CN1041362C - Electron gun for color cathode-ray tube - Google Patents

Abstract

To improve a convergence characteristic even when a dimension of a main convergence lens of an electron gun is restricted by an inside diameter of a neck part of a glass envelope. Electron gun electrodes 16a and 17a have first and second electrode members 29, 30, 31 and 32. The first electrode members 29 and 31 in the electrode 16a are separated by a prescribed distance in the axial direction from a common opening part 27 or 28 of the electrode 16a. The first electrode members 29 and 30 have longitudinally connected-shaped plural opening parts in the horizontal direction, and these opening parts partially overlap each other, and are communicated with each other, and form a single opening hole 35 or 36 as a whole. The respective opening parts correspond to respective single beams of plural electron beams. The second electrode members 31 and 32 in the electrode 17a are separated by a prescribed distance in the axial direction from the first electrode members 29 and 30, and are also separated so as to separate the common opening part of the electrode more than the first electrode members 29 and 30.

Description

The electron gun of color cathode ray tube

The present invention relates to a kind of electron gun of color cathode ray tube, particularly relate to the configuration of the electron gun electrodes of the main electrostatic focusing lens that constitutes electron gun.

Conventional color cathode ray tube with array type electron gun as shown in Figure 1.Screen board 2 and coupled funnel part 3 before the glass shell 1 of cathode ray tube comprises.Scribble the three-colour light-emitting material is configured in screen board 2 in order to the phosphor screen of developed color image inwall.Be arranged in the shell 1 contiguous screen board 2 and spaced apart with phosphor screen in order to the shadow mask 4 that selects look.

Electron gun 5 is arranged in the neck part of funnel part 3 coaxially, along the coplane converging passageway, arrives phosphor screens by shadow mask 4 to produce and to guide three electron beams (every electron beam corresponding in the three primary colors of the same colour).More precisely, these by the molecular electron beam of thermoelectricity by negative electrode 6,7,8 emission of electron gun 5 and by the corresponding hole on first and second grids 9 and 10.Then, every electron beam along in electron beam channel 11,12 and 13 (shown in the solid lines among Fig. 1) corresponding one direct into screen board 2.There is an axle parallel to each other in correspondingly hole in each negative electrode in the negative electrode 6,7,8 and first, second grid 9,10 on common plane, each all with electron beam channel 11,12,13 in corresponding one coincide.

Referring to Fig. 1, along central electronic beam passage 12, i.e. electron beam channel 11,12 and 13 central authorities extend to the line Z-Z of screen board 2, are called " direction of principal axis " hereinafter.Equally, vertical with direction of principal axis and along the line X-X of the common plane horizontal expansion at electron beam channel 11,12 and 13 places, be called " horizontal direction ", with the direction of principal axis line Y-Y (in figure do not provide) vertical, be called " vertical direction " with horizontal direction.

Article three, each bar in the electron beam is all current along the electron beam channel 11,12 and 13 separately that is arranged on the common plane, by second grid 10, then by third and fourth grid 14 and 15.Third and fourth grid 14 and 15 constitutes auxiliary focusing lens.Then, every current first and second acceleration/focusing electrodes 16 and 17 that pass the main focusing lens that constitutes electron gun of electron beam.For constituting this main focusing lens, the second acceleration/focusing electrode 17 is added the voltage of 25KV-35KV, the 20-30% of this voltage is added to first electrode 16.

Because the middle body of main focusing lens is coaxial with central electronic beam passage 12, this central electron beam, promptly that central electron beam of walking by the main focusing lens middle body in three electron beams is focused and attenuates, and is accelerated the phosphor screen that axially flies as the crow flies.Yet, because the Outboard Sections of main focusing lens is not coaxial with central electronic beam passage 12, two outer beams by the main focusing lens Outboard Sections in these three electron beams not only focus on and attenuate, but also to the central electronic beam convergence, intersect thereby these three electron beams are assembled at shadow mask 4 places, be accelerated then and arrive phosphor screen to excite colour thereon.

For electron beam is scanned on phosphor screen, outside pipe, press close to glass shell 1 place external magnetic deflection yoke 18 is set.The above-mentioned work that electron beam is attenuated with main focusing lens is called " focusing ", above-mentionedly makes the work of electron-beam convergence be called " electrostatic convergence " with main focusing lens.

Fig. 2 illustrates the first and second acceleration/focusing electrodes 16 of the used electron gun main focusing lens of prior art in the pie graph 1 and 17 part is analysed and observe perspective view.(pipe that open end opens wide the non-cylindrical of the local closure of the other end (closing end) constitutes the first acceleration/focusing electrode 16 by an end.More precisely, first electrode 16 comprise housing 19 with the whole closing ends of 19 one-tenth of housings on closed end face 20.On the closed end face 20 three its electron beam through-holes 111,112 and 113 that are parallel to each other and separate are arranged.Each electron beam through-hole 111,112 and 113 all respectively by one in the cylindric lip limit 121,122 and 123 separately surround.The open end of housing 19 is all inwardly stretched on each cylindrical shape lip limit from closed end face 20.

