JPS61143657A - Air conditioning device - Google Patents

Abstract

PURPOSE:To reduce the inactive heat dissipation of the heat quantity of an auxiliary heat source and consequently enhance the air conditioning efficiency by a structure wherein an air flow passage, in which the auxiliary heat source and a fan are interposed and to which a ducting passage enabling to circulate the air between a room and the title device is connected, is provided within a base box. CONSTITUTION:An air flow passage 15 consisting of an air feeding passage 9 and a ducting passage 10, which is composed of a first duceting passage 11 and a second ducing passage 12 connected with each other by an opening 62, is formed by partitioning the interior of a bvase box 2 with a partition plate 59, at the lower part of which a damper 13 is arranged. An auxiliary heat source 17 is interposed in the ducting passage 10 at a second air vent 7. A fan 17 is installed in the first ducting passage 11 beneath the partition plate so as to suck the air in the ducting passage 10 from ghe second air vent 7, pass it through the ducting passage 10 and discharge it from a first air vent 6 by rotating the fan 17 in order to circulate the air between a room and the title device.

Description

【発明の詳細な説明】 〔技術分野〕 本発明は、補助＃）源により得られる熱量を活用しつつ
太陽熱によって空調しうるようにした空調装置に関する
。DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to an air conditioner capable of air conditioning using solar heat while utilizing the amount of heat obtained from an auxiliary source.

〔背景技術〕[Background technology]

太陽熱によって加温された空気を部屋に循環させ、部屋
を暖房するようにした空調装置が多用されつつあるが、
このように太陽熱を利用した装置では、曇天等、日射量
が減じるときには空調能率が低下する。従って補助熱源
を用いて空気を再加温することも行われている。Air conditioners that heat rooms by circulating air heated by solar heat are becoming more and more popular.
In devices that utilize solar heat in this way, air conditioning efficiency decreases when the amount of solar radiation decreases, such as on cloudy days. Therefore, auxiliary heat sources are also used to rewarm the air.

しかし従来のものは、例えば第６図に示すように部屋Ｒ
に独立した補助熱１１Ａを設けているため、太陽熱集熱
器Ｃと補助熱源Ａとを併用する際には、補助熱源Ａによ
って加熱された空気は、太陽熱集、熱６ｃをへてその全
てが循環するため、ダクトＢ１太陽熱集熱ＩＩＣを通る
間に放熱し、補助熱源Ａの熱量を損失しがちとなる。However, in the conventional system, for example, as shown in FIG.
Since an independent auxiliary heat source 11A is provided in the Because of the circulation, heat is radiated while passing through the duct B1 solar heat collection IIC, and the amount of heat from the auxiliary heat source A tends to be lost.

なお第７図に示すように、太陽熱集熱器Ｃを、上流側に
補助熱源Ａを有するダクトＢを用いて、階上、階下など
複数の部屋Ｒ１，Ｒ２を同時に空調することも行われて
いるが、このものでは、１つの部屋Ｒ１又はＲ２のみに
、補助熱源Ａを用いて補助加温した空気を送り込めない
他、第６図の装置と同様に、補助熱源Ａの熱量が太陽熱
集熱器Ｃ、ダク）Ｂを流過する間に放熱し、熱損失を生
じるという問題がある。As shown in Fig. 7, it is also possible to simultaneously air-condition multiple rooms R1 and R2, such as those on the upper and lower floors, by using a duct B that has an auxiliary heat source A on the upstream side of the solar heat collector C. However, with this device, air that has been auxiliary heated using auxiliary heat source A cannot be sent to only one room R1 or R2, and similarly to the device shown in Fig. 6, the heat amount of auxiliary heat source A is There is a problem in that heat is radiated while flowing through the heater C and the duct B, resulting in heat loss.

〔発明の目的〕[Purpose of the invention]

本発明は、基箱内に、補助熱源とファンとが介在し部屋
との間で空気を循環させうるダクト路を接続した空気流
路を設けることを基本として、補助熱源の熱量の無為な
放熱を減じ空調効率を高めうる空調装置の提供を目的と
している。The present invention is based on the provision of an air flow path in the base box in which an auxiliary heat source and a fan are interposed and connected to a duct path that can circulate air between the room and the heat of the auxiliary heat source. The aim is to provide an air conditioning system that can reduce air pollution and increase air conditioning efficiency.

