JPS58130915A - Air conditioning and hot water supply apparatus - Google Patents

Air conditioning and hot water supply apparatus

Info

Publication number
JPS58130915A
JPS58130915A JP57014499A JP1449982A JPS58130915A JP S58130915 A JPS58130915 A JP S58130915A JP 57014499 A JP57014499 A JP 57014499A JP 1449982 A JP1449982 A JP 1449982A JP S58130915 A JPS58130915 A JP S58130915A
Authority
JP
Japan
Prior art keywords
hot water
water supply
heat exchanger
circuit
water
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
Application number
JP57014499A
Other languages
Japanese (ja)
Inventor
Hiroaki Hama
浜 宏明
Masami Imanishi
正美 今西
Yasuyuki Funabashi
船橋 靖幸
Seiichi Kato
加藤 清一
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mitsubishi Electric Corp
Original Assignee
Mitsubishi Electric Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Priority to JP57014499A priority Critical patent/JPS58130915A/en
Publication of JPS58130915A publication Critical patent/JPS58130915A/en
Pending legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0096Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater combined with domestic apparatus

Landscapes

  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Other Air-Conditioning Systems (AREA)
  • Air Conditioning Control Device (AREA)

Abstract

PURPOSE:To sufficiently effectuate the function of the heat pump chiller unit of an air conditioning and hot water supplying apparatus using a heat pump chiller unit by using a system in which the resistances of a waterway on a hot water exchange side and also of a waterway on a fan coil unit side are equally regulated by means of a manual valve. CONSTITUTION:A manual valve 8 for regulating flow resistances is provided between a solenoid valve 6 and a heat exchanger 3 for hot water supply. During the hot water storage operation period, heat source pumps 9 and 13 are operated, the valve 6 is opened, the valve 7 is closed, and hot water 2 of a heat pump chiller unit 1 goes into the heat exchanger 3 to heat up the water of the hot water supply tank 11. Also, during the air conditioning period, the valve 6 is closed, the valve 7 is opened, and a fan coil unit 5 is operated. Whereupon, flow resistance of a waterway 2a to the hot water supply heat exchanger 3 and also of a waterway 4 to the fan coil unit are equally regulated by a manual valve 8. By this, the pumping lift heads of both waterways are equalized and the amounts of water to the heat pump unit 1 are made constant, whereby permitting its maximum function to exhibit.

Description

【発明の詳細な説明】 とのm明は、ヒートポンプ式チラーユニットからの冷温
水によシ冷暖房及び給湯を行なう冷暖房給湯装置に関す
るものである。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an air-conditioning, heating, and hot-water supply apparatus that performs air-conditioning, heating, and hot water supply using cold and hot water from a heat pump type chiller unit.