Second acceleration/the focusing electrode 17 structure with first electrode 16 in fact is identical, and with respect to horizontal direction and first electrode, 16 symmetries.Second acceleration/the focusing electrode 17 comprise housing 21 with the whole closed end faces 22 of 21 one-tenth of housings.On the closed end face 22 three electron beam through-holes 131,132 and 133 are arranged.In the electron beam through-hole 131,132 and 133 each all respectively by in cylindrical shape lip limit 141,142 and 143 separately one surround.The open end of housing 21 is all inwardly stretched on each cylindrical shape lip limit from closed end face 22.

The outer beams of this first acceleration/focusing electrode 16 by hole 111 and 113 along continuous straight runs with the first identical spacing, be centre-to-centre spacing, separate by hole 112 with central electron beam, and the spacing identical (as shown in Figure 1) between in this spacing and the outer beams passage 11,13 and the central electronic beam passage 12.Equally, the outer beams of the second acceleration/focusing electrode 17 separates by hole 132 with second identical spacing and central electron beam with 133 by hole 131.This second gap ratio, first spacing is big slightly.First and second acceleration/the focusing electrodes 16 and each closed end face 20 and 22 of 17 face toward mutually, and at a distance of a given distance " g ".

Three independently main focusing lenss are arranged in prior art constructions, each lens respectively with three electron beams in one corresponding.For example, three pairs of electron beam through-holes are arranged in the first and second acceleration/focusing electrodes 16 and 17, first pair comprises that apertura lateralis 111 and 131, the second pairs comprise that medium pore 112 and 132 and the 3rd pairs comprise apertura lateralis 113 and 133.Each all uses a pair of lip limit in first pair of lip limit 121 and 141, the second pairs of lip limits 122 and 142 and the 3rd pairs of lip limits 123 and 143 to surround respectively to electron beam through-hole.Three independently each of main focusing lens three electron beams are focused on by this that electron beam to electron beam through-hole.

Because it is big corresponding to first spacing of the electron beam through-hole 111,112 of the first acceleration/focusing electrode 16 and 113 corresponding to second gap ratio of the electron beam through-hole 131,132 of the second acceleration/focusing electrode 17 and 133, so comprise that a pair of central electron beam is coaxial with direction of principal axis by hole 112 and 132 central main focusing lens, and comprise pair of outside electron beam through- hole 111 and 131 and another outside main focusing lens to outside electron beam through- hole 113 and 133 not coaxial with direction of principal axis.

Therefore, the central electron beam by central main focusing lens focuses on and attenuates, and is accelerated, the phosphor screen that axially flies as the crow flies, and the outer beams by outside main focusing lens not only focuses on and attenuates but also to the central electronic beam convergence.

Usually, the resolution of color cathode ray tube is influenced by the focus characteristics of electron gun in it.The aperture of the main focusing lens of getting burnt characteristic and electron gun of this cathode ray tube is closely related.More precisely, the multiplying power of main focusing lens and spherical aberration influence the focus characteristics of color cathode ray tube.These factors strictly depend on the intensity of main focusing lens focussing force.Therefore, if the size of electrostatic lens or diameter increase with ratio R, then in the electrostatic lens second of the current potential axial derivative with 1/R ²Ratio reduce.

As a result, the intensity A of lens is-1/R that the spherical aberration C of lens is: C-1/R ³Therefore, spherical aberration C can reduce significantly with the increase in main focusing lens aperture, and the multiplying power of main focusing lens can reduce with the reduction of lens strength.And then can obtain little electron-beam point and can improve the focus characteristics of lens by following relation:

The electricity of determining by the multiplying power of main lens the diameter of bundle point:

DX＝M·dX

The diameter of the electron-beam point that causes because of spherical aberration:

DC＝1/2M·C·θ ³

Wherein: M is the multiplying power of main focusing lens;

C is the spherical aberration coefficient of main focusing lens;

DX is the size of imaging object; With

θ is the incidence angle of main focusing lens place electron beam.

Yet, when the in-line arrangement color cathode ray tube of routine is used above-mentioned relation, because be arranged on the common horizontal plane with corresponding three main focusing lenss of electron beam, hole 111,112,113,131,132 in constituting the first and second acceleration/focusing electrodes 16 and 17 of main focusing lens and 133 diameter should be less than 1/3rd of the neck part internal diameters of the glass shell 1 that holds electron gun 5.When the thickness of considering this acceleration/focusing electrode and mechanical tolerance, the maximum of electron beam through-hole allows diameter dimension further to be restricted.

Obviously the internal diameter that increases the neck part can increase the diameter of electron lens, but this will increase deflection power.And the increase of electron beam through-hole diameter can make the centre-to-centre spacing between the hole increase, and this just influences convergent effect on the contrary.

