JPH0198780A - Laminated fluid control device - Google Patents
Laminated fluid control deviceInfo
- Publication number
- JPH0198780A JPH0198780A JP25752087A JP25752087A JPH0198780A JP H0198780 A JPH0198780 A JP H0198780A JP 25752087 A JP25752087 A JP 25752087A JP 25752087 A JP25752087 A JP 25752087A JP H0198780 A JPH0198780 A JP H0198780A
- Authority
- JP
- Japan
- Prior art keywords
- valve
- connector member
- terminal portion
- switching valve
- mounting base
- 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
- 239000012530 fluid Substances 0.000 title claims description 20
- WABPQHHGFIMREM-UHFFFAOYSA-N lead(0) Chemical compound [Pb] WABPQHHGFIMREM-UHFFFAOYSA-N 0.000 description 4
- XTKDAFGWCDAMPY-UHFFFAOYSA-N azaperone Chemical compound C1=CC(F)=CC=C1C(=O)CCCN1CCN(C=2N=CC=CC=2)CC1 XTKDAFGWCDAMPY-UHFFFAOYSA-N 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000009429 electrical wiring Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000013011 mating Effects 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Landscapes
- Magnetically Actuated Valves (AREA)
Abstract
Description
【発明の詳細な説明】
〔産業上の利用分野〕
本発明はマニホールドやザブプレート等の弁取付台に電
磁切換弁を含む複数の弁構成体を積重ね設置した積層形
流体制御装置に関するものである。DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a stacked fluid control device in which a plurality of valve components including electromagnetic switching valves are stacked on a valve mounting base such as a manifold or a subplate.
従来、この種の積層形流体制御装置は、弁取付台の取付
面上に電磁切換弁を含む複数の弁構成体を順次接合して
積重ね、この積重ねた弁構成体をポルトによね締結する
ことで流体制御回路を構成すると共に、電磁切換弁の電
源側に接続するリード線を装置上に各電磁切換弁別に露
出した状態で配線している。Conventionally, this type of stacked fluid control device has been constructed by sequentially joining and stacking a plurality of valve components including electromagnetic switching valves on the mounting surface of a valve mounting base, and then fastening the stacked valve components with a port. This constitutes a fluid control circuit, and the lead wires connected to the power supply side of the electromagnetic switching valves are wired on the device in an exposed state for each electromagnetic switching valve.
ところが、弁取付台に積重ねて設置する弁構成体の最上
段に電磁切換弁を備えるよう設けているため、リード線
が垂れ下がり状態になシ易く、通常この装置を機械に設
置した後に電磁切換弁への電気接続を行っており、配線
の作業性が悪いと共に、装置や設置機械の作動振動によ
ってリード線が振れて他部材と接触し断線事故を起し易
い問題点があった。However, since the solenoid switching valve is installed at the top of the valve assembly stacked on the valve mounting base, the lead wires tend to hang down, and the solenoid switching valve is usually installed after installing this device on the machine. In addition to poor wiring workability, the lead wires may sway due to operating vibrations of the equipment or installed machinery and come into contact with other components, resulting in wire breakage.
本発明は、かかる問題点を解決するもので、積重ね設置
する電磁切換弁を含む弁構成体の各本体側面に電気接続
するためのコネクタ部材を取付け、配線の作業性を向上
するようにした積層形流体制御装置を提供するものであ
る。The present invention solves this problem by attaching a connector member for electrical connection to each side of the main body of a valve assembly including electromagnetic switching valves installed in a stacked manner, thereby improving the workability of wiring. The present invention provides a shaped fluid control device.
