以下,針對實施型態,根據圖式進行說明。另外,以下係在相同或相當的部分標註相同的元件符號且不再重複說明。Hereinafter, the implementation type will be described based on the drawings. In addition, in the following, the same reference numerals are attached to the same or equivalent parts, and the description is not repeated.
實施型態1.Implementation type 1.
利用圖1至圖3,說明實施型態1的斷路器100的構成。圖1係概略性顯示實施型態1的斷路器100的構成之立體圖。圖2係概略性顯示實施型態1的閉極狀態的斷路器100的構成之剖面圖。圖3係概略性顯示實施型態1的開極狀態的斷路器100的構成之剖面圖。1 to 3, the structure of the circuit breaker 100 of Embodiment 1 will be described. FIG. 1 is a perspective view schematically showing the structure of a circuit breaker 100 according to the first embodiment. FIG. 2 is a cross-sectional view schematically showing the structure of the circuit breaker 100 in the closed state according to the first embodiment. FIG. 3 is a cross-sectional view schematically showing the structure of the circuit breaker 100 in the open state according to the first embodiment.
如圖1及圖2所示,斷路器100係含有固定板1、可動板2、固定電極3、可動部4、真空閥(valve)5、操作機構6及電路部7。電路部7係含有固定側導體71、可動側導體72及未圖示的電路基板。未圖示的電路基板係連接至固定側導體71及可動側導體72。As shown in FIGS. 1 and 2, the circuit breaker 100 includes a fixed plate 1, a movable plate 2, a fixed electrode 3, a movable part 4, a vacuum valve (valve) 5, an operating mechanism 6, and a circuit part 7. The circuit portion 7 includes a fixed-side conductor 71, a movable-side conductor 72, and a circuit board not shown. The circuit board not shown is connected to the fixed-side conductor 71 and the movable-side conductor 72.
本實施型態的斷路器100乃係如圖2及圖3所示含有真空閥5的真空斷路器。斷路器100並不限為真空斷路器,亦可為氣中斷路器或氣體(gas)斷路器等。The circuit breaker 100 of this embodiment is a vacuum circuit breaker including a vacuum valve 5 as shown in FIGS. 2 and 3. The circuit breaker 100 is not limited to a vacuum circuit breaker, and may also be a gas circuit breaker or a gas circuit breaker.
<關於可動部4的構成><About the structure of the movable part 4>
接著,利用圖2及圖3,說明實施型態1的可動部4的構成。如圖2所示,可動部4係含有可動電極41、可動軸42、導引銷(guide pin)43及可動側彈簧座44。Next, the structure of the movable part 4 of Embodiment 1 will be described using FIGS. 2 and 3. As shown in FIG. 2, the movable part 4 includes a movable electrode 41, a movable shaft 42, a guide pin 43 and a movable-side spring seat 44.
在本實施型態中,就表示方向的用語而言,有使用軸方向CL。如圖2與圖3所示,所謂的軸方向CL,乃係可動軸42的延伸方向,代表斷路器100的中心軸。相對於可動部4,配置有固定電極3的方向為上側,相對於可動部4,配置有操作機構6的方向為下側。In this embodiment, the axial direction CL is used in terms of the term indicating the direction. As shown in FIGS. 2 and 3, the so-called axial direction CL is the extending direction of the movable shaft 42 and represents the central axis of the circuit breaker 100. With respect to the movable portion 4, the direction in which the fixed electrode 3 is arranged is the upper side, and with respect to the movable portion 4, the direction in which the operating mechanism 6 is arranged is the lower side.
如圖2所示,可動部4係能夠沿可動軸42的軸方向CL移動。可動部4係以能夠藉由操作機構6而沿軸方向CL移動的方式構成。可動電極41係能夠與固定電極3相接、分離。可動電極41係配置在真空閥5的內部空間。可動電極41係含有可動電極本體部411及可動側接點412。可動電極本體部411係連接至可動側接點412及可動軸42。As shown in FIG. 2, the movable part 4 is movable in the axial direction CL of the movable shaft 42. The movable portion 4 is configured to be movable in the axial direction CL by the operating mechanism 6. The movable electrode 41 can be connected to and separated from the fixed electrode 3. The movable electrode 41 is arranged in the internal space of the vacuum valve 5. The movable electrode 41 includes a movable electrode main body 411 and a movable side contact 412. The movable electrode body 411 is connected to the movable side contact 412 and the movable shaft 42.
如圖2所示,可動軸42係連接至可動電極41。可動軸42的上側的端部係在真空閥5的內部空間連接至可動電極41。可動軸42的下側的端部係突出至真空閥5之外。在可動軸42的下側的端部係連接有可動側導體72。可動側導體72係含有可撓導體部721及下側導體部722。下側導體部722係藉由可撓導體部721而連接至可動軸42。在可動軸42的下側的端部係設有導引銷43。在導引銷43係設有可動側彈簧座44。As shown in FIG. 2, the movable shaft 42 is connected to the movable electrode 41. The upper end of the movable shaft 42 is connected to the movable electrode 41 in the internal space of the vacuum valve 5. The lower end of the movable shaft 42 protrudes out of the vacuum valve 5. The movable side conductor 72 is connected to the lower end of the movable shaft 42. The movable conductor 72 includes a flexible conductor portion 721 and a lower conductor portion 722. The lower conductor portion 722 is connected to the movable shaft 42 by the flexible conductor portion 721. A guide pin 43 is provided at the lower end of the movable shaft 42. The guide pin 43 is provided with a movable side spring seat 44.
<關於固定板1及可動板2的構成><About the structure of the fixed plate 1 and the movable plate 2>
接著,利用圖2至圖11,說明實施型態1的固定板1及可動板2的構成。在閉極狀態,係藉由通電而在固定板1與可動板2之間產生磁性吸引力。關於在固定板1與可動板2之間產生的磁性吸引力的詳情係於後說明。Next, the structure of the fixed plate 1 and the movable plate 2 of Embodiment 1 will be described using FIGS. 2 to 11. In the closed state, a magnetic attraction force is generated between the fixed plate 1 and the movable plate 2 by energization. The details of the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 will be described later.
如圖2及圖3所示,固定板1的與固定電極3間的相對位置係固定。固定板1係固定在真空閥5。固定板1係被可動軸42貫通。As shown in FIGS. 2 and 3, the relative position between the fixed plate 1 and the fixed electrode 3 is fixed. The fixing plate 1 is fixed to the vacuum valve 5. The fixed plate 1 is penetrated by the movable shaft 42.
如圖4所示,固定板1係含有複數個固定側第1部11、複數個固定側第2部12及固定側環狀部13。複數個固定側第1部11的各者係一體地構成。固定側環狀部13係與複數個固定側第1部11的各者一體地構成。固定側環狀部13係支持複數個固定側第1部11的各者。As shown in FIG. 4, the fixed plate 1 includes a plurality of fixed-side first parts 11, a plurality of fixed-side second parts 12, and a fixed-side annular part 13. Each of the plurality of fixed-side first portions 11 is integrally configured. The fixed side annular portion 13 is formed integrally with each of the plurality of fixed side first portions 11. The fixed-side annular portion 13 supports each of the plurality of fixed-side first portions 11.
如圖4所示,在固定板1的中心,係以讓可動軸42垂直貫通的方式設有貫通孔H1。可動軸42係能夠在貫通固定板1的狀態沿軸方向CL移動。固定板1的軸方向CL的厚度均一。固定板1係例如藉由衝切而形成。As shown in FIG. 4, in the center of the fixed plate 1, the through hole H1 is provided so that the movable shaft 42 may penetrate vertically. The movable shaft 42 is movable in the axial direction CL while penetrating the fixed plate 1. The thickness of the fixed plate 1 in the axial direction CL is uniform. The fixing plate 1 is formed by punching, for example.
如圖4至圖6所示,固定側環狀部13係具有固定側內周部131(參照圖4及圖6)與固定側外周部132(參照圖5及圖6)的其中至少任一者。如圖4及圖6所示,固定側內周部131係設在固定板1的內周。如圖5及圖6所示,固定側外周部132係設在固定板1的外周。如圖4至圖6所示,固定側內周部131及固定側外周部132係以包圍可動軸42(參照圖7)的方式設置。固定側環狀部13係具有以包圍貫通孔H1的方式構成的環形形狀。As shown in FIGS. 4 to 6, the fixed-side annular portion 13 has at least one of a fixed-side inner peripheral portion 131 (refer to FIGS. 4 and 6) and a fixed-side outer peripheral portion 132 (refer to FIGS. 5 and 6) By. As shown in FIGS. 4 and 6, the fixed-side inner peripheral portion 131 is provided on the inner periphery of the fixed plate 1. As shown in FIGS. 5 and 6, the fixed-side outer peripheral portion 132 is provided on the outer periphery of the fixed plate 1. As shown in FIGS. 4 to 6, the fixed-side inner peripheral portion 131 and the fixed-side outer peripheral portion 132 are provided so as to surround the movable shaft 42 (refer to FIG. 7 ). The fixed-side annular portion 13 has an annular shape configured to surround the through hole H1.
如圖4所示,固定側環狀部13亦可為僅由固定側內周部131構成。如圖5所示,固定側環狀部13亦可為僅由固定側外周部132構成。如圖6所示,固定側環狀部13亦可具有固定側內周部131及固定側外周部132雙方。As shown in FIG. 4, the fixed-side annular portion 13 may be composed of only the fixed-side inner peripheral portion 131. As shown in FIG. 5, the fixed-side annular portion 13 may be composed of only the fixed-side outer peripheral portion 132. As shown in FIG. 6, the fixed-side annular portion 13 may have both a fixed-side inner peripheral portion 131 and a fixed-side outer peripheral portion 132.
在本實施型態中,如圖4所示,複數個固定側第2部12的各者乃係狹縫(slit)。複數個固定側第2部12的各者係沿軸方向CL(參照圖2)貫通固定板1。複數個固定側第2部12的各者係沿固定板1的徑方向延伸。如圖5及圖6所示,複數個固定側第2部12的各者亦可為沿固定板1的徑方向延伸的貫通孔。複數個固定側第2部12係例如從固定板1的中心依每90度設置而設置4個。複數個固定側第2部12的數目係可適宜地決定。In this embodiment, as shown in FIG. 4, each of the plurality of fixed-side second portions 12 is a slit. Each of the plurality of fixed-side second portions 12 penetrates the fixed plate 1 in the axial direction CL (refer to FIG. 2 ). Each of the plurality of fixed-side second portions 12 extends in the radial direction of the fixed plate 1. As shown in FIGS. 5 and 6, each of the plurality of fixed-side second portions 12 may be a through hole extending in the radial direction of the fixed plate 1. The plurality of fixed-side second portions 12 are, for example, four provided at every 90 degrees from the center of the fixed plate 1. The number of the plurality of fixed-side second parts 12 can be appropriately determined.
