JP2892473B2 - Solenoid control valve - Google Patents
Solenoid control valveInfo
- Publication number
- JP2892473B2 JP2892473B2 JP23824390A JP23824390A JP2892473B2 JP 2892473 B2 JP2892473 B2 JP 2892473B2 JP 23824390 A JP23824390 A JP 23824390A JP 23824390 A JP23824390 A JP 23824390A JP 2892473 B2 JP2892473 B2 JP 2892473B2
- Authority
- JP
- Japan
- Prior art keywords
- plunger
- suction element
- valve
- pressure
- control 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
Links
Landscapes
- Magnetically Actuated Valves (AREA)
- Electromagnets (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、たとえば可変容量型の圧縮機などにおける
アンローダ回路の制御等に用いられる電磁式制御弁に関
する。Description: TECHNICAL FIELD The present invention relates to an electromagnetic control valve used for controlling an unloader circuit in, for example, a variable displacement compressor.
従来冷凍装置用圧縮機などのアンローダ回路に使用さ
れる制御弁としては、圧縮機の吸入側圧力をダイヤフラ
ム等の圧力応動部材の一方側に受けて弁体の開度を変化
させることにより、吸入側圧力の変化に応じて吐出側か
ら吸入側へ戻る流体の量を増減させるように構成したも
のがある。さらにこのような制御弁の自動調整機能にお
ける作動点を調節するために、上記の圧力応動部材の他
方側に加わる感熱作動媒体の圧力や回転モータなどによ
る機械的押圧力を変化させる方法があるが、押圧力発生
用アクチュエータが小型であって制御が簡単であること
などから、電磁コイル作動方式も好んで用いられてい
る。Conventionally, as a control valve used in an unloader circuit of a compressor for a refrigerator, etc., the suction side pressure of the compressor is received on one side of a pressure responsive member such as a diaphragm, and the opening degree of a valve body is changed to thereby control the suction. There is a configuration in which the amount of fluid returning from the discharge side to the suction side is increased or decreased according to a change in the side pressure. Furthermore, in order to adjust the operating point in the automatic adjustment function of such a control valve, there is a method of changing the pressure of the heat-sensitive working medium applied to the other side of the pressure responsive member or the mechanical pressing force by a rotary motor or the like. Because the actuator for generating the pressing force is small and the control is simple, the electromagnetic coil operation method is also preferably used.
このような電磁作動方式の制御弁として、たとえば第
5図に示すような構造のものがある。この弁では、ダイ
ヤフラムなどの圧力応動部材aの下方から作動ばねeの
力と作動圧導入口fからの流体圧力と弁ばねiの力とが
併せて働き、圧力応動部材aの上方からプランジャばね
cの力が働いて全体として釣り合っている。その状態で
流体圧力が低下すると弁体hが弁座gから離れて流量が
増加し、またプランジャbが吸引子dに吸引されるとそ
の吸引力に応じてプランジャばねcの力が相殺されるか
ら、弁体hが弁座gに接近して流量が絞られるようにな
っている。As such an electromagnetically operated control valve, there is one having a structure as shown in FIG. 5, for example. In this valve, the force of the operating spring e, the fluid pressure from the operating pressure inlet f, and the force of the valve spring i work together from below the pressure responsive member a such as a diaphragm, and the plunger spring from above the pressure responsive member a. The power of c works and is balanced as a whole. When the fluid pressure decreases in this state, the valve element h moves away from the valve seat g to increase the flow rate. When the plunger b is sucked by the suction element d, the force of the plunger spring c is canceled in accordance with the suction force. Therefore, the valve body h approaches the valve seat g to reduce the flow rate.