〔発明の開示〕[Disclosure of the invention]

以下本発明の一実施例を図面に基づき説明する。 An embodiment of the present invention will be described below based on the drawings.

第１〜５図において、空調装置１は、基箱２に、太陽熱
集熱器３の出口４に接続される吸気口５と部屋Ｒで開口
する第１の通気口６、第２の通気ロアとを設けるととも
に、一端が前記吸気口５に通じる通風路９の他端に、第
１の通気口６に通じる第１のダクト路１１と、第２の通
気ロアに通じかつ第１のダクト路１１と導通する第２の
ダクト路１２からなるダクト路１０を設けており、前記
通風路９、ダクト路１０は基箱２内で空気流路１５を形
成し、又空調装置１は、本実施例では階上、階下の部屋
Ｒ１、Ｒ２に夫々取付けられる。In FIGS. 1 to 5, the air conditioner 1 includes a base box 2, an intake port 5 connected to an outlet 4 of a solar heat collector 3, a first ventilation port 6 that opens in a room R, and a second ventilation lower. and a first duct passage 11 communicating with the first ventilation opening 6 and a first duct passage communicating with the second ventilation lower at the other end of the ventilation passage 9 whose one end communicates with the air intake port 5. A duct path 10 consisting of a second duct path 12 communicating with 11 is provided, and the ventilation path 9 and duct path 10 form an air flow path 15 within the base box 2. In the example, they are installed in the rooms R1 and R2 on the upper and lower floors, respectively.

太陽熱集熱器３は、例えば南面する傾斜屋根２１に配設
され、該傾斜屋根２１を囲んで立上る枠体２２の上部に
、ガラス板、合成樹脂等からなる透光板２３を架は渡し
てなる箱体２４の内部に、支持片を介して集熱体２５を
配設する。The solar heat collector 3 is installed, for example, on a sloped roof 21 facing south, and a transparent plate 23 made of a glass plate, synthetic resin, etc. is placed on top of a frame 22 that stands up surrounding the sloped roof 21. A heat collector 25 is disposed inside a box body 24 with a support piece interposed therebetween.

前記箱体２４内部には、傾斜屋根２１を開口することに
より、太陽熱集熱器３の前記出口４と、入口２７とを形
成する。Inside the box body 24, the outlet 4 of the solar heat collector 3 and the inlet 27 are formed by opening the sloped roof 21.

前記出口４には、送風器３０が介在する送給ダクト２９
が接続され、該送給ダクト２９は、分岐ダクト３１．３
１を介して部屋Ｒ１、Ｒ２の空調装置１の基箱２．２に
設ける吸気口５．５に夫々送風１１３０の下流側で接続
される。又入口２７には環流ダクト３２′の一端を接続
し、又その他端は、開閉弁３３．３３が夫々介在する接
続ダクト３４．３４を介して部屋Ｒ１、Ｒ２の通気口３
５．３５に導通する。The outlet 4 includes a supply duct 29 in which an air blower 30 is interposed.
are connected, and the feed duct 29 is connected to a branch duct 31.3.
1 to the air intake ports 5.5 provided in the base boxes 2.2 of the air conditioners 1 of the rooms R1 and R2 on the downstream side of the air blower 1130, respectively. Also, one end of a circulation duct 32' is connected to the inlet 27, and the other end is connected to the ventilation ports 3 of rooms R1 and R2 via connection ducts 34, 34, in which on-off valves 33, 33 are interposed, respectively.
Conductive at 5.35.

なお本例では、屋外に配した冷房器４０が送気管４１に
より送給ダクト２９の送風器３０の上流側に第１の切換
弁４２を介して連通ずる。なお冷房器４０の戻り管４５
は、床下空間８を＾て前記環流ダクト３２の第２の切換
弁４６に接続する。In this example, the air conditioner 40 placed outdoors is connected to the upstream side of the blower 30 of the feed duct 29 via the air pipe 41 via the first switching valve 42 . In addition, the return pipe 45 of the air conditioner 40
connects the underfloor space 8 to the second switching valve 46 of the circulation duct 32.

