JP2004116893A - Air conditioner and indoor air conditioning method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner for supplying the air of a suitable temperature to each area, and conditioning the air in a common area. <P>SOLUTION: A casing 2 is provided with a suction port for sucking the indoor air, four independent blowout ports 5 for sending the conditioned air to four independent areas 21, and one common blowout port for sending the conditioned air to the common area 22. The casing 2 further comprises a heat exchanger 11, four sirocco fans 9, and four switching dampers 10 for communicating and switching discharge ports of the sirocco fans 9 to the independent blowout ports 5 or the common blowout port 7, inside thereof. The indoor air sucked from the suction port is passed through the heat exchanger 11, and guided to the independent blowout ports 5 or the common blowout port 6 from the discharge ports of the sirocco fans 9 through the switching dampers 10. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner and an indoor air conditioning method.
[0002]
[Prior art]
BACKGROUND ART Conventionally, as an air conditioner used for a room partitioned by a curtain or the like such as a hospital room, there is an air conditioner shown in FIG. 6 (see Patent Document 1). The air conditioner 101 is arranged behind the ceiling of a hospital room 100 having four individual areas 104, 104,. The air conditioner 101 exchanges heat between air sucked from the inside of the sickroom 100 and cold water supplied through the cold water pipe 102 in a heat exchanger (not shown), and converts the heat-conditioned air into a heat exchanger (not shown). .. Are sent to the four ducts 107, 107,. The conditioned air sent to the four ducts 107 is blown into the individual areas 104 from the air outlets 108 provided on the ceiling of the four individual areas 104, respectively. A remote controller (hereinafter, referred to as a remote controller) 109 is arranged near the bed 105 in the individual area 104. A patient or the like designates and inputs the amount of conditioned air to be supplied to the individual area 104 of the patient on the remote controller 109. For example, when a patient on one of the four beds specifies supply of conditioned air with a low air volume, while a patient on another floor specifies stop of supply of conditioned air, the air conditioner 101 performs the above operation. Only one of the four fans is driven at a low rotation speed. The low-speed fan drives low-flow air through the heat exchanger to generate low-flow conditioned air, and the low-flow conditioned air is supplied to the individual area 104 of the one-bed patient. To supply.
[0003]
[Patent Document 1]
Japanese Patent No. 2930295 (FIG. 1)
[0004]
[Problems to be solved by the invention]
However, the conventional air conditioner 101 passes the low-air-volume air for one individual region 104 through the heat exchanger, so that the low-air-volume air is supplied to the air for all the individual regions 104. Is greatly reduced as compared with the case where the gas passes through the heat exchanger. The conditioned air whose temperature has been significantly reduced is supplied to the individual area 104 of the patient on the one bed, which causes a problem that the patient is uncomfortable.
[0005]
In addition, since the air conditioner 101 sends conditioned air only to the individual area 104, there is a problem in that it is difficult to perform air conditioning in the common area 106 of the hospital room 100 other than the individual area 104.
[0006]
Therefore, an object of the present invention is to provide an air conditioner that can supply air at an appropriate temperature to an individual area and air-condition a common area.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an air conditioner according to a first aspect of the present invention includes a suction port, a plurality of individual air outlets for blowing air to be sent to a plurality of individual areas, and a common air outlet for blowing air to be sent to a common area. A casing having an outlet;
A heat exchanger that is arranged in the casing and guides air from the suction port,
A fan for flowing air to the heat exchanger and sending air to the individual outlet and the common outlet,
A plurality of switching dampers, which are provided by the same number as the number of the plurality of individual outlets and switch the air so as to guide the air passing through the heat exchanger to the individual outlets or the common outlet, respectively.
It is characterized by having.
[0008]
According to the air conditioner of the first aspect, the air sucked into the casing from the suction port is guided to the heat exchanger by the fan. The air that has passed through the heat exchanger is guided to each of the individual outlets or the common outlet by the plurality of switching dampers. Therefore, some of the air that has passed through the heat exchanger is changed to some of the plurality of individual outlets by some of the plurality of switching dampers. While being guided, another switching damper of the plurality of switching dampers directs another air of the air passing through the heat exchanger to another of the plurality of individual outlets. I will As a result, an amount of air that is larger than the amount of air guided to some of the individual outlets passes through the heat exchanger. Therefore, since only the air for one of the four individual regions does not pass through the heat exchanger as in the conventional case, the temperature of the air passing through the heat exchanger is prevented from being significantly reduced. Is done. As a result, appropriate temperature air can be supplied to the individual area.
[0009]
Further, the amount of air passing through the heat exchanger when air is blown out from the partial individual outlets, and the amount of air passing through the heat exchanger when air is blown out from all the individual outlets There is no significant difference with the amount of air. Therefore, even if the number of the individual outlets that blows air out of the plurality of individual outlets changes, the flow rate of the air passing through the heat exchanger does not change significantly. The temperature of the air does not change significantly.