このような従来の電磁式制御弁においては、プランジ
ャbの移動距離が小さいから、プランジャbと吸引子d
の対向面を第2図(a)のように平面とするのが普通で
あった。従ってその吸引力は、第3図の曲線Aに示すよ
うに吸引子とプランジャの間隔に反比例して変化するの
で、用いられているばねc、e、iなどを総合したばね
定数の値より吸引力が小さい範囲でないと精度の良い弁
開度制御ができないという問題があった。In such a conventional electromagnetic control valve, since the moving distance of the plunger b is small, the plunger b and the suction element d
Is usually made flat as shown in FIG. 2 (a). Accordingly, the suction force changes in inverse proportion to the distance between the suction element and the plunger as shown by the curve A in FIG. 3, so that the suction force is calculated from the total value of the spring constants of the used springs c, e, i, and the like. Unless the force is within a small range, there is a problem that accurate valve opening control cannot be performed.
これに対して、吸引子とプランジャとの対向面を第2
図(b)のように円錐状に形成することによって吸引子
とプランジャの吸引力の変化を少なくする方法が知られ
ているが、これを電磁弁に応用すると第3図の曲線Bに
示すように、吸引力の変化は小さくなるものの吸引力も
弱くなるから、大型の強力な電磁コイルjを用いること
が必要となって、コスト面で不利であった。On the other hand, the facing surface between the suction element and the plunger is
As shown in FIG. 3 (b), there is known a method of reducing the change in the attraction force between the suction element and the plunger by forming a conical shape as shown in FIG. In addition, since the change in the attraction force is small but the attraction force is also weak, it is necessary to use a large and powerful electromagnetic coil j, which is disadvantageous in cost.
本発明は、このような従来技術の欠点を改良して、小
型の電磁コイルを用いて精度の良い比例制御ができる自
動調整機能付の電磁式制御弁を提供することを目的とし
たものである。An object of the present invention is to provide an electromagnetic control valve with an automatic adjustment function that can improve the above-mentioned disadvantages of the prior art and perform accurate proportional control using a small electromagnetic coil. .
上記のような本発明の目的は、電磁コイル作動のプラ
ンジャによる押圧を一方側から受けまた作動流体圧を他
方側から受ける圧力応動部材によって弁体位置を変化さ
せる圧力制御用の電磁弁であって、該電磁コイルに設け
られた固定吸引子と該プランジャとの対向面はそれぞれ
頂角(α)が等しい円錐面と軸に垂直な平面とから形成
され、該円錐面間距離Aと該平面間距離Bとは次式: の値が1±0.2の範囲内にあり、該固定吸引子への該
プランジャの最接近位置は該固定吸引子との接触位置よ
り遠くに設定されていることを特徴とする電磁式制御弁
によって達成することができる。SUMMARY OF THE INVENTION An object of the present invention as described above is an electromagnetic valve for pressure control that changes the position of a valve body by a pressure responsive member that receives pressing by a plunger for operating an electromagnetic coil from one side and receives working fluid pressure from the other side. The opposing surfaces of the fixed attraction element provided on the electromagnetic coil and the plunger are each formed of a conical surface having the same apex angle (α) and a plane perpendicular to the axis. The distance B is: Is within a range of 1 ± 0.2, and the closest position of the plunger to the fixed suction element is set farther from the contact position with the fixed suction element. Can be achieved.
本発明において、固定吸引子とプランジャとの対向面
に形成された頂角(α)の円錐面は母線と軸とのなす角
がα/2であり、またプランジャは軸と平行にのみ移動で
きるから、円錐面間の距離をAとするとプランジャが固
定吸引子と接触するまでに軸方向に移動する距離はA co
sec α/2となる。そしてこの距離は固定吸引子とプラン
ジャとの対向平面間の距離Bを中心として、その0.8〜
1.2倍の範囲内にあるのがよい。上記の式の値が1±0.2
の範囲を外れるときは、プランジャの位置の変化による
吸引力の変化が大きいかまたは吸引力が弱くなり、また
プランジャが固定吸引子と接触するときはプランジャの
移動方向によって吸引力が変化するヒステリシス現象が
大きくなるなど、いずれも本発明の利点が失われる。In the present invention, the conical surface of the apex angle (α) formed on the opposing surface of the fixed suction element and the plunger has an angle of α / 2 between the generatrix and the axis, and the plunger can move only parallel to the axis. From the above, if the distance between the conical surfaces is A, the distance that the plunger moves in the axial direction until it contacts the fixed suction element is A co
sec α / 2. This distance is 0.8 to 0.8 of the distance B between the opposing planes of the fixed suction element and the plunger.
