KR100783409B1 - magnetron - Google Patents

Abstract

The present invention relates to a magnetron, comprising: a yoke having a predetermined internal space formed by a combination of an upper yoke and a lower yoke; An upper magnet and a lower magnet accommodated in the inner space and fixed to the inner plate surfaces of the upper yoke and the lower yoke, respectively, in a width direction of the yoke; An anode cylinder disposed in a space between the upper magnet and the lower magnet and generating high frequency energy; An upper pole piece and a lower pole piece having a funnel shape respectively disposed at the upper and lower openings of the anode cylinder; In the magnetron is disposed on the upper pole piece and comprises a cylindrical A-seal having a bent portion which is bent inward from the upper end to extend downward in the height direction to block external leakage of five harmonics, And a choke filter disposed below the bent portion along the height direction of the A-chamber and bonded to an inner surface of the A-chamber to block external leakage of a plurality of harmonics except for the 5th harmonic. As a result, the magnetron is capable of shielding the external leakage of a plurality of harmonic components such as 2 harmonics, 3 harmonics, and 4 harmonics except for the 5 harmonic components in which the external leakage is shielded by the A-chamber, and at the same time, improving the driving stability. Is provided.

Description

Magnetron {MAGNETRON}

1 is a perspective view showing the structure of a conventional magnetron,

2 is a cross-sectional view taken along the line II-II of FIG.

3 is a perspective view showing the structure of a choke filter of a conventional magnetron;

Figure 4 is a side cross-sectional view showing the structure of a magnetron according to an embodiment of the present invention,

5 is a perspective view showing the structure of the chalk filter of the magnetron of FIG.

** Description of symbols for the main parts of the drawing **

301: York 301a: upper yoke

301b: lower yoke 313: upper pole piece

314: lower pole piece 315: A-seal

316: F-thread 340: choke filter

341: junction 342: first ring

343: second ring 344: third ring

The present invention relates to a magnetron, and more particularly, to shield external leakage of a plurality of harmonic components, such as two harmonics, three harmonics, and four harmonics, except for five harmonic components in which external leakage is shielded by an A-chamber. At the same time, the present invention relates to a magnetron that can improve driving stability.

1 is a perspective view showing the structure of a conventional magnetron, Figure 2 is a cross-sectional view taken along the line II-II of Figure 1, Figure 3 is a perspective view showing the structure of a conventional choke filter of the magnetron.

As shown in these figures, the structure of a conventional magnetron includes a yoke 301 having a constant internal space formed by a combination of an upper yoke 301a and a lower yoke 301b, and a yoke 301 that is accommodated in an internal space. Of the upper magnet 321 and the lower magnet 322 and the upper magnet 321 and the lower magnet 322 fixedly coupled to the inner surface of the upper yoke 301a and the lower yoke 301b along the width direction of An anode cylinder 302 disposed in the space therebetween and generating high frequency energy, and an upper pole piece 313 and a lower pole piece 314 having a funnel shape disposed at upper and lower openings of the anode cylinder 302, respectively. And a cylindrical A-seal 315 disposed above the upper pole piece 313 and blocking external leakage of five harmonics, and joined to the inner plate surface of the A-silicone to block external leakage of three harmonics. It is configured to include a coaxial choke filter 330.

The upper yoke 301a and the lower yoke 301b are coupled to form a rectangular cross section, and a cylindrical anode cylinder 302 is installed inside the yoke 301, and a high frequency inside the anode cylinder 302. A plurality of vanes 303 forming a cavity resonator are arranged radially toward the axial direction to induce the component.

Upper and lower pressure equalizing rings 304 and outer pressure equalizing rings 305 are alternately connected to upper and lower ends of the vane 303, respectively, to form an anode along with the anode cylinder 302.

On the central axis of the anode cylinder 302, a spirally wound filament 307 is formed to form a tip space of the vane 303 and a working space 306 of a predetermined interval, and the filament 307 is formed of tungsten and thorium oxide. The mixture is heated by the operating current supplied to the filament 307 to form a cathode which emits hot electrons.

A top shield 308 is fixed to the upper end of the filament 307 to block the emitted hot electrons from radiating upward, and an end shield 309 to block the radiated hot electrons from radiating downward in the lower part. Molybdenum center lead 310 is inserted into the through hole formed in the center portion of the end shield 309 and is bonded to the lower surface of the top shield 308, and the center lead 310 is fixed to the lower surface of the end shield 309. The upper ends of the side leads 311 made of molybdenum are bonded at intervals.