(2)は仁のチラーユニット(1)の水側熱交換器(−
示せず)に接続された水回路、(3)はこの水回路(2
)に設けられた給湯用熱交換器、(4)はこの給湯用熱
交換器(3)と並列に水回路(2)の往路(2a)と復
路(2b)に接続された冷暖房回路、(5)はこの冷暖
り回路(4)に設けられたファンコイルユニット、(a
) ハ水回Fk!r (2)と冷暖房回路(4)の接続
点と給湯用熱交換器(3)の間に設けられた第1の電磁
弁、(7)は冷暖房回路(4)に設けられた−2の電磁
弁で、冷@房及び給湯運転に応して第1の電磁弁(6)
と共同し、ファンコイルユニット(5)あるいはmh用
熟熱交換器3)を選択的に作用させるが、第1及び第2
のwL電磁弁6バ7)の代υに水回路(2)と冷暖房1
jjJ路(4ンとの接続点lご三方切換電磁弁を設けて
もよい。(8)は錦lの電磁弁(6)と給湯用熱交換器
(3)との間に設けられた流通抵抗調整用の手動弁、(
9)はチラーユニット(1)の水側熱交換器(図示せず
)の入口側と、水回路(2)と冷暖房回路(4)との接
続点との間に設けられた熱源−次ポンプ、勾は一端がこ
のポンプ(9)の吸込側に、他端が水源に接続されたジ
スターンタンクである。(ロ)は給湯水を収容する給湯
タンク、@はこの給湯タンク(ロ)と給湯用熱交換器(
3)間を接続する給湯用水回路で、その往路(12a)
は給湯タンク(ロ)の下部に、また復路(12b)は給
湯タンク(ロ)の上部に連通している。0は給湯水レベ
ルの往路に設けられた熱源二次ポンプで、上記各機器(
a)t (6)〜(14と共に組込まれ、熱交換ユニッ
ト(ロ)を構成している。(至)は一端が水源に他端が
給湯タンク(ロ)の上部に接続された給水管、(至)は
この給水管に設けられた給水用wIL磁電磯舟財)はこ
の電磁弁と並列接続のバイパス弁、(至)は給湯タンク
(2)の下部に接続された給鋤回路、(至)はこの給湯
回路(2)に設けられた給湯栓、翰は結論回路(至)に
設けられた給湯用ポンプ、(財)は給湯タンク(ロ)内
の給湯水レベルを検出するレベル検出器で、Elレベル
からE、レベルの関で作動する。(2)は給粉タンク(
ロ)内の給湯水温度を検出する温度検出器、翰は後述の
制細回路を収納する制御盤で、熱交換ユニットα→内に
設けられている。
(2) is the water side heat exchanger (-
(3) is connected to this water circuit (2
), (4) is an air conditioning circuit connected to the outgoing path (2a) and return path (2b) of the water circuit (2) in parallel with this hot water heating heat exchanger (3), ( 5) is a fan coil unit installed in this heating and cooling circuit (4), (a
) Ha water times Fk! r (2) is the first solenoid valve provided between the connection point of the heating and cooling circuit (4) and the hot water supply heat exchanger (3), and (7) is the -2 valve provided in the heating and cooling circuit (4). With the solenoid valve, the first solenoid valve (6)
The first and second
The water circuit (2) and air conditioning 1 are installed in the wL solenoid valve 6 bar 7).
A three-way switching solenoid valve may be provided at the connection point l with JJJ route (4). Manual valve for resistance adjustment, (
9) is a heat source-sub pump installed between the inlet side of the water side heat exchanger (not shown) of the chiller unit (1) and the connection point between the water circuit (2) and the air conditioning circuit (4). The tank is a gas tank with one end connected to the suction side of this pump (9) and the other end connected to a water source. (B) is a hot water tank that stores hot water supply water, @ is this hot water tank (B) and a heat exchanger for hot water supply (
3) The outgoing route (12a) of the hot water supply water circuit connecting between
is connected to the lower part of the hot water supply tank (b), and the return path (12b) is connected to the upper part of the hot water supply tank (b). 0 is a heat source secondary pump installed on the outgoing path of hot water supply level, and each of the above equipment (
a) t (6) to (14) are incorporated together to form a heat exchange unit (b). (To) is the water supply wIL magnetic electric Isofune product installed in this water supply pipe) is the bypass valve connected in parallel with this solenoid valve, (To) is the plow supply circuit connected to the bottom of the hot water tank (2), ( (To) is a hot water tap installed in this hot water supply circuit (2), 翰 is a hot water pump installed in the conclusion circuit (To), and (Foundation) is a level detection device that detects the level of hot water in the hot water tank (B). It operates from El level to E level. (2) is the powder feeding tank (
(b) A temperature detector for detecting the temperature of the hot water in the heat exchanger unit α→ is a control panel that houses a throttling circuit, which will be described later, and is installed inside the heat exchange unit α→.

