 is introduced into the case 7 through the lower portion of the guide plate 11.

The cold air introduced into the case 7 is sequentially heat-exchanged with the air heated by the heat generating portion 6a in the energized state. Then, the heated introduction air passes through the lower end of the case 7 as shown by an arrow A ₂ and is introduced into the air passage 15 on the downstream side.

Here, since the introduced air flowing through the air passage 15 is almost warm and the heat exchange is further continued, the inside of the air passage 15 is positively raised. But,
Since the width of the air passage 15 becomes narrower toward the upper side, the flow velocity of the air flowing through the air passage 15 is gradually increased in the upper portion due to the Venturi effect.

Therefore, the air flowing in the vicinity of the air outlet 10 has a high flow velocity, so that the air is vigorously ejected from the air outlet 10 toward the inside of the chamber 5. According to the experiment, the air thus vigorously released was released inside the chamber 5 along a parabola as indicated by arrows A ₃ , A ₄ , and A ₅ .

Even if cold air still remains around the guide plate 11 due to the release of the warm air, the cold air can also be drawn into the warm air flow and guided to the inside of the chamber 5.

Moreover, since such an air flow is a natural convection, even a person near the window does not feel uncomfortable and does not generate noise. Furthermore, since it is discharged in a parabolic shape, it can be mixed with a sufficiently warm air flow inside the chamber. In addition, the heat generating portion 6 is also provided on the indoor side of the front cover 12.
Since the heat from a is radiated, cold air does not stay.

Therefore, by installing such a heating adjusting device near a window that is easily exposed to direct sunlight, it is possible to adjust the vicinity of the window portion to approximate the average temperature of the room.

Although the first embodiment of the present invention has been described above, the present invention is not limited to the above embodiment. For example, in the above embodiments, the planar heating element 8 is used as the heating element of the heating device 6, but the heating element may of course have another structure.

Further, a plurality of fins may be projected in the height direction on the surface of the inclined plate 13 facing the heat generating portion 6a. Then, an air guide passage is provided between the fins, so that the air from the lower side can be more positively guided to the upper side.

Further, in the above embodiment, the case where the heat generating portions 6a are accommodated in one row in the lateral direction in the case 7 has been described. However, as shown in FIG. 3, the heat generating portions 6a may be arranged in two rows. good.

In this case, a predetermined inclined plate 16 may be arranged between the heat generating parts 6a. The number of such inclined plates 16 may be one or two,
When the single inclined plate 16 is provided, the widths of the air passages 17 and 18 can be made narrower toward the upper side by, for example, making the upper and lower portions different in width.

As described above, in the heating adjustment device having the two heat generating portions 6a, 6a, the introduced air passing through the lower end of the case 7 has the air passage 17 side and the air passage 18 as shown by an arrow A _2. The heat rises 6a and 6a on both sides, and the temperature rises while being separated from each other.

Then, in the vicinity of the air outlet 10, 1
It joins the two streams and, as indicated by arrows A ₃ , A ₄ and A ₅ ,
Will be released inward. In the case of this embodiment as well, the warmed air is discharged into the chamber 5 in the form of natural convection. Therefore, the forced air flow is not generated, and the person does not feel uncomfortable.

[0034]

As described above, in the heating adjusting device for the window portion of the building according to the present invention, the cold air guided downward through the glass window is trapped by the guide plate to enter the case of the heating device. be introduced. Therefore, a large amount of cold air can be taken into the heating device without radiating cold air to the surroundings. Further, the air that is internally heated and heat-exchanged rises in the passage whose width becomes narrower as it goes upward, so that it is vigorously discharged from the discharge port into the room and can be mixed with the air in the room.

Moreover, since this air flow is natural convection, the air can be adjusted in a natural manner without causing a person to feel uncomfortable.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of a heating adjustment device for a window portion of a building of the present invention.

FIG. 2 is a cross-sectional view of a heating element used in the same example.

FIG. 3 is a sectional view of a heating adjusting device for a window portion of a building according to a second embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Opening 2 Glass window 4 Wall surface 5 Indoors 6 Heating device 6a Heating element 7 Case 9 Air intake port 10 Air exhaust port 11 Guide plate 15, 17, 18 Air passage

Claims (1)

[Claims] 1. A heating element is provided on an indoor side of a wall surface supporting a lower end of a glass window arranged in an opening of a building, an air inlet is provided at least in an upper portion of a substantially rectangular case, and air is exhausted to other portions. Place a panel-shaped heating device with an outlet,
Cold air guided downward through the glass window is introduced into the case from the air inlet, and the air after heat exchange with the warm air in the case is exhausted through the air passage in the case. In a heating adjustment device for a window portion of a building, which is designed to discharge from an outlet into a room, a guide plate for guiding air guided downward along the glass window into the air inlet is installed in the case. At the same time, an air passage toward the air outlet in the case is formed so that its width becomes narrower as it gets closer to the air outlet.