WO2012073468A1 - 電磁接触器、電磁接触器のガス封止方法及び電磁接触器の製造方法 - Google Patents
電磁接触器、電磁接触器のガス封止方法及び電磁接触器の製造方法 Download PDFInfo
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- WO2012073468A1 WO2012073468A1 PCT/JP2011/006584 JP2011006584W WO2012073468A1 WO 2012073468 A1 WO2012073468 A1 WO 2012073468A1 JP 2011006584 W JP2011006584 W JP 2011006584W WO 2012073468 A1 WO2012073468 A1 WO 2012073468A1
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- WIPO (PCT)
- Prior art keywords
- extinguishing chamber
- base plate
- cap
- arc
- connection
- Prior art date
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H50/00—Details of electromagnetic relays
- H01H50/54—Contact arrangements
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H11/00—Apparatus or processes specially adapted for the manufacture of electric switches
- H01H11/04—Apparatus or processes specially adapted for the manufacture of electric switches of switch contacts
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H1/00—Contacts
- H01H1/64—Protective enclosures, baffle plates, or screens for contacts
- H01H1/66—Contacts sealed in an evacuated or gas-filled envelope, e.g. magnetic dry-reed contacts
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H11/00—Apparatus or processes specially adapted for the manufacture of electric switches
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H33/00—High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
- H01H33/02—Details
- H01H33/04—Means for extinguishing or preventing arc between current-carrying parts
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H33/00—High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
- H01H33/60—Switches wherein the means for extinguishing or preventing the arc do not include separate means for obtaining or increasing flow of arc-extinguishing fluid
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H49/00—Apparatus or processes specially adapted to the manufacture of relays or parts thereof
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H50/00—Details of electromagnetic relays
- H01H50/02—Bases; Casings; Covers
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H50/00—Details of electromagnetic relays
- H01H50/54—Contact arrangements
- H01H50/60—Contact arrangements moving contact being rigidly combined with movable part of magnetic circuit
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H69/00—Apparatus or processes for the manufacture of emergency protective devices
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H9/00—Details of switching devices, not covered by groups H01H1/00 - H01H7/00
- H01H9/30—Means for extinguishing or preventing arc between current-carrying parts
- H01H9/34—Stationary parts for restricting or subdividing the arc, e.g. barrier plate
- H01H9/346—Details concerning the arc formation chamber
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H50/00—Details of electromagnetic relays
- H01H50/02—Bases; Casings; Covers
- H01H50/023—Details concerning sealing, e.g. sealing casing with resin
- H01H2050/025—Details concerning sealing, e.g. sealing casing with resin containing inert or dielectric gasses, e.g. SF6, for arc prevention or arc extinction
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49002—Electrical device making
- Y10T29/49117—Conductor or circuit manufacturing
- Y10T29/49204—Contact or terminal manufacturing
- Y10T29/49208—Contact or terminal manufacturing by assembling plural parts
- Y10T29/4921—Contact or terminal manufacturing by assembling plural parts with bonding
- Y10T29/49211—Contact or terminal manufacturing by assembling plural parts with bonding of fused material
- Y10T29/49213—Metal
Definitions
- the present invention relates to an electromagnetic contactor including a contact device having a fixed contact and a movable contact inserted in a current path, and more specifically, a gas for sealing a gas inside the electromagnetic contactor and the electromagnetic contactor.
- the present invention relates to a sealing method and a method for manufacturing an electromagnetic contactor.
- a conventional gas-sealed structure (hereinafter referred to as a capsule structure) of an electromagnetic contactor has a structure as shown in FIG. 5. Specifically, a fixed contact 26 and a movable contact 27 a are provided inside the arc extinguishing chamber 1. A movable terminal 27, a movable shaft 28, a contact spring 29, and the like are incorporated. Further, a movable iron core 30 and a return spring 31 to which a movable shaft 28 is connected are incorporated in the cap 8. Details are not described here.
- the arc extinguishing chamber 1 and the fixed terminal 2 and the arc extinguishing chamber 1 and the first connecting member 4 are joined by brazing, and the cap 8 and the second connecting member 5 are joined by welding (laser welding or micro TIG welding).
- welding laser welding or micro TIG welding
- the base plate 7 and the first connecting member 4 are joined by seal welding, and the base plate 7 and the second connecting member 5 are also joined by seal welding. This seal welding is joined by resistance welding (projection welding) or laser welding.
- a gas 19 is provided so that the upper electrode portion 15 and the lower electrode portion 16 in the gas-filled chamber 14 are installed in the gas-filled chamber 14 and always maintain a gas atmosphere 18. It is necessary to keep flowing. For this reason, there exists a problem that the gas enclosure 14 must also become large. In particular, when a plurality of capsule structure portions 13 are placed for seal welding, the exhaust and filling of the gas sealing chamber 14 are repeated when the capsule structure portion 13 is replaced when the seal welding is finished. . For this reason, there is a problem that it takes a considerable time to exhaust and fill the gas inlet chamber. In such a process, there is a problem that the amount of the enclosed gas is increased.