次に作動について説明する。第2図及び第8図は、この
装置に関する電気接続図及び運転パターン図である。ま
ず貯湯運転パターンについて説明する。第2図において
、ヒートポンプチラーユニット(1)の運転スイッチ(
図示せず)を投入すれば、このチラーユニット(1)側
のリレー(図示せず)のリレー接点(52PX−a)が
閉成し、熱源−次ポンプ(6)用電磁接触器のコイル(
5gP) M付勢し、熱源−次ポンプ(6)が運転を行
なう。また、この時、貯掃運転及び空調運転時間の設定
用の@lのプログラムタイマーのコイル(PTI) 、
給水用電磁弁α・の給水時間設定用の第2のプログラム
タイマーのコイル(PT2)及び給湯用ポンプ咎の運転
時間設定用の第8のプログラムタイマーのコイル(PT
8)は付勢されている。次に、熱交換ユニット(ロ)の
運転スイッチ(SW−13を投入すると、第8図におけ
る貯湯運転時間帯であれば、第1のプログラムタイマー
の@時接点(PTI−a)は閉成され、リレーコイル(
XQ)は付勢されると共に給湯タンク(ロ)円の水温が
所定値以下の時、温度検出語幹の接点(2#%V)は閉
成されているので、熱源二次ポンプ(至)用電磁接触器
のフィル(sgPQ)は付勢する。また、リレーコイ#
(XQX)付勢によル、ソノ接点(XQ−1)(XQ−
2)及び(XQ−8)は、それぞれb側からa側に反転
するし、第1の電磁弁(6)のフィル(MVi )は瞬
時に付勢されて第1の電磁弁(6)は開路し、第2の電
磁弁(7)のコイル(八)は遅延して消勢され、第2の
電磁弁(7)は閉路すると共に、熱源−次ボンプ(9月
よ運転を維持する。従って、水回路(2)については、
ヒートポ水が供給され、l!1の電磁弁(6)及び流j
l抵抗Wlljll用バルブ(8)を通ル、給め用熱交
換器(3)に導かれ、熱源−次ポンプψ)を通うて、ヒ
ートポンプチラーユニット(1)に戻る。なお、リレー
コイル(xQ)の接点(XQ−2)がb側からa側に切
換わったとき、リレーコイル(SW−2)が付勢され、
その限時接点(2−2−b )は所定時間(例えば10
秒)経過するまで閉成して、第2の電磁弁コイルCM2
)が付勢されているので、第2の電磁弁(7)は、所定
時間(例えば10秒)だけ、第1のlE電磁弁6)と共
に開路していることになシ、その後閉路する。一方、給
湯用水回路(2)において、貯湯タンク(ロ)内よシ熱
源二次ポンプ(至)を通シ、給湯用熱交換器(3)にて
、チラーユニット(1)から供給された温水と熱交換し
、昇温され、給湯タンク(ロ)に戻る。そして、給めタ
ンク(ロ)内水温が所定値に達すれば、温度検出器(2
)が作動し、接点(28W)は開成され、熱源二次ポン
プ(至)の運転は停止し、貯湯運転が終了すゐ。
Next, the operation will be explained. FIG. 2 and FIG. 8 are electrical connection diagrams and operation pattern diagrams regarding this device. First, the hot water storage operation pattern will be explained. In Figure 2, the operation switch (
(not shown), the relay contact (52PX-a) of the relay (not shown) on this chiller unit (1) side closes, and the coil (
5gP) M is energized, and the heat source-next pump (6) operates. Also, at this time, the @l program timer coil (PTI) for setting the storage sweep operation and air conditioning operation time,
A second program timer coil (PT2) for setting the water supply time of the water supply solenoid valve α and an eighth program timer coil (PT2) for setting the operation time of the water supply pump
8) is energized. Next, when the operation switch (SW-13) of the heat exchange unit (b) is turned on, the @ hour contact (PTI-a) of the first program timer is closed during the hot water storage operation time shown in Fig. 8. , relay coil (
When XQ) is energized and the water temperature in the hot water tank (B) is below a predetermined value, the contact point (2#%V) of the temperature detection stem is closed, so it is used for the heat source secondary pump (To). The magnetic contactor fill (sgPQ) is energized. Also, relay carp #
(XQX) Sono contact (XQ-1) (XQ-
2) and (XQ-8) are respectively reversed from the b side to the a side, and the fill (MVi) of the first solenoid valve (6) is instantly energized and the first solenoid valve (6) The circuit is opened, the coil (8) of the second solenoid valve (7) is deenergized with a delay, and the second solenoid valve (7) is closed and the heat source-next pump (September) continues to operate. Therefore, regarding water circuit (2),
Heatpo water is supplied and l! 1 solenoid valve (6) and flow j
It passes through the resistor Wlljll valve (8), is guided to the supply heat exchanger (3), passes through the heat source - next pump ψ), and returns to the heat pump chiller unit (1). In addition, when the contact (XQ-2) of the relay coil (xQ) switches from the b side to the a side, the relay coil (SW-2) is energized,
The time limit contact (2-2-b) is connected for a predetermined time (for example, 10
seconds), the second solenoid valve coil CM2
) is energized, the second solenoid valve (7) remains open together with the first IE solenoid valve 6) for a predetermined period of time (for example, 10 seconds), and then closes. On the other hand, in the hot water supply water circuit (2), hot water is supplied from the chiller unit (1) through the hot water storage tank (b), through the heat source secondary pump (to), and at the hot water supply heat exchanger (3). It exchanges heat with the water, is heated, and returns to the hot water tank (b). When the water temperature in the supply tank (b) reaches a predetermined value, the temperature detector (2)
) is activated, the contact (28W) is opened, the operation of the heat source secondary pump (to) is stopped, and the hot water storage operation is completed.

