JPH01111146A - Air conditioning system - Google Patents
Air conditioning systemInfo
- Publication number
- JPH01111146A JPH01111146A JP26892787A JP26892787A JPH01111146A JP H01111146 A JPH01111146 A JP H01111146A JP 26892787 A JP26892787 A JP 26892787A JP 26892787 A JP26892787 A JP 26892787A JP H01111146 A JPH01111146 A JP H01111146A
- Authority
- JP
- Japan
- Prior art keywords
- air
- port
- heat exchanger
- full heat
- exhaust
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 238000004378 air conditioning Methods 0.000 title claims abstract description 12
- 230000007246 mechanism Effects 0.000 claims abstract description 14
- 238000005192 partition Methods 0.000 claims description 5
- 238000007664 blowing Methods 0.000 claims description 2
- 238000012423 maintenance Methods 0.000 abstract description 3
- 238000009423 ventilation Methods 0.000 abstract description 3
- 238000010276 construction Methods 0.000 description 4
- IJGRMHOSHXDMSA-UHFFFAOYSA-N Atomic nitrogen Chemical compound N#N IJGRMHOSHXDMSA-UHFFFAOYSA-N 0.000 description 2
- 229910052757 nitrogen Inorganic materials 0.000 description 2
- 238000001816 cooling Methods 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000030279 gene silencing Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000011045 prefiltration Methods 0.000 description 1
- 238000011084 recovery Methods 0.000 description 1
- 230000001743 silencing effect Effects 0.000 description 1
Landscapes
- Central Air Conditioning (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は建造物等に配設されている空気調和機構におい
て空調機、全熱交換器の送気口の統一化を計かると共に
複雑で多岐多様に亘るダクト工事を著るしく簡略とした
空気調和システムに関する。[Detailed Description of the Invention] The present invention aims to unify the air supply ports of air conditioners and total heat exchangers in air conditioning systems installed in buildings, etc., and also facilitates complicated and diverse duct work. Concerning a significantly simplified air conditioning system.
従来、屋内に冷暖気を供給しようとする機構所謂、空気
調和システムは床置型或は天吊型空調機、全熱交換器等
を所定の場所に配置すると共に此れらを各ダクト施工に
て接続連結し、各ダクトの中間部に取付けられたダンパ
ーの操作にて前記室内に供給する空気の風量調整、外気
の混合、ハパイノパス回路による外気冷房、CO2除去
のための排気の調整、熱回収量の調整等が行なわれてい
たのである。Conventionally, the so-called air conditioning system that attempts to supply cooled and warmed air indoors has a floor-mounted or ceiling-mounted air conditioner, a total heat exchanger, etc. placed in a predetermined place, and these are installed in each duct. Adjustment of the volume of air supplied to the room by operating a damper connected and installed in the middle of each duct, mixing of outside air, cooling of outside air by Hapainopass circuit, adjustment of exhaust air for CO2 removal, amount of heat recovery Adjustments were being made.
而るに前記機構において一般に用いられている空調機、
全熱交換器の送気口の方向性がきわめて不統一であるが
ために夫々のダクトに取付けられているダンパーおよび
センサー機構の取付位置等によっては該ダクトの配設部
分が非常に広範囲にまたがり、更に前記ダクト施工と同
時に、騒振音防止用としての消音チャンバー、分岐チャ
ンバー、サプライチャンバー等の種々機構も配設しなく
てはならず、此れがために天井内におけ7るニダ乞ト構
造が多岐多様に亘って複雑となりメンテナンス等の作業
に支障を生せしめるは勿論のこと、重量となり、特に狭
隘なる天井内での工事が全く不可能にてその一部が室内
に露出する等して該室内の意匠感、有効面等においても
種々の問題があった。However, the air conditioner commonly used in the above mechanism,
Since the direction of the air inlet of the total heat exchanger is extremely inconsistent, the installation part of the duct may span a very wide range depending on the mounting position of the damper and sensor mechanism attached to each duct. Furthermore, at the same time as the above-mentioned duct construction, various mechanisms such as a silencing chamber, a branching chamber, a supply chamber, etc., must be installed to prevent noise and vibration, and as a result, there is a problem with the construction of the ducts in the ceiling. The structure is diverse and complex, which not only hinders maintenance work, but also adds weight, making it impossible to work inside the ceiling, which is particularly narrow, and parts of it are exposed indoors. However, there were various problems in terms of the interior design and effectiveness of the room.