It should be within 1.2 times. The value of the above formula is 1 ± 0.2
When the plunger is out of the range, a change in the suction force due to a change in the position of the plunger is large or the suction force is weak. In any case, the advantages of the present invention are lost.
また、固定吸引子とプランジャとの対向面における平
面部分の面積とプランジャの断面積の比が0.55±0.2の
範囲内にあることにより、プランジャの位置による吸引
力の変化は一層小さなものとなる。Further, since the ratio between the area of the flat portion and the cross-sectional area of the plunger in the opposing surface of the fixed suction element and the plunger is within the range of 0.55 ± 0.2, the change in the suction force depending on the position of the plunger is further reduced.
さらに円錐面の軸方向の高さHとプランジャの外径d
の比が0.2±0.1の範囲内にあるために電磁コイルの大き
さに比べて強い吸引力が発揮される。Furthermore, the axial height H of the conical surface and the outer diameter d of the plunger
Is within the range of 0.2 ± 0.1, so that a stronger attractive force is exhibited as compared to the size of the electromagnetic coil.
本発明の電磁式制御弁は、固定吸引子とプランジャと
の対向面が円錐面と平面とでそれぞれ形成されており、
円錐面部分も平面部分もそれぞれ互いに接触できないよ
うになっている。そしてその平面部分の面積がプランジ
ャの断面積のうちの大きな割合を占めているために、第
3図の曲線Cに示すように、磁力の損失が少なくて吸引
力が大きく、また固定吸引子とプランジャの間隔が変化
しても吸引力の変化が小さい。In the electromagnetic control valve of the present invention, the opposing surfaces of the fixed suction element and the plunger are each formed by a conical surface and a plane,
Neither the conical surface portion nor the planar portion can contact each other. Since the area of the plane portion occupies a large proportion of the cross-sectional area of the plunger, as shown in a curve C in FIG. 3, the magnetic force is small and the attractive force is large. Even if the plunger interval changes, the change in suction force is small.
本発明の電磁式制御弁の例を第1図に示す。 FIG. 1 shows an example of the electromagnetic control valve of the present invention.
図において、弁本体1の下部に形成された弁座11に向
かってボール状の弁体2が弁ばね3により付勢されてお
り、ベローズ状の圧力応動部材4の動きが隔壁部12を貫
通する押圧棒41により弁体2に伝えられる。圧力応動部
材4の外側には作動圧導入口13から導入された流体圧力
が加わってこれを押し縮めるように働いており、この流
体圧力が低下すると弁体2が弁座11から離れる方向に動
く。In the figure, a ball-shaped valve body 2 is urged by a valve spring 3 toward a valve seat 11 formed at a lower portion of a valve body 1, and movement of a bellows-shaped pressure responsive member 4 penetrates a partition wall portion 12. The pressure is transmitted to the valve body 2 by the pressing rod 41. The fluid pressure introduced from the working pressure introduction port 13 is applied to the outside of the pressure responsive member 4 and acts to compress the fluid pressure. When the fluid pressure decreases, the valve body 2 moves away from the valve seat 11. .
また圧力応動部材4の内側には、固定吸引子7を貫通
して設けられた連結棒51によってプランジャ5と連結さ
れた押圧部材52が挿入されていて、プランジャばね6に
より圧力応動部材4を押し伸ばすように働いている。A pressure member 52 connected to the plunger 5 by a connecting rod 51 provided through the fixed suction element 7 is inserted inside the pressure responsive member 4, and the pressure responsive member 4 is pushed by the plunger spring 6. Working to stretch.
