JP2021188796A - Air conditioning system and method for using air conditioning system - Google Patents

Abstract

To provide an air conditioning system that can expand an area where a user can feel a sense of coolness, and to provide a method for using an air conditioning system.SOLUTION: An air conditioning system 1 includes: an air conditioner 2 configured to generate cool air; one or more induction fans 3 configured to blow the cool air from the air conditioner into an indoor space; and one or more connection ducts 4 for connecting an air outlet of the air conditioner to each of the suction ports of the one or more induction fans.SELECTED DRAWING: Figure 1

Description

The present invention relates to an air conditioning system and a method of using the air conditioning system.

Conventionally, there is an air conditioning system in which cold air from an air conditioner is blown out from the tip of a duct connected to the air conditioner (for example, Patent Document 1).

Patent No. 5368905

However, the conventional air conditioning system has a drawback that a cool feeling can be obtained only near the tip of the duct.

It is an object of the present invention to provide an air conditioning system and a method of using the air conditioning system, which can expand the area where a cool feeling can be obtained.

The air conditioning system of the present invention
With an air conditioner configured to generate cold air,
One or more attracting fans configured to blow cold air from the air conditioner into the indoor space.
One or more connection ducts connecting each of the air outlet of the air conditioner and the suction port of the one or more attraction fans.
It is equipped with.

In the air conditioning system of the present invention,
An air intake duct with one end connected to the connection duct and the other end open,
An air intake damper arranged in the air intake duct,
It is preferable that the above is further provided.

In the air conditioning system of the present invention
The other end of the air intake duct may be arranged in the indoor space.

In the air conditioning system of the present invention
The other end of the air intake duct may be arranged outdoors.

In the air conditioning system of the present invention
The total maximum suction air volume of the one or more attractive fans may be larger than the maximum processing air volume of the air conditioner.

In the air conditioning system of the present invention
A damper for adjusting the air conditioning air volume, which is arranged in the connection duct, is further provided.
It is preferable that one end of the air intake duct is connected to a portion of the connection duct between the air conditioning air volume adjusting damper and the suction port of the attraction fan.

In the air conditioning system of the present invention,
A temperature sensor capable of measuring the temperature of a predetermined place in the indoor space, and
Control unit and
Further prepare
The control unit
When the temperature measured by the temperature sensor is equal to or higher than the first temperature, the air conditioner is turned on, the air conditioning air volume adjusting damper is opened, the attraction fan is turned on, and the air is taken in. Open the damper for
When the temperature measured by the temperature sensor is equal to or higher than the second temperature lower than the first temperature and lower than the first temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, and the air conditioning air volume adjusting damper is closed. The attraction fan is turned on, and the air intake damper is opened.
When the temperature measured by the temperature sensor is lower than the second temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, the attraction fan is turned off, and the air is turned off. The intake damper may be closed.

The method of using the first air conditioning system of the present invention is as follows.
How to use the air conditioning system to use the above air conditioning system,
The air conditioner is turned on, the air conditioning air volume adjusting damper is opened, the attraction fan is turned on, and the air intake damper is opened.

The method of using the second air conditioning system of the present invention is as follows.
How to use the air conditioning system to use the above air conditioning system,
The air conditioner is turned off, the air conditioning air volume adjusting damper is closed, the attraction fan is turned on, and the air intake damper is opened.

The method of using the third air conditioning system of the present invention is as follows.
How to use the air conditioning system to use the above air conditioning system,
When the temperature of the predetermined place in the indoor space is equal to or higher than the first temperature, the air conditioner is turned on, the air conditioning air volume adjusting damper is opened, the attraction fan is turned on, and the air is turned on. Open the intake damper and open it.
When the temperature at the predetermined location is equal to or higher than the second temperature lower than the first temperature and lower than the first temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, and the attraction fan is closed. Is turned on, and the air intake damper is opened.
When the temperature at the predetermined place is lower than the second temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, the attraction fan is turned off, and the air intake damper is turned off. To be closed.

According to the present invention, it is possible to provide an air-conditioning system and a method of using the air-conditioning system, which can expand the area where a cool feeling can be obtained.

It is a side view which shows schematically the air-conditioning system which concerns on 1st Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system of FIG. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 2nd Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 3rd Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 4th Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 5th Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 6th Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 7th Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 8th Embodiment of this invention. It is a top view which shows schematically the air-conditioning system which concerns on 9th Embodiment of this invention. It is a side view which shows schematically the air-conditioning system which concerns on 10th Embodiment of this invention. It is explanatory drawing for demonstrating an example of the cooling blast operation which can be performed by the method of using the air conditioning system which concerns on an arbitrary Embodiment of this invention. It is explanatory drawing for demonstrating another example of a cooling blast operation which can be performed by the method of using the air conditioning system which concerns on an arbitrary embodiment of this invention. It is explanatory drawing for demonstrating an example of the blast operation which can be performed by the method of using the air conditioning system which concerns on an arbitrary Embodiment of this invention. It is explanatory drawing for demonstrating an example of the partial centralized operation which can be performed by the method of using the air conditioning system which concerns on an arbitrary Embodiment of this invention. It is a schematic diagram which shows schematically the air-conditioning system which concerns on 11th Embodiment of this invention.