又戻り管４５には地中を通るバイパス管４７が第３の切
換弁４９を介在させて接続される。Further, a bypass pipe 47 passing underground is connected to the return pipe 45 with a third switching valve 49 interposed therebetween.

前記基箱２は、上板５１、下板５２の両側端に側板５３
．５３を架は渡しかつ前板５５、背板５６を具える直方
体状の箱体であり、前板５５の下方部に前記第１の通気
口６を、又上方部には第２の通気ロアが開口するととも
に、背板５６の上方部に前記吸気口５を透設する。The base box 2 has side plates 53 at both ends of an upper plate 51 and a lower plate 52.
．． It is a box shaped like a rectangular parallelepiped, which has a front plate 55 and a back plate 56, and has the first ventilation hole 6 in the lower part of the front plate 55, and the second ventilation lower part in the upper part. is open, and the air intake port 5 is transparently provided in the upper part of the back plate 56.

又基箱２には、その内部に、上板５１から基箱の中間高
さまで垂下しかつ両側端が側板５３．５３に連なること
により、基箱２をその間で前後に略等分に区分する仕切
板５９を下役する。Furthermore, inside the base box 2, there is a wall that hangs down from the top plate 51 to the middle height of the base box, and has both ends connected to the side plates 53, 53, thereby dividing the base box 2 into approximately equal parts in the front and back. The partition plate 59 serves as a servant.

なお下板５２と背板５６との交わり部には、断面円弧の
通風板５７を設けるとともに、又前記第２の通気ロアの
下縁には、円弧を有して内向きに垂下しつつ突出する導
風板５８が、夫々基箱２の全長さに亘り固設される。A ventilation plate 57 having an arcuate cross section is provided at the intersection of the lower plate 52 and the back plate 56, and a ventilation plate 57 having an arcuate shape and hanging inward is provided at the lower edge of the second ventilation lower. A baffle plate 58 is fixedly installed along the entire length of the base box 2.

基箱２は、その内部を仕切板５９によって仕切ることに
よって、仕切板５９と背板５６との間の空間は、一端が
吸気口５に通じ他端が仕切板５９下端の開口部６１に通
じる前記通風路９を形成する。又基箱２下方の空間は、
開口部６１により通風路６に連通しかつ第１の通気口６
に通じる第１のダクト路１１を形設する。又前板５５と
仕切板５９との間の空間は、第２の通気ロアに通じかつ
導風板５８と仕切板５９下端との間の開口部６２をへて
第１のダクト路１１と導通する第２のダクト路１２を形
成できる。なお前記のごとく第１のダクト路１１と第２
のダクト路１２は開口部６２で接続され、ダクト路１０
を形成する一方、ダクト路１０は、前記通風路９ととも
に基箱２内に空気流路１５を形成する。The inside of the base box 2 is partitioned by the partition plate 59, so that the space between the partition plate 59 and the back plate 56 has one end communicating with the intake port 5 and the other end communicating with the opening 61 at the lower end of the partition plate 59. The ventilation passage 9 is formed. Also, the space below the base box 2 is
The opening 61 communicates with the ventilation passage 6 and the first ventilation port 6
A first duct path 11 is formed leading to. Further, the space between the front plate 55 and the partition plate 59 communicates with the second ventilation lower and through the opening 62 between the baffle plate 58 and the lower end of the partition plate 59 and with the first duct path 11. A second duct path 12 can be formed. In addition, as mentioned above, the first duct path 11 and the second duct path 11
The duct paths 12 of the duct paths 12 are connected by the opening 62, and
On the other hand, the duct passage 10 forms an air passage 15 in the base box 2 together with the ventilation passage 9.

仕切板５９下方にはダンパ１３が配される。A damper 13 is arranged below the partition plate 59.