As the way of dealing with problems, in U.S. Patent No. 4,599,534 (issues on July 8th, 1986) and 4,626, attempt in 738 (issues on December 2nd, 1986) in the element that separates, to form this hole, make the aperture in the scope of physical restriction, reach maximum, rather than directly form the hole of the first and second acceleration/focusing electrodes as described above at the closed end face of electrode.In above-mentioned patent, for the effective diameter that increases main focusing lens and level and vertical focusing by balanced lens are used for eliminating dispersion phenomenon, in the shell of pipe, used by housing and the electrostatic field control electrode that has the separate mesh electrode plate of ellipse or polygonal hole to constitute.

Though above-mentioned approach can help to reduce the number of elements of electrostatic field control electrode, in order to control the deep infiltration of electric field effectively to level and vertical direction comparative electrode, the size of ellipse or polygonal hole must be limited by multinomial or other complicated formula, this just makes electrode design complicate, and makes electrode design be difficult to change design according to the variation of color cathode ray tube size and/or the variation of used deflecting coil pattern.

The purpose of this invention is to provide a kind of electron gun, particularly the size at its electron gun main focusing lens is accommodated the situation of restriction of the pipe glass bulb neck internal diameter of electron gun with improved color cathode ray tube focus characteristics.

Another object of the present invention provides a kind of electron gun with simple hole shape to simplify the design of electron gun, realizes the variation of electron gun structure simple and easyly.

For reaching this purpose and invention intention, according to described embodiments of the invention, electron gun of the present invention comprises the device that produces many electron guns, every electron beam is corresponding to a colour cell that forms coloured image, a pair of main focusing lens device is symmetrical mutually with respect to horizontal direction, and coaxial at direction of principal axis and ray tube.This is coupled to the electron production device to the prime focus electrode assembly, so that provide path for electron beam.Each prime focus electrode assembly has a common hole, each common hole and at interval given distance relative with another common hole.Each prime focus electrode assembly comprises first and second electrode members.First electrode member in the main focus lens electrode device and the common hole of electrode assembly are in a direction of principal axis given distance at interval.This first electrode member comprises a plurality of holes connected in series in the horizontal direction, in corresponding said many electron beams in each hole corresponding one, it is characterized in that: said a plurality of holes are partly superimposed mutually in twos and form one or more superimposed districts, and said a plurality of hole is interconnected, to constitute single window, second electrode member and first electrode member one are given set a distance at interval at direction of principal axis, than the common hole of first electrode member further from electrode assembly.

According to will be in the another embodiment of the present invention of this general description, each electrode assembly comprises:

First electrode member, said first electrode member comprises a plurality of holes connected in series in the horizontal direction, in corresponding said many electron beams in each hole corresponding one, described first electrode member comprises an architrave, described architrave is near the common hole of said electrode assembly, and it comprises: on the periphery of the common hole of said electrode assembly and facing to the architrave face of another electrode; Inner edge wall from the architrave face along housing extends the architrave endless belt of certain distance; It is characterized in that: said architrave also comprises one from the recessed distance of said architrave face, is arranged in the architrave endless belt and chain link formula architrave element in aggregates with it, this chain link formula architrave element have the superimposed hole of a plurality of parts each other and constitute single window and

One is located in the electroplax device and gives the control electrode plate of set a distance at interval with architrave.

Other purpose of the present invention and advantage will state in the following description, and will be well understood to by the following description, or recognize by practice of the present invention.These purposes of the present invention and advantage will realize and finish by means of each unit that particularly points out in described claim and combination.

The accompanying drawing that combines with specification and constitute this specification part has been showed several embodiments of the present invention, and with declaratives in order to illustrate principle of the present invention.

Fig. 1 is the cross-sectional view of the color cathode ray tube of prior art.

Fig. 2 is the partial view that the part of prior art colour cathode-ray tube electron gun main focusing lens among Fig. 1 cuts.

Fig. 3 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of first preferred embodiment of the invention cuts.

Fig. 4 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of second preferred embodiment of the invention cuts.

Fig. 5 is the perspective view of first kind of modification of second electrode member of electron gun first and second electrodes of first and second embodiment of the present invention.

Fig. 6-1,6-2 are the perspective view and the end views of second kind of modification of second electrode member of electron gun first and second electrodes of first and second embodiment of the present invention.

Fig. 7 is the perspective view of the third modification of second electrode member of electron gun first and second electrodes of first and second embodiment of the present invention.

Fig. 8 is the perspective view of the 4th kind of modification of second electrode member of electron gun first and second electrodes of first and second embodiment of the present invention.

Fig. 9 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of third preferred embodiment of the invention cuts.

Figure 10 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of four preferred embodiment of the invention cuts.

Figure 11 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of fifth preferred embodiment of the invention cuts.

Figure 12 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of sixth preferred embodiment of the invention cuts.

Figure 13 is the partial view that the part of the colour cathode-ray tube electron gun main focusing lens of seventh preferred embodiment of the invention cuts.

Example now with reference to accompanying drawing is described in detail the preferred embodiments of the present invention.Wherein identical reference numerals is all being represented same or similar parts in the accompanying drawing.