- a plurality of workpieces 24 for supplying and discharging hydrogen gas 20 are placed in a chamber 21 that can supply and exhaust hydrogen gas 20, and a transparent glass window 22 is inserted from the outside of chamber 21.
- a laser beam 25 is incident from above and the workpiece 24 is laser-welded.
- seal welding is possible if the gas filling pressure in the capsule structure is about atmospheric pressure or a pressure slightly higher than atmospheric pressure.
- the gas sealing pressure becomes a gas pressure of several atmospheres or more, the gas sealing pressure is reduced in the gas sealing chamber of the gas-sealed projection welding method and the chamber of the laser welding method as described above. It becomes difficult to perform seal welding with high mass productivity while ensuring.
- the base plate 7 and the pipe 3 are joined in advance by brazing or soldering. Thereafter, the base plate 7 and the first connection member 4, and the base plate 7 and the second connection member 5 are sealed by laser welding or projection welding, respectively. However, it is not necessary to weld while filling the gas at this stage. In the last stage, gas is sealed through the pipe 3 and the pipe 3 is crushed with a pressurizing tool under a predetermined gas pressure and pressed to be hermetically sealed, or a handy type ultrasonic welding machine Seal with airtight.
- the gas pressure at the time of gas filling can be sealed and sealed from atmospheric pressure to a higher pressure.
- the base plate 7 needs to be plated, drilled, and brazed or soldered between the base plate 7 and the pipe 3. It becomes.
- brazing or soldering requires extra time due to a separate process that requires airtightness.
- the base plate 7 is not thermally deformed, but the long-term reliability is poor in terms of strength with respect to the soldered portion.
- brazing becomes a high brazing temperature, the base plate 7 is thermally deformed.
- the kind of gas used for sealing includes hydrogen gas, nitrogen gas, a mixed gas of hydrogen and nitrogen, or air.
- the present invention has been made in view of the various problems described above, and simplified a conventional process for gas-sealing a capsule structure, an inexpensive and stable quality electromagnetic contactor, electromagnetic contactor
- An object of the present invention is to provide a gas sealing method and a method for manufacturing an electromagnetic contactor.
- a first aspect of an electromagnetic contactor includes a base plate having an opening hole, a fixed terminal and a pipe fixed through the wall surface, and one end opened.
- a bowl-shaped arc extinguishing chamber and a bottomed cylindrical cap with one end open are provided.
- the electromagnetic contactor can be in close contact with the arc-extinguishing chamber, a cylindrical portion connected at one end to the open end surface of the arc-extinguishing chamber, and the base plate connected to the other end of the cylindrical portion.
- An arc-extinguishing chamber connecting portion is formed with the first connecting member having the flange portion.
- the electromagnetic contactor includes the cap, a cylindrical portion whose one end is in close contact with and connected to the open end surface of the cap, and a flange portion which can be in close contact with the base plate connected to the other end of the cylindrical portion.
- a cap connection part is formed with the second connection member.
- the electromagnetic contactor is configured so that the arc-extinguishing chamber connecting portion and the cap connecting portion communicate with each other through the opening hole of the base plate on the first surface of the base plate in the arc-extinguishing chamber connecting portion.
- the flange portion of the connection member is attached, and the flange portion of the second connection member in the cap connection portion is attached to the other surface of the base plate.
- the second aspect of the electromagnetic contactor according to the present invention includes a base plate having an opening hole, a fixed terminal fixed through the wall surface, a portion outside the wall surface of the fixed terminal, and a portion within the wall surface.
- the pipe has a pipe inserted from the outside of the wall surface in a vent hole communicating with the pipe, and has a bowl-shaped arc extinguishing chamber with one end opened, and a bottomed cylindrical cap with one end opened.
- the magnetic contactor includes the arc extinguishing chamber, a cylindrical portion connected at one end to the open end surface of the arc extinguishing chamber, and a flange portion that can be in close contact with the base plate connected to the other end of the cylindrical portion
- the arc-extinguishing chamber connecting portion is formed with the first connecting member having
- the electromagnetic contactor includes the cap, a cylindrical portion whose one end is in close contact with and connected to the open end surface of the cap, and a flange portion which can be in close contact with the base plate connected to the other end of the cylindrical portion.
- a cap connection part is formed with the second connection member.
- the electromagnetic contactor is configured so that the arc-extinguishing chamber connecting portion and the cap connecting portion communicate with each other through the opening hole of the base plate on the first surface of the base plate in the arc-extinguishing chamber connecting portion.
