JP7779082B2 - Air conditioning system - Google Patents

Description

Article 30, Paragraph 2 of the Patent Act applies. 1. Yusuke Saito, Masahiko Ikeda, Tsuyoshi Kimura, Ryosuke Takahashi, Masaru Enomoto et al., published in the January 2021 issue of Kenchiku Seisekishi (Architectural Equipment Engineer) on January 5, 2021, in Completion Flash 2 at the Fujita Health University Okazaki Medical Center.

Article 30, Paragraph 2 of the Patent Act applies. 2. Yusuke Saito, Masahiko Ikeda, Tsuyoshi Kimura, Ryosuke Takahashi, Masaru Enomoto et al., published on March 1, 2021, in Electric Power and Building Equipment No. 48 2021.3 at the Fujita Health University Okazaki Medical Center.

The present invention relates to an air conditioning system installed in a room of a building.

Conventionally, air conditioning systems installed in rooms in buildings are known that are configured so that the temperature of a desired area in the room directly below the outlet can be adjusted by having an air conditioner blow temperature-adjusted air downward from an outlet installed in the ceiling of the room.

For example, Patent Document 1 describes an air conditioning system installed in a hospital operating room, which has a downward-facing outlet in the ceiling directly above an operating table located approximately in the center of the operating room, and is configured to blow air cooled by an air conditioner downward from the outlet, thereby adjusting the temperature of the operating table or surgical field area directly below the outlet to a desired level.

Patent No. 6481283

Air conditioning systems such as those described above typically have an operation panel installed on the wall of the room, and are configured to control the operation of the air conditioner based on the air temperature in the room detected by a temperature sensor and the set temperature set on the operation panel.

However, in conventional air conditioning systems, the temperature sensor that detects the air temperature inside the room is installed on the wall of the room, for example by being built into the control panel. This means that the area closer to the outer wall than the area directly below the air outlet is adjusted to the desired temperature, which makes it difficult to adjust the temperature, as the temperature in the area directly below the air outlet becomes too low compared to the desired temperature.

The present invention aims to solve these problems by providing an air conditioning system that can adjust the temperature of both the desired area of a room and the surrounding area to a comfortable temperature.

The air conditioning system of the present invention is an air conditioning system installed in a room of a building, and includes: a downward air outlet provided on a ceiling of the room; a downward air conditioning unit that supplies temperature-adjusted air to the downward air outlet; a wall-side temperature sensor installed on a wall of the room; an outlet-side temperature sensor installed on the downward air outlet; a switching operation unit that can switch the operation mode of the downward air conditioning unit between a first mode in which temperature adjustment is performed based on a temperature detected by the wall-side temperature sensor and a set temperature, and a second mode in which temperature adjustment is performed based on a temperature detected by the outlet-side temperature sensor and a set temperature; an ambient air outlet provided on the ceiling of the room separately from the downward air outlet; and an ambient air conditioning unit that supplies temperature-adjusted air to the ambient air outlet, The temperature is adjusted based on the temperature detected by the wall-side temperature sensor and the set temperature, and the ceiling is provided with a plurality of peripheral air outlets arranged at intervals in the front, back, left and right directions relative to the downward air outlet, with the downward air outlet at the center, and the ceiling is shaped like a rectangular dish with four side walls and a bottom wall, and the bottom wall has a downward lattice-shaped downward opening, a lattice-shaped first horizontal opening facing horizontally in the side wall facing opposite the downward air outlet, and a cover is attached to each peripheral air outlet, the cover having a lattice-shaped second horizontal opening facing horizontally in both side walls connected to the side wall with the first horizontal opening, so that the air outlet direction of each peripheral air outlet is directed toward an outer area relative to the downward air outlet .

In the air conditioning system of the present invention, in the above configuration, it is preferable that the room is an operating room and the downward air outlet is located directly above an operating table installed in the operating room.

The present invention provides an air conditioning system that can adjust the temperature of both a desired area in a room and the surrounding area to a comfortable temperature.

