JP6377900B2 - Air conditioning system and building - Google Patents

Description

  The present invention relates to a building air conditioning system and a building equipped with the air conditioning system.

  Conventionally, many air conditioning systems for buildings have been proposed and put into practice.

  In such a conventional air conditioning system, a heat exchanger is provided in an air conditioner constituting the system, and heating and cooling are possible (see, for example, Patent Document 1).

JP 2011-214799 A

  However, in the conventional air conditioning system including Patent Document 1, the air passing through the air conditioner from the suction side to the blowout side must pass through the heat exchanger, resulting in a pressure loss. When air was blown out, a considerably large output was required in consideration of this pressure loss.

  Therefore, an object of the present invention is to provide an air conditioning system capable of blowing air with a large air volume even with a small output, and a building including the air conditioning system.

  In order to achieve the above object, the air conditioning system of the present invention has an air conditioner installed in a building, and the air conditioner has a suction portion connected to an air cleaning means on the upstream side of the casing, A blowout part is provided on the downstream side, and the internal space of the casing is partitioned into an upstream space and a downstream space by a ventilation contact type heat exchanger, and the inner surface of the casing and the heat An on-off valve is provided between the periphery of the exchanger, and when the on-off valve is opened, a bypass ventilation path that connects between the upstream space and the downstream space in the casing is formed. It is characterized by being.

  Here, it is preferable to have a plurality of the on-off valves.

  Moreover, the said air conditioner is good to be installed in the underfloor space of the said building.

  Furthermore, the said air conditioner is good also to have the blowing part for underfloor which can blow off air to the said underfloor space in the downstream of the said casing.

  Also, an air supply port and an exhaust port are provided facing the above-floor space directly above the under-floor space of the building, and the air cleaning means is provided between the suction portion of the air conditioner and the exhaust port. It is good to be connected by the duct between the blowing part of the air-conditioning device and the air supply port.

  Further, the air cleaning means may be a filter box.

  Further, the air cleaning means may be a gas-liquid contact type air cleaning device.

  The building of the present invention includes the air conditioning system described above.

  In such an air conditioning system of the present invention, an air conditioner is installed in a building, and the air conditioner has a suction portion connected to an air cleaning means on the upstream side of the casing, and a blowout portion on the downstream side. The internal space of the casing is divided into an upstream space and a downstream space by a ventilation contact type heat exchanger, and is opened and closed between the inner surface of the casing and the periphery of the heat exchanger A valve is provided, and when the on-off valve is opened, a bypass ventilation path that connects the upstream space and the downstream space in the casing is formed.

  Because of the above-described configuration, when blowing air with a large air volume from the blowout part of the air conditioner, the bypass valve that opens the on-off valve and connects between the upstream space and the downstream space in the casing is provided. If it controls so that it may form, since air passing through a bypass ventilation passage has almost no pressure loss, air can be blown out with a large air volume even with a small output.

  Here, when a plurality of on-off valves are provided, for example, when the air flow is important, the plurality of on-off valves are opened so that a large amount of air passes through a plurality of bypass ventilation paths with almost no pressure loss. When temperature control is important, the plurality of on-off valves may be closed so that all the air passes through the heat exchanger.

  Moreover, when the air conditioner is installed in the underfloor space of the building, the temperature environment is stable throughout the year, and the underfloor space, which is usually a dead space, can be effectively used.

  In addition, when the air conditioner also has an underfloor blowing section that can blow air into the underfloor space on the downstream side of the casing, the temperature-controlled air is blown out from the underfloor blowing section to air-condition the floor space substantially uniformly. Underfloor air conditioning that can be performed (especially underfloor heating) can be performed.

  In addition, an air supply port and an exhaust port are provided facing the above-floor space directly above the under-floor space of the building, and the air inlet unit and the exhaust port are connected by a duct via an air cleaning means. If the air outlet is connected to the air supply port with a duct, air conditioning air is blown into the space above the floor using the air conditioner installed in the space below the floor. Floor air conditioning (floor heating and floor cooling) that can immediately air-condition the space can be performed.

  Further, when the air cleaning means is a filter box, a larger filter can be provided outside the air conditioner, and the maintenance frequency can be reduced.

  Further, when the air cleaning means is a gas-liquid contact type air cleaning device, the gas-liquid contact type air cleaning device replaces the filter, and it is not necessary to replace the filter.

