JPS6356222A - Plant growing device - Google Patents
Plant growing deviceInfo
- Publication number
- JPS6356222A JPS6356222A JP61199785A JP19978586A JPS6356222A JP S6356222 A JPS6356222 A JP S6356222A JP 61199785 A JP61199785 A JP 61199785A JP 19978586 A JP19978586 A JP 19978586A JP S6356222 A JPS6356222 A JP S6356222A
- Authority
- JP
- Japan
- Prior art keywords
- heat exchanger
- space
- valve
- water
- plant growing
- 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.)
- Pending
Links
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 43
- 230000005494 condensation Effects 0.000 claims description 19
- 238000009833 condensation Methods 0.000 claims description 19
- 239000003507 refrigerant Substances 0.000 claims description 5
- 238000001816 cooling Methods 0.000 description 6
- 238000007791 dehumidification Methods 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 238000010438 heat treatment Methods 0.000 description 3
- 238000009428 plumbing Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 230000008635 plant growth Effects 0.000 description 2
- 238000004378 air conditioning Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 238000009423 ventilation Methods 0.000 description 1
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/25—Greenhouse technology, e.g. cooling systems therefor
Landscapes
- Greenhouses (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
〔技術分野〕
この発明は、ヒートポンプ装置を使用してサンルーム等
の室内で植物を育成するための植物育成器に関するもの
である。DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a plant grower for growing plants indoors such as a sunroom using a heat pump device.
従来より、植物に散水する場合は、第3図に示すように
、じょうろ30を用いて人手で鉢植え33に水をやった
り、あるいは留守が多い場合は、散水管31を設置し電
磁バルブ32をタイマで所定時間ごとに開いて水をやる
ようにした自動散水装置が使用されていた。しかしなが
ら、人手で行う場合は非常に手間がかかり、また自動散
水装置は取付は費用が真人なものになるという欠点があ
った。Conventionally, when watering plants, as shown in Fig. 3, you manually water the potted plants 33 using a watering can 30, or if you are away from home a lot, you install a watering pipe 31 and turn on a solenoid valve 32. An automatic watering system was used that was set on a timer to open and water at predetermined intervals. However, if done manually, it is very time consuming, and the automatic watering system has the disadvantage that it is expensive to install.
一方、従来の植物育成器にあっては、温度および湿度の
調整のために第4rjJに示すようなヒートポンプ装置
が使用されていた。すなわち、このヒートポンプ装置は
、植物育成用スペース34の内外にそれぞれ熱交換器3
5.36を配置し、膨張弁37および圧縮機3Bを含む
冷媒回路を構成し、四方弁39で冷媒の流れを変え、圧
縮機38および各熱交換器35.36近傍の送風機40
.41を作動させて冷暖房および除湿を行うようにして
いた。しかしながら、かかるヒートポンプ装置では、除
湿時に温度が上がりすぎることがあったり、ドライ運転
では冷却能力が不足するなどの問題があった。そこで、
冷却能力の不足をヒータで補うことが提案されたが、エ
ネルギの消費が多くなり、実用的ではなかった。On the other hand, in conventional plant growing devices, a heat pump device as shown in No. 4rjJ has been used to adjust temperature and humidity. That is, this heat pump device has heat exchangers 3 inside and outside of the plant growing space 34.
5.36 is arranged to constitute a refrigerant circuit including an expansion valve 37 and a compressor 3B, a four-way valve 39 changes the flow of refrigerant, and a blower 40 near the compressor 38 and each heat exchanger 35.36 is installed.
.. 41 was operated to perform air conditioning, heating, and dehumidification. However, such heat pump devices have problems such as the temperature sometimes rising too much during dehumidification and the cooling capacity being insufficient during dry operation. Therefore,
It was proposed to use a heater to compensate for the lack of cooling capacity, but this would consume a lot of energy and was not practical.
この発明の目的は、自動散水が特別の配管工事なしで簡
単に達成でき、かつ低エネルギで温湿度制御が可能な植
物育成器を提供することである。An object of the present invention is to provide a plant grower that can easily achieve automatic watering without special piping work, and can control temperature and humidity with low energy.
