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TWI524021B - Electromagnetic valve - Google Patents

Electromagnetic valve Download PDF

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Publication number
TWI524021B
TWI524021B TW103129799A TW103129799A TWI524021B TW I524021 B TWI524021 B TW I524021B TW 103129799 A TW103129799 A TW 103129799A TW 103129799 A TW103129799 A TW 103129799A TW I524021 B TWI524021 B TW I524021B
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TW
Taiwan
Prior art keywords
iron core
movable iron
core
valve
guide
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TW103129799A
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Chinese (zh)
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TW201512572A (en
Inventor
伊藤新治
菊池宏
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喜開理股份有限公司
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Publication of TW201512572A publication Critical patent/TW201512572A/en
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Publication of TWI524021B publication Critical patent/TWI524021B/en

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16KVALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
    • F16K31/00Actuating devices; Operating means; Releasing devices
    • F16K31/02Actuating devices; Operating means; Releasing devices electric; magnetic
    • F16K31/06Actuating devices; Operating means; Releasing devices electric; magnetic using a magnet, e.g. diaphragm valves, cutting off by means of a liquid
    • F16K31/0675Electromagnet aspects, e.g. electric supply therefor

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Mechanical Engineering (AREA)
  • Magnetically Actuated Valves (AREA)
  • Electromagnets (AREA)

Description

電磁閥The electromagnetic valve

本發明係有關於一種利用讓激磁線圈通電藉以切換流體之流路的電磁閥。The present invention relates to a solenoid valve that utilizes a flow path for energizing an excitation coil to switch fluid.

過去之可切換流體流路之電磁閥,例如在專利文獻1中所記載的電磁閥,其為藉由讓激磁線圈通電以使得可動鐵芯對固定鐵芯進行相對移動,進而切換與該可動鐵芯連結之閥體相對於閥座之位置而藉以切換流體之流路。在該專利文獻1中所記載的電磁閥係構成為:藉由朝向固定鐵芯之吸引力,而使得可動鐵芯沿著導引軸移動。在該可動鐵芯沿著導引軸進行移動時,自該可動鐵芯起所一體延伸設置的部位係具有做為用以引導移動之導引部的功能。In the past, the electromagnetic valve of the switchable fluid flow path is, for example, a solenoid valve described in Patent Document 1, which is configured such that the movable iron core is relatively moved by the energizing of the exciting coil, thereby switching the movable iron. The position of the core-connected valve body relative to the valve seat is used to switch the flow path of the fluid. The electromagnetic valve described in Patent Document 1 is configured such that the movable iron core moves along the guide shaft by the attraction force toward the fixed iron core. When the movable iron core moves along the guide shaft, a portion integrally extended from the movable iron core has a function as a guide portion for guiding the movement.

另外,在上述的導引部與可動鐵芯成為一體化構成的電磁閥方面,則有專利文獻2所記載之電磁閥。在專利文獻2所記載的電磁閥係以樹脂材料來構成上述導引部,並構成為:自該導引部起所延伸設置之臂部係覆蓋著可動鐵芯之卡合溝、且直接連接於該可動鐵芯,藉此使導引部與可動鐵芯成為一體化。 [先前技術文獻] [專利文獻] [專利文獻1]日本專利特開2009-275811號公報。 [專利文獻2]日本專利特開2003-172472號公報。In addition, the electromagnetic valve described in Patent Document 2 is a solenoid valve in which the above-described guide portion and the movable iron core are integrated. In the electromagnetic valve described in Patent Document 2, the guide portion is formed of a resin material, and the arm portion extending from the guide portion covers the engagement groove of the movable iron core and is directly connected. The movable iron core is used to integrate the guide portion and the movable iron core. [Prior Art Document] [Patent Document] [Patent Document 1] Japanese Patent Laid-Open Publication No. 2009-275811. [Patent Document 2] Japanese Laid-Open Patent Publication No. 2003-172472.

[發明所欲解決之課題][Problems to be solved by the invention]

不過,藉由對於激磁線圈進行通電,將使得作用於吸引可動鐵芯朝向固定鐵芯的磁力之磁路,成為被形成於由可動鐵芯的外側通過該可動鐵芯內之形態。因此,在上述專利文獻2所記載的電磁閥中,以樹脂材料所構成之導引部的臂部,就可能會有遮蔽那被形成為由可動鐵芯外側通過該可動鐵芯內之形態的磁路之疑慮。此外,特別是在導引部與可動鐵芯的連結部方面,也有可能會發生鬆脫現象,進而也會有難以確保可動鐵芯之移動衝程之虞。However, by energizing the exciting coil, the magnetic path acting on the magnetic force that attracts the movable iron core toward the fixed iron core is formed in the movable iron core outside the movable iron core. Therefore, in the electromagnetic valve described in Patent Document 2, the arm portion of the guide portion made of a resin material may be formed so as to be shielded from the outside of the movable iron core through the movable iron core. The doubts about the magnetic circuit. Further, in particular, in the connection portion between the guide portion and the movable iron core, loosening may occur, and further, it may be difficult to ensure the movement stroke of the movable iron core.

本發明係有鑑於上述實際情形而提出者,其目的在於提供一種可確保磁路且能夠確保可動鐵芯之移動衝程之電磁閥。 [用以解決課題之方法]The present invention has been made in view of the above circumstances, and an object thereof is to provide a solenoid valve which can secure a magnetic path and can ensure a moving stroke of a movable iron core. [Method for solving the problem]

解決上述課題之電磁閥,其係具備有:收容於磁性框架內的固定鐵芯、及配置於與該固定鐵芯同軸上之可動鐵芯,藉由讓激磁線圈通電而使得可動鐵芯對固定鐵芯進行相對移動,進而切換與該可動鐵芯連結之閥體相對於閥座的位置、並切換流體的流路;其中於可動鐵芯內側具備有由樹脂材料所形成的導引部,其用以導引該可動鐵芯之移動,導引部係以對可動鐵芯不能進行相對移動的方式而與可動鐵芯一體化形成。A solenoid valve that solves the above-described problems includes a fixed iron core housed in a magnetic frame, and a movable iron core disposed coaxially with the fixed iron core, and the movable iron core pair is fixed by energizing the exciting coil The iron core is relatively moved, and the position of the valve body connected to the movable iron core with respect to the valve seat is switched, and the flow path of the fluid is switched; wherein the movable iron core is provided with a guiding portion formed of a resin material inside. For guiding the movement of the movable iron core, the guiding portion is integrally formed with the movable iron core so that the movable iron core cannot move relative to each other.

