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JP3352147B2 - Pilot type solenoid valve - Google Patents

Pilot type solenoid valve

Info

Publication number
JP3352147B2
JP3352147B2 JP13738893A JP13738893A JP3352147B2 JP 3352147 B2 JP3352147 B2 JP 3352147B2 JP 13738893 A JP13738893 A JP 13738893A JP 13738893 A JP13738893 A JP 13738893A JP 3352147 B2 JP3352147 B2 JP 3352147B2
Authority
JP
Japan
Prior art keywords
pressure
valve
hot water
pipe
solenoid valve
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.)
Expired - Fee Related
Application number
JP13738893A
Other languages
Japanese (ja)
Other versions
JPH06346983A (en
Inventor
久寿 広田
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.)
TGK Co Ltd
Original Assignee
TGK Co Ltd
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 TGK Co Ltd filed Critical TGK Co Ltd
Priority to JP13738893A priority Critical patent/JP3352147B2/en
Publication of JPH06346983A publication Critical patent/JPH06346983A/en
Application granted granted Critical
Publication of JP3352147B2 publication Critical patent/JP3352147B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Safety Valves (AREA)
  • Multiple-Way Valves (AREA)
  • Control Of Temperature (AREA)
  • Fluid-Driven Valves (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】この発明は電磁弁に関し、特に、
弁を開くための予備的動作を行うために電磁力を用い、
その予備的動作によって生じる圧力差によって弁を開く
ようにしたパイロット型電磁弁に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solenoid valve.
Using electromagnetic force to perform a preliminary operation to open the valve,
The present invention relates to a pilot type solenoid valve in which a valve is opened by a pressure difference generated by the preliminary operation.

【0002】[0002]

【従来の技術】この種のパイロット型電磁弁は、例えば
図5に示されるように、両面に加わる圧力の差によって
変位する圧力作動弁51の、一方の面に向かって高圧側
管路52と低圧側管路53の各開口部を配置すると共
に、他方の面側に調圧室54を形成し、高圧側管路52
と調圧室54とを常時連通するリーク孔55と、低圧側
管路53と調圧室54とを連通するためのパイロット孔
56とを圧力作動弁51に穿設している。
2. Description of the Related Art As shown in FIG. 5, for example, as shown in FIG. 5, a pilot-operated solenoid valve of this type is connected to a high pressure side pipe line 52 of one side of a pressure operated valve 51 which is displaced by a difference in pressure applied to both sides. Each opening of the low-pressure side pipe 53 is arranged, and a pressure regulating chamber 54 is formed on the other surface side.
A leak hole 55 for constantly communicating the pressure control chamber 54 and the pressure control chamber 54, and a pilot hole 56 for communicating the low pressure side pipe 53 and the pressure control chamber 54 are formed in the pressure operated valve 51.

【0003】そしてパイロット孔56を電磁弁57で開
閉することによって、調圧室54の圧力が変化して圧力
作動弁51が変位し、高圧側管路52と低圧側管路53
との間が開閉されるようにしている。58は電磁コイル
である。
When the pilot hole 56 is opened and closed by an electromagnetic valve 57, the pressure in the pressure regulating chamber 54 changes and the pressure actuating valve 51 is displaced, and the high pressure side pipe 52 and the low pressure side pipe 53
It opens and closes between. 58 is an electromagnetic coil.

【0004】[0004]

【発明が解決しようとする課題】上述のような従来のパ
イロット型電磁弁では、パイロット孔56が圧力作動弁
51の変位方向と垂直の向きに穿設されていて、その口
元開口に対向して電磁弁57が進退して、パイロット孔
56を開閉するようになっている。
In the conventional pilot type solenoid valve as described above, the pilot hole 56 is formed in a direction perpendicular to the direction of displacement of the pressure actuated valve 51, and is opposed to the mouth opening. The solenoid valve 57 moves forward and backward to open and close the pilot hole 56.

