KR20040061405A - Lead structure of magnetron - Google Patents

Abstract

PURPOSE: A lead structure is provided to prevent a short circuit of a center lead by assembling the center lead and a side lead to an end shield in such a manner that impact is not concentrated to the center lead during transportation. CONSTITUTION: A magnetron comprises a center lead(100) penetrating through an end shield(9), and a side lead(110) having a top joined to the bottom of the end shield. The center lead and the side lead have different diameters in such a manner that the center lead and the side lead are not short circuited, in consideration of vibration frequencies of the center lead and the side lead. The diameter of the center lead is larger than the diameter of the side lead in such a manner that impact is not concentrated to the center lead.

Description

Lead structure of magnetron {LEAD STRUCTURE OF MAGNETRON}

The present invention relates to a lead structure of a magnetron, and more particularly, to a lead structure of a magnetron designed so that the center lead and side leads are resistant to impact so that they can be prevented from being damaged by impact during process movement.

As is generally known, a magnetron is a device installed in a microwave oven or a lighting device to convert electrical energy into high frequency energy such as microwaves.

The magnetron of the conventional general structure is shown in FIG. 1 and FIG. 2, which will be briefly described as follows.

As shown in the figure, inside the yoke 1 where the upper yoke 1a and the lower yoke 1b are combined to have a substantially ". &Quot; shape, an anode cylinder 2 made of a cylindrical shape using a copper pipe or the like is provided. In the anode cylinder 2, a plurality of vanes 3 which form a cavity resonator so as to induce high frequency components are arranged at equal intervals in the axial direction, and at the tip end side of the vane 3 The upper and lower portions of the inner pressure equalizing ring 4 and the outer pressure equalizing ring 5 are coupled so as to be alternately connected, so that the anode cylinder 2 and the vane 3 form an anode portion.

In addition, on the central axis of the anode cylinder (2) is provided a filament (7) spirally wound so that the front end of the vane (3) and the working space 6 of a predetermined interval is formed, the filament (7) is tungsten It is made of a mixture of thorium oxide, so that the cathode portion is heated by the supplied operating current to emit hot electrons.

In addition, the top shield 8 is fixed to the upper end of the filament 7 to block the emitted hot electrons from radiating upward, and the end shield to prevent the radiated hot electrons from radiating downward. (9) is fixed to the through hole formed in the center portion of the end shield (9) is inserted into the center lead 10 made of molybdenum and fixed to the lower surface of the top shield (8), the center lead on the lower surface The upper end portion of the side lead 11 made of molybdenum is fixed at a predetermined interval with 10 and is fixed.

In addition, the upper and lower openings of the anode cylinder 2 are coupled with a funnel-shaped box pole 13 made of a magnetic material and a defect pole 14, and an upper side and a defect pole 14 of the box pole 13. The lower side of the cylindrical A-chamber 15 and the F-chamber 16 are brazed, respectively, the upper side of the A-chamber 15 and the lower side of the F-chamber 16 output high frequency to the outside. The A-ceramic 17 and the F-ceramic 18 for insulation are brazed, and the exhaust pipe 19 is brazed to the upper side of the A-ceramic 17, and the exhaust pipe 19 The upper end of is joined at the same time as cutting to seal the inside of the anode cylinder 2 in a vacuum state.

In addition, inside the A-chamber 15, an antenna 20 for outputting high frequency oscillated in the cavity resonator is installed. The lower end of the antenna 20 is connected to the vane 3, and the upper end is It is fixed to the inner upper surface of the exhaust pipe 19.

In addition, the upper magnet 21 and the lower magnet 22 are coupled to the upper side and the lower side of the anode cylinder 2 so as to be in contact with the inner surface of the yoke 1, so that the upper and lower poles 13 and 14 are connected. It is to be able to form a gyros with.

In addition, a box-shaped filter box 26 is coupled to the lower side of the yoke 1, and a pair of choke coils 27 for attenuating harmonic noise flowing back to the input part inside the filter box 26. Although one end of the pair of choke coils 27 is provided, the one end of the pair of choke coils 27 is electrically connected to the lower end of the pair of F-leads 28 which are coupled to be inserted into the through holes formed in the F-ceramic 18. .

The upper ends of the F-leads 28 inserted into the through-holes of the F-ceramic 18 are respectively bonded to the lower surfaces of the pair of disks 29 provided above the F-ceramic 18. Upper ends of the discs 29 are joined to lower ends of the center leads 10 and the side leads 11, respectively.

In addition, a capacitor 31 is provided on the side wall of the filter box 26, and an inner end of the capacitor 31 is electrically connected to the choke coil 27, and the choke coil 27 has a low frequency. Ferrites 32 for absorbing noise are inserted in the longitudinal direction.

A cooling fin 41 is provided between the inner circumferential surface of the yoke 1 and the outer circumferential surface of the anode cylinder 2, and the junction of the exhaust pipe 19 is protected on the upper side of the A-ceramic 17. The antenna cap 42 is covered.

In the conventional general magnetron configured as described above, the external power is supplied to the center lead 10 and the side lead 11 through the F-lead 28 so that the F-lead 28, the center lead 10, A closed circuit composed of the filament 7, the top shield 8, the end shield 9, the side lead 11, and the disk 29 is configured so that the operating current is supplied to the filament 7, and thus The filament 7 is heated by the operating current and hot electrons are emitted, and the electron group is formed by the hot electrons thus emitted.