[0010]
In addition, conditioned air is supplied to both the individual area and the common area by the switching damper in accordance with the switching of the switching damper, so that both the individual area and the common area are air-conditioned.
[0011]
The present invention has been made under the following background. That is, recently, due to the revision of the medical law, the area required for one bed in a hospital room of a medical facility is 4.3 m in the past. ² From 6.4m ² Was revised to Thus, in the past, hospital rooms having 6 to 8 beds were generally used, but hospital rooms having a relatively small number of beds, such as 2 to 4 beds, are increasing. Therefore, the applicant of the present invention separately and appropriately adjusts the temperature of a plurality of individual areas having a relatively large area in response to a request of a patient or the like in the individual area for an air conditioner that performs air conditioning in a hospital room or the like. Focused on the need. Then, with regard to the air conditioners for a plurality of individual areas, the present inventors have focused on a specific problem that the conditioned air may be significantly low during partial load operation, and made the present invention to solve this problem.
[0012]
The air conditioner according to claim 2 is the air conditioner according to claim 1, wherein at least one of the plurality of switching dampers removes at least a part of the air that has passed through the heat exchanger. While blowing out from at least one of the plurality of individual outlets, the remaining switching damper of the plurality of switching dampers causes the remaining air of the air passing through the heat exchanger to pass through the common air outlet. It is characterized by having a control device for blowing out from the outlet.
[0013]
According to the air conditioner of claim 2, under the control of the control device, at least one of the plurality of switching dampers causes at least a portion of the air that has passed through the heat exchanger to pass through the heat exchanger. Air is blown out from at least one of the plurality of individual air outlets. On the other hand, by the remaining switching dampers of the plurality of switching dampers, the remaining air among the air that has passed through the heat exchanger is blown out from the common outlet. Therefore, since a larger amount of air than the amount of air blown out from at least one of the plurality of individual outlets flows through the heat exchanger, the amount of air that has passed through the heat exchanger is large. No temperature drop occurs. As a result, the temperature of the air blown out from at least one of the plurality of individual outlets becomes an appropriate temperature, and the individual region to which the air is supplied is appropriately air-conditioned.
[0014]
In addition, even when the number of individual outlets that blow air out of the plurality of individual outlets changes, the flow rate of air passing through the heat exchanger hardly changes, so that the air is blown out from the individual outlets. The temperature of the air hardly changes. Therefore, the appropriate temperature air can be stably supplied to the individual area. In addition, both the individual area and the common area can be air-conditioned.
[0015]
The air conditioner according to claim 3 is the air conditioner according to claim 1 or 2, wherein the plurality of individual outlets are arranged on one of an upper stage or a lower stage on one surface of the casing,
One of the common outlets is arranged on the other of the upper stage and the lower stage on one surface of the casing.
[0016]
According to the air conditioner of the third aspect, the plurality of individual outlets are arranged on one of the upper and lower stages of one surface of the casing, and the common outlet is disposed on the other of the upper and lower stages of one surface of the casing. The arrangement makes the air conditioner compact. Therefore, the air conditioner is easily arranged, for example, behind a ceiling such as a hospital room. In addition, since the plurality of individual outlets and one common outlet are arranged in either the upper stage or the lower stage, they can be formed so as to be easily switched separately by the switching damper.
[0017]
An air conditioner according to a fourth aspect is the air conditioner according to the third aspect, wherein the common outlet is provided substantially at the center in the width direction of the one surface on which the plurality of individual outlets and the common outlet are arranged. On the other hand, the individual outlets are arranged on both sides of the one surface in the width direction.
[0018]
According to the air conditioner of the fourth aspect, the common outlet is disposed substantially at the center in the width direction of the one surface, while the individual outlets are disposed on both sides in the width direction of the one surface. When the heat exchanger is arranged in the casing substantially in parallel with the arrangement direction of the individual outlets, the distance between the heat exchanger and the individual outlets can be made substantially the same for all the individual outlets. Therefore, the temperatures of the air blown out from the plurality of individual outlets can be made substantially the same. In the case where the air conditioner is installed in a room where a plurality of individual regions are located around the common region, a space between the individual outlet and the individual region and a region between the common outlet and the common region are provided. For example, ducts to be connected to each other can be simply piped. Therefore, the installation work of this air conditioner is facilitated, and the ducts are simply piped, for example, on the underside of the ceiling where the air conditioner is installed, so that the air conditioner is neat and clean.
[0019]
An air conditioner according to a fifth aspect is the air conditioner according to any one of the first to fourth aspects, wherein the plurality of individual outlets are four individual outlets.