The air-conditioning system of the present invention and the method of using the air-conditioning system of the present invention can be used to locally cool an arbitrary indoor space, for example, locally cool the indoor space of a work facility such as a factory. It is particularly suitably available for this purpose.
Hereinafter, embodiments of the air conditioning system and the method of using the air conditioning system according to the present invention will be illustrated and described with reference to the drawings.
The components common to each figure are designated by the same reference numerals.

[Air conditioning system]
The configurations of various embodiments of the air conditioning system of the present invention will be described in parallel with reference to FIGS. 1 to 11. 1 and 2 are drawings for explaining the air conditioning system according to the first embodiment of the present invention. 3 to 11 are drawings for explaining the air conditioning system according to the second embodiment to the tenth embodiment of the present invention, respectively. The air conditioning system 1 according to each of these embodiments can be used for locally cooling an arbitrary indoor space S, but is particularly suitable for locally cooling the inside of an indoor space S of a work facility such as a factory, for example. It can be used for.
Hereinafter, the “indoor space S” refers to a series of indoor spaces that are not subdivided by walls.
As shown in FIGS. 1 to 11, the air conditioning system 1 according to each embodiment of the present invention includes an air conditioner 2, one or more attraction fans 3, and one or more connection ducts 4. ing.

The air conditioner 2 is configured to generate cold air.
The air conditioner 2 is, for example, an indoor unit in an air conditioner including an indoor unit and an outdoor unit separated from each other. In that case, the outdoor unit of the air conditioner is arranged outdoors. Alternatively, the air conditioner 2 is an air conditioner including an indoor unit and an outdoor unit that are integrally configured with each other. Alternatively, the air conditioner 2 may be a cold air generator that cools well water, river water, or the like.
The air conditioner 2 has one or more outlets 22 configured to blow out cold air.
In each of the embodiments of FIGS. 1 to 4, 7, and 10 to 11, the air conditioner 2 has one air outlet 22. In each of the embodiments of FIGS. 5 to 6 and 8 to 9, the air conditioner 2 has two outlets 22.
The air conditioner 2 may be placed on the floor or may be installed on a wall or ceiling.

The attraction fan 3 is configured to blow cold air from the air conditioner 2 into the indoor space S. The attraction fan 3 is configured to locally blow air to a part of the area in the indoor space S. In FIGS. 1, 10, and 11, the indoor space S is not shown. The attraction fan 3 has a suction port 31 and an outlet 32. The attraction fan 3 is configured to suck in the cold air from the air conditioner 2 from the suction port 31 and blow it out from the outlet 32 at high speed. The attraction fan 3 is arranged in the indoor space S. As a result, the cold air blown out from the outlet 32 of the attraction fan 3 is blown into the indoor space S.
For reference, FIGS. 2 to 9 show an air flow W blown out from the attraction fan 3 and an area A where a cool feeling is obtained by the air flow W. It is preferable that the area A where the cool feeling is obtained is set to include, for example, a position where the person P works in the indoor space S of a work facility such as a factory.
In each of the embodiments of FIGS. 1 to 2 and 10 to 11, the air conditioning system 1 has one attraction fan 3. In each of the embodiments of FIGS. 3 to 9, the air conditioning system 1 has a plurality of attraction fans 3. When the air conditioning system 1 has a plurality of attraction fans 3, the total area of the area A where a cool feeling can be obtained can be expanded without increasing the capacity and the number of the air conditioners 2.
As shown in FIG. 2, the attraction fan 3 is suitable because it does not get in the way when it is arranged above the person P (ceiling side). In this case, it is preferable that the attraction fan 3 has the outlet 32 facing diagonally downward toward the person P, as shown in FIG.

The one or more connection ducts 4 are configured to connect the outlet 22 of the air conditioner 2 and each of the suction ports 31 of the one or more attraction fans 3. That is, the air outlet 22 of the air conditioner 2 and the suction port 31 of one or more attraction fans 3 are directly connected to each other by a duct, and by extension, all of the cold air blown from the air outlet 22 of the air conditioner 2 is exhausted. It is adapted to enter the suction port 31 of one or more attraction fans 3.
One connecting duct 4 may be composed of one integrated duct, or may be formed by connecting a plurality of separate ducts to each other.
As shown in FIG. 2, the connection duct 4 is suitable because it does not get in the way when it is arranged above (ceiling side) the person P.

As described above, the air conditioning system 1 is configured to locally cool a part of the area in the indoor space S, instead of cooling the entire indoor space S. As a result, the required capacity and number of air conditioners 2 can be reduced as compared with the case where the entire indoor space S is cooled to the same extent while sufficiently cooling the area requiring cooling, so that the initial cost and the initial cost can be reduced. The running cost can be reduced.

According to the air conditioning system 1 of each embodiment of the present invention, in addition to the air conditioner 2, one or a plurality of attraction fans 3 connected to the air conditioner 2 via the connection duct 4 are provided, so that the air conditioner 2 is provided. The cold air from the air conditioner 2 can be blown farther from the tip of the connection duct 4 by blowing air (and thus the wind speed) by the attraction fan 3 without the need to increase the capacity and the number of units. Area A can be expanded. Further, since the area A where a cool feeling can be obtained can be expanded, the tip of the connecting duct 4 can be arranged farther from the area requiring cooling, and the length of the connecting duct 4 can be shortened. Therefore, the space in the indoor space S can be effectively used, for example, the working range of the overhead mobile crane can be expanded accordingly. Further, the person P in the area A where the cool feeling can be obtained can obtain the cool feeling not only by the cooling effect by the cold air adjusted by the air conditioner 2 but also by the cooling effect by the air blowing (and by extension, the wind speed) by the attract fan 3. You can get a cool feeling more effectively.
Further, according to the air conditioning system 1 of each embodiment of the present invention, the air outlet 22 of the air conditioner 2 and each of the suction ports 31 of one or a plurality of attraction fans 3 are connected by one or a plurality of connection ducts. As a result, all of the cold air blown from the air outlet 22 of the air conditioner 2 is made to enter the suction port 31 of one or a plurality of attraction fans 3. Thereby, the cold air from the air conditioner 2 can be fully used for cooling the area requiring cooling.