この発明の植物育成器は、
第1の熱交換器、第2の熱交換器、膨張弁、第3の熱交
換器、四方弁および圧縮器をこの順に接続した冷媒回路
からるヒートポンプ装置と、前記第2の熱交換器、膨張
弁および第30熱交換器を収容した植物育成用スペース
と、前記第1の熱交換器、第2の熱交換器および第3の
熱交換器のそれぞれの近傍に配置した送風機と、
前記第2の熱交換器および第3の熱交換器の下方にそれ
ぞれ配設された結露水受皿と、この結露水受皿にバルブ
を介して連結された植物への散水管
とを備えたものである。The plant grower of the present invention includes a heat pump device comprising a refrigerant circuit in which a first heat exchanger, a second heat exchanger, an expansion valve, a third heat exchanger, a four-way valve, and a compressor are connected in this order; A plant growing space that accommodates the second heat exchanger, the expansion valve, and the 30th heat exchanger, and the vicinity of each of the first heat exchanger, second heat exchanger, and third heat exchanger. a condensation water receiver disposed below the second heat exchanger and the third heat exchanger, and a watering pipe for plants connected to the condensation water receiver via a valve. It is equipped with the following.
この発明によれば、前記ヒートポンプ装置の運転時に前
記植物育成用スペース内に設けた第2の熱交換器および
第3の熱交換器のいずれか一方が蒸発器として作用し、
空気中の水分を結露させるので、得られた結露水を結露
水受皿に回収し、結露水受皿から散水管によって植物に
散水するようにしたものである。このため、水道からの
配管工事なしで自動散水を行うことができる。また、除
湿時に昇温し過ぎる場合は、スペース外の前記第1の熱
交換器への送風量を1tlII御することにより、ヒー
タを用いることなく低エネルギで温湿度制御が可能とな
る。According to this invention, during operation of the heat pump device, either the second heat exchanger or the third heat exchanger provided in the plant growth space acts as an evaporator,
Since the moisture in the air is condensed, the resulting condensed water is collected in a condensation water tray, and the plants are watered from the dew condensation water tray through a watering pipe. Therefore, automatic watering can be performed without the need for plumbing work from the water supply. Furthermore, if the temperature rises too much during dehumidification, by controlling the amount of air blown to the first heat exchanger outside the space, temperature and humidity can be controlled with low energy without using a heater.
実施例
この発明の一実施例を第1図および第2図に基づいて説
明する。すなわち、この植物育成器は、第1図および第
2図に示すように、第1の熱交換器1、第2の熱交換器
2.膨張弁4.第3の熱交換器3.四方弁5および圧縮
器6をこの順に接続した冷媒回路7からなるヒートポン
プ装置8と、前記第2の熱交換器2.膨張弁4および第
3の熱交換器3を収容した植物育成用スペース9と、前
記第1の熱交換器1.第2の熱交換器2および第3の熱
交換器3のそれぞれの近傍に配置した送風機F、、F2
.F3と、前記第2の熱交換器2および第3の熱交換器
3の下方にそれぞれ配設された結露水受皿10.11と
、この結露水受皿10゜11にバルブ!2を介して連結
した植物への散水管13とを備えたものである。Embodiment An embodiment of the present invention will be explained based on FIGS. 1 and 2. That is, as shown in FIGS. 1 and 2, this plant growing device includes a first heat exchanger 1, a second heat exchanger 2. Expansion valve 4. Third heat exchanger3. A heat pump device 8 consisting of a refrigerant circuit 7 in which a four-way valve 5 and a compressor 6 are connected in this order, and the second heat exchanger 2. A plant growing space 9 that accommodates the expansion valve 4 and the third heat exchanger 3, and the first heat exchanger 1. Blower F, F2 arranged near each of the second heat exchanger 2 and the third heat exchanger 3
.. F3, condensation water receivers 10.11 arranged below the second heat exchanger 2 and third heat exchanger 3, respectively, and valves on the condensation water receivers 10 and 11! 2, and a watering pipe 13 connected to the plants via a water pipe 13.
前記植物育成用スペース9にはスペース内の換気を行う
ための送風機F4が設けられている。したがって、この
植物育成器には全部で4つの送風機F1〜F4が設置さ
れ、それぞれの送風機が風路A−Eを形成する。すなわ
ち、送風aF2.F。The plant growing space 9 is provided with a blower F4 for ventilating the space. Therefore, a total of four blowers F1 to F4 are installed in this plant grower, and each blower forms an air path A to E. That is, air blow aF2. F.