【0005】そのため、圧力作動弁51が変位しようと
する力(変位力)が電磁弁57に作用するので、パイロ
ット孔56を全閉にするのに必要な力が時によって異な
り、例えば0〜50g程度の範囲でばらつきが出る。
[0005] Therefore, a force (displacement force) for displacing the pressure actuated valve 51 acts on the solenoid valve 57, and the force required to fully close the pilot hole 56 varies depending on the time, for example, 0 to 50 g. Variations occur in the range of the degree.

【0006】その結果、圧力作動弁51の開度が電磁コ
イル58に流れる電流値に対応せず、正確な流量制御
(比例制御)を行うことができないので、従来のパイロ
ット型電磁弁は単なる開閉弁としてしか利用することが
できなかった。
As a result, the opening degree of the pressure operated valve 51 does not correspond to the value of the current flowing through the electromagnetic coil 58, and accurate flow control (proportional control) cannot be performed. It could only be used as a valve.

【0007】そこで本発明は、電磁弁の電磁コイルに流
す電流値に対応する流量制御を行うことができる、使い
がっての良いパイロット型電磁弁を提供することを目的
とする。
SUMMARY OF THE INVENTION It is an object of the present invention to provide a pilot type solenoid valve which can be used easily and can control a flow rate corresponding to a current value flowing through an electromagnetic coil of the solenoid valve.

【0008】[0008]

【課題を解決するための手段】上記の目的を達成するた
め、本発明のパイロット型電磁弁は、両面に加わる圧力
の差によって変位する圧力作動弁の、一方の面に向かっ
て高圧側管路と低圧側管路の各開口部を配置すると共
に、他方の面側に調圧室を形成し、上記低圧側管路と上
記調圧室とを常時連通するリーク孔と、上記高圧側管路
と上記調圧室とを連通するためのパイロット孔とを形成
して、上記高圧側管路内の圧力と上記調圧室内の圧力と
の差圧を任意の一定値に調整する電磁駆動の定差圧弁に
よって上記パイロット孔を開閉するようにしたことを特
徴とする。
In order to achieve the above object, a pilot type solenoid valve according to the present invention is provided with a high pressure side pipe line toward one surface of a pressure operated valve which is displaced by a difference in pressure applied to both surfaces. A leak hole, which forms a pressure regulating chamber on the other surface side and constantly communicates the low pressure side pipeline and the pressure regulating chamber, and a high pressure side pipeline. And a pilot hole for communicating the pressure control chamber with the pressure control chamber. An electromagnetic drive constant for adjusting the pressure difference between the pressure in the high-pressure pipe and the pressure in the pressure control chamber to an arbitrary constant value is formed. The pilot hole is opened and closed by a differential pressure valve.

【0009】なお、温水が供給される温水管と冷水が供
給される冷水管とを共通の混合管に連通するように配管
して、上記温水管と上記混合管との間及び上記冷水管と
上記混合管との間に上記パイロット型電磁弁を設けて給
湯装置の給湯温度調整装置を形成してもよい。
[0009] A hot water pipe to which hot water is supplied and a cold water pipe to which cold water is supplied are connected so as to communicate with a common mixing pipe, so that the hot water pipe and the cold water pipe are connected between the hot water pipe and the mixing pipe. The pilot type solenoid valve may be provided between the mixing pipe and the mixing pipe to form a hot water supply temperature adjusting device of the hot water supply apparatus.

【0010】[0010]

【作用】定差圧弁によって高圧側管路内の圧力と調圧室
内の圧力との差圧が任意の一定値に維持され、圧力作動
弁の開度がその差圧に対応してほぼ一定になり、高圧側
管路から低圧側管路への流量がほぼ一定に維持される。
The differential pressure between the pressure in the high-pressure line and the pressure in the pressure regulating chamber is maintained at an arbitrary constant value by the constant differential pressure valve, and the opening of the pressure-operated valve becomes substantially constant in accordance with the differential pressure. That is, the flow rate from the high-pressure pipe to the low-pressure pipe is maintained substantially constant.