次に空1III運転パターンについて説明する。空調運
転時間帯になれば、第1のプログラムタイマーのコイル
(PTI )が作動して、その限時接点(Prl−8)
は開成するため、電磁接触器のコイル(52PQ)が消
勢され、熱源二次ポンプ(lは運転を停止し、かつ、リ
レーコイル(XQ)(D接点(XQ−1)(XQ−ff
i)及ヒ(XQ−8)はa側からb側に戻る。この為、
リレーコイル(2−1)lζより、その限時接点(2−
1−b)が所定時間(例えば10秒)後、開成するので
、上述とは逆に第1の電磁弁コイル(MVI )は遅延
して消勢され、第1の電磁弁(2)は閉路し、第2の電
磁弁コイル(MY、 )は瞬時に付勢されて第2の電磁
弁(3)は開路すると共に熱源側−次ポンプ(9)がリ
レー接点(5SIPX−”1)及びリレー接点(XQ−
1)を介して運転する。従って、水回路(2)において
は、チラーユニット(1)からの冷水あるいは、温水は
、第2の電磁弁(7)を通り、ファンコイルユニット(
5)に導かれ、室内を冷房あるいは暖房を行なった後、
熱源−次ポンプ(9)を通り、チラーユニット(1)に
戻る。いわゆる周知の冷暖房水方式の空調回路となる。
Next, the idle 1III operation pattern will be explained. When the air conditioning operation time begins, the first program timer coil (PTI) is activated and its time limit contact (Prl-8) is activated.
In order to open, the magnetic contactor coil (52PQ) is deenergized, the heat source secondary pump (l stops operation, and the relay coil (XQ) (D contact (XQ-1) (XQ-ff
i) He (XQ-8) returns from side a to side b. For this reason,
From the relay coil (2-1) lζ, its time-limiting contact (2-
1-b) opens after a predetermined period of time (for example, 10 seconds), contrary to the above, the first solenoid valve coil (MVI) is deenergized with a delay, and the first solenoid valve (2) is closed. Then, the second solenoid valve coil (MY, ) is instantaneously energized, the second solenoid valve (3) is opened, and the heat source side pump (9) is connected to the relay contact (5SIPX-"1) and the relay Contact (XQ-
1) Drive through. Therefore, in the water circuit (2), cold water or hot water from the chiller unit (1) passes through the second electromagnetic valve (7) and passes through the fan coil unit (
5) After cooling or heating the room,
The heat source passes through the next pump (9) and returns to the chiller unit (1). This is a well-known air conditioning circuit based on the water cooling and heating system.