このため本発明は、複数の機器接続口を側面に開口して
有し内部に流体の流通路を形成した弁取付台の取付面に
、最上段へ電磁切換弁を備えて弁構成体を積重ね設置し
、積重ねする電磁切換弁と弁構成体の同一側の本体側面
に、雄端子部と雌端子部を両端に対設した縦コネクタ部
材を各層を積重ねすることで互いに嵌合して電気接続す
るよう配列して設け、弁取付台には一端端子部を取付面
の最下段に設置する弁構成体の縦コネクタ部材と嵌合し
て電気接続すると共に他端端子部を取付面と略直交する
一側面より外方へ突出するよう設けた横コネクタ部材を
配設し、横コネクタ部材の他端端子部が突出する弁取付
台の前記一側面に、横コネクタ部材の他端端子部と電気
接続して電源側からのリード線を結線する端子台を備え
た中継端子箱を設けて電磁切換弁を電気接続するように
している。Therefore, in the present invention, a valve assembly is stacked on the mounting surface of a valve mounting base which has a plurality of device connection ports opened on the side and a fluid flow path formed inside, and an electromagnetic switching valve is provided at the top. Install and stack vertical connector members with male and female terminals on both ends on the side of the main body on the same side as the electromagnetic switching valve and the valve assembly, and by stacking each layer, they fit together and make an electrical connection. The valve mounting base has a terminal section at one end that is electrically connected to the vertical connector member of the valve component installed at the lowest level of the mounting surface, and a terminal section at the other end that is approximately perpendicular to the mounting surface. A horizontal connector member is disposed so as to protrude outward from one side surface of the valve mounting base, and the other end terminal portion of the horizontal connector member and the electrical A relay terminal box equipped with a terminal block to which a lead wire from the power supply side is connected is provided to electrically connect the electromagnetic switching valve.
かかる本発明の構成において、本体側面に縦コネクタ部
材を夫々配設した電磁切換弁、弁構成体を弁取付台の取
付面上に横および縦コネクタ部材を互いに嵌合しながら
順次積重ねることで電磁切換弁と中継端子箱間の電気接
続が行なわれる。このため、従来の如く電磁切換弁への
リード線が装置上を露出して配線しないので、リード線
の断線事故が減少され、配線の作業性を向上することが
できる。In the structure of the present invention, the electromagnetic switching valve and the valve component each having vertical connector members arranged on the side surface of the main body are sequentially stacked on the mounting surface of the valve mounting base while the horizontal and vertical connector members are fitted into each other. An electrical connection is made between the electromagnetic switching valve and the relay terminal box. For this reason, the lead wires to the electromagnetic switching valves are not exposed on the device as in the past, so accidents of breakage of the lead wires are reduced, and the workability of wiring can be improved.
以下、本発明の一実施例を図面に基づいて説明する。 Hereinafter, one embodiment of the present invention will be described based on the drawings.
第1図および第2図において、■は外部の流体機器と接
続する複数の機器接続口P、Tを側面に開口して有し内
部に管路の役目をする流体の流通路(図示せず)を形成
して成る弁取付台を示し、上面に内部の流通路を集中開
口して形成した平担状の取付面2.3を長手方向へ間隙
を有し複数カ所設けている。4.41は圧力調整機能を
備えた弁構成体、5.51は逆止め機能を備えた弁構成
体、6.61は電磁切換弁を示し、これら各弁構成体4
.5.41.51は弁取付台1の名取付面2.3上に最
上段へ電磁切換弁6.61を備えて順次接合しながら積
重ねて設置しポルト(図示せず)・によシ締結すること
で流体制御回路を構成するよう規格化して設けている。In FIGS. 1 and 2, ■ indicates a fluid flow path (not shown) that has a plurality of device connection ports P and T opened on the side for connecting to external fluid devices, and has an internal fluid flow path (not shown) that serves as a conduit. ), and has a plurality of flat mounting surfaces 2.3 with gaps in the longitudinal direction formed by centrally opening internal flow passages on the upper surface. 4.41 is a valve structure with a pressure adjustment function, 5.51 is a valve structure with a check function, 6.61 is an electromagnetic switching valve, and each of these valve structures 4
.. 5.41.51 is equipped with an electromagnetic switching valve 6.61 on the uppermost stage on the mounting surface 2.3 of the valve mounting base 1, and is installed in a stacked manner while sequentially joining and fastened with a port (not shown). It is standardized and provided to configure a fluid control circuit by doing so.
7は電磁切換弁6.61の上面に備え電磁石装置8への
電気接続を行うだめの端子箱で、内部に通電表示手段9
を有していると共に、一部側壁を弁本体側面よシ突出形
成して連結部10を設けている。そして、端子箱7の連
結部10の下側面には下方向へ延びて複数の雄端子11
を設けている。12.13.14は雄端子部15と雌端
子部16を両端に対設した縦コネクタ部材で、弁構成体
4.5、電磁切換弁7の積重ねした際に同一側となる各
本体側面に、各弁構成体、電磁切換弁を積重ねの際互い
に嵌合して電気接続するよう配列しビス17によシ固着
させて各々設けている。18は弁取付台1の取付面2.