- the flange portion of the connection member is attached, and the flange portion of the second connection member in the cap connection portion is attached to the other surface of the base plate.
- An electromagnetic contactor includes a base plate having an opening hole, a fixed terminal supporting insulating substrate fixed through the fixed terminal and the pipe, and an outer surface of the fixed terminal supporting insulating substrate. It is provided with a bowl-shaped arc extinguishing chamber composed of a cylindrical part whose one end is in close contact with the peripheral part and a bottomed cylindrical cap whose one end is open.
- the arc extinguishing chamber connecting portion is formed by the arc extinguishing chamber and a third connecting member having a flange portion that can be in close contact with the base plate formed integrally with the cylindrical portion of the arc extinguishing chamber.
- the cap and a second connecting member having a flange portion that can be in close contact with the base plate connected to the other end of the cylindrical portion and a cylindrical portion that is connected in close contact with the open end surface of the cap
- a connecting portion is formed.
- a flange portion of a third connecting member in the arc-extinguishing chamber connecting portion is attached to one surface of the base plate so that the arc-extinguishing chamber connecting portion and the cap connecting portion communicate with each other through an opening hole of the base plate.
- the flange portion of the second connection member in the cap connection portion is attached to the other surface of the base plate.
- a gas is introduced into the arc extinguishing chamber and the cap through the pipe.
- the opening of the pipe was closed to form a gas sealed state.
- a first aspect of the gas sealing method for an electromagnetic contactor according to the present invention is the gas sealing method for an electromagnetic contactor according to any one of the first to third aspects, wherein the pipe When the introduced gas pressure reaches a predetermined gas pressure, the opening of the pipe is closed to form a gas-sealed sealed container in which the gas is sealed in the arc extinguishing chamber and the cap. is doing.
- the 1st aspect of the manufacturing method of the magnetic contactor which concerns on this invention is the cylinder of the 1st connection member connected with the fixed terminal and pipe penetrated and fixed to the arc-extinguishing chamber, and the open end part of an arc-extinguishing chamber A step of forming the arc extinguishing chamber connecting portion by simultaneously brazing the portion, and a step of forming a cap connecting portion having a flange portion extending radially outward at the open end of the bottomed cylindrical cap. ing.
- the first aspect of the magnetic contactor is configured so that the arc-extinguishing chamber connecting portion and the cap connecting portion communicate with the base plate in which an opening hole is formed via the opening hole.
- a second aspect of the method for manufacturing an electromagnetic contactor includes a fixed terminal and a pipe that are fixed to the fixed terminal supporting insulating substrate, and an outer peripheral edge portion of the fixed terminal supporting insulating substrate.
- a step of simultaneously brazing the cylindrical portion integrally formed with the third connecting member at the end to simultaneously form the arc extinguishing chamber and the arc extinguishing chamber connecting portion, and a radius at the open end of the bottomed cylindrical cap Forming a cap connecting portion having a flange portion extending outward in the direction.
- the arc extinguishing chamber connecting portion and the cap connecting portion are communicated with the base plate in which the opening hole is formed via the opening hole.
- a gas filling and exhausting device and a gas filling chamber are not required, which contributes to reduction in equipment cost and gas consumption by omitting ancillary equipment.
- the time required for gas filling and exhausting can be shortened, greatly improving productivity.
- laser welding in the air supply / exhaust chamber is not required, and laser welding that requires technical precision such as a C-shaped air supply / exhaust hole is also required. Therefore, the same effect as that of gas-filled projection welding can be obtained.
- spatter and fumes are generated during laser welding, welding is performed in the atmosphere, so that a normally used exhaust device may be used, and cleaning and maintenance in the chamber are not necessary.
- the gas filling method of the present invention reduces mass productivity from the viewpoint of securing the gas pressure. There is no problem, and it is possible to freely set and adjust the pressure, which can greatly improve productivity.
- the brazing process includes brazing between the ceramic arc extinguishing chamber and the base plate having the convex portion, and between the base plate and the pipe. Two steps were required: brazing (or soldering).
- brazing or soldering
- all the steps can be performed by brazing on the arc extinguishing chamber side, and the number of manufacturing steps can be reduced. That is, since the brazing process of the pipe can be brazed in the furnace together with the fixed terminal and the connecting member, the operation can be simplified.
- FIG. 7 is a conventional front sectional view showing a method other than the welding method shown in FIGS. 5 and 6.
- FIG. 1 is a cross-sectional view of a capsule structure showing a first embodiment of an electromagnetic contactor according to the present invention.