1 is a diagram schematically illustrating an operating room of a hospital provided with an air conditioning system according to a first embodiment of the present invention. FIG. 2 is a plan view of the operating room shown in FIG. 1. 3 is a diagram showing details of a downward air outlet and a peripheral air outlet shown in FIG. 2 . FIG. FIG. 4 is a perspective view showing details of the cover shown in FIG. 3 . FIG. 10 is a diagram schematically illustrating an operating room in a hospital equipped with an air conditioning system according to a second embodiment of the present invention. FIG. 6 is a plan view of the operating room shown in FIG. 5. 6 is a diagram showing details of the downward air outlet shown in FIG. 5 .

An air conditioning system according to an embodiment of the present invention will be described in detail below with reference to the drawings.

As shown in Figures 1 and 2, an air conditioning system 1 according to a first embodiment of the present invention is installed in an operating room 3, which is a room in a hospital 2, which is a building.

Operating room 3 is a space partitioned by a floor 3a, four walls 3b, and a ceiling 3c, with an operating table 4 installed approximately in the center of floor 3a. Additionally, multiple surgical instruments 5, such as a suction machine, an anesthesia machine, an electric scalpel, an ultrasonic scalpel, a ventilator, and a monitor, are arranged around the operating table 4 on floor 3a of operating room 3. Although not shown in detail, a shadowless lamp that projects light toward the operating table 4 is suspended from the ceiling 3c of operating room 3 by an arm 6.

The air conditioning system 1 has a downward air outlet 10 provided on the ceiling 3c of the operating room 3. The downward air outlet 10 is rectangular in plan view and is located approximately in the center of the ceiling 3c, i.e., directly above the operating table 4, so that it blows air directly downward toward the operating table 4.

As shown in Figure 3, each downward air outlet 10 can be configured to include a rectangular box 11. In this embodiment, the downward air outlet 10 is configured such that two boxes 11 are connected to each other horizontally, and air is blown downward from downward-facing lattice-shaped louvers 12 located at the bottom opening of each box 11. Note that the downward air outlet 10 can also be configured such that pairs of two boxes 11 are arranged in multiple rows in a direction perpendicular to the plane of the paper in Figure 3.

The downward air outlets 10 can also be configured with HEPA (High Efficiency Particulate Air) filters 13 attached. In this embodiment, a HEPA filter 13 is attached inside each box 11. With this configuration, the air blown out from the downward air outlets 10 toward the inside of the operating room 3 can be purified by the HEPA filter 13.

As shown in Figures 1 and 2, the air conditioning system 1 is equipped with a downward air conditioning unit 20. In this embodiment, the downward air conditioning unit 20 is located inside the wall portion 3b at a corner of the substantially rectangular floor 3a. The downward air conditioning unit 20 is a so-called air conditioner, and can supply temperature-controlled air to the downward air outlet 10.

In this embodiment, an intake port 21 is provided in the portion of the wall 3b where the downward air conditioning unit 20 is located, and the downward air conditioning unit 20 can draw air from inside the operating room 3 through the intake port 21. An electric heater 22 and a cooling coil 23 are provided inside the downward air conditioning unit 20, and the air drawn in through the intake port 21 is heated or cooled by the electric heater 22 or the cooling coil 23 to adjust its temperature. The downward air conditioning unit 20 is equipped with a blower fan 24 and is connected to the downward outlet 10 by a duct 25, and the temperature-adjusted air is supplied to the downward outlet 10 through the duct 25 by the blower fan 24. When the temperature-adjusted air is supplied from the downward air conditioning unit 20 to the downward outlet 10, the air is blown downward from the downward outlet 10 toward the operating table 4.

The air conditioning system 1 can also be configured so that peripheral area outlets 30 are provided on the ceiling 3c of the operating room 3 in addition to the downward outlets 10. In this embodiment, four peripheral area outlets 30, each rectangular in plan view, are provided in the area between the downward outlets 10 on the ceiling 3c and the four wall portions 3b. In other words, the four peripheral area outlets 30 are provided on the ceiling 3c, centered around the downward outlet 10, and spaced apart in the front, back, left, and right directions relative to the downward outlet 10.