再者,於此種構成之電磁閥中,導引部為具有自可動鐵芯沿著軸方向突出之突出部,在可動鐵芯移動時係經由突出部的滑動(slide)來引導該可動鐵芯的移動。Further, in the solenoid valve of such a configuration, the guide portion has a protruding portion that protrudes from the movable iron core in the axial direction, and guides the movable iron via a slide of the protruding portion when the movable iron core moves. The movement of the core.

此外,突出部係自可動鐵芯起而從軸方向的兩側突出,在突出部之中,自可動鐵芯起向著固定鐵芯突出的第1突出部係:在插入至形成於固定鐵芯之插入孔,並且在可動鐵芯移動之際係經由與固定鐵芯之間的滑動來導引該可動鐵芯的移動,在突出部之中,自可動鐵芯起向著與第1突出部相反之側突出的第2突出部係在插入至形成於收容有閥體的本體之插入孔,並且在可動鐵芯移動之際係經由與本體之間的滑動來導引該可動鐵芯的移動。Further, the protruding portion protrudes from both sides in the axial direction from the movable iron core, and among the protruding portions, the first protruding portion that protrudes from the movable iron core toward the fixed iron core is inserted into the fixed iron core. Inserting a hole and guiding the movement of the movable iron core by sliding between the movable iron core and the fixed iron core, and the movable iron core is opposite to the first protruding portion among the protruding portions The second projecting portion that protrudes on the side is inserted into the insertion hole formed in the body in which the valve body is housed, and guides the movement of the movable iron core by sliding between the movable iron core and the body.

再者,於此種構成之電磁閥中,較佳者為可動鐵芯與導引部係以鑲嵌成形而成為一體化。Further, in the solenoid valve having such a configuration, it is preferable that the movable iron core and the guide portion are integrally formed by insert molding.

此外,於此種構成之電磁閥中,較佳者為可動鐵芯與導引部經由停止轉動手段而成為一體化,該停止轉動手段係用以限制該導引部對該可動鐵芯進行相對旋轉。 [發明之效果]Further, in the solenoid valve of such a configuration, preferably, the movable iron core and the guide portion are integrated via a stop rotation means for restricting the guide portion from opposing the movable iron core. Rotate. [Effects of the Invention]

根據本發明,就可以確保磁路並且能夠確保可動鐵芯之移動衝程。According to the present invention, it is possible to secure the magnetic circuit and to secure the moving stroke of the movable iron core.

以下,說明電磁閥之一實施形態。Hereinafter, an embodiment of the solenoid valve will be described.

如圖1所示,電磁閥裝設有:用以通過外部控制單元來進行供電用的連接器CN。此外,電磁閥係以:具有用來切換流體流路之閥體21的閥部10、及用以移動閥體21的電磁部(solenoid)30所構成。As shown in Fig. 1, the solenoid valve is provided with a connector CN for supplying power through an external control unit. Further, the solenoid valve is composed of a valve portion 10 having a valve body 21 for switching a fluid flow path, and an electromagnetic portion 30 for moving the valve body 21.

首先,參照圖1及圖2來說明閥部10。First, the valve portion 10 will be described with reference to Figs. 1 and 2 .

閥部10為具備由樹脂材料等之非磁性材料形成的本體11。在本體11的底面(在圖1中為下面)上係形成有供給埠P、輸出埠A、以及排出埠R。供給埠P為經由配管而連接於流體(例如,壓縮空氣)的供給源,並且輸出埠A為經由配管而連接於流體壓力機器。此外,在排出埠R上則連接有排出用配管等。The valve portion 10 is provided with a body 11 made of a non-magnetic material such as a resin material. A supply port P, an output port A, and a discharge port R are formed on the bottom surface (lower side in FIG. 1) of the body 11. The supply port P is a supply source connected to a fluid (for example, compressed air) via a pipe, and the output port A is connected to the fluid pressure device via a pipe. Further, a discharge pipe or the like is connected to the discharge port R.

此外,在本體11上係形成有:第1收容部12,其係在與上述底面成正交之一側面(在圖1中為右面)開口成圓穴狀;且形成有第2收容部13,其係在與該第1收容部12相反側之另一側面(在圖1中為左面)開口成圓穴狀。各收容部12、13皆係被形成於同軸上,並且在第1收容部12與第2收容部13之間的隔牆14係形成有連通該等部位的導引通路15。在隔牆上,導引通路15係被形成在避開對應於排出埠R的位置上。Further, the main body 11 is formed with a first accommodating portion 12 which is formed in a circular shape on one side (right side in FIG. 1) orthogonal to the bottom surface, and a second accommodating portion 13 is formed. It is opened in a circular shape on the other side (the left side in FIG. 1) on the opposite side to the first housing portion 12. Each of the accommodating portions 12 and 13 is formed coaxially, and the partition wall 14 between the first accommodating portion 12 and the second accommodating portion 13 is formed with a guide passage 15 that communicates with the portions. On the partition wall, the guide passage 15 is formed to avoid the position corresponding to the discharge port R.

在本體11中,上述一側面、亦即在第1收容部12的開口側為隔著O型環等之密封構件16而安裝有栓塞件17,並且在隔牆14與栓塞件17之間係分隔形成有閥室18。此外,閥室18為分別連通於供給埠P、輸出埠A、以及排出埠R。In the main body 11, the one side surface, that is, the opening side of the first housing portion 12 is a plug member 17 interposed therebetween via a sealing member 16 such as an O-ring, and is interposed between the partition wall 14 and the plug member 17. A valve chamber 18 is formed in the partition. Further, the valve chamber 18 is connected to the supply port P, the output port A, and the discharge port R, respectively.

在閥室18中,於栓塞件17係形成有向著該閥室18內突出的栓塞件突出部19。於栓塞件突出部19之閥室18側的端面係形成有供給閥座19a,其為用於切換閥室18與供給埠P的連通及非連通之際的閥座,也就是具有做為在切換供給埠P與輸出埠A之連通及非連通時的閥座之機能。In the valve chamber 18, the plug member 17 is formed with a plug protruding portion 19 projecting toward the inside of the valve chamber 18. An end surface of the plug portion 19 on the side of the valve chamber 18 is formed with a supply valve seat 19a which is a valve seat for switching the communication and non-communication between the valve chamber 18 and the supply port P, that is, as The function of the valve seat when the supply port P is connected to the output port A and is not connected is switched.