- FIG. 2 is a perspective view of the outer appearance of the capsule structure of the electromagnetic contactor shown in FIG. 1
- FIGS. 3A and 3B are capsules of the electromagnetic contactor showing a modification of the first embodiment of the present invention. It is sectional drawing of a structure.
- FIG. 4 is a sectional view of a capsule structure showing a second embodiment of the electromagnetic contactor according to the present invention.
- a bowl-shaped arc extinguishing chamber 1 which is integrally formed by firing, for example, ceramics with an open lower end surface, and a pair of fixed terminals made of copper, for example, on the upper side wall surface of the arc extinguishing chamber 1 2 are penetrated at predetermined intervals and joined by brazing. Further, a hollow pipe 3 made of, for example, copper is similarly penetrated and joined to the upper side wall surface of the arc extinguishing chamber 1 by brazing.
- An arc extinguishing process is achieved by joining a cylindrical portion 4a of the first connecting member 4 which is formed in an extended convex shape to the open end 1a of the arc extinguishing chamber 1 where the fixed terminal 2 and the pipe 3 are brazed, by brazing.
- the chamber connection 6 is assembled.
- the joining of the fixed terminal 2, the pipe 3, and the cylindrical portion 4a of the first connecting member 4 to the arc extinguishing chamber 1 can be integrated by brazing simultaneously in the furnace.
- a metal layer or a metal film is formed by performing a metallization process on the brazing position of the cylindrical portion 4a of the fixed terminal 2, the pipe 3 and the first connecting member 4, and the metal layer Alternatively, Ni plating is applied to the metal film.
- the 1st connection member 4 is an iron-type material, it is preferable to ensure brazing property, for example by carrying out electric Ni plating.
- the stress distortion does not occur in consideration of the difference between the expansion coefficient of the ceramic material constituting the arc extinguishing chamber 1 and the expansion coefficient of the fixed terminal 2 and the pipe 3 made of copper.
- the assembled arc extinguishing chamber connecting portion 6 is joined by seal welding with the flange portion 4b integrally connected to the cylindrical portion 4a of the first connecting member 4 being in close contact with the base plate 7.
- the bottomed cylindrical cap 8 with one end sealed is formed by joining the cylindrical portion 5a having the extended convex shape of the second connecting member 5 to the opening end portion 8a of the cap 8 by seal welding.
- the cap connection part 12 is assembled.
- the flange portion 5 b provided on the second connecting member 5 is brought into close contact with the base plate 7 and is sealed.
- the arc extinguishing chamber connecting portion 6 and the cap connecting portion 12 are attached so as to communicate with each other through an opening hole 7 a provided in the base plate 7.
- the capsule structure part 13 of an electromagnetic contactor is assembled.
- the method of joining the arc-extinguishing chamber 1, the fixed terminal 2, the pipe 3, and the first connecting member 4 of the arc-extinguishing chamber connecting portion 6 can be performed simultaneously by vacuum brazing.
- a movable terminal in which a movable contact 27 a disposed in the arc extinguishing chamber 1 is disposed on one surface of the base plate 7. 27, a movable shaft 28 that supports the movable terminal 27, and a contact spring 29 that presses the movable contact 27a disposed around the movable shaft 28 against the fixed contact 26 are disposed. Further, on the other surface of the base plate 7, a movable iron core 30 and a return spring 31 connected to a movable shaft 28 extending through the opening hole 7a are disposed.
- the arc extinguishing chamber connecting portion 6 is disposed on the base plate 7 so as to cover the movable terminal 27, the movable shaft 28, and the contact spring 29, and a cap is connected so as to cover the movable shaft 28, the movable iron core 30, and the return spring 31.
- the portion 12 is arranged, and the arc extinguishing chamber connecting portion 6 and the cap connecting portion 12 are sealed and welded to the base plate 7.
- a gas exhaust device is connected to the pipe 3 to exhaust the gas in the capsule structure 13, and then a gas supply source (not shown) is connected to the pipe 3. ) And a pressurized gas is introduced into the arc extinguishing chamber 1 from the gas supply source via the pipe 3. And when the introduced gas pressure becomes a predetermined pressure, the opening 3a of the pipe 3 is closed with a sealing tool. Thereby, the internal pressure gas can be sealed in the arc extinguishing chamber 1 and the cap 8.
- the gas sealing method requires the steps of gas exhaust, gas introduction, and sealing while maintaining the gas pressure, and these series of work steps include both the gas exhaust device and the gas supply source. Can be performed by attaching and detaching the one-touch pipe connected to the pipe 3, and the cycle time can be increased.
- the gas supplied from the gas supply source includes hydrogen gas, nitrogen gas, a mixed gas of hydrogen and nitrogen, or air.
