CN202205695U - Magnetron with high output power - Google Patents

Abstract

The utility model relates to a magnetron with high output power, which comprises an anode part and a cathode part, wherein the anode part comprises an anode cylinder and blades, large and small interlinking rings and output antennas which are arranged on the inner surface of the anode cylinder. The cathode part comprises a central support assembly and a spiral filament. A pair of annular permanent magnets is arranged outside an input part and an output part coaxially to form a magnet loop with the magnetic poles. The external diameter of the spiral filament ranges from 4.0mm to 5.0mm, the diameter of incircles of the front ends of the blades ranges from 6.5mm to 8mm, and intervals w at the cathode lateral top end of adjacent blades and the thickness t of the blades meet that 1.0<t/w<2.0. The magnetron with high output power leads microwave devices to be miniaturized, is high in output power, works stably in a 5.8 Hz frequency range, has the same working voltage with the existing magnetron working in a 2.45 Hz frequency range, and need no power supply.

Description

The magnetron that a kind of power output is high

Technical field

The utility model relates to magnetron, particularly a kind of high magnetron of power output that is used for the 5.8GHz frequency range of microwave oven, industrial microwave apparatus etc.

Background technology

Magnetron is the radio tube that produces microwave, because oscillation efficiency is high, microwave output power is big, except being widely used in household microwave oven, also is widely used as the microwave source of microwave processing equipments such as industry heating, chemical treatment.And along with the development of microwave technology, the continuous wave magnetron of magnetron such as 5.8GHz frequency range that needs higher frequency is as microwave power source, makes the conversion efficiency of time spent to improve microwave and dielectric material, enhances productivity the realization energy-conserving and environment-protective.

Accompanying drawing 1 is the magnetron profile that is used for existing general microwave oven, and Fig. 2 is the anode among Fig. 1

Resonator system profile, Fig. 3 are the anode resonator system front views among Fig. 1.Can know that from figure magnetron is generally by anode component, cathode assembly, output block and form parts such as magnetic loop and constitute.As shown in the figure, the magnetron middle body is installed cathode assembly, with its anode component of installing coaxially.Cathode assembly comprises the center fulcrum bar component that has shielding cap and limit fulcrum bar component and the helical heater 2 on the fulcrum bar component of center; Anode component is to be made up of anode tube 1, blade 11, big commissure ring 12, little commissure ring 13 and antenna; At the axial direction of anode component the magnetic pole 3 of a pair of taper is installed symmetrically, magnetic pole 3 is with magnet and outside support assembly and base plate formation magnetic loop is installed.

As the magnetron vibration body key dimension partly of 2.45GHz frequency range of the prior art, main

Will be by following setting: promptly the sheet number of blade 11 be 10; Diameter 2ra at leading section (blade tip) inscribed circle of the negative pole part side of blade 11 is the scope of 8.8～9.2mm; The outer circumference diameter dc of filament 2 is 3.8～4.0mm scope; And negative pole part diameter and anode portion diameter ratio are in 0.44～0.46 scope; The height of the tube axial direction of blade 11 is the scope of 8.8～9.5mm, and blade 11 thickness t are in 2.2～2.6 scopes with the ratio t/w of the adjacent spaces w of the blade front end of negative pole part side.

In addition; Such configuration; The space that promptly is fixed on taper magnetic pole 3 bottoms of anode tube 1 both sides symmetry installation is in the scope of 11.5～13mm; Two ringshaped magnets outside negative pole part and efferent, installing are after the taper magnetic pole gathers magnetic, and the magnetic density that the interaction space between negative pole part and anode portion produces is 160～200mT.

The frequency of oscillation of magnetron is that the vibration body by magnetron partly determines, its microwave output power and efficient are to determine with the electric field that adds and the structure of magnetic field and anode portion and negative pole part and the performance of negative pole part.In recent years, for improve microwave and dielectric material mechanism microwave-thermal conversion efficiency, and make microwave equipment realization miniaturization, thereby try hard to develop the magnetron of higher frequency, like the magnetron of the 5.8GHz frequency range in the ISM band.So the magnetron of structure only was fit to be operated in the 2.45GHz frequency range, need design the magnetron that is adapted at the work of 5.8GHz frequency range again in the past.

Summary of the invention

The purpose of the utility model is to provide a kind of high magnetron of power output of 5.8GHz frequency range; Realize stable oscillation stationary vibration; High and the suitable microwave equipment miniaturization of microwave output power; Its anode working voltage and existing 2.45GHz frequency range microwave oven magnetic are general, can make its easily with existing microwave equipment in power supply mutually general, and need not the in addition supporting power supply of exploitation.