The air conditioner 2 may be arranged indoors, particularly in the indoor space S, as in each of the embodiments of FIGS. 1 to 5 and 8. When the air conditioner 2 is arranged indoors, particularly in the indoor space S, the air conditioner 2 is, for example, a method of sucking and cooling indoor air (particularly in the indoor space S) or ducting outdoor air. A method of sucking and cooling via the above can be adopted. When the air conditioner 2 is arranged indoors, particularly in the indoor space S, since the air conditioner 2 is located close to the person in the indoor space S, the operation and maintenance of the air conditioner 2 becomes easy. When the air conditioner 2 is arranged indoors, particularly in the indoor space S, it is preferable that the air conditioner 2 is an indoor unit in an air conditioner including an indoor unit and an outdoor unit separated from each other. This is because if the air conditioner 2 is an air conditioner including an indoor unit and an outdoor unit that are integrally configured with each other, heat from the outdoor unit is discharged indoors, particularly in the indoor space S. ..
Alternatively, the air conditioner 2 may be arranged outdoors as in each embodiment of FIGS. 4 and 6 to 7. When the air conditioner 2 is arranged outdoors, the space in the indoor space S can be saved by that amount, and the space in the indoor space S can be effectively used. Further, since the air conditioner 2 sucks in fresh outdoor air to adjust the temperature, the temperature-controlled fresh air can be taken into the indoor space S, and by extension, the degree of pollution of the air discharged from the attraction fan 3 is high. Can be reduced.

As in the embodiment of FIG. 1, it is preferable that the connection duct 4 has a flexible portion 42 configured to be flexibly bent in a part or a whole thereof. In the embodiment of FIG. 1, the connection duct 4 has a flexible portion 42 in a part of the tip side (downstream side) thereof. Since the connection duct 4 has the flexible portion 42, the flexible portion 42 of the connection duct 4 can be bent when the air conditioning system 1 is arranged or used, so that the direction of the attraction fan 3 can be easily changed to any direction up, down, left or right. It will be possible to adjust to.

As in each embodiment of FIGS. 1 to 2, FIGS. 5 to 6, and 8 to 11, one connection duct 4 has one outlet 22 of the air conditioner 2 and one suction port of the attraction fan 3. It may be configured to connect with 31. In this case, the upstream end of the connection duct 4 is connected to the air outlet 22 of the air conditioner 2, and the downstream end is connected to the suction port 31 of the attraction fan 3. In each of the embodiments of FIGS. 1 to 2 and 10 to 11, the air conditioning system 1 includes only one connecting duct 4. In each of the embodiments of FIGS. 5 to 6 and 8 to 9, the air conditioning system 1 includes a plurality of connection ducts 4.
Further, as in each embodiment of FIGS. 3 to 4 and 7, one connection duct 4 connects one outlet 22 of the air conditioner 2 and the suction port 31 of the plurality of attraction fans 3. It may be configured. In this case, the connection duct 4 has one or more branch points 41, and the end upstream of the one or more branch points 41 is connected to the air outlet 22 of the air conditioner 2. The ends downstream of the one or more branch points 41 are connected to the suction ports 31 of the separate attraction fans 3. In each of the embodiments of FIGS. 3 to 4 and 7, the air conditioning system 1 includes only one connecting duct 4. However, the air conditioning system 1 may include a plurality of connection ducts 4 configured to connect one outlet 22 of the air conditioner 2 and the suction ports 31 of the plurality of attraction fans 3.
When the air conditioning system 1 includes a plurality of connection ducts 4 and each connection duct 4 is connected to a suction port 31 of a separate attraction fan 3 (FIGS. 5 to 6 and 8 to 9), the air conditioning system 1 is used. Compared to the case where only one connection duct 4 is provided and the connection duct 4 is connected to the suction ports 31 of the plurality of attraction fans 3 (FIGS. 3 to 4 and 7), the connection duct 4 per connection duct 4 is provided. The length can be shortened, the pressure loss in the connection duct 4 can be reduced, more cold air can be transferred, and the cost for the connection duct 4 can be reduced.
The air conditioning system 1 includes a connection duct 4 configured to connect one outlet 22 of the air conditioner 2 and a suction port 31 of one attraction fan 3, and one outlet 22 of the air conditioner 2. One or a plurality of connection ducts 4 configured to connect the suction ports 31 of the plurality of attraction fans 3 may be provided, respectively.

When the air conditioning system 1 has a plurality of attracting fans 3, the airflows W from the attracting fans 3 may not overlap each other as in the embodiments of FIGS. 3 and 4 to 9. The airflow W from each attraction fan 3 may be overlapped with each other. When the airflows W from the attracting fans 3 are overlapped with each other, it is preferable that the attracting fans 3 are arranged in parallel so as to blow air in the same direction. As a result, the area A where a cool feeling can be obtained can be expanded, and the airflow at the portion where the airflows W from each attraction fan 3 overlap each other becomes stronger (and the wind speed becomes higher), which is further effective in the area A where a cool feeling can be obtained. You will be able to get a cool feeling.

