CN1219311C - Magnetron and method for mfg. same - Google Patents

Abstract

The invention provides a magnetron with a shield case having a compact figure in the axial direction of the magnetron for preventing electric discharge from a stem insulator, and its manufacturing method. An inductor coil 8 is provided between a pair of cathode terminals 4 fixed to the stem insulator 3 constituting part of a magnetron body 1 and a through-capacitor 5, and the inductor coil 8 is covered with the shield case 9, to which the through-capacitor 5 is fixed, and a cover 11. The inductor coil 8 comprises a core inductor portion 8b and an air-core inductor portion 8c and an extension portion 8d extending from the air-core inductor portion 8c, and it has an end 8f located on the side of the cover 11 beyond the centers of the diameters of the core inductor portion 8b and the extension portion 8d.

Description

The manufacture method of magnetron and magnetron

Technical field

The present invention relates to a kind of magnetron and magnetron manufacture method that is contained in microwave oven etc. and produces microwave.

Background technology

What Fig. 4 showed is the Filter Structures of typical magnetron, be fixed on the side of radome 102 with the ground plate 101 that feedthrough capacitor 100 is wholely set, with be wound with to iron core 103 surfaces of making by ferrite carried out insulation processing spiral induction coil 104 an end, be connected on the cathode terminal 106 of magnetron body 105, and the other end is connected on the center conductor 107 of feedthrough capacitor 100 and constitutes low channel filter, can interdict circuit noise.And by covering the peristome of 108 covering radomes 102, aloft can leakage noise even form yet.

Have on the magnetron of this spline structure, generally carrying out electrical equipment by the stem stem insulator 109 that is made of insulants such as potteries separates, magnetron body 105, radome 102, lid 108 are earthing potential, and the center conductor 107 of cathode terminal 106, induction coil 104, feedthrough capacitor 100 is for example to move when adding the high voltage of 4kV negative high voltage position.For on such induction coil 104, applying high voltage, be in international standard IEC60335-1 etc. regulation such as the outside that will guarantee induction coil 104 and radome 102 and cover the safety requirements of space length (A among Fig. 4, B) more than 14.5mm between 108.Therefore, for radome 102 does not maximize on magnetron body 105 direction of principal axis, the distance A of as shown by arrows induction coil 104 outsides and lid 108, with the outside of above-mentioned induction coil 104 and radome 102 become same height apart from B, promptly, become 14.5mm, the ground plate 101 with above-mentioned feedthrough capacitor 100 is installed on the above-mentioned radome 102 like this.

Yet in the above-described configuration, owing to have the situation that discharge takes place by the surface of stem stem insulator 109, so be necessary fully to guarantee the distance of stem stem insulator 109 and radome 102.In order to address this problem, though can consider to increase the method for this creepage distance, if but increase the height of stem stem insulator 109, then the position of cathode terminal 106 is also near lid 108 sides, although the surface is difficult for discharge, the leading section 104a of induction coil 104 and the position of cathode terminal 106 can be offset, and cause and connect difficulty, for must with the ground plate 101 of feedthrough capacitor 100 to the downside change only skew part and be fixed on the radome 102, and in order to ensure the space length of defined, so can produce the maximization problem that causes radome 102.

The purpose of this invention is to provide and a kind ofly prevent from the discharge of stem stem insulator and on the direction of principal axis of magnetron, have the manufacture method of the magnetron and the magnetron of small-sized radome.

Summary of the invention

Magnetron of the present invention, have: the induction coil that an end is connected with a pair of cathode terminal on being bonded on the stem stem insulator that constitutes a magnetron body part, with the capacitor that is connected with this induction coil other end, with fix this capacitor and surround above-mentioned induction coil an opening cover and stop up the lid of this cover peristome; Described induction coil, form by the spiral portion that forms coil and the extended line portion of extending from this spiral portion, between a described end of base end part that the described spiral portion from this extended line portion begins to extend and described induction coil, form rake, a described end of described induction coil is positioned at than more close described lid one side of described base end part.