In addition, the upper and lower openings of the anode cylinder 302 are coupled to the upper pole piece 313 and the lower pole piece 314 of a funnel shape made of a magnetic material, and the upper and lower pole pieces of the upper pole piece 313 ( At the lower side of 314, cylindrical A-seal 315 and F-seal 316 are brazed to each other to prevent external leakage of the three harmonic components.

The upper end of the A-chamber 315 is bent to the inside of the A-chamber 315 and is formed to extend a predetermined length downward along the height direction of the A-chamber to form a closed circuit, thereby bending to prevent external leakage of five harmonics. The part 315a is formed.

On the other hand, it is disposed coaxially with the bent portion 315a at the lower side of the A-thread 315 along the height direction of the magnetron, that is, extends along the circumferential direction of the bent portion 315a and is outside the bent portion 315a. The coaxial choke filter 330 disposed includes a cylinder portion 331 having a diameter smaller than the inner circumferential surface of the A-chamber 315 and extending in a predetermined length along the height direction of the A-chamber 315; Joining portion 332 which is formed to extend to a predetermined length along the radial direction of the cylinder portion 331 on the upper end surface of the cylinder portion 331 so that the cylinder portion 331 can be joined to the inner peripheral surface of the A-seal 315. ) And a hollow 333 formed through the center of the cylinder portion 331.

In addition, the A-ceramic 317 for outputting high frequency and the F-ceramic 318 for hot rolling are brazed at the upper side of the A-silk 315 and the lower side of the F-silk 316. An exhaust pipe 319 is joined to the upper side of the ceramic 317 by brazing, and an upper end of the exhaust pipe 319 is joined at the same time as the cutting to seal the inside of the anode cylinder 302 in a vacuum state.

An antenna 320 for outputting high frequency oscillated in the cavity resonator is installed inside the A-chamber 315. The lower end of the antenna 320 is connected to the vane 303, and the upper end thereof is an exhaust pipe 319. It is fixed to the inner upper surface of the.

The upper magnet 321 and the lower magnet 322 are coupled to the upper side and the lower side of the anode cylinder 302 so as to be in contact with the inner side surface of the yoke 301, so that the upper pole piece 313 and the lower pole piece 314 and It is possible to form a magnetic field together.

The cooling fin 323 is provided between the inner circumferential surface of the yoke 301 and the outer circumferential surface of the anode cylinder 302, and the antenna is provided on the upper side of the A-ceramic 317 to protect the junction of the exhaust pipe 319. The cap 324 is covered.

By such a configuration, the magnetron 300 is supplied with external power to the center lead 310 and the side lead 311 so that the centride 310, the filament 307, the top shield 308, the end shield 309, The closed circuit composed of the side leads 311 is configured to supply an operating current to the filament 307, and the filament 307 is heated by the operating current supplied as described above, so that the hot electrons are emitted and the electron group is released. Is formed.

In addition, a strong electric field is formed in the working space by the driving voltage supplied to the anode part through the side lead 311, and the magnetic flux generated by the upper magnet 321 and the lower magnet 322 is lower pole piece 314. The high magnetic field is formed in the working space while being guided to the working space toward the upper pole piece 313 through the working space, and the hot electrons emitted from the surface of the hot filament 307 into the working space 306 are applied. It is forced vertically by a strong electric field present in the space 306 to reach the vane 303 in a circular motion.

The electron group formed by the movement of the electrons causes the vane 303 to interfere at a period equal to the inverse of the multiple of the periodic high frequency oscillation frequency, and the space between the vanes 303 and the anode cylinder 302 is caused by this action. Inductance component consisting of) constitutes a parallel resonant circuit on the circuit, and high frequency is induced from the vane 303, and the induced high frequency is radiated to the outside of the magnetron 300 through the antenna 320, so that an electrodeless lighting device or a microwave oven is provided. It will drive electronic products such as.

By the way, in such a conventional magnetron, the external leakage of five harmonic components is shielded by the A-chamber 315, but only the harmonics of any one of two harmonics, three harmonics and four harmonics are externally leaked by the choke filter 330. Because of the shielding, there is a problem that the harmonics of other components that are not shielded from external leakage adversely affect the peripheral device or the human body.