The colour cathode-ray tube electron gun that Fig. 3 illustrates first embodiment of the invention is partly dissectd to show the perspective view of critical piece.First and second acceleration/focusing electrode the 16a and 17a face and constitute the main focusing lens of electron gun mutually.Each of the first and second electrode 16a and 17a comprises one the non-cylindrical pipe that has respectively in housing 23 and 25.Each housing 23 (or 25) has a hole at one end (open end), at the other end one common hole 27 (or 28) is arranged.These holes are preferably elliptical shape (perhaps being called " endless belt " shape hereinafter), and its horizontal direction size is bigger than vertical direction size.

Each common hole 27 (or 28) is for electron beam provides passage, and near the periphery place one architrave 24 (or 26) arranged preferably.The common hole 27 of the first electrode 16a and the common hole 28 of the second electrode 17a are faced mutually.Architrave 24 (or 26) preferably includes an architrave face 24a (or 26a) relative with another common hole on the common hole periphery and a narrow endless belt 24b (or 26b).So that form narrow endless belt 24b at the inwall near common hole 27 (or 28), this narrow endless belt constitutes architrave 24 (or 26) to the peripheral part of common hole 27 (or 28) towards open end direction crooked in housing 23 (or 25) (or folding).

Here the said first electrode 16a comprises that one is positioned at first electrode member 29 of housing 23, and first electrode member 29 and architrave face 24a (the perhaps periphery of common hole 27) (perhaps are called " recessed " hereinafter) at interval and one give set a distance.Equally, the second electrode 17a comprises first electrode member 30 that is positioned at housing 25, and first electrode member 30 is from the given distance of architrave face 26a (the perhaps periphery of common hole 28) recessed.Here said each first electrode member 29 (or 30) comprises three holes that part is superimposed, and they are the chain type bunchiness and arrange.These three holes interconnect and constitute single window 35 (or 36) jointly.Each of three holes is respectively an electron beam one passage is provided, and preferably circular.

Here the said first electrode 16a also comprises second electrode member 31 near first electrode member 29, and second electrode member 31 and first electrode member, 29 intervals, one given distance h, and recessed further from architrave face 24a with respect to first electrode member 29.Equally, the second electrode 17a also comprises second electrode member 32 near first electrode member 30, and second electrode member 32 and the given distance h in first electrode member, 30 intervals one, and recessed further from architrave 26a with respect to first electrode member 30.

Each second electrode member 31 (or 32) comprises the frame element that a pair of cardinal principle is vertical, and they are spaced from each other in the horizontal direction and are parallel to each other in vertical direction.Each vertical frame element all has a given width " W ", and is provided with respectively near one in two superimposed parts in three holes of the single window 35 of first electrode member 29 (or 30).Each perpendicular elements and corresponding superimposed part be a given distance h at interval, and recessed further from architrave 24 (or 26) with respect to first electrode member 29 (or 30).

According to single embodiment of the present invention, the first electrode 16a (or second electrode 17a) comprises with given distance h apart from one another by first electrode member of opening 29 (or 30) and second electrode member 31 (or 32).And in second electrode member 31 (or 32), this is preferably in the one end parts to vertical frame element and is connected to each other with a horizontal frame element, forms the fence formula rectangle frame 31a (or 32a) of band apart from shape window 37 (or 38).It is big that the vertical dimension of this rectangular window cans be compared to its horizontal size most.

The horizontal cell of each rectangle frame 31a (or 32a) preferably to first electrode member 29 (or 30) crooked and and its mechanical connection to guarantee between first electrode member 29 (or 30) and second electrode member 31 (or a 32) fixed range h being arranged.First electrode member 29 (or 30) and second electrode member 31 (or 32) constitute electrostatic field control electrode plate jointly.This electrostatic field control electrode plate from architrave 24 and 26 corresponding one inside recessed one give set a distance.

Among architrave face 24a and the 26a each is relative with another, and the given distance " g " of each interval one, and said architrave face 24a and 26a are equivalent to the end face of the first and second acceleration/focusing electrode 16a and the corresponding common hole of 17a.Therefore, as said, in the kind electrode structure of electron gun of the present invention, electric field between first and second electrode 16a that common hole end face is relative to each other arranged and 17a penetrates electrostatic field control electrode plate dearly, thereby plays the effect of the effective diameter that increases main focusing lens in fact.Owing to have a this electron gun structure of the present invention, thereby the effect that adopts the aperture that increases main focusing lens to obtain usually, then utilize the present invention to need not to carry out again such machinery and increase and also can reach.

Common hole 27 (or 28) by architrave 24 (or 26) around and with the shape of non-circular (preferably ellipse), the size of its horizontal direction is bigger than the size of vertical direction.Therefore, the infiltration of electric field is in the horizontal direction than big in vertical direction, and the effective diameter that makes main focusing lens is in the horizontal direction than big in vertical direction, thereby makes the horizontal focusing effect of main focusing lens littler than vertical focusing effect.As a result, when electron beam focuses on, owing to the difference between level and vertical direction focal length produces astigmatism.