固定吸引子7とプランジャ5との対向面は第2図
(C)に示すように、頂角(α)が約60°の円錐面部分
と軸に垂直な環状の平面部分とから形成されており、円
錐面部分の軸方向の高さHはプランジャ5の外径dの約
0.2倍としてある。そしてプランジャ5の周の環状平面
部分の幅はdの約0.05倍であり、中心の平面部分の径は
dの約0.65倍であって、平面部分の面積はプランジャ5
の断面積の約61%となっている。ここで、cosec 30°は
2であるから、円錐面部分の間隔Aを詰めるのに必要な
プランジャ5の軸方向移動距離はA×2にほぼ等しく、
平面部分の間隔BもAの2倍となっている。As shown in FIG. 2 (C), the opposing surfaces of the fixed suction element 7 and the plunger 5 are formed of a conical surface portion having an apex angle (α) of about 60 ° and an annular plane portion perpendicular to the axis. And the height H in the axial direction of the conical surface portion is about the outer diameter d of the plunger 5.
It is 0.2 times. The width of the annular planar portion around the plunger 5 is about 0.05 times d, the diameter of the central planar portion is about 0.65 times d, and the area of the planar portion is
About 61% of the cross-sectional area. Here, since cosec 30 ° is 2, the axial movement distance of the plunger 5 required to reduce the interval A between the conical surfaces is substantially equal to A × 2,
The interval B between the plane portions is also twice as large as A.
更にまた、プランジャ5と押圧部材52とを連結する連
結棒51は、プランジャ5が固定吸引子7に接近したとき
に圧力応動部材4の端面が隔壁部12の面に当接して、プ
ランジャ5と固定吸引子7とが接触できないような長さ
に正確に調整し固定してあり、このときに弁開度が最大
となるようになっている。Furthermore, when the plunger 5 approaches the fixed suction element 7, the end face of the pressure responsive member 4 abuts on the surface of the partition wall 12, and the connecting rod 51 connecting the plunger 5 and the pressing member 52 contacts the plunger 5. The length is precisely adjusted and fixed so that the fixed suction element 7 cannot contact with the fixed suction element 7. At this time, the valve opening is maximized.
このように構成された本発明の電磁制御弁は、電磁コ
イル8に通電することによりプランジャ5と固定吸引子
7との対向面に形成された円錐面部分間および平面部分
間の吸引力がバランスよく働き、プランジャ5はプラン
ジャばね6と協働して通電量に比例した軸方向の移動を
し、圧力応動部材4を押し伸ばすように働くから、弁体
2は弁座11から離れる方向に動き、流量が大きい方に作
動点が移動する。With the electromagnetic control valve of the present invention configured as described above, when the electromagnetic coil 8 is energized, the suction force between the conical surfaces formed between the plunger 5 and the opposed surface of the fixed suction element 7 and between the flat portions is well balanced. In operation, the plunger 5 cooperates with the plunger spring 6 to move in the axial direction in proportion to the amount of electric current, and works to push and extend the pressure responsive member 4, so that the valve body 2 moves away from the valve seat 11, The operating point moves to the larger flow rate.