According to above-mentioned formation, when increasing the height of above-mentioned stem stem insulator for the distance that strengthens above-mentioned stem stem insulator and above-mentioned cover surface, with an above-mentioned end with respect to the center of above-mentioned induction coil diameter, be positioned at and only increase above-mentioned above-mentioned lid one side that blocks the edge body portion, like this, can prevent from the surface discharge of above-mentioned stem stem insulator, simultaneously, the space length that can guarantee the above-mentioned induction coil outside of defined in international standard IEC60335-1 etc. and above-mentioned lid can be controlled the magnetron maximization more than 14.5mm.And, owing to can make an above-mentioned end and above-mentioned cathode terminal at same height, thereby also can connect easily.

In addition, when forming an above-mentioned end near above-mentioned lid side than the cardinal extremity of above-mentioned extended line portion, slowly tilt to an above-mentioned end with the cardinal extremity from above-mentioned extended line portion, compare with the ladder of making approximate right angle, the line that can prevent above-mentioned line of induction astragal produces be full of cracks or disrumpent feelings etc.

And then, it is characterized in that: each above-mentioned induction coil is formed identical shaped, use, can be reduced in the working loss in component management cost and the manufacturing process so above-mentioned induction coil can be used as universal component.

In addition, manufacture method of the present invention, described magnetron, have: the induction coil that an end is connected with a pair of cathode terminal on being bonded on the stem stem insulator that constitutes a magnetron body part, with the capacitor that is connected with this induction coil other end, with fix this capacitor and surround above-mentioned induction coil an opening cover and stop up the lid of this cover peristome; It is characterized in that, on described induction coil, spiral portion that forms coil and the extended line portion of extending from this spiral portion are shaped, the described other end of each described induction coil is connected on the described capacitor, described induction coil and described capacitor is integrated, and, between a described end of base end part that the described spiral portion from described extended line portion begins to extend and described induction coil, form rake, the described end of described induction coil is shaped, be located at than more close described lid one side of described base end part, after this is shaped, described capacitor is fixed on the described cover, and a described end of described induction coil is connected with described cathode terminal.

According to above-mentioned manufacture method, when increasing the height of above-mentioned insulator for the creepage distance of extend above-mentioned stem stem insulator and above-mentioned cover, the other end with each above-mentioned induction coil is connected on the above-mentioned capacitor in advance, with above-mentioned induction coil and above-mentioned capacitor integration, after this integration, if an above-mentioned end is centered close to above-mentioned lid one side of only increasing part with respect to the diameter of above-mentioned induction coil to be formed, just can guarantee the creepage distance of above-mentioned stem stem insulator, simultaneously, can also make an above-mentioned terminal and an above-mentioned end be positioned at same height, improve the attended operation of an above-mentioned end and cathode terminal.In addition,, needn't increase space length that above-mentioned cover just can guarantee the outside of the above-mentioned induction coil of defined in international standard IEC60335-1 etc. and above-mentioned lid side more than 14.5mm, can control magnetron and maximize according to above-mentioned formation.In addition, when the other end with above-mentioned induction coil is connected on the above-mentioned capacitor, even above-mentioned induction coil is imposed external force the height of an above-mentioned end is offset, also can in the operation of above-mentioned rake that is shaped, correct offsets in height, so can make the attended operation of an above-mentioned end and above-mentioned cathode terminal stable and can realize automation.

In addition, when an above-mentioned end being positioned at base end part than above-mentioned extended line portion and being shaped by above-mentioned lid side, tilt gradually to an above-mentioned end with cardinal extremity,, can prevent the generation be full of cracks of line of above-mentioned induction coil or disrumpent feelings compared with the situation of the ladder of making approximate right angle from above-mentioned extended line portion.