As shown in FIGS. 1 to 11, it is preferable that the air conditioning system 1 further includes one or more air intake ducts 5 and one or more air intake dampers 6.
One end 51 of the air intake duct 5 is connected to the connection duct 4, and the other end 52 is open. The air intake damper 6 is arranged in the air intake duct 5.
The air intake damper 6 is configured to open and close the air intake duct 5. It is preferable that the air intake damper 6 is configured so that the opening degree of the air intake duct 5 can be adjusted.
When the air conditioning system 1 includes a plurality of attracting fans 3 as in each embodiment of FIGS. 3 to 9, an air intake duct 5 and an air intake damper 6 are provided for each of the attract fans 3. , Suitable. When one connection duct 4 is connected to the suction ports 31 of the plurality of attraction fans 3 (FIGS. 3 to 4, 7), one end 51 of each air intake duct 5 is one of the connection ducts 4. , It is connected to the portion between each attracting fan 3 and the branch point 41 most adjacent to the upstream side of each attracting fan 3.
When the air intake damper 6 is in the open state, air is taken in from the other end 52 of the air intake duct 5 by the suction action of the attraction fan 3 while the attraction fan 3 is in the ON state, and the air intake damper 6 is taken in. After passing through the air intake duct 5 via 6, it passes through the connection duct 4 and enters the suction port 31 of the attraction fan 3.
It is desirable that the total maximum suction air volume of one or more attractive fans 3 included in the air conditioning system 1 is equal to or less than the maximum processing air volume of the air conditioner 2, but the air intake duct 5 is one or more provided in the air conditioning system 1. It is particularly preferable to provide it when the total maximum suction air volume of the plurality of attractive fans 3 is larger than the maximum processing air volume of the air conditioner 2. If the total maximum suction air volume of one or more attracting fans 3 provided in the air conditioning system 1 is larger than the maximum processing air volume of the air conditioner 2, if the air intake duct 5 is not provided, the air conditioner 2 and the attracting fan 3 are provided. During the cooling blower operation in which 3 is turned on, a sufficient amount of air does not enter the attract fan 3, and the fan built in the attract fan 3 or the air conditioner 2 is surging (inside the duct caused by fluctuations in pipe pressure and discharge amount). There is a risk that the air conditioner 2 will process beyond its own cooling capacity, a trip will occur in the air conditioner 2, and a safety device will work on the air conditioner 2 to stop. By providing the air intake duct 5, the air volume entering each of the attracting fans 3 can be supplemented, and by extension, surging by the attracting fan 3 or the fan built in the air conditioner 2 and tripping of the air conditioner 2 are suppressed. be able to. The cooling air blowing operation will be described later with reference to FIGS. 12 and 13.
Even if the air intake duct 5 is provided when the total maximum suction air volume of one or a plurality of attraction fans 3 provided in the air conditioning system 1 is equal to or less than the maximum processing air volume of the air conditioner 2. good. In this case, for example, due to the addition of the attraction fan 3 in the future, even if the total maximum suction air volume of one or more attraction fans 3 provided in the air conditioning system 1 becomes larger than the maximum processing air volume of the air conditioner 2, surging or Trips can be suppressed.
The air intake duct 5 also has an advantage that it enables a ventilation operation in which the induction fan 3 is turned on while the air conditioner 2 is turned off. In the ventilation operation, only the air taken in from the air intake duct 5 is blown out from the attraction fan 3. The blower operation is performed, for example, in spring or autumn when the cold air adjusted by the air conditioner 2 is not required and only the blower function by the attraction fan 3 is required. The blowing operation will be described later with reference to FIG.
When the air intake duct 5 is provided, it is preferable that the air intake damper 6 is also provided. This makes it possible to close the air intake duct 5 while the air conditioning system 1 is stopped, and to adjust the opening degree of the air intake duct 5 while performing the cooling ventilation operation or the ventilation operation. .. By adjusting the opening degree of the air intake duct 5, the temperature and humidity of the air blown out from the attraction fan 3 can be adjusted.

The other end 52 of the air intake duct 5 may be arranged in the indoor space S as in each embodiment of FIGS. 1 to 6.
Alternatively, the other end 52 of the air intake duct 5 may be arranged outdoors as in each embodiment of FIGS. 7 to 9. When the other end 52 of the air intake duct 5 is arranged outdoors, the air intake damper 6 may be arranged outdoors as in each embodiment of FIGS. 7 to 9, or indoors, particularly. May be arranged in the indoor space S.
The configuration in which the other end 52 of the air intake duct 5 is arranged in the indoor space S (FIGS. 1 to 6) is particularly when the temperature in the indoor space S tends to be lower than the outdoor temperature. It is suitable. Thereby, in the cooling blower operation or the blower operation, the temperature of the air blown from the attraction fan 3 can be further lowered. Further, in the configuration in which the other end 52 of the air intake duct 5 is arranged in the indoor space S (FIGS. 1 to 6), the other end 52 of the air intake duct 5 is arranged outdoors (FIG. 6). Compared with 7 to 9), the length of the air intake duct 5 can be shortened, the pressure loss in the duct can be reduced, the air volume of the attraction fan 3 can be increased, and the air intake duct 5 can be used. The cost can be reduced.
On the other hand, the configuration in which the other end 52 of the air intake duct 5 is arranged outdoors (FIGS. 7 to 9) is an indoor space due to, for example, a large number of high-temperature furnaces and the like in the indoor space S. This is particularly suitable when the temperature inside the S tends to be higher than the outdoor temperature. Thereby, in the cooling blower operation or the blower operation, the temperature of the air blown from the attraction fan 3 can be further lowered. Further, the configuration in which the other end 52 of the air intake duct 5 is arranged outdoors (FIGS. 7 to 9) has an advantage that fresh outdoor air can be blown out from the attraction fan 3.