Electron gun of the present invention has been corrected such astigmatism effectively.As previously mentioned, in the first and second acceleration/focusing electrode 16a and 17a each, this electrostatic field control electrode plate is made of first electrode member 29 (or 30) in the housing 23 (or 25) and second electrode member 31 (or 32), so that the infiltration of electric field is not only in level and vertical direction Be Controlled, at direction of principal axis also Be Controlled.

As mentioned above, electrostatic field control electrode plate of the present invention comprises first and second electrode members.First electrode member 29 (or 30) comprises three superimposed holes of the formation single window that is the arrangement of chain bunchiness, and second electrode member 31 (or 32) comprises a pair of parallel vertical frame element that preferably can define a rectangular window 37 (or 38) betwixt.Second electrode member 31 (or 32) is spaced apart with distance h with first electrode member 29 (or 30), and relative first electrode member 29 (or 30) is recessed to the open end of housing further from architrave 24 (or 26).This first electrode member 29 (or 30) is coaxial with second electrode member 31 (or 32).

In this structure of electrode, both control with first electrode member 29 (or 30) and second electrode member 31 (or 32) in the infiltration of electric field, and the control action of double effective rectification astigmatism is so just arranged.And since the rectangular opening 37 (or 38) of second electrode member 31 (or 32) preferably the size of its horizontal direction is littler than the size of vertical direction, the infiltration of electric field Be Controlled relatively on horizontal size, so each level and vertical focusing effect are adjusted equally substantially in three main focusing lenss, so that eliminate astigmatism.

Yet, although the rectangular window 37 (or 38) of second electrode member makes the focussing force balance on level and vertical both direction substantially, but the current potential in the rectangular window bight is not also controlled effectively, thereby can not obtain the circular electron beam point on phosphor screen.Means as a kind of control second electrode member rectangular window bight current potential, first electrode member 29 (or 30) is provided with near second electrode member 31 (or 32), said first electrode member comprises three circular holes that part is superimposed, these three superimposed circular holes of part are the arrangement of chain bunchiness and constitute single window 35 (or 36), said second electrode member 31 (or 32) comprises a rectangular window, and this just makes the bight of the rectangular window 37 (or 38) of second electrode member 31 (or 32) can be effectively be covered by the arc sections branch of the medium pore of first electrode member 29 (or 30).Therefore the current potential in the second electrode member rectangular window bight is under control, thereby can form the circular electron beam point on phosphor screen.

The typical sizes of each element is shown in following table 1 in the first preferred embodiment of the invention electron gun.

The table one first acceleration/focusing electrode 16a:

Be surrounded with the horizontal diameter of the electron beam common hole 27 of architrave 24: 19.0mm

The perpendicular diameter of common hole 27: 8.0mm

Distance between the architrave 24 and first electrode member 29: 3.0mm

Distance between the architrave 24 and second electrode member 31: 4.0mm

The diameter in the central, circular hole of first electrode member 29: 8.0mm

The diameter of the both sides circular port of first electrode member 29: 8.0mm-10.0mm

The horizontal size of the rectangular side window 37 of second electrode member 31: 4.4mm

The vertical dimension of the rectangular side window 37 of second electrode member 31: 10.0mm

The width W of the vertical frame element 31a of second electrode member 31: the 1.0mm second acceleration/focusing electrode 17a:

With architrave 26 around the horizontal diameter of common hole 28 of electron beam: 19.0mm

The perpendicular diameter of common hole 28: 8.0mm

Distance between the architrave 26 and first electrode member 30: 2.05mm

Distance between the architrave 26 and second electrode member 32: 3.05mm

The diameter in the central, circular hole of first electrode member 30: 8.0mm

The diameter of the both sides circular port of first electrode member 30: 8.0mm-10.0mm

The horizontal size of the rectangular side window 38 of second electrode member 32: 5.2mm

The vertical dimension of the rectangular side window 38 of second electrode member 32: 10.0mm

The width W of the vertical frame element 32a of second electrode member 32: 0.6mm

Gap g:1.0mm between the architrave 24 and 26 of the first and second acceleration/focusing electrode 16a and 17a

And because each electrostatic field control electrode plate is inwardly recessed by the architrave 24 (or 26) of housing 23 (or 25), the convergent force that points to central electron beam acts on the outer beams, thereby provides one to assemble effect.

In first preferred embodiment of the present invention, two outer mother rib lateral rotundums in three superimposed circular holes of first electrode member 29 (or 30) provide the effective aperture of main focusing lens for outer beams, and said three superimposed circular holes constitute the single window 35 (or 36) of electrostatic field control electrode plate jointly.The diameter that the diameter of these outer mother rib lateral rotundums of the single window 35 (or 36) of first electrode member 29 (or 30) cans be compared to the central circular hole in three superimposed circular holes of single window 35 (or 36) most is big.And, the outside Circularhole diameter of the single window 35 (or 36) of first electrode member 29 (or 30) is in the scope that is limited by color cathode ray tube screen size and/or used deflecting coil type, preferably make it big as far as possible, so that outer beams is to the central electronic beam convergence.

