JPH03251621A - Air conditioner - Google Patents

Abstract

PURPOSE:To perform control of air and control of air quality and to enable execution of ventilation in which incurring of a heat loss is reduced by a method wherein a total heat exchanger to heat exchange between introduction air to a room and discharge air to an outdoor place for ventilation is mounted on an air conditioner with an air composition control function. CONSTITUTION:An air composition control part B detects O2 concentration in a room. When the O2 concentration is below a specified level, by running a blast fan 4, air is sucked through a suction port 103, an N2 component in suction air is removed by an N2 adsorber 3, and air having high O2 concentration is discharged through a discharge port 104. When O2 concentration exceeds a specified level, running of the blast fan 4 is stopped. Contaminated air on the indoor side is sucked in an air pump 6 and fed to a total heat exchanger 5, and clear air on the indoor side is sucked in the heat exchanger 5 with the aid of a pump 7. In this case, since there is a temperature difference between clean air on the indoor side and contaminated air from the indoor side, the heat exchange is executed between the clean air and the contaminated air, which are fed to an indoor place and an outdoor place, respectively. Since, as noted above, ventilation in which incurring of a heat loss is reduced can be executed, the load of an air conditioning control part is reduced.

Description

[Detailed description of the invention] Industrial applications The present invention is based on the composition ratio of the air in the room (oxygen (Os)).

This type of technology relates to an air conditioner that has the function of varying carbon dioxide (Cod, etc.) and the function of performing ventilation while mutually exchanging heat between the supply of outside air and the exhaust of indoor air. Air conditioners (i. Air conditioners equipped with air purifying functions to remove dust, smoke, odors, etc. from the air); Hana 1, % Problems to be solved by the invention The above-mentioned conventional air conditioners with an air composition control function! Friend exhausts indoor air to the outdoors Or ζ Friend Introduces outdoor air into the room, etc. It is necessary to take air in and out of ℃
In view of the above problem, the present invention had the problem of increasing the load on air conditioning equipment.In addition to controlling air conditioning such as temperature, storm, and humidity, and controlling air composition such as O2 and COe, the present invention uses a total heat exchanger to According to the present invention ζ, the purpose of the installation is to reduce the load on the air conditioner by ventilating the air in the room. It is an object of the present invention to reduce the size of an indoor unit and to improve the quietness of the indoor unit. In order to solve this problem, the present invention is an air conditioner equipped with an air composition control function. The present invention is characterized in that the air composition separation means and the total heat exchange means are provided on the indoor side. Furthermore, the present invention provides a method in which the total heat exchange means is provided on the indoor side, and a method in which the composition separation means is provided on the outdoor side. The function of the above means is as follows.The present invention provides an air conditioner with a variable air composition ratio control function equipped with a total heat exchanger, thereby providing a total heat exchanger between indoors and outdoors. In addition, the present invention provides an air composition separation means and a total heat exchange means on the indoor side.The installation work is simple. In the case where the residual heat exchange means is provided on the outdoor side, the air blowing means such as a pump of the residual heat exchange means is placed on the outdoor side, and noise can be reduced on the indoor side.

Furthermore, according to the aspect of the present invention, by providing the total heat exchange means on the indoor side, all the air blowing means can be brought out to the outside, and the noise inside the room can be further reduced. By providing the separation means and the residual heat exchange means on the outdoor side, it is possible to achieve low noise on the indoor side on the 4th floor and downsize the indoor unit (comparable to the conventional one). First, a first embodiment of the present invention will be described using an adsorption method with reference to FIGS. 1 and 2. In FIG.
l is the air conditioner main body. The A side is the air conditioning control unit for controlling indoor temperature, storm, humidity, etc., and the B side is the air composition control unit that changes the concentration of Os, Cot, etc. in the air, and the indoor This is a residual heat exchange section that mutually exchanges heat between the exhaust air from the room and the air introduced from outside, and has an inlet 101, 103 and an outlet 102, 104, respectively. Fan etc. (not shown)
Figure 2 shows a cross-sectional view of the air composition control section and total heat exchange section.