本発明は叙上の問題に鑑みて斯かる従来の空気調和シス
テムの欠点を根本的に解決行なわしめんとするものであ
って全熱交換器、空調機の上部或は側面、若しくは該上
側面の直近箇処に送風、吸込、給排気、還気等の送気口
を夫々開口設け、此れらの送気口を、内部を多数の仕切
板にて区画し、多数の送気通路を形成すると共に該送気
通路内に夫々ダンパー、センサー等の機構を設けてなる
多目的空気チャンバーの給排各送気口部に夫々を連通接
続するように構成させたことを特徴とする空気調和シス
テムを汎く提供しようとするものである。In view of the above-mentioned problems, the present invention aims to fundamentally solve the drawbacks of the conventional air conditioning system. Openings for air blowing, suction, air supply/exhaust, return air, etc. are provided in the vicinity of the air outlet, and the interior of these air openings is partitioned with a number of partition plates to create a large number of air passages. An air conditioning system characterized in that the air conditioning system is configured to be connected to each air supply/exhaust port of a multipurpose air chamber, which is formed of a multipurpose air chamber and has mechanisms such as a damper and a sensor provided in the air passage. The aim is to provide a wide range of information.
以下、本発明の実施の態様を例示する図面に付いて詳説
すると、(1)は多目的空気チャンバーにて第1図示の
点線で示す如く器筐の局面部に還気口A、外気取入口B
、排気口C1排気機構との接続口り、E、全熱交換器と
の接続口F、G、H1室内への給気口■、空調機との接
続口J、にの各口部を開口設けると共に内部を数枚の仕
切板にて数層、数案に区切り、後記する多数の送風路ア
、イ、つ、工、オ、力、キ、りを形成設け、更に該一部
の仕切板にダンパ機構a、b、c、d、eを開閉調整自
在に装設して前記還気口Aを排気機構との接続口りおよ
び全熱交換器の接続口Gと空調機の接続口Kに、外気取
入口Bを全熱交換器の接続口Fと空調機の接続口Kに、
全熱交換器の接続口Eを排気口Cに、全熱交換器の接続
口Hを空調機の接続口に、空調機との接続口Jを室内へ
の給気ロエに、夫々を連通ずる各送風路ア、イ、つ、工
、オ、力、キ、りにて形成されている。The embodiments of the present invention will be explained in detail below with reference to the drawings that illustrate the embodiments of the present invention.(1) is a multi-purpose air chamber with a return air port A and an outside air intake port B in the curved part of the case as shown by the dotted line in the first drawing.
, exhaust port C1 connection port with the exhaust mechanism, E, connection port F and G with the total heat exchanger, H1 air supply port into the room ■, and connection port J with the air conditioner. At the same time, the interior is divided into several layers and several plans with several partition plates, and a large number of ventilation channels (A, A, T, O, O, K, K, R), which will be described later, are formed, and further partitions are provided for some of the sections. Damper mechanisms a, b, c, d, and e are installed on the plate so that they can be opened and closed, and the return air port A is connected to the exhaust mechanism, and the connection port G of the total heat exchanger and the air conditioner are connected. K, outside air intake B to total heat exchanger connection port F and air conditioner connection port K,
Connect the connection port E of the total heat exchanger to the exhaust port C, connect the connection port H of the total heat exchanger to the connection port of the air conditioner, and connect the connection port J with the air conditioner to the air supply to the room. Each ventilation path is formed by A, A, T, E, O, Force, Ki, and R.
更に前記各送風路アーテの必要箇処にはセンサーが取付
けられており、センサー信号、コントロ−ルシボ:グク
ス■よりの信号にて夫々のダンパー機構a−eを操作し
送気量を調整する。Furthermore, sensors are installed at necessary locations in each of the air passages, and the amount of air being blown is adjusted by operating the respective damper mechanisms a to e in response to sensor signals and signals from the control arm.
また使用目的等によっては内部の仕切板を増減して各室
チャンバー構造を任意に追加、減少、簡略とすることも
可能である。Depending on the purpose of use, it is also possible to add, reduce, or simplify the structure of each chamber by increasing or decreasing the number of internal partition plates.