ダンパ１３は、側板５３．５３間を横切る長さの平板状
をなし、仕切板５９下端縁に蝶着され又蝶着部を通る回
転軸６３に固定される。又回動輪６３の一端は側板５３
から突出しその突出端のハンドル６５によりダンパ１３
は外側から操作できる。The damper 13 has a flat plate shape with a length extending across the side plates 53, 53, is hinged to the lower edge of the partition plate 59, and is fixed to a rotating shaft 63 passing through the hinged portion. Also, one end of the rotating wheel 63 is connected to the side plate 53.
The handle 65 at the protruding end protrudes from the damper 13.
can be operated from the outside.

又ダンパ１３は、後へのはね上げにより響板５６と当接
し通風路９を遮断でき、又部へのはね上げとともに、導
風板５８と接触してＩ８２のダクト路１２を閉止する。Further, the damper 13 can come into contact with the sound board 56 and block the ventilation passage 9 by being raised backwards, and can contact the air guide plate 58 and close the duct passage 12 of the I82 as it is raised to the rear.

さらにダンパ１３を垂下させるときには、空気流路１５
を開放しろる。Furthermore, when the damper 13 is made to hang down, the air flow path 15
I'll open it up.

なおレバー６５は、該レバー６５を通る係止片６７を、
側板５３の係止孔６９−・に嵌着すること′　　により
、垂下位置、前後へのはね上げ状態で係止しうる。Note that the lever 65 has a locking piece 67 that passes through the lever 65.
By fitting into the locking holes 69-- of the side plate 53, it can be locked in the hanging position and in the forward and backward flip-up state.

第２の通気口゛７には補助熱源１６を予設した取付枠７
１が取着される。A mounting frame 7 with an auxiliary heat source 16 pre-installed in the second vent ``7''
1 is attached.

取付枠７１は第２の通気ロアに嵌りうる枠組７２前端の
フランジ７−３を前記前板５５にビス等を用いて固着す
ることにより取付けできる。又取付枠７１の前部にはガ
ラリ７４を設け、かつ背部には、内部を熱媒が通る蛇行
した配管７５にフィン７６を並設した前記補助熱源１６
が配設され、従って取付枠７１の取付けにより、補助熱
ｓ１６はダクト路１０に介在する。The mounting frame 71 can be attached by fixing the flange 7-3 at the front end of the frame 72, which can fit into the second ventilation lower, to the front plate 55 using screws or the like. A louver 74 is provided at the front of the mounting frame 71, and the auxiliary heat source 16 is provided at the back, with fins 76 arranged in parallel to a meandering pipe 75 through which a heating medium passes.
is provided, and therefore, by attaching the attachment frame 71, the auxiliary heat s16 is interposed in the duct path 10.

又基箱２内には、仕切板５９下方の第１のダクト路１１
にファン１７が設けられる。ファン１７は下板５２上の
電動機Ｍに取付けられ下板５２上をのびる羽根体７９を
具え、その回転によりダクト路１０の空気を第２の通気
ロアから吸引しかつダクト路１０を通り第１の通気口６
から吐出することにより、空気を部屋Ｒとの間で循環す
る。Also, inside the base box 2, there is a first duct path 11 below the partition plate 59.
A fan 17 is provided. The fan 17 includes a blade body 79 attached to an electric motor M on the lower plate 52 and extending above the lower plate 52, and its rotation sucks air in the duct passage 10 from the second ventilation lower and passes through the duct passage 10 to the first air passage. air vent 6
By discharging air from the room R, the air is circulated between the room R and the room R.