如圖7及圖8所示,可動板2係與固定板1隔著空隙相對向。可動板2係能夠與可動部4一起移動。圖7係概略性顯示實施型態1的閉極狀態的可動部4、固定板1及可動板2的構成之立體圖。圖8係概略性顯示實施型態1的開極狀態的可動部4、固定板1及可動板2的構成之立體圖。可動板2係固定在可動軸42的前端部。As shown in Figs. 7 and 8, the movable plate 2 and the fixed plate 1 face each other with a gap therebetween. The movable plate 2 can move together with the movable part 4. FIG. 7 is a perspective view schematically showing the configuration of the movable portion 4, the fixed plate 1 and the movable plate 2 in the closed state of the embodiment 1. FIG. FIG. 8 is a perspective view schematically showing the configuration of the movable portion 4, the fixed plate 1 and the movable plate 2 in the open pole state of the first embodiment. The movable plate 2 is fixed to the front end of the movable shaft 42.
如圖9所示,可動板2係含有複數個可動側第1部21、複數個可動側第2部22及可動側環狀部23。複數個可動側第1部21的各者係一體地構成。可動側環狀部23係與複數個可動側第1部21的各者一體地構成。可動側環狀部23係支持複數個可動側第1部21的各者。As shown in FIG. 9, the movable plate 2 includes a plurality of movable-side first parts 21, a plurality of movable-side second parts 22, and a movable-side annular part 23. Each of the plurality of movable-side first parts 21 is integrally configured. The movable side annular portion 23 is formed integrally with each of the plurality of movable side first portions 21. The movable side annular portion 23 supports each of the plurality of movable side first portions 21.
如圖9所示,在可動板2的中心係以讓可動軸42(參照圖2)垂直貫通的方式設有貫通孔H2。可動軸42係能夠在貫通可動板2的狀態與固定在可動軸42前端的可動板2一起沿軸方向CL移動。可動板2的軸方向CL的厚度均一。可動板2係例如藉由衝切而形成。As shown in FIG. 9, the center of the movable plate 2 is provided with the through hole H2 so that the movable shaft 42 (refer FIG. 2) may penetrate vertically. The movable shaft 42 can move in the axial direction CL together with the movable plate 2 fixed to the front end of the movable shaft 42 in a state of penetrating the movable plate 2. The thickness of the movable plate 2 in the axial direction CL is uniform. The movable plate 2 is formed by punching, for example.
如圖9至圖11所示,可動側環狀部23係具有可動側內周部231(參照圖9及圖11)與可動側外周部232(參照圖10及圖11)的其中至少任一者。如圖9及圖11所示,可動側內周部231係設在可動板2的內周。如圖10及圖11所示,可動側外周部232係設在可動板2的外周。如圖9至圖11所示,可動側外周部232及可動側內周部231係以包圍可動軸42的方式設置。可動側環狀部23係具有以包圍貫通孔2的方式構成的環形形狀。As shown in FIGS. 9 to 11, the movable side annular portion 23 has at least one of a movable inner peripheral portion 231 (refer to FIGS. 9 and 11) and a movable outer peripheral portion 232 (refer to FIGS. 10 and 11) By. As shown in FIGS. 9 and 11, the movable side inner peripheral portion 231 is provided on the inner periphery of the movable plate 2. As shown in FIGS. 10 and 11, the movable side outer peripheral portion 232 is provided on the outer periphery of the movable plate 2. As shown in FIGS. 9 to 11, the movable outer peripheral portion 232 and the movable inner peripheral portion 231 are provided so as to surround the movable shaft 42. The movable side annular portion 23 has an annular shape configured to surround the through hole 2.
如圖9所示,可動側環狀部23亦可為僅由可動側內周部231構成。如圖10所示,可動側環狀部23亦可為如圖10所示僅由可動側外周部232構成。如圖11所示,可動側環狀部23亦可具有可動側內周部231及可動側外周部232雙方。可動板2亦可具有與固定板1(參照圖4至圖6)相同的形狀。As shown in FIG. 9, the movable side annular portion 23 may be composed of only the movable side inner peripheral portion 231. As shown in FIG. 10, the movable side annular part 23 may be comprised only by the movable side outer peripheral part 232 as shown in FIG. As shown in FIG. 11, the movable side annular part 23 may have both the movable side inner peripheral part 231 and the movable side outer peripheral part 232. The movable plate 2 may have the same shape as the fixed plate 1 (refer to FIGS. 4 to 6).
在本實施型態中,如圖9所示,複數個可動側第2部22的各者乃係狹縫。複數個可動側第2部22的各者係沿軸方向CL貫通可動板2。複數個可動側第2部22的各者係沿可動板2的徑方向延伸。如圖10及圖11所示,複數個可動側第2部22的各者亦可為沿可動板2的徑方向延伸的貫通孔。複數個可動側第2部22係例如從可動板2的中心依每90度設置而設置4個。複數個可動側第2部22的數目係可適宜地決定。In this embodiment, as shown in FIG. 9, each of the plurality of movable-side second portions 22 is a slit. Each of the plurality of movable-side second portions 22 penetrates the movable plate 2 in the axial direction CL. Each of the plurality of movable-side second portions 22 extends in the radial direction of the movable plate 2. As shown in FIGS. 10 and 11, each of the plurality of movable-side second portions 22 may be a through hole extending in the radial direction of the movable plate 2. The plurality of movable-side second portions 22 are, for example, four provided at every 90 degrees from the center of the movable plate 2. The number of the plurality of movable-side second parts 22 can be appropriately determined.
如圖7及圖8所示,從軸方向CL觀看時,複數個固定側第1部11的各者係與複數個可動側第2部22重疊。此外,複數個可動側第1部21的各者係與複數個固定側第2部12重疊。固定側第2部12係配置在不會與可動側第2部22沿軸方向CL重疊的位置。As shown in FIGS. 7 and 8, when viewed from the axial direction CL, each of the plurality of fixed-side first portions 11 overlaps with the plurality of movable-side second portions 22. In addition, each of the plurality of movable-side first portions 21 overlaps with the plurality of fixed-side second portions 12. The fixed-side second portion 12 is arranged at a position that does not overlap with the movable-side second portion 22 in the axial direction CL.
固定板1屬於磁性體。可動板2屬於磁性體。固定板1及可動板2的材料係例如為鐵(Fe)、矽鋼或高導磁合金(permalloy)等軟磁性體。固定板1及可動板2係例如藉由鐵板或電磁鋼板等形成。固定板1及可動板2係藉由磁性體一體地構成。The fixed plate 1 is a magnetic body. The movable plate 2 is a magnetic body. The material of the fixed plate 1 and the movable plate 2 is, for example, a soft magnetic body such as iron (Fe), silicon steel, or permalloy. The fixed plate 1 and the movable plate 2 are formed of, for example, an iron plate or an electromagnetic steel plate. The fixed plate 1 and the movable plate 2 are integrally constituted by a magnetic body.
複數個固定側第2部12的各者係具有比複數個固定側第1部11的各者低的磁導。複數個可動側第2部22的各者係具有比複數個可動側第1部21的各者低的磁導。Each of the plurality of fixed-side second parts 12 has a lower magnetic permeability than each of the plurality of fixed-side first parts 11. Each of the plurality of movable-side second parts 22 has a lower magnetic permeability than each of the plurality of movable-side first parts 21.
磁導代表磁力的通過容易度。磁導乃係磁阻(reluctance)的倒數。磁導愈高,磁阻愈低。導磁係數愈低,磁導愈小。在固定側第1部11,磁力比在固定側第2部12容易通過。在可動側第1部21,磁力比在可動側第2部22容易通過。固定側第2部12係具有比固定側第1部11低的導磁係數。可動側第2部22係具有比可動側第1部21低的導磁係數。Permeance represents the ease of passage of magnetic force. Permeance is the reciprocal of reluctance. The higher the magnetic permeability, the lower the magnetic resistance. The lower the permeability coefficient, the smaller the permeability. In the first portion 11 on the fixed side, magnetic force passes more easily than in the second portion 12 on the fixed side. In the movable side first portion 21, the magnetic force passes more easily than in the movable side second portion 22. The second portion 12 on the fixed side has a lower magnetic permeability than the first portion 11 on the fixed side. The movable second portion 22 has a lower magnetic permeability than the movable first portion 21.
在本實施型態中,如圖4及圖9所示,固定側第2部12及可動側第2部22為狹縫,故充滿了空氣。空氣係具有比屬於磁性體的固定側第1部11及可動側第1部21低的導磁係數。因此,固定側第2部12係具有比固定側第1部11低的磁導,可動側第2部22係具有比可動側第1部21低的磁導。In this embodiment, as shown in FIGS. 4 and 9, the second portion 12 on the fixed side and the second portion 22 on the movable side are slits, so they are filled with air. The air system has a lower magnetic permeability than the fixed-side first portion 11 and the movable-side first portion 21 which are magnetic bodies. Therefore, the fixed-side second portion 12 has a lower magnetic permeability than the fixed-side first portion 11, and the movable-side second portion 22 has a lower magnetic permeability than the movable-side first portion 21.
在本實施型態中,如圖7及圖8所示,設在固定板1的複數個狹縫(固定側第2部12)的各者係與複數個可動側第1部21的各者重疊。設在可動板2的複數個狹縫(可動側第2部22)的各者係與複數個固定側第1部11的各者重疊。In this embodiment, as shown in FIGS. 7 and 8, each of the plurality of slits (the second portion 12 on the fixed side) provided in the fixed plate 1 and each of the plurality of first portions 21 on the movable side overlapping. Each of the plurality of slits (movable-side second portion 22) provided in the movable plate 2 overlaps with each of the plurality of fixed-side first portions 11.
在本實施型態中,亦可如圖4及圖9所示,以使狹縫的圓周方向的寬度從固定板1或可動板2的中心往外周擴大的方式構成狹縫。此外,狹縫的圓周方向的寬度亦可為固定。In this embodiment, as shown in FIGS. 4 and 9, the slit may be formed so that the width of the slit in the circumferential direction is enlarged from the center of the fixed plate 1 or the movable plate 2 to the outer periphery. In addition, the width of the slit in the circumferential direction may be constant.
<關於固定電極3的構成><About the structure of fixed electrode 3>
接著,利用圖2及圖3,說明實施型態1的固定電極3的構成。固定電極3係固定在真空閥5。固定電極3係相對於可動電極41而設在可動軸42的相反側。固定電極3係沿軸方向CL配置。固定電極3係含有固定側本體部31及固定側接點32。固定側接點32係配置在真空閥5的內部。固定側本體部31的下側的端部係連接至固定側接點32。固定側本體部31的上側的端部係從真空閥5的內部空間突出至真空閥5之外。固定側本體部31的上側的端部係在真空閥5之外連接至固定側導體71。Next, the configuration of the fixed electrode 3 of Embodiment Mode 1 will be described using FIGS. 2 and 3. The fixed electrode 3 is fixed to the vacuum valve 5. The fixed electrode 3 is provided on the opposite side of the movable shaft 42 with respect to the movable electrode 41. The fixed electrode 3 is arranged along the axial direction CL. The fixed electrode 3 includes a fixed-side body portion 31 and a fixed-side contact 32. The fixed side contact 32 is arranged inside the vacuum valve 5. The lower end of the fixed-side body portion 31 is connected to the fixed-side contact 32. The upper end of the fixed side body portion 31 protrudes from the internal space of the vacuum valve 5 to the outside of the vacuum valve 5. The upper end of the fixed-side body portion 31 is connected to the fixed-side conductor 71 outside the vacuum valve 5.