3を有する上面に窪み形成した係装溝19へ収装の横コ
ネクタ部材で、一端端子部20を取付面の最下段に設置
した弁構成体4の縦コネクタ部材12と嵌合して電気接
続するよう設けていると共に、他端端子部21を弁取付
台lの取付面と略直交する一側面22より外方向へ突出
するよう設けている。23は弁取付台1の前記一側面2
2に配設の中継端子箱で、着脱可能に蓋部材24を設け
、内部には電源側からのリード線を結線する端子台25
を備えている。そして端子台25の端子金具26は横コ
ネクタ部材18の他端端子部21と電気接続して設けて
いる。第3図はコネクタ部材の嵌合部の詳細構成を示し
、嵌合部は外部からのゴミや水滴の侵入を防止するため
に嵌合面にシール部材27を設けていると共に、電磁切
換弁6、61の作動振動等に起因する接続不良の発生を
防止するために嵌合面に突出部28と窪み穴29を形成
してコネクタ部材相互の抜止め作用が得られるよう設け
ている。7 is a terminal box provided on the top surface of the electromagnetic switching valve 6.61 for electrical connection to the electromagnetic device 8, and has an energization display means 9 inside.
In addition, a portion of the side wall is formed to protrude from the side surface of the valve body to provide a connecting portion 10. A plurality of male terminals 11 extend downward on the lower surface of the connecting portion 10 of the terminal box 7.
has been established. 12.13.14 is a vertical connector member having a male terminal portion 15 and a female terminal portion 16 facing each other at both ends, and is attached to each side of the main body on the same side when the valve structure 4.5 and the electromagnetic switching valve 7 are stacked. , the valve components and the electromagnetic switching valves are arranged so that they fit into each other and are electrically connected when stacked, and are fixed by screws 17, respectively. 18 is the mounting surface 2 of the valve mounting base 1.
3, the horizontal connector member is inserted into the engagement groove 19 formed in the upper surface, and the one end terminal portion 20 is fitted with the vertical connector member 12 of the valve structure 4, which is installed at the lowest stage of the mounting surface, for electrical connection. At the same time, the other end terminal portion 21 is provided so as to protrude outward from one side surface 22 that is substantially orthogonal to the mounting surface of the valve mounting base l. 23 is the one side surface 2 of the valve mounting base 1;
2 is a relay terminal box provided with a removable lid member 24, and a terminal block 25 inside to which the lead wire from the power supply side is connected.
It is equipped with The terminal fitting 26 of the terminal block 25 is electrically connected to the other end terminal portion 21 of the horizontal connector member 18. FIG. 3 shows the detailed configuration of the fitting portion of the connector member, and the fitting portion is provided with a seal member 27 on the fitting surface to prevent dirt and water droplets from entering from the outside, and an electromagnetic switching valve 6. , 61, a protrusion 28 and a recess 29 are formed on the mating surface to prevent the connector members from coming off each other.
次にかかる構成の作動を説明する。Next, the operation of this configuration will be explained.
第1図ないし第3図の図示状態において、弁取付台lに
有する複数の機器接続口P、Tに夫々流体機器からの配
管を接続し、弁取付81の一側面22に配設の中継端子
箱23内に有する端子金具26へ蓋部材24を取外して
電源側からのリード線C図示せず)を結線する。これに
よシミ磁切換弁6は横コネクタ部材18、各縦コネクタ
部材12.13.14を介して電気接続されて電磁石装
置8が通電作動し流体の流れ方向を切換え制御する。そ
して制御流体は各弁構成体4.5弁取付台1内の流通路
によって構成の流体制御回路に従って弁取付台1の機器
接続口に接続した流体アクチーエータ(図示せず)を作
動操作する。In the state shown in FIGS. 1 to 3, pipes from fluid equipment are connected to the plurality of device connection ports P and T provided in the valve mount l, respectively, and relay terminals are arranged on one side 22 of the valve mount 81. The lid member 24 is removed and a lead wire C (not shown) from the power supply side is connected to the terminal fitting 26 provided in the box 23. As a result, the stain magnetic switching valve 6 is electrically connected via the horizontal connector member 18 and each vertical connector member 12, 13, 14, and the electromagnetic device 8 is energized to switch and control the flow direction of the fluid. The control fluid is then passed through the flow path in each valve assembly 4.5 to actuate a fluid actuator (not shown) connected to the equipment connection port of the valve mount 1 according to the fluid control circuit of the structure.