此外,於閥室18中,在隔牆14、亦即在本體11上係形成有向著該閥室18內突出的本體突出部20。在本體突出部20之閥室18側的端面係形成有排出閥座20a,其為用於切換閥室18與排出埠R之連通及非連通之閥座,也就是具有做為在切換排出埠R與輸出埠A之連通及非連通時的閥座之機能。Further, in the valve chamber 18, a body protrusion 20 projecting toward the inside of the valve chamber 18 is formed in the partition wall 14, that is, on the body 11. A discharge valve seat 20a is formed on the end surface of the main body projecting portion 20 on the side of the valve chamber 18, which is a valve seat for switching the communication and non-communication between the valve chamber 18 and the discharge port R, that is, as a switch port. The function of the valve seat when R is connected to the output 埠A and is not connected.

在閥室18中,供給閥座19a與排出閥座20a係形成為相互對向。而在閥室18中,在供給閥座19a與排出閥座20a之間係收容有:圓柱狀的閥體21,其係能夠與供給閥座19a及排出閥座20a接觸或分離。此外,在閥室18中,於栓塞件17與閥體21之間係收容有線圈彈簧等閥彈簧22,其係用以附加勢能於該閥體21遠離供給閥座19a的方向,即附加勢能於排出閥座20a側。另外,在閥室18中,於隔牆14與閥體21之間係收容有:可支撐該閥體21並可一體移動的閥導件23。In the valve chamber 18, the supply valve seat 19a and the discharge valve seat 20a are formed to face each other. In the valve chamber 18, between the supply valve seat 19a and the discharge valve seat 20a, a cylindrical valve body 21 that can be in contact with or separated from the supply valve seat 19a and the discharge valve seat 20a is housed. Further, in the valve chamber 18, a valve spring 22 such as a coil spring is housed between the plug member 17 and the valve body 21 for additional potential energy in the direction in which the valve body 21 is away from the supply valve seat 19a, that is, additional potential energy. On the side of the discharge valve seat 20a. Further, in the valve chamber 18, between the partition wall 14 and the valve body 21, a valve guide 23 that can support the valve body 21 and is integrally movable is housed.

閥導件23為具有:自外周側支撐閥體21的筒狀支撐部23a、及引導閥體21移動的閥體導引部23b。閥體導引部23b係被插入至隔牆14的導引通路15,且係被形成為具有使其前端可收容至該導引通路15內之長度。因此,有關相對於閥體21之供給閥座19a及排出閥座20a之接觸與分離的移動,就可以經由與閥體導引部23b之導引通路15之間的滑動來引導。The valve guide 23 has a cylindrical support portion 23a that supports the valve body 21 from the outer peripheral side, and a valve body guide portion 23b that guides the movement of the valve body 21. The valve body guide portion 23b is inserted into the guide passage 15 of the partition wall 14, and is formed to have a length such that its front end can be accommodated in the guide passage 15. Therefore, the movement of the contact and separation with respect to the supply valve seat 19a and the discharge valve seat 20a of the valve body 21 can be guided by sliding with the guide passage 15 of the valve body guide portion 23b.

如圖1及圖2之上半部分所示,在閥體21為抵壓而附接於供給閥座19a的狀態下,將會使得閥室18與供給埠P成為非連通狀(閉鎖狀態),並經由閥室18而使得排出埠R與輸出埠A連通(開放狀態)。As shown in the upper half of Fig. 1 and Fig. 2, in a state in which the valve body 21 is pressed against the supply valve seat 19a, the valve chamber 18 and the supply port P are disconnected (closed state). And the discharge port R is communicated with the output port A via the valve chamber 18 (open state).

另一方面,如圖1及圖2之下半部分所示,在閥體21為抵壓而附接於排出閥座20a的狀態下,則會使得閥室18與排出埠R成為非連通(閉鎖狀態),並經由閥室18而使得供給埠P與輸出埠A連通(開放狀態)。On the other hand, as shown in the lower half of FIGS. 1 and 2, in a state where the valve body 21 is pressed against the discharge valve seat 20a, the valve chamber 18 and the discharge port R are disconnected ( In the locked state), the supply port P is communicated with the output port A via the valve chamber 18 (open state).

接著,參照圖1及圖2來說明電磁部30。Next, the electromagnetic unit 30 will be described with reference to FIGS. 1 and 2 .

電磁部30為具備有:由磁性材料所形成的磁性框架31。磁性框架31係被固定成使其可以覆蓋自本體11內之第2收容部13的開口側至隔牆14為止之區間的外周。在磁性框架31之內側係固設有:由鐵等磁性材料所形成之約略圓柱狀的固定鐵芯32。在固定鐵芯32中,於徑向中心內,由本體11之第2收容部13側沿著軸方向上係凹設有插入孔32a。The electromagnetic portion 30 is provided with a magnetic frame 31 formed of a magnetic material. The magnetic frame 31 is fixed so as to cover the outer circumference of the section from the opening side of the second housing portion 13 in the main body 11 to the partition wall 14. A substantially cylindrical fixed iron core 32 formed of a magnetic material such as iron is fixed to the inner side of the magnetic frame 31. In the fixed iron core 32, an insertion hole 32a is recessed in the axial direction from the second housing portion 13 side of the main body 11 in the radial center.

另外,在磁性框架31的內側固設有:隔著絕緣部33被捲繞於固定鐵芯32的外周上的激磁線圈34。在絕緣部33中,第2收容部13側與本體11之間的縫隙,是經由O型環等之密封構件35所密封著。Further, an excitation coil 34 wound around the outer circumference of the fixed iron core 32 via the insulating portion 33 is fixed to the inner side of the magnetic frame 31. In the insulating portion 33, the gap between the second housing portion 13 side and the main body 11 is sealed by a sealing member 35 such as an O-ring.

此外,於磁性框架31的內側,在本體11的第2收容部13內,可動鐵芯36係被配設於與固定鐵芯32相同軸上,且以可與該固定鐵芯32接觸分離之方式被收容著。可動鐵芯36則具備有:由鐵等磁性材料形成之約略圓筒狀的鐵芯部36a。鐵芯部36a係形成為:其內徑自本體11之隔牆14起往最小內徑部36b逐漸縮小,並且自該最小內徑部36b起往固定鐵芯32,內徑一旦擴大之後就保持一定。此外,鐵芯部36a的外徑為被設定成約略小於第2收容部13的內徑,且被設定成能夠讓可動鐵芯36在該第2收容部13內移動。Further, inside the magnetic frame 31, in the second housing portion 13 of the main body 11, the movable iron core 36 is disposed on the same axis as the fixed iron core 32, and is separable from the fixed iron core 32. The way is contained. The movable iron core 36 is provided with a substantially cylindrical core portion 36a formed of a magnetic material such as iron. The core portion 36a is formed such that its inner diameter gradually decreases from the partition wall 14 of the body 11 toward the minimum inner diameter portion 36b, and the fixed core 32 is lifted from the minimum inner diameter portion 36b, and the inner diameter is kept constant once expanded . Further, the outer diameter of the core portion 36a is set to be slightly smaller than the inner diameter of the second housing portion 13, and is set to allow the movable iron core 36 to move in the second housing portion 13.