【0011】そして、定差圧弁に加える電磁力を変化さ
せれば、それに対応して、高圧側管路内の圧力と調圧室
内の圧力との差圧が変化して圧力作動弁の開度が変化
し、高圧側管路から低圧側管路への流量が変化する。
When the electromagnetic force applied to the constant differential pressure valve is changed, the differential pressure between the pressure in the high pressure side pipe and the pressure in the pressure regulating chamber changes, and the opening of the pressure operated valve is changed. And the flow rate from the high-pressure side line to the low-pressure side line changes.

【0012】[0012]

【実施例】図面を参照して実施例を説明する。図1は、
本発明のパイロット型電磁弁を給湯装置の給湯温度調整
装置に適用した第1の実施例を示しており、温水が供給
される温水管1と冷水が供給される冷水管2とが、各々
圧力作動弁10を介して共通の混合管3に連通するよう
に配管されている。
An embodiment will be described with reference to the drawings. FIG.
1 shows a first embodiment in which a pilot-type solenoid valve of the present invention is applied to a hot water supply temperature adjusting device of a hot water supply apparatus, in which a hot water pipe 1 to which hot water is supplied and a cold water pipe 2 to which cold water is supplied are each provided with a pressure. The piping is connected so as to communicate with the common mixing pipe 3 via the operation valve 10.

【0013】ここで、温水管1内の圧力と冷水管2内の
圧力は共に混合管3内の圧力より高いので、温水管1及
び冷水管2を高圧側管路1,2、混合管3を低圧側管路
3と呼ぶことができる。
Here, since the pressure in the hot water pipe 1 and the pressure in the cold water pipe 2 are both higher than the pressure in the mixing pipe 3, the hot water pipe 1 and the cold water pipe 2 are connected to the high pressure side lines 1, 2 and the mixing pipe 3. Can be referred to as a low-pressure side line 3.

【0014】圧力作動弁10は、薄いゴム製のダイアフ
ラム11とその弁シート部11aに密着して設けられた
プラスチック製又は金属製のディスク12とによって形
成されており、図中の上下両面に加わる圧力の差によっ
て上下方向に変位する。
The pressure-operated valve 10 is formed by a thin rubber diaphragm 11 and a plastic or metal disk 12 provided in close contact with the valve seat portion 11a, and is applied to both upper and lower surfaces in the figure. It is displaced up and down due to the pressure difference.

【0015】ディスク12は、中央の突起部がダイアフ
ラム11の中央部分を貫通しており、その付け根部の凹
部にダイアフラム11が嵌め込まれて一体的に固定され
ている。15は、圧力作動弁10を閉じる方向に付勢す
る補助スプリングである。
The disk 12 has a central projection penetrating the central portion of the diaphragm 11, and the diaphragm 11 is fitted into a concave portion at the base of the disk 12 and is integrally fixed. Reference numeral 15 denotes an auxiliary spring that urges the pressure-operated valve 10 in a closing direction.

【0016】低圧側管路3の入口は、各圧力作動弁10
の裏面中央部に向かって開口し、その周囲を囲んで、高
圧側管路1,2の出口が、圧力作動弁10の裏面に向か
ってドーナツ状に開口している。そして、高圧側管路
1,2と低圧側管路3とを仕切る弁座4は、ダイアフラ
ム11の弁シート部11aに密着している。
The inlet of the low-pressure line 3 is connected to each pressure-operated valve 10
The outlets of the high-pressure-side pipes 1 and 2 open in a donut shape toward the back surface of the pressure-operated valve 10. The valve seat 4 that separates the high-pressure pipes 1 and 2 from the low-pressure pipe 3 is in close contact with the valve seat 11 a of the diaphragm 11.