この作動で、電磁切換弁6へ電気接続する配線は、積重
ねする各弁構成体4.5電磁切換弁6の本体側面と弁取
付台1とに配設した各コネクタ部材12.13.14.
18によシ得ているため、確実な配線状態が容易に行な
われると共に、線を装置上に露出しないので他部材との
接触や係合による断線事故を皆無にでき、配線の作業性
の向上各コネクタ部材12.13.14.18の嵌合に
より得ているため、電磁石装置8の故障や回路変更にと
もなう電磁切換弁6の取換え作業を容易に行うことがで
き、かつこの作業時における電気の誤接続の発生を減少
することができる。さらにまた、装置上に電磁切換弁6
へのリード線が露出しないので、弁取付台1へ配設する
電磁切換弁が多くなっても装置上の空間部を簡素にでき
て装置の組付は分解等の取扱い性を向上することができ
る。With this operation, the wiring electrically connected to the electromagnetic switching valve 6 is connected to each of the stacked valve components 4.5, each of the connector members 12, 13, 14.
18, it is easy to ensure reliable wiring, and since the wires are not exposed on the device, there are no disconnection accidents due to contact or engagement with other parts, improving wiring work efficiency. Since this is achieved by fitting each connector member 12, 13, 14, 18, it is possible to easily replace the electromagnetic switching valve 6 due to a failure of the electromagnetic device 8 or a change in the circuit. The occurrence of electrical misconnections can be reduced. Furthermore, an electromagnetic switching valve 6 is installed on the device.
Since the lead wires to the valve are not exposed, even if a large number of solenoid switching valves are installed on the valve mounting base 1, the space above the device can be simplified, and the ease of handling such as assembly and disassembly of the device can be improved. can.
なお、弁構成体は一実施例のものに限定されるものでは
なく、積重ねによって流体制御回路を構成するよう内部
に流体の流通路のみを設けたものでも良いことは勿論で
ある。It should be noted that the valve structure is not limited to the one in the embodiment, and it goes without saying that the valve structure may be one in which only a fluid flow path is provided so that a fluid control circuit is formed by stacking the valve structure.
このように本発明によれば、弁取付台の取付面に最上段
へ電磁切換弁を備えて積重ね設置した各弁構成体と電磁
切換弁の同一側の本体側面に、雄端子部と雌端子部を両
端に対設した縦コネクタ部材を各層を積重ねすることで
互いに嵌合して電気接続するよう配列して設け、弁取付
台には一端端、子部を取付面の最下段に設置する弁構成
体の縦コネクタ部材と嵌合して電気接続すると共に他端
端子部を取付面と略直交する一側面より外方へ突出する
よう設けた横コネクタ部材を配設し、横コネクタ部材の
他端端子部が突出する弁取付台の前記一側面に、横コネ
クタ部材の他端端子部と電気接続して電源側からのリー
ド線を結線する端子台を備えた中継端子箱を設けて電磁
切換弁を電気接続するようにしたことによシ、電気配線
をそのま−にして電磁切換弁の取換え作業が容易に行え
、かつこの作業時における電気の誤接続の発生を減少す
ることができる。さらに装置上に電磁切換弁へのリード
線が露出しないので、弁取付台へ設置する電磁切換弁が
多くなっても装置上の空間部を簡素にでき、装置の組付
は分解等の取扱い性を向上することができる。As described above, according to the present invention, the male terminal portion and the female terminal are provided on the side surface of the main body on the same side as each of the valve components stacked and installed on the mounting surface of the valve mounting base with the electromagnetic switching valve on the uppermost stage. Vertical connector members with opposite ends on both ends are arranged so that they fit together and electrically connect by stacking each layer, one end is installed on the valve mounting base, and the child part is installed on the lowest level of the mounting surface. A horizontal connector member is provided that fits with the vertical connector member of the valve component to make an electrical connection, and has a terminal portion at the other end protruding outward from one side substantially perpendicular to the mounting surface. A relay terminal box equipped with a terminal block for electrically connecting with the other end terminal of the horizontal connector member and connecting the lead wire from the power supply side is provided on one side of the valve mounting base from which the other end terminal protrudes. By electrically connecting the switching valve, it is possible to easily replace the electromagnetic switching valve with the electrical wiring intact, and the occurrence of incorrect electrical connections during this work can be reduced. can. Furthermore, since the lead wires to the electromagnetic switching valves are not exposed on the device, even if a large number of electromagnetic switching valves are installed on the valve mounting base, the space above the device can be simplified, and the assembly of the device is easy to handle, such as by disassembling it. can be improved.