And then, because each above-mentioned induction coil is shaped as feature equally to form, thus above-mentioned induction coil can be used jointly, so can reduce the working loss in component management cost and the manufacturing process.

Description of drawings

Fig. 1 is the longitudinal section of the magnetron major part of expression the present invention the 1st embodiment.

Fig. 2 is the vertical view of major part among Fig. 1.

Fig. 3 is the assembly drawing of this magnetron.

Fig. 4 is the longitudinal section of the major part of former magnetron.

Among the figure: 1-magnetron body, 3-stem stem insulator, 4-cathode terminal, 5-feedthrough capacitor (capacitor), the 8-induction coil, 9-radome, 11-lid, 8f-leading section (end), 8b-core type induction part (spiral portion), 8c-hollow type induction part (spiral portion), 8d-extended line portion, the 8e-base end part, the 8g-rake.

Embodiment

Describe embodiments of the invention with reference to the accompanying drawings in detail.

Fig. 1 is the cutaway view of the magnetron major part of expression the present invention the 1st embodiment, Fig. 2, is the vertical view of the major part of Fig. 1, and Fig. 3 is the assembly drawing of identical magnetron.

The 1st, have the magnetron body of filament and anode (all not shown).

The 2nd, constitute the tubular canister of above-mentioned magnetron body 1 part, on this container 2, by the stem stem insulator 3 that is formed the heat-resisting quantity that columned aluminium pottery etc. constitutes, by soldering and this tubular canister 2 tight engagement.

The 4th, be sealed a pair of cathode terminal of the bottom surface that is bonded on above-mentioned stem stem insulator 3 by soldering.

The 5th, with the feedthrough capacitor of blocking-up from the next unwanted noise of above-mentioned cathode terminal 4 transmission, the other end of induction coil 8 described later is connected on the center conductor of connecting with outside terminal 67.

The 8th, be arranged between above-mentioned feedthrough capacitor 5 and the above-mentioned cathode terminal 4 and block or decay and transmit a pair of induction coil of the unwanted noise that comes from above-mentioned cathode terminal 4.

Above-mentioned induction coil 8, diameter by the film that will be covered is the copper cash of the thermal endurance insulating resin of 1.4mm, be the hollow type induction part 8c formations that are wound into about 4.5 circles of the core type induction part 8b that are about 9.5 circles and the no above-mentioned 8a unshakable in one's determination that reeled on the 8a cylindric unshakable in one's determination of 5mm at the external diameter that constitutes by ferrite; The diameter of above-mentioned core type induction part 8b and above-mentioned hollow type induction part 8c is formed 7.8mm respectively.Then, at an end of above-mentioned induction coil 8, be formed with the 8d of extended line portion that prolongs to this hollow type induction part 8c side from above-mentioned hollow type induction part 8c.In addition, as shown in Figure 1, begin to extend to base end part 8e from the above-mentioned hollow type induction part 8c of the above-mentioned extended line 8d of portion, be positioned at about center of the diameter of above-mentioned core type induction part 8b and above-mentioned hollow type induction part 8c, between the leading section 8f of the above-mentioned extended line 8d of portion and base end part 8e, form rake 8g, the leading section 8f of the above-mentioned extended line 8d of portion, more close above-mentioned lid 11 1 sides in summary center than the diameter of above-mentioned core type induction part 8b and above-mentioned hollow type induction part 8c, that is, be positioned at than above-mentioned base end part 8e approximately by above-mentioned lid 11 side 2mm.Then, the leading section 8f of the above-mentioned extended line 8d of portion is connected respectively with above-mentioned cathode terminal 4.

Yet, be connected the above-mentioned induction coil 8 of above-mentioned cathode terminal about 4, be formed to about all spendable identical shaped, use as the common portion of 1 parts, so can reduce component management cost and the working loss in manufacturing process.