  Such a building of the present invention is configured to include the air conditioning system of the present invention.

  Since it is an above-mentioned composition, it can be considered as a building which has an effect of an above-mentioned air-conditioning system of the present invention.

It is explanatory drawing explaining the schematic structure of the building provided with the air conditioning system of the Example. It is explanatory drawing which shows schematic structure of the indoor unit of the air conditioner as an air conditioner of an Example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, modes for carrying out the present invention will be described based on examples shown in the drawings.

  First, the configuration of the embodiment will be described.

  Drawing 1 shows the schematic structure of building 1 provided with the air-conditioning system of an example.

  The building 1 includes a foundation bottom concrete 1b constructed as a heat insulating foundation, a foundation side wall concrete 1c erected on the side edge, an outer wall part 1d erected on the foundation side concrete, and an upper end of the outer wall part 1d. It is mainly comprised from the ceiling part 1e which plugs up opening.

  The space surrounded by the ceiling portion 1e and the outer wall portion 1d has a configuration in which a floor space 1 and a floor space 6 used for a living room or the like are separated by a floor portion 1a.

  Further, a heat insulating material 2 such as glass wool is attached to the underfloor space 3 side of the foundation side wall concrete 1c so that heat in the underfloor space 3 is prevented from leaking to the outside as much as possible.

  In the underfloor space 3, an indoor unit 5 of an air conditioner as a blow-out type air conditioner is installed.

  Here, the indoor unit 5 of this air conditioner is a heat pump type, and is connected to the outdoor unit 4 installed outside the building 1 by a heat medium circulation conduit.

  Further, the indoor unit 5 of this air conditioner has a dehumidifying function and is provided with a drain 7 for drainage that penetrates from the underfloor space 3 to the outdoors.

  Further, the indoor unit 5 of this air conditioner has a suction part 51 on the upstream side thereof, and has blowout parts 52 and 52 for the floor and a blowout part 53 for the underfloor on the downstream side thereof. .

  The indoor unit 5 of the air conditioner has a built-in control unit 5a.

  Further, the floor portion 1a is provided with exhaust ports 9, 9 and two types of air supply ports 10, 10, 11 with a grill.

  Here, the air inlets 10 and 10 are respectively connected to the blowout part 52 for the floor of the indoor unit 5 of the air conditioner by the duct 82, and the other air inlet 11 is a space under the floor without the duct. 3 communicates directly.

  Moreover, the indoor unit 5 of the air conditioner has suction portions 51 and 51 on the downstream side, and the suction portions 51 and 51 and the exhaust ports 9 and 9 are also connected by a duct 81, respectively.

  Further, a filter box 12 as an air cleaning means is provided in the middle of the ducts 81 and 81.

  A remote controller 13 as a controller is also provided in the floor space 6.

  By sending an operation signal to the control unit 5a by the remote controller 13, the floor air conditioning (floor heating and floor cooling) that blows the temperature-controlled air from the floor blowing units 52 and 52, and the temperature from the floor blowing unit 53 are heated. Underfloor air conditioning (underfloor heating and underfloor cooling) that blows out conditioned air is possible.

  In addition, it has the ventilation function which blows off the air for ventilation from the blowing parts 52 and 52 for floors, the blowing part 53 for floors, or both.

  Next, the indoor unit 5 of the air conditioner will be described in more detail as the air conditioner of the air conditioning system of the embodiment.

  FIG. 2 shows a schematic configuration of the indoor unit 5 of the air conditioner as the air conditioner of the air conditioning system of the embodiment.

  As shown in FIG. 2, the indoor unit 5 of the air conditioner as the air conditioner of this embodiment is provided with a ventilation contact type heat exchanger 5b in a casing 50 forming an outer shell.

  The internal space of the casing 50 is partitioned into an upstream space 50A and a downstream space 50B by the heat exchanger 5b.

  In addition, although illustration was abbreviate | omitted, the heat-medium circulation pipe line from the outdoor unit 4 is connected to this heat exchanger 5b.

  Further, an on-off valve 54 is provided between the inner surface of the casing 50 and the upper end and lower end of the heat exchanger 5b.

  When the on-off valves 54 and 54 are opened, two bypass ventilation paths 50C and 50C are formed as illustrated.