The technical scheme that realizes the utility model purpose is: the magnetron that a kind of power output is high; Include anode component, cathode assembly; Anode component comprises columned anode tube, be fixed on the anode tube inner wall surface radial some anode blades and place the big commissure ring in the anode tube, little commissure ring and output antenna; The quantity of said anode blade is even number; Cathode portion includes and the center fulcrum bar component of the coaxial assembling of anode component and the helical heater on the fulcrum bar component of center; The conical magnet poles of a pair of soft magnetic material is installed on the axial direction of anode component symmetrically; Be separately installed with cathode power input block and microwave power output block in the outside of said magnetic pole; The magnetic pole formation magnetic loop that a pair of annular permanent magnet and above-mentioned symmetry are installed is installed outside cathode power input block and microwave power output block coaxially, is it is characterized in that the external diameter of the helical heater of said negative electrode is in the scope of 4.0～5.0mm; The diameter d a of the leading section inscribed circle of the negative pole part side of said blade is in 6.5mm～8mm scope, and the material thickness t of the interval w of the cathode side top ends of above-mentioned adjacent anode blade and anode blade satisfies following relational expression:

1.0<t/w<2.0。

Above-mentioned anode blade is in 7.5～8.5mm scope along the height ha of anode cylinder axis direction.

Microwave in above-mentioned output block output antenna bottom is connected with one of said anode blade, and directly is electrically connected with little commissure ring, and it passes through end space and the effective electrical length through the magnetic pole hole is 20～30mm.

Between two taper magnetic poles bottoms that anode tube bilateral symmetry is installed, be in 13.5～16mm scope apart from hd.

The ringshaped magnet that is co-axially mounted on output block and the cathode assembly outside is 280～350mT along the magnetic density Bg at place, the interaction space of anode component central axis portion after the taper magnetic pole gathers magnetic.

The diameter of anode tube inwall is in 20～30mm scope.

The distance s of diametric plane is in 0.5～1.0mm scope outward for big commissure ring aperture surface and little commissure ring, and can make the degree of frequency separation of N/2-1 of N/2 pattern and the adjacent non-pi-mode oscillation of pi-mode oscillation is more than 16%, thereby keeps the steady operation of magnetron.

The both sides up and down of cathode assembly shield the axial upper and lower end face of relative blade and are contraction-like to the center, and last shielding cap and blade tip identity distance are 0.1～0.4mm from a, can effectively prevent the generation of stray electron in the anode resonator system.

The beneficial effect of the utility model is; Vibration body through limiting magnetron partly with negative pole part position and size, improved microwave and dielectric material mechanism microwave-thermal conversion efficiency, and make microwave equipment realization miniaturization; Can realize that the magnetron stable working frequency is the 5.8GHz frequency range; And the microwave oven magnetic of its anode working voltage and existing 2.45GHz frequency range is consistent, can be conveniently used in the existing microwave equipment, and need not the special configuration power supply; Simultaneously, the EMI performance of the magnetron of this utility model also meets relevant criterion.

Description of drawings

Fig. 1 is the profile of existing 2.45GHz frequency range magnetron;

Fig. 2 is an anode resonator system profile among Fig. 1;

Fig. 3 is an anode resonator system front view among Fig. 1;

The profile of Fig. 4 the utility model anode resonator system;

Fig. 5 is the structural representation of the utility model.

Embodiment

Be described further below in conjunction with the embodiment of accompanying drawing the utility model.

Like Fig. 4, shown in Figure 5; The utility model is the high magnetron of a kind of power output; Include anode component, cathode assembly; Anode component comprises columned anode tube 1, be fixed on anode tube 1 inner wall surface radial some anode blades 11 and place the big commissure ring 12 in the anode tube 1, little commissure ring 13 and output antenna 14; The quantity of said anode blade 11 is even number; Cathode portion includes and the center fulcrum bar component of the coaxial assembling of anode component and the helical heater 2 on the fulcrum bar component of center; The conical magnet poles 3 of a pair of soft magnetic material is installed on the axial direction of anode component symmetrically; Be separately installed with cathode power input block and microwave power output block in the outside of said magnetic pole 3, a pair of annular permanent magnet 5 be installed outside cathode assembly and microwave power output block coaxially constituted magnetic loops with the above-mentioned symmetrical magnetic pole of installing 3, the external diameter of the helical heater 2 of said negative electrode is in the scope of 4.0～5.0mm; The diameter d a of the leading section inscribed circle of the negative pole part side of said blade 11 is in 6.5mm～8mm scope, and the material thickness t of the interval w of the cathode side top ends of above-mentioned positive consecutive roots blade 11 and anode blade 11 satisfies following relational expression:

1.0<t/w<2.0。

Above-mentioned anode blade 11 along anode tube 1 axial height ha in 7.5～8.5mm scope.

