JPS6073244A - Blind type room heating energy saving device utilizing solar heat - Google Patents

Abstract

PURPOSE:To obtain a blind type room heating device utilizing solar heat capable of being used semi-permanently with a comparatively simple mechanism without spoiling the function of a window by a method wherein pipes, into which heat medium is sealed, are connected in the shape of a blind to make a heat accumulating body, being movable between a glass window and a heat dissipating chamber. CONSTITUTION:A heat collecting chamber 5 is formed by double window glasses 2, 2, a frieze 3 and a wainscot wall 4 while the heat accumulating body 9, in which the pipes 7, into which the heat medium 6 such as calcium chloride is sealed, are connected by connecting wires 8 in the shape of blind, are hung from the upper part thereof. By rotating a handle 16 for a winding device 15, wires 10 are wound, the heat accumulating body 9 is taken down into the heat dissipating chamber 12 and is accommodated onto a guide plate 18 under being piled sequentially. When the accommodation is finished, a lid plate 19, fixed to the upper part of the connecting wires 8 of the pipes 7, is seated on the outlet and inlet port 17 to prevent the dissipation of heat upwardly from the heat dissipation chamber 12. The heat dissipating chamber 12 is provided with louvers 20 at the upper and lower parts of the front surface and a fan 21 is provided in the chamber. When the sun is shining, the heat accumulating body 9 is moved into the heat collecting chamber 5 to receive sun beams.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a device that stores solar heat in a heat medium and radiates it at night to use it for heating energy.

Conventionally, in order to utilize solar heat, water was used as a means of storing the radiant heat, and a heat absorbing body made of synthetic resin, stainless steel, etc. was housed in a glass box and a heat collecting device was installed on the roof. ji7f L, stores hot water in a tank and supplies hot water,
It is known that there are those used for heating, those that use air as a medium and crushed stone as a heat collector, and those that use solar cells to store 11C and use them for heating. Items that use water require equipment such as heating, water distribution, heating tank equipment, etc., and the equipment is expensive and corrosion-resistant.
There are problems with durability, and those that use air require a large capacity of crushed stone and a large fan, making the equipment large-scale and expensive, and requiring a large installation space. , has the disadvantage that the equipment is expensive and requires a large installation space.

This invention solves the above-mentioned drawbacks by moving a heat storage body in which a heat medium is sealed between a heat collection chamber constituted by a glass window and a heat radiation chamber in the room and connected in a blind-like manner. The object of the present invention is to provide a blind-type heating energy saving device using solar heat that can be used semi-permanently with a relatively simple mechanism without impairing the function of the device.

The configuration of the present invention required for this purpose is a solar heat utilization blind in which a thermal medium sealed with a heat medium is connected in a blind shape, and a heat storage body is movable between the glass window frame and the heat dissipation chamber. It consists of a wall heating energy saving device.

Embodiments of the present invention will be described below based on the drawings.

Figure 1 shows the first embodiment, where (1) is a window with double glass windows (2), (2), a small wall (3) and a waist wall (4).
) and a heat collection chamber (5) is completely formed, and a pipe 0 is filled with a heat medium (6) such as calcium chloride, calcium carbonate, and water.
A heat storage body (9), in which the heat storage bodies (7) are connected in a blind manner at intervals with connection lines (8), is suspended from above the heat collection chamber (5), and its upper end is connected to the wire 00). In Figure 2, the left side of the heat storage body (9) passes through the pulley (nb) through the pulley (lla), and the right side passes through the pulley (Ilc) and the pulley (llb) to the heat radiation chamber (12). Upper plate (
The winding device 71?(15) ItC is wound through the Boo 'J-(+4+) attached to the bottom surface of the winding device (13), and by rotating the handle (lli) of the winding device (15), the wire ( 10) Rolling bag '1F-J, f
15), and the heat storage body (
9) is from the entrance 07) of the heat radiation chamber (12) to the heat radiation chamber 02)
They are suspended from the inside and stored in a stacked manner on a guide plate (18) one after another. After storing the pipe (7), connect the pipe (7) with the connection line (8).
) The cover plate (19) fixed to the top of the D (+7)
Sit on J- and seal the entrance/exit ((7)) and close the heat radiation chamber (12).
This prevents heat from dissipating upwards. Heat radiation chamber 0
2) A fan (21) is installed in the lower part of the front panel (20).

To use this heating energy saving device, the heat storage body (9) is moved into the heat collection chamber (5) during solar radiation.
) to receive sunlight. At this time, the /'ves (7) of the heat storage body (9) are connected like a blind with a connecting line (8) at intervals, so it is possible to let light into the room through the gaps, and the window functions as a daylight. can store heat while retaining When the solar radiation disappears, the handle 06) is rotated twice and the wire (10) is wound up on the winding device (19) to move the heat storage body (9) in and out of the heat radiating chamber (12) along the guide plate (18). ), but at that time, the connection line (8
) covers the entrance/exit (+7), thereby preventing warm air from escaping in either direction from the heat radiation chamber θ2). In this state, only a small amount of heat is radiated from the heat storage body (9), but if necessary, the fan (
21) is rotated, cold air is introduced from the upper opening (20), and warm air that has absorbed heat from the heat storage element (9) is released from the front of the lower opening (2(1)), which is the heat dissipation port, and is discharged indoors. will be heated.In addition, will a heat radiation room be installed?
The location is not limited to the one shown in the figure, but may be in the small wall (3) above the window, under the floor (double floor), or in the ceiling. Furthermore, if a latent heat substance such as calcium chloride or calcium carbonate is used instead of water as a heat medium, solidification heat is generated during heat radiation, so the capacity of the heat medium can be reduced.