如圖2所示,在閉極狀態,可動側接點412係與固定側接點32相接。在閉極狀態,固定側接點32與可動側接點412係導通。如圖3所示,在開極狀態,固定側接點32係隔著能夠斷開電流的距離(分隔距離)自可動側接點412分離。在斷路器100的開極狀態,固定側接點32與可動側接點412並沒有導通。As shown in FIG. 2, in the closed state, the movable side contact 412 is in contact with the fixed side contact 32. In the closed state, the fixed side contact 32 and the movable side contact 412 are electrically connected. As shown in FIG. 3, in the open state, the fixed-side contact 32 is separated from the movable-side contact 412 by a distance (separation distance) that can interrupt the current. In the open state of the circuit breaker 100, the fixed side contact 32 and the movable side contact 412 are not electrically connected.
斷路器100係藉由令可動電極41與固定電極3接觸而將開極狀態切換至閉極狀態。斷路器100係藉由將可動電極41與固定電極3分離而將閉極狀態切換至開極狀態。The circuit breaker 100 switches the open state to the closed state by bringing the movable electrode 41 into contact with the fixed electrode 3. The circuit breaker 100 switches the closed state to the open state by separating the movable electrode 41 from the fixed electrode 3.
<關於真空閥5的構成><About the composition of the vacuum valve 5>
接著,利用圖2,說明實施型態1的真空閥5的構成。真空閥5係具有氣密性。真空閥5係含有伸縮體(bellows)51、絕緣容器52、上側凸緣(flange)53、下側凸緣54、套筒(sleeve)55及間隔件(spacer)56。真空閥5的內部空間係藉由伸縮體51、絕緣容器52、上側凸緣53及下側凸緣54而保持為真空。Next, the structure of the vacuum valve 5 of Embodiment 1 will be described using FIG. 2. The vacuum valve 5 is airtight. The vacuum valve 5 includes a bellows 51, an insulating container 52, an upper flange 53, a lower flange 54, a sleeve 55 and a spacer 56. The internal space of the vacuum valve 5 is maintained in a vacuum by the telescopic body 51, the insulating container 52, the upper flange 53 and the lower flange 54.
如圖2所示,絕緣容器52係與上側凸緣53及下側凸緣54一起形成真空閥5的內部空間。上側凸緣53係安裝在絕緣容器52的上側。下側凸緣54係安裝在絕緣容器52的下側。伸縮體51的一端係安裝在可動部4。具體而言,伸縮體51的上部係固定在可動部4的外周。伸縮體51係以能夠伸縮的方式構成。因此,即使伸縮體51因可動部4沿軸方向CL移動而伸縮時,仍會維持真空閥5的氣密性。套筒55係與下側凸緣54包夾間隔件56,同時也安裝在下側凸緣54。在套筒55的下側係固定有固定板1。As shown in FIG. 2, the insulating container 52 forms the internal space of the vacuum valve 5 together with the upper flange 53 and the lower flange 54. The upper flange 53 is installed on the upper side of the insulating container 52. The lower flange 54 is installed on the lower side of the insulating container 52. One end of the telescopic body 51 is attached to the movable part 4. Specifically, the upper part of the telescopic body 51 is fixed to the outer periphery of the movable part 4. The telescopic body 51 is configured to be expandable and contractible. Therefore, even when the telescopic body 51 expands and contracts due to the movement of the movable portion 4 in the axial direction CL, the airtightness of the vacuum valve 5 is maintained. The sleeve 55 surrounds the spacer 56 with the lower flange 54 and is also installed on the lower flange 54. A fixing plate 1 is fixed to the lower side of the sleeve 55.
<關於操作機構6的構成><About the composition of operating mechanism 6>
接著,利用圖2及圖3,說明實施型態1的操作機構6的構成。操作機構6係以藉由令操作軸60移動而使可動部4沿軸方向CL移動的方式構成。本實施型態的操作機構6乃係藉由電磁力使操作軸60移動的電磁操作機構。操作機構6並不限於電磁操作機構,亦可為藉由凸輪(cam)、連桿(link)或彈簧等而構成的機械式操作機構等。Next, the structure of the operating mechanism 6 of the first embodiment will be described with reference to FIGS. 2 and 3. The operating mechanism 6 is configured to move the movable portion 4 in the axial direction CL by moving the operating shaft 60. The operating mechanism 6 of this embodiment is an electromagnetic operating mechanism that moves the operating shaft 60 by electromagnetic force. The operating mechanism 6 is not limited to an electromagnetic operating mechanism, and may be a mechanical operating mechanism composed of a cam, a link, a spring, or the like.
如圖2所示,操作機構6係含有操作軸60、基板(base plate)61、端板(end plate)62、永久磁鐵65、電磁線圈(coil)66、操作彈簧67、壓接彈簧68、操作機構側彈簧座69及固定鐵心600。As shown in FIG. 2, the operating mechanism 6 includes an operating shaft 60, a base plate 61, an end plate 62, a permanent magnet 65, an electromagnetic coil (coil) 66, an operating spring 67, a compression spring 68, Operating mechanism side spring seat 69 and fixed iron core 600.
如圖2所示,操作軸60係經由壓接彈簧68而連接至可動軸42。操作軸60係以沿軸方向CL延伸的方式配置。在操作軸60係嵌合有操作機構側彈簧座69。操作軸60係配置在可動軸42的下方。As shown in FIG. 2, the operating shaft 60 is connected to the movable shaft 42 via a pressure contact spring 68. The operating shaft 60 is arranged so as to extend in the axial direction CL. The operating shaft 60 is fitted with an operating mechanism side spring seat 69. The operating shaft 60 is arranged below the movable shaft 42.
壓接彈簧68係被導引銷43及操作軸60插入。壓接彈簧68的兩端部係藉由可動側彈簧座44及操作機構側彈簧座69支持。壓接彈簧68係以不會偏離軸方向CL的方式藉由導引銷43導引。壓接彈簧68係配置在可動側彈簧座44與操作側彈簧座69之間,藉此將可動軸42與操作軸60連接。壓接彈簧68係藉由可動軸42及操作軸60而受到壓縮。由於操作軸60藉由壓接彈簧68連接至可動軸42,故可動軸42係藉由操作軸60而移動。The pressure contact spring 68 is inserted by the guide pin 43 and the operating shaft 60. Both ends of the compression spring 68 are supported by the movable side spring seat 44 and the operating mechanism side spring seat 69. The pressure contact spring 68 is guided by the guide pin 43 so as not to deviate from the axial direction CL. The pressure contact spring 68 is arranged between the movable side spring seat 44 and the operation side spring seat 69, thereby connecting the movable shaft 42 and the operation shaft 60. The pressure contact spring 68 is compressed by the movable shaft 42 and the operating shaft 60. Since the operating shaft 60 is connected to the movable shaft 42 by the compression spring 68, the movable shaft 42 is moved by the operating shaft 60.
基板61係被操作軸60貫通。基板61的位置係固定,在基板61的下側係連接有電磁線圈66、操作彈簧67及固定鐵心600。基板61屬於磁性體。The substrate 61 is penetrated by the operation shaft 60. The position of the substrate 61 is fixed, and the electromagnetic coil 66, the operating spring 67, and the fixed iron core 600 are connected to the lower side of the substrate 61. The substrate 61 is a magnetic body.
操作彈簧67係相對於基板61而配置在可動軸42的相反側。操作彈簧67係被操作軸60插入。操作彈簧67係藉由基板61及端板62而受到壓縮。The operating spring 67 is arranged on the opposite side of the movable shaft 42 with respect to the base 61. The operating spring 67 is inserted by the operating shaft 60. The operating spring 67 is compressed by the base plate 61 and the end plate 62.
如圖2所示,固定鐵心600係在基板61與端板62之間連接至基板61。固定鐵心600係具有包圍操作軸60及操作彈簧67的筒形形狀。固定鐵心600的上側的端部係固定在基板61。在閉極狀態,固定鐵心600的下側的端部與永久磁鐵65係支持端板62。固定鐵心600係含有第1固定鐵心部63及第2固定鐵心部64。在第1固定鐵心部63與第2固定鐵心部64之間係配置有電磁線圈66。電磁線圈66係與固定鐵心600相鄰配置。As shown in FIG. 2, the fixed iron core 600 is connected to the base plate 61 between the base plate 61 and the end plate 62. The fixed iron core 600 has a cylindrical shape surrounding the operating shaft 60 and the operating spring 67. The upper end of the fixed iron core 600 is fixed to the base plate 61. In the closed state, the lower end of the fixed iron core 600 and the permanent magnet 65 support the end plate 62. The fixed iron core 600 includes a first fixed iron core portion 63 and a second fixed iron core portion 64. An electromagnetic coil 66 is arranged between the first fixed core portion 63 and the second fixed core portion 64. The electromagnetic coil 66 is arranged adjacent to the fixed iron core 600.
如圖2所示,永久磁鐵65係配置在固定鐵心600與端板62之間。永久磁鐵65係固定在第2固定鐵心部64的下側的端部。在閉極狀態,端板62係接觸第1固定鐵心部63與永久磁鐵65。如圖3所示,在開極狀態,端板62係自第1固定鐵心部63與永久磁鐵65分離。As shown in FIG. 2, the permanent magnet 65 is arranged between the fixed iron core 600 and the end plate 62. The permanent magnet 65 is fixed to the lower end of the second fixed core portion 64. In the closed state, the end plate 62 is in contact with the first fixed core portion 63 and the permanent magnet 65. As shown in FIG. 3, in the open pole state, the end plate 62 is separated from the permanent magnet 65 from the first fixed core portion 63.
如圖2所示,端板62係固定在操作軸60的前端,與基板61一起包夾操作彈簧67。端板62係以與操作軸60一起沿軸方向CL移動的方式構成。端板62係配置在電磁線圈66、操作彈簧67及固定鐵心600的下方。端板62係藉由操作彈簧67而連接至基板61。端板62屬於磁性體。在閉極狀態,藉由基板61、端板62、第1固定鐵心部63、第2固定鐵心部64及永久磁鐵65構成閉迴路的磁迴路而吸住端板62。As shown in FIG. 2, the end plate 62 is fixed to the front end of the operating shaft 60 and encloses the operating spring 67 together with the base plate 61. The end plate 62 is configured to move together with the operation shaft 60 in the axial direction CL. The end plate 62 is arranged below the electromagnetic coil 66, the operating spring 67, and the fixed iron core 600. The end plate 62 is connected to the base plate 61 by an operating spring 67. The end plate 62 is a magnetic body. In the closed state, the base plate 61, the end plate 62, the first fixed core portion 63, the second fixed core portion 64, and the permanent magnet 65 constitute a closed magnetic circuit to attract the end plate 62.