Fig. 4 illustrates second preferred embodiment of the present invention.The structure of the electron gun of second embodiment destatics outside the structure of first electrode member of electrode for field control plate, and the structure with the electron gun of first embodiment (shown in Fig. 3) is identical substantially.In a second embodiment, preferably make the apertura lateralis of the single window of first electrode member in given limited field, reach maximum.Label same in Fig. 3 and 4 is in order to represent same or similar element.

Referring to Fig. 4, the first electrode member 29a (or 30a) comprises three circular holes that part is superimposed as in first preferred embodiment in second preferred embodiment, and their chain type bunchiness are arranged and the formation single window.Yet in this second preferred embodiment, each Outboard Sections near its outside semi-circular portions is vertically cut away in two outside circles of the first electrode member 29a (or 30a).Preferably cut away half of each outer mother rib lateral rotundum approximately, so that the remainder of outer mother rib lateral rotundum forms a circular arc or semicircle near the medium pore place.

In other words, the outer end of each outer mother rib lateral rotundum of the first electrode member 29a (or 30a) is opened wide.Therefore, in the time of in electrostatic field control electrode plate is arranged on housing 23 (or 25), the apertura lateralis of the single window of the first electrode member 29a (or 30a) (it provides path for circular shape and for outer beams now) defines effectively with the inwall of housing 23 (or 25) and the residue circular arc portion of outer mother rib lateral rotundum, and this has just increased the effective diameter in the outer beams hole of the first electrode member 29a (or 30a).

Fig. 5,6-1,6-2,7 and 8 illustrate the typical variant according to the vertical frame component structure of the pair of parallel of second electrode member 31 (or 32) of first and second embodiment of the present invention.Referring to Fig. 5, the most handy a pair of horizontal bar of vertical bar is connected to each other to form the rectangle frame of said shape.The width dimensions of the horizontal direction of vertical bar (W) is bigger than gauge (t) at its direction of principal axis.Each vertical bar is arranged on the corresponding congruent region place near three superimposed holes of first electrode member 29 (or 30).

Interconnect referring to Fig. 6-1,6-2 vertical bar, and bigger than its thickness (t) like that in the best image pattern 5 of the width of each vertical bar (W).Yet each vertical bar is curved several angles in Fig. 6-1,6-2.The vertical bar of these crooked (or angle is arranged) is parallel to each other substantially in vertical direction, and the most handy a pair of horizontal bar connects hole or the window that is roughly rectangle with formation.It is big that the vertical dimension of this rectangular window cans be compared to horizontal size most.

The vertical bar of each being bent angularly should comprise a pair of primary element a, a supporting member c and a pair of Connection Element b.Each primary element a is parallel with supporting member c substantially in vertical direction, and space distance 1.Each primary element a is connected with supporting member c with angle θ by a corresponding Connection Element b.Angle θ influence is to the control degree of the astigmatism relevant with electron beam.

Each vertical bar is near a corresponding congruent region setting in three superimposed holes of first electrode member 29 (or 30).

Referring to Fig. 7, second electrode member 31 (or 32) comprise a pair of vertical direction vertical bar substantially parallel to each other and with given distance apart from one another by opening.Each vertical bar all limits by in the horizontal direction width W with in axial thickness t.The thickness t of each vertical bar is preferably all big than width W.

Referring to Fig. 8, each vertical bar part in the central all has a cavity towards architrave 40 (shown in Fig. 9,10).The cavity of each vertical bar is preferably semielliptical shape.Perhaps the cavity of this each vertical bar also can be the semi-circular shape with given radius R.Each vertical bar is provided with near a corresponding clearance space place between the electron beam of representing red, green, blue, perhaps a corresponding congruent region setting in three superimposed holes of close first electrode member 29 (or 30).

According to this preferred embodiment of the present invention, the common hole of first and second electrodes relative to each other, and a corresponding corresponding electrostatic field control electrode plate is recessed from the architrave of corresponding common hole in each and these common hole.Therefore, the effective aperture of main focusing lens increases owing to electric field infiltrates through electrostatic field control electrode plate dearly, and need not increase the distance between the electron beam channel, thereby has obtained to pass through the mechanically obtainable effect same of hole diameter enlargement.

Because electrostatic field control electrode plate is from the recessed converging action that makes outer beams be subjected to central electron beam of architrave, thus under the situation that does not increase distance between the electron beam channel, obtained the effective aperture of big main focusing lens, thus reduced deflection power; The focusing and the convergence characteristics of lens have been improved.And then the electrode that constitutes electron gun main focusing lens of the present invention not only can both be controlled the infiltration of electric field effectively in level and vertical direction but also at direction of principal axis, thereby controls astigmatism effectively.Electron gun of the present invention can increase the effective diameter of main focusing lens under the situation that does not increase the electrode size that constitutes condenser lens.