このような本例の制御弁を組み立てるに際しては連結
棒51の長さを正確に調整する必要があるが、それには第
4図に示すような手順によるのが良い。すなわち、まず
弁本体1に圧力応動部材4を取り付け、その中に押圧部
材52を挿入したのち固定吸引子7を組み込んだ電磁コイ
ル8を取り付ける。次に固定吸引子7の孔に連結棒51を
挿通して、その下端部を押圧部材52の孔の中に挿入し、
更にプランジャ5と固定吸引子7との対向面間隔を規定
するための寸法だし治具9を固定吸引子7の上に載せ、
プランジャ5の孔を連結棒51の上端部にあてがったうえ
圧入用治具10によりプランジャ5を押圧して、嵌着固定
する。このとき圧力応動部材4の端面は隔壁部12の面に
当接した状態となっているから、プランジャ5と固定吸
引子7との対向面間隔は正確に寸法だし治具9の厚さと
等しくなる。When assembling such a control valve of the present embodiment, it is necessary to accurately adjust the length of the connecting rod 51, but it is better to use a procedure as shown in FIG. That is, first, the pressure responsive member 4 is attached to the valve body 1, the pressing member 52 is inserted therein, and then the electromagnetic coil 8 in which the fixed suction element 7 is incorporated is attached. Next, the connecting rod 51 is inserted into the hole of the fixed suction element 7, and the lower end thereof is inserted into the hole of the pressing member 52,
Further, a dimensioning jig 9 for defining the distance between the opposing surfaces of the plunger 5 and the fixed suction element 7 is placed on the fixed suction element 7,
The hole of the plunger 5 is applied to the upper end of the connecting rod 51, and the plunger 5 is pressed by the press-fitting jig 10 to be fitted and fixed. At this time, since the end surface of the pressure responsive member 4 is in contact with the surface of the partition wall portion 12, the distance between the opposing surfaces of the plunger 5 and the fixed suction element 7 is accurately dimensioned and equal to the thickness of the jig 9. .
なお、連結棒51とプランジャ5とが嵌着されたときは
連結棒51と押圧部材52とは抜き差し自在に挿入されてい
るのが良く、逆に連結棒51と押圧部材52とが嵌着された
ときは連結棒51とプランジャ5とは抜き差し自在に挿入
されているのが良い。これは嵌着作業の後に寸法だし治
具9を取り除くためと、プランジャ5と押圧部材52とが
互いに自由に回転できることが制御弁の作動をより円滑
にするに有効なためである。When the connecting rod 51 and the plunger 5 are fitted, the connecting rod 51 and the pressing member 52 are preferably inserted so as to be freely inserted and removed, and conversely, the connecting rod 51 and the pressing member 52 are fitted. When this is done, the connecting rod 51 and the plunger 5 are preferably inserted so as to be freely inserted and removed. This is because the dimensioning jig 9 is removed after the fitting operation, and the fact that the plunger 5 and the pressing member 52 can rotate freely with each other is effective for making the operation of the control valve smoother.
上記のように構成された本発明の電磁式制御弁は、作
動圧導入口13から導入された流体圧力が増加するに応じ
て弁座11を通過する流体の量が減少するように作動し、
また電磁コイル8への通電量が増加するに応じて弁座11
を通過する流体の量が増加するように作動点を移動させ
ることができるものである。このときの電磁コイル8の
働きは、弁ばね3、圧力応動部材4、及びプランジャば
ね6による力の釣合い位置をずらせる作用をするだけの
ものであって、固定吸引子7とプランジャ5との間隔が
変化するときの吸引力の変化があまり大きくないから、
電磁コイル8への通電量に対応して滑らかで正確な作動
点調節ができるものである。The electromagnetic control valve of the present invention configured as described above operates such that the amount of fluid passing through the valve seat 11 decreases as the fluid pressure introduced from the working pressure introduction port 13 increases,
In addition, as the amount of current supplied to the electromagnetic coil 8 increases, the valve seat 11
The operating point can be moved so that the amount of fluid passing therethrough increases. The function of the electromagnetic coil 8 at this time is only to shift the position where the force is balanced by the valve spring 3, the pressure responsive member 4, and the plunger spring 6. Since the change in suction force when the interval changes is not so large,
The operation point can be adjusted smoothly and accurately in accordance with the amount of current supplied to the electromagnetic coil 8.
本発明の電磁式制御弁は、電磁コイルへの通電量を調
節することにより円滑な比例制御を行うことができる
が、小型の電磁コイルを使用して高精度の流体制御が容
易に実現できるようにしたものであり、低コストでしか
も高精度であるという特長がある。The electromagnetic control valve of the present invention can perform smooth proportional control by adjusting the amount of current supplied to the electromagnetic coil, but can easily achieve high-precision fluid control using a small electromagnetic coil. The advantage is that the cost is low and the accuracy is high.