The 9th, at the metallic radome of the bottom surface opening that surrounds above-mentioned induction coil 8, by the ground plate 10 in installation of the side of this radome 9 and above-mentioned feedthrough capacitor 5 one, above-mentioned feedthrough capacitor 5 is fixed on the above-mentioned radome 9.

The 11st, the metallic lid at the peristome that covers above-mentioned radome 9 makes noise not to air leakage with above-mentioned radome 9.

The outside terminal 6 of above-mentioned feedthrough capacitor 5 is added the negative high-voltage of about 4kV, and above-mentioned magnetron carries out work.During work, because carrying out electrical equipment by above-mentioned stem stem insulator 3 separates, so above-mentioned magnetron body 1, above-mentioned radome 9, above-mentioned lid 11 are earthing potential, and the center conductor 7 of above-mentioned cathode terminal 4, above-mentioned induction coil 8, above-mentioned feedthrough capacitor 5 is a high potential.

In addition, the space length of the outside of above-mentioned induction coil 8 and above-mentioned radome 9 and above-mentioned lid 11 is secured at more than the 14.5mm of defineds such as international standard IEC60335-1, and the ground plate 10 of above-mentioned perforation electric capacity 5 is installed on the above-mentioned radome 9.And then also existence to the situation that above-mentioned radome 9 discharges, so in the present embodiment, for fully guaranteeing the creepage distance of above-mentioned stem stem insulator 3, had been increased 2mm with the aspect ratio of above-mentioned stem stem insulator 3 by the surface of above-mentioned stem stem insulator 3 in the past.

In addition, usually, when the height of above-mentioned stem stem insulator 3 uprises, though the part that the position of only above-mentioned cathode terminal 4 uprises is near above-mentioned lid 11 sides (about in the present embodiment 2mm), but in the present embodiment, by from the above-mentioned hollow type induction part 8c of the above-mentioned extended line 8d of portion to the base end part 8e that begins to prolong, and the above-mentioned rake 8g of formation between the above-mentioned leading section 8f, therefore the leading section 8f of the above-mentioned extended line 8d of portion depends on the about 2mm of above-mentioned lid 11 1 sides than the summary center of the diameter of above-mentioned core type induction part 8b and above-mentioned hollow type induction part 8c, even so do not change the ground plate 10 of above-mentioned feedthrough capacitor 5 and above-mentioned radome 9 installation site to above-mentioned lid 11 1 sides, also can make the leading section 8f of above-mentioned cathode terminal 4-and the above-mentioned extended line 8d of portion be in same height, can be easily the leading section 8f of the above-mentioned extended line 8d of portion be connected with above-mentioned cathode terminal 4.Thereby, the space length B of the space length A of the outside of above-mentioned induction coil 8 and above-mentioned lid 11 sides and the outside of above-mentioned induction coil 8 and above-mentioned radome 9 sides still as just, needn't more than 14.5mm, increase above-mentioned radome 9 for what guarantee defined such as international standard IEC60335-1, have and to suppress the effect that magnetron maximizes.

In addition, when the leading section 8f of above-mentioned extension 8d being formed than base end part 8e near above-mentioned lid 11 sides, owing to be formed obliquely above-mentioned rake 8g gradually to above-mentioned leading section 8f from above-mentioned base end part 8e, so, can prevent from the copper cash of above-mentioned induction coil 8, to take place effects such as be full of cracks or breakdown than the situation of the step that forms approximate right angle.

In addition, since each above-mentioned induction coil 8 be formed can use arbitrarily above-mentioned cathode terminal 4 about same shape, parts can be used as universal component, so have the effect of the operation consumption that can realize reducing in component management cost and the manufacturing process.

Yet in the present embodiment,, also can not form extended line portion and directly the end of hollow type induction part 8c is connected on the cathode terminal 4 though on induction coil 8, formed the 8d of extended line portion.