なお、ヒートポンプ式チラーユニット(1)は夏期の冷
房時期には冷房側接点に位置して冷暖房サイクル切換用
四方弁(図示せず)を消勢し、冬期の暖房時期には暖房
側接点に位置して上記四方弁(図示せず)を付勢する手
動の冷暖房切換スイッチ(図示せず)を有しており、こ
の冷暖房切換スイッチ(図示せず)により冷房時期には
冷房サイクル、暖房時期には暖房サイクルの状態にある
ので、貯湯運転から冷房運転への移行時は第1のプログ
ラムタイマーのコイル(PTI)の接点(PTI−a)
の開成によりリレーコイル(XQ)が消勢され、これに
伴ない冷暖房切換スイッチ(図示せず)に並列m[のリ
レーコイル(XQ)d)接点(図示せず)が開成し、上
記四方弁(図示せず)を消勢してヒートポンプ式チラー
ユニット(1)を暖房サイクルから冷房サイクルへ切換
えられる。また、貯湯運転から暖房運転への移行時は、
上述したとおり第1のプログラムタイマーによりリレー
コイル(XQ)が消勢されて冷暖房切換スイッチ(図示
せず)に並列接続のリレーコイル(XQ)の接点(図示
せず)が開成するが、上記四方弁(図示せず)は冷暖房
切換スイッチ(図示せず)を介して付勢されているので
、ヒートポンプ式チラーユニット(1)は暖房サイクル
のま−である。
The heat pump chiller unit (1) is located at the cooling side contact point during the summer cooling season to deenergize the four-way valve (not shown) for switching the cooling/heating cycle, and is located at the heating side contact point during the winter heating season. The system has a manual air-conditioning/heating selector switch (not shown) that energizes the four-way valve (not shown). is in the heating cycle, so when transitioning from hot water storage operation to cooling operation, the first program timer coil (PTI) contact (PTI-a)
When the relay coil (XQ) is opened, the relay coil (XQ) is deenergized, and accordingly, the parallel m [relay coil (XQ) d) contact (not shown) in the air conditioning/heating selector switch (not shown) is opened, and the four-way valve (not shown) to switch the heat pump chiller unit (1) from the heating cycle to the cooling cycle. Also, when transitioning from hot water storage operation to heating operation,
As mentioned above, the first program timer deenergizes the relay coil (XQ) and opens the contacts (not shown) of the relay coil (XQ) connected in parallel to the heating/cooling selector switch (not shown). Since the valve (not shown) is energized via the heating/cooling selector switch (not shown), the heat pump chiller unit (1) is in the heating cycle.

空調運転パターン時は、同時に、給湯使用時間帯として
第8のプログラムタイマーにて設定しているため、第8
のプログラムタイマーのコイル(PT8)が作動して、
その限時接点(PT8−a)は閉成しリレーコイルα、
)が付勢され、リレーコイル(X、)の接点(Xl−b
 )を介して、給湯用ポンプ四の電磁接触器(52PJ
)が付勢されるので、給湯用ポンプ曽が運転する。従っ
て給紛タンク(2)内の昇温された給湯水は、給湯栓(
至)よシ供給できる。
During the air conditioning operation pattern, the 8th program timer is set at the same time as the hot water supply use time period, so the 8th program timer
The program timer coil (PT8) is activated,
Its time-limited contact (PT8-a) closes and relay coil α,
) is energized, and the contact (Xl-b
) through the hot water pump 4 electromagnetic contactor (52PJ
) is energized, so the hot water pump So operates. Therefore, the heated hot water in the supply tank (2) is transferred to the hot water tap (
) We can provide a good supply.

