EP2790204A1 - Magnetron und mikrowellengerät - Google Patents

Magnetron und mikrowellengerät Download PDF

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Publication number
EP2790204A1
EP2790204A1 EP12855050.6A EP12855050A EP2790204A1 EP 2790204 A1 EP2790204 A1 EP 2790204A1 EP 12855050 A EP12855050 A EP 12855050A EP 2790204 A1 EP2790204 A1 EP 2790204A1
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EP
European Patent Office
Prior art keywords
magnetic yoke
magnetron
waveguide unit
cut
wave output
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP12855050.6A
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English (en)
French (fr)
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EP2790204A4 (de
EP2790204B1 (de
Inventor
Takanori Handa
Nagisa Kuwahara
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Corp
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Panasonic Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Panasonic Corp filed Critical Panasonic Corp
Publication of EP2790204A1 publication Critical patent/EP2790204A1/de
Publication of EP2790204A4 publication Critical patent/EP2790204A4/de
Application granted granted Critical
Publication of EP2790204B1 publication Critical patent/EP2790204B1/de
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J23/00Details of transit-time tubes of the types covered by group H01J25/00
    • H01J23/12Vessels; Containers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J23/00Details of transit-time tubes of the types covered by group H01J25/00
    • H01J23/36Coupling devices having distributed capacitance and inductance, structurally associated with the tube, for introducing or removing wave energy
    • H01J23/40Coupling devices having distributed capacitance and inductance, structurally associated with the tube, for introducing or removing wave energy to or from the interaction circuit
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J25/00Transit-time tubes, e.g. klystrons, travelling-wave tubes, magnetrons
    • H01J25/50Magnetrons, i.e. tubes with a magnet system producing an H-field crossing the E-field
    • H01J25/52Magnetrons, i.e. tubes with a magnet system producing an H-field crossing the E-field with an electron space having a shape that does not prevent any electron from moving completely around the cathode or guide electrode
    • H01J25/58Magnetrons, i.e. tubes with a magnet system producing an H-field crossing the E-field with an electron space having a shape that does not prevent any electron from moving completely around the cathode or guide electrode having a number of resonators; having a composite resonator, e.g. a helix
    • H01J25/587Multi-cavity magnetrons