In addition, since the distance between the bottom surface of the choke filter 330 and the antenna lead 310 is close, there is a problem that the stability of the magnetron is lowered when driving the magnetron.

Accordingly, an object of the present invention is to shield external leakage of a plurality of harmonic components, such as two harmonics, three harmonics, and four harmonics, except for five harmonic components in which external leakage is shielded by the A-chamber, and to improve driving stability. It is to provide a magnetron that can do it.

According to the present invention, the yoke is formed a constant internal space by the combination of the upper yoke and the lower yoke; An upper magnet and a lower magnet accommodated in the inner space and fixed to the inner plate surfaces of the upper yoke and the lower yoke, respectively, in a width direction of the yoke; An anode cylinder disposed in a space between the upper magnet and the lower magnet and generating high frequency energy; An upper pole piece and a lower pole piece having a funnel shape respectively disposed at the upper and lower openings of the anode cylinder; In the magnetron is disposed on the upper pole piece and comprises a cylindrical A-seal having a bent portion which is bent inward from the upper end to extend downward in the height direction to block external leakage of five harmonics, And a choke filter disposed below the bent portion along the height direction of the A-chamber and bonded to an inner surface of the A-chamber to block external leakage of a plurality of harmonics except for the 5th harmonic. Is achieved.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

Figure 4 is a side cross-sectional view showing the structure of the magnetron according to an embodiment of the present invention, Figure 5 is a perspective view showing the structure of the chalk filter of the magnetron of Figure 4, Figure 6 according to another embodiment of the present invention It is a perspective view which shows the structure of a magnetron.

As shown in these drawings, the magnetron according to an embodiment of the present invention, the yoke 301 is formed by a combination of the upper yoke (301a) and the lower yoke (301b) and the yoke 301, The upper magnet 321 and the lower magnet 322 and the upper magnet 321 and the lower portion that is accommodated and fixedly coupled to the inner surface of the upper yoke 301a and the lower yoke 301b along the width direction of the yoke 301, respectively. An anode cylinder 302 disposed in the space between the magnets 322 and generating high frequency energy, and an upper pole piece 313 and a lower portion having a funnel shape disposed at the upper and lower openings of the anode cylinder 302, respectively. A cylindrical shape having a pole piece 314 and a bent portion 315a disposed above the upper pole piece 313 and bent inward from the upper end to extend downward in the height direction to block external leakage of five harmonics. Configured to include an A-room 315 In the magnetron, the lower portion of the bent portion 315a is disposed along the height direction of the A-chamber 315 and bonded to the inner surface of the A-chamber 315 to block external leakage of a plurality of harmonics except for the fifth harmonic. It is configured to include a choke filter 340.

The choke filter 340 has a straight joint portion 341 which is joined to the inner surface of the A-seal 315, and circular ring portions 342 and 343 which are partially cut and disposed at the cut portion. 344).

The ring portions 342, 343, and 344 include a plurality of first rings 342, second rings 343, and third rings 344 arranged concentrically according to the type of harmonics to shield external leakage. And the separation distance between each ring is equally formed.

The first ring 342 is formed to have the smallest diameter and used to shield external leakage of the second harmonic, and the second ring 343 is formed to have a medium diameter to shield the external leakage of the third harmonic. Since the third ring 344 is formed to have the largest diameter and used to shield external leakage of four harmonics, the third ring 344 may be selectively installed by installing a plurality of rings 342, 343, and 344 in various combinations according to a user's needs. It is possible to shield a plurality of harmonics.

By such a configuration, the magnetron 300 is supplied with external power to the center lead 310 and the side lead 311 so that the centride 310, the filament 307, the top shield 308, the end shield 309, The closed circuit composed of the side leads 311 is configured to supply an operating current to the filament 307, and the filament 307 is heated by the operating current supplied as described above, so that the hot electrons are emitted and the electron group is released. Is formed.

In addition, a strong electric field is formed in the working space by the driving voltage supplied to the anode part through the side lead 311, and the magnetic flux generated by the upper magnet 321 and the lower magnet 322 is lower pole piece 314. A high magnetic field is formed in the working space while being guided to the working space and proceeding to the upper pole piece 313 through the working space.