在可動鐵芯36中,於鐵芯部36a內部、亦即於徑方向內側,由樹脂材料等非磁性材料所形成的導引部37與該鐵芯部36a成為一體地被收容著。導引部37係在以鍛造成形鐵芯部36a後,再藉由鑲嵌成形而與該鐵芯部36a形成一體化。利用該鑲嵌成形,將鐵芯部36a的最小內徑部36b嵌入導引部37的內面而形成一體化。In the movable core 36, a guide portion 37 made of a non-magnetic material such as a resin material is integrally housed inside the core portion 36a, that is, in the radial direction inner side, and the core portion 36a. The guide portion 37 is formed by integrating the core portion 36a with the forged core portion 36a and then insert molding. By this insert molding, the minimum inner diameter portion 36b of the core portion 36a is fitted into the inner surface of the guide portion 37 to be integrated.

特別是如圖2所示,在導引部37中係形成有能夠移動並支撐可動鐵芯36的突出部,亦即形成有能夠導引可動鐵芯36之移動的複數個(在本實施形態,總計為3根)突出部37a、37b。In particular, as shown in FIG. 2, a projection portion capable of moving and supporting the movable iron core 36 is formed in the guide portion 37, that is, a plurality of projections capable of guiding the movement of the movable iron core 36 are formed (in the present embodiment). There are a total of three) protruding portions 37a and 37b.

於導引部37中係形成有一對(2根)閥體側突出部37a,其係自可動鐵芯36向著成為軸方向一端側的閥體21(閥導件23)側突出。一對之閥體側突出部37a係分別插入至做為本體11之插入孔的導引通路15,且分別被形成為比該導引通路15還更長。亦即,形成為:在可動鐵芯36相對於固定鐵芯32進行有關接觸分離的移動時,閥體側突出部37a則將在導引通路15內進行滑動。再者,一對之閥體側突出部37a係構成為:在可動鐵芯36最接近固定鐵芯32之際,使得閥體21移動至可與排出閥座20a接附的位置,另一方面,在可動鐵芯36成為最遠離固定鐵芯32之際,則將按壓閥導件23而使得閥體21移動至可與供給閥座19a接附的位置。藉此,可動鐵芯36與閥體21就能夠經由一對之閥體側突出部37a及閥導件23而被連結在一起。在本實施形態中,一對之閥體側突出部37a具備做為第2突出部之功用。A pair of (two) valve body side protruding portions 37a are formed in the guide portion 37, and protrude from the movable iron core 36 toward the valve body 21 (valve guide 23) on the one end side in the axial direction. A pair of valve body side projections 37a are respectively inserted into the guide passages 15 as the insertion holes of the body 11, and are formed longer than the guide passages 15, respectively. In other words, when the movable iron core 36 moves relative to the fixed iron core 32 in relation to the contact separation, the valve body side protruding portion 37a slides in the guide passage 15. Further, the pair of valve body side protruding portions 37a are configured such that when the movable iron core 36 is closest to the fixed iron core 32, the valve body 21 is moved to a position attachable to the discharge valve seat 20a, and When the movable iron core 36 is farthest from the fixed iron core 32, the valve guide 23 is pressed to move the valve body 21 to a position attachable to the supply valve seat 19a. Thereby, the movable iron core 36 and the valve body 21 can be coupled via the pair of valve body side protrusions 37a and the valve guide 23. In the present embodiment, the pair of valve body side protruding portions 37a have the function as the second protruding portion.

此外,在導引部37中係形成有1根之固定鐵芯側突出部37b,其係自可動鐵芯36起而於成為軸方向之另一端側的固定鐵芯32側突出。固定鐵芯側突出部37b係被插入至固定鐵芯32之插入孔32a,而在可動鐵芯36相對於固定鐵芯32進行有關接觸分離的移動時,則就會變成在插入孔32a內滑動。在本實施形態中,固定鐵芯側突出部37b係具備做為第1突出部之功用。Further, the guide portion 37 is formed with one fixed core side protruding portion 37b which protrudes from the movable iron core 36 on the side of the fixed iron core 32 on the other end side in the axial direction. The fixed core side protruding portion 37b is inserted into the insertion hole 32a of the fixed iron core 32, and when the movable iron core 36 is moved with respect to the contact separation with respect to the fixed iron core 32, it becomes slipped in the insertion hole 32a. . In the present embodiment, the fixed iron core side protruding portion 37b has a function as a first protruding portion.

另外,在導引部37中係形成有自固定鐵芯側突出部37b突出的基部起跨越徑向的彈簧承接部37c。並且,於磁性框架31的內側,在固定鐵芯32與導引部37的彈簧承接部37c之間係收容有:用以附加勢能在自固定鐵芯32遠離該可動鐵芯36的方向、亦即閥體21側的線圈彈簧等之柱塞彈簧38。Further, in the guide portion 37, a spring receiving portion 37c that spans the radial direction from the base portion protruding from the fixed core side protruding portion 37b is formed. Further, on the inner side of the magnetic frame 31, between the fixed iron core 32 and the spring receiving portion 37c of the guiding portion 37, a direction for attaching potential energy to the self-fixing iron core 32 away from the movable iron core 36 is also accommodated. That is, the plunger spring 38 such as a coil spring on the valve body 21 side.

接著,參照圖1至圖3來說明可動鐵芯36的外形。Next, the outer shape of the movable iron core 36 will be described with reference to Figs. 1 to 3 .

在導引部37(鐵芯部36a)中,閥體21側的開口部37d係以開口直徑R1為長徑(長軸)並以開口直徑R2為短徑(短軸)的橢圓形,而且與鐵芯部36a中之最小內徑部36b相較之下,閥體21側之導引部37的部分為形成橢圓形剖面。因此,鐵芯部36a與導引部37係一體化形成而使得導引部37不能夠相對於鐵芯部36a向著徑方向進行旋轉。亦即,導引部37的外觀形狀以及鐵芯部36a之內周形狀具備做為停止轉動手段之功用,該停止轉動手段係用以限制導引部37相對於鐵芯部36a向著上述徑方向進行旋轉。In the guide portion 37 (the core portion 36a), the opening portion 37d on the valve body 21 side has an elliptical shape in which the opening diameter R1 is a long diameter (long axis) and the opening diameter R2 is a short diameter (short axis), and The portion of the guide portion 37 on the side of the valve body 21 is formed into an elliptical cross section as compared with the smallest inner diameter portion 36b of the core portion 36a. Therefore, the core portion 36a and the guide portion 37 are integrally formed so that the guide portion 37 cannot be rotated in the radial direction with respect to the core portion 36a. That is, the outer shape of the guide portion 37 and the inner peripheral shape of the core portion 36a have a function as a means for stopping the rotation, and the stop rotation means is for restricting the guide portion 37 toward the radial direction with respect to the core portion 36a. Rotate.