如圖3所示,在開極狀態,端板62被操作彈簧67往下方向推壓,藉此而自第1固定鐵心部63及永久磁鐵65分離。端板62藉由操作彈簧67而自第1固定鐵心部63與永久磁鐵65分離,藉此,使操作軸60往下方向移動,而使固定電極3與可動電極41分隔而成為開極狀態。在開極狀態,端板62與永久磁鐵65的距離係比固定側接點32與可動側接點412的距離(分隔距離)大。As shown in FIG. 3, in the open pole state, the end plate 62 is pushed downward by the operating spring 67 and thereby separated from the first fixed core portion 63 and the permanent magnet 65. The end plate 62 is separated from the first fixed core portion 63 and the permanent magnet 65 by the operating spring 67, whereby the operating shaft 60 is moved downward to separate the fixed electrode 3 and the movable electrode 41 into an open pole state. In the open pole state, the distance between the end plate 62 and the permanent magnet 65 is greater than the distance between the fixed side contact 32 and the movable side contact 412 (separation distance).
<關於在固定板1與可動板2之間產生的磁性吸引力><About the magnetic attraction force generated between the fixed plate 1 and the movable plate 2>
接著,主要利用圖12至圖13,針對實施型態1的斷路器100的閉極狀態中在固定板1與可動板2之間產生的磁性吸引力進行說明。圖12係概略性顯示實施型態1的閉極狀態的可動部4、固定板1及可動板2的構成之剖面圖。固定板1及可動板2係以在固定電極3與可動電極41相接時經由空隙使磁性吸引力產生在固定板1與可動板2之間的方式配置。在開極狀態,不會在固定板1與可動板2之間產生磁性吸引力。Next, mainly using FIGS. 12 to 13, the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 in the closed state of the circuit breaker 100 of Embodiment 1 will be described. FIG. 12 is a cross-sectional view schematically showing the configuration of the movable portion 4, the fixed plate 1 and the movable plate 2 in the closed state of the first embodiment. The fixed plate 1 and the movable plate 2 are arranged so that a magnetic attraction force is generated between the fixed plate 1 and the movable plate 2 through a gap when the fixed electrode 3 and the movable electrode 41 are in contact with each other. In the open pole state, no magnetic attraction force is generated between the fixed plate 1 and the movable plate 2.
如圖12所示,在本實施型態的閉極狀態,在固定板1與可動板2之間係設有空隙。設在固定板1與可動板2之間的空隙係稱為氣隙(air gap)。As shown in FIG. 12, in the closed state of this embodiment, a gap is provided between the fixed plate 1 and the movable plate 2. The gap provided between the fixed plate 1 and the movable plate 2 is called an air gap.
如圖12所示,閉極狀態的氣隙D1a的軸方向CL的尺寸均一。閉極狀態的氣隙D1a的軸方向CL的尺寸乃係在固定板1與可動板2之間產生磁性吸引力的距離。本實施型態中,在閉極狀態,氣隙D1a的尺寸係比固定側第2部12(參照圖4)及可動側第2部22(參照圖9)的各者的可動軸42的圓周方向的最小的尺寸小。如圖13所示,本實施型態的開極狀態的氣隙D1b的尺寸係比閉極狀態的氣隙D1a(參照圖12)的尺寸大。As shown in FIG. 12, the size of the air gap D1a in the closed state in the axial direction CL is uniform. The dimension of the air gap D1a in the closed-pole state in the axial direction CL is the distance between the fixed plate 1 and the movable plate 2 to generate a magnetic attraction force. In this embodiment, in the closed state, the size of the air gap D1a is larger than the circumference of the movable shaft 42 of each of the fixed-side second portion 12 (refer to FIG. 4) and the movable-side second portion 22 (refer to FIG. 9). The smallest dimension of the direction is small. As shown in FIG. 13, the size of the air gap D1b in the open state of this embodiment is larger than the size of the air gap D1a in the closed state (refer to FIG. 12).
在開極狀態,開極狀態的氣隙D1b(參照圖13)係比閉極狀態的氣隙D1a(參照圖12)大至少達圖3中所示的固定側接點32與可動側接點412的距離(分隔距離)之量。In the open state, the air gap D1b in the open state (refer to FIG. 13) is larger than the air gap D1a in the closed state (refer to FIG. 12) by at least the fixed side contact 32 and the movable side contact shown in FIG. 3 The amount of distance (separation distance) of 412.
在閉極狀態,藉由使圖7中所示的可動軸42通電,而使電流流通於可動軸42。藉由使電流流通於可動軸42,而在可動軸42的周圍產生磁場。藉此,在屬於磁性體的固定板1及可動板2沿圓周方向產生磁通。In the closed state, current flows through the movable shaft 42 by energizing the movable shaft 42 shown in FIG. 7. By passing current through the movable shaft 42, a magnetic field is generated around the movable shaft 42. Thereby, magnetic flux is generated in the circumferential direction in the fixed plate 1 and the movable plate 2 which are magnetic bodies.
磁通係被狹縫(固定側第2部12及可動側第2部22)沿圓周方向切割。通過固定側第1部11的磁通係被固定側第2部12切割,通過可動側第1部21的磁通係被可動側第2部22切割。固定側第1部11與可動側第1部21沿軸方向重疊的氣隙D1a的尺寸係比狹縫的圓周方向的尺寸狹小,故磁通係通過氣隙D1a。亦即,磁通係在固定板1與可動板2之間沿軸方向CL產生,形成磁隙。也因此,而在固定板1與可動板2之間產生軸方向CL的磁性吸引力。閉極狀態的氣隙D1a的尺寸愈小,則在固定板1與可動板2之間產生的磁通愈大,故磁性吸引力愈大。The magnetic flux is cut in the circumferential direction by the slits (the second portion 12 on the fixed side and the second portion 22 on the movable side). The magnetic flux system passing through the fixed-side first portion 11 is cut by the fixed-side second portion 12, and the magnetic flux system passing through the movable-side first portion 21 is cut by the movable-side second portion 22. The size of the air gap D1a where the fixed-side first portion 11 and the movable-side first portion 21 overlap in the axial direction is smaller than the size of the slit in the circumferential direction, so the magnetic flux passes through the air gap D1a. That is, magnetic flux is generated between the fixed plate 1 and the movable plate 2 in the axial direction CL, forming a magnetic gap. For this reason, a magnetic attraction force in the axial direction CL is generated between the fixed plate 1 and the movable plate 2. The smaller the size of the air gap D1a in the closed-pole state, the greater the magnetic flux generated between the fixed plate 1 and the movable plate 2, and the greater the magnetic attraction force.
藉由磁性吸引力,而在圖12中所示的可動板2產生從可動板2朝向固定板1之方向(上方向)的力。藉此,使可動板2往上方向被彈推,而使固定板1往上方向移動。此外,由於可動部4能夠與固定板1一起移動,故可動部4也往上方向移動。藉此,使可動電極41推頂固定電極3。此外,在固定板1係產生從固定板1朝向可動板2之方向(下方向)的力,但由於固定板1固定在真空閥5,故固定板1不移動。Due to the magnetic attraction force, the movable plate 2 shown in FIG. 12 generates a force in the direction (upward direction) from the movable plate 2 to the fixed plate 1. Thereby, the movable plate 2 is pushed in the upward direction, and the fixed plate 1 is moved in the upward direction. In addition, since the movable portion 4 can move together with the fixed plate 1, the movable portion 4 also moves upward. Thereby, the movable electrode 41 is pushed against the fixed electrode 3. In addition, the fixed plate 1 generates a force in the direction (downward direction) from the fixed plate 1 to the movable plate 2, but since the fixed plate 1 is fixed to the vacuum valve 5, the fixed plate 1 does not move.
<關於斷路器100的閉極狀態與開極狀態之切換的操作機構6的動作><Regarding the operation of the operating mechanism 6 for switching between the closed-pole state and the open-pole state of the circuit breaker 100>
接著,利用圖14及圖15,說明實施型態1的斷路器100的閉極狀態與開極狀態之切換的操作機構6的動作。圖14及圖15中所示的空心箭頭乃係藉由操作機構6或固定板1及可動板2而在斷路器100產生的力。Next, using FIGS. 14 and 15, the operation of the operating mechanism 6 for switching between the closed state and the open state of the circuit breaker 100 of the first embodiment will be described. The hollow arrows shown in FIGS. 14 and 15 are the forces generated in the circuit breaker 100 by the operating mechanism 6 or the fixed plate 1 and the movable plate 2.
藉由使連接至操作軸60的可動軸42沿軸方向CL移動,而使斷路器100的閉極狀態與開極狀態進行切換。從開極狀態切換至閉極狀態的閉極動作,係以使可動電極41與固定電極3相接的方式,由操作機構6使可動軸42往上方向移動來進行。從閉極狀態切換至開極狀態的開極動作,係以使可動電極41自固定電極3分離的方式,由操作機構6使可動軸42往下方向移動來進行。具體而言,操作機構6係利用電磁線圈66等的電磁力、永久磁鐵65的磁性吸引力、壓接彈簧68的回復力、操作彈簧67的回復力,而使操作軸60與連接至操作軸60的可動軸42沿軸方向CL移動。By moving the movable shaft 42 connected to the operating shaft 60 in the axial direction CL, the closed state and the open state of the circuit breaker 100 are switched. The closed-pole operation for switching from the open-pole state to the closed-pole state is performed by moving the movable shaft 42 upward by the operating mechanism 6 so that the movable electrode 41 is in contact with the fixed electrode 3. The opening operation of switching from the closed state to the open state is performed by moving the movable shaft 42 downward by the operating mechanism 6 so that the movable electrode 41 is separated from the fixed electrode 3. Specifically, the operating mechanism 6 utilizes the electromagnetic force of the electromagnetic coil 66, etc., the magnetic attraction force of the permanent magnet 65, the restoring force of the pressure contact spring 68, and the restoring force of the operating spring 67 to connect the operating shaft 60 to the operating shaft. The movable shaft 42 of 60 moves in the axial direction CL.
首先,先說明於閉極狀態及開極狀態在斷路器100產生的力,然後再針對從閉極狀態至開極狀態之切換及從開極狀態至閉極狀態之切換的操作機構6的動作進行說明。First, first explain the force generated in the circuit breaker 100 in the closed state and the open state, and then the operation of the operating mechanism 6 for switching from the closed state to the open state and from the open state to the closed state Be explained.