Definitions

  • the present invention relates to a magnetron that is suitable for use in microwave oscillation apparatus such as microwave-using apparatus.
  • Magnetrons are roughly divided into a vacuum tube part and an exterior part.
  • the vacuum tube part includes an anode cylinder whose inner wall surface is provided with a plurality of vanes extending radially, an input unit having a cathode structure disposed on the center axis of the anode cylinder, and a high-frequency wave output unit.
  • the exterior part is includes permanent magnets, magnetic yokes which constitute a magnetic circuit, and a cooling unit.
  • annular ribs 31 project from the inner surface of a first magnetic yoke 3 which is disposed on the high-frequency wave output side.
  • a positioning plate 4 whose outer diameter matches the inner diameter of the annular ribs 31 so that the positioning plate 4 is just fitted in the annular ribs 31 and whose inner diameter matches the outer diameter of the high-frequency wave output unit so that the positioning plate 4 is just fitted with a high-frequency wave output unit is sandwiched between the first magnetic yoke 3 and a permanent magnet 122.
  • the vacuum tube part and the exterior part are positioned with respect to and fixed to each other by the positioning plate 4 interposed in between by fitting the positioning plate 4 into the annular ribs 31 and with the high-frequency wave output unit 111.
  • a cooling unit has a spiral structure and the positioning plate has baffle plates 41 so as to obstruct a cooling wind flowing through ineffective air passages.
  • Patent Document 1 JP-A-S59-81834
  • the rib projection height has a limit and assembling is possible even in a state that the positioning plate 4 is not fitted in the annular ribs 31.
  • the positioning plate 4 has the baffle plates 41, directivity occurs at the time of assembling. As a result, assembling is complicated and a probability is high that the positioning plate 4 goes up onto the annular ribs 31.
  • the ribs which are formed on the yoke have only the function of positioning and fixing the vacuum tube part and the exterior part with respect to each other by the positioning plate 4 interposed in between; no consideration is given to positioning with respect to a waveguide unit of a microwave-using apparatus or the like.
  • the present invention has been made in the above circumstances, and an object of the present invention is to provide a magnetron high-frequency wave output unit can be positioned with respect to and fixed to its magnetic yoke and the waveguide unit of a microwave-using apparatus or the like reliably, without complicating its structure or assembling method.
  • the invention provides a magnetron including: an anode cylinder including a high-frequency wave output unit; permanent magnets disposed on two opposite sides of the anode cylinder, respectively; and a magnetic yoke which houses therein the anode cylinder and the permanent magnets, wherein a portion, on a high-frequency wave output side, of the magnetic yoke is formed with a plurality of cut and raised parts, and a metal plate which matches the high-frequency wave output unit and the cut and raised parts is sandwiched between one of the permanent magnet and the magnetic yoke, whereby the anode cylinder and the magnetic yoke are positioned with respect to and fixed to each other.
  • the high-frequency wave output unit of the magnetron can reliably be positioned with respect to and fixed to the magnetic yoke and a waveguide unit of a microwave-using apparatus or the like, without complicating its structure or assembling method.
  • a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with a cut and raised part which matches a hole formed by the cut and raised part in the magnetic yoke, and the cut and raised part of the waveguide unit is fitted in the hole of the magnetic yoke, whereby the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other.
  • a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with a projection which matches a hole formed by the cut and raised part in the magnetic yoke, and the projection of the waveguide unit is fitted in the hole of the magnetic yoke, whereby the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other.
  • a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with a hole which matches the cut and raised part of the magnetic yoke, and the cut and raised part of the magnetic yoke is fitted in the hole of the waveguide unit, whereby the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other.
  • the height of the cut and raised parts can be set freely and hence deviation of the positioning metal plate can be suppressed.
  • the positioning metal plate need not have directivity and is given a simple structure, which facilitates assembling.
  • the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other because of the structure that the cut and raised parts formed in the magnetic yoke are fitted in the respective holes formed in the waveguide unit or the cut and raised parts or the projections formed in the waveguide unit of the microwave-using apparatus are fitted in the respective holes formed by the cut and raised parts in the magnetic yoke.