[0020]
According to the air conditioner of the fifth aspect, by supplying the air blown out from the four individual outlets to the four individual regions, air conditioning in a room having four individual regions can be performed. In particular, an air conditioner suitable for a hospital room having an area suitable for the revised medical law can be formed.
[0021]
An air conditioner according to a sixth aspect is the air conditioner according to the first aspect, wherein the heat exchanger includes a compressor, a condenser, an expansion mechanism, and an evaporator, which are sequentially connected. It is characterized by acting as a condenser or evaporator in the cycle.
[0022]
According to the air conditioner of claim 6, since the heat exchanger functions as a condenser or an evaporator of the refrigeration cycle, the air conditioner can be used as an indoor unit such as a package air conditioner.
[0023]
The room air conditioning method according to claim 7, wherein one room is partitioned into a common area and a plurality of individual areas,
When sending conditioned air to all the individual areas, while stopping the supply of conditioned air to the common area,
When at least one of the plurality of individual areas does not send the conditioned air, the conditioned air is sent also to the common area.
[0024]
According to the indoor air conditioning method of claim 7, between the time when the conditioned air is sent to all the individual areas and the time when at least one of the plurality of individual areas does not send the conditioned air. Thus, the amount of conditioned air sent into the room does not differ significantly. Therefore, for example, when there is an individual area that does not send conditioned air among a plurality of individual areas, it is prevented that conditioned air with a significantly reduced temperature is sent to the individual area that sends conditioned air, and each individual area in the room is prevented. The area can be properly air-conditioned.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.
[0026]
FIG. 1A is a plan view showing an air conditioner according to a first embodiment of the present invention, and FIG. 1B is a front view of the air conditioner shown in FIG. FIGS. 2A and 2B are cross-sectional views taken along a cutting line crossing the center of the air conditioner of FIG. 1B in the width direction. The air conditioner 1 is a fan coil type air conditioner to which cold and hot water is supplied through a cold and hot water pipe. In particular, a plurality of individual areas separated by curtains or the like, such as a hospital room of a medical facility, are used. It is an air conditioner suitable for a room having.
[0027]
The air conditioner 1 includes a substantially rectangular parallelepiped casing 2 having a height at a front surface smaller than a vertical and horizontal length at a plane surface. An outdoor suction port 4 as a suction port for sucking air from outside is provided on the rear surface of the casing 2. In addition, an indoor suction port as a suction port for sucking air from the room is provided on the bottom surface of the casing 2. A suction duct 13 having a rectangular cross section is attached to the indoor suction port. At the lower end of the suction duct 13, a suction panel 3 having an opening for sucking air and attached to a ceiling of a room is attached.
[0028]
The casing 2 has four individual air outlets 5, 5, 5, 5 arranged at substantially equal intervals on the upper side of the front surface 2a as one surface, on both sides in the width direction of the front surface 2a. In addition, a single common outlet 7 is provided at the lower part of the front face 2a, which is disposed substantially at the center of the front face 2a in the width direction.
[0029]
As shown in FIGS. 1A and 2A and 2B, a heat exchanger 11 is provided in the casing 2 above the indoor suction port to which the duct 13 is attached. The heat exchanger 11 has a substantially rectangular plate shape and is disposed substantially parallel to the front surface 2 a of the casing 2. An air filter 15 is arranged on the upstream side of the heat exchanger 11 near the indoor suction port. Downstream of the heat exchanger 11, four sirocco fans 9, 9, 9, 9 are arranged. The four sirocco fans 9, 9... Are both suction-type sirocco fans, and are arranged on the front surface 2a of the casing 2 at substantially the same width direction positions as the four individual outlets 5, 5,. I have. The sirocco fan 9 is arranged so that the rotation axis of the blade (not shown) faces the width direction in the front surface 2a. The discharge port of the sirocco fan 9 is positioned so as to roughly face the individual outlet 5. The switching dampers 10 are arranged between the four sirocco fans 9, 9... And the four individual outlets 5, 5,.
[0030]
As shown in FIGS. 2 (a) and 2 (b), the switching damper 10 is connected to a substantially fan-shaped side plate 10a and an arc of the fan-shaped side plate 10a, and forms a right angle with the side plate 10a. And a curved weir plate 10b. 2 (a) and 2 (b), the edge of the back side of the paper surface in FIGS. 2 (a) and 2 (b) has the same shape as the side plate 10a and is connected to the arc of another side plate arranged substantially in parallel. . That is, the switching damper 10 is formed of two fan-shaped side plates arranged in parallel, and a curved weir plate 10b having both edges connected to the arc of the two side plates. A swing axis P located at the center of the sector-shaped arc is provided on the side plate 10a of the switching damper 10, and the swing axis P is driven by a motor (not shown). The switching damper 10 is oscillated around the oscillating axis P as shown by an arrow W in FIG. 2A, and the discharge port of the sirocco fan 9 is set to the individual outlet 5 or the common outlet 7. Is formed so as to communicate with each other.