第1図は本発明の電磁式制御弁の例の弁閉止状態を示す
断面図であり、 第2図(a)、(b)、(c)はそれぞれ吸引子とプラ
ンジャとの対向面の形状を示す断面図、 第3図は第2図のそれぞれの場合における吸引子とプラ
ンジャとの間隔に対する吸引力の関係を示すグラフ、 第4図は本発明の電磁式制御弁の例を組み立て方法の説
明図、 第5図は従来の電磁式制御弁の断面図である。 1……弁本体、11……弁座、12……隔壁部、13……作動
圧導入口、2……弁体、3……弁ばね、4……圧力応動
部材、41……押圧棒、5……プランジャ、51……連結
棒、52……押圧部材、6……プランジャばね、7……固
定吸引子、8……電磁コイル、9……寸法だし治具、10
……圧入用治具、a……圧力応動部材、b……プランジ
ャ、c……プランジャばね、d……吸引子、e……作動
ばね、f……作動圧導入口、g……弁座、h……弁体、
i……弁ばね、j……電磁コイル。FIG. 1 is a sectional view showing a closed state of an example of an electromagnetic control valve according to the present invention, and FIGS. 2 (a), (b) and (c) each show a shape of a surface facing a suction element and a plunger. FIG. 3 is a graph showing the relationship between the suction force and the distance between the suction element and the plunger in each case of FIG. 2, and FIG. 4 is a diagram showing a method of assembling an example of the electromagnetic control valve of the present invention. FIG. 5 is a sectional view of a conventional electromagnetic control valve. DESCRIPTION OF SYMBOLS 1 ... Valve body, 11 ... Valve seat, 12 ... Partition wall part, 13 ... Operating pressure introduction port, 2 ... Valve body, 3 ... Valve spring, 4 ... Pressure response member, 41 ... Pressing rod 5, a plunger, 51, a connecting rod, 52, a pressing member, 6, a plunger spring, 7, a fixed suction element, 8, an electromagnetic coil, 9, a dimensioning jig, 10
… Press-fitting jig, a… Pressure-responsive member, b… Plunger, c… Plunger spring, d… Suction element, e… Operation spring, f… Operation pressure introduction port, g… Valve seat , H ... valve body,
i: valve spring; j: electromagnetic coil.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 木村 一哉 愛知県刈谷市豊田町2丁目1番地 株式 会社豊田自動織機製作所内 (56)参考文献 特開 昭57−90475(JP,A) 特開 昭61−116182(JP,A) 特開 平2−76206(JP,A) 実開 昭58−69917(JP,U) 実開 昭60−153506(JP,U) 実開 昭61−1810(JP,U) 実開 平2−92907(JP,U) 実公 昭63−28576(JP,Y2) 実公 昭55−31777(JP,Y2) 実公 昭63−39934(JP,Y2) (58)調査した分野(Int.Cl.6,DB名) F16K 31/00 - 31/11 H01F 7/16 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Kazuya Kimura 2-1-1, Toyota-cho, Kariya-shi, Aichi Prefecture Inside Toyota Industries Corporation (56) References JP-A-57-90475 (JP, A) JP-A Sho JP-A-2-76206 (JP, A) JP-A-58-69917 (JP, U) JP-A-60-153506 (JP, U) JP-A-61-1810 (JP, A) U) Japanese Utility Model Hei 2-92907 (JP, U) Japanese Utility Model 63-28576 (JP, Y2) Japanese Utility Model 55-31777 (JP, Y2) Japanese Utility Model 63-39934 (JP, Y2) (58) Survey Field (Int.Cl. 6 , DB name) F16K 31/00-31/11 H01F 7/16
Claims (3)
一方側から受けまた作動流体圧を他方側から受ける圧力
応動部材によって弁体位置を変化させる圧力制御用の電
磁弁であって、該電磁コイルに設けられた固定吸引子と
該プランジャとの対向面はそれぞれ頂角(α)が等しい
円錐面と軸に垂直な平面とから形成され、該円錐面間距
離Aと該平面間距離Bとは次式: の値が1±0.2の範囲内にあり、該固定吸引子への該プ
ランジャの最接近位置は該固定吸引子との接触位置より
遠くに設定されていることを特徴とする電磁式制御弁。An electromagnetic valve for controlling a pressure, wherein a position of a valve body is changed by a pressure responsive member which receives pressure from a plunger for operating an electromagnetic coil from one side and receives working fluid pressure from the other side. The opposed surfaces of the provided fixed suction element and the plunger are each formed of a conical surface having the same apex angle (α) and a plane perpendicular to the axis. The distance A between the conical surfaces and the distance B between the planes are as follows. formula: Is within a range of 1 ± 0.2, and the closest position of the plunger to the fixed suction element is set farther from a contact position with the fixed suction element.
