EP3031067A1

EP3031067A1 - Magnetic field generation apparatus for a magnetron tube, magnetron and method for replacing an old magnetron tube of a magnetron with a new magnetron tube

Info

Publication number: EP3031067A1
Application number: EP14755994.2A
Authority: EP
Inventors: Markus REICHMANN; Klaus J. MUEGGE
Original assignee: Muegge GmbH
Current assignee: Muegge GmbH
Priority date: 2013-08-09
Filing date: 2014-08-08
Publication date: 2016-06-15
Also published as: CN105706211B; WO2015018925A1; DE102013108667B4; US9595414B2; CN105706211A; US20160163493A1; DE102013108667A1

Abstract

The invention relates to a magnetic field generation apparatus (2) for a magnetron (1) comprising a permanent magnet arrangement (4) and a magnetic field conductor device (6). The magnetic field conducting device (6) has a diverting element. The diverting element, which consists of a plurality of rectangular diverting segments, is arranged detachably on the magnetic field generation apparatus (2) during maintenance work in order to deflect a magnetic field generated by the permanent magnet arrangement (4) away from further components of the magnetic field generation apparatus (2) and components of the magnetron (1). The invention also relates to a magnetron (1) comprising a magnetron tube (3) and comprising a magnetic field generation apparatus (2). The magnetic field generation apparatus (2) is configured as described above. The invention additionally relates to a method for replacing an old magnetron tube (3) of a magnetron (1) as described above with a new magnetron tube (3). In a first step, the diverting element is arranged on the magnetic field generation apparatus (2). In a subsequent step, the old magnetron tube (3) is removed from the magnetron (1) and replaced with the new magnetron tube (3) in order to then remove the diverting element again.

Description

Magnetic field generating device for a magnetron tube, magnetron and method for replacing an old one

Magnetron tube of a magnetron against a new one

magnetron

The invention relates to a magnetic field generating device for a magnetron tube with a permanent magnet arrangement and a magnetic field conducting device. The invention further relates to a magnetron with a magnetron tube and with a magnetic field generating device. The invention also relates to a method for replacing an old magnetron tube of a magnetron with a new magnetron tube.

Magnetrons are used to generate electromagnetic

Radiation with frequencies in the microwave range. Magnetrons are used, for example, as microwave generators in radar technology and in microwave ovens. The essential components of magnetrons are the

Magnetic field generating device and the magnetron tube. The magnetron tube is a vacuum tube having an anode and a cathode arranged coaxially with the anode, wherein a technical vacuum is formed in a space between the anode and the cathode. The magnetic field generating device generates in the

evacuated area with respect to the cathode and the anode substantially axially aligned magnetic field. For generating the magnetic field, permanent magnets or

Electromagnets are used. The provision of the required magnetic field

Permanent magnets has several advantages. Usually, the installation space for the magnetron in the use of

Permanent magnets instead of electromagnets reduced. In addition, a power electronics for the supply of

Electromagnet not required. By using permanent magnets, a static,

vibration-free magnetic field are provided, whereby a particularly low-interference electromagnetic

Microwave field can be generated. For cost reasons, magnetrons with permanent magnets so far

Usually used only with magnetrons with a lower power of up to 10 kW. With magnetrons with magnetron tubes of higher power, the magnetron tubes are refurbished and, for example, consumed

Hot cathodes exchanged for new hot cathodes and fed the refurbished magnetron tubes so a further use.

For disassembly of the magnetron tube from the

Magnetron tube surrounding magnetic field generating device, it is usually required, the magnetic field

to turn off to remove the magnetic components having magnetron tube can. In practice, therefore, are at powerful magnetrons with large

Magnetic field strengths used exclusively electromagnets, since permanent magnets provide a permanent magnetic field

Make available and can not be switched off.

It is therefore considered an object of the invention to provide a magnetic field generating apparatus for a magnetron, a magnetron and a method for replacing old ones Magnetron tubes to provide new magnetron tubes of a magnetron, in which the replacement of the

Magnetron tubes even when using permanent magnets to generate the required magnetic field is possible.