[0031]
A control device 14 for controlling the operation of the air conditioner 1 is disposed on a side surface of the casing 2.
[0032]
FIG. 3 is a schematic plan view showing a state where the air conditioner 1 is installed in a hospital room of a medical facility. The sickroom 20 has four individual areas 21, 21, 21, and 21 separated by curtains, and sickbeds 23 are arranged in the individual areas 21. The area other than the four individual areas 21, 21... Of the hospital room 20 is a common area 22.
[0033]
The air conditioner 1 is installed behind the ceiling of the hospital room 20, and a cold / hot water pipe 18 for supplying cold / hot water is connected to the air conditioner 1. One end of a flexible duct 25 having a circular cross section is connected to each of the four individual outlets 5, 5, 5, 5 of the air conditioner 1, and the other end of the flexible duct 25 is connected to four individual areas 21. Are connected to individual air vents 26, 26,. In addition, one end of a flexible duct 27 having a circular cross section is connected to one common outlet 5 of the air conditioner 1, and the other end of the flexible duct 27 is connected to a common portion provided on the ceiling of the common area 22. Connected to air outlet 28.
[0034]
On the front face 2a of the casing 2 of the air conditioner 1, four individual outlets 5, 5, 5, 5 are arranged on the upper side on both sides in the width direction of the front face 2a. A common outlet 7 is arranged at substantially the center in the width direction of the common outlet 7. Therefore, when four individual areas 21, 21,... Are located around the common area 22, as shown in FIG. 3, the flexible ducts 25, 27 can be simply piped above the ceiling without crossing each other.
[0035]
The suction panel 3 at the lower end of the suction duct 13 connected to the bottom of the casing 2 is fixed to the ceiling of the hospital room 20. On the other hand, the outdoor suction port 4 on the back of the casing 2 is closed.
[0036]
A remote control 29 is arranged near the bed 23 in the individual area 21. The remote controller 29 allows a patient or the like on the sickbed 23 to specify the amount of conditioned air to be blown out from the individual air outlet 26 to the individual area 21. More specifically, the air volume from the individual air outlet 26 is designated by selecting from three modes of “low”, “medium”, and “high”. The remote controller 29 is electrically connected to the control device 14.
[0037]
The air conditioner 1 having the above configuration operates as follows. First, with the air conditioner 1 stopped, a patient in a predetermined individual area 21 among the four individual areas 21, 21,... Operates the remote controller 29 to select the “low” mode. The control device 14 having received the signal from the remote controller 29 sets the switching damper 10 corresponding to the predetermined individual area 21 to a switching position where the discharge port of the sirocco fan 9 communicates with the individual outlet 5. The switching dampers 10 other than the switching damper 10 are set to a switching position where the discharge port of the sirocco fan 9 communicates with the common outlet 7. .. Are driven at a low rotation speed. Then, room air is sucked in from the opening of the suction panel 3 on the ceiling, and the sucked room air is guided into the casing 2 via the duct 13. The room air guided into the casing 2 passes through the air filter 15 and is guided to the heat exchanger 11. In the heat exchanger 11, the indoor air exchanges heat with the cold water supplied through the cold / hot water pipe 18 to lower the temperature. The cooled conditioned air is sent to the switching damper 10 by the sirocco fan 9. Since the switching damper 10 corresponding to the predetermined individual area 21 communicates the discharge port of the sirocco fan 9 with the individual outlet 5, as shown by an arrow A in FIG. The conditioned air is guided to. On the other hand, the three switching dampers other than the switching damper 10 corresponding to the predetermined individual area 21 communicate the discharge ports of the respective sirocco fans 9 with one common outlet 7, so that the three sirocco fans 9 2 is guided to the one common outlet 7 as indicated by an arrow B in FIG. The conditioned air guided to the individual outlet 5 is guided to an individual blow port 26 via a flexible duct 25 and is blown out from the individual blow port 26 to the predetermined individual area 21. The conditioned air guided to the common outlet 7 is guided to a common air outlet 28 via a flexible duct 27, and is blown out from the common air outlet 28 to the common area 22.
[0038]
In this way, the conditioned air with a low airflow is supplied only to the predetermined individual area 21 of the four individual areas 21, 21,... And the conditioned air is supplied to the common area 22. In this case, the conditioned air having a low airflow is supplied to only one of the predetermined individual regions 21 among the four individual regions 21. However, the heat exchanger 11 of the air conditioner 1 Air of the air volume by the sirocco fans 9, 9, ... is circulated. Therefore, unlike the conventional case, only the low airflow air to be supplied to one individual area passes through the heat exchanger, and the low airflow air does not become significantly low in temperature. As a result, conditioned air at an appropriate temperature can be supplied to the predetermined individual area 21, and the patient in the individual area 21 does not feel uncomfortable as in the related art. Further, since the conditioned air is supplied to the common area 22, the common area 22 can be air-conditioned.