如圖14所示,在閉極狀態,藉由固定板1及可動板2的磁性吸引力,而在可動板2產生上方向的力。As shown in FIG. 14, in the closed pole state, an upward force is generated on the movable plate 2 by the magnetic attraction of the fixed plate 1 and the movable plate 2.
如圖14及圖15所示,在閉極狀態及開極狀態,係藉由壓接彈簧68的回復力而在操作軸60產生向下的力。在閉極狀態及開極狀態,係藉由操作彈簧67的回復力而在端板62產生向下的力。如圖14所示,在閉極狀態,係藉由電磁線圈66等的電磁力及永久磁鐵65的磁性吸引力而在端板62產生上方向的力。As shown in FIGS. 14 and 15, in the closed state and the open state, a downward force is generated on the operating shaft 60 by the restoring force of the pressure contact spring 68. In the closed state and the open state, a downward force is generated on the end plate 62 by the restoring force of the operating spring 67. As shown in FIG. 14, in the closed-pole state, an upward force is generated on the end plate 62 by the electromagnetic force of the electromagnetic coil 66 and the like and the magnetic attraction force of the permanent magnet 65.
在閉極狀態,藉由電磁線圈66等的電磁力及永久磁鐵65的磁性吸引力而產生的上方向的力係比藉由壓接彈簧68的回復力及操作彈簧67的回復力而產生的下方向的力大。因此,在閉極狀態,係在操作軸60產生向上的力。也因此,在可動軸42產生向上的力。另一方面,如圖15所示,在開極狀態,係在操作軸60及端板62產生向下的力,故會在可動軸42產生向下的力。In the closed state, the upward force generated by the electromagnetic force of the electromagnetic coil 66 and the like and the magnetic attraction of the permanent magnet 65 is greater than that generated by the restoring force of the compression spring 68 and the restoring force of the operating spring 67 The downward force is great. Therefore, in the closed state, an upward force is generated on the operating shaft 60. Therefore, an upward force is generated on the movable shaft 42. On the other hand, as shown in FIG. 15, in the open pole state, a downward force is generated on the operating shaft 60 and the end plate 62, so a downward force is generated on the movable shaft 42.
電磁線圈66等的電磁力係藉由以下的過程而產生。首先,電流流通於圖14中所示的操作機構6的電磁線圈66。藉此,而在電磁線圈66的周圍產生磁場,故會在基板61、永久磁鐵65及固定鐵心600產生磁通。也因此,基板61、永久磁鐵65及固定鐵心600係作為電磁鐵而一體地發揮功能,故而在基板61、永久磁鐵65及固定鐵心600產生電磁力。電磁線圈66等的電磁力係將端板62往上方向吸引。因此,在固定在端板62的操作軸60產生藉由電磁線圈66等的電磁力而產生的上方向的力。電磁線圈66等的電磁力係比操作彈簧67的回復力大。另外,如圖15所示,在開極狀態,沒有電流流通於電磁線圈66,故沒有產生電磁線圈66等的電磁力。The electromagnetic force of the electromagnetic coil 66 etc. is generated by the following process. First, current flows through the electromagnetic coil 66 of the operating mechanism 6 shown in FIG. 14. As a result, a magnetic field is generated around the electromagnetic coil 66, so magnetic flux is generated in the substrate 61, the permanent magnet 65, and the fixed iron core 600. Therefore, the substrate 61, the permanent magnet 65, and the fixed iron core 600 function as an electromagnet integrally, so that electromagnetic force is generated in the substrate 61, the permanent magnet 65, and the fixed iron core 600. The electromagnetic force of the electromagnetic coil 66 and the like attracts the end plate 62 upward. Therefore, the operating shaft 60 fixed to the end plate 62 generates an upward force generated by the electromagnetic force of the electromagnetic coil 66 or the like. The electromagnetic force of the electromagnetic coil 66 and the like is greater than the restoring force of the operating spring 67. In addition, as shown in FIG. 15, in the open pole state, no current flows through the electromagnetic coil 66, so electromagnetic force such as the electromagnetic coil 66 is not generated.
如圖14所示,在閉極狀態,永久磁鐵65係藉由永久磁鐵65的磁性吸引力而吸引端板62。因此,而在固定在端板62的操作軸60產生藉由永久磁鐵65的磁性吸引力而產生的上方向的力。另外,如圖15所示,在開極狀態,永久磁鐵65係與端板62分離,故永久磁鐵65不會吸引端板62。As shown in FIG. 14, in the closed state, the permanent magnet 65 attracts the end plate 62 by the magnetic attraction of the permanent magnet 65. Therefore, an upward force generated by the magnetic attractive force of the permanent magnet 65 is generated on the operating shaft 60 fixed to the end plate 62. In addition, as shown in FIG. 15, in the open pole state, the permanent magnet 65 is separated from the end plate 62, so the permanent magnet 65 does not attract the end plate 62.
如圖14所示,在閉極狀態,壓接彈簧68受到壓縮,故壓接彈簧68具有回復力。藉由壓接彈簧68的回復力,在可動軸42產生上方向的力。此外,藉由壓接彈簧68的回復力,在操作軸60產生下方向的力。隨著操作軸60往上方向移動,會使得壓接彈簧68受到壓縮,故在可動軸42產生的上方向的力及在操作軸60產生的下方向的力會變大。As shown in FIG. 14, in the closed state, the pressure contact spring 68 is compressed, so the pressure contact spring 68 has a restoring force. The restoring force of the compression spring 68 generates an upward force on the movable shaft 42. In addition, the restoring force of the compression spring 68 generates a downward force on the operating shaft 60. As the operating shaft 60 moves upward, the pressure contact spring 68 is compressed, so the upward force generated by the movable shaft 42 and the downward force generated by the operating shaft 60 increase.
如圖14所示,在閉極狀態,操作彈簧67受到壓縮,故操作彈簧67具有回復力。藉由操作彈簧67的回復力,在基板61產生上方向的力。此外,藉由操作彈簧67的回復力,在端板62及操作軸60產生下方向的力。As shown in FIG. 14, in the closed state, the operating spring 67 is compressed, so the operating spring 67 has a restoring force. The restoring force of the operating spring 67 generates an upward force on the substrate 61. In addition, due to the restoring force of the operating spring 67, a downward force is generated in the end plate 62 and the operating shaft 60.
此外,在閉極動作,當壓接彈簧68能夠更進一步受到壓縮時,操作軸60係更進一步往上方向移動。藉此,壓接彈簧68係在可動電極41接觸到固定電極3後更進一步受到壓縮。藉由壓接彈簧68的回復力,使力沿上方向作用在可動軸42,故使可動電極41頂推固定電極3。也因此,維持閉極狀態。In addition, in the closed-pole operation, when the pressure contact spring 68 can be compressed further, the operating shaft 60 moves further upward. Thereby, the pressure contact spring 68 is further compressed after the movable electrode 41 contacts the fixed electrode 3. The restoring force of the pressing spring 68 causes the force to act on the movable shaft 42 in the upward direction, so that the movable electrode 41 pushes the fixed electrode 3. Therefore, the closed state is maintained.
另外,如圖14所示,由於在閉極狀態通電,而在固定電極3與可動電極41之間產生電磁排斥力。藉此,使得固定電極3與可動電極41欲相互分離。因此,為了維持閉極狀態,需要藉由比電磁排斥力更強的力來使固定電極3與可動電極41進行頂推。In addition, as shown in FIG. 14, since electricity is supplied in the closed state, an electromagnetic repulsive force is generated between the fixed electrode 3 and the movable electrode 41. Thereby, the fixed electrode 3 and the movable electrode 41 are to be separated from each other. Therefore, in order to maintain the closed state, it is necessary to push the fixed electrode 3 and the movable electrode 41 by a force stronger than the electromagnetic repulsion force.
接著,針對從開極狀態至閉極狀態之切換的操作機構6的動作進行說明。藉由以下的過程,斷路器100係從圖15所示的開極狀態切換成圖14所示的閉極狀態。Next, the operation of the operating mechanism 6 for switching from the open state to the closed state will be described. Through the following process, the circuit breaker 100 is switched from the open pole state shown in FIG. 15 to the closed pole state shown in FIG. 14.
首先,在圖15所示的開極狀態,使電流流通於操作機構6的電磁線圈66。藉此,在電磁線圈66的周圍產生磁場,且產生通過第1固定鐵心部63、基板61、第2固定鐵心部64及永久磁鐵65的磁通。藉由以該磁迴路而形成的電磁鐵,使端板62被往上方吸引,且操作軸60與端板62一起往上方向移動。也因此,可動軸42往上方向移動。First, in the open pole state shown in FIG. 15, a current is passed through the electromagnetic coil 66 of the operating mechanism 6. Thereby, a magnetic field is generated around the electromagnetic coil 66, and a magnetic flux passing through the first fixed core portion 63, the substrate 61, the second fixed core portion 64, and the permanent magnet 65 is generated. The electromagnet formed by this magnetic circuit causes the end plate 62 to be attracted upward, and the operating shaft 60 and the end plate 62 move upward together. Therefore, the movable shaft 42 moves upward.
接著,操作軸60往上方向移動,藉此使永久磁鐵65接近端板62。藉由電磁鐵與永久磁鐵65的磁性吸引力,操作軸60與端板62一起被往上方向吸引,故操作軸60係更進一步往上方向移動。也因此,可動軸42係更進一步往上方向移動。最終,如圖14所示,永久磁鐵65係與端板62接觸。此外,藉由壓接彈簧68的回復力與操作彈簧67的回復力而在可動軸42產生向上的力,故可動軸42係更進一步往上方向移動。藉由以上所述,使可動電極41與固定電極3相接,藉此從開極狀態切換成閉極狀態。Next, the operating shaft 60 moves upward, thereby causing the permanent magnet 65 to approach the end plate 62. Due to the magnetic attraction of the electromagnet and the permanent magnet 65, the operating shaft 60 and the end plate 62 are attracted upward together, so the operating shaft 60 moves further upward. Therefore, the movable shaft 42 moves further upward. Finally, as shown in FIG. 14, the permanent magnet 65 is in contact with the end plate 62. In addition, an upward force is generated on the movable shaft 42 by the restoring force of the pressure contact spring 68 and the restoring force of the operating spring 67, so the movable shaft 42 moves further upward. As described above, the movable electrode 41 is brought into contact with the fixed electrode 3, thereby switching from the open state to the closed state.
接著,針對從閉極狀態至開極狀態之切換的操作機構6的動作進行說明。Next, the operation of the operating mechanism 6 for switching from the closed state to the open state will be described.