This object is achieved in that the magnetic field guiding device has a derivative element, wherein the discharge element is arranged during maintenance work detachably to the magnetic field generating device to derive a magnetic field generated by the permanent magnet array such that the magnetron tube from the

Magnetron can be removed. Appropriately, by the derivative element of the

Magnetic field generated magnetic field also deflected by other components of the magnetic field generating device or components of the magnetron.

Normally, the magnetic field conductor device has one or more iron yokes in order to generate the magnetic field generated by permanent magnets of the permanent magnet arrangement

Substantially in the axial direction of the magnetron tube in the vacuum space of the magnetron bring. The

Deriving element is magnetically conductive and causes a derivative of the permanent magnet arrangement

provided magnetic field from the magnetron tube and the or the iron yokes, so that the iron yokes and the magnetron tube can be easily disassembled.

In a particularly advantageous embodiment of the

Magnetic field generating device according to the invention is provided that the permanent magnet arrangement a plurality of circularly arranged and axially parallel to each other

having aligned bar magnet and that the Deriving element is cylindrical and is arranged around the circularly arranged bar magnet around. The magnetron of the magnetron according to the invention can be arranged coaxially with the permanent magnet arrangement, so that the magnetron tube is surrounded in a ring shape by the bar magnet. With the help of a suitably designed

Magnetic field conductor means is provided by the bar magnet magnetic field so in the center of the

Permanent magnet array arranged magnetron tube passed that the magnetic field passes through the vacuumed portion of the magnetron tube substantially in the axial direction of the magnetron tube. In this way, the

According to the invention, the magnetron tube can be dismantled simply by disposing optionally further components of the magnetic field conducting device and the magnetron tube from the inner region of the permanent magnet arrangement after the discharge element has been arranged around the bar magnets. In addition, particularly strong magnetic fields can be provided in this way.

Advantageously, it is provided according to the invention that the discharge element consists of a plurality of circularly arranged and square-plate-shaped discharge segments. The use of multiple derivative segments

instead of, for example, a cylindrical discharge element and the arrangement of the several

Derivative segments such that, for example

approximately a cylindrical diverting element is formed by the diverting segments, allows one

particularly easy handling and allows one

cost-effective production of the derivation element. According to the invention, it is advantageously provided that the permanent magnet arrangement consists of 42 cylindrical rod magnets arranged in a circle and aligned parallel to one another and the discharge element consists of twelve discharge segments which can be arranged cylindrically around the permanent magnet arrangement.

To ensure adequate magnetic conductivity of the

To achieve derivation element is according to the invention

provided that the discharge element is made of a high permeability material. For the preparation of the derivative element can according to the invention

advantageously iron be used.

The bar magnets are advantageously made of samarium cobalt.

The task is also met by a magnetron with a magnetron tube and with a

Magnetic field generating device solved, wherein the magnetron is characterized in that the

Magnetic field generating device as above

is designed described.

Advantageously, the invention provides that the permanent magnet arrangement is arranged coaxially with the magnetron tube. Advantageously, permanent magnets of the permanent magnet arrangement are annular around the

Magnetron tube arranged around.

To simply disassemble the magnetron tube too

allow, is provided according to the invention that the Magnetic field conductor device a first yoke element

having, wherein the first yoke element a

Fastening device for fastening the

Deriving element has. The first yoke element according to the invention is also used for that of the

Magnetic field generating device provided magnetic field substantially in the axial direction through the

evacuated area of the magnetron tube. Due to the fact that on the first yoke element also the

Fastening device is formed, the magnetron can be made particularly simple and inexpensive. According to the invention, the fastening device may be formed in the first yoke element and on a first yoke element

Cross-section of the derivation element adapted recess act, in which the derivative element can be arranged in sections.

Advantageously, the first yoke element is designed annular, wherein in a central region of the

ring-shaped first yoke element the

Magnetron tube is arranged in sections. On the first yoke element are advantageously also the

Bar magnet of the permanent magnet assembly also

arranged in a ring. Via the first yoke element, the magnetic field passing through the magnetron tube is guided into the bar magnets or guided into the magnetron tube by the bar magnet via the first yoke element.