  In particular, when the air volume is more important than temperature control, the on-off valves 54 and 54 are preferably opened, and the amount of air passing through the bypass ventilation paths 50C and 50C is determined by the opening set by the on-off valves 54 and 54. It is possible to adjust the amount of air passing through the bypass ventilation path 50 </ b> C by opening only the open / close valve 54 on one side.

  In addition, the arrow in FIG. 2 has shown the flow of air.

  When the on-off valves 54 and 54 are closed, the bypass ventilation paths 50C and 50C are closed, and the air sucked from the suction portions 51 and 51 must always pass through the heat exchanger 5b.

  In particular, when temperature control is more important than the air volume, the on-off valves 54 and 54 are preferably closed.

  In addition, fans 55 as forced blowing means are respectively provided in the blowout portions 52 and 52 for the floor and the blowout portion 53 for the underfloor.

  The underfloor outlet 53 is provided with a backflow prevention valve 53a.

  Furthermore, although detailed description of the operation pattern of the air conditioning system of this embodiment is omitted, on-floor air conditioning (floor heating, on-floor cooling) that blows temperature-controlled air from the blowout units 52 and 52 for the floor and the blowout unit 53 for the underfloor. ), Underfloor air conditioning (underfloor heating, underfloor cooling), blowout units 52 and 52 for the floor, blowout air from the blowout unit 53 for the underfloor. As described above, the opening / closing control of the opening / closing valves 54, 54 is performed.

  Next, functions and effects of the embodiment will be described.

  In the air conditioning system of such an embodiment, an indoor unit 5 of an air conditioner as an air conditioner is installed in a building 1, and the indoor unit 5 of the air conditioner serves as an air cleaning means upstream of the casing 50. It has a suction part 51 connected to the filter box 12, and has blowout parts 52, 52 for the floor on the downstream side. The internal space of the casing 50 is upstream of the ventilation contact type heat exchanger 5b. It is partitioned into a space 50A and a downstream space 50B, and open / close valves 54, 54 are provided between the inner surface of the casing 50 and the periphery of the heat exchanger 5b, and the open / close valves 54, 54 are opened. Then, the bypass ventilation path 50C that connects the upstream space 50A and the downstream space 50B in the casing 50 is formed.

  With the above-described configuration, when the air is blown out from the blowout portions 52, 52 for the indoor unit 5 of the air conditioner as an air conditioner with a large air volume, the on-off valves 54, 54 are opened, If control is performed so as to form a bypass ventilation path 50C that connects between the upstream space 50A and the downstream space 50B, the air passing through the bypass ventilation path 50C has almost no pressure loss. Air can be blown out.

  Here, a plurality of on-off valves 54 are provided.

  For this reason, for example, when the air volume is important, the plurality of on-off valves 54, 54 are all opened so that a large amount of air passes through the plurality of bypass ventilation paths 50C, 50C with almost no pressure loss. When the adjustment is important, the plurality of on-off valves 54, 54 may be closed so that all the air passes through the heat exchanger 5b.

  An indoor unit 5 of an air conditioner as an air conditioner is installed in the underfloor space 3 of the building 1.

  For this reason, the temperature environment is stable throughout the year, and the underfloor space 3 that is normally a dead space can be effectively used.

  Furthermore, the indoor unit 5 of the air conditioner as an air conditioner also has an underfloor blowing portion 53 capable of blowing air into the underfloor space 3 on the downstream side of the casing 50.

  For this reason, under-floor air conditioning (especially under-floor heating) can be performed, in which temperature-controlled air is blown out from the blow-out part 53 for under-floor, and the above-floor space 6 can be air-conditioned substantially uniformly.

  In addition, air supply ports 10 and 10 and exhaust ports 9 and 9 are provided facing an above-floor space 6 directly above the under-floor space 3 of the building 1, and a suction portion of an indoor unit 5 of an air conditioner as an air conditioner. 51 and 51 and exhaust ports 9 and 9 are connected to each other by a duct 81 through a filter box 12 as an air purifying means, and are blown out on the floor of an indoor unit 5 of an air conditioner as an air conditioner. The ducts 82 are connected between the portions 52 and 52 and the air supply ports 10 and 10, respectively.