  • the high-frequency output unit and the waveguide unit are positioned with respect to and fixed to each other, whereby discharge between the high-frequency output unit and the waveguide unit can be suppressed.
  • the invention also provides a magnetron including: an anode cylinder including a high-frequency wave output unit; permanent magnets disposed on two opposite sides of the anode cylinder, respectively; and a magnetic yoke which houses therein the anode cylinder and the permanent magnets, wherein a portion, on a high-frequency wave output side, of the magnetic yoke is formed with a plurality of holes, a metal plate which matches the high-frequency wave output unit and the holes is sandwiched between one of the permanent magnet and the magnetic yoke, and positioning rods are inserted in the respective holes, whereby the anode cylinder and the magnetic yoke are positioned with respect to and fixed to each other.
  • a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with holes which match the respective holes of the magnetic yoke, and the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other by the positioning rods.
  • the positioning rods can be set freely and hence deviation between the positioning metal plate and the magnetic yoke can be suppressed.
  • the positioning metal plate need not have directivity and is given a simple structure, which facilitates assembling.
  • the metal plate, the magnetic yoke, and the waveguide unit are positioned with respect to and fixed to each other by the positioning rods.
  • the high-frequency output unit and the waveguide unit are positioned with respect to and fixed to each other, whereby discharge between the high-frequency output unit and the waveguide unit can be suppressed.
  • the microwave-using apparatus By applying the above-described magnetron to a microwave-using apparatus, the microwave-using apparatus with can be more stable and enhanced in performance.
  • the magnetron and the microwave-using apparatus according to the invention make it possible to reliably positioning and fixing the high-frequency wave output unit of the magnetron with respect to and to a magnetic yoke of the magnetron and the waveguide unit of a microwave-using apparatus or the like, without complicating their structures or assembling methods.
  • a first invention provides a magnetron including: an anode cylinder including a high-frequency wave output unit; permanent magnets disposed on two opposite sides of the anode cylinder, respectively; and a magnetic yoke which houses therein the anode cylinder and the permanent magnets, wherein a portion, on a high-frequency wave output side, of the magnetic yoke is formed with a plurality of cut and raised parts, and a metal plate which matches the high-frequency wave output unit and the cut and raised parts is sandwiched between one of the permanent magnet and the magnetic yoke, whereby the anode cylinder and the magnetic yoke are positioned with respect to and fixed to each other.
  • the high-frequency wave output unit of the magnetron can reliably be positioned with respect to and fixed to the magnetic yoke and a waveguide unit of a microwave-using apparatus, without complicating its structure or assembling method, and the assembling can be facilitated by the simplified structure.
  • a second invention provides the magnetron of the first invention, particularly, wherein a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with a cut and raised part which matches a hole formed by the cut and raised part in the magnetic yoke, and the cut and raised part of the waveguide unit is fitted in the hole of the magnetic yoke, whereby the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other.
  • a third invention provides the magnetron of the first invention, particularly, wherein a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with a projection which matches a hole formed by the cut and raised part in the magnetic yoke, and the projection of the waveguide unit is fitted in the hole of the magnetic yoke, whereby the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other.
  • a fourth invention provides the magnetron of the first invention, particularly, wherein a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with a hole which matches the cut and raised part of the magnetic yoke, and the cut and raised part of the magnetic yoke is fitted in the hole of the waveguide unit, whereby the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other.
  • a fifth invention provides a magnetron including: an anode cylinder including a high-frequency wave output unit; permanent magnets disposed on two opposite sides of the anode cylinder, respectively; and a magnetic yoke which houses therein the anode cylinder and the permanent magnets, wherein a portion, on a high-frequency wave output side, of the magnetic yoke is formed with a plurality of holes, a metal plate which matches the high-frequency wave output unit and the holes is sandwiched between one of the permanent magnet and the magnetic yoke, and positioning rods are inserted in the respective holes, whereby the anode cylinder and the magnetic yoke are positioned with respect to and fixed to each other.