図面は本発明の一実施例を示し、第1図は部分断面した
積層形流体制御装置の正面図、第2図は第1図の左方向
から見た側面図、第3図はコネクタ部材の嵌合状態を示
す拡大断面図である。
1−−一弁取付台、2.3−m−取付面、4.5.41
.51−−一弁構成体、6.61−m−電磁切換弁、8
−m−電磁気装置、12.13.14−−一縦コネクタ
部材、18−一一横コネクタ部材、23−中継端子箱、
25−m一端子台。The drawings show one embodiment of the present invention, in which FIG. 1 is a front view of a multilayer fluid control device partially cut away, FIG. 2 is a side view seen from the left side of FIG. 1, and FIG. It is an enlarged sectional view showing a fitted state. 1--one valve mounting base, 2.3-m-mounting surface, 4.5.41
.. 51--One valve component, 6.61-m-Solenoid switching valve, 8
-m-electromagnetic device, 12.13.14--1 vertical connector member, 18-11 horizontal connector member, 23-relay terminal box,
25-m one terminal block.
Claims (1)
流通路を形成した弁取付台の取付面に、最上段へ電磁切
換弁を備えて弁構成体を積重ね設置し、積重ねする電磁
切換弁と弁構成体の同一側の本体側面に、雄端子部と雌
端子部を両端に対設した縦コネクタ部材を各弁を積重ね
することで互いに嵌合して電気接続するよう配列して設
け、弁取付台には一端端子部を取付面の最下段に設置す
る弁構成体の縦コネクタ部材と嵌合して電気接続すると
共に他端端子部を取付面と略直交する一側面より外方へ
突出するよう設けた横コネクタ部材を配設し、横コネク
タ部材の他端端子部が突出する弁取付台の前記一側面に
、横コネクタ部材の他端端子部と電気接続して電源側か
らのリード線を結線する端子台を備えた中継端子箱を設
けて電磁切換弁を電気接続するようにしたことを特徴と
する積層形流体制御装置。On the mounting surface of a valve mounting base that has multiple device connection ports opened on the side and a fluid flow path formed inside, a solenoid switching valve is installed on the top stage, and valve components are stacked and installed. A vertical connector member having a male terminal portion and a female terminal portion facing each other on both ends is arranged on the side surface of the main body on the same side of the switching valve and the valve structure so that the valves are stacked so that they fit together and electrically connect. The valve mounting base is provided with a terminal section at one end that is fitted to the vertical connector member of the valve component installed at the lowest level of the mounting surface for electrical connection, and a terminal section at the other end that is externally connected to the vertical connector member of the valve component installed at the lowest level of the mounting surface. A horizontal connector member is disposed so as to protrude toward the side, and the other end terminal portion of the horizontal connector member is electrically connected to the other end terminal portion of the horizontal connector member on the one side surface of the valve mounting base from which the other end terminal portion protrudes. 1. A multilayer fluid control device characterized in that a relay terminal box is provided with a terminal block for connecting lead wires from the solenoid switching valve to electrically connect the electromagnetic switching valve.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP25752087A JPH0198780A (en) | 1987-10-13 | 1987-10-13 | Laminated fluid control device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP25752087A JPH0198780A (en) | 1987-10-13 | 1987-10-13 | Laminated fluid control device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0198780A true JPH0198780A (en) | 1989-04-17 |
Family
ID=17307439
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP25752087A Pending JPH0198780A (en) | 1987-10-13 | 1987-10-13 | Laminated fluid control device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0198780A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH03115268U (en) * | 1990-03-10 | 1991-11-28 |
-
1987
- 1987-10-13 JP JP25752087A patent/JPH0198780A/en active Pending
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH03115268U (en) * | 1990-03-10 | 1991-11-28 |
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