As shown in FIG. 3, each peripheral air outlet 30 can be configured with a rectangular box 31, similar to the downward air outlet 10. In this embodiment, each peripheral air outlet 30 is configured with a single box 31. A cover 32 is attached to the lower end opening of the box 31, and this cover 32 directs the air outlet direction of the peripheral air outlet 30 toward an area outside the downward air outlet 10.

More specifically, as shown in FIG. 4, the cover 32 is shaped like a rectangular dish and has four side walls and a bottom wall. The bottom wall has a downward lattice-shaped downward opening 32a, the side wall facing away from the downward outlet 10 has a horizontally oriented first lattice-shaped opening 32b, and both side walls connected to the side wall with the first horizontal opening 32b have horizontally oriented second lattice-shaped openings 32c. In this way, the peripheral outlet 30 is configured to blow air downward and in three horizontal directions facing the area outside the downward outlet 10.

The peripheral air outlets 30 can also be configured with HEPA filters 33 attached, similar to the downward air outlets 10. In this embodiment, a HEPA filter 33 is attached inside each box 31. With this configuration, the air blown out from each peripheral air outlet 30 toward the inside of the operating room 3 can be purified by the HEPA filter 33.

As shown in Figures 1 and 2, the air conditioning system 1 is equipped with a periphery air conditioning unit 40. In this embodiment, the periphery air conditioning unit 40 is located inside the wall 3b at a corner of the substantially rectangular floor 3a that is diagonally opposite the downward air conditioning unit 20. The periphery air conditioning unit 40 is a so-called air conditioner, similar to the downward air conditioning unit 20, and can supply temperature-adjusted air to the periphery outlet 30.

In this embodiment, an intake port 41 is provided in the portion of the wall 3b where the periphery air conditioning unit 40 is located, and the periphery air conditioning unit 40 can draw in air from inside the operating room 3 through the intake port 41. An electric heater 42 and a cooling coil 43 are provided inside the periphery air conditioning unit 40, and the air drawn in through the intake port 41 is heated or cooled by the electric heater 42 or cooling coil 43 to adjust its temperature. The periphery air conditioning unit 40 is equipped with a blower fan 44 and is connected to the periphery outlet 30 by a duct 45, and the temperature-adjusted air is supplied to the periphery outlet 30 through the duct 45 by the blower fan 44. When the temperature-adjusted air is supplied from the periphery air conditioning unit 40 to the periphery outlet 30, the air is blown out from the periphery outlet 30 in three directions: downward and horizontally toward the outer area relative to the downward-directed outlet 10.

An operation panel 50 is installed on wall 3b. The operation panel 50 is configured with separate operation switches for operating the downward air conditioning unit 20 and the peripheral air conditioning unit 40. By operating the operation switch for the downward air conditioning unit 20 on the operation panel 50, it is possible to turn the downward air conditioning unit 20 on and off, change the set temperature for the downward air conditioning unit 20, change the operating mode of the downward air conditioning unit 20, and so on. Furthermore, by operating the operation switch for the peripheral air conditioning unit 40 on the operation panel 50, it is possible to turn the peripheral air conditioning unit 40 on and off, change the set temperature for the peripheral air conditioning unit 40, and so on. The operation panel 50 is not limited to being installed on wall 3b and may also be in the form of a remote controller.

The air conditioning system 1 is equipped with a wall temperature sensor 60 installed on the wall 3b of the operating room 3. The wall temperature sensor 60 can detect the temperature of the air near the wall 3b inside the operating room 3. In this embodiment, the wall temperature sensor 60 is built into the operation panel 50. However, the wall temperature sensor 60 may also be installed on the wall 3b separately from the operation panel 50. The wall temperature sensor 60 can be of various configurations or types as long as it is capable of measuring the air temperature.