  • the high-frequency wave output unit of the magnetron can reliably be positioned with respect to and fixed to the magnetic yoke and a waveguide unit of a microwave-using apparatus, without complicating its structure or assembling method, and the assembling can be facilitated by the simplified structure.
  • a sixth invention provides the magnetron of the fifth invention, particularly, wherein a waveguide unit, to which the magnetron is attached, of a microwave-using apparatus is formed with holes which match the respective holes of the magnetic yoke, and the magnetic yoke and the waveguide unit are positioned with respect to and fixed to each other by the positioning rods.
  • a seventh invention provides a microwave-using apparatus including the magnetron according to any one of the first to sixth inventions, which can be more stable and enhanced in performance
  • Fig. 1 is a front view of a magnetron according to a first embodiment of the invention.
  • Fig. 2 is a perspective view of a magnetic yoke and a metal plate of the magnetron according to the first embodiment of the invention.
  • the magnetron 1 includes a vacuum tube part 11 and an exterior part 12.
  • the vacuum tube part 11 includes an anode cylinder 112, an input unit (not shown), and a high-frequency wave output unit 111.
  • the exterior part includes permanent magnets 122, magnetic yokes 121 which constitute a magnetic circuit, a cooling unit 123 including a plurality of cooling fins, and a filter unit 124 for supplying power to the input unit.
  • the magnetic yokes 121 includes a first magnetic yoke 1211 disposed on the high-frequency wave output side and a second magnetic yoke 1212 disposed on the filter side which are connected to each other by caulking.
  • a metal plate 125 is as thick as about 30% of the magnetic yokes 121, and is sandwiched between the permanent magnet 122 and the first magnetic yoke 1211.
  • a gasket 126 is held and leakage of radio waves to be are output from the high-frequency wave output unit 111 is prevented.
  • the first magnetic yoke 1211 is formed with four cut and raised parts 1213 having a height that is about three times the thickness of the magnetic yokes 121 at ineffective air passage portions of a cooling wind so as to project toward the inside of the magnetic yokes and to be arranged radially and symmetrically so as to have no directivity.
  • the cut and raised parts 1213 are formed so as to just fit with the metal plate 125 whose outer diameter is approximately equal to the diameter of the circle that inscribes their end faces.
  • the metal plate 125 is formed in such a manner that its inner diameter of the is approximately equal to the outer diameter of the high-frequency wave output unit 111 of the vacuum tube part 11 so that the metal plate 125 just fits with the high-frequency wave output unit 111.
  • the vacuum tube part 11 is positioned with respect to the first magnetic yoke 1211 with the metal plate 125 interposed in between because an inside portion (in the radial direction) of the metal plate 125 is fitted with the high-frequency wave output unit 111 and an outside portion (in the radial direction) of the metal plate 125 is fitted in the circle that inscribes the end faces of the cut and raised parts 1213 of the first magnetic yoke 1211.
  • the first magnetic yoke 1211 has holes 1214 as a result of the formation of the respective cut and raised parts 1213.
  • Fig. 3 is a partially sectional view of a magnetron with a waveguide unit according to the first embodiment of the invention.
  • a portion, to which the magnetron 1 is to be attached, of a waveguide unit 2 is formed with four cut and raised parts 21 having a height that is about two times the thickness of the magnetic yokes 121 at such positions as to fit into the respective holes 1214 formed by the cut and raised parts 1213 of the first magnetic yoke 1211 so as to project toward the outside of the waveguide unit 2.
  • the cut and raised parts 21 of the waveguide unit 2 are partially fitted in the respective holes 1214 formed by the cut and raised parts 1213 of the first magnetic yoke 1211.
  • the magnetron 1 and the waveguide unit 2 are positioned with respect to each other and the first magnetic yoke 1211 and the waveguide unit 2 are fixed to each other with screws.
  • the metal plate 125 has no directivity and enables simple assembling. Since the height of the cut and raised parts 1213 is sufficiently greater than the thickness of the metal plate 125, the metal plate 125 never goes up onto the cut and raised parts 1213.
  • the vacuum tube part 11 of the magnetron 1 is positioned with respect to the first magnetic yoke 1211 with the metal plate 125 interposed in between, positional variations of members involved can be reduced at the time of assembling and deviations can be suppressed when the magnetron 1 is subjected to vibration or impact.
  • the magnetron 1 is positioned with respect to and fixed to the waveguide unit 2, deviations of the high-frequency wave output unit 111 with respect to the waveguide unit 2 can be suppressed to a large extent, whereby the occurrence of discharge between the high-frequency wave output unit 111 and the waveguide unit 2 can be suppressed and radio waves can be guided reliably.