また、給湯使用時間帯の徐に、給湯タンク(ロ)への給
水時間帯を812のプログラムタイマーにて設定してい
るため、その時間帯になると第2のプログラムタイマー
のコイル(pTg )が作動【1、その限時接点(PT
2−a)は閉成し、リレーコイル(Xl)が付勢され、
リレー接点(Xi−a)は閉成する。この時、給湯タン
ク(ロ)の給湯水が中間状態(第1図中、ムレベルから
E2レベルの状態片あればレベル検出器(2)がこれを
検出して信号を出力し、その接点(R−a)を閉成する
為リレーコイル(Xs)は付勢されて、その接点(X2
−a )を閉成するので給水用電磁弁曽のコイル(yr
Vs)が付勢され、給水用電磁弁(2)が開路し、給水
が行なわれる。この時、リレーコイル(為)の接点(X
j!−b)は開成するので、給湯用ポンプ曽の電磁接触
器のコイル(52PJ)は消勢され、給湯用ポンプ曽は
確実に運転停止される。給湯タンク(2)内が満水状1
Ial(第1図中、Eルベルの状態)になれば、レベル
検出器(2)がこれを検出し、信号を出力するので、そ
の接点(R−a)は開成し、給水用電磁弁(至)は閉路
し、給水は停止する。
In addition, the 812's program timer sets the time period for water supply to the hot water tank (b) gradually during the hot water use period, so when that time period comes, the second program timer coil (pTg) is activated. [1.The time-limited contact (PT
2-a) is closed, the relay coil (Xl) is energized,
Relay contact (Xi-a) is closed. At this time, if the hot water in the hot water tank (B) is in an intermediate state (from the M level to the E2 level in Figure 1), the level detector (2) detects this and outputs a signal, and its contact (R -a), the relay coil (Xs) is energized and its contact (X2
-a) is closed, so the coil of the water supply solenoid valve (yr
Vs) is energized, the water supply solenoid valve (2) is opened, and water is supplied. At this time, the relay coil (for) contact (X
j! -b) is opened, so the coil (52PJ) of the electromagnetic contactor of the hot water supply pump is deenergized, and the operation of the hot water supply pump is reliably stopped. The hot water tank (2) is full of water1
When the state becomes Ial (state of E level in Figure 1), the level detector (2) detects this and outputs a signal, so its contact (R-a) opens and the water supply solenoid valve ( ) is closed and water supply is stopped.

また、上述の給揚使用時間荀において、給湯タンク(ロ
)内の給湯水が渇水状態(第1図中、8gレベルの状態
)になれば、レベル検出器(2)がこれを検出し信号を
出力するので、その接点(R−a)は閉成し、リレーコ
イル(Xx )は付勢され、その接点(X2−b )は
開成され、給湯用ポンプ翰の電磁接触器のコイル(lt
PJ)は消勢され給湯用ポンプ勾は運転停止される。
In addition, during the above-mentioned feeding usage time period, if the hot water in the hot water tank (b) becomes dry (8g level in Figure 1), the level detector (2) detects this and sends a signal. , the contact (R-a) is closed, the relay coil (Xx) is energized, the contact (X2-b) is opened, and the coil (lt) of the electromagnetic contactor of the hot water pump
PJ) is deenergized and the hot water supply pump is stopped.

以上のようにこの発明では、給湯用熱交換器側の水回路
の流通抵抗とこの給湯用熱交換器と、並列に接続された
ファンコイルユニット側の水回路の流通抵抗とを手動弁
によシはぼ同一に調整することができるため、貯湯運転
時及び空調運転時の双方において水回路に設けたポンプ
のポンプ揚程を同一にでき、ヒートポンプ式チラーユニ
ットへの水流量が一定となる。従って、ヒートポンプ式
チラーユニットの能力を充分に発揮させるふとができる
As described above, in this invention, the flow resistance of the water circuit on the side of the heat exchanger for hot water supply and the flow resistance of the water circuit on the side of the fan coil unit connected in parallel with this heat exchanger for hot water supply are controlled by a manual valve. Since the water can be adjusted to be almost the same, the pump height of the pump provided in the water circuit can be made the same both during hot water storage operation and air conditioning operation, and the flow rate of water to the heat pump type chiller unit becomes constant. Therefore, it is possible to fully utilize the capabilities of the heat pump chiller unit.