However, the air conditioning system 1 does not have to include the air intake duct 5 and the air intake damper 6. Further, when the air intake duct 5 is provided, the air intake damper 6 may not be provided.

As shown in FIGS. 1 to 11, it is preferable that the air conditioning system 1 further includes one or a plurality of air conditioning air volume adjusting dampers 7.
The air conditioning air volume adjusting damper 7 is arranged in the connection duct 4. In this case, one end 51 of the air intake duct 5 is located in the connection duct 4 between the air conditioning air volume adjusting damper 7 and the suction port 31 of the attraction fan 3, as shown in FIGS. 1 to 11. It is preferable that it is connected. That is, it is preferable that the air conditioning air volume adjusting damper 7 is arranged on the upstream side of one end 51 of the air intake duct 5.
The air conditioning air volume adjusting damper 7 is configured to be able to open and close the connection duct 4. It is preferable that the air conditioning air volume adjusting damper 7 is configured so that the opening degree of the connecting duct 4 can be adjusted.
When the air conditioning system 1 includes a plurality of attracting fans 3 as in each embodiment of FIGS. 3 to 9, it is preferable that one damper 7 for adjusting the air conditioning air volume is provided for each of the attracting fans 3. When one connection duct 4 is connected to the suction ports 31 of the plurality of attraction fans 3 (FIGS. 3 to 4, 7), each of the air conditioning air volume adjusting dampers 7 is one of the connection ducts 4. It is arranged in a portion between the attraction fan 3 and the branch point 41 most adjacent to the upstream side of each attraction fan 3.
By providing the air-conditioning air volume adjusting damper 7, the opening degree of the connection duct 4 is closed while the air-conditioning system 1 is stopped or the air-conditioning operation is performed, or while the cooling air-conditioning operation is performed. Can be adjusted. By adjusting the opening degree of the connection duct 4, the amount of air entering the attraction fan 3 from the air conditioner 2 can be adjusted. Further, when the air conditioning system 1 includes a plurality of attracting fans 3, by providing an air conditioning air volume adjusting damper 7 for each attracting fan 3, the air conditioning air volume adjusting corresponding to some of the attracting fans 3 is performed during the cooling air flow operation. By opening the damper 7 and closing the air-conditioning air volume adjusting damper 7 corresponding to the remaining attracting fan 3, cold air from the air conditioner 2 is sent only to the part of the attracting fan 3. Centralized operation becomes possible. Partially centralized operation will be described later with reference to FIG.

However, the air conditioning system 1 does not have to include the air conditioning air volume adjusting damper 7.

It is preferable that the attraction fan 3 is operated by an inverter (not shown). By controlling the rotation speed of the attracting fan 3 by the inverter, it becomes easy to adjust the air volume of the attracting fan 3. As a result, it becomes easy to adjust the balance between the air volume from the air conditioner 2 and the air volume of the attraction fan 3.
The air intake damper 6 and the air conditioning air volume adjustment damper 7 control the opening and closing of the air intake damper 6 and the air conditioning air volume adjustment damper 7 by using a drive damper that uses power such as electricity and air pressure, or a manual damper, respectively. And the opening can be easily adjusted. By adjusting the opening degree of the air intake damper 6 and the air conditioning air volume adjustment damper 7, the air volume of the cold air from the air conditioner 2 and the air volume of the air taken in from the air intake duct 5 are adjusted, and by extension, the attraction fan. It becomes possible to adjust the air volume, temperature, and / or humidity of the air blown from 3.
When the attraction fan 3 is operated by an inverter, it is preferable that the inverter is operated by a remote controller. Alternatively, the attraction fan 3, the air intake damper 6, and the air conditioning air volume adjusting damper 7 may be directly operated by a remote controller, respectively.
However, the attraction fan 3, the air intake damper 6, and the air conditioning air volume adjusting damper 7 may be manually operated, respectively.
Alternatively, the inverter of the attract fan 3 may be controlled by the control unit 9 described later. Alternatively, the attraction fan 3, the air intake damper 6, and the air conditioning air volume adjusting damper 7 may be directly controlled by the control unit 9 described later.