  • cut and raised parts 1213 are formed at ineffective air passage portions of a cooling wind, they also serve as baffle plates, making it possible to apply a cooling wind to the cooling fins efficiently.
  • an even number of cut and raised parts be arranged symmetrically so as not to have directivity.
  • the number, size, positions, shape, directions, and angle of the cut and raised parts are not restricted at all as long as they enable positioning with respect to the metal plate and the waveguide unit.
  • the cut and raised parts for positioning of the metal plate and those for positioning of the waveguide unit may be formed separately.
  • the metal plate may have any structure as long as it can be positioned with respect to the yokes.
  • Fig. 4 is a perspective view of a magnetic yoke of a magnetron according to a second embodiment of the invention.
  • Fig. 5 is a partially sectional view of a magnetron with a waveguide unit according to the same embodiment.
  • a first magnetic yoke 1215 is formed with four first cut and raised parts 1216 having a height that is about three times the thickness of the magnetic yokes at ineffective air passage portions of a cooling wind so as to project toward the inside of the magnetic yokes and to be arranged radially and symmetrically so as to have no directivity.
  • the first cut and raised parts 1216 are formed so as to just fit with the metal plate 125 whose outer diameter is approximately equal to the diameter of the circle that inscribes their end faces.
  • the first magnetic yoke 1215 is formed with two second cut and raised parts 1217 having a height that is about two times the thickness of the magnetic yokes so as to project toward the outside of the magnetic yokes and to be arranged radially and symmetrically so as to have no directivity.
  • the first magnetic yoke 1215 has holes 1214 as a result of the formation of the respective first cut and raised parts 1216.
  • the magnetron is configured in the same manner as in the first embodiment except for the first magnetic yoke 1215.
  • the vacuum tube part 11 is positioned with respect to the first magnetic yoke 1215 with the metal plate 125 interposed in between because an inside portion (in the radial direction) of the metal plate 125 is fitted with the high-frequency wave output unit 111 and an outside portion (in the radial direction) of the metal plate 125 is fitted in the circle that inscribes the end faces of the cut and raised parts 1215 of the first magnetic yoke 1215.
  • a portion, to which the magnetron 1 is to be attached, of the waveguide unit 2 is formed with first holes 23 at such positions as to be fitted with the respective second cut and raised parts 1217 of the first magnetic yoke 1215.
  • the portion, to which the magnetron 1 is to be attached, of the waveguide unit 2 is formed with second holes 24 at the same positions as the respective holes 1214 formed by the first cut and raised parts 1216 of the first magnetic yoke 1215.
  • the second cut and raised parts 1217 of the first magnetic yoke 1215 are partially fitted in the respective first holes 23 of the waveguide unit 2.
  • the magnetron 1 and the waveguide unit 2 are positioned with respect to each other and the first magnetic yoke 1215 and the waveguide unit 2 are fixed to each other with screws.
  • the metal plate 125 has no directivity and enables simple assembling.
  • the metal plate 125 Since the height of the first cut and raised parts 1216 is sufficiently greater than the thickness of the metal plate 125, the metal plate 125 never goes up onto the first cut and raised parts 1216.
  • the vacuum tube part 11 of the magnetron 1 is positioned with respect to the first magnetic yoke 1215 with the metal plate 125 interposed in between, positional variations of members involved can be reduced at the time of assembling and deviations can be suppressed when the magnetron 1 is subjected to vibration or impact.
  • the magnetron 1 is positioned with respect to and fixed to the waveguide unit 2, deviations of the high-frequency wave output unit 111 with respect to the waveguide unit 2 can be suppressed to a large extent, whereby the occurrence of discharge between the high-frequency wave output unit 111 and the waveguide unit 2 can be suppressed and radio waves can be guided reliably.
  • first cut and raised parts 1216 are formed at ineffective air passage portions of a cooling wind, they also serve as baffle plates, making it possible to apply a cooling wind to the cooling fins efficiently.
  • an even number of cut and raised parts be arranged symmetrically so as not to have directivity.
  • the number, size, positions, shape, directions, and angle of the cut and raised parts are not restricted at all as long as they enable positioning with respect to the metal plate and the waveguide unit.
  • the metal plate may have such a simple structure as not to have directivity, it may have any structure as long as it can be positioned with respect to the yokes.
  • the waveguide unit 2 be formed with holes other than those for the relative positioning.
  • the number, positions, and shape of the holes are not restricted at all as long as they make it possible to position the waveguide unit with respect to the magnetron.