The air conditioning system 1 also includes an outlet-side temperature sensor 70 installed at the downward outlet 10. The outlet-side temperature sensor 70 can detect the temperature of the air itself being blown out from the downward outlet 10. The outlet-side temperature sensor 70 may be installed at the bottom opening of the downward outlet 10, or may be located directly above the bottom opening of the downward outlet 10. In this embodiment, the outlet-side temperature sensor 70 is fixed to the outward-facing side wall of one of the boxes 11, and detects the temperature of the air inside that box 11 at the downward outlet 10. The outlet-side temperature sensor 70 can be of various configurations or types as long as it is capable of measuring the temperature of the air.

The downward air conditioning unit 20 is equipped with a control unit 26, which is configured, for example, by a microcomputer with a CPU. The control unit 26 is connected to the operation panel 50, the wall-side temperature sensor 60, and the outlet-side temperature sensor 70, and controls the operation of the downward air conditioning unit 20 based on inputs from the operation switch for the downward air conditioning unit 20 on the operation panel 50, the wall-side temperature sensor 60, and the outlet-side temperature sensor 70.

The operation panel 50 functions as a switching operation unit that can switch the operation mode of the downward air conditioning unit 20 between a first mode, in which temperature adjustment is performed based on the temperature detected by the wall-side temperature sensor 60 and the set temperature, and a second mode, in which temperature adjustment is performed based on the temperature detected by the outlet-side temperature sensor 70 and the set temperature. For example, the operation panel 50 is configured to include a mode selection switch as an operation switch for the downward air conditioning unit 20. When the mode selection switch on the operation panel 50 is operated to select the first mode, the operation of the downward air conditioning unit 20 is controlled by the control unit 26 so that the temperature detected by the wall-side temperature sensor 60 approaches the set temperature set by the operation switch for the downward air conditioning unit 20 on the operation panel 50. Furthermore, when the mode selector switch on the operation panel 50 is operated to select the second mode, the control unit 26 controls the operation of the downward air conditioning unit 20 so that the temperature detected by the outlet-side temperature sensor 70 approaches the set temperature set by the operation switch for the downward air conditioning unit 20 on the operation panel 50.

The ambient air conditioning unit 40 is equipped with a control unit 46, which is composed of, for example, a microcomputer with a CPU. The control unit 46 is connected to the operation panel 50 and the wall temperature sensor 60, and controls the operation of the ambient air conditioning unit 40 based on input from the operation switch for the ambient air conditioning unit 40 on the operation panel 50 and the wall temperature sensor 60. More specifically, the operation of the ambient air conditioning unit 40 is controlled by the control unit 46 so that the temperature detected by the wall temperature sensor 60 approaches the set temperature set by the operation switch for the ambient air conditioning unit 40 on the operation panel 50. In other words, the set temperature for the ambient air conditioning unit 40 can be set separately from the set temperature for the downward air conditioning unit 20, and the ambient air conditioning unit 40 can operate to adjust the temperature inside the operating room 3 on a system separate from the downward air conditioning unit 20.

As described above, in the air conditioning system 1 of this embodiment, by operating the mode selector switch for the downward air conditioning unit 20 on the operation panel 50, the operating mode of the downward air conditioning unit 20 can be switched between a first mode in which temperature adjustment is performed based on the temperature detected by the wall-side temperature sensor 60 and the set temperature set by the operation switch for the downward air conditioning unit 20 on the operation panel 50, and a second mode in which temperature adjustment is performed based on the temperature detected by the outlet-side temperature sensor 70 and the set temperature set by the operation switch for the downward air conditioning unit 20 on the operation panel 50.

Therefore, with the air conditioning system 1 of this embodiment having the above configuration, by setting the operating mode of the downward air conditioning unit 20 to the second mode, the temperature of the air blown out from the downward air outlet 10 can be adjusted to the set temperature set on the operation panel 50. This makes it easy to adjust the temperature of the operating table 4 or surgical field area directly below the downward air outlet 10 to the desired temperature.