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

第1図は仁の発明の一実施例を示す構成図、第2図はこ
の装置に関する電気接続図、及びfMB図は運転パター
ン図である。 図中、(1)・・・ヒートポンプ式チラーユニット、(
2)・・・水回路、(3)・・・給湯用熱交換器、(4
)・・−冷暖房回路、(5)・・・ファンコイルユニッ
ト、(a)(y)−iiI 1 及ヒ第2の電磁弁、(
8)・・・流通抵抗調整弁、(9)・・・熱源−次ポン
プ、(ロ)・・・給湯タンク、四・・・給湯用水回路、
(至)・・・熱源二次ポンプ、(14・・・熱交換ユニ
ット、(ト)・・・給水管、α・・・・給水用電磁弁、
(至)・・・給湯回路、a9−給湯栓、(イ)−・給湯
用ポンプ、(財)−・レベル制御器、に)−・温度検出
器、(PTI ) (PT2) (PT8)・・・第1
.第2及びtM8のプログラムタイマーのコイルである
。 代理人 葛野信−
FIG. 1 is a configuration diagram showing an embodiment of Jin's invention, FIG. 2 is an electrical connection diagram regarding this device, and fMB diagram is an operation pattern diagram. In the figure, (1)...Heat pump chiller unit, (
2)...Water circuit, (3)...Hot water supply heat exchanger, (4
)...-air conditioning circuit, (5)...fan coil unit, (a)(y)-iii1 and second solenoid valve, (
8)...Flow resistance adjustment valve, (9)...Heat source - next pump, (B)...Hot water tank, 4...Hot water supply water circuit,
(To)...Secondary heat source pump, (14...Heat exchange unit, (G)...Water supply pipe, α...Solenoid valve for water supply,
(To)...Hot water circuit, a9-Hot water faucet, (A)--Hot water pump, (Foundation)--Level controller, (2)--Temperature detector, (PTI) (PT2) (PT8)-・First
.. This is the coil of the second and tM8 program timer. Agent Makoto Kuzuno

Claims (1)

【特許請求の範囲】[Claims] 冷房サイクル及び暖房サイクルを行なうヒートポンプ式
チラーユニット、とのチラーユニットの水側熱交換器と
連通ずる水回路、この水回路に設けられた給湯用熱交換
器、上記水回路に連通し、上記給湯用熱交換器と並列に
設けられた室内空調用ファンコイルユニット、上記給湯
用熱交換器及び上記ファンコイルユニットを選択的に作
用させるように上記水回路を切候える切換弁、上記給湯
用熱交換器と熱交換可能fこ龜;設された給湯用水回路
を介して加熱される給湯水を収容する給湯タンク、この
給湯タンクから上記給湯水を被給&m41m所に供給す
る給湯回路、並びに上記給湯用熱交換器側の水回路に設
けられた手動弁を鶴え、上記手動弁の開度を調整するこ
とによシ上記帖拗用熱又快器側の水回路と上記ファンコ
イルユニット側の水回路との流通抵抗をほぼ同等旙ζ設
疋するようにしたことを特徴とする冷暖房給湯装置。
A heat pump type chiller unit that performs a cooling cycle and a heating cycle, a water circuit that communicates with the water side heat exchanger of the chiller unit, a hot water heat exchanger installed in this water circuit, and a water supply heat exchanger that communicates with the water circuit and communicates with the water side heat exchanger of the chiller unit. an indoor air conditioning fan coil unit installed in parallel with the water supply heat exchanger; a switching valve that switches the water circuit so as to selectively operate the hot water supply heat exchanger and the fan coil unit; a hot water supply heat exchanger; A hot water supply tank that accommodates hot water heated through a hot water supply circuit provided with an exchanger, a hot water supply circuit that supplies the hot water from this hot water tank to a 41 m point to be supplied, and the above-mentioned hot water supply tank. By adjusting the opening degree of the manual valve installed in the water circuit on the hot water heat exchanger side, the water circuit on the water supply heat exchanger side and the fan coil unit side can be adjusted. An air-conditioning, heating, and water-heating device characterized in that the distribution resistance with the water circuit is set to be approximately the same.
JP57014499A 1982-01-29 1982-01-29 Air conditioning and hot water supply apparatus Pending JPS58130915A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP57014499A JPS58130915A (en) 1982-01-29 1982-01-29 Air conditioning and hot water supply apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP57014499A JPS58130915A (en) 1982-01-29 1982-01-29 Air conditioning and hot water supply apparatus

Publications (1)

Publication Number Publication Date
JPS58130915A true JPS58130915A (en) 1983-08-04

Family

ID=11862744

Family Applications (1)

Application Number Title Priority Date Filing Date
JP57014499A Pending JPS58130915A (en) 1982-01-29 1982-01-29 Air conditioning and hot water supply apparatus

Country Status (1)

Country Link
JP (1) JPS58130915A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10215427B2 (en) 2013-04-01 2019-02-26 Carrier Corporation Air conditioning system and method for controlling air conditioning system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10215427B2 (en) 2013-04-01 2019-02-26 Carrier Corporation Air conditioning system and method for controlling air conditioning system

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