  For this reason, using the indoor unit 5 of an air conditioner as an air conditioner installed in the underfloor space 3, air conditioning air is blown to the above-floor space 6 and the above-floor space 6 can be immediately air-conditioned (on-floor air conditioning) Floor heating and floor cooling).

  Further, the air cleaning means is a filter box 12.

  For this reason, a larger filter can be provided outside the indoor unit 5 of the air conditioner as the air conditioner, and the frequency of maintenance can be reduced.

  As mentioned above, although the form for implementing this invention was explained in full detail based on the Example with reference to drawings, the concrete structure is not limited to this Example, and is a grade which does not deviate from the summary of this invention. Design changes are included in the present invention.

  For example, in the above-described embodiment, the structure of the building 1 is simplified so that the air conditioning system of the present invention can be easily described. However, the present invention is not limited to this, and may be implemented in a more complex building. .

  In the above-described embodiment, the filter box 12 as the air cleaning means is provided outside the indoor unit 5 of the air conditioner as the air conditioner. However, the present invention is not limited to this, and the filter box 12 is provided inside. Also good.

  Furthermore, in the above-described embodiment, the filter box 12 is used as the air cleaning means. However, the present invention is not limited to this, and for example, the air cleaning device (air washer) may be used. Good.

  As described above, when the gas-liquid contact type air cleaning device is used as the air cleaning means, the gas-liquid contact type air cleaning device replaces the filter and there is no need to replace the filter.

  In the above-described embodiment, two exhaust ports 9 and two air supply ports 10 are provided. However, the present invention is not limited to this, and a number corresponding to the size of the floor space 6 may be provided.

  Furthermore, in the above-described embodiment, two open / close valves 54 are provided. However, the present invention is not limited to this, and only one may be provided, or three or more may be provided.

DESCRIPTION OF SYMBOLS 1 Building 1a Floor part 1b Foundation bottom base concrete 1c Foundation side wall concrete 1d Outer wall part 1e Ceiling part 2 Heat insulating material 3 Underfloor space 4 Outdoor unit of an air conditioner 5 Indoor unit (air conditioner) of an air conditioner
5a Control section 5b Heat exchanger 50 Casing 50A Upstream space 50B Downstream space 50C Bypass ventilation path 51 Suction section 52 Blow section 53 Blow section 53a Backflow prevention valve 54 Open / close valve 55 Fan (forced blow) means)
6 Floor space 7 Drain 81 Duct 82 Duct 9 Exhaust port 10 Air supply port 11 Another air supply port 12 Filter box (air purification means)
13 Remote controller (controller)

Claims (7)

An air conditioner is installed under the floor of the building,
The air conditioner includes a suction unit connected to the air-cleaning means on the upstream side of the casing, Propelled by one blowout portion downstream,
The inner space of the casing is partitioned into an upstream side space and a downstream space breathable contact heat exchanger,
A plurality of on- off valves are provided between the inner surface of the casing and the periphery of the heat exchanger, and when the on-off valves are opened, the upstream space and the downstream space in the casing A bypass ventilation path connecting between
The suction part is connected to an exhaust port provided in a floor part facing the above-floor space directly above the under-floor space;
The blowing unit blows out the air that has passed through the heat exchanger and the bypass ventilation path, and each of the blowing units includes a fan, and is connected to an air supply port provided in the floor space via a duct. A blowout unit for the floor, and a blowout unit for the floor that blows air into the underfloor space,
Underfloor air conditioning with temperature-controlled air blown out from the air conditioner, equipped with a control unit capable of on-floor air conditioning,
The control unit opens the open / close valve when the air volume is more important than temperature control, and closes the open / close valve when the temperature control is more important than the air volume. The air conditioning system according to claim 1, wherein the control unit opens and closes the plurality of on-off valves independently . The air conditioning system according to claim 1 or 2 , wherein when the air volume is important, the air is blown out with a large air volume from the blowing unit on the floor . Air conditioning system as claimed in any one of claims 1 to 3, characterized in that between the suction portion and the outlet port of the air conditioning system it is connected with the duct through the air cleaning unit.   The air conditioning system according to any one of claims 1 to 4, wherein the air cleaning means is a filter box.   The air conditioning system according to any one of claims 1 to 4, wherein the air cleaning means is a gas-liquid contact type air cleaning device.   A building comprising the air conditioning system according to any one of claims 1 to 6.