は第2および第3の熱交換器2.3に対応するスペース
内循環風路A、 Bを形成し、また送風aF2F3のい
ずれか一方は画然交換器2.3を同時に通過するスペー
ス内循環風路Cを形成する。さらに、送風機F4はスペ
ース内外の換気が可能な風路りを形成する。forms internal circulation air passages A and B corresponding to the second and third heat exchangers 2.3, and either one of the air blowers aF2F3 passes through the air exchanger 2.3 at the same time. Air path C is formed. Furthermore, the blower F4 forms an air path that allows ventilation inside and outside the space.
次に散水機構を第2図に基づいて説明する。蒸発器とな
りうる第2および第3の熱交?A器2.3の下方にはそ
れぞれ結露水受皿10.11が設けられ、この結露水受
皿10.11の底部から散水管13に配管されている。Next, the water sprinkling mechanism will be explained based on FIG. 2. Second and third heat exchangers that could be evaporators? A condensation water receiver 10.11 is provided below each of the A vessels 2.3, and a water sprinkling pipe 13 is connected to the bottom of the condensation water receiver 10.11.
fi(+水管13と結露水受皿10.11との間に介在
したバルブ12は三方弁で構成され、結露水を前記散水
管13およびスペース外への排水管14のいずれか一方
に流すようにしたものである。このバルブ12は前記ス
ペース9内の鉢植え用水受は皿15に設けたボールタッ
プ16と連動し、このボールタップ16が降下した状態
で前記結露水受皿IOまたは11から散水管13へ結露
水を流す通路を形成する。fi (+ The valve 12 interposed between the water pipe 13 and the condensation water receiver 10.11 is composed of a three-way valve, and is configured to flow the condensed water to either the water pipe 13 or the drain pipe 14 to the outside of the space. This valve 12 operates in conjunction with a ball tap 16 provided on a tray 15 to provide water for potted plants in the space 9, and when the ball tap 16 is lowered, condensation is discharged from the condensation water tray IO or 11 to the watering pipe 13. Form a passage for water to flow.
次にこの実施例の動作状態について説明する。Next, the operating state of this embodiment will be explained.
(A)温湿度側j″fB動作
A−1111房時
送風aF、、F3をオンにし、他の送風機F2゜F4を
オフにしかつ四方弁5を第1図に破線で示すNに切り換
え、第1の熱交換器1を蒸発器として、また第3の熱交
換器3を凝ki?i器として使用し、スペース9内の暖
房を行う。このとき、風路BおよびEのみが利用される
。(A) Temperature/humidity side j″fB operation The first heat exchanger 1 is used as an evaporator, and the third heat exchanger 3 is used as a condenser to heat the space 9. At this time, only air channels B and E are used. .
A−2冷房時
送風4tlFI、F3をオンニジ、他の送風fiF2゜
F4をオフにしかつ四方弁5を第1図に実線で示すMに
し、第1の熱交換器lを凝縮器として、また第3の熱交
換器3を蒸発器として使用し、スペース9内の冷房を行
う。このとき、上記式−1と同様に風路BおよびEのみ
が利用される。A-2 Cooling air blower 4tlFI, F3 turned on, other air blowers fiF2°F4 turned off, four-way valve 5 set to M shown by the solid line in Fig. 1, first heat exchanger l used as a condenser, and The heat exchanger 3 of No. 3 is used as an evaporator to cool the space 9. At this time, only air paths B and E are used, similar to Equation-1 above.
A−3除湿時
上記A−2の冷房時における送風機F1の出力を制御し
、かつ風路Bを風路Cに切り換える。そして、昇温し過
ぎる場合には、送風IF、の出力を制御することによっ
て調節する。したがって、風路CとEが利用される。送
風iF、の出力調flflは温湿度センサによる自動制
御によって行いうる。At the time of A-3 dehumidification, the output of the blower F1 during the cooling time of A-2 above is controlled, and the air path B is switched to the air path C. If the temperature rises too much, it is adjusted by controlling the output of the air blower IF. Therefore, air paths C and E are utilized. The output adjustment of the air blower iF can be performed by automatic control using a temperature and humidity sensor.
(B)散水時の動作
B−−1暖房時
上記A−1の暖房運転に加えて、第2の熱交換器2の送
風機F2をオンにしてこの熱交換器2をも蒸発器として
機能させる。すなわち、送風機F、。(B) Operation during watering B--1 During heating In addition to the heating operation in A-1 above, the blower F2 of the second heat exchanger 2 is turned on to cause this heat exchanger 2 to also function as an evaporator. . That is, blower F,.