此外,一對之閥體側突出部37a係分別沿著導引通路15繪成的曲線而被形成為弧狀。另一方面,固定鐵芯側突出部37b則形成為:自一對之閥體側突出部37a之相反側起突出、並且可插入至插入孔32a的棒狀。Further, the pair of valve body side projections 37a are formed in an arc shape along the curve drawn by the guide passage 15, respectively. On the other hand, the fixed iron core side protruding portion 37b is formed in a rod shape that protrudes from the opposite side of the pair of valve body side protruding portions 37a and is insertable into the insertion hole 32a.

其次,說明如上述構成之本實施形態之電磁閥的功用。Next, the function of the solenoid valve of the present embodiment configured as described above will be described.

如圖1及圖2之下半部分所示,在向激磁線圈34進行通電時,可動鐵芯36將會抵抗柱塞彈簧38之附加勢能力而被吸附至固定鐵芯32側,閥體21則被閥彈簧22附加勢能而被擠壓至排出閥座20a。在此之際,作用於使可動鐵芯36被吸引至固定鐵芯32之磁力的磁路X係被形成為:通過磁性框架31並自可動鐵芯36之外側起通過該可動鐵芯36內(鐵芯部36a)。As shown in the lower half of FIGS. 1 and 2, when energizing the exciting coil 34, the movable iron core 36 is adsorbed to the side of the fixed iron core 32 against the additional potential of the plunger spring 38, and the valve body 21 Then, the valve spring 22 is pressed to the discharge valve seat 20a by adding potential energy. At this time, the magnetic circuit X acting on the magnetic force that causes the movable iron core 36 to be attracted to the fixed iron core 32 is formed to pass through the magnetic core 31 and pass through the movable iron core 36 from the outer side of the movable iron core 36. (iron core portion 36a).

亦即,由於在可動鐵芯36之徑方向內側具有導引部37,因此,該導引部37就不至於會遮蔽:被形成於自可動鐵芯36之外側通過可動鐵芯36內之磁路X。That is, since the guide portion 37 is provided on the inner side in the radial direction of the movable iron core 36, the guide portion 37 is not shielded: the magnetic body formed in the movable iron core 36 from the outer side of the movable iron core 36 Road X.

因為不至於遮蔽被形成於從此種的可動鐵芯36外側通過該可動鐵芯36內的磁路X,所以就能夠以樹脂材料來構成上述導引部37。Since the shield is formed so as to pass through the magnetic path X in the movable core 36 from the outside of the movable core 36, the guide portion 37 can be formed of a resin material.

此外,因為是藉由以鑲嵌成形而將可動鐵芯36與導引部37一體化形成,所以即便是在鐵芯部36a與導引部37為由相異材料形成的情況下,仍然可以一體化而使彼等之間毫無縫隙,並且以鐵芯部36a之最小內徑部36b嵌入導引部37而成形。Further, since the movable iron core 36 and the guide portion 37 are integrally formed by insert molding, even when the core portion 36a and the guide portion 37 are formed of different materials, they can be integrated. The gap is formed without any gap therebetween, and the guide portion 37 is fitted with the minimum inner diameter portion 36b of the core portion 36a.

藉由此種的鑲嵌成形,就能夠阻止對於鐵芯部36a之軸方向或徑方向的相對移動,特別是可以抑制在鐵芯部36a與導引部37之連結部產生鬆脫。By such insert molding, relative movement in the axial direction or the radial direction of the core portion 36a can be prevented, and in particular, loosening of the joint portion between the core portion 36a and the guide portion 37 can be suppressed.

此外,於圖1及圖2之上半部分以及下半部分之間,伴隨著使激磁線圈34通電及停止通電之切換所導致的可動鐵芯36之移動,係經由與一對之閥體側突出部37a在導引通路15間的滑動、及與固定鐵芯側突出部37b在插入孔32a間的滑動來引導。Further, between the upper half and the lower half of FIG. 1 and FIG. 2, the movement of the movable iron core 36 due to the switching of energization and stop energization of the exciting coil 34 is via the valve body side with the pair The protruding portion 37a is guided by sliding between the guide passages 15 and sliding of the fixed core side protruding portion 37b between the insertion holes 32a.

亦即,可動鐵芯36係在移動之際,不需要使該可動鐵芯36之鐵芯部36a於本體11內滑動,便能夠進行移動。In other words, when the movable iron core 36 is moved, it is possible to move without moving the core portion 36a of the movable iron core 36 in the body 11.

因為使可動鐵芯36能夠進行像這種移動,所以就可以抑制鐵芯部36a之磨耗,並且能夠擴大用以滑動上述導引部37之各突出部37a、37b的相對構件之素材的選擇範圍。Since the movable iron core 36 can be moved in this manner, the wear of the core portion 36a can be suppressed, and the selection range of the material for sliding the opposing members 37a, 37b of the guide portion 37 can be expanded. .

此外,於圖1及圖2之上半部分以及下半部分之間,伴隨著使激磁線圈34通電、及停止通電之切換所導致的可動鐵芯36之移動,則是藉由一對之閥體側突出部37a及固定鐵芯側突出部37b而被導引至該可動鐵芯36之軸方向的兩側。Further, between the upper half and the lower half of FIG. 1 and FIG. 2, the movement of the movable iron core 36 caused by the energization of the exciting coil 34 and the stop of the energization is performed by a pair of valves. The body side protruding portion 37a and the fixed core side protruding portion 37b are guided to both sides of the movable iron core 36 in the axial direction.

亦即,在可動鐵芯36移動之際,就能夠抑制因相對於本體11傾斜等因素所產生之橫向吸附力。因此,在可動鐵芯36移動之際,就能夠抑制該可動鐵芯36因所產生的橫向吸附力而導致傾斜,進而就能夠抑制發生無法確保該可動鐵芯36之移動衝程的情況。That is, when the movable iron core 36 is moved, the lateral suction force due to factors such as inclination with respect to the body 11 can be suppressed. Therefore, when the movable iron core 36 moves, it is possible to suppress the inclination of the movable iron core 36 due to the lateral suction force generated, and it is possible to suppress the occurrence of a movement stroke in which the movable iron core 36 cannot be secured.