The attraction fan 3 may be configured to be capable of swinging left and right as in the embodiment of FIG. And / or, the attraction fan 3 may be configured to be capable of swinging up and down as in the embodiment of FIG. In these cases, it is preferable that the connection duct 4 has a flexible portion 42 at least in a part on the distal end side (downstream side) thereof. As a result, the connection duct 4 can follow the swinging motion of the attraction fan 3 while maintaining the state of being connected to the attraction fan 3.
Since the attraction fan 3 is configured to be able to swing, the area A where a cool feeling can be obtained can be expanded. Further, when the air conditioning system 1 is provided with a plurality of attracting fans 3 and the airflows W from the attracting fans 3 adjacent to each other temporarily overlap each other due to the swinging operation of each attracting fan 3, the airflow is strong at the overlapping portion. (By extension, the wind speed will increase), and you will be able to obtain a cool feeling more effectively.
When the air conditioning system 1 includes a plurality of attracting fans 3, all the attracting fans 3 may be configured to be capable of swinging operation, or only some of the attracting fans 3 may be capable of swinging operation. It may be configured in.
The swinging operation of the attraction fan 3 may be realized by, for example, electric drive by a motor or the like, pneumatic drive, hydraulic pressure / hydraulic drive, or the like.
It is preferable that the swinging operation of the attraction fan 3 is operated by a remote controller.
However, the swinging operation of the attraction fan 3 may be manually operated.
Alternatively, the swing operation of the attraction fan 3 may be controlled by the control unit 9 described later.

[How to use the air conditioning system]
Next, a method of using the air conditioning system of the present invention will be exemplified with reference to FIGS. 12 to 15. The method of using the air conditioning system of the present invention is a method for using the air conditioning system of the present invention. Each example of the method of using the air conditioning system of the present invention described below can be applied to the air conditioning system 1 in each embodiment described in the present specification. In the following, for convenience, the description will be given with reference to Table 1 below. Table 1 illustrates how to use the air conditioning system of the present invention, which is applicable to the air conditioning system 1 in each embodiment described herein. Examples of the method of using the air conditioning system of the present invention include a cooling blower operation, a blower operation, a partially centralized operation, and an operation stop. These will be explained one by one.

(Cooling ventilation operation)
The cooling blower operation is an operation in which the air conditioner 2 and the attraction fan 3 are turned on (FIGS. 12 to 13). In this operation, the cold air generated by the air conditioner 2 is blown into the indoor space S by the attraction fan 3.
It is preferable to perform the cooling ventilation operation when cooling in the indoor space S is most necessary, such as in summer. Suitable. The predetermined place may be located in the area targeted for cooling by the air conditioning system 1, or may be located outside the area targeted for cooling by the air conditioning system 1.
When the attract fan 3 is configured to be operated by an inverter (not shown), the inverter for the attract fan 3 is turned on in the cooling blower operation.
In the cooling air blowing operation, as Example A (Table 1, FIG. 12), it is preferable to open the air conditioning air volume adjusting damper 7 and open the air intake damper 6. In the example A of the cooling ventilation operation, air is taken in from the other end 52 of the air intake duct 5, passes through the air intake duct 5 through the air intake damper 6, and then passes through the connection duct 4 to be attracted. Enter the suction port 31 of the fan 3. Example A of the cooling air blowing operation is preferably performed when the total maximum suction air volume of one or a plurality of attractive fans 3 included in the air conditioning system 1 is larger than the maximum processing air volume of the air conditioner 2. According to the example A of the cooling air blowing operation, the air volume entering each of the attracting fans 3 can be supplemented, and thus surging by the attracting fan 3 or the fan built in the air conditioner 2 and the trip of the air conditioner 2 can be suppressed. Because it can be done. However, the example A of the cooling air blowing operation may be performed even when the total maximum suction air volume of one or more attractive fans 3 provided in the air conditioning system 1 is equal to or less than the maximum processing air volume of the air conditioner 2. .. In the example A of the cooling air blowing operation, the set temperature of the air conditioner 2, the opening degree of the air conditioning air volume adjusting damper 7 and the air intake damper 6, and the frequency of the inverter for the attracting fan 3 should be tested in advance. It may be set to an arbitrary predetermined value predetermined by. Table 1 shows an example of these in parentheses.
In the cooling ventilation operation, as Example B (Table 1, FIG. 13), the air conditioning air volume adjusting damper 7 may be opened and the air intake damper 6 may be closed. In the example B of the cooling ventilation operation, air is not taken in from the other end 52 of the air intake duct 5. By closing the air intake damper 6, it is possible to prevent foreign matter from entering the air intake duct 5. Example B of the cooling air blowing operation is preferably performed when the total maximum suction air volume of one or more attractive fans 3 included in the air conditioning system 1 is equal to or less than the maximum processing air volume of the air conditioner 2. In Example A of the cooling air blowing operation, the set temperature of the air conditioner 2, the opening degree of the air conditioning air volume adjusting damper 7, and the frequency of the inverter for the attract fan 3 are each predetermined by performing a trial run or the like in advance. It may be set to an arbitrary predetermined value. Table 1 shows an example of these in parentheses.
In performing the cooling ventilation operation, the air conditioning system 1 may not include the air intake duct 5, the air intake damper 6, and / or the air conditioning air volume adjusting damper 7.
In the cooling air blowing operation, the set temperature of the air conditioner 2 is set to be less than the first temperature T1. The first temperature T1 is preferably set to, for example, 30 ° C.