- this gas sealing method is gas filling from the pipe 3, there is a degree of freedom in selecting the gas pressure and the pressure can be easily adjusted. Further, the sealing method can close the opening 3a of the pipe 3 in an extremely short time, and thus the productivity is increased.
- the pipe 3 can be sealed by a handy type ultrasonic welding machine, and the sealing method is not limited.
- the fixed terminal 2, the pipe 3 and the first connecting member 4 can be brazed to the arc extinguishing chamber 1 at the same time.
- the connection of the fixed terminal 2 and the pipe to the arc extinguishing chamber 1 and the formation of the arc extinguishing chamber connecting portion 6 can be performed simultaneously, and the process of forming the arc extinguishing chamber 1 and the arc extinguishing chamber connecting portion 6 is simplified.
- sealing of the gas to the arc extinguishing chamber 1 and the cap 8 can be easily performed.
- the present invention is not limited to this, and as shown in FIG. Further, a wall surface in a direction perpendicular to the fixed terminal 2 fixed to the arc extinguishing chamber 1 may be penetrated and joined. Thus, when the pipe 3 is joined to the side wall of the arc extinguishing chamber 1, there is an effect that the installation space of the pipe 3 has a degree of freedom.
- FIG.3 (b) It can also be configured as shown. That is, in the present embodiment, one fixed terminal of the pair of fixed terminals 2 is connected to a part that is outside the side wall of the arc extinguishing chamber 1 and a part that is out of contact with the movable contact that is inside the side wall. A stepped vent hole 2a penetrating obliquely is formed, and the pipe 3 is joined to the large diameter portion of the vent hole 2a.
- the cap 8 and the second connecting member 5 may be integrally formed by forming a flange portion protruding outward in the radial direction.
- the arc extinguishing chamber is formed by the terminal support insulating substrate and the third connecting member. That is, in the second embodiment, the fixed terminal support insulating substrate 40 is provided.
- the fixed terminal supporting insulating substrate 40 is formed with a through hole 40 a for fixing the pair of fixed terminals 2 and a through hole 40 b for fixing the pipe 3.
- the fixed terminal supporting insulating substrate 40 is formed by metallizing a metal such as copper foil around the through holes 40a and 40b and on the outer peripheral edge 40c on one surface of the plate-like ceramic substrate in which the through holes 40a and 40b are formed. Processed and configured as a ceramic insulating substrate.
- the fixed terminal 2 is inserted into the through hole 40a of the fixed terminal supporting insulating substrate 40 and brazed, and the pipe 3 is inserted into the through hole 40b and brazed. Furthermore, the fixed terminal supporting insulating substrate 40 is brazed with a metal rectangular tube portion 41 to the outer peripheral edge portion 40c on the lower surface thereof.
- a third connection member 42 having a flange portion 42 a protruding outward in the radial direction is integrally formed at the other end of the cylindrical body portion 41.
- a hook-shaped arc extinguishing chamber 1 having an open lower surface is formed by the fixed terminal supporting insulating substrate 40 and the cylindrical body portion 41 brazed to this, and the arc extinguishing chamber 1 and the flange of the third connection member 42 are formed.
- the arc extinguishing chamber connecting portion 6 is constituted by the portion 42a. Note that the brazing between the fixed terminal supporting insulating substrate 40, the fixed terminal 2 and the pipe 3 and the brazing between the outer peripheral edge portion 40c of the fixed terminal supporting insulating substrate 40 and the cylindrical body portion 41 are simultaneously performed by, for example, an in-furnace brazing process. It is preferable to perform a brazing process.
- an insulating rectangular tube 43 made of ceramic is disposed on the inner peripheral surface of the cylindrical portion 41, and is closed by an insulating bottom plate 44 on the base plate 7 side of the insulating rectangular tube 43.
- a bottomed cylindrical cap 45 is disposed on the lower surface side of the opening hole 7 a of the base plate 7.
- a second connection member 46 is integrally formed at the open end of the cap 45.
- the second connection member 46 includes a cylindrical portion 46a and a flange portion 46b that protrudes radially outward from the open end of the cylindrical portion 46a.
- the flange part 42a of the 3rd connection member 42 and the flange part 46b of the 2nd connection member 46 are connected so that the arc-extinguishing chamber connection part 6 and the cap connection part 12 may communicate via the opening hole 7a of the base plate 7. It is in close contact with the base plate 7 and seal welded. Also in the second embodiment, it is preferable that the second and third connecting members 46 and 42 are made of a material having a bottom expansion coefficient, the base plate 7 is made of a magnetic material, and the cap 45 is made of a nonmagnetic material.
- a movable shaft 28 that supports the movable terminal 27 and a contact spring 29 that presses the movable contact 27a disposed around the movable shaft 28 against the fixed contact 26 are disposed, and the other surface penetrates the opening hole 7a.