In the figure, B is an air composition control section, and C is a total heat exchange section.
The air conditioner is equipped with a blower fan 4, a total heat exchanger 5, and a pump 6. , the air composition control section B will be explained. Indoor O2
When the air composition control unit B operates the air blower fan 4, the suction port 1
Air is sucked in from 03, the N2 component in the sucked air is removed by the N2 adsorbent 3, and air with a high O2 concentration is blown out from the outlet 104. However, when the O2 concentration rises above a certain level, the blower fan 4
Next, I will explain about the residual heat exchange section C, but the dirty air inside the room is sucked in by the pump 6.
Even if the clean air from the outdoor side is sucked into the total heat exchanger 5 by the pump 7, there is a temperature difference between the clean air from the outdoor side and the dirty air from the indoor side. They exchange heat with each other and send it to the room and outside. 4ζ For air conditioning control By adding O2 concentration control and total heat exchange function, it is possible to adjust the O2 concentration according to the state of the human body. The second implementation of the present invention is shown in FIG. 3 using a functional membrane. First, we will explain the air composition control section B. In the figure, 8 indicates an air separator, and the air separator 8 is held by a mesh-like holder 9 between the high-pressure side space a and the low-pressure side space. A functional membrane 10 is attached to the high pressure side of the holder 9 to facilitate the permeation of 02.
a, unpermeated outlet 8 b, permeated outlet 8 c,
An outside air population 8d is provided, and the permeation outlet 8c is connected to the air outlet 104 via the pump 11. is a pump, and is connected to the unpermeated outlet 8b of the air separator 8 and the indoor air outlet 5a of the total heat exchanger 5, and the outdoor air outlet 5c and indoor air outlet 5b of the total heat exchanger 5 are connected to holes in the wall. Although the outdoor air outlet 5d is connected to the outdoor air outlet 8d of the air separator 8, the operation of the second embodiment configured as described above will be explained. Detects O2 concentration and if it is below a certain level! When the pump 11 is operated, the outside air population 8d of the air separator 8 has a narrow flow path and a large resistance, so a pressure difference occurs between the electric spaces a and b. Air from the indoor side is sucked in from the inlet 8a, passes through the functional membrane 10, passes into the low-pressure side space, passes through the permeation outlet 8c and the pump 11, is blown out from the air outlet 104, and passes through the functional membrane 10. Difficult N! The air is sent to the total heat exchanger 5 via the unpermeated outlet 8b and the pump 6, where it exchanges heat with the incoming air from the outdoor side and is exhausted outdoors. Even though the O2 flows into the low pressure side of the separator 8 and is blown out from the outlet 104 through the pump 11, the operation is stopped when the O2 concentration exceeds a certain level. Therefore, the oxygen concentration can be varied while ventilating the room. Also air composition control section B and total heat exchange section C
A third embodiment of the present invention will be explained with reference to FIG. 4, but the structure and operation are the same as the previous embodiment. As shown in Figure 4, where the same reference numerals are given and explanations are omitted, the air composition control section B is provided indoors and the total heat exchange section C is provided outdoors.Pump 6 can be installed outdoors. According to FIG. 5, the fourth aspect of the present invention
Here, we will explain the same embodiment as in the previous embodiment by adding ζ- symbol and omitting the explanation. This embodiment is the same as the previous embodiment except that the residual heat exchange section C is provided on the indoor side.
The number of pumps (or fans) that can be installed outside the room makes it possible to further reduce the noise inside the room.The fifth embodiment of the present invention will now be explained with reference to FIG. Regarding ζ, it is the same as the second embodiment except that the air composition control section B and the total heat exchange section C are provided on the outdoor side. By installing something other than the air conditioning control part A in the
In the above first embodiment, it is possible to downsize the indoor unit. In the above first embodiment, it is also possible to use an adsorption system, a functional system, or other separation systems.Also, as an alternative to pumps 6 and 11, , a high static pressure fan may be used. The above embodiments are based on the force described for controlling the O2 concentration (COa
Effects of the Invention As is clear from the above embodiments, the present invention provides an air conditioner with an air separator for varying the composition of the air. In addition, the total heat exchanger allows ventilation with less heat loss.In addition, the present invention ζ has an air composition separation means and a total heat exchange means on the indoor side, so installation work is easy. Summary of the Invention The present invention also provides a structure in which the residual heat exchange means is provided outside the room.The pump of the total heat exchange means can be installed outside the room. By providing the residual heat exchange means on the indoor side, all of the air blowing means such as a pump can be brought out to the outdoor side, and the noise on the indoor side can be further reduced. By installing it outside the room, it is possible to reduce noise inside the room and downsize the indoor unit.

[Brief explanation of drawings]

Figures 1 (a) and (b) are front and side views of an air conditioner showing the first embodiment of the present invention; Figure 2 is a cross section of the air conditioner; Figures 3 to 6 are respectively 101 is a sectional view of an air conditioner showing second to fifth embodiments of the present invention. ．． 103...Suction port 102.104...Blowout U: 1.3...N
2 Adsorbent, 10...Functional wind (a-2 (b) Figure 2 Figure 4 Wall

Claims (5)

[Claims] (1) An air conditioner equipped with air conditioning means for heating and cooling, air composition separation means for separating oxygen, nitrogen, etc. from the air, and total heat exchange means for indoor ventilation. (2) The air conditioner according to claim 1, wherein the air composition separation means and the total heat exchange means are provided on the indoor side of the air conditioner constituted by an indoor unit and an outdoor unit. (3) The air conditioner according to claim 1, wherein the air composition separation means is provided on the indoor side of the air conditioner composed of an indoor unit and an outdoor unit, and the total heat exchange means is provided on the outdoor side. (4) The air conditioner according to claim 1, wherein the total heat exchange means is provided on the indoor side of the air conditioner composed of an indoor unit and an outdoor unit, and the air composition separation means is provided on the outdoor side. (5) The air conditioner according to claim 1, wherein the air composition separation means and the total heat exchange means are provided on the outdoor side of the air conditioner constituted by an indoor unit and an outdoor unit.