On the other hand, with the air conditioning system 1 of this embodiment having the above configuration, by setting the operation mode of the downward air conditioning unit 20 to the first mode, the temperature of the air in the area outside the periphery of the operating table 4 in the operating room 3, i.e., the area where multiple heat-generating surgical instruments 5 such as a suction machine, anesthesia machine, electric scalpel, ultrasonic scalpel, ventilator, and monitor are located and which tends to become hot, can be easily adjusted to the set temperature set on the operation panel 50 by the air blown out from the downward outlet 10.

As such, the air conditioning system 1 of this embodiment, configured as described above, can separately adjust the temperature of the operating table 4 or surgical field area inside the operating room 3 and the surrounding area. Therefore, when performing surgery in the operating room 3, it is possible to adjust the air around the operating table 4 or surgical field area to a temperature that will not cause hypothermia in the patient on the operating table 4 and is comfortable for the doctor performing the surgery, while easily adjusting the air temperature in the area around the operating table 4 to a temperature that is comfortable for other people, such as assistants assisting with the surgery.

In addition, in this embodiment, the air conditioning system 1 is configured so that a peripheral air outlet 30 is provided on the ceiling 3c of the operating room 3, separate from the downward air outlet 10, and a peripheral air conditioning unit 40 is provided that supplies temperature-adjusted air to the peripheral air outlet 30. The peripheral air conditioning unit 40 adjusts the temperature based on the temperature detected by the wall temperature sensor 60 and the set temperature set by the switch for the peripheral air conditioning unit 40 on the operation panel 50. Therefore, the temperature of the air around the operating table 4 can be more easily adjusted to a comfortable temperature for other people, such as assistants assisting with the surgery, by the peripheral air conditioning unit 40, which is on a system separate from the downward air conditioning unit 20 that blows air from the downward air outlet 10 directed toward the operating table 4 or the surgical field area, based on the temperature detected by the wall temperature sensor 60 and the set temperature set by the switch for the peripheral air conditioning unit 40 on the operation panel 50.

In particular, in this embodiment, multiple peripheral outlets 30 are provided on the ceiling 3c, centered around the downward outlet 10, and spaced apart in all directions relative to the downward outlet 10. The outlet direction of each peripheral outlet 30 is directed toward an area outside the downward outlet 10. This allows the air blown out from the peripheral outlets 30 to flow downward and along the ceiling 3c toward the wall 3b, making it less likely to mix with the air blown out from the downward outlets 10. This makes it possible to more efficiently adjust the temperature of the air around the operating table 4 in the operating room 3 to a comfortable temperature for other people, such as assistants assisting with the surgery.

As shown in Figures 5 and 6 as a second embodiment, the air conditioning system 1 of the present invention can also be configured without the peripheral air outlet 30 and peripheral air conditioning unit 40. In this second embodiment shown in Figures 5 and 6, downward air conditioning units 20 are located inside the wall portions 3b at both diagonal corners of the floor 3a of the operating room 3, and these two downward air conditioning units 20 are connected to the downward air outlet 10 by ducts 25.

As shown in Figure 7, the downward air outlet 10 is configured with four boxes 11 arranged horizontally, and each box 11 is equipped with a HEPA filter 13. An outlet-side temperature sensor 70 is fixed to the outward-facing side wall of each of the two boxes 11 at both ends, and the temperature of the air inside these two boxes 11 of the downward air outlet 10 is detected by the outlet-side temperature sensors 70 and sent to the control unit 26.

In the air conditioning system 1 of the second embodiment configured as described above, by operating the mode selector switch for the downward air conditioning unit 20 on the operation panel 50, the operating mode of the downward air conditioning unit 20 can be switched between a first mode in which temperature adjustment is performed based on the temperature detected by the wall-side temperature sensor 60 and the set temperature set by the operation switch for the downward air conditioning unit 20 on the operation panel 50, and a second mode in which temperature adjustment is performed based on the temperature detected by the outlet-side temperature sensor 70 and the set temperature set by the operation switch for the downward air conditioning unit 20 on the operation panel 50.