- the movable iron core 30 and the return spring 31 connected to the movable shaft 28 extended in this manner are arranged and placed.
- the arc extinguishing chamber connecting portion 6 is disposed on the base plate 7 so as to cover the movable terminal 27, the movable shaft 28, and the contact spring 29, and a cap is connected so as to cover the movable shaft 28, the movable iron core 30, and the return spring 31.
- the portion 12 is arranged, and the arc extinguishing chamber connecting portion 6 and the cap connecting portion 12 are sealed and welded to the base plate 7.
- the fixed terminal 2, the pipe 3, and the third connection member 42 can be simultaneously brazed to the fixed terminal support insulating substrate 40, and the fixed terminal 2 and the pipe to the arc extinguishing chamber 1 can be simultaneously performed.
- the arc extinguishing chamber connecting portion 6 can be formed simultaneously, and the process of forming the arc extinguishing chamber 1 and the arc extinguishing chamber connecting portion 6 can be simplified.
- the fixed terminal supporting insulating substrate 40 is metalized on a flat ceramic base material, the metalizing process can be simultaneously performed in a state where a plurality of ceramic base materials are arranged, and productivity can be improved.
- the brazing jig for brazing the fixed terminal supporting insulating substrate 40 and the cylindrical body portion 41 may have a simple structure, and the assembly jig can be configured at low cost.
- the gas sealing method similar to 1st Embodiment mentioned above can be applied for the gas sealing to the arc extinguishing chamber 1 and the cap 8.
- the cap 45 and the second connection member 46 are integrally formed.
- the present invention is not limited to this, and is the same as the first embodiment described above. Further, the cap 45 and the second connecting member 46 may be configured separately.
- the process of gas-sealing the capsule structure part comprised by an arc-extinguishing chamber connection part and a cap connection part is simplified, and the gas contact of the magnetic contactor and electromagnetic contactor which were cheap and stabilized in quality
- a method and a method of manufacturing an electromagnetic contactor can be provided.
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Abstract
Description
ここで、封入に使用されるガスの種類には、水素ガス、窒素ガス、水素と窒素の混合ガス、あるいは空気などがある。
また、本発明に係る電磁接触器のガス封止方法の第1の態様は、前記第1乃至第3の形態の何れか1つの形態の電磁接触器のガス封止方法であって、前記パイプからガスを導入し、導入したガス圧が所定のガス圧力になった際に前記パイプの開口部を閉塞し、前記消弧室及び前記キャップ内にガスを封止したガス封止密封容器を形成している。
図1は、本発明に係る電磁接触器の第1の実施形態を示すカプセル構造の断面図である。図2は、図1に示した電磁接触器のカプセル構造外観の斜視図で、図3(a),(b)は本発明の第1の実施形態の変形例を示した電磁接触器のカプセル構造の断面図である。図4は本発明に係る電磁接触器の第2の実施形態を示すカプセル構造の断面図である。