[0039]
When different airflows are designated to all the remote controllers 29 of the four individual areas 21, 21,..., The control device 14 having received the signals from the remote controllers 29, 29,. The rotation speed of the sirocco fan 9 corresponding to each of 21, 21,... Is set to a rotation speed corresponding to the designated air volume. Further, the switching dampers 10 corresponding to the four individual areas 21, 21,... Are switched so that the discharge ports of all the sirocco fans 9 communicate with the individual area outlets 5. As a result, the conditioned air having the air volume specified by the respective remote controllers 29 is supplied to the four individual areas 21, 21,.... Since all of the four switching dampers 10 communicate the discharge ports of the sirocco fan 9 with the individual area outlets 5, no conditioned air is guided to the common outlet 7. Therefore, no conditioned air is supplied to the common area 22.
[0040]
In this way, the total amount of the heat exchanger 11 flowing between the case where the conditioned air is supplied to only one individual region 21 and the case where the conditioned air is supplied to all four individual regions 21, 21. There is no significant difference in air volume. Therefore, even when the supply of the conditioned air to the other three individual regions 21, 21, and 21 is started in a state where the conditioned air is initially supplied to only one individual region 21, the heat exchanger 11 is not used. The amount of air flowing through does not change significantly. Therefore, the temperature of the conditioned air does not change in one individual region 21 that has been performing air conditioning from the beginning due to the influence of the start of air conditioning on the other individual regions 21.
[0041]
The switching damper 10 closes the individual outlet 5 when the outlet of the sirocco fan 9 is switched to the side communicating with the common outlet 7, so that the individual area connected to the individual outlet 5 is closed. The backflow of air from the air conditioner 21 to the air conditioner 1 and the leakage of air from the air conditioner 1 to the individual area 21 can be reliably prevented.
[0042]
In the first embodiment, cold water is supplied to the heat exchanger 11 through the cold / hot water pipe 18 to lower the temperature of the air. However, hot water is supplied to the heat exchanger 11 through the cold / hot water pipe 18 to cool the air. The temperature may be raised.
[0043]
The outdoor suction port 4 may be connected to an outside air duct or the like for guiding outside air without closing. Thus, outside air can be supplied into the sickroom 20. Alternatively, while outside air is sucked in from the outdoor suction port 4, the indoor suction port may be closed to supply only outside air to the room. Further, from the outdoor suction port 4, for example, highly purified clean air other than the outside air may be sucked.
[0044]
.. May be provided in any number other than four. For example, two individual outlets may be provided for air conditioning of a room having two individual regions.
[0045]
In addition, the air conditioner 1 may include a humidifier, a dehumidifier, an air cleaner, a sterilizer, or the like.
[0046]
FIG. 4A is a plan view showing an air conditioner according to a second embodiment of the present invention, and FIG. 4B is a cross-sectional view of the air conditioner shown in FIG. This air conditioner is a ceiling embedded cassette type air conditioner to which a refrigerant is supplied via a refrigerant pipe.
[0047]
The air conditioner 31 includes a substantially rectangular parallelepiped casing 32 having a substantially square shape in a plane. Individual outlets 35 are provided on four side surfaces of the casing 32, respectively. In this casing 32, a centrifugal blower-type fan 39 is accommodated with a rotation axis positioned substantially at the center of the casing 32 in a plane. The lower surface of the casing 32 is provided with one indoor suction port 33 and four common air outlets 37, 37, 37, 37. In FIG. 4A, the lower surface of the casing 32 is not shown, and only the common outlet 37 is shown. The indoor suction port 33 has a substantially circular shape concentric with the fan 39, and is formed so as to open to the room when the air conditioner 31 is installed on the ceiling of the room. The common outlet 37 is formed in a slender rectangular shape, and is formed so that its longitudinal direction is substantially parallel to the edge of the lower surface of the casing 32 and close to the edge of the lower surface of the casing 32. I have.
[0048]
A heat exchanger 41 is arranged in the casing 32 so as to surround the fan 39. In the plane, the common outlet 37 is located between the heat exchanger 41 and the edge of the casing 32. In the casing 32, a first damper 42 for opening and closing the common outlet 37 is provided. Further, a second damper 43 for opening and closing the individual outlet 35 is provided in the individual outlet 35 provided on the side surface of the casing 32. When the first damper 42 is closed and the second damper 43 is opened, the air that has passed through the heat exchanger 41 is guided to the individual outlet 35. On the other hand, when the first damper 42 is opened and the second damper 43 is closed, the air that has passed through the heat exchanger 41 is guided to the common outlet 37. That is, the first damper 42 and the second damper 43 function as the switching damper of the present invention. In the casing 32, a control device for controlling the first damper 42 and the second damper 43 and a motor for driving the fan 39 is arranged.