【0017】圧力作動弁10の表面側には、密閉された
調圧室5が形成されている。ただし、高圧側管路1,2
と調圧室5とを連通するパイロット孔16,17が形成
されている。また、ディスク12の中央部には、低圧側
管路3と調圧室5とを常時連通するためのリーク孔13
が形成されている。
On the front side of the pressure actuated valve 10, a closed pressure regulating chamber 5 is formed. However, the high pressure side pipelines 1, 2
Pilot holes 16 and 17 are formed to communicate the pressure control chamber 5 with the pressure control chamber 5. A leak hole 13 is provided at the center of the disk 12 for constantly communicating the low-pressure pipe 3 with the pressure regulating chamber 5.
Is formed.

【0018】20,20は、二つの調圧室5内の圧力と
温水管1内又は冷水管2内の圧力との差圧を任意の一定
値に維持するための電磁駆動の一対の定差圧弁であり、
各々の差圧が一定になるようにパイロット孔16,17
を開閉する。
Reference numerals 20 and 20 denote a pair of electromagnetically driven constant differentials for maintaining the pressure difference between the pressure in the two pressure regulating chambers 5 and the pressure in the hot water pipe 1 or the cold water pipe 2 at an arbitrary constant value. Pressure valve,
The pilot holes 16 and 17 are set so that each differential pressure becomes constant.
Open and close.

【0019】各定差圧弁20は、共に、電磁ソレノイド
の可動鉄芯21の先端に例えばゴム製の弁体22を取り
付けた構造であり、電磁コイル23に流す電流値に対応
して可動鉄芯21に加わる推力が変わり、差圧を任意の
一定値に制御することができる。24は、連通路16,
17を閉じる方向に可動鉄芯21を付勢するコイルスプ
リングである。
Each of the constant differential pressure valves 20 has a structure in which a valve body 22 made of, for example, rubber is attached to the tip of a movable iron core 21 of an electromagnetic solenoid. The thrust applied to 21 changes, and the differential pressure can be controlled to an arbitrary constant value. 24 is a communication passage 16,
This is a coil spring that biases the movable iron core 21 in a direction to close the movable iron core 17.

【0020】このように構成された実施例装置において
は、電磁コイル23に大きな電流を流してパイロット孔
16,17を開放しておくと、調圧室5内の圧力と高圧
側管路1又は2内の圧力との間に差圧が無いので、圧力
作動弁10が閉じ、低圧側管路3へ流れ込む流量はゼロ
になる。
In this embodiment, when a large current is passed through the electromagnetic coil 23 to open the pilot holes 16 and 17, the pressure in the pressure regulation chamber 5 and the high pressure side pipe 1 or Since there is no pressure difference between the pressure and the pressure in 2, the pressure-operated valve 10 is closed, and the flow rate flowing into the low-pressure line 3 becomes zero.

【0021】そして、電磁コイル23に流す電流値を下
げていくと、パイロット孔16,17の開口と弁体22
との間の隙間が狭まり、それに対応して調圧室5内の圧
力が低下する。すると、図2に示されるように、調圧室
5内の圧力と高圧側管路1又は2内の圧力との差圧が大
きくなり、それに対応して圧力作動弁10が開いて、低
圧側管路3へ流れ込む流量が徐々に大きくなる。
When the value of the current flowing through the electromagnetic coil 23 is reduced, the openings of the pilot holes 16 and 17 and the valve
Is narrowed, and the pressure in the pressure regulation chamber 5 is correspondingly reduced. Then, as shown in FIG. 2, the pressure difference between the pressure in the pressure regulation chamber 5 and the pressure in the high pressure side pipeline 1 or 2 increases, and the pressure actuating valve 10 opens correspondingly, and the low pressure side The flow rate flowing into the conduit 3 gradually increases.