Therefore, even with the air conditioning system 1 of the second embodiment, by setting the operating mode of the downward air conditioning unit 20 to the second mode, the temperature of the air blown out from the downward air outlet 10 can be adjusted to the set temperature set on the operation panel 50, making it easy to adjust the temperature of the operating table 4 or surgical field area directly below the downward air outlet 10 to the desired temperature.

Furthermore, if it is desired to adjust the temperature of the air in the area outside the operating table 4 in the operating room 3, the operating mode of the downward air conditioning unit 20 can be set to the first mode, and the air blown out from the downward outlet 10 can easily adjust the temperature of the air in the area outside the operating table 4 in the operating room 3 to the set temperature set on the operation panel 50.

It goes without saying that the present invention is not limited to the above-described embodiment, and various modifications are possible without departing from the spirit of the invention.

For example, in the above embodiment, the air conditioning system 1 is installed in the operating room 3 of the hospital 2, but the air conditioning system 1 can also be installed in a room in a building other than the operating room 3 of the hospital 2, as long as the room requires the air temperatures in two areas to be adjusted separately.

In the above embodiment, the downward air outlet 10 is located approximately in the center of the ceiling 3c, but the position of the downward air outlet 10 on the ceiling 3c can be changed in various ways. The number of downward air outlets 10 can also be changed in various ways.

In the above embodiment, four peripheral air outlets 30 are arranged at intervals to the front, rear, left, and right of the downward air outlet 10, but the number and arrangement of the peripheral air outlets 30 can be varied in various ways.

1 Air conditioning system 2 Hospital 3 Operating room 3a Floor 3b Wall 3c Ceiling 4 Operating table 5 Equipment 6 Arm 10 Downward air outlet 11 Box 12 Louver 13 HEPA filter 20 Downward air conditioning unit 21 Intake port 22 Electric heater 23 Cooling coil 24 Blower fan 25 Duct 26 Control unit 30 Peripheral air outlet 31 Box 32 Cover 32a Downward opening 32b First horizontal opening 32c Second horizontal opening 33 HEPA filter 40 Peripheral air conditioning unit 41 Intake port 42 Electric heater 43 Cooling coil 44 Blower fan 45 Duct 46 Control unit 50 Operation panel 60 Wall-side temperature sensor 70 Outlet-side temperature sensor

Claims (2)

An air conditioning system installed in a room of a building,
A downward air outlet provided on the ceiling of the living room;
a downward air conditioning unit that supplies temperature-adjusted air to the downward outlet;
a wall temperature sensor installed on a wall of the living room;
an outlet-side temperature sensor installed at the downward outlet;
a switching operation unit that can switch the operation mode of the downward air conditioning unit between a first mode in which temperature adjustment is performed based on the temperature detected by the wall-side temperature sensor and a set temperature, and a second mode in which temperature adjustment is performed based on the temperature detected by the outlet-side temperature sensor and a set temperature;
a peripheral air outlet provided separately from the downward air outlet on the ceiling of the living room;
a surrounding air conditioning unit that supplies temperature-adjusted air to the surrounding air outlet ,
The ambient air conditioning unit is configured to adjust the temperature based on the temperature detected by the wall temperature sensor and a set temperature,
A plurality of peripheral air outlets are provided on the ceiling, with the downward air outlet at the center and arranged at intervals in the front, rear, left, and right directions relative to the downward air outlet,
An air conditioning system characterized in that the air conditioning system has a rectangular dish shape with four side walls and a bottom wall, a downward lattice-shaped downward opening in the bottom wall, a horizontally oriented first lattice-shaped opening in the side wall facing opposite the downward air outlet, and a cover attached to each of the peripheral air outlets, the cover having horizontally oriented second lattice-shaped openings in both side walls connected to the side wall with the first horizontal opening, so that the air outlet direction of each of the peripheral air outlets is directed toward an outer area relative to the downward air outlet . The room is an operating room,
The air conditioning system according to claim 1 , wherein the downward air outlet is disposed directly above an operating table installed in the operating room.