JPS59170630A - Air conditioner - Google Patents

Abstract

PURPOSE:To improve the heat collecting efficiency of an air conditioner by a method wherein a coil heated by the solar heat as a heat source and a humidifier are connected in series with a total heat exchanger so that the open air is heated by the solar heat. CONSTITUTION:The open air enters a total heat exchanger 1 from an air duct 11, is heated as a result of its heat exchange with exhaust air flowing through an air duct 14 and enters a solar coil 2. At the same time, water heated by a solar heat collector 4 is stored in a heat storage tank 5 and is supplied to the solar coil 2 through a pipe (b) and to the solar humidifier 3 through a pipe (c) by the operation of a hot water circulation pump 7. Accordingly, the hot water from the total heat exchanger 1 is heated further by the solar coil 2, humidified by the humidifier 3 and supplied to an air handling unit 10 from which the hot water is distributed into a chamber 12 so as to serve for heating. On the other hand, in case where a cooling operation is performed, the hot water in the heat storage tank 5 is supplied to an absorbing type refrigerator 8 so as to make itself cold water which is then supplied to the solar coil 2 through a cold water circulation passage (f) so as to cool the open air 11. As a result, it is possible to improve the heat collecting efficiency of the air conditioner.

Description

[Detailed Description of the Invention] When considering energy saving during heating and cooling of buildings, by appropriately selecting architectural energy saving elements such as building orientation, insulation materials, window area, etc., it is possible to etc. are considerably reduced.

However, even if ηy input control is performed, the degree of reduction in outside air load is small, so the ratio of outside air load to heating and cooling load increases as architectural energy conservation progresses.

The present invention was proposed to solve these problems, and includes a total heat exchanger that exchanges heat between the outside air and the exhaust air from the indoor side, and a coil that uses solar heat as the heat source. The present invention relates to an air conditioner characterized in that a humidifier and a humidifier are connected in series.

Since the present invention is configured as described above, during heating, the temperature is increased by exchanging heat with the exhaust heat from the room (((1) by using the total heat exchanger that takes in outside air. Hot water that collects solar heat is supplied to the above-mentioned coil, which is tied to the middle of the column, and used as a heating coil. 1
# Humidify with solar heat sourced humidifiers connected in rows,
It is supplied to the inside of the room to heat the same room.

During cooling, cold water obtained using solar heat as a heat source is supplied to the coil, which is used as a cooling coil, and a total heat exchanger exchanges heat with exhaust heat from the indoor side to cool the intake outside air. The temperature is further lowered by the cooling coil and supplied to the inside of the room to cool the inside of the room.

In this way, in the present invention, low-temperature heat collection is possible by connecting solar heat source coils and heaters in series to a total heat exchanger and using solar heat for outside air processing.
This makes it possible to improve heat collection efficiency. As shown in (i17), the coil and heat exchanger are combined with the total heat exchanger, so
By using the same total heat exchanger, the outside air load 1 = 1 tc can be supplemented with solar heat, so the heat collecting part If can be made small. For use in cooling, one only needs to install an absorption refrigerator and a cooling tower.The present invention has many r++ points.

The present invention will be explained below with reference to the actual examples shown in the drawings.
Coil (using the No. 1 heat source connected to the U row as the heat source)
2) (It is called ``J lower solar coil'') Steep humidifier (
(hereinafter referred to as the solar ln1 humidifier).

(4) is a heat collector with thick + q heat, (5) is a heat storage tank with 1, +
The hot water is connected to the circulation pipe fal installed in the heat storage tank (6) and collected in the heat collector (4).
).

When the temperature of the hot water in the collector 7A (, 4) is lower than the temperature of the hot water in the high temperature tank (5), the pump (6) circulates the hot water (7 continuously collects the heat). 2, the W heat tank (5) and the solar coil (2) are connected to the hot water circulation pipe.
A Y1□^ water spray pipe (rA) leading to the solar humidifier (3) is connected to the heated heat storage tank (5).

Around the time rljl heat storage tank (38) and solar coil (2)
hot water circulation between the absorption chiller (8) and the absorption refrigerator (8
) is connected to the cooling tower (9) via a circulation passageway (e) interposed with an intervening circulation path (e).

Qn) is an air handling unit, which includes an outside air intake wind guide (marked) and a conditioned air supply wind guide (13 ) is connected.t(wind guide(11)
) is provided with a bypass (11') that bypasses the total heat exchanger (1), solar coil (2), and solar humidifier (3). Connected, done 4
[Ji
It is released. In the figure (1 and 4 are branched out from the air guide (14) and connected to the air vent 9 ring unit (10),
With the branched wind guidance)).