然して冬期等の日中において、日射量が大であるときに
は、第３図に示すごとく、ダンパ１３のはね上げにより
第２のダクト路１２を閉止し、通風路９と第１のダクト
路１１とを導通させるとともに開閉弁３３を開く、又送
風器３０の駆動とともに太陽熱集熱器３にて加温された
空気は送給ダクト２９、分岐ダタト３１をへて通風路９
、第１のダクト路１０を通り、第１の通気口６から部屋
Ｒに吐出され、部屋を空調する。リターン空気は開口部
３５から接続ダクト３４、環流ダクト３２をへて太陽熱
集熱器３に環流する。なお各部屋Ｒ１、Ｒ２におけるダ
ンパ１３、開閉弁３３を個所に操作することにより、各
部屋Ｒ１、Ｒ２を単独又は同時に空調することができる
。However, when the amount of solar radiation is large during the daytime, such as in winter, the damper 13 is raised to close the second duct path 12 and connect the ventilation path 9 and the first duct path 11, as shown in FIG. At the same time, the on-off valve 33 is opened and the air blower 30 is driven, and the air heated by the solar heat collector 3 passes through the supply duct 29 and the branch data 31 to the ventilation path 9.
, passes through the first duct path 10, and is discharged into the room R from the first vent 6, thereby air-conditioning the room. The return air circulates from the opening 35 through the connection duct 34 and the circulation duct 32 to the solar heat collector 3. In addition, by operating the damper 13 and the on-off valve 33 in each room R1 and R2 individually, each room R1 and R2 can be air-conditioned individually or simultaneously.

なお夏期等においては、第１、第２の切換弁４２．４６
を切り換えることによって、冷房［１４０と部屋Ｒとの
間に冷風が環流し部屋Ｒを冷房する。In addition, in summer, etc., the first and second switching valves 42.46
By switching the air conditioner 140, cold air circulates between the air conditioner [140] and the room R to cool the room R.

又切換弁４９によって環流する空気をバイパス管４７を
通過させ、地中の冷熱をも取出すことができる。In addition, by using the switching valve 49, the circulating air is allowed to pass through the bypass pipe 47, and cold energy from underground can also be taken out.

又冬期夜間等の日射がないときには、第４図に示すごと
くダンパ１３により通風路９を遮断しかつ開閉弁３３を
閉止することによりファン１７の駆動とともに前記のご
とくダクト路１０をへて部屋Ｒとの間で、補助熱ａ１１
６により加温した空気を循環する。In addition, when there is no sunlight such as at night during winter, the damper 13 blocks the ventilation path 9 and the on-off valve 33 is closed, as shown in FIG. Supplementary heat a11 between
6. Circulate the heated air.

さらに曇天等日射量が小なるときには、第５図に示すご
とく、ダンパ１３を垂下し空気流路１５を開くことによ
って、太陽熱集熱器３からの温風を部屋Ｒに送給しうる
一方、部屋Ｒ内の空気を補助熱源１６で加温しかつ部屋
Ｒ内で循環させうる。Furthermore, when the amount of solar radiation is small, such as on a cloudy day, by lowering the damper 13 and opening the air flow path 15, as shown in FIG. The air in the room R can be heated by the auxiliary heat source 16 and circulated within the room R.

従って太陽熱集熱器３での不足する熱量を前記補助熱源
１６により補うとともに、その空気の一部を太陽熱集熱
！１３等を導通することなく循環させうるため、補助熱
源１６による熱量の損失を減じる。又上下の部屋Ｒ１、
Ｒ２を個別に操作できる。Therefore, the amount of heat insufficient in the solar heat collector 3 is supplemented by the auxiliary heat source 16, and a part of the air is collected as solar heat! 13 etc. can be circulated without conduction, thereby reducing heat loss due to the auxiliary heat source 16. Also, the upper and lower rooms R1,
R2 can be operated individually.

なお本発明の空調装置１においてファン１７を第２のダ
クト路１２に、又補助熱源１６を第１のダクト路１１に
設けてもよく、さらにダンパは、通風路９と第２のダク
ト路１２とに別個に設けるなど、本発明の空調装置ｌは
覆々な態様のものに変形できる。Note that in the air conditioner 1 of the present invention, the fan 17 may be provided in the second duct path 12 and the auxiliary heat source 16 may be provided in the first duct path 11, and the damper may be provided in the ventilation path 9 and the second duct path 12. The air conditioner l of the present invention can be modified in a wide variety of ways, such as being provided separately for both.