[0049]
FIG. 5 is a schematic configuration diagram of a refrigeration cycle in which the air conditioners of FIGS. 4A and 4B are used. As shown in FIG. 5, in this refrigeration cycle, a compressor 51, a first heat exchanger 52 as a condenser, an expansion mechanism 53, and a second heat exchanger 54 as an evaporator are connected in order. Become. The four-way switching valve 55 connects between the compressor 51 and the first heat exchanger 52 and between the second heat exchanger 54 and the compressor 51. By switching the four-way switching valve 55, the first heat exchanger 52 and the second heat exchanger 54 serving as a condenser and an evaporator can be operated as an evaporator and a condenser. . The second heat exchanger 54 is constituted by the heat exchanger 41 shown in FIGS. 4A and 4B, and the second heat exchanger 54 is disposed indoors.
[0050]
The air conditioner 31 is installed in the sickroom 20 in FIG. The air conditioner 31 of the present embodiment is disposed on the ceiling of the common area 22 of the sick room 20 so as to be substantially the same distance from the four individual areas 21, 21,.
[0051]
The flexible duct 25 is connected to the individual outlet 35. In the air conditioner 31 of the present embodiment, the common ventilation port 28 and the flexible duct 27 of the first embodiment are not required.
[0052]
The remote controller 29 provided in the individual area 21 is electrically connected to a control device (not shown) of the air conditioner 31.
[0053]
The air conditioner 31 operates as follows. First, when the "low" mode is selected in the remote controller 29 of the predetermined individual area 21 of the four individual areas 21, 21,. Upon receiving the signal, the control device opens the second damper 43 of the individual outlet 35 corresponding to the predetermined individual area 21. At the same time, the first damper 42 of the common outlet 37 close to the individual outlet 35 is closed. In addition, the second dampers 43 of the individual outlets 35 other than the individual outlets 35 corresponding to the predetermined individual areas 21 are closed, and the first dampers 42 of the common outlets 37 respectively adjacent to the individual outlets 35 are closed. Open. Then, the fan 39 is driven at a low rotation speed. Then, indoor air is sucked into the casing 32 from the indoor suction port 33 opened in the common area 22 as shown by an arrow D in FIG. The room air sucked into the casing 32 is guided in the centrifugal direction by the fan 39 and passes through the heat exchanger 41 surrounding the outside of the fan 39 in the radial direction. The air passing through the heat exchanger 41 exchanges heat with the low-temperature refrigerant supplied to the heat exchanger 41 to lower the temperature. The cooled conditioned air is blown out from the individual outlet 35 with the second damper 43 opened as shown by an arrow E in FIG. Be guided. On the other hand, as shown by the arrow F in FIG. 4B, the three common air outlets 37 in which the second damper 43 is closed and the first damper 42 is opened in the vicinity of the three individual air outlets 35 are closed. The conditioned air is blown out to the common area 22.
[0054]
In this way, the conditioned air with a low airflow is supplied only to the predetermined individual area 21 of the four individual areas 21, 21,... And the conditioned air is supplied to the common area 22. In this case, the conditioned air having a low airflow is supplied only to one of the predetermined individual regions 21 among the four individual regions 21. However, the heat exchanger 41 of the air conditioner 31 Air having the total air volume of the air volume for 21 and the air volume for the common area 22 is led. Therefore, only the low air volume air for one individual region passes through the heat exchanger, and the low air volume air does not become significantly low in temperature. As a result, conditioned air at an appropriate temperature can be supplied to the predetermined individual area 21, and the patient in the individual area 21 does not feel uncomfortable as in the related art. Further, since the conditioned air is supplied to the common area 22, the common area 22 can be air-conditioned.
[0055]
When different airflows are designated to all the remote controllers 29 of the four individual areas 21, 21,..., The control device 14 having received the signals from the remote controllers 29, 29,. With respect to the individual outlets 35 corresponding to 21, 21,..., Respectively, the opening degree of the second damper 43 is adjusted and opened according to the signal. At the same time, the first dampers 42 of the four common outlets 37 are all closed. Then, the rotation speed of the fan 39 is adjusted. As a result, the four individual areas 21, 21,... Are supplied with the conditioned air having the air volume specified by the respective remote controllers 29. Since all four common outlets 37 are closed, no conditioned air is supplied to the common area 22.