Other figures (Fl) (F2) (F3) are wind guide (11) I
i3) Blower installed in (14), (■), ) (VT
l12) (■3) (■)4) is 1 虱leading circle (il') u4
) (14'), each of the blowers and dampers as well as each of the pipes faifhHC1 (the pulp and pump installed in di are control box 05)
controlled by

In addition, Qhl in the figure is a prefilter.

Therefore, the outside air (e.g. 0℃) taken in through the wind conductor (04) is exhausted (24℃) through the total heat exchanger (1).
It exchanges heat with the solar coil (2
).

Then, the hot water (30℃) in the heat storage tank (5) is transferred to the solar coil (
2) The coil (2) is used as a heating coil, and the outside air (15°C) after passing through the coil (2) is further heated (25°C). The outside air after passing through the solar coil (2) is humidified by the solar humidifier (3), reaches the air handling unit (10), and is then sent to the room 02.

If the hot water in the heat storage tank is 40°C or higher, the load on the heating coil (I7) of the air handling unit is reduced to the solar coil (2) by heating the outside air to a blowout air condition (65°C) commensurate with the indoor heating load. It is also possible to save the load using the heat storage tank (5) during cooling.
The absorption chiller (8) uses cold water (9) as the heat source (around 5°C)
℃). The cooling water (67°G) of the refrigerator (8) is cooled by the cooling tower (9).

The cold water from the front penetration refrigerator (8) is passed through the cold water circulation pipe (5) 1
7 and supplies the solar coil (2) to the solar coil (2), which is used as a thick heating/cooling coil.

The outside air (60°C) taken in from the wind guide 01) is heat exchanged with the exhaust heat (26°C) from the factory O2 in the total heat exchanger (1) to lower the temperature (27°C), and then the solar coil ( 2) The temperature decreases (16°C) due to V, reaches the air ring unit GO), and is supplied to the room 02.

Note that (T1) indicates the temperature sensor of the outside air after passing through the total heat exchanger (1) 7 and (T2) indicates the temperature sensor of the heat storage tank (5).
, Part 1 indicates the water temperature sensor, (J゛3) indicates the indoor temperature sensor, and (T4) indicates the outside air temperature sensor, and when room 02) is being heated, (
(1) If the outside temperature (T4) is lower than the room temperature (T3),
Open VDI and close VD2 to allow outside air to pass through the device.

(T1) If the hot water temperature at the top of the heat storage tank (T2) is higher than the outside temperature (r, ) after the total heat exchanger is turned on, sem (7)
(iii) Negative dlr that cannot be covered by the total heat exchanger, solar coil, and solar humidifier is supplied by the air handling unit. (1) The load is reduced. If the room temperature (T3) exceeds the set temperature (24°C), stop the pump (power). The pump (7) is also stopped when T1 is lower than T1.

When the room 021 is being cooled (I) If the outside temperature (1゛4) is lower than the room temperature (T3), close VDI and open VD2 to bypass this device with outside air and perform outside air cooling.

If T4 is higher than T3, outside air is passed through the device.

(ii"lT is higher than T3 <Deer'r2 is 85°C
If there is more than one, operate the RL Senzo (force) to supply hot water to the absorption type cold oki machine (8), and supply the cold water produced here to the solar coil by pump P3, (iii) Kano Bimp (7). Cooling tower (9)
) Pump P4 operates.

A microcomputer built into the control box controls the valves, dampers, pumps, etc. on and off.

Although the present invention has been described above with reference to embodiments, the present invention is, of course, not limited to such embodiments (although various changes in design may be made without departing from the spirit of the present invention). ).

[Brief explanation of drawings]

The drawing is a circuit diagram of a heating and cooling system using an embodiment of the air conditioner according to the present invention. (1)...Total heat exchanger, (2)...Solar coil. (3) ...Solar humidifier procedural amendment April 25, 1980 Kazuo Wakasugi, Commissioner of the Patent Office1, Indication of the case 1978 Patent Application No. 420982 Title of the invention Air conditioner3 , Relationship with the case of the person making the amendment Patent Applicant Fujita Kogyo Co., Ltd. 4, Attorney 7 (
5]”. (Correct "Cold water circulation pipe (5)" on page 6, line 7 of 21 to "chilled water circulation pipe (fl)". Correct the drawing in the drawing as shown in the attached sheet.

Claims (1)

[Claims] 9 air conditioner characterized by connecting in series a total heat exchanger that performs heat exchange between 1ν outside air flowing into the room and exhaust air from the indoor side, a coil that uses solar heat as a heat source, and a humidifier. .