全熱交換器(2)は上部に排気バイパス口D、排気口t
、外気取入口V、還気入口d、給気口Hを夫々並列状に
開口設け、内部に前記各口部b−n、6−c;と6−i
とi−Aを夫々U型状の送風路LSM%Nにて連通して
なるもので送風路前、N内には排気ファン(4)、給気
ファン(5)を、M、N内に全熱交換コイル(6)が夫
々配設されている。空調機(3)は上部に外気の還気口
に1給気口J′を並列に開設し、機内にU型状の送風路
Pを形成設け、該送風路P内にプレフィルタ(7)、熱
交換コイル(8) 、送風ファン(9) 、メインフィ
ルタQ0等の機構を各配置設けてなるものである。The total heat exchanger (2) has an exhaust bypass port D and an exhaust port T at the top.
, an outside air intake port V, a return air inlet d, and an air supply port H are opened in parallel, and each of the above-mentioned openings b-n, 6-c; and 6-i are provided inside.
and i-A are connected through a U-shaped air passage LSM%N, and in front of the air passage, an exhaust fan (4) and an air supply fan (5) are installed in N, and M and N are connected to each other. A total heat exchange coil (6) is provided respectively. The air conditioner (3) has one air supply port J' opened in parallel with the outside air return port at the top, a U-shaped air passage P is formed inside the machine, and a pre-filter (7) is installed in the air air passage P. , a heat exchange coil (8), a blower fan (9), a main filter Q0, and other mechanisms are provided in various locations.
なお、前記全熱交換器(2)ならびに空調機(3)の各
開口部は場合によっては機体の側面および直近側面等に
開設することもある。Note that the openings of the total heat exchanger (2) and the air conditioner (3) may be provided on a side surface of the aircraft body or a nearby side surface, depending on the case.
本発明は叙上の多目的空気チャンバー(1)、全熱交換
器(2)、空調機(3)により構成されているものであ
って、全熱交換器(2)、空調機(3)を室内外の所定
の箇処に設置し、而る後に多目的空気チャンバー(1)
の還気口Aを室内の空気受入口Xに、外気取入口ならび
に排気口B、Cを室外の外気取入口Bならびに排気口C
に、また排気機構との接続口り、Eを全熱交換器(4)
のバイパス口bおよび排気口Eに、全熱交換器との接続
口F、Gを全熱交換器(4)の外気取入口および還気入
口dに、全熱交換器との接続口Hを全熱交換器(4)の
給気口Hに、また室内への給気口Iを室内の送気口rに
、空調機との接続口J1Kを空調機(5)の外気の還気
口にならびに給気口Jに夫々をダクト施工にて各連通接
続する。The present invention is composed of the above-mentioned multipurpose air chamber (1), total heat exchanger (2), and air conditioner (3). Installed at a designated location indoors or outdoors, and then turned into a multipurpose air chamber (1)
The return air port A of the room is connected to the indoor air intake port X, and the outside air intake port and exhaust ports B and C are connected to the outdoor air intake port B and exhaust port C.
In addition, the connection port with the exhaust mechanism, E is the total heat exchanger (4)
Connect ports F and G with the total heat exchanger to the bypass port b and exhaust port E of the total heat exchanger (4), and connect the connection port H with the total heat exchanger to the outside air intake and return air inlet d of the total heat exchanger (4). Connect the air supply port I to the indoor air supply port R to the air supply port H of the total heat exchanger (4), and connect the connection port J1K to the air conditioner to the outside air return port of the air conditioner (5). and the air supply port J by constructing ducts.
また前記全熱交換器(2)、空調機(3)には床置型、
天吊型等の型式のものが用いられているが、該型式に適
合するように多目的空気チャンバー(1)が形成されて
いることは謂うまでもない。In addition, the total heat exchanger (2) and the air conditioner (3) are of floor-standing type,
A ceiling-suspended type or the like is used, and it goes without saying that the multipurpose air chamber (1) is formed to be compatible with this type.