[0056]
Thus, the air flowing through the heat exchanger 41 is different between the case where the conditioned air is supplied to only one individual region 21 and the case where the conditioned air is supplied to all four individual regions 21, 21. There is no significant difference in the amount of Therefore, even when the supply of the conditioned air to the other three individual regions 21, 21 and 21 is started in a state where the conditioned air is initially supplied to only one individual region 21, the conditioned air passes through the heat exchanger 11. The amount of air generated hardly changes. Therefore, the temperature of the conditioned air does not change in one individual region 21 that has been performing air conditioning from the beginning due to the influence of the start of air conditioning on the other individual regions 21.
[0057]
In the second embodiment, the low-temperature refrigerant is supplied to the heat exchanger 41 via a refrigerant pipe (not shown) to lower the temperature of the air. However, the high-temperature refrigerant is supplied to the heat exchanger 41 to raise the temperature of the air. Good. In this case, the four-way switching valve 55 of the refrigeration cycle shown in FIG. 5 is switched so that the second heat exchanger 54 functions as a condenser. Thus, the high-temperature refrigerant is supplied to the heat exchanger 41 of the air conditioner 32 according to the present embodiment, which corresponds to the second heat exchanger 54.
[0058]
Further, an external air duct or the like for guiding the external air may be connected to the casing 32, and the external air may be supplied to the hospital room 20 in an air-conditioned manner. For example, highly purified air other than the outside air may be sucked.
[0059]
.. May be provided in any number other than four. For example, two individual outlets may be provided for air conditioning of a room having two individual regions.
[0060]
Further, the air conditioner 31 may include a humidifier, a dehumidifier, an air purifier, a sterilizer, or the like.
[0061]
【The invention's effect】
As is clear from the above, according to the air conditioner of the first aspect of the present invention, the suction port, the plurality of individual outlets for blowing air to be sent to the plurality of individual areas, and the air to be sent to the common area are blown out. A casing having a common outlet, a heat exchanger disposed in the casing and through which air from the suction port is guided, and allowing air to flow through the heat exchanger; Fans for sending air to the outlets and the same number as the plurality of individual outlets are provided, and each is switched so as to guide the air passing through the heat exchanger to each of the individual outlets or the common outlet. Since a plurality of switching dampers are provided, the heat exchanger passes an amount of air larger than the amount of air guided to some of the individual outlets. Individual Only air for band passes through a heat exchanger, the temperature for this one individual regions can be prevented from being greatly reduced, as a result, can supply a suitable temperature of the air in said individual regions.
[0062]
In addition, even if the number of individual outlets that blow air out of the plurality of individual outlets changes, the flow rate of air passing through the heat exchanger does not change significantly. The temperature of the air to be discharged can be stably maintained at an appropriate temperature.
[0063]
Further, both the individual area and the common area can be air-conditioned.
[0064]
According to the air conditioner according to claim 2, at least a part of the air that has passed through the heat exchanger is removed by at least one of the plurality of switching dampers from among the plurality of individual outlets. And a control device for blowing out the remaining air out of the air that has passed through the heat exchanger from the common outlet by the remaining switching damper of the plurality of switching dampers while blowing out from at least one of the plurality of switching dampers. Therefore, it is possible to prevent the air blown out from some of the plurality of individual outlets from being significantly reduced.
[0065]
Further, even if the number of the individual outlets that blows air out of the plurality of individual outlets changes, the temperature of the air blown out from the individual outlets can be stably maintained at an appropriate temperature.
[0066]
In addition, both the individual area and the common area can be air-conditioned.
[0067]
According to the air conditioner according to claim 3, the plurality of individual outlets are arranged on one of the upper stage or the lower stage on one surface of the casing, and the common outlet is disposed on the other of the upper stage or the lower stage on one surface of the casing. Since one air conditioner is arranged, the air conditioner can be made compact, and can be easily arranged, for example, behind a ceiling such as a hospital room.
[0068]
According to the air conditioner of the fourth aspect, the common outlet is disposed substantially at the center in the width direction of the one surface on which the plurality of individual outlets and the common outlet are disposed, while the individual outlet is disposed. Since the heat exchangers are arranged on both sides in the width direction of the one surface, if a heat exchanger is arranged in the casing substantially in parallel with the arrangement direction of the individual outlets, a distance between the heat exchanger and the individual outlets Is substantially the same for all the individual outlets, and the temperatures of the air blown out from the plurality of individual outlets can be made substantially the same.
[0069]
Further, ducts for connecting the individual outlets and the individual area and the ducts respectively connecting the common outlet and the common area can be simply piped, and as a result, the installation work of the air conditioner can be facilitated. Also, the space above the ceiling where this air conditioner is installed can be cleaned up.
[0070]
According to the air conditioner of the fifth aspect, since the plurality of individual outlets are four individual outlets, air conditioning of a room having four individual regions can be performed. Therefore, an air conditioner suitable for a hospital room suitable for the air conditioner can be formed.