The experimental results for the above example are as follows.

In other words, using a heat storage device made of polyethylene with a diameter of 70 mm and a length of 150 cm and containing calcium chloride, the amount of solar radiation and heat storage m during clear weather in winter are cumulative as shown in Figure 3. The amount of solar radiation is 25 kilocalories, and the cumulative amount of heat storage is 12 kilocalories. When we dissipated heat in this state, we were able to raise the temperature of a 325°C room to an average of 34°C over a 12-hour period from 5pm to 511pm the next morning, saving heating energy compared to a system that does not use a heat storage element. It was sufficiently effective.

[In the example No. 111, free (lla),
(11b).

(llc,) and the heat storage body (9) using the winding device (15).
was designed to be stored in the heat dissipation chamber (+2) K, but the heat storage body (9
) is raised and lowered as shown in Figures 4 and 5.
It may be done as in the embodiment. That is, the upper end of the connecting wire (8) of the heat storage body (9) is wound around the winding wheel (22), which has a diameter between the small walls (3), and the winding wheel (22) is wound around the shaft of the winding wheel (22). Connect the motor (23) to the support frame (24) of the winding wheel (22).
Install the Mitsutswitch (c) on the cover plate a! ]), and the shaft of the winding head (22) is extended so as to simultaneously drive the winding rl'If22) provided at the other end.

K uses this, by turning on the motor (23), the winding wheel (22) is rotated in the loosening direction, the heat storage body (9) is suspended, the heat storage body (9) is stored in the heat dissipation chamber, and the reversing switch is turned on. When the heat storage element (9) is pulled up and the lid (9) is turned into contact with the switch (25), the motor (23) stops rotating and the winding tube (22) also stops, so all you have to do is operate the switch. Part 1 [,〒Can be used.

Figures 6 and 7 show the third embodiment, which differs from the first and second embodiments in that the heat storage element (9) is moved to the front and back of the double-glazed window instead of being moved in the same direction. , small wall (
3) A roller box (26) is embedded in the lower edge, and the roller is connected to the nox (26) with a shaft (27).
The roller box (26) is fitted with rollers (28).
) The rail (29) on the lower edge of the soil can be moved back and forth. The upper end of the connection line (8) of the heat storage body (9) is attached to the shaft (27) of the roller (2).

K for moving the heat storage body (9) indoors is a double-glazed window (
Open the indoor glass doors (2a) and (2b) in 2) to open the heat collection chamber (5), and then pull them toward the room by hand to see the rails (30) of the glass doors (2a) and (zb).
Since there is a K-J notch (31), it can be easily moved as shown by the chain line in FIG. To move it to the heat collection room (5), push the heat storage body (9) in the opposite direction to move it, and then close the glass doors (2a) and (2b).

Since the present invention has the above-mentioned configuration, the mechanism is simple and the cost is low because it is only necessary to move the heat storage body in which the RIT FL heat medium is sealed and the ξIN0 connected in a blind shape is moved from the glass window. It is highly durable and can be used semi-permanently for one person, and since it is shaped like a blind, it allows light to come in without blocking the window even when in use, so it does not impair the window's lighting function and can be installed in a window. When stored, they can be stacked and folded, so they are compact and convenient, and do not take up much space, making them an excellent heating energy saving device.

[Brief explanation of drawings]

Fig. 1 and Fig. 2 show the first embodiment, Fig. 1 is a cutaway side view, Fig. 2 is a partially cutaway city view, Fig. 3 is a graph showing the entire relationship between solar radiation and heat storage Dk, 4 and 5 show the second embodiment, and FIG. 4 is similar to FIG. 5 IV-IV.
Figure 5 shows the l;'J section at line 1 and Figure 4 ■-■
6 and 7 show the third embodiment.
Cross-sectional side view, Figure 7 is a clear front view 1 taken along the line ■-■ in Figure 6.
It is a diagram. (2)...Double glass window, (6)...Heating medium, (7)...
・ξ Ino 0, (9) ・Heat storage body, (1 Ku heat radiation chamber, (20
)... Garari, (2++ fan, (2G) - roller box, (28) roller, (29) ~ rail. Fig. 2 V "" Fig. 4 "■" Fig. 6 VI Fig. 7

Claims (1)

[Claims] 1. A heat storage body (9) containing a heat medium (6) (swords connected like a blind) is connected to a glass window (2) and a heat radiation chamber (1).
2) A blind-type heating energy saving device using solar heat that can be moved freely between. 2. The solar heating blind type heating energy saving device according to claim 1, wherein a fan (2) is provided in the heat radiation chamber (2) to radiate heat. 3 Vibrator 0 (with heat storage body (9) enclosing heat medium (6)
7) Special ij'l' which has a lighting interval between
A solar heat blind type 1 heating energy saving device according to claim 1. 4. A blind type heating energy saving device using field heat according to claim 1, wherein the heat medium (6) is a latent heat substance such as calcium chloride. 5 Claim 1 in which the heat storage body (9) is moved between the double-glazed windows (21, (2+) and the indoor side of the window)
The solar heat-utilizing blind type heating energy saving device described in Section 1. 6. The solar heat grinding type heating energy saving device according to claim 5, wherein the heat storage body (9) is mounted on a roller (28) that straddles a rail (29) in a roller box (26i).