F2.F3をオンに送風機F4をオフにし、かつ四方弁
5を第1図に破線で示すNにし、第1の熱交換器1およ
び第2の熱交換器2を蒸発器として、また第3の熱交換
器3を凝縮器として使用し、スペース9内の暖房を行う
とともに、第2の熱交換、7S2でスペース9内の水分
を結露させ回収し、散水する。このとき、風路A、Bお
よびEが利用される。F2. F3 is turned on, blower F4 is turned off, and the four-way valve 5 is set to N as indicated by the broken line in FIG. The exchanger 3 is used as a condenser to heat the space 9, and in the second heat exchange 7S2, moisture in the space 9 is condensed and collected, and water is sprinkled. At this time, air paths A, B and E are used.
B −2冷房時
上記A −2の冷房運転に加えて、送風@F、をオンに
してその出力を制御する。すなわち、第3の熱交換器3
を蒸発器として使用し、スペース9内の冷房を行うとと
もに、第3の熱交換器3でスペース9内の水分を結露さ
せ回収し、散水するが、夏期の散水が不足する場合には
、送風機F4により外部空気を取り入れて不足水分を補
うようにする。したがって、風路B、DおよびEが利用
される。B-2 During cooling In addition to the cooling operation in A-2 above, the blower @F is turned on and its output is controlled. That is, the third heat exchanger 3
is used as an evaporator to cool the space 9, and the third heat exchanger 3 condenses and collects moisture in the space 9 to sprinkle water, but if watering is insufficient in summer, the blower F4 takes in outside air to compensate for the lack of moisture. Therefore, air paths B, D and E are utilized.
B −3除湿時
上記A−3の除湿運転に加えて、送風@F4をオンにし
てその出力を制御する。すなわち、上記P、−2と同様
にして、第3の熱交1a器3でスペース9内の水分を結
露させ回収し、散水するが、夏期の散水が不足する場合
には、送風@F、により外部空気を取り入れて不足水分
を補うようにする。During B-3 dehumidification In addition to the dehumidifying operation of A-3 above, the air blower @F4 is turned on and its output is controlled. That is, in the same way as P and -2 above, the third heat exchanger 1a 3 condenses and collects moisture in the space 9 and sprinkles water, but if watering is insufficient in summer, air blower @F, This allows outside air to be taken in to compensate for the lack of moisture.
したがって、風路C,DおよびEが利用される。Therefore, air paths C, D and E are utilized.
このようにして、植物の散水に必要な水分はスペース9
内の空気に含有される水分を結露させて利用し、水分が
不足する場合にはスペース9外の空気を取り入れてこれ
から水分を分離さセ゛るので、特別の配管工事なしで自
動散水が可能になる。In this way, the water needed for watering the plants will be collected in a space of 9
The moisture contained in the air inside is condensed and used, and if there is insufficient moisture, air from outside Space 9 is taken in and the moisture is separated from it, making automatic watering possible without special plumbing work. Become.
この発明によれば、前記ヒートポンプ装置の運転時に前
記植物育成用スペース内に設けた第2の熱交換器および
第3の熱交換器のいずれか一方が蒸発器として作用し、
空気中の水分を結露させるので、これを結露水として結
露水受皿に回収し、結露水受皿から散水管によって植物
に散水するようにしたものである。このため、水道から
の配管工事なしで自動散水を行うことができる。また、
除湿時に昇温し過ぎる場合は、スペース外の11?I記
第1の熱交換器への送風量を制御することにより、ヒー
タを用いることなく低エネルギで温湿度器?ljが可能
となるという効果がある。According to this invention, during operation of the heat pump device, either the second heat exchanger or the third heat exchanger provided in the plant growth space acts as an evaporator,
Since moisture in the air is condensed, this water is collected as condensation water in a condensation water tray, and plants are watered from the condensation water tray through a watering pipe. Therefore, automatic watering can be performed without the need for plumbing work from the water supply. Also,
If the temperature rises too much during dehumidification, please check the 11 outside of the space. By controlling the amount of air blown to the first heat exchanger, you can create a thermohumidifier with low energy without using a heater. This has the effect that lj becomes possible.