【0022】したがって、各定差圧弁20,20の電磁
コイル23に流す電流値を変化させることによって、そ
の電流値に対応して各圧力作動弁10,10毎に流量を
制御することができ、温水と冷水の混合比を任意に変え
て、混合管3から送り出される給湯温度を制御すること
ができる。
Therefore, by changing the value of the current flowing through the electromagnetic coil 23 of each of the constant differential pressure valves 20, 20, the flow rate can be controlled for each of the pressure actuated valves 10, 10 in accordance with the current value. The hot water supply temperature sent out from the mixing pipe 3 can be controlled by arbitrarily changing the mixing ratio of the hot water and the cold water.

【0023】図3は本発明の第2の実施例を示してお
り、冷水管2側に設けた圧力作動弁110の弁部117
を、温水と冷水の混合部に配置して、冷水管2内を送ら
れてくる冷水と、温水管1から圧力作動弁10を経て流
量制御されて送られてくる温水との混合比を、冷水管2
側の圧力作動弁110で制御して、給湯温度を制御する
ようにしたものである。
FIG. 3 shows a second embodiment of the present invention, in which a valve portion 117 of a pressure-operated valve 110 provided on the chilled water pipe 2 side.
Is arranged in a mixing section of hot water and cold water, and the mixing ratio of cold water sent through the cold water pipe 2 and hot water sent at a controlled flow rate from the hot water pipe 1 through the pressure actuated valve 10 is Cold water pipe 2
The hot water supply temperature is controlled by controlling the pressure operating valve 110 on the side.

【0024】113は、冷水管2側の調圧室105内と
混合管3内とを連通させるリーク孔であり、冷水管2側
の定差圧弁120の電磁コイル123に流す電流値を変
えることによって、圧力作動弁110の動作が第1の実
施例と同様にして制御され、図4に示されるように、そ
れに対応して給湯温度を制御することができる。
Reference numeral 113 denotes a leak hole for communicating the inside of the pressure regulating chamber 105 on the side of the cold water pipe 2 with the inside of the mixing pipe 3. The leak hole 113 changes the value of the current flowing through the electromagnetic coil 123 of the constant pressure differential valve 120 on the side of the cold water pipe 2. Thereby, the operation of the pressure operated valve 110 is controlled in the same manner as in the first embodiment, and as shown in FIG. 4, the hot water supply temperature can be controlled correspondingly.

【0025】[0025]

【発明の効果】本発明のパイロット型電磁弁によれば、
パイロット孔の開閉に対して圧力作動弁の変位力が影響
を及ぼさないので、電磁コイルへの通電電流値に対応し
て圧力作動弁の開度が決まり、通電電流値に対応する正
確な流量制御を行うことができる。
According to the pilot type solenoid valve of the present invention,
Since the displacement force of the pressure-operated valve does not affect the opening and closing of the pilot hole, the opening of the pressure-operated valve is determined according to the current flowing through the electromagnetic coil, and accurate flow control corresponding to the current flowing It can be performed.

【0026】そして、このパイロット型電磁弁を給湯装
置の給湯温度調整装置に用いることによって、温水と冷
水の混合比率を自由に変えて給湯温度の調整を行うこと
ができる。
By using the pilot-type solenoid valve for the hot water supply temperature adjusting device of the hot water supply device, the hot water supply temperature can be adjusted by freely changing the mixing ratio of hot water and cold water.

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

【図1】本発明の第1の実施例の側面断面図である。FIG. 1 is a side sectional view of a first embodiment of the present invention.

【図2】第1の実施例の動作説明線図である。FIG. 2 is an operation explanatory diagram of the first embodiment.

【図3】第2の実施例の側面断面図である。FIG. 3 is a side sectional view of a second embodiment.

【図4】第2の実施例の動作説明線図である。FIG. 4 is an operation explanatory diagram of the second embodiment.

【図5】従来のパイロット型電磁弁の側面断面図であ
る。
FIG. 5 is a side sectional view of a conventional pilot type solenoid valve.