如以上說明,根據本實施形態就可以獲得如下所述之效果。As described above, according to the present embodiment, the effects described below can be obtained.

(1)即便是將由樹脂材料構成之導引部37與可動鐵芯36予以一體化,亦仍然可以確保磁路X、且可以確保可動鐵芯36之移動衝程。(1) Even if the guide portion 37 made of a resin material is integrated with the movable iron core 36, the magnetic path X can be secured and the moving stroke of the movable iron core 36 can be ensured.

(2)從考慮可動鐵芯36的移動來看,由於變成也可以不需要考慮:與具有由鐵等所形成之可動鐵芯36之較高硬度的元件之間的滑動,因此就能夠實現一種電磁閥,特別是能夠藉由可配合用途或狀況的素材來構成有關於進行滑動的導引部37之各突出部37a、37b的相對構件之電磁閥。(2) From the viewpoint of considering the movement of the movable iron core 36, it is not necessary to consider the sliding between the element having a higher hardness of the movable iron core 36 formed of iron or the like, thereby realizing a kind of In particular, the solenoid valve can be constructed with a material that can be used in accordance with the use or condition to form a solenoid valve with respect to the opposing members of the projections 37a and 37b of the guide portion 37 that slides.

(3)由於能夠抑制可動鐵芯36移動時產生橫向吸附力,故能夠抑制:因為無法確保該可動鐵芯36之移動衝程,進而導致發生無法切換閥體21相對於各閥座19a、20a的位置之情況。(3) Since it is possible to suppress the lateral absorbing force when the movable iron core 36 moves, it is possible to suppress that the movement stroke of the movable iron core 36 cannot be ensured, and that the valve body 21 cannot be switched with respect to the respective valve seats 19a and 20a. The situation of the location.

(4)即便是鐵芯部36a與導引部37為相異材料所構成,仍可利用鑲嵌成形予以一體化而使彼等之間無間隙。因此,就能夠抑制鐵芯部36a與導引部37之間產生鬆脫。(4) Even if the core portion 36a and the guide portion 37 are made of different materials, they can be integrated by insert molding so that there is no gap therebetween. Therefore, it is possible to suppress the occurrence of looseness between the core portion 36a and the guide portion 37.

(5)即使是導引部37相對於可動鐵芯36向著徑方向旋轉,亦能夠更進一步地加以抑制。從而,亦可藉由鐵芯部36a與導引部的一體化而更進一步地抑制發生對鬆脫情形有可能造成影響的事件。(5) Even if the guide portion 37 is rotated in the radial direction with respect to the movable iron core 36, it can be further suppressed. Therefore, it is possible to further suppress an event that may have an influence on the loosening situation by the integration of the core portion 36a and the guide portion.

(6)在可動鐵芯36移動之際,即便是柱塞彈簧38發生伸縮,導引部37同樣是不會受到由於可動鐵芯36因橫向吸附力而傾斜所造成的影響。從而,就能夠抑制:在可動鐵芯36移動途中,產生因柱塞彈簧38傾斜等而無法獲得所期望之附加勢能力的情況。(6) When the movable iron core 36 moves, even if the plunger spring 38 expands and contracts, the guide portion 37 is not affected by the inclination of the movable iron core 36 due to the lateral suction force. Therefore, it is possible to suppress that the desired additional potential capability cannot be obtained due to the inclination of the plunger spring 38 or the like during the movement of the movable iron core 36.

(7)在可動鐵芯36移動之際,由於能夠使得該可動鐵芯36之鐵芯部36a於本體11內不產生滑動地進行移動,因此,就能夠抑制鐵芯部36a的磨耗,因而有助於延長使用壽命。(7) When the movable core 36 is moved, the core portion 36a of the movable core 36 can be moved without slipping in the body 11, so that the wear of the core portion 36a can be suppressed. Helps extend the life.

(8)由於是在可動鐵芯36的徑向內側具有導引部37,因此,與在可動鐵芯36的徑向外側具有導引部37的情況相比之下,就能夠使可動鐵芯36的吸附面積更加增大,進而能夠使得將可動鐵芯36吸引至固定鐵芯32的吸引力更加增大。(8) Since the guide portion 37 is provided on the radially inner side of the movable iron core 36, the movable iron core can be made in comparison with the case where the guide portion 37 is provided on the radially outer side of the movable iron core 36. The suction area of 36 is further increased, and the attraction force for attracting the movable iron core 36 to the fixed iron core 32 can be further increased.

此外,上述的實施形態,亦能夠是以經由適當變更過的如下所述之形態來實施。Further, the above-described embodiment can also be implemented in the form described below as appropriate.

開口部37d亦可是形成正圓形。在此情況下,可以是在開口部37d之周緣上形成一個以上的凸部,而使其能夠具有做為用以限制導引部37相於對鐵芯部36a向著徑方向進行旋轉的停止轉動手段之功用。此外,此種的停止轉動手段,亦能夠藉由螺絲等予以鎖固來實現。The opening portion 37d may also be formed in a perfect circular shape. In this case, one or more convex portions may be formed on the periphery of the opening portion 37d so as to have a stop rotation for restricting the rotation of the guiding portion 37 in the radial direction of the core portion 36a. The function of the means. Further, such a means for stopping the rotation can also be achieved by locking with a screw or the like.

鐵芯部36a與導引部37,亦可以是在分別以不同的工程成形之後,再藉由接著劑等之接著手段來固定。此外,此種接著手段,亦能夠藉由螺絲等予以鎖固來實現。The core portion 36a and the guiding portion 37 may be fixed by being formed by different processes after being separately formed by different processes. Further, such an attachment means can also be achieved by locking with a screw or the like.

鐵芯部36a與導引部37,只要是鑲嵌成形即可,也可以是不具有最小內徑部36b為嵌入導引部37之內面的構造。The core portion 36a and the guide portion 37 may be insert-molded, and the minimum inner diameter portion 36b may not have the inner surface of the insertion guide portion 37.

在進行將鐵芯部36a與導引部37予以一體化之際,為了將導引部37嵌入鐵芯部36a,亦可以在鐵芯部36a的內面設置凹部。When the core portion 36a and the guide portion 37 are integrated, the recessed portion may be provided on the inner surface of the core portion 36a in order to embed the guide portion 37 in the core portion 36a.