  • Fig. 6 is a front view of a magnetron according to a third embodiment of the invention.
  • Fig. 7 is a perspective view of a rod of the magnetron according to the third embodiment of the invention.
  • a first magnetic yoke 1218 is formed with four holes 1219 approximately on the outer circumference of the metal plate 125 at ineffective air passage portions of a cooling wind so as to be arranged radially and symmetrically so as to have no directivity.
  • Rods 127 are inserted through the four respective holes 1219 of the first magnetic yoke 1218 so as to project by approximately the same length inward and outward.
  • each rod 127 has a semicylindrical shape and has a length that is about five times the thickness of the magnetic yokes.
  • the rods 127 are press-fitted in the respective holes 1219 of the first magnetic yoke 1218.
  • the rods 127 are made of aluminum.
  • the metal plate 125 is fitted in the circle that inscribes the circular arcs of the four rods 127, and is thereby positioned with respect to the first magnetic yoke 1218.
  • the magnetron is configured in the same manner as in the first embodiment except for the first magnetic yoke 1218 and the rods 127.
  • the vacuum tube part 11 is positioned with respect to the first magnetic yoke 1218 with the metal plate 125 interposed in between because an inside portion (in the radial direction) of the metal plate 125 is fitted with the high-frequency wave output unit 111 and an outside portion (in the radial direction) of the metal plate 125 is fitted in the circle that inscribes the circular arcs of the rods 127 which are press-fitted in the first magnetic yoke 1218.
  • Fig. 8 is a partially sectional view of a magnetron with a waveguide unit according to the third embodiment of the invention.
  • a portion, to which the magnetron 1 is to be attached, of the waveguide unit 2 is formed with holes 25 at such positions as to fit with the respective rods 127 which are press-fitted in the first magnetic yoke 1218.
  • the rods 127 are fitted in the respective holes 25 of the waveguide unit 2.
  • the magnetron 1 and the waveguide unit 2 are positioned with respect to each other and the first magnetic yoke 1215 and the waveguide unit 2 are fixed to each other with screws.
  • the metal plate 125 has no directivity and enables simple assembling. Since the height of the rods 127 is sufficiently greater than the thickness of the metal plate 125, the metal plate 125 never goes up onto the rods 127.
  • the rods 127 are not magnetic, the magnetic loss can be suppressed. Since the vacuum tube part 11 of the magnetron 1 is positioned with respect to the first magnetic yoke 1218 via the metal plate 125 and the rods 127, positional variations of members involved can be reduced at the time of assembling and deviations can be suppressed when the magnetron 1 is subjected to vibration or impact.
  • the magnetron 1 is positioned with respect to and fixed to the waveguide unit 2, deviations of the high-frequency wave output unit 111 with respect to the waveguide unit 2 can be suppressed to a large extent, whereby the occurrence of discharge between the high-frequency wave output unit 111 and the waveguide unit 2 can be suppressed and radio waves can be guided reliably.
  • rods 127 project at ineffective air passage portions of a cooling wind, they also serve as baffle plates, making it possible to apply a cooling wind to the cooling fins efficiently.
  • the rods 127 have a semicylindrical shape, after hitting the rods 127 parts of a cooling wind flow through the holes defined by the holes 1219 and the rods 127 and flow into the waveguide unit through holes defined by the holes 25 of the waveguide unit 2 and the rods 127, to produce a convectional air flow in the waveguide unit. It is therefore expected that the occurrence of discharge between the high-frequency wave output unit 111 and the waveguide unit 2 can be suppressed further.
  • rods be arranged symmetrically so as not to have directivity.
  • the number, size, positions, shape, and directions of the rods are not restricted at all as long as they enable positioning with respect to the metal plate and the waveguide unit.
  • the rods 127 need not be press-fitted as long as they enable positioning with respect to the metal plate and the waveguide unit.
  • the metal plate may have such a simple structure as not to have directivity, it may have any structure as long as it can be positioned with respect to the yokes.
  • the rods be made of a non-magnetic material.
  • the rods may be made of any material as long as they enable positioning with respect to the metal plate and the waveguide unit.
  • the magnetron and the microwave-using apparatus according to the invention make it possible to reliably positioning and fixing the high-frequency wave output unit of the magnetron with respect to and to a magnetic yoke of the magnetron and the waveguide unit of a microwave-using apparatus or the like, to suppress discharge between the high-frequency wave output unit and the waveguide unit, to guide radio waves reliably, without complicating their structures or assembling methods.
  • they can be applied to or used as microwave-using apparatus such as microwave ovens.