このとき、消弧室1には、固定端子2、パイプ3及び第一の接続部材4の筒部4aのろう付け位置に、メタライズ処理を行って金属層又は金属膜を形成し、その金属層又は金属膜にNiめっきを施して置く。
そして、組立てられた消弧室接続部6は、第一の接続部材4の筒部4aに一体に連結されたフランジ部4bをベース板7に密着させてシール溶接にて接合する。
消弧室接続部6の消弧室1と固定端子2とパイプ3と第一の接続部材4を接合する方法は、真空ろう付けによって同時行える。
ここで、第一及び第二の接続部材4及び5は底膨張率の材料、ベース板7は磁性材料、キャップ8は非磁性材料を用いて形成することが好ましい。
ここで、ガス供給源から供給するガスの種類には、水素ガス、窒素ガス、水素と窒素の混合ガス、あるいはエアなどがある。
この第2の実施形態では、桶状の消弧室を一体に形成する場合に代えて、端子支持絶縁基板と第三の接続部材とで消弧室を形成するようにしたものである。
すなわち、第2の実施形態では、固定端子支持絶縁基板40を備えている。この固定端子支持絶縁基板40には、前述した一対の固定端子2を固定する貫通孔40a及びパイプ3を固定する貫通孔40bが形成されている。また、固定端子支持絶縁基板40は、貫通孔40a及び40bを形成した板状のセラミック基材に、貫通孔40a及び40bの周り及び一方の面の外周縁部40cに銅箔などの金属をメタライズ処理してセラミック絶縁基板として構成されている。
さらに、固定端子支持絶縁基板40には、その下面における外周縁部40cに金属製の角筒状の筒体部41がろう付けされている。この筒体部41の他端には、半径方向外方に突出するフランジ部42aを有する第三の接続部材42が一体に形成されている。
なお、固定端子支持絶縁基板40と固定端子2及びパイプ3とのろう付け及び固定端子支持絶縁基板40の外周縁部40cと筒体部41とのろう付けは、例えば炉内ろう付け処理によって同時にろう付け処理を行うことが好ましい。
一方、ベース板7の開口孔7aの下面側には、有底筒状のキャップ45が配置されている。このキャップ45の開放端部には第二の接続部材46が一体に形成されている。この第二の接続部材46は、筒部46aとこの筒部46aの開放端から半径方向外方に突出するフランジ部46bとで構成されている。
この第2の実施形態でも、第二及び第三の接続部材46,42は底膨張率の材料、ベース板7は磁性材料、キャップ45は非磁性材料を用いて形成することが好ましい。
しかも、固定端子支持絶縁基板40を平板状のセラミック基材にメタライジング処理するので、複数のセラミック基材を配置した状態で同時にメタライジング処理を行うことができ、生産性を向上させることができる。また、固定端子支持絶縁基板40と筒体部41とをろう付けする場合のろう付け治具が簡単な構造で済み、組み立て治具を安価に構成することができる。
なお、上記第2の実施形態ではキャップ45と第二の接続部材46とが一体に形成されている場合について説明したが、これに限定されるものではなく、前述した第1の実施形態と同様にキャップ45と第二の接続部材46とを別体で構成するようにしてもよい。
1a 消弧室開口端部
2 固定端子、
2a 段付通気孔
3 パイプ
3a パイプ開口部
4 第一の接続部材
4a 筒部
4b フランジ部
5 第二の接続部材
5a 筒部
5b フランジ部
6 消弧室接続部
7 ベース板
8 キャップ
12 キャップ接合部
13 電磁接触器のカプセル構造部
40 固定端子支持絶縁基板
41 筒体部
42 第三の接続部材
42a フランジ部
43 絶縁角筒体
44 絶縁底板
45 キャップ
46 第二の接続部材
Claims (7)
- 開口穴を有するベース板と、壁面を貫通して固定された固定端子及びパイプを有し、一端を開放した桶状の消弧室と、一端を開放した有底筒状のキャップとを備え、
前記消弧室と、当該消弧室の開放端面に一端が密着して接続される筒部及び該筒部の他端に連結された前記ベース板と密着可能なフランジ部を有する第一の接続部材とで消弧室接続部を形成し、
前記キャップと、当該キャップの開放端面に一端が密着して接続される筒部及び該筒部の他端に連結された前記ベース板と密着可能なフランジ部を有する第二の接続部材とでキャップ接続部を形成し、
前記消弧室接続部と前記キャップ接続部とが前記ベース板の開口穴を介して連通するように、前記ベース板の一方の面に前記消弧室接続部における第一の接続部材のフランジ部を取り付け、前記ベース板の他方の面に前記キャップ接続部における第二の接続部材のフランジ部を取り付けたことを特徴とする電磁接触器。 - 開口孔を有するベース板と、壁面を貫通して固定された固定端子及び該固定端子の前記壁面外の部位と当該壁面内の部位とを連通する通気孔に前記壁面外から挿通されたパイプを有し、一端を開放した桶状の消弧室と、一端を開放した有底筒状のキャップとを備え、
前記消弧室と、当該消弧室の開放端面に一端が密着して接続される筒部及び該筒部の他端に連結された前記ベース板と密着可能なフランジ部を有する第一の接続部材とで消弧室接続部を形成し、
前記キャップと、当該キャップの開放端面に一端が密着して接続される筒部及び該筒部の他端に連結された前記ベース板と密着可能なフランジ部を有する第二の接続部材とでキャップ接続部を形成し、
前記消弧室接続部と前記キャップ接続部とが前記ベース板の開口孔を介して連通するように、前記ベース板の一方の面に前記消弧室接続部における第一の接続部材のフランジ部を取り付け、前記ベース板の他方の面に前記キャップ接続部における第二の接続部材のフランジ部を取り付けたことを特徴とする電磁接触器。 - 開口孔を有するベース板と、固定端子及びパイプを貫通して固定した固定端子支持絶縁基板及び該固定端子支持絶縁基板の一面の外周縁部に一端が密着して接続された筒体部で構成される桶状の消弧室と、一端を開放した有底筒状のキャップとを備え、
前記消弧室と、当該消弧室の筒体部に一体に形成された前記ベース板と密着可能なフランジ部を有する第三の接続部材とで消弧室接続部を形成し、
前記キャップと、当該キャップの開放端面に一端が密着して接続される筒部及び該筒部の他端に連結された前記ベース板と密着可能なフランジ部を有する第二の接続部材とでキャップ接続部を形成し、