[0071]
According to the air conditioner described in claim 6, the heat exchanger is a condenser or an evaporator in a refrigeration cycle in which a compressor, a condenser, an expansion mechanism, and an evaporator are sequentially connected. It can be used as an indoor unit such as a packaged air conditioner.
[0072]
According to the indoor air conditioning method according to the seventh aspect, when one room is partitioned into a common area and a plurality of individual areas, and conditioned air is sent to all the individual areas, supply of the conditioned air to the common area is performed. On the other hand, when there is at least one individual area that does not send conditioned air out of the plurality of individual areas, the conditioned air is also sent to the common area. It is possible to avoid that the amount of conditioned air to be sent into the room is significantly different between the case where there is at least one individual region that does not send conditioned air out of the plurality of individual regions, and If there is an individual area that does not send conditioned air in the area, it is possible to prevent the conditioned air whose temperature has dropped significantly from being sent to the individual area that sends conditioned air, and as a result, each individual area in the room is kept at an appropriate temperature. Can .
[Brief description of the drawings]
FIG. 1 (a) is a plan view showing an air conditioner according to a first embodiment of the present invention, and FIG. 1 (b) is a front view of the air conditioner shown in FIG. 1 (a). .
FIGS. 2 (a) and 2 (b) are cross-sectional views taken along a cutting line crossing the center in the width direction of the air conditioner of FIG. 1 (b).
FIG. 3 is a schematic plan view showing a state where the air conditioner is installed in a hospital room of a medical facility.
FIG. 4A is a plan view showing an air conditioner according to a second embodiment of the present invention, and FIG. 4B is a cross-sectional view of the air conditioner shown in FIG. 4A. .
FIG. 5 is a schematic configuration diagram of a refrigeration cycle in which the air conditioners of FIGS. 4A and 4B are used.
FIG. 6 is a schematic diagram showing a state where a conventional air conditioner is used in a hospital room.
[Explanation of symbols]
1 air conditioner
2 casing
3 Suction panel
4 Outdoor suction port
5 Individual outlets
7 common outlet
9 Sirocco fan
10 Switching damper
11 heat exchanger
20 sickrooms
21 Individual area
22 Common area

Claims (7)

A suction port (4, 33), a plurality of individual air outlets (5, 35) for blowing air to be sent to the plurality of individual areas (21), and a common air outlet (44) for blowing air to be sent to the common area (22). (37), a casing (2, 32) having:
A heat exchanger (11, 41) disposed in the casing (2, 32) and to which air from the suction port (4, 33) is guided;
A fan (9, 39) for flowing air through the heat exchanger (11, 41) and sending air to the plurality of individual outlets (5, 35) and the common outlet (7, 37);
The same number of the plurality of individual outlets (5, 35) are provided, and the air passing through the heat exchangers (11, 41) is supplied to the individual outlets (5, 35) or the common outlet. An air conditioner comprising: a plurality of switching dampers (10, 42, 43) that are respectively switched to lead to (7, 37). The air conditioner according to claim 1,
By at least one of the plurality of switching dampers (10, 10,...), At least a part of the air passing through the heat exchanger (11) is converted into the plurality of individual outlets (5, 5,...). Out of at least one of the plurality of switching dampers (10, 10,...), And the remaining switching dampers (10, 10,...) Of the air passing through the heat exchanger (11). An air conditioner comprising a control device (14) for blowing out the remaining air from the common air outlet (7). The air conditioner according to claim 1 or 2,
The plurality of individual outlets (5) are arranged on one of the upper stage or the lower stage of one surface (2a) of the casing,
An air conditioner characterized in that one common outlet (7) is arranged on the other of the upper stage or the lower stage of one surface (2a) of the casing. The air conditioner according to claim 3,
The common outlet (7) is arranged substantially at the center in the width direction of the one surface (2a) on which the plurality of individual outlets (5, 5...) And the common outlet (7) are arranged. An air conditioner characterized in that outlets (5, 5,...) Are arranged on both sides in the width direction of the one surface (2a). The air conditioner according to any one of claims 1 to 4,
The plurality of individual outlets (5, 5,...) Are four individual outlets (5, 5,...). The air conditioner according to claim 1,
The heat exchanger (41) includes a condenser (51) of a refrigeration cycle in which a compressor (51), a condenser (52), an expansion mechanism (53), and an evaporator (54) are sequentially connected. 52) or an air conditioner characterized by serving as an evaporator (54). Partitioning the interior of one chamber (20) into a common area (22) and a plurality of individual areas (23, 23 ...);
When sending conditioned air to all the individual areas (23, 23 ...), supply of conditioned air to the common area (22) is stopped,
When there is at least one individual area (23) not sending conditioned air among the plurality of individual areas (23, 23 ...), the conditioned air is sent also to the common area (22). Air conditioning method.

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