第1図はこの発明の一実施例における温湿度制御Ja横
を示す説明図、第2図はこの実施例における散水機構を
示す説明図、第3図は従来の散水機構を示す説明図、第
4図は従来の温湿度制御機構を示す説明図である。
1〜3・・・熱交喚器、4・・・膨張弁、5・・・四方
弁、6・・・圧縮機、8・・・ヒートポンプ装置、9・
・・植物育成用スペース、10.11・・・結露水受皿
、12・・・バルブ、13・・・散水管、16・・・ボ
ールタップ、F1〜F4・・・送風機 □
嬢2の剃Z扮器
第1rI!IFig. 1 is an explanatory diagram showing the temperature and humidity control Ja side in an embodiment of the present invention, Fig. 2 is an explanatory diagram showing a water sprinkling mechanism in this embodiment, Fig. 3 is an explanatory diagram showing a conventional water sprinkling mechanism, FIG. 4 is an explanatory diagram showing a conventional temperature and humidity control mechanism. 1-3... Heat exchanger, 4... Expansion valve, 5... Four-way valve, 6... Compressor, 8... Heat pump device, 9...
...Plant growing space, 10.11... Condensation water tray, 12... Valve, 13... Water pipe, 16... Ball tap, F1-F4... Air blower □ Miss 2's shaved Z costume Vessel 1st rI! I
Claims (3)
の熱交換器、四方弁および圧縮器をこの順に接続した冷
媒回路からるヒートポンプ装置と、前記第2の熱交換器
、膨張弁および第3の熱交換器を収容した植物育成用ス
ペースと、 前記第1の熱交換器、第2の熱交換器および第3の熱交
換器のそれぞれの近傍に配置した送風機と、 前記第2の熱交換器および第3の熱交換器の下方にそれ
ぞれ配設された結露水受皿と、 この結露水受皿にバルブを介して連結された植物への散
水管 とを備えた植物育成器。(1) First heat exchanger, second heat exchanger, expansion valve, third
a heat pump device comprising a refrigerant circuit in which a heat exchanger, a four-way valve, and a compressor are connected in this order; a space for growing plants that accommodates the second heat exchanger, an expansion valve, and a third heat exchanger; A blower disposed near each of the first heat exchanger, second heat exchanger, and third heat exchanger; and below each of the second heat exchanger and third heat exchanger. A plant growing device comprising: a condensation water receiver, and a watering pipe for plants connected to the condensation water receiver via a valve.
を行う送風機を有する特許請求の範囲第(1)項記載の
植物育成器。(2) The plant growing device according to claim (1), wherein the plant growing space includes a blower that ventilates the space.
よびスペース外への排水管のいずれか一方に流す切換え
バルブであり、このバルブは前記スペース内の鉢植え用
水受け皿に設けたボールタップと連動し、このボールタ
ップが降下した状態で前記結露水受皿から散水管へ結露
水を流す通路を形成する特許請求の範囲第(1)項記載
の植物育成器。(3) The valve of the condensation water tray is a switching valve that allows the condensation water to flow into either the water pipe or the drainage pipe outside the space, and this valve is linked with a ball tap installed on the water tray for potted plants in the space. The plant growing device according to claim 1, wherein a path is formed for flowing condensed water from the condensed water receiver to the watering pipe when the ball tap is lowered.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP61199785A JPS6356222A (en) | 1986-08-26 | 1986-08-26 | Plant growing device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP61199785A JPS6356222A (en) | 1986-08-26 | 1986-08-26 | Plant growing device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS6356222A true JPS6356222A (en) | 1988-03-10 |
Family
ID=16413567
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP61199785A Pending JPS6356222A (en) | 1986-08-26 | 1986-08-26 | Plant growing device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6356222A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2010246402A (en) * | 2009-04-10 | 2010-11-04 | Honda Motor Co Ltd | Plant cultivation apparatus |
| JP2011147384A (en) * | 2010-01-21 | 2011-08-04 | Tsuchiya Tokushu Nokigu Seisakusho:Kk | Complete control-type plant factory system |
| JP2013507916A (en) * | 2009-10-19 | 2013-03-07 | レヴェル ホールディング ビー.ブイ. | Devices for greenhouse environmental control |
-
1986
- 1986-08-26 JP JP61199785A patent/JPS6356222A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2010246402A (en) * | 2009-04-10 | 2010-11-04 | Honda Motor Co Ltd | Plant cultivation apparatus |
| JP2013507916A (en) * | 2009-10-19 | 2013-03-07 | レヴェル ホールディング ビー.ブイ. | Devices for greenhouse environmental control |
| JP2011147384A (en) * | 2010-01-21 | 2011-08-04 | Tsuchiya Tokushu Nokigu Seisakusho:Kk | Complete control-type plant factory system |
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