(Blower operation)
The blower operation is an operation in which the attraction fan 3 is turned on while the air conditioner 2 is turned off (FIG. 14). In this operation, only the air taken in from the air intake duct 5 is blown into the indoor space S by the attraction fan 3.
It is preferable to perform the ventilation operation when, for example, in spring or autumn, the cold air adjusted by the air conditioner 2 is not required and only the ventilation function by the attraction fan 3 is required. It is preferable to perform this when the temperature of the place is equal to or higher than the second temperature T2 lower than the first temperature T1 and lower than the first temperature T1.
When the attract fan 3 is configured to be operated by an inverter (not shown), the inverter for the attract fan 3 is turned on in the blower operation.
In the ventilation operation, it is preferable that the air conditioning air volume adjusting damper 7 is closed and the air intake damper 6 is opened. By closing the air conditioning air volume adjusting damper 7, it is possible to prevent the air taken in from the air intake duct 5 from flowing back to the air conditioner 2 side, and also from the upstream side of the air conditioning air volume adjusting damper 7. Air inflow can be prevented and duct resistance can be reduced. In the blower operation, the opening degree of the air intake damper 6 and the frequency of the inverter for the attraction fan 3 may be set to arbitrary predetermined values predetermined by performing a trial run or the like in advance. Table 1 shows an example of these in parentheses.
However, in the ventilation operation, the air conditioning air volume adjusting damper 7 may be opened and the air intake damper 6 may be opened.
Although the air conditioning system 1 needs to be provided with the air intake duct 5 in order to perform the ventilation operation, the air intake damper 6 and / or the air conditioning air volume adjustment damper 7 may not be provided. good.
The second temperature T2 is preferably set to, for example, 25 ° C.

(Partially centralized operation)
In the partial centralized operation, the air conditioning air volume adjusting damper 7 corresponding to a part of the attracting fan 3 is opened and the air conditioning air volume adjusting damper 7 corresponding to the remaining attracting fan 3 is closed during the cooling air blowing operation. By setting the state, the operation is such that the cold air from the air conditioner 2 is sent concentrated to only a part of the attracting fans 3 (FIG. 15).
According to the partially centralized operation, only a part of the areas to be cooled by the air conditioning system 1 can be selected and cooled.
The partial centralized operation may be performed at any timing during the cooling blast operation.

(Stop operation)
When the operation of the air conditioning system 1 is stopped, the air conditioner is turned off and the attraction fan is turned off. In this case, it is preferable to close the air-conditioning air volume adjusting damper 7 and the air intake damper 6 because it is possible to prevent foreign matter from entering the connection duct 4 and the air intake duct 5. ..
It is preferable to stop the operation when cooling or ventilation in the indoor space S is not required, for example, in winter, and for example, when the temperature of the predetermined place in the indoor space S is less than the second temperature T2. It is preferable to do so.

Although the method of using the air-conditioning system of the present invention has been exemplified above, the method of using the air-conditioning system of the present invention may be one in which the air-conditioning system of the present invention is used by a method different from each of the above-mentioned examples.

[Eleventh Embodiment of Air Conditioning System]
Next, the air conditioning system 1 according to the eleventh embodiment of the present invention will be described with reference to FIG.
The air conditioning system 1 of the present embodiment further includes a temperature sensor 8, a control unit 9, and a storage unit 10 in addition to the configuration of the air conditioning system 1 of each embodiment described above.

The temperature sensor 8 is configured to be able to measure the temperature of a predetermined place in the indoor space S. The predetermined place may be located in the area targeted for cooling by the air conditioning system 1, or may be located outside the area targeted for cooling by the air conditioning system 1. The measurement signal from the temperature sensor 8 is output to the control unit 9, for example, at predetermined time intervals or at predetermined timings.

By executing the program stored in the storage unit 10, the control unit 9 executes the temperature sensor 8, the storage unit 10, the air conditioner 2, the air conditioning air volume adjustment damper 7, the attraction fan 3, the inverter for the attraction fan, and the air intake. It is configured to control the entire air conditioning system 1 including the damper 6. For example, the control unit 9 controls the air conditioner 2, the air conditioning air volume adjusting damper 7, the attracting fan 3, the attracting fan inverter, and the air intake damper 6 based on the measurement signal from the temperature sensor 8. Is configured to implement the method of using the air conditioning system of the present invention described above.
The control unit 9 includes at least one processor such as a CPU (Central Processing Unit). Communication between the control unit 9, the temperature sensor 8, the storage unit 10, the air conditioner 2, the air conditioning air volume adjusting damper 7, the attracting fan 3, the attracting fan inverter, and the air intake damper 6 is by wire communication. It may be present or it may be wireless communication.

The storage unit 10 stores a program executed by the control unit 9, various information used for processing performed by the control unit 9, and the like.
The storage unit 10 is composed of, for example, one or a plurality of ROMs, one or a plurality of RAMs, and the like. The storage unit 10 can be configured by, for example, a semiconductor memory, a magnetic disk, or the like, but is not limited to these, and can be any storage device. Further, for example, the storage unit 10 may be composed of an external storage device such as a memory card (USB or the like). Further, the storage unit 10 may be the internal memory of the processor constituting the control unit 9.