On the other hand, a strong electric field is formed in the working space 6 due to the driving voltage supplied to the anode portion through the side leads 11, and the magnetic flux generated by the upper magnet 21 and the lower magnet 22 is defective. Guided along (14) toward the working space (6), a high magnetic field is formed in the working space (6) while proceeding through the working space (6) to the box electrode (13).

Therefore, the hot electrons emitted from the surface of the hot filament 7 into the working space 6 travel to the vane 3 by the strong electric field present in the working space 6, and at the same time, the force is applied vertically by the strong magnetic field. It will receive the vane (3) in a circular motion in a spiral.

The group of electrons formed by the movement of the electrons interferes with the vanes 3 at intervals equal to the reciprocal of the multiple of the periodic high frequency oscillation frequency, and by this action, the vanes 3 face each other, that is, the resonator. The capacitance component of the capacitance acting between the visible vanes 3 and the inductance component composed of the opposing vanes 3 and the anode cylinder 2 connecting them constitute a parallel resonant circuit on the circuit so that the resonance frequency is increased. The high frequency is determined by the vane (3) is induced from the vane (3), and the induced high frequency is radiated out through the antenna 20, the food is cooked by the frictional heat generated by vibrating the molecules of the food 2.4 billion times per second do.

In addition, the magnetron as described above generally emits a microwave having a fundamental wave of 2.45 GHz, and the emitted microwave contains harmonic components having a frequency of an integral multiple of the fundamental wave. Leakage of this unwanted harmonic component to the outside causes undesirable effects such as communication disturbance. Especially, the fifth harmonic (12.25 GHz) is known to cause disturbance in satellite communication, and the fifth harmonic component is a filament (7). ) Becomes an antenna and flows back to the input side through the center lead 10, the side lead 11, and the F-lead 28. The fifth harmonic component thus flowed back is installed inside the filter box 26. It is removed by the L and C existing between the choke coil 27 and the capacitor 31, while preventing leakage to the outside by the filter box 26.

On the other hand, Figure 3 is a longitudinal sectional view schematically showing a state in which the center lead and the side lead is installed, as shown, the center lead 10 is formed long through the end shield (9), the side lead ( The upper end portion 11 is joined to the lower surface of the end shield 9, and the diameters of the side leads 11 and the center lead 10 are both ?? 1.5 mm.

However, the conventional magnetron constructed as described above is applied from the outside when the process is carried out in the state where the end shield 9, the center lid 10, and the side lid 11 are assembled as shown in FIG. The center lead 10 was short-circuited by the impact, causing a problem of poor quality.

SUMMARY OF THE INVENTION An object of the present invention devised in view of the above problems is to provide a lead structure of a magnetron suitable for preventing short circuit of the center lead from occurring and preventing quality defects from occurring.

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

2 is a longitudinal cross-sectional view of FIG.

Figure 3 is a longitudinal sectional view schematically showing a state in which the center lead and the side lead is installed in the prior art.

Figure 4 is a longitudinal sectional view showing a magnetron having a lead structure according to the present invention.

Figure 5 is a longitudinal sectional view schematically showing a state in which the center lead and the side lead is installed.

Explanation of symbols on the main parts of the drawings

9: End Shield 100: Center Lead

110: side lead

In order to achieve the object of the present invention as described above

In the magnetron, through which the center lead penetrates the end shield, and the upper end of the side lead is joined to the lower surface of the end shield,

The center lead and the side leads are provided with a magnetron lead structure, wherein the center leads and the side leads have different diameters so as not to be shorted by an external shock in consideration of their natural frequencies.

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

4 is a longitudinal sectional view showing a magnetron having a lead structure according to the present invention, Figure 5 is a longitudinal sectional view schematically showing a state in which the center lead and the side lead of the present invention is installed, as shown therein, the basic constituting the magnetron Since the structure is the same as in the prior art, the same reference numerals are given to the same parts, and detailed description thereof will be omitted.

Here, the present invention is designed so that the diameter of the center lead 100 and the side lead 110 differently to prevent the center lead 100 from being damaged by the difference in the impact coefficient due to the vibration frequency, for example, the center lead 100 In the case where the diameter of?) Is set to ?? 1.5 mm, the diameter of the side lead 110 is designed to be about? 1.3 mm so that the short circuit of the center lead 100 is prevented due to the vibration frequency difference.

In the present invention configured as described above, when the end shield 9 and the center lead 100 and the side lead 110 are assembled to move to the next process, the center lead 100 and the side lead 110 are impacted. In this case, the diameter of the center lead 100 and the side lead 110 are larger than the diameter of the side lead 110 in consideration of the respective vibration frequencies, so that the impact is concentrated on the center lead 100. It is not supported and damage caused by impact is prevented.

As described in detail above, in the lead structure of the magnetron of the present invention, the center lead and the side lead are assembled to the end shield by designing the diameter of the side lead larger than the diameter of the center lead in consideration of the vibration frequencies of the center lead and the side lead. By preventing the impact applied to the next process from being concentrated on the center lead, the short circuit of the center lead is prevented and the quality defect is prevented from being caused by the short circuit during the process.

Claims (2)

In the magnetron, through which the center lead penetrates the end shield, and the upper end of the side lead is joined to the lower surface of the end shield, The center lead and the side lead are magnetron lead structure, characterized in that each has a different diameter so as not to be short-circuited by an external shock in consideration of the respective natural frequency. The method of claim 1, The diameter of the center lead is a lead structure of the magnetron, characterized in that designed relatively larger than the diameter of the side lead.