首先,在圖14所示的閉極狀態,切斷流通於操作機構6的電磁線圈66的電流。藉此,使藉由電磁鐵的電磁力而在操作軸60產生的上方向的力消失,故操作軸60與端板62一起往下方向移動。也因此,可動軸42係往下方向移動。此外,如圖15所示,端板62係自永久磁鐵65分離。接著,藉由永久磁鐵65的磁性吸引力而在操作軸60產生的上方向的力消失。因此,操作軸60係更進一步往下方向移動。也因此,可動軸42係更進一步往下方向移動。藉由以上所述,可動電極41係自固定電極3分離,藉此從閉極狀態切換成開極狀態。First, in the closed state shown in FIG. 14, the current flowing through the electromagnetic coil 66 of the operating mechanism 6 is cut off. As a result, the upward force generated by the operating shaft 60 due to the electromagnetic force of the electromagnet is eliminated, so the operating shaft 60 and the end plate 62 move in the downward direction together. Therefore, the movable shaft 42 moves in the downward direction. In addition, as shown in FIG. 15, the end plate 62 is separated from the permanent magnet 65. Then, the upward force generated by the operating shaft 60 due to the magnetic attractive force of the permanent magnet 65 disappears. Therefore, the operating shaft 60 moves further downward. Therefore, the movable shaft 42 moves further downward. As described above, the movable electrode 41 is separated from the fixed electrode 3, thereby switching from the closed state to the open state.
<關於作用效果><About the effect>
依據本實施型態的斷路器100,如圖4及圖9所示,複數個固定側第1部11及複數個可動側第1部21係一體地構成。因此,能夠使固定板1及可動板2的各者的軸方向CL的位置均一。也因此,能夠使固定板1與可動板2之間的空隙(氣隙D1a)(參照圖12)的軸方向的尺寸均一。According to the circuit breaker 100 of this embodiment, as shown in FIGS. 4 and 9, a plurality of fixed-side first parts 11 and a plurality of movable-side first parts 21 are integrally formed. Therefore, the position of each of the fixed plate 1 and the movable plate 2 in the axial direction CL can be made uniform. Therefore, the dimension in the axial direction of the gap (air gap D1a) (refer to FIG. 12) between the fixed plate 1 and the movable plate 2 can be made uniform.
由於能夠使固定板1與可動板2之間的空隙(氣隙D1a)(參照圖12)的軸方向的尺寸均一,故能夠使在固定板1與可動板2之間產生的磁性吸引力的大小均一。因此,在固定板1與可動板2之間產生的磁性吸引力穩定。因此,能夠穩定維持斷路器100的閉極狀態。Since the dimension in the axial direction of the gap (air gap D1a) (refer to FIG. 12) between the fixed plate 1 and the movable plate 2 can be made uniform, the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 can be reduced Uniform size. Therefore, the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 is stable. Therefore, the closed state of the circuit breaker 100 can be stably maintained.
如圖4及圖9所示,複數個固定側第1部11的各者及複數個可動側第1部21的各者係一體地構成,故固定板1及可動板2的各者能夠一體地製造。也因此,在斷路器100的製造中,能夠藉由衝切加工等來製造固定板1及可動板2。此外,在斷路器100的製造中,固定板1及可動板2的處理(handling)及組裝變得容易。此外,由於固定板1及可動板2的各者的形狀可相同,故能夠藉由同樣的構件來製造固定板1及可動板2。因此,能夠降低斷路器100的製造成本(cost)。As shown in Figures 4 and 9, each of the plurality of fixed-side first portions 11 and each of the plurality of movable-side first portions 21 are integrally configured, so each of the fixed plate 1 and the movable plate 2 can be integrated地 Manufacturing. Therefore, in the manufacture of the circuit breaker 100, the fixed plate 1 and the movable plate 2 can be manufactured by punching processing or the like. In addition, in the manufacture of the circuit breaker 100, the handling and assembly of the fixed plate 1 and the movable plate 2 become easy. In addition, since each of the fixed plate 1 and the movable plate 2 may have the same shape, the fixed plate 1 and the movable plate 2 can be manufactured by the same member. Therefore, the manufacturing cost of the circuit breaker 100 can be reduced.
如圖14所示,在閉極狀態,係在固定板1與可動板2之間產生磁性吸引力,故固定板1及可動板2係能夠維持斷路器100的閉極狀態。藉此,固定板1及可動板2係能夠對操作機構6維持斷路器100的閉極狀態的保持力提供輔助。也因此,操作機構6維持斷路器100的閉極狀態之用的保持力亦可較小。因此,能夠減小操作機構6的尺寸,故能夠減小斷路器100的尺寸。此外,能夠減小操作機構6的永久磁鐵65,故能夠降低斷路器100的製造成本。As shown in FIG. 14, in the closed state, a magnetic attraction force is generated between the fixed plate 1 and the movable plate 2, so the fixed plate 1 and the movable plate 2 can maintain the closed state of the circuit breaker 100. Thereby, the fixed plate 1 and the movable plate 2 can assist the holding force of the operating mechanism 6 to maintain the closed state of the circuit breaker 100. Therefore, the holding force of the operating mechanism 6 for maintaining the closed state of the circuit breaker 100 can also be small. Therefore, the size of the operating mechanism 6 can be reduced, so the size of the circuit breaker 100 can be reduced. In addition, the permanent magnet 65 of the operating mechanism 6 can be reduced, so the manufacturing cost of the circuit breaker 100 can be reduced.
在閉極狀態,可動軸42被通電,故而在固定板1及可動板2產生磁性吸引力,相對於此,在開極狀態,可動軸42沒有被通電,故不產生磁性吸引力。因此,磁性吸引力係連動於斷路器100的從開極狀態至閉極狀態之切換而產生。也因此,要使磁性吸引力產生,不需要具備新增的設備。因此,能夠降低斷路器100的製造成本。In the closed-pole state, the movable shaft 42 is energized, so magnetic attraction is generated in the fixed plate 1 and the movable plate 2. In contrast, in the open-pole state, the movable shaft 42 is not energized, so no magnetic attraction is generated. Therefore, the magnetic attraction force is generated in conjunction with the switching of the circuit breaker 100 from the open-pole state to the closed-pole state. Therefore, to generate magnetic attraction, no new equipment is required. Therefore, the manufacturing cost of the circuit breaker 100 can be reduced.
依據本實施型態的斷路器100,如圖4及圖9所示,固定板1具有固定側環狀部13,故固定板1的剛性係比固定板1不具有固定側環狀部13時高。可動板2具有可動側環狀部23,故可動板2的剛性係比可動板2不具有可動側環狀部23時高。藉此,能夠抑制固定板1及可動板2的變形,故能夠使氣隙D1a(參照圖12)的尺寸均一。According to the circuit breaker 100 of this embodiment, as shown in FIGS. 4 and 9, the fixed plate 1 has a fixed side annular portion 13, so the rigidity of the fixed plate 1 is higher than that when the fixed plate 1 does not have the fixed side annular portion 13 high. The movable plate 2 has the movable side annular portion 23, so the rigidity of the movable plate 2 is higher than when the movable plate 2 does not have the movable side annular portion 23. Thereby, the deformation of the fixed plate 1 and the movable plate 2 can be suppressed, so the size of the air gap D1a (refer to FIG. 12) can be made uniform.
如圖4所示,固定板1具有固定側內周部131,故固定板1的內周部的剛性係比固定板1不具有固定側內周部131時高。此外,如圖9所示,可動板2具有可動側內周部231,故可動板2的內周部的剛性係比可動板2不具有可動側內周部231時高。因此,能夠抑制固定板1及可動板2的變形。As shown in FIG. 4, the fixed plate 1 has a fixed-side inner peripheral part 131, so the rigidity of the inner peripheral part of the fixed plate 1 is higher than when the fixed plate 1 does not have the fixed-side inner peripheral part 131. In addition, as shown in FIG. 9, the movable plate 2 has a movable inner peripheral portion 231, so the rigidity of the inner peripheral portion of the movable plate 2 is higher than when the movable plate 2 does not have the movable inner peripheral portion 231. Therefore, the deformation of the fixed plate 1 and the movable plate 2 can be suppressed.
如圖5所示,固定板1具有固定側外周部132,故固定板1的外周部的剛性係比固定板1不具有固定側外周部132時高。此外,如圖10所示,可動板2具有可動側外周部232,故可動板2的外周部的剛性係比可動板2不具有可動側外周部232時高。因此,能夠抑制固定板1及可動板2的變形。As shown in FIG. 5, the fixed plate 1 has a fixed-side outer peripheral part 132, so the rigidity of the outer peripheral part of the fixed plate 1 is higher than when the fixed plate 1 does not have the fixed-side outer peripheral part 132. In addition, as shown in FIG. 10, the movable plate 2 has a movable outer peripheral portion 232, so the rigidity of the outer peripheral portion of the movable plate 2 is higher than when the movable plate 2 does not have the movable outer peripheral portion 232. Therefore, the deformation of the fixed plate 1 and the movable plate 2 can be suppressed.
如圖6所示,固定板1具有固定側內周部131及固定側外周部132雙方,故固定板1的剛性係比固定板1僅具有固定側內周部131及固定側外周部132其中一者時高。如圖6所示,可動板2具有可動側內周部231及可動側外周部232雙方,故可動板2的剛性係比可動板2僅具有可動側內周部231及可動側外周部232其中一者時高。因此,使固定板1及可動板2的變形受到抑制。此外,由於固定板1及可動板2的剛性高,故能夠薄化固定板1及可動板2的軸方向CL的厚度。也因此,能夠減少固定板1及可動板2的材料,故能夠降低斷路器100的製造成本。此外,由於固定板1及可動板2的厚度薄,故衝切加工變得容易。也因此,使加工時間縮短,故能夠降低斷路器100的製造成本。固定板1及可動板2的厚度亦可減少到不會發生磁飽和的厚度。As shown in FIG. 6, the fixed plate 1 has both a fixed-side inner peripheral portion 131 and a fixed-side outer peripheral portion 132, so the rigidity of the fixed plate 1 is higher than that of the fixed plate 1 having only a fixed-side inner peripheral portion 131 and a fixed-side outer peripheral portion 132. One is high. As shown in FIG. 6, the movable plate 2 has both a movable inner peripheral portion 231 and a movable outer peripheral portion 232. Therefore, the rigidity of the movable plate 2 is higher than that of the movable plate 2 having only the movable inner peripheral portion 231 and the movable outer peripheral portion 232. One is high. Therefore, the deformation of the fixed plate 1 and the movable plate 2 is suppressed. In addition, since the rigidity of the fixed plate 1 and the movable plate 2 is high, the thickness of the fixed plate 1 and the movable plate 2 in the axial direction CL can be reduced. Therefore, the materials of the fixed plate 1 and the movable plate 2 can be reduced, so that the manufacturing cost of the circuit breaker 100 can be reduced. In addition, since the thickness of the fixed plate 1 and the movable plate 2 is thin, the punching process becomes easy. Therefore, the processing time is shortened, and the manufacturing cost of the circuit breaker 100 can be reduced. The thickness of the fixed plate 1 and the movable plate 2 can also be reduced to a thickness that does not cause magnetic saturation.