Here, an operation example of the control unit 9 will be described.
First, when the control unit 9 receives the measurement signal from the temperature sensor 8, the temperature indicated by the measurement signal (the temperature measured by the temperature sensor 8) is the first temperature T1 or higher and lower than the first temperature T1. It is specified whether the temperature is T2 or more and less than the first temperature T1 or less than the second temperature T2. The "first temperature T1" and "second temperature T2" are the same as those described above in the description of how to use the air conditioning system of the present invention.
Then, when the temperature measured by the temperature sensor 8 is equal to or higher than the first temperature T, the control unit 9 controls the air conditioner 2, the air conditioning air volume adjusting damper 7, the attracting fan 3, and the attracting fan in order to perform the cooling air blowing operation. Inverter for air conditioning and damper 6 for air intake are controlled. The cooling air blowing operation is as described above. For example, when the control unit 9 performs the example A (Table 1) of the cooling air blowing operation, the air conditioner 2 is turned on, the air conditioning air volume adjusting damper 7 is turned on, the attracting fan 3 is turned on, and the attracting fan is turned on. Turn on the inverter and open the air intake damper 6.
On the other hand, when the temperature measured by the temperature sensor 8 is equal to or higher than the second temperature T2 and lower than the first temperature T1, the control unit 9 attracts the air conditioner 2, the air conditioning air volume adjusting damper 7, and the air conditioning air volume adjustment damper 7 in order to perform the air blowing operation. It controls the fan 3, the inverter for the attraction fan, and the damper 6 for taking in air. The blower operation is as described above. For example, the control unit 9 turns off the air conditioner 2, closes the air conditioning air volume adjusting damper 7, turns on the attracting fan 3, turns on the attracting fan inverter, and turns on the air intake damper 6. To open.
Alternatively, when the temperature measured by the temperature sensor 8 is less than the second temperature T2, the control unit 9 uses the air conditioner 2, the air conditioning air volume adjusting damper 7, the attracting fan 3, and the attracting fan in order to stop the operation. It controls the inverter and the air intake damper 6. The operation stop is as described above. For example, the control unit 9 turns off the air conditioner 2, closes the air conditioning air volume adjusting damper 7, turns off the attracting fan 3, turns off the attracting fan inverter, and turns off the air intake damper 6. To be closed.

Although the operation of the control unit 9 has been exemplified above, the control unit 9 is differently based on the temperature sensor 8 and has an air conditioner 2, an air conditioning air volume adjustment damper 7, an attraction fan 3, an induction fan inverter, and a different method. , The air intake damper 6 may be controlled.

The air-conditioning system of the present invention and the method of using the air-conditioning system of the present invention can be used to locally cool an arbitrary indoor space, for example, locally cool the indoor space of a work facility such as a factory. It is particularly suitably available for this purpose.

1 Air conditioning system 2 Air conditioner 22 Outlet 3 Induction fan 31 Intake port 32 Outlet 4 Connection duct 41 Branch point 42 Flexible part 5 Air intake duct 51 One end 52 Other end 6 Air intake damper 7 Air conditioning air volume adjustment damper 8 Temperature Sensor 9 Control unit P People W Airflow A Area where a cool feeling can be obtained S Indoor space

Claims (10)

With an air conditioner configured to generate cold air,
One or more attracting fans configured to blow cold air from the air conditioner into the indoor space.
One or more connection ducts connecting each of the air outlet of the air conditioner and the suction port of the one or more attraction fans.
Equipped with an air conditioning system. An air intake duct with one end connected to the connection duct and the other end open,
An air intake damper arranged in the air intake duct,
The air conditioning system according to claim 1, further comprising. The air conditioning system according to claim 2, wherein the other end of the air intake duct is arranged in the indoor space. The air conditioning system according to claim 2, wherein the other end of the air intake duct is arranged outdoors. The air conditioning system according to any one of claims 2 to 4, wherein the total maximum suction air volume of the one or a plurality of attractive fans is larger than the maximum processing air volume of the air conditioner. A damper for adjusting the air conditioning air volume, which is arranged in the connection duct, is further provided.
One of claims 2 to 5, wherein the one end of the air intake duct is connected to a portion of the connection duct between the air conditioning air volume adjusting damper and the suction port of the attraction fan. The air conditioning system described in paragraph 1. A temperature sensor capable of measuring the temperature of a predetermined place in the indoor space, and
Control unit and
Further prepare
The control unit
When the temperature measured by the temperature sensor is equal to or higher than the first temperature, the air conditioner is turned on, the air conditioning air volume adjusting damper is opened, the attraction fan is turned on, and the air is taken in. Open the damper for
When the temperature measured by the temperature sensor is equal to or higher than the second temperature lower than the first temperature and lower than the first temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, and the air conditioning air volume adjusting damper is closed. The attraction fan is turned on, and the air intake damper is opened.
When the temperature measured by the temperature sensor is lower than the second temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, the attraction fan is turned off, and the air is turned off. The air conditioning system according to claim 6, which closes the intake damper. A method of using the air conditioning system for using the air conditioning system according to claim 6.
A method of using an air conditioning system, in which the air conditioner is turned on, the air conditioning air volume adjusting damper is opened, the attraction fan is turned on, and the air intake damper is opened. A method of using the air conditioning system for using the air conditioning system according to claim 6.
A method of using an air conditioning system, in which the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, the attraction fan is turned on, and the air intake damper is opened. A method of using the air conditioning system for using the air conditioning system according to claim 6.
When the temperature of the predetermined place in the indoor space is equal to or higher than the first temperature, the air conditioner is turned on, the air conditioning air volume adjusting damper is opened, the attraction fan is turned on, and the air is turned on. Open the intake damper and open it.
When the temperature at the predetermined location is equal to or higher than the second temperature lower than the first temperature and lower than the first temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, and the attraction fan is closed. Is turned on, and the air intake damper is opened.
When the temperature at the predetermined place is lower than the second temperature, the air conditioner is turned off, the air conditioning air volume adjusting damper is closed, the attraction fan is turned off, and the air intake damper is turned off. How to use the air conditioning system to close.

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