在上述的實施形態中,雖然是形成一對之閥體側突出部37a及固定鐵芯側突出部37b來導引可動鐵芯36的移動,然而也可以是至少以任何的突出部來導引移動。例如,如圖4所示,在只利用閥體側突出部37a來導引可動鐵芯36之移動的情況,就不需要對於固定鐵芯側突出部37b設定成足以收納至鐵芯部36a內的長度,並且不需要形成固定鐵芯32的插入孔32a。根據此一例子,構造就可以更加簡化了。此外,此種閥體側突出部37a,亦可以是形成一個或是三個以上之突出部。In the above-described embodiment, the valve body side protruding portion 37a and the fixed core side protruding portion 37b are formed to guide the movement of the movable iron core 36. However, it may be guided by at least any protruding portion. mobile. For example, as shown in FIG. 4, when the movement of the movable iron core 36 is guided by only the valve body side protruding portion 37a, it is not necessary to set the fixed iron core side protruding portion 37b enough to be accommodated in the core portion 36a. The length is not required to form the insertion hole 32a of the fixed iron core 32. According to this example, the construction can be more simplified. Further, such a valve body side protruding portion 37a may be formed with one or three or more projections.

只要是能夠確保將可動鐵芯36吸附至固定鐵芯32之充分的磁路X,則就能夠縮小可動鐵芯36之鐵芯部36a的大小,特別是可縮短軸方向的長度。換言之,亦能夠有助於電磁閥的小型化。As long as the sufficient magnetic path X for sucking the movable iron core 36 to the fixed iron core 32 is ensured, the size of the core portion 36a of the movable iron core 36 can be reduced, and in particular, the length in the axial direction can be shortened. In other words, it can also contribute to miniaturization of the solenoid valve.

閥導件23之閥體導引部23b的長度,亦可以設定為:使其前端由導引通路15突出至可動鐵芯36內部、即突出至導引部37為止之距離。並且亦能夠藉由插入閥體導引部23b,而將用來導引可動鐵芯36的移動之閥體側導引部形成於導引部37內部。The length of the valve body guide portion 23b of the valve guide 23 may be set such that the tip end thereof protrudes from the guide passage 15 to the inside of the movable iron core 36, that is, the distance from the guide portion 37. Further, the valve body side guide portion for guiding the movement of the movable iron core 36 can be formed inside the guide portion 37 by inserting the valve body guide portion 23b.

在固定鐵芯32的插入孔32a中,亦能夠插入用來取代固定鐵芯側突出部37b之棒狀的突出部並加以固定,進而藉由插入該突出部而能夠將導引可動鐵芯36之移動的固定鐵芯側導引部形成於導引部37內部。In the insertion hole 32a of the fixed iron core 32, a rod-shaped projecting portion for replacing the fixed core side protruding portion 37b can be inserted and fixed, and the movable iron core 36 can be guided by inserting the protruding portion. The moving fixed core side guide portion is formed inside the guide portion 37.

就流體而論,不限於壓縮氣體而已,亦可以是被壓縮之液體等、以及其他的流體。In terms of fluid, it is not limited to a compressed gas, and may be a compressed liquid or the like, and other fluids.

上述實施形態,亦可適用於埠數為兩個、或四個的結構。The above embodiment can also be applied to a configuration in which the number of turns is two or four.

上述實施形態,亦可適用於切換流體之流路的電磁閥,其係藉由讓激磁線圈34通電而使得可動鐵芯36相對於固定鐵芯32分離開來,進而切換與該可動鐵芯36連結之閥體21的相對於各閥座19a、20a的位置。The above embodiment can also be applied to a solenoid valve that switches a flow path of a fluid, and the movable iron core 36 is separated from the fixed iron core 32 by energizing the exciting coil 34, thereby switching the movable iron core 36. The position of the connected valve body 21 with respect to each of the valve seats 19a, 20a.

10‧‧‧閥部
11‧‧‧本體
12‧‧‧第1收容部
13‧‧‧第2收容部
14‧‧‧隔牆
15‧‧‧導引通路
16‧‧‧密封構件
17‧‧‧栓塞件
18‧‧‧閥室
19‧‧‧栓塞件突出部
19a‧‧‧供給閥座
20‧‧‧本體突出部
20a‧‧‧排出閥座
21‧‧‧閥體
22‧‧‧閥彈簧
23‧‧‧閥導件
23a‧‧‧筒狀支撐部
30‧‧‧電磁部
31‧‧‧磁性框架
32‧‧‧固定鐵芯
32a‧‧‧插入孔
33‧‧‧絕緣部
34‧‧‧激磁線圈
35‧‧‧密封構件
36‧‧‧可動鐵芯
36a‧‧‧鐵芯部
36b‧‧‧最小內徑部
37‧‧‧導引部
37a‧‧‧閥體側突出部
37b‧‧‧固定鐵芯側突出部
37c‧‧‧彈簧承接部
37d‧‧‧開口部
38‧‧‧柱塞彈簧
R1、R2‧‧‧開口直徑
X‧‧‧磁路
10‧‧‧ Valve Department
11‧‧‧Ontology
12‧‧‧1st Containment Department
13‧‧‧2nd Department of Housing
14‧‧‧ partition wall
15‧‧‧Guided access
16‧‧‧ Sealing members
17‧‧‧Embedded pieces
18‧‧‧Valves
19‧‧ ‧ embolization protrusion
19a‧‧‧Supply valve seat
20‧‧‧ Body protrusion
20a‧‧‧discharge valve seat
21‧‧‧ valve body
22‧‧‧Valve spring
23‧‧‧Valve Guides
23a‧‧‧Cylindrical support
30‧‧‧Electromagnetic Department
31‧‧‧ Magnetic frame
32‧‧‧Fixed core
32a‧‧‧ insertion hole
33‧‧‧Insulation
34‧‧‧Exciting coil
35‧‧‧ Sealing members
36‧‧‧ movable iron core
36a‧‧‧ core
36b‧‧‧Minimum inner diameter
37‧‧‧Guide
37a‧‧‧ Body side projections
37b‧‧‧Fixed core side projections
37c‧‧·Spring bearing department
37d‧‧‧ openings
38‧‧‧Plunger spring
R1, R2‧‧‧ opening diameter
X‧‧‧ Magnetic Circuit

圖1為顯示電磁閥之高度方向的斷面圖。 圖2為顯示電磁閥之寬度方向的斷面圖。 圖3為顯示可動鐵芯的立體圖。 圖4為顯示其他例子中的電磁閥之寬度方向的斷面圖。Fig. 1 is a cross-sectional view showing a height direction of a solenoid valve. Figure 2 is a cross-sectional view showing the width direction of the solenoid valve. Fig. 3 is a perspective view showing a movable iron core. Fig. 4 is a cross-sectional view showing the width direction of the solenoid valve in another example.