依據本實施型態的斷路器100,如圖4所示,固定側第2部12為狹縫,故固定板1係在固定側第2部12沿軸方向被貫通。此外,如圖9所示,可動側第2部22為狹縫,故可動板2係在可動側第2部22沿軸方向被貫通。因此,固定側第2部12及可動側第2部22的磁導係比固定側第2部12及可動側第2部22的材料為磁性體時低。因此,相較於固定板1及可動板2沒有被貫通的情形,會使產生在固定板1與可動板2間的磁性吸引力變大。According to the circuit breaker 100 of this embodiment, as shown in FIG. 4, the fixed side second portion 12 is a slit, so the fixed plate 1 is penetrated in the axial direction on the fixed side second portion 12. In addition, as shown in FIG. 9, the movable-side second portion 22 is a slit, so the movable plate 2 is penetrated in the axial direction in the movable-side second portion 22. Therefore, the permeance system of the fixed-side second part 12 and the movable-side second part 22 is lower than when the material of the fixed-side second part 12 and the movable-side second part 22 is a magnetic body. Therefore, compared to the case where the fixed plate 1 and the movable plate 2 are not penetrated, the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 is increased.
依據本實施型態的斷路器100,如圖2所示,在固定電極3與可動電極41相接時,操作軸60以使永久磁鐵65與端板62相接的方式移動。此外,在固定電極3與可動電極41分離時,操作軸60以藉由操作彈簧67而使端板62自永久磁鐵65分離的方式移動。藉此,操作機構6的構成變得簡單,故能夠減小操作機構6的尺寸。According to the circuit breaker 100 of this embodiment, as shown in FIG. 2, when the fixed electrode 3 is connected to the movable electrode 41, the operating shaft 60 moves such that the permanent magnet 65 is connected to the end plate 62. In addition, when the fixed electrode 3 and the movable electrode 41 are separated, the operating shaft 60 moves such that the end plate 62 is separated from the permanent magnet 65 by the operating spring 67. As a result, the configuration of the operating mechanism 6 becomes simple, so that the size of the operating mechanism 6 can be reduced.
實施型態2.Implementation type 2.
利用圖16至圖21,說明實施型態2的斷路器100的構成。只要未特別說明,則實施型態2具有與前述實施型態1相同的構成及作用效果。因此,對於與前述實施型態1相同的構成係標註相同的元件符號且不再重複說明。16 to 21, the structure of the circuit breaker 100 of the second embodiment will be described. Unless otherwise specified, the second embodiment has the same configuration and effects as the first embodiment described above. Therefore, the same components as those in the aforementioned embodiment 1 are denoted by the same reference numerals and the description will not be repeated.
在本實施型態中,如圖16所示,複數個固定側第2部12的各者在軸方向CL的厚度比複數個固定側第1部11的各者薄。如圖17所示,複數個可動側第2部22的各者在軸方向CL的厚度比複數個可動側第1部21的各者薄。如圖18所示,本實施型態的斷路器100在固定板1的固定側第2部12及可動板2的可動側第2部22具有厚度這點不同於實施型態1的斷路器100(參照圖2)。In this embodiment, as shown in FIG. 16, the thickness of each of the plurality of fixed-side second portions 12 in the axial direction CL is thinner than each of the plurality of fixed-side first portions 11. As shown in FIG. 17, the thickness of each of the plurality of movable-side second portions 22 in the axial direction CL is thinner than that of each of the plurality of movable-side first portions 21. As shown in FIG. 18, the circuit breaker 100 of this embodiment is different from the circuit breaker 100 of the embodiment 1 in that the fixed side second portion 12 of the fixed plate 1 and the movable side second portion 22 of the movable plate 2 have thicknesses. (Refer to Figure 2).
如圖16及圖17所示,固定板1及可動板2在俯視呈圓板狀。固定側第2部12及可動側第2部22並沒有沿軸方向CL被貫通。複數個固定側第2部12的各者係例如為沿固定板1的徑方向延伸的溝。複數個可動側第2部22的各者係例如為沿可動板2的徑方向延伸的溝。如圖18及圖19所示,固定板1及可動板2的各者係全體在軸方向CL具有厚度。As shown in FIGS. 16 and 17, the fixed plate 1 and the movable plate 2 have a disk shape in a plan view. The fixed-side second portion 12 and the movable-side second portion 22 are not penetrated in the axial direction CL. Each of the plurality of fixed-side second portions 12 is, for example, a groove extending in the radial direction of the fixed plate 1. Each of the plurality of movable-side second portions 22 is, for example, a groove extending in the radial direction of the movable plate 2. As shown in FIGS. 18 and 19, each of the fixed plate 1 and the movable plate 2 has a thickness in the axial direction CL as a whole.
在本實施型態的閉極狀態,圖20中所示的可動側第1部21與固定側第1部11之間的空隙(氣隙)D2a的軸方向CL的尺寸乃係產生磁性吸引力的距離。如圖21所示,開極狀態的氣隙D2b係比閉極狀態的氣隙D2a(參照圖20)大。In the closed state of this embodiment, the dimension of the gap (air gap) D2a between the movable side first portion 21 and the fixed side first portion 11 shown in FIG. 20 in the axial direction CL is due to the magnetic attraction force. distance. As shown in FIG. 21, the air gap D2b in the open pole state is larger than the air gap D2a in the closed pole state (see FIG. 20).
如圖20所示,固定側第2部12及可動側第2部22具有厚度,故在閉極狀態,亦在固定側第2部12及可動側第2部22產生磁通。因此,在氣隙D2a產生的磁通量係比實施型態1時的磁通量小。也因此,在固定板1與可動板2之間產生的磁性吸引力係比固定側第2部12及可動側第2部22為狹縫時小。因此,例如,較佳為將氣隙D2a的尺寸形成為比實施型態1的氣隙D1a(參照圖12)小,藉此增大磁性吸引力。此外,亦可薄化固定側第2部12及可動側第2部22的軸方向CL的厚度,藉此使磁性吸引力增大。此外,亦可增大固定板1及可動板2的徑方向的尺寸,藉此使磁性吸引力增大。As shown in FIG. 20, the fixed-side second portion 12 and the movable-side second portion 22 have thicknesses, so in a closed state, magnetic flux is also generated in the fixed-side second portion 12 and the movable-side second portion 22. Therefore, the magnetic flux generated in the air gap D2a is smaller than that in the first embodiment. Therefore, the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 is smaller than when the fixed-side second portion 12 and the movable-side second portion 22 are slits. Therefore, for example, it is preferable to form the size of the air gap D2a to be smaller than that of the air gap D1a of Embodiment 1 (refer to FIG. 12), thereby increasing the magnetic attraction force. In addition, the thickness of the fixed-side second portion 12 and the movable-side second portion 22 in the axial direction CL may be made thin, thereby increasing the magnetic attraction force. In addition, the size in the radial direction of the fixed plate 1 and the movable plate 2 may be increased, thereby increasing the magnetic attraction force.
<關於作用效果><About the effect>
依據本實施型態的斷路器100,如圖20所示,複數個固定側第2部12的各者在軸方向CL的厚度比複數個固定側第1部11的各者薄。此外,複數個可動側第2部22的各者在軸方向CL的厚度比複數個可動側第1部21的各者薄。也因此,由於複數個固定側第2部12的各者及複數個可動側第2部22的各者具有厚度,故固定板1及可動板2的剛性係比複數個固定側第2部12的各者及複數個可動側第2部22的各者不具有厚度時高。因此,能夠抑制固定板1及可動板2的變形。According to the circuit breaker 100 of this embodiment, as shown in FIG. 20, the thickness of each of the plurality of fixed-side second portions 12 in the axial direction CL is thinner than the thickness of each of the plurality of fixed-side first portions 11. In addition, the thickness of each of the plurality of movable-side second portions 22 in the axial direction CL is thinner than each of the plurality of movable-side first portions 21. Therefore, since each of the plurality of fixed-side second parts 12 and each of the plurality of movable-side second parts 22 has a thickness, the rigidity of the fixed plate 1 and the movable plate 2 is higher than that of the plurality of fixed-side second parts 12 Each of the two and each of the plurality of movable-side second portions 22 does not have a thickness when it is high. Therefore, the deformation of the fixed plate 1 and the movable plate 2 can be suppressed.
實施型態3.Implementation type 3.
接著,利用圖22至圖27,說明實施型態3的斷路器100的構成。只要未特別說明,則實施型態3具有與前述實施型態1相同的構成及作用效果。因此,對於與前述實施型態1相同的構成係標註相同的元件符號且不再重複說明。Next, the structure of the circuit breaker 100 of Embodiment 3 will be described using FIGS. 22 to 27. Unless otherwise specified, the third embodiment has the same configuration and effects as the first embodiment described above. Therefore, the same components as those in the aforementioned embodiment 1 are denoted by the same reference numerals and the description will not be repeated.
在本實施型態中,如圖22所示,複數個固定側第1部11的各者係具有固定側斜面15。複數個可動側第1部21的各者係具有可動側斜面25。固定側斜面15係與可動側斜面25沿軸方向CL相對向。In this embodiment, as shown in FIG. 22, each of the plurality of fixed-side first portions 11 has a fixed-side slope 15. Each of the plurality of movable-side first parts 21 has a movable-side slope 25. The fixed side slope 15 is opposed to the movable side slope 25 in the axial direction CL.
如圖22及圖23所示,固定側斜面15係與可動板2相對向。可動側斜面25係與固定板1相對向。如圖24及圖25所示,固定板1係與可動板2在軸方向CL重疊。此外,固定板1係伸入可動板2。As shown in FIG. 22 and FIG. 23, the fixed side slope 15 is opposed to the movable plate 2. The movable side slope 25 is opposed to the fixed plate 1. As shown in FIGS. 24 and 25, the fixed plate 1 and the movable plate 2 overlap in the axial direction CL. In addition, the fixed plate 1 is extended into the movable plate 2.
如圖26所示,固定側斜面15係具有固定側第1斜面151及固定側第2斜面152。固定側第1斜面151及固定側第2斜面152係配置在固定側第1部11的周方向的兩側。固定側第1斜面151及固定側第2斜面152係以彼此的距離朝軸方向CL的上側擴大的方式構成。As shown in FIG. 26, the fixed side inclined surface 15 has a fixed side first inclined surface 151 and a fixed side second inclined surface 152. The fixed-side first inclined surface 151 and the fixed-side second inclined surface 152 are arranged on both sides in the circumferential direction of the fixed-side first portion 11. The fixed-side first inclined surface 151 and the fixed-side second inclined surface 152 are configured such that the distance between each other is enlarged toward the upper side in the axial direction CL.