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  • Microwave Tubes (AREA)
EP12855050.6A 2011-12-06 2012-12-06 Magnetron und mikrowellengerät Active EP2790204B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2011266565A JP6171162B2 (ja) 2011-12-06 2011-12-06 マイクロ波利用機器
PCT/JP2012/007827 WO2013084497A1 (ja) 2011-12-06 2012-12-06 マグネトロンおよびマイクロ波利用機器

Publications (3)

Publication Number Publication Date
EP2790204A1 true EP2790204A1 (de) 2014-10-15
EP2790204A4 EP2790204A4 (de) 2015-04-15
EP2790204B1 EP2790204B1 (de) 2021-02-03

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Application Number Title Priority Date Filing Date
EP12855050.6A Active EP2790204B1 (de) 2011-12-06 2012-12-06 Magnetron und mikrowellengerät

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EP (1) EP2790204B1 (de)
JP (1) JP6171162B2 (de)
CN (1) CN103975412B (de)
WO (1) WO2013084497A1 (de)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106252182A (zh) * 2016-09-14 2016-12-21 南京三乐微波技术发展有限公司 一种连续波磁控管波导激励装置

Citations (3)

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Publication number Priority date Publication date Assignee Title
US4074169A (en) * 1975-09-19 1978-02-14 Hitachi, Ltd. Magnetron with harmonic frequency output suppression
JPS5981834A (ja) * 1982-11-01 1984-05-11 Hitachi Ltd マグネトロン
EP0327116A1 (de) * 1988-02-03 1989-08-09 Sanyo Electric Co., Ltd. Magnetron

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Publication number Priority date Publication date Assignee Title
JPS5192037U (de) * 1975-01-23 1976-07-23
JPS539463A (en) * 1976-07-14 1978-01-27 Matsushita Electronics Corp Magnetron unit
JPS5755724Y2 (de) * 1977-11-24 1982-12-01
JPS58178264U (ja) * 1982-05-25 1983-11-29 株式会社東芝 マグネトロン
JPS6321725A (ja) * 1986-07-16 1988-01-29 Matsushita Electric Ind Co Ltd マグネトロン
JP2002033056A (ja) * 2000-07-14 2002-01-31 Toshiba Corp パルスマグネトロン装置およびその製造方法
JP2003100225A (ja) * 2001-09-25 2003-04-04 Sanyo Electric Co Ltd マグネトロン
KR100857601B1 (ko) * 2007-04-03 2008-09-09 삼성전자주식회사 마그네트론 및 이에 구비되는 전자기파 누설방지 가스켓
CN102334174B (zh) * 2009-02-27 2014-04-30 松下电器产业株式会社 磁控管及微波利用装置

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4074169A (en) * 1975-09-19 1978-02-14 Hitachi, Ltd. Magnetron with harmonic frequency output suppression
JPS5981834A (ja) * 1982-11-01 1984-05-11 Hitachi Ltd マグネトロン
EP0327116A1 (de) * 1988-02-03 1989-08-09 Sanyo Electric Co., Ltd. Magnetron

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See also references of WO2013084497A1 *

Also Published As

Publication number Publication date
JP6171162B2 (ja) 2017-08-02
JP2013120628A (ja) 2013-06-17
WO2013084497A1 (ja) 2013-06-13
CN103975412A (zh) 2014-08-06
EP2790204A4 (de) 2015-04-15
EP2790204B1 (de) 2021-02-03
CN103975412B (zh) 2017-05-31

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