In addition, though constitute by core type induction part 8b and aircored hollow type induction part 8c, to noise in requisition for control, can be only by the core type induction part or only hollow type induction part etc. form the form of all iron cores.

The assemble method of above-mentioned formation is described according to Fig. 3 below.

At first, the other end of above-mentioned induction coil 8 with after the center conductor 7 of above-mentioned feedthrough capacitor 5 docks, be attempted by above-mentioned center conductor 7 places with arc welding melting copper line front end, make above-mentioned induction coil 8 and 5 integrations of above-mentioned feedthrough capacitor.

Then, use front end to have 2 mould J, the J on inclined plane, hold under the arm to live in to state the 8b of extended line portion and push from above-below direction, between above-mentioned leading section 8f and above-mentioned base end part 8e, form above-mentioned rake 8g, above-mentioned leading section 8f, with about 2mm, that is, lean on the position formation of above-mentioned lid one side than the approximate center of above-mentioned core type induction part 8b and above-mentioned hollow type induction part 8c diameter with respect to above-mentioned base end part 8e.

Secondly, the ground plate 10 of above-mentioned perforation electric capacity 5 is installed in the side of above-mentioned radome 9, the leading section 8e of the above-mentioned extended line 8d of portion is with after above-mentioned cathode terminal 4 docks, and connects with the front end of arc welding melting copper line.

The above-mentioned lid 11 that covers above-mentioned radome 9 bottom surface peristomes is installed then.

By above-mentioned manufacture method, with above-mentioned induction coil 8 and the above-mentioned rake 8g of above-mentioned capacitor 5 integration postforming, like this when above-mentioned induction coil 8 being connected above-mentioned capacitor 5, even above-mentioned induction coil 8 is imposed external force the height of the leading section 8e of the above-mentioned extended line 8b of portion is offset, also can in the operation of above-mentioned rake 8g that is shaped, correct above-mentioned leading section 8e offsets in height, so the leading section 8e of the above-mentioned extended line 8d of portion and the attended operation of above-mentioned cathode terminal 4 are stablized, have the effect that can realize automation.

In addition, when the leading section 8f with the above-mentioned extended line 8d of portion forms than base end part 8e near above-mentioned lid 11 1 sides, owing to slowly be formed obliquely above-mentioned rake 8g to above-mentioned leading section 8f from above-mentioned base end part 8e, so, have and to prevent from the copper cash of above-mentioned induction coil 8, to take place effects such as be full of cracks or breakdown compared with the situation that constitutes ladder with approximate right angle.

And then, because each above-mentioned induction coil 8, be formed can use arbitrarily above-mentioned cathode terminal 4 about same shape, so parts can be used as universal component, have the effect of the operation consume that can realize reducing in component management cost and the manufacturing process.

(invention effect)

1 magnetron according to the present invention, owing to have cover that surrounds an opening of induction coil and the lid that stops up this cover peristome, and an above-mentioned end more is positioned at above-mentioned lid one side than the center of above-mentioned induction coil diameter, so when for the creepage distance of the above-mentioned stem stem insulator that extends when increasing the height of above-mentioned stem stem insulator, even do not change the installation site of above-mentioned capacitor to above-mentioned lid, the front end of above-mentioned cathode terminal and above-mentioned extended line portion also is the position of same height, can prevent from the surface discharge of above-mentioned stem stem insulator, simultaneously, do not increase space length that above-mentioned cover just can guarantee the outside of the above-mentioned inductor of defined in international standard IEC60335-1 etc. and above-mentioned lid side more than 14.5mm, can controlled magnetron maximization etc. effect.

2 magnetron according to the present invention, because above-mentioned induction coil constitutes by the spiral portion that is rolled into coil with in above-mentioned one distolateral extended line portion of extending from above-mentioned spiral portion, and between a base end part and an above-mentioned end that the above-mentioned spiral portion from this extended line portion begins to extend, form the rake that tilts to prolong, so when forming above-mentioned rake, slowly tilt to an end by base end part, have the line place that can prevent effects such as be full of cracks or breakage take place at above-mentioned induction coil from above-mentioned extended line portion.