Among the high magnetic components, the 5th harmonic is shielded by external leakage by the A-silk 315, and the harmonics of other components except the 5th harmonic are shielded by the choke filter 340.

In the magnetron provided with (a) of FIG. 5, external leakage of 2nd harmonic and 5 harmonics is blocked, and the external leakage of 2nd harmonic, 3rd harmonic, and 5th harmonic is blocked from a magnetron installed with FIG. 5b. External leakage of 2nd harmonic, 4th harmonic, and 5th harmonic is blocked in the magnetron provided with (c) of 5, and external leakage of 2nd harmonic, 3rd harmonic, 4th harmonic, and 5th harmonic in the magnetron installed with FIG. Is blocked.

In addition, when compared with the conventional choke filter 330, the thickness thereof is greatly reduced, so that the separation distance between the bottom surface of the choke filter and the antenna lead 310 is increased, thereby reducing the mutual interference phenomenon and stably driving the magnetron. have.

On the other hand, hot electrons emitted from the surface of the hot filament 307 into the working space 306 are vertically driven by a strong electric field present in the working space 306 to reach the vane 303 in a spiral motion. Done.

The electron group formed by the movement of the electrons causes the vane 303 to interfere at a period equal to the inverse of the multiple of the periodic high frequency oscillation frequency, and the space between the vanes 303 and the anode cylinder 302 is caused by this action. Inductance component consisting of) constitutes a parallel resonance circuit on the circuit, and high frequency is induced from the vane 303, and the induced high frequency is radiated to the outside of the magnetron 300 through the antenna 320 so that the electrodeless illuminator or the electron It will drive electronic products such as stoves.

As described above, according to the present invention, the yoke is formed a constant internal space by the combination of the upper yoke and the lower yoke; An upper magnet and a lower magnet accommodated in the inner space and fixed to the inner plate surfaces of the upper yoke and the lower yoke, respectively, in a width direction of the yoke; An anode cylinder disposed in a space between the upper magnet and the lower magnet and generating high frequency energy; An upper pole piece and a lower pole piece having a funnel shape respectively disposed at the upper and lower openings of the anode cylinder; In the magnetron is disposed on the upper pole piece and comprises a cylindrical A-seal having a bent portion which is bent inward from the upper end to extend downward in the height direction to block external leakage of five harmonics, In the A-chamber by having a choke filter disposed below the bent portion along the height direction of the A-chamber and bonded to an inner surface of the A-chamber to block external leakage of a plurality of harmonics except for the 5th harmonic. By shielding the external leakage of a plurality of harmonic components, such as 2 harmonics, 3 harmonics, 4 harmonics, except for the 5 harmonic components that the external leakage is shielded, there is an effect that can improve the driving stability.

Claims (4)

A yoke having a predetermined internal space formed by a combination of the upper yoke and the lower yoke; An upper magnet and a lower magnet accommodated in the inner space and fixed to the inner plate surfaces of the upper yoke and the lower yoke, respectively, in a width direction of the yoke; An anode cylinder disposed in a space between the upper magnet and the lower magnet and generating high frequency energy; An upper pole piece and a lower pole piece having a funnel shape disposed in the upper and lower openings of the anode cylinder, respectively; In the magnetron is disposed on the upper pole piece and comprises a cylindrical A-seal having a bent portion which is bent inward from the upper end to extend downward in the height direction to block external leakage of five harmonics, And a choke filter bonded to an inner surface of the A-chamber under the bent portion along the height direction of the A-chamber to block external leakage of a plurality of harmonics except for the 5th harmonic. The method of claim 1, The choke filter is a magnetron, characterized in that it is composed of a straight connection portion bonded to the inner surface of the A-seal, and a circular ring-shaped portion is a portion of the junction is cut and disposed on the cut portion. The method of claim 2, The ring-shaped portion of the magnetron, characterized in that the plurality of ring-shaped portion is arranged concentrically in accordance with the type of harmonics to shield the external leakage. The method of claim 3, The ring-shaped portion is formed to have the smallest diameter to shield the outer leakage of two harmonics, the second ring formed to have a medium diameter of the third harmonic shielding the external leakage of three harmonics, and formed to have the largest diameter And a third ring that shields external leakage of four harmonics.

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