Microwave in above-mentioned output block output antenna 14 bottoms are connected with one of said anode blade 11, and directly are electrically connected with little commissure ring 13, and it passes through end space and the effective electrical length through the magnetic pole hole is 20～30mm.

Between two taper magnetic pole 3 bottoms that anode tube 1 bilateral symmetry is installed apart from hd in 13.5～16mm scope.

The ringshaped magnet 5 that is co-axially mounted on output block and the cathode assembly outside is 280～350mT along the magnetic density Bg at place, the interaction space of anode component central axis portion after taper magnetic pole 3 gathers magnetic.

The diameter of anode tube 1 inwall is in 20～30mm scope.

The distance s of big commissure ring 12 aperture surfaces and little commissure ring 13 outer diametric planes is in 0.5～1.0mm scope, and can make the degree of frequency separation of N/2-1 of N/2 pattern and the adjacent non-pi-mode oscillation of pi-mode oscillation is more than 16%, thereby keeps the steady operation of magnetron.

The both sides up and down of cathode assembly shield the axial upper and lower end face of relative blade and are contraction-like to the center, and last shielding cap and blade 11 top end faces are 0.1～0.4mm apart from a, like this, can effectively prevent the generation of stray electron in the anode resonator system.

Claims (8)

1. magnetron that power output is high; Include anode component, cathode assembly; Anode component comprises columned anode tube (1), be fixed on anode tube (1) inner wall surface radial some anode blades (11) and place big commissure ring (12), little commissure ring (13) and the output antenna (14) in the anode tube (1); The quantity of said anode blade (11) is even number; Cathode portion includes and the center fulcrum bar component of the coaxial assembling of anode component and the helical heater (2) on the fulcrum bar component of center; The conical magnet poles (3) of a pair of soft magnetic material is installed on the axial direction of anode component symmetrically; Be separately installed with cathode power input block and microwave power output block in the outside of said magnetic pole (3); A pair of annular permanent magnet (5) is installed outside cathode power input block and microwave power output block is coaxially constituted magnetic loop, it is characterized in that the external diameter of said helical heater (2) is in the scope of 4.0～5.0mm with the above-mentioned symmetrical magnetic pole of installing (3); The diameter d a of the leading section inscribed circle of the negative pole part side of said blade (11) is in 6.5mm～8mm scope, and the material thickness t of the interval w of the cathode side top ends of above-mentioned adjacent anode blade (11) and anode blade (11) satisfies relational expression: 1.0 < t/>w < 2.0.

2. the high magnetron of power output according to claim 1 is characterized in that, said anode blade (11) along the axial height ha of anode tube (1) in 7.5～8.5mm scope.

3. the high magnetron of power output according to claim 1 and 2; It is characterized in that; Microwave output antenna (14) bottom in the said microwave power output block is connected with one of said anode blade (11); And directly be electrically connected with little commissure ring (13), it is 20～30mm through end space and the effective electrical length through the magnetic pole hole.

4. the high magnetron of power output according to claim 3 is characterized in that, said between two taper magnetic poles (3) bottom that anode tube (1) bilateral symmetry is installed apart from hd in 13.5～16mm scope.

5. the high magnetron of power output according to claim 4; It is characterized in that the said ringshaped magnet (5) that is co-axially mounted on output block and cathode assembly outside magnetic density Bg along the place, interaction space of anode component central axis portion after taper magnetic pole (3) gathers magnetic is 280～350mT.

6. according to claim 1 or 2 or the 4 or 5 high magnetrons of described power output, it is characterized in that the diameter of said anode tube (1) inwall is in 20～30mm scope.

7. the high magnetron of power output according to claim 6; It is characterized in that; The distance s of said big commissure ring (12) aperture surface and the outer diametric plane of little commissure ring (13) is in 0.5～1.0mm scope, and can make the degree of frequency separation of N/2-1 of N/2 pattern and the adjacent non-pi-mode oscillation of pi-mode oscillation is more than 16%.

8. the high magnetron of power output according to claim 7; It is characterized in that; The both sides up and down of said cathode assembly shield the axial upper and lower end face of relative blade (11) and are contraction-like to the center, and last shielding cap and blade (11) top end face is 0.1～0.4mm apart from a.

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