According to the invention, it is advantageously provided that the magnetic field conducting device has a second yoke element, wherein the magnetron tube is attached to the second yoke element

is fixed. The second yoke element is advantageously arranged at a distance from the first yoke element and according to the invention lies in sections on a surface of the bar magnet opposite the first yoke element against the bar magnet. The second yoke element advantageously has a recess adapted to the magnetron tube in a middle region, so that the magnetron tube can be arranged in sections in the recess and bears against the second yoke element on one edge of the recess. Due to the arrangement of the magnetron tube in the recess of the first yoke element and the

Recess of the second yoke element, the magnetron tube can be easily and securely fixed to the magnetron.

The first yoke element and the second yoke element are advantageously made of iron. In order to disassemble the magnetron tube from the magnetron, the invention provides for the second yoke element to be removed after the dissipation element has been arranged on the magnetic field generating device, so that the magnetron tube can be easily removed from the recess of the first yoke element. For this purpose, the second yoke element

advantageously designed in two parts to a

easier disassembly of the second yoke element

enable .

The above object is also achieved by a method of replacing an old magnetron tube of a magnetron as described above with a new magnetron tube, the method thereby

is characterized in that in a first step the

Deriving element is arranged on the magnetic field generating device, in a second step Fastening means for attaching the magnetron tube to mounting components of the magnetron be solved, in a third step, the old magnetron tube of the

Magnetron removed and replaced by the new magnetron tube, in a fourth step, the new

Magnetron tube with the fastener to the

Fixing components is determined and in a fifth step, the discharge element is removed. The fastening means is advantageously the second yoke element. According to the invention, the fastening components can be holding devices on which the second yoke element can be arranged with the aid of screws or the like. Further advantageous embodiments of the invention will be described with reference to the drawing

Embodiments explained in more detail.

It shows:

Fig. 1 is a schematically illustrated sectional view of a magnetron with a magnetron tube around a cylindrical cylindrical bar magnet, Fig. 2a is a schematically illustrated view of the magnetron shown in Fig. 1 with the order

2b shows a diagrammatically illustrated view of the magnetron without derivation element shown in FIG. 2a, FIG. 2b shows a diagrammatically illustrated view of the derivation segment of a discharge element and with the housing removed; 3 shows a schematically illustrated sectional view of the magnetron shown in FIG. 2a,

4 shows a schematically illustrated full section of the magnetron shown in FIGS. 2 a and 3.

Fig. 1 shows schematically a sectional view of a

Magnetron 1 with a magnetic field generating device 2 and a magnetron tube 3 only indicated by outer contours.

The magnetic field generating device 2 has a

Permanent magnet arrangement 4 with a plurality of axially aligned, circularly arranged, cylindrical bar magnet 5 on. The bar magnets 5 are arranged annularly around the magnetron tube 3.

The magnetic field generating device 2 also has a magnetic field conducting device 6 with a first yoke element 7 and a two-part second yoke element 8.

At the first yoke element 7, the bar magnets 5 are arranged. The first yoke element 7 also has a

Recess 9, in which the magnetron tube. 3

is arranged in sections. In addition, a fastening device 10 for receiving a discharge element, not shown, is formed on the first yoke element 7. The fastening device 10 is adapted to a cross section of the discharge element.

The second yoke element 8 is fastened with screws 11 to a fastening component 12 of the magnetron 1. The Magnetron tube 3 is arranged in sections in a recess 13 of the second yoke element 8 and abuts against the second yoke element 8. The magnetic field guiding device 6 and the

Permanent magnet arrangement 4 of the magnetron 1 are arranged within a housing 14. The magnetron tube 3 protrudes into a rectangular waveguide 15 into which the electromagnetic waves generated by the magnetron tube 3 are coupled.

FIG. 2 a shows a schematically represented view of the magnetron 1 shown in FIG. 1, wherein the housing 14 has been removed from the magnetron 1. In addition, in this illustration, a derivative element 16 in the form of rectangular derivation segments 17 in the

Fastening device 10 of the first yoke element 7 arranged to the second yoke element 8 and the

Magnetron tube 3 to remove from the magnetron 1 can. In this way, that of the bar magnet 5

provided magnetic field of the second yoke element 8 and the magnetron tube 3 deflected. By way of example, only individual derivative segments 17 are identified by a reference symbol in the illustration.