In addition, electron gun of the present invention has improved the focus characteristics of main focusing lens, it does not require the complex-shaped of hole, and can more effectively penetrate into electrostatic field control electrode plate dearly in level and vertical direction control electric field, and this can easily realize the change of its structural design with regard to making electron gun of the present invention according to the variation of ray tube screen dimensions and/or used deflecting coil type.

Fig. 9 illustrates the perspective view that dissects according to the part of the main focusing lens of the colour cathode-ray tube electron gun of third preferred embodiment of the invention.In Fig. 9, use the identical identical or like of label representative used among Fig. 3 and 4.Because the first and second electrode 16a and 17a are symmetrical along trunnion axis, so the first electrode 16a only is described at this.

Referring to Fig. 9, according to this 3rd embodiment, the first electrode 16a comprises the electrostatic field control electrode plate 42 of an architrave 40 and in the first electrode 16a that constitutes first element.Architrave 40 comprises: on the periphery of the common hole of the first electrode 16a and facing to the architrave face 40a of the second electrode 17a (not drawing among the figure); Inner edge wall from architrave face 40a along housing 23 extends the architrave endless belt 40b of certain distance; With chain link formula architrave element 40c.Preferably the architrave face 24a with shown in Figure 3 is identical with architrave endless belt 24b respectively with architrave endless belt 40b at this said architrave face 40a.

Here said chain link formula architrave element 40c preferably includes three parts circular substantially holes superimposed and that constitute single window, and preferably identical with first electrode member 29 shown in Figure 3 or the first electrode member 29a shown in Figure 4.Here said chain link formula element 40c preferably is attached on the inner rim of architrave endless belt 40b.On the other hand, chain link formula architrave element 40c is arranged in the architrave endless belt 40b and becomes whole with it.Chain link formula architrave element 40c is from the recessed a little distance of architrave face 40a.

According to this 3rd embodiment, architrave 40 constitutes the common hole of the first electrode 16a with non-cylindrical shape on its stomidium opposite.Here said architrave 40 preferably includes a narrow architrave endless belt 40b now, the chain link formula architrave element 40c combination of the circular hole that this endless belt 40b and three parts are superimposed.The architrave structure of this combination makes the housing 23 interior electrostatic field control electrode plates 42 of the first electrode 16a become simple single structure.Control electrode plate 42 is preferably from architrave 40 recessed distances.

Usually, there are two kinds and form the method that electron beam provides the electrode hole of common-use tunnel.A kind of method is the common hole architrave (for example, shown in the image pattern 3) that forms endless belt shape, and another kind of method is that its architrave is made chain link shape (for example, as shown in Fig. 9).Select for use the mode of endless belt shape architrave better, because it can provide maximum effective lens diameter.

Yet, because with red, green, blue corresponding every electron beam all be unlimited fully (or exposing to the open air) to another, so endless belt shape architrave is defective.In other words, the space between the electron beam is unrestricted.This just is difficult to control the astigmatism relevant with each electron beam.Therefore, for proofreading and correct such astigmatism, have electrostatic field control electrode plate in its housing of electrode of this type architrave structure and must be complicated or more than one constitutional detail is arranged.

This chain link shape architrave comprises the link element with the superimposed circular hole of three parts.Part congruent region between these circular holes can be with the spatial limitation between the electron beam to a certain degree.Therefore.Electrode with this architrave version can be controlled the relevant astigmatism of electron beam with corresponding red, green, blue three looks effectively.Yet because chain link shape architrave does not provide complete hole, it has limited effective lens diameter.

The present invention has overcome above-mentioned defective.For example, according to the third embodiment of the present invention, referring to Fig. 9, architrave 40 comprises that combination has the architrave endless belt 40b of link element 40c.Architrave endless belt 40b inwardly extends a given length along housing inner edge wall from the housing periphery, so that effectively lens diameter reaches maximum.And the space between the electron beam being restricted to a certain degree annularly from the recessed link element 40c of set a distance that gives of its periphery of architrave 40 is so that the wall angle part passed through of controlling electron beam annularly.

Therefore, owing to have in this said this architrave structure, its shape of electrostatic field control electrode plate in the housing of this non-cylindrical electrode needn't be done to such an extent that complicatedly also can eliminate astigmatism effectively on vertical and horizontal both direction.

For example, referring to Fig. 9, in the recessed distance of these said electrostatic field control electrode plate 42 common hole (or architrave face 40a) from the first electrode 16a, and preferably include a pair of equal in length, at vertical direction vertical bar substantially parallel to each other.This to vertical bar to give set a distance apart from one another by opening, to form rectangular window.The vertical dimension of window is the biggest like its horizontal size like this.This is to each all corresponding superimposed district setting of three superimposed circular holes of part of the chain link shape architrave element 40c of close architrave 40 in the vertical bar.As shown in Figure 9, each vertical bar is all limited by the width dimensions W and the axial gauge t bigger than width dimensions W of horizontal direction.

In Fig. 9,, the structure of the first electrode 16a has only been described for for simplicity.The principle that is applicable to the first electrode 16a is equally applicable to the second electrode 17a.The typical sizes of element is shown in the following table 2 in the electron gun of third preferred embodiment of the invention.