〔発明の効果〕〔Effect of the invention〕

畝上のごとく本発明の空調装置は、太陽熱集熱器の出口
に通じる通気路の他端に、第１の通気口に通じる第１の
ダクト路と第２の通気口に通じる第２のダクト路とから
なるダクト路を設けてなる空気流路を有し、かつダクト
路に補助熱源とファンとを設けたため、補助熱源によっ
て加温された空気の一部を部屋内で環流でき、熱が外部
に放散されるのを防止でき、空調効果を高める。又太陽
熱集熱器により複数の部屋を空調するときにも熱源を個
別に作動可能とする。さらに太陽熱集熱器の温風と補助
熱源によって加熱された空気とを１つの吐出口から吐出
できることによって空調装置の熱容量を増しかつ装置の
小型化に役立つなど多くの効果を奏しうる。Like a ridge, the air conditioner of the present invention has, at the other end of the ventilation path leading to the outlet of the solar heat collector, a first duct path leading to the first ventilation port and a second duct path leading to the second ventilation port. Since the air flow path has a duct path consisting of a duct, and an auxiliary heat source and a fan are provided in the duct path, a portion of the air heated by the auxiliary heat source can be circulated within the room, and heat can be It can prevent radiation from being released to the outside and improve the air conditioning effect. Also, when air-conditioning multiple rooms using a solar heat collector, the heat sources can be operated individually. Furthermore, since the hot air from the solar heat collector and the air heated by the auxiliary heat source can be discharged from one outlet, there are many effects such as increasing the heat capacity of the air conditioner and helping to downsize the device.

【図面の簡単な説明】[Brief explanation of drawings]

第１図は本発明の一実施例を示す断面図、第２図はその
要部を示す斜視図、第３〜５図はその作用を示す線図、
第６．７図は従来装置を例示する線図である。 ２−基箱１．３−・−太陽熱集熱器、　４・−出口、５
−吸気口、　６−第１の通気口、 ７・・−第２の通気口、　９・−通風路、１０・−ダク
ト路、　１１・−第１のダクト路、１２・・−第２のダ
クト路、　１３・・−ダンパ、１５−空気流路、　１６
−補助熱源、 １７−・・ファン、　Ｒ５Ｒ１、Ｒ２−・一部屋。 特許出願人　　　　ナショナル住宅産業株式会社代理人
　弁理士　　苗　　　村　　　　　　　正第６図 ＠７図FIG. 1 is a cross-sectional view showing an embodiment of the present invention, FIG. 2 is a perspective view showing the main parts thereof, and FIGS. 3 to 5 are line diagrams showing its operation.
Figure 6.7 is a diagram illustrating a conventional device. 2-base box 1.3--solar collector, 4--outlet, 5
- intake port, 6-first vent, 7...-second vent, 9...-ventilation path, 10--duct path, 11--first duct path, 12...-second Duct path, 13...-damper, 15-air flow path, 16
-Auxiliary heat source, 17-...Fan, R5R1, R2--One room. Patent Applicant National Housing Industry Co., Ltd. Agent Patent Attorney Tadashi Naemura Figure 6 @ Figure 7

Claims (1)

【特許請求の範囲】[Claims] （１）基箱に、太陽熱集熱器の出口に接続される吸気口
と部屋で開口する第１の通気口、第２の通気口とを設け
かつ前記基箱内に、前記吸気口に一端が通じかつ遮断可
能な通風路の他端に、前記第１の通気口に通じる第１の
ダクト路と第２の通気口に通じかつ第１のダクト路と導
通するとともにダンパにより閉止可能な第２のダクト路
とからなるダクト路を設けてなる空気流路を形成する一
方、前記ダクト路に、空気加温用の補助熱源と、前記ダ
クト路を通風でき第１、第２の通風口をへて部屋との間
で空気を循環させるファンとを設けてなる空調装置。(1) The base box is provided with an air intake port connected to the outlet of the solar heat collector, and a first air vent and a second air vent that open in the room, and one end of the air inlet is connected to the air intake port in the base box. At the other end of the ventilation passage, which can be communicated with and shut off, there is a first duct passage which communicates with the first vent, and a second duct passage which communicates with the second vent and which can be closed by a damper. An air flow path is formed by providing a duct path consisting of two duct paths, and the duct path is provided with an auxiliary heat source for heating the air and first and second ventilation ports that allow ventilation of the duct path. An air conditioner equipped with a fan that circulates air between rooms.