The magnetron tube 3 can be simply replaced by the fact that after the dissipation element 16 has been arranged in the fastening device 10, the screws 11 are released and the second yoke element 8 is removed from the magnetic field conducting device 6. Thereupon, the magnetron tube 3 can be easily removed from the recess 9 of the first yoke element 7 pulled out and against a new magnetron tube

be replaced.

FIG. 2 b schematically shows the magnetron 1 shown in FIG. 2 a with the housing 14 removed and without

Deriving element 16 shown. The

Fixing component 12 has a support part 18 on which the second yoke element 8 abuts and with which the second yoke element 8 is screwed. In addition, the

Mounting component 12 support members 19 which are fixed to the first yoke element 7 and with which the support member 18 is screwed. In this illustration, merely by way of example individual bar magnets 5 are identified by a reference numeral.

FIG. 3 schematically shows a sectional view of the magnetron 1 shown in FIG. 2 a, and FIG. 4 shows a schematically illustrated full section of the magnetron 1 shown in FIG

Magnetron 1. In Fig. 4, the magnetron 1 is shown also cut below the second yoke element 8, so that in Fig. 4, only one of the waveguide 15 adjacent part of the magnetic field generating device 2 and the

Magnetron tube 3 is visible.

Claims

P a t e n t a n s p r e c h e 1. Magnetic field generating device (2) for a

Magnetron tube (3) with a permanent magnet arrangement (4) and a magnetic field conducting device (6), characterized

characterized in that the magnetic field conducting device (6) has a discharge element (16), wherein the

Deriving element (16) during maintenance work detachably to the magnetic field generating device (2) is arranged to derive a magnetic field generated by the permanent magnet assembly (4) in such a way that the magnetron tube from the

Magnetron can be removed.

2. Magnetic field generating device (2) according to claim 1, characterized in that the permanent magnet arrangement (4) has a plurality of circularly arranged and axis-parallel aligned bar magnet (5) and that the discharge element (16) is cylindrical and around the circularly arranged bar magnet (5) is arranged around.

3. magnetic field generating device (2) according to claim 2, characterized in that the bar magnets are made of samarium cobalt.

4. magnetic field generating device (2) according to one of the preceding claims, characterized in that the discharge element (16) of a plurality of circular

arranged and rectangular plate-shaped

Deriving segments (17) exists.

5. magnetic field generating device (2) according to one of the preceding claims, characterized in that the discharge element (16) made of a material having a high

Permeability is produced.

6. magnetron (1) with a magnetron tube (3) and with a magnetic field generating device (2), characterized

in that the magnetic field generating device (2) is designed according to one of claims 1 to 5.

7. A magnetron (1) according to claim 6, characterized in that the permanent magnet arrangement (4) coaxial with the

Magnetron tube (3) is arranged.

8. magnetron (1) according to claim 6 or claim 7, characterized in that the magnetic field conducting device (6) comprises a first yoke element (7), wherein the first

Yoke element (7) a fastening device (10) for

Attachment of the discharge element (16).

9. magnetron (1) according to one of claims 6 to 8, characterized in that the magnetic field guiding device (6) comprises a second yoke element (8), wherein the magnetron tube (3) is fixed to the second yoke element (8).

10. A method for replacing an old magnetron tube (3) of a magnetron (1) according to one of claims 6 to 9 against a new magnetron tube (3), wherein in a first step, the derivative element (16) on the

Magnetic field generating device (2) is arranged, in a second step fastening means for fastening the magnetron tube (3) are released on the mounting components (12) of the magnetron (1), in a third step the old magnetron tube (3) is removed from the magnetron (1) and replaced by the new magnetron tube (3) in a fourth step the new magnetron tube (3) with the

Fixing means is fixed to the fastening components (12) and in a fifth step the

Deriving element (16) is removed.

11. The method according to claim 10, wherein the arrangement of the discharge element (16) on the

Magnetic field generating device (2) rectangular

Discharge segments (17) in the fastening device (10) of the first yoke element (7) are arranged.