3 magnetron according to the present invention because each above-mentioned induction coil is formed same shape, so above-mentioned induction coil can be used as universal component, has the effect that can realize reducing operation consume in component management cost and the manufacturing process.

The manufacture method of 4 magnetron according to the present invention, after the other end with each above-mentioned induction coil is connected on the above-mentioned capacitor, with than the center of above-mentioned induction coil diameter by the above-mentioned lid one side above-mentioned end that is shaped, after forming like this, above-mentioned capacitor is fixed on the above-mentioned cover, and an above-mentioned end is connected on the above-mentioned cathode terminal, so when increasing the height of above-mentioned stem stem insulator for the creepage distance that prolongs above-mentioned stem stem insulator, even do not change the installation site of above-mentioned capacitor to above-mentioned lid, one end of above-mentioned cathode terminal and above-mentioned extended line portion also is in the position of same height, can prevent from the surface discharge of above-mentioned stem stem insulator, simultaneously, do not increase space length that above-mentioned cover just can guarantee the outside of the above-mentioned inductor of defined in international standard IEC60335-1 etc. and above-mentioned lid side more than 14.5mm, can control magnetron and maximize.In addition, when being connected above-mentioned induction coil on the above-mentioned capacitor, even above-mentioned induction coil is imposed external force and an end height of above-mentioned extended line portion is offset, the skew that in the operation of above-mentioned rake that is shaped, also can correct height, so can make the working stability that is connected of end of above-mentioned extended line portion and above-mentioned cathode terminal, can accomplished automation etc. effect.

The manufacture method of 5 magnetron according to the present invention, because above-mentioned induction coil, form by the spiral portion that forms coil with in above-mentioned one distolateral extended line portion of extending from above-mentioned spiral portion, this extended line portion has formed the rake that tilts to prolong between a base end part that begins to extend from above-mentioned spiral portion and an above-mentioned end, so when forming above-mentioned rake, tilt gradually to an end with base end part, have and to prevent from the line of above-mentioned induction coil to take place effects such as be full of cracks or breakage from the above-mentioned extended line of front end portion.

The manufacture method of 6 magnetron according to the present invention, because each above-mentioned induction coil is formed same shape, so above-mentioned induction coil can be used as universal component, have the effect that can realize reducing operation consume in component management cost and the manufacturing process.

Claims (2)

1. magnetron, it is characterized in that, have: the induction coil that an end is connected with a pair of cathode terminal on being bonded on the stem stem insulator that constitutes a magnetron body part, with the capacitor that is connected with this induction coil other end, with fix this capacitor and surround described induction coil an opening cover and stop up the lid of this cover peristome; Described induction coil, form by the spiral portion that forms coil and the extended line portion of extending from this spiral portion, between a described end of base end part that the described spiral portion from this extended line portion begins to extend and described induction coil, form rake, a described end of described induction coil is positioned at than more close described lid one side of described base end part.

2. the manufacture method of a magnetron, described magnetron, have: the induction coil that an end is connected with a pair of cathode terminal on being bonded on the stem stem insulator that constitutes a magnetron body part, with the capacitor that is connected with this induction coil other end, with fix this capacitor and surround described induction coil an opening cover and stop up the lid of this cover peristome; It is characterized in that, on described induction coil, spiral portion that forms coil and the extended line portion of extending from this spiral portion are shaped, the described other end of each described induction coil is connected on the described capacitor, described induction coil and described capacitor is integrated, and, between a described end of base end part that the described spiral portion from described extended line portion begins to extend and described induction coil, form rake, the described end of described induction coil is shaped, be located at than more close described lid one side of described base end part, after this is shaped, described capacitor is fixed on the described cover, and a described end of described induction coil is connected with described cathode terminal.

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