固定側第1斜面151與固定側第1部11的頂面所成之角度係與固定側第2斜面152與固定側第1部11的頂面所成之角度相同。固定側第1斜面151與固定側第1部11的頂面所成之角度乃係銳角。固定側第1斜面151與固定側第1部11的頂面所成之角度係例如為45度。固定側第2斜面152與固定側第1部11的頂面所成之角度乃係銳角。固定側第2斜面152與固定側第1部11的頂面所成之角度係例如為45度。The angle formed by the fixed-side first inclined surface 151 and the top surface of the fixed-side first portion 11 is the same as the angle formed by the fixed-side second inclined surface 152 and the top surface of the fixed-side first portion 11. The angle formed by the first inclined surface 151 on the fixed side and the top surface of the first portion 11 on the fixed side is an acute angle. The angle formed by the first inclined surface 151 on the fixed side and the top surface of the first portion 11 on the fixed side is, for example, 45 degrees. The angle formed by the second inclined surface 152 on the fixed side and the top surface of the first portion 11 on the fixed side is an acute angle. The angle formed by the second inclined surface 152 on the fixed side and the top surface of the first portion 11 on the fixed side is 45 degrees, for example.
如圖27所示,可動側斜面25係具有可動側第1斜面251及可動側第2斜面252。可動側第1斜面251及可動側第2斜面252係配置在可動側第1部21的周方向的兩側。可動側第1斜面251及可動側第2斜面252係以彼此的距離朝軸方向CL的下側擴大的方式構成。As shown in FIG. 27, the movable side slope 25 has a movable side first slope 251 and a movable side second slope 252. The movable-side first slope 251 and the movable-side second slope 252 are arranged on both sides in the circumferential direction of the movable-side first portion 21. The movable-side first inclined surface 251 and the movable-side second inclined surface 252 are configured such that the distance between each other is enlarged toward the lower side in the axial direction CL.
可動側第1斜面251與可動側第1部21的底面所成之角度係與可動側第2斜面252與可動側第1部的底面所成之角度相同。可動側第1斜面251與可動側第1部21的底面所成之角度乃係銳角。可動側第1斜面251與可動側第1部21的底面所成之角度係例如為45度。可動側第2斜面252與可動側第1部21的底面所成之角度乃係銳角。可動側第2斜面252與可動側第1部21的底面所成之角度係例如為45度。The angle formed by the movable-side first slope 251 and the bottom surface of the movable-side first portion 21 is the same as the angle formed by the movable-side second slope 252 and the bottom surface of the movable-side first portion. The angle formed by the movable side first inclined surface 251 and the bottom surface of the movable side first portion 21 is an acute angle. The angle formed by the movable side first inclined surface 251 and the bottom surface of the movable side first portion 21 is, for example, 45 degrees. The angle formed by the movable second inclined surface 252 and the bottom surface of the movable first portion 21 is an acute angle. The angle formed by the movable second inclined surface 252 and the bottom surface of the movable first portion 21 is, for example, 45 degrees.
可動側第1斜面251係與固定側第1斜面151沿軸方向CL相對向。可動側第2斜面252係與固定側第2斜面152沿軸方向CL相對向。The movable side first inclined surface 251 is opposed to the fixed side first inclined surface 151 in the axial direction CL. The movable second inclined surface 252 is opposed to the fixed second inclined surface 152 in the axial direction CL.
如圖23所示,複數個固定側第1部11的各者的底面的面積係比複數個固定側第1部11的各者的頂面的面積小。複數個可動側第1部21的各者的頂面的面積係比複數個可動側第1部21的各者的底面的面積小。As shown in FIG. 23, the area of the bottom surface of each of the plurality of fixed-side first parts 11 is smaller than the area of the top surface of each of the plurality of fixed-side first parts 11. The area of the top surface of each of the plurality of movable-side first portions 21 is smaller than the area of the bottom surface of each of the plurality of movable-side first portions 21.
如圖22所示,固定板1及可動板2係相對於軸方向CL傾斜地相對向,故固定板1與可動板2之空隙(氣隙)D3a係相對於軸方向CL傾斜地設置。也因此,在固定板1與可動板2之間產生的磁性吸引力係相對於軸方向CL傾斜地產生。此外,如圖23所示,即使在開極狀態,氣隙D3b也同樣相對於軸方向CL傾斜地設置。As shown in FIG. 22, the fixed plate 1 and the movable plate 2 are opposed to the axis direction CL obliquely, so the gap (air gap) D3a between the fixed plate 1 and the movable plate 2 is provided obliquely with respect to the axis direction CL. Therefore, the magnetic attraction force generated between the fixed plate 1 and the movable plate 2 is generated obliquely with respect to the axial direction CL. In addition, as shown in FIG. 23, even in the open state, the air gap D3b is similarly provided obliquely with respect to the axial direction CL.
在本實施型態中,磁性吸引力係相對於軸方向CL傾斜地產生,故含有沿軸方向CL的軸方向CL成分與沿徑方向的徑方向成分。如圖26所示,係以使固定側第1斜面151到固定側第2斜面152的距離擴大的方式構成,故相對於產生在固定側第1斜面151的磁性吸引力的徑方向成分,產生在固定側第2斜面152的磁性吸引力的徑方向成分係在徑方向朝向相反方向。因此,磁性吸引力的徑方向成分被全體抵消。因此,在可動板2僅產生軸方向CL的力。In the present embodiment, the magnetic attraction force is generated obliquely with respect to the axial direction CL, and therefore includes an axial direction CL component along the axial direction CL and a radial direction component along the radial direction. As shown in FIG. 26, it is configured to expand the distance between the first inclined surface 151 on the fixed side and the second inclined surface 152 on the fixed side. Therefore, the radial component of the magnetic attractive force generated on the fixed side first inclined surface 151 is generated. The radial component of the magnetic attraction force on the second inclined surface 152 on the fixed side faces the opposite direction in the radial direction. Therefore, the radial component of the magnetic attractive force is canceled out as a whole. Therefore, only the force in the axial direction CL is generated in the movable plate 2.
<關於作用效果><About the effect>
依據本實施型態的斷路器100,如圖24及圖25所示,固定側斜面15與可動側斜面25相對向,故可動板2伸入固定板1。藉此,能夠增厚固定板1及可動板2的厚度,故能夠提高固定板1及可動板2的剛性。According to the circuit breaker 100 of this embodiment, as shown in FIGS. 24 and 25, the fixed side inclined surface 15 and the movable side inclined surface 25 are opposed to each other, so the movable plate 2 extends into the fixed plate 1. Thereby, the thickness of the fixed plate 1 and the movable plate 2 can be increased, so the rigidity of the fixed plate 1 and the movable plate 2 can be improved.
實施型態4.Implementation type 4.
接著,利用圖28至圖32,說明實施型態4的斷路器100的構成。只要未特別說明,則實施型態4具有與前述實施型態1相同的構成及作用效果。因此,對於與前述實施型態1相同的構成係標註相同的元件符號且不再重複說明。Next, the configuration of the circuit breaker 100 according to the fourth embodiment will be described with reference to FIGS. 28 to 32. Unless otherwise specified, the fourth embodiment has the same configuration and effects as the first embodiment described above. Therefore, the same components as those in the aforementioned embodiment 1 are denoted by the same reference numerals and the description will not be repeated.
如圖28所示,在本實施型態中,斷路器100更含有固定側支持板14及可動側支持板24。本實施型態的斷路器100在更含有固定側支持板14及可動側支持板24這點不同於實施型態1的斷路器100。As shown in FIG. 28, in this embodiment, the circuit breaker 100 further includes a fixed side support plate 14 and a movable side support plate 24. The circuit breaker 100 of this embodiment is different from the circuit breaker 100 of the embodiment 1 in that it further includes a fixed side support plate 14 and a movable side support plate 24.
如圖28所示,固定側支持板14係固定在固定側第1部11及真空閥5的套筒55。可動側支持板24係固定在可動側第1部21及可動軸42。As shown in FIG. 28, the fixed-side support plate 14 is fixed to the fixed-side first portion 11 and the sleeve 55 of the vacuum valve 5. The movable side support plate 24 is fixed to the movable side first part 21 and the movable shaft 42.
如圖29及圖30所示,固定側支持板14係相對於可動板2而配置在固定板1的相反側。固定側支持板14係支持固定板1。可動側支持板24係相對於固定板1而配置在可動板2的相反側。可動側支持板24係支持可動板2。固定側支持板14及可動側支持板24屬於非磁性體。如圖29及圖31所示,可動側支持板24及固定側支持板14乃係圓板狀。As shown in FIGS. 29 and 30, the fixed-side support plate 14 is arranged on the opposite side of the fixed plate 1 with respect to the movable plate 2. The fixed side support plate 14 supports the fixed plate 1. The movable side support plate 24 is arranged on the opposite side of the movable plate 2 with respect to the fixed plate 1. The movable side support plate 24 supports the movable plate 2. The fixed side support plate 14 and the movable side support plate 24 are non-magnetic bodies. As shown in FIG. 29 and FIG. 31, the movable side support plate 24 and the fixed side support plate 14 are disk-shaped.
由於固定側支持板14及可動側支持板24屬於非磁性體,故固定側支持板14及可動側支持板24不會對在固定板1與可動板2之間產生的磁性吸引力造成影響。也因此,圖30中所示的閉極狀態的氣隙D4a的尺寸亦可與圖12中所示的實施型態1的閉極狀態的氣隙D1a相同。此外,圖32中所示的開極狀態的氣隙D4b的尺寸係可與圖13中所示的實施型態1的開極狀態的氣隙D1b相同。Since the fixed side support plate 14 and the movable side support plate 24 are non-magnetic bodies, the fixed side support plate 14 and the movable side support plate 24 will not affect the magnetic attraction force generated between the fixed plate 1 and the movable plate 2. Therefore, the size of the air gap D4a in the closed state shown in FIG. 30 may also be the same as the air gap D1a in the closed state of Embodiment 1 shown in FIG. 12. In addition, the size of the air gap D4b in the open state shown in FIG. 32 may be the same as the air gap D1b in the open state of Embodiment 1 shown in FIG. 13.
<關於作用效果><About the effect>
依據本實施型態的斷路器100,由於固定側支持板14支持固定板1,故固定板1的剛性係比固定側支持板14未支持固定板1時高。此外,由於可動側支持板24支持可動板2,故可動板2的剛性係比可動側支持板24未支持可動板2時高。藉此,能夠抑制固定板1及可動板2的變形。According to the circuit breaker 100 of this embodiment, since the fixed side support plate 14 supports the fixed plate 1, the rigidity of the fixed plate 1 is higher than when the fixed side support plate 14 does not support the fixed plate 1. In addition, since the movable side support plate 24 supports the movable plate 2, the rigidity of the movable plate 2 is higher than when the movable side support plate 24 does not support the movable plate 2. Thereby, the deformation of the fixed plate 1 and the movable plate 2 can be suppressed.
以上,應瞭解本說明書中所揭示的實施型態之各點均為例示,並非限制。本發明之範圍並非藉由上述的說明表示,而藉由申請專利範圍所表示,且包含與申請專利範圍均等之意義以及範圍內之所有變更。Above, it should be understood that the various points of the implementation modes disclosed in this specification are illustrations and not limitations. The scope of the present invention is not shown by the above description, but by the scope of the patent application, and includes the meaning equivalent to the scope of the patent application and all changes within the scope.