が0.55±0.2の範囲内にあることを特徴とする請求項
(1)記載の電磁式制御弁。2. The electromagnetic control valve according to claim 1, wherein the ratio of the area of the plane portion to the cross-sectional area of the plunger is within a range of 0.55 ± 0.2.
径dの比が0.2±0.1の範囲内にあることを特徴とする請
求項(1)又は(2)記載の電磁式制御弁。3. The electromagnetic control according to claim 1, wherein the ratio between the axial height H of the conical surface and the outer diameter d of the plunger is in the range of 0.2 ± 0.1. valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP23824390A JP2892473B2 (en) | 1990-09-07 | 1990-09-07 | Solenoid control valve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP23824390A JP2892473B2 (en) | 1990-09-07 | 1990-09-07 | Solenoid control valve |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH04119271A JPH04119271A (en) | 1992-04-20 |
JP2892473B2 true JP2892473B2 (en) | 1999-05-17 |
Family
ID=17027279
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP23824390A Expired - Fee Related JP2892473B2 (en) | 1990-09-07 | 1990-09-07 | Solenoid control valve |
Country Status (1)
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JP (1) | JP2892473B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020204137A1 (en) | 2019-04-04 | 2020-10-08 | イーグル工業株式会社 | Capacity control valve |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3591234B2 (en) | 1997-08-27 | 2004-11-17 | 株式会社豊田自動織機 | Control valve for variable displacement compressor |
EP1081379A4 (en) | 1999-02-23 | 2004-07-07 | Toyota Jidoshokki Kk | Control valve for variable displacement compressor |
DE50005279D1 (en) * | 1999-11-16 | 2004-03-18 | Continental Teves Ag & Co Ohg | ELECTROMAGNETIC VALVE |
JP2005098310A (en) * | 2000-09-29 | 2005-04-14 | Nok Corp | Linear solenoid and solenoid valve |
JP2006258135A (en) | 2005-03-15 | 2006-09-28 | Denso Corp | Solenoid valve |
JP5443444B2 (en) * | 2011-07-06 | 2014-03-19 | 株式会社鷺宮製作所 | Pressure sensitive control valve |
JP5641031B2 (en) * | 2012-01-16 | 2014-12-17 | 株式会社デンソー | Electromagnetic actuator |
JP2021190497A (en) * | 2020-05-27 | 2021-12-13 | 株式会社東芝 | Solenoid device and manufacturing method thereof |
-
1990
- 1990-09-07 JP JP23824390A patent/JP2892473B2/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020204137A1 (en) | 2019-04-04 | 2020-10-08 | イーグル工業株式会社 | Capacity control valve |
US11867312B2 (en) | 2019-04-04 | 2024-01-09 | Eagle Industry Co., Ltd. | Capacity control valve |
Also Published As
Publication number | Publication date |
---|---|
JPH04119271A (en) | 1992-04-20 |
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