KR19980024333U - Magnetron's magnetic flux leakage prevention structure - Google Patents

Abstract

The present invention relates to a magnetron, and more particularly, to a magnetic flux leakage preventing structure of a magnetron, which is configured to suppress a magnetic flux escaping out of a pole piece, that is, a yoke and a space by expanding a pole piece through which a magnetic force line generated in the magnet flows.

In particular, the present invention focuses on the magnets 5 'and 51' that generate magnetic force lines, and the upper and lower poles that focus the magnetic force lines of the magnets 5 'and 51' to the resonant circuit in the anode 2 '. In installing the pieces 4 'and 41', the outer diameter of the anode 2 'and the upper and lower pole pieces 4' and 41 'are matched with the outer diameters of the magnets 5' and 51 '. The outer diameter is extended to a predetermined width, and the height of the anode 2 'is formed to be set as low as the extended width, and the magnetic force lines supplied to the upper and lower pole pieces can be focused to the maximum.

Description

Magnetron magnetic flux leakage prevention structure

The present invention relates to a magnetron, and more particularly, to a magnetic flux leakage preventing structure of a magnetron, which is configured to suppress a magnetic flux escaping out of a pole piece, that is, a yoke and a space by expanding a pole piece through which a magnetic force line generated in the magnet flows.

The resonance structure of a typical magnetron will be described with reference to FIG. 1 as follows. An anode (2), a filament (1) for emitting hot electrons on the center axis of the anode (2), a plurality of vanes (3) formed radially inside the anode (2), and the anode (2) A magnet (5) installed at the top and the bottom to generate a magnetic force line, and an upper pole piece and a lower pole piece (4) (41) for receiving a magnetic force line from the magnet (5) to form a magnetic field in a vertical direction; And an antenna 8 installed above the vane 3 to protrude electromagnetic waves to the outside.

Here, reference numeral 6 is a yoke, 7 is a cooling fin.

The operation of the magnetron configured as described above causes the release of hot electrons when the filament 1, which acts as a cathode, is heated, which is generated by the electric field and the magnets (5) (51) and the upper and lower pole pieces (4) (41). It is attracted while rotating toward the vane 3 by the action of the magnetic field. At this time, the vane (3) tip is the end of the resonant circuit and positive (+) or (-) charges are induced. Accordingly, the electrons rotating in the working space are gathered like a skew, and the rotation angle frequency and vanes (3) of the skew When the resonant frequency of the resonant circuit constituted by the space is synchronized, the oscillation continues safely.

In other words, the resonant circuit is caused by the capacitor C due to the space between the strap rings and the inductance L by the capacitor, vanes 3 and the anode 2 itself, due to the space between the strap rings and the vanes 3. Is configured ( ) 2,450 MHZ, the oscillation frequency of magnetron, is generated.

However, in the magnetron described above, as shown in FIG. 2, the outer diameter of the magnets 5 and 51 installed on the top of the anode 2 is inconsistent with the outer diameter of the anode 2, so that the upper and lower pole pieces 4 ( 41) There was a problem in that the magnetic flux escapes to the outside (yoke and space), that is, the leakage magnetic flux occurs.

The present invention has been devised to solve the above problems, by making the outer diameter of the magnet and the outer diameter of the pole piece to match and manufacture the magnetic force lines supplied to the upper and lower pole pieces to the maximum by restraining the magnetic flux exiting into the yoke and space To provide a magnetic flux leakage prevention structure of the magnetron.

1 is a partial longitudinal cross-sectional view of a conventional magnetron.

Figure 2 is an exemplary embodiment showing the magnetic field leakage action of the conventional magnetron,

Figure 3 is a partial longitudinal cross-sectional view of the present invention magnetron.

Figure 4 is an exemplary embodiment showing the magnetic field leakage action of the magnetron of the present invention,

Explanation of symbols for the main parts of the drawings

2 '-anode, 4'-upper pole piece,

5 ', 51'-Magnet, 41 '-Lower pole piece.

In order to achieve the above object, the present invention provides a magnet for generating a magnetic force line, and a pole piece for focusing the magnetic force line of the magnet into a resonant circuit in the anode, wherein the outer diameter of the anode and the outer diameter of the magnet are matched. The outer diameter of the pole piece extends to a predetermined width, and the anode height is lowered by the extended width so that the magnetic force line supplied from the magnet flows only to the pole piece.

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

Figure 3 is a partial longitudinal cross-sectional view of the magnetron of the present invention, Figure 4 is an exemplary view showing the magnetic field leakage action of the magnetron of the present invention. The same technical elements as the prior art will be described with the same reference numerals.

The present invention, as shown in Figure 3, the anode (2 '), the filament (1) for emitting hot electrons on the center axis of the anode (2'), a plurality of radially formed vanes (3), Magnets 5 'and 51' installed at the upper and lower ends of the anode 2 'and generating magnetic force lines, and magnetic field lines induced by the magnets 5' and 51 'are applied to the magnetic field in the vertical direction. In a known magnetron comprising an upper pole piece 4 'and a lower pole piece 41' to be formed, and an antenna 8 or the like provided above the vane 3 and projecting electromagnetic waves outward, Extends the anode 2 'to a predetermined width so that the outer diameters of the magnets 5' and 51 'provided at the upper and lower ends of the anode 2' vertically coincide with the outer diameter of the anode 2 '. The upper and lower pole pieces 4 'and 41', which induce the magnetic force lines of the 5 'and 51', are also installed by extending the width of the anode 2 '.

Here, the height of the anode 2 'is lowered by the width of the anode 2', so that the value of the L and C resonant circuits in the anode is constant.

In the magnetron of the present invention configured as described above, the filament (1) serving as a cathode is heated to emit hot electrons, which are attracted while rotating toward the vane (3) by the action of an electric field and a magnetic field (+ ) Or (-) charges are induced, and thus, the electrons rotating in the working space are gathered like alternations, and the resonance frequency of the LC resonance circuit composed of the rotation angle frequency of the alternations and the space between the vanes (3) is synchronized. Once the rash is safe, it is the same as usual.

However, the present invention is the upper and lower pole pieces inconsistent with the outer diameter of the magnet (5) (51) and the anode (2) when a magnetic force line is generated from the magnet (5) (51) installed on the top of the anode (2) ( 4) The outer diameters of the anode 2 'and the magnets 5' and 51; coincide with each other, as shown in FIG. As the lower pole pieces 4 'and 41' are also extended and expanded by the same, it can be seen that the magnetic force lines are induced only to the pole pieces.

Accordingly, since the magnetic force line is induced to the pole piece in the state of suppressing the leakage magnetic flux as much as possible, a large amount of magnetic flux is focused and supplied to the LC resonant circuit in the anode 2 '.

As described above, the present invention has the characteristic of securing and supplying relatively many magnetic fluxes by suppressing leakage magnetic flux to the maximum by making the outer diameter of the magnet and the outer diameter of the pole piece to be the same.

The above example is only one embodiment of the present invention, and any number of changes and modifications can be made within the scope of the present invention.

Claims (1)

Magnets 5 'and 51' for generating magnetic force lines, and upper and lower pole pieces 4 'for focusing the magnetic force lines of the magnets 5' and 51 'to a resonant circuit in the anode 2'. In installing the 41 ', the outer diameter of the anode 2' and the upper and lower pole pieces 4 'and 41' are set to have a predetermined width so as to match the outer diameters of the magnets 5 'and 51'. And magnetic flux leakage preventing structure of the magnetron, characterized in that the height of the anode (2 ') is formed as low as the extended width.