10‧‧‧閥部 10‧‧‧ Valve Department

11‧‧‧本體 11‧‧‧Ontology

12‧‧‧第1收容部 12‧‧‧1st Containment Department

13‧‧‧第2收容部 13‧‧‧2nd Department of Housing

14‧‧‧隔牆 14‧‧‧ partition wall

15‧‧‧導引通路 15‧‧‧Guided access

16‧‧‧密封構件 16‧‧‧ Sealing members

17‧‧‧栓塞件 17‧‧‧Embedded pieces

18‧‧‧閥室 18‧‧‧Valves

19‧‧‧栓塞件突出部 19‧‧ ‧ embolization protrusion

19a‧‧‧供給閥座 19a‧‧‧Supply valve seat

20‧‧‧本體突出部 20‧‧‧ Body protrusion

20a‧‧‧排出閥座 20a‧‧‧discharge valve seat

21‧‧‧閥體 21‧‧‧ valve body

22‧‧‧閥彈簧 22‧‧‧Valve spring

23‧‧‧閥導件 23‧‧‧Valve Guides

23a‧‧‧筒狀支撐部 23a‧‧‧Cylindrical support

30‧‧‧電磁部 30‧‧‧Electromagnetic Department

31‧‧‧磁性框架 31‧‧‧ Magnetic frame

32‧‧‧固定鐵芯 32‧‧‧Fixed core

32a‧‧‧插入孔 32a‧‧‧ insertion hole

33‧‧‧絕緣部 33‧‧‧Insulation

34‧‧‧激磁線圈 34‧‧‧Exciting coil

35‧‧‧密封構件 35‧‧‧ Sealing members

36‧‧‧可動鐵芯 36‧‧‧ movable iron core

36a‧‧‧鐵芯部 36a‧‧‧ core

36b‧‧‧最小內徑部 36b‧‧‧Minimum inner diameter

37‧‧‧導引部 37‧‧‧Guide

37a‧‧‧閥體側突出部 37a‧‧‧ Body side projections

37b‧‧‧固定鐵芯側突出部 37b‧‧‧Fixed core side projections

37c‧‧‧彈簧承接部 37c‧‧·Spring bearing department

37d‧‧‧開口部 37d‧‧‧ openings

38‧‧‧柱塞彈簧 38‧‧‧Plunger spring

R2‧‧‧開口直徑 R2‧‧‧ opening diameter

X‧‧‧磁路 X‧‧‧ Magnetic Circuit

Claims (6)

一種電磁閥,其係具備有:收容於磁性框架內且配置在與固定鐵芯相同軸上之可動鐵芯,且藉由讓激磁線圈通電而使得前述可動鐵芯相對於前述固定鐵芯進行移動,藉以切換與該可動鐵芯連結之閥體相對於閥座的位置、並切換流體的流路,其特徵在於: 於可動鐵芯之內側具備有由樹脂材料所形成的導引部,其用以導引該可動鐵芯之移動, 前述導引部係以對可動鐵芯不能進行相對移動的方式而與可動鐵芯一體化形成。A solenoid valve comprising: a movable iron core housed in a magnetic frame and disposed on a same axis as a fixed iron core, and moving the movable iron core relative to the fixed iron core by energizing the excitation coil By switching the position of the valve body connected to the movable iron core with respect to the valve seat and switching the flow path of the fluid, the inner side of the movable iron core is provided with a guide portion formed of a resin material, which is used for In order to guide the movement of the movable iron core, the guide portion is integrally formed with the movable iron core so that the movable iron core cannot move relative to each other. 如請求項1所記載之電磁閥,其中前述導引部為具有從前述可動鐵芯而沿著軸方向突出的突出部, 在前述可動鐵芯移動時,其係經由前述突出部的滑動來引導該可動鐵芯的移動。The electromagnetic valve according to claim 1, wherein the guide portion has a protruding portion that protrudes from the movable iron core in the axial direction, and when the movable iron core moves, it is guided by sliding of the protruding portion. The movement of the movable iron core. 如請求項2所記載之電磁閥,其中前述突出部係從前述可動鐵芯自軸方向的兩側突出; 在前述突出部之中,由前述可動鐵芯向前述固定鐵芯突出的第1突出部係:被插入至形成於前述固定鐵芯上的插入孔,且在前述可動鐵芯移動時,經由與前述固定鐵芯之間的滑動來導引該可動鐵芯的移動; 在前述突出部之中,由前述可動鐵芯向與前述第1突出部逆向之側突出的第2突出部係:被插入至形成於收容前述閥體之本體上的插入孔,且在前述可動鐵芯移動時,經由與前述本體之間的滑動來引導該可動鐵芯的移動。The solenoid valve according to claim 2, wherein the protruding portion protrudes from both sides of the movable iron core from the axial direction; and the first protruding portion of the protruding iron core protruding from the fixed iron core a part inserted into an insertion hole formed in the fixed iron core, and guiding the movement of the movable iron core via sliding with the fixed iron core when the movable iron core moves; The second protruding portion that protrudes from the movable iron core toward the side opposite to the first protruding portion is inserted into an insertion hole formed in the body in which the valve body is housed, and when the movable iron core moves The movement of the movable iron core is guided via sliding with the aforementioned body. 如請求項1至請求項3中任一項所記載之電磁閥,其中前述可動鐵芯與前述導引部係藉由鑲嵌成形(Insert-Molded)而形成為一體化。The solenoid valve according to any one of claims 1 to 3, wherein the movable iron core and the guide portion are integrally formed by insert-molding. 如請求項1至請求項3中任一項所記載之電磁閥,其中前述可動鐵芯與前述導引部係經由停止轉動手段而一體化,該停止轉動手段係用以限制該導引部對該可動鐵芯進行相對旋轉。The solenoid valve according to any one of claims 1 to 3, wherein the movable iron core and the guiding portion are integrated via a stopping rotation means for restricting the pair of guiding portions The movable iron core is relatively rotated. 如請求項4所記載之電磁閥,其中前述可動鐵芯與前述導引部係經由停止轉動手段而一體化,該停止轉動手段係用以限制該導引部對該可動鐵芯進行相對旋轉。The solenoid valve according to claim 4, wherein the movable iron core and the guiding portion are integrated via a stopping rotation means for restricting relative rotation of the movable iron core by the guiding portion.
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