前記消弧室接続部と前記キャップ接続部とが前記ベース板の開口孔を介して連通するように、前記ベース板の一方の面に前記消弧室接続部における第三の接続部材のフランジ部を取り付け、前記ベース板の他方の面に前記キャップ接続部における第二の接続部材のフランジ部を取り付けたことを特徴とする電磁接触器。 - 前記パイプを通じて前記消弧室及び前記キャップ内にガスを導入し、導入したガス圧が所定圧となったときに、当該パイプの開口部を閉塞してガス封止状態としたことを特徴とする請求項1乃至3の何れか1項に記載の電磁接触器。
- 請求項1乃至請求項3の何れか1項に記載の電磁接触器のガス封止方法であって、前記パイプからガスを導入し、導入したガス圧が所定のガス圧力になった際に前記パイプの開口部を閉塞し、前記消弧室及び前記キャップ内にガスを封止したガス封止密封容器を形成したことを特徴とする電磁接触器のガス封止方法。
- 桶状の消弧室に貫通固定された固定端子及びパイプと、消弧室の開放端部に連結する第一の接続部材の筒部とを同時にろう付けして消弧室接続部を形成する工程と、
有底筒状のキャップの開放端に半径方向外方に延長するフランジ部を有するキャップ接続部を形成する工程と、
前記消弧室接続部及び前記キャップ接続部を、開口穴を形成したベース板に、当該開口孔を介して連通するように、前記第一の接続部材のフランジ部と前記第二の接続部材のフランジ部とを前記ベース板に密着させて配置し、各フランジ部を前記ベース板に溶接する工程と
を備えたことを特徴とする電磁接触器の製造方法。 - 固定端子支持絶縁基板に貫通固定された固定端子及びパイプと、前記固定端子支持絶縁基板の外周縁部に連結し、他端に第三の接続部材を一体に形成した筒体部とを同時にろう付けして消弧室と消弧室接続部とを同時に形成する工程と、
有底筒状のキャップの開放端に半径方向外方に延長するフランジ部を有するキャップ接続部を形成する工程と、
前記消弧室接続部及び前記キャップ接続部を、開口孔を形成したベース板に、当該開口孔を介して連通するように、前記第三の接続部材のフランジ部と前記第二の接続部材のフランジ部とを前記ベース板に密着させて配置し、各フランジ部を前記ベース板に溶接する工程と
を備えたことを特徴とする電磁接触器の製造方法。
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JP2012243590A (ja) * | 2011-05-19 | 2012-12-10 | Fuji Electric Fa Components & Systems Co Ltd | 電磁接触器 |
JP5689741B2 (ja) * | 2011-05-19 | 2015-03-25 | 富士電機株式会社 | 電磁接触器 |
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2011
- 2011-05-19 JP JP2011112918A patent/JP5711044B2/ja active Active
- 2011-10-25 US US13/814,158 patent/US20130234813A1/en not_active Abandoned
- 2011-11-25 WO PCT/JP2011/006584 patent/WO2012073468A1/ja active Application Filing
- 2011-11-25 CN CN201180039176.2A patent/CN103069531B/zh not_active Expired - Fee Related
- 2011-11-25 KR KR1020137014244A patent/KR20130121861A/ko not_active Application Discontinuation
- 2011-11-25 EP EP11845794.4A patent/EP2648204B1/en not_active Not-in-force
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2013
- 2013-12-19 US US14/134,756 patent/US9378906B2/en not_active Expired - Fee Related
- 2013-12-19 US US14/134,703 patent/US8952772B2/en not_active Expired - Fee Related
- 2013-12-19 US US14/134,656 patent/US8803642B2/en not_active Expired - Fee Related
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2680290A1 (en) * | 2012-06-29 | 2014-01-01 | LSIS Co., Ltd. | Electronic switch |
US9147538B2 (en) | 2012-06-29 | 2015-09-29 | Lsis Co., Ltd. | Electronic switch |
Also Published As
Publication number | Publication date |
---|---|
EP2648204B1 (en) | 2017-02-22 |
CN103069531B (zh) | 2015-05-20 |
CN103069531A (zh) | 2013-04-24 |
KR20130121861A (ko) | 2013-11-06 |
EP2648204A1 (en) | 2013-10-09 |
US8803642B2 (en) | 2014-08-12 |
US20140104018A1 (en) | 2014-04-17 |
US8952772B2 (en) | 2015-02-10 |
US20140104019A1 (en) | 2014-04-17 |
JP2012134121A (ja) | 2012-07-12 |
JP5711044B2 (ja) | 2015-04-30 |
US20130234813A1 (en) | 2013-09-12 |
US9378906B2 (en) | 2016-06-28 |
US20140101937A1 (en) | 2014-04-17 |
EP2648204A4 (en) | 2014-11-26 |
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