以上の如く、本発明に係る空気調和システムは上面或は
側面および該側面直近箇処に給、排、還気の各送気口部
を開設してなる全熱交換器(2)と空調機(3)を多数
の送気チャンバー室を形成せる多目的空気チャンバー(
1)の各口部に連通接続することによって、各送、還気
等の方向性が完全に統一され、以てダクト施工がきわめ
て簡略化となり何如に狭隘なる天井においても該施工工
事が安楽にて簡単であるは勿論、特に従来、夫々機構に
各県別に取付けられていたダンパーモータ、ダンパー機
構およびセンサー装置も一箇処に集約され、此れらの操
作、メンテナンスが頗ぶる容易確実に行なわれる等の利
点を有している。As described above, the air conditioning system according to the present invention includes a total heat exchanger (2) having air supply, exhaust, and return air ports provided on the top or side surface and in the vicinity of the side surface, and an air conditioner. (3) A multipurpose air chamber that can form multiple air supply chambers (
By connecting each port of 1), the directions of each air supply, return air, etc. are completely unified, which greatly simplifies the duct construction and makes the construction work easy even in the narrowest of ceilings. Not only is it easy to use, but the damper motor, damper mechanism, and sensor device, which were conventionally attached to each mechanism separately, are now all in one place, making operation and maintenance extremely easy and reliable. It has advantages such as:
更に本発明においては、前記多目的空気チャンバー (
1)自体が消音効果を有しているがため・に室内への騒
;振音をも著しく低減緩和でき得乞は勿論のこと、レタ
ーニチャンバー、ミキシングチャンバー、還気排気チャ
ンバー、バイパスチャンバー、サプライチャンバー、ニ
ゲシーストチャンバー、室内空気還気用分岐用チャンバ
ー、空調機用チャンバー、全熱交換器用チャンバー等種
々の用途にも兼用でき得る等、甚大なる効果をも併せ有
するものである。Further, in the present invention, the multipurpose air chamber (
1) Since it itself has a silencing effect, it can significantly reduce and alleviate the noise and vibrations entering the room, as well as the retani chamber, mixing chamber, return air exhaust chamber, bypass chamber, It also has tremendous effects, such as being able to be used for various purposes such as a supply chamber, a nitrogen storage chamber, a branching chamber for indoor air return, an air conditioner chamber, and a total heat exchanger chamber.
第1図は本発明空気調和システムの構成図。
第2図は同上、外観図である。
符号の説明
(1)多目的空気チャンバー (2)全熱交換器(3
)空調機FIG. 1 is a block diagram of the air conditioning system of the present invention. FIG. 2 is an external view of the same as above. Explanation of symbols (1) Multipurpose air chamber (2) Total heat exchanger (3
)air conditioner
Claims (1)
の直近箇処に送風、吸込、給排気、還気等の送気口を夫
々開口設け、此れらの送気口を、内部を多数の仕切板に
て区画し、多数の送気通路を形成すると共に該送気通路
内に夫々ダンパー、センサー等の機構を設けてなる多目
的空気チャンバーの給排各送気口部に夫々を連通接続す
るように構成させたことを特徴とする空気調和システム
。Air supply ports for blowing air, suction, air supply/exhaust, return air, etc. are opened on the top or side of the total heat exchanger and air conditioner, or in the vicinity of the top side, and these air ports are The interior of the multi-purpose air chamber is divided by a number of partition plates to form a number of air supply passages, and mechanisms such as dampers and sensors are provided in each of the air supply passages. An air conditioning system characterized in that the air conditioning system is configured such that the two are connected in communication.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP26892787A JPH01111146A (en) | 1987-10-24 | 1987-10-24 | Air conditioning system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP26892787A JPH01111146A (en) | 1987-10-24 | 1987-10-24 | Air conditioning system |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH01111146A true JPH01111146A (en) | 1989-04-27 |
JPH0318103B2 JPH0318103B2 (en) | 1991-03-11 |
Family
ID=17465212
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP26892787A Granted JPH01111146A (en) | 1987-10-24 | 1987-10-24 | Air conditioning system |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH01111146A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015038395A (en) * | 2012-10-30 | 2015-02-26 | 木村工機株式会社 | Outside air treatment air conditioner |
-
1987
- 1987-10-24 JP JP26892787A patent/JPH01111146A/en active Granted
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015038395A (en) * | 2012-10-30 | 2015-02-26 | 木村工機株式会社 | Outside air treatment air conditioner |
Also Published As
Publication number | Publication date |
---|---|
JPH0318103B2 (en) | 1991-03-11 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
LAPS | Cancellation because of no payment of annual fees |