【符号の説明】[Explanation of symbols]

1 温水管 2 冷水管 3 混合管 5 調圧室 10 圧力作動弁 13 リーク孔 16,17 パイロット孔 20 定差圧弁 23 電磁コイル DESCRIPTION OF SYMBOLS 1 Hot water pipe 2 Cold water pipe 3 Mixing pipe 5 Pressure control chamber 10 Pressure operated valve 13 Leak hole 16, 17 Pilot hole 20 Constant differential pressure valve 23 Electromagnetic coil

───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) F16K 31/42 F16K 17/22 ──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. 7 , DB name) F16K 31/42 F16K 17/22

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】両面に加わる圧力の差によって変位する圧
力作動弁の、一方の面に向かって高圧側管路と低圧側管
路の各開口部を配置すると共に、他方の面側に調圧室を
形成し、上記低圧側管路と上記調圧室とを常時連通す
るリーク孔と、上記高圧側管路と上記調圧室とを連通す
るためのパイロット孔とを形成し、上記高圧側管路内の
圧力と上記調圧室内の圧力との差圧を任意の一定値に調
整する電磁駆動の定差圧弁を上記圧力作動弁とは別に設
けて、上記定差圧弁によって上記パイロット孔を開閉す
るようにしたことを特徴とするパイロット型電磁弁。
1. A pressure-operated valve which is displaced by a difference in pressure applied to both surfaces thereof, each opening of a high-pressure side line and a low-pressure side line is arranged toward one surface, and a pressure regulating valve is arranged on the other surface side. defining a chamber, formed a leak hole which always communicates the said low-pressure side conduit and the pressure regulating chamber and a pilot hole for communicating the said high pressure side pipe and the pressure regulating chamber, the high-pressure An electromagnetically driven constant pressure differential valve that adjusts the pressure difference between the pressure in the side pipeline and the pressure in the pressure regulation chamber to an arbitrary constant value is installed separately from the pressure operated valve.
In addition, the pilot hole is opened and closed by the constant differential pressure valve.
【請求項2】温水が供給される温水管(1)と冷水が供
給される冷水管(2)とを共通の混合管(3)に連通す
るように配管して、上記温水管(1)と上記混合管
(3)との間及び上記冷水管(2)と上記混合管(3)
との間に上記パイロット型電磁弁を設けたことを特徴と
する給湯装置の給湯温度調整装置。
2. A hot water pipe (1) provided with a hot water pipe (1) to which hot water is supplied and a cold water pipe (2) to which cold water is supplied so as to communicate with a common mixing pipe (3). And the mixing pipe (3) and the cold water pipe (2) and the mixing pipe (3)
A hot water supply temperature adjusting device for the hot water supply device, wherein the pilot type solenoid valve is provided between the hot water supply device and the pilot type solenoid valve.
JP13738893A 1993-06-08 1993-06-08 Pilot type solenoid valve Expired - Fee Related JP3352147B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP13738893A JP3352147B2 (en) 1993-06-08 1993-06-08 Pilot type solenoid valve

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP13738893A JP3352147B2 (en) 1993-06-08 1993-06-08 Pilot type solenoid valve

Publications (2)

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JPH06346983A JPH06346983A (en) 1994-12-20
JP3352147B2 true JP3352147B2 (en) 2002-12-03

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JP13738893A Expired - Fee Related JP3352147B2 (en) 1993-06-08 1993-06-08 Pilot type solenoid valve

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109541349A (en) * 2018-11-29 2019-03-29 汽解放汽车有限公司 Proportion magnetic valve on-line performance detection method and proportion magnetic valve on-line performance detection device

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004270975A (en) * 2003-03-06 2004-09-30 Tgk Co Ltd Flow rate control valve
CN101668973B (en) * 2007-03-31 2013-03-13 盾安美斯泰克公司(美国) Pilot operated spool valve
EP2761214A4 (en) * 2011-08-29 2015-08-12 Westport Power Inc Variable gas pressure regulator

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109541349A (en) * 2018-11-29 2019-03-29 汽解放汽车有限公司 Proportion magnetic valve on-line performance detection method and proportion magnetic valve on-line performance detection device

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