The table two first acceleration/focusing electrode 16a:

By the architrave endless belt element 40b of architrave 40 around the horizontal diameter of electrode common hole: 19.0mm

By the architrave endless belt element 40b of architrave 40 around the perpendicular diameter of electrode common hole: 8.0mm

The axial width of the architrave endless belt element 40b of architrave 40: 0.5-1.2mm

With the chain link formula architrave element 40c of architrave 40 around the horizontal diameter of common hole: 18.0-20.0mm

The Circularhole diameter of chain link formula architrave element 40c: 8.0mm

Chain link formula architrave element 40c is at axial thickness: 0.5-1.0mm

Distance between electrostatic field control electrode plate 42 and the architrave 40: 3.0-4.2mm

The horizontal size of the rectangular window of control electrode plate 42: 5.1mm

The vertical dimension of the rectangular window of control electrode plate 42: 10.0mm

The width W of the vertical bar of control electrode plate 42: 0.5mm

The width t:2.0mm second acceleration/focusing electrode 17a of the vertical bar of control electrode plate 42:

By the architrave endless belt element 40b of architrave 40 around the horizontal diameter of electrode common hole: 19.0mm

By the architrave endless belt element 40b of architrave 40 around the perpendicular diameter of electrode common hole: 8.0mm

The architrave endless belt element 40b of architrave 40 is at direction of principal axis thickness: 0.5-1.2mm

By the chain link formula architrave element 40c of architrave 40 around the horizontal diameter of common hole: 18.0-20.0mm

The diameter of the circular hole of chain link formula architrave element 40c: 7.4mm

The diameter of the outer mother rib lateral rotundum of chain link formula architrave element 40c: 8.0mm

Chain link formula architrave element 40c is at axial thickness: 0.5-1.0mm

Distance between electrostatic field control electrode plate 42 and the architrave 40: 2.1-3.3mm

The horizontal size of the rectangular window of control electrode plate 42: 5.1mm

The vertical dimension of the rectangular window of control electrode plate 42: 10.0mm

The thickness t of the vertical bar of control electrode plate 42: 2.0mm

The width W of the vertical bar of control electrode plate 42: 0.5mm

Figure 10 illustrates the perspective view that the main focusing lens according to the colour cathode-ray tube electron gun of four preferred embodiment of the invention partly dissects.Referring to Figure 10, identical with shown in Fig. 9 substantially in this said architrave structure.

Referring to Figure 10, according to the 4th embodiment, the recessed distance of electrostatic field control electrode plate 44 common hole (or architrave 40) from the first electrode 16a, and preferably include a pair of vertical bar that is parallel to each other substantially in vertical direction.As at the 3rd embodiment, each vertical bar is all by width W with can be compared to the big thickness t of width most and define.At this said each vertical bar one cavity towards architrave 40 is arranged all preferably partly in the central.The cavity of each vertical bar is preferably half elliptic.Perhaps, the cavity of each vertical bar is the semicircle with given radius R.Each vertical bar is near being provided with corresponding to one between the electron beam of red, green, blue corresponding space.Can control the astigmatism relevant effectively with this control electrode plate structure with electron beam.

Figure 11 illustrates the perspective view that dissects according to the part of the main focusing lens of the colour cathode-ray tube electron gun of the 5th preferred embodiment of the present invention.Identical with shown in Fig. 9 substantially in this said architrave structure.

Referring to Figure 11, the recessed distance of said here electrostatic field control electrode plate 46 common hole (or architrave face 40a) from the first electrode 16a, and also it is equal substantially to preferably include a pair of length, at vertical direction vertical bar parallel to each other substantially.The most handy a pair of horizontal bar of these vertical bars is connected to each other to form a rectangular window.The vertical dimension of rectangular window is the biggest like horizontal size like this.This to each of vertical bar all near a corresponding congruent region setting of the superimposed circular hole of three parts of the chain link formula architrave element 40c of architrave 40.Each vertical bar all uses the width dimensions W of horizontal direction and the axial gauge t littler than width dimensions W to limit.

Figure 12 illustrates the perspective view that dissects according to the part of the main focusing lens of the colour cathode-ray tube electron gun of the 6th preferred embodiment of the present invention.Here said architrave structure is identical with shown in Fig. 9 substantially.

Referring to Figure 12, electrostatic field control electrode plate 48 comprises the curved angled vertical bar that a pair of shape is identical substantially.These curved angled vertical bars are parallel to each other substantially in vertical direction, and the most handy a pair of horizontal bar connects hole or the window that is roughly rectangle with formation.The width that the height of this rectangular window in vertical dimension cans be compared to horizontal direction most is big.

Here said each curved angled vertical bar comprises pair of substrates element 48a, a supporting member 48c and a pair of Connection Element 48b.Each base members 48a is parallel to a supporting member 48c and a distance 1 with interval substantially in vertical direction.Each base members 48a by a corresponding Connection Element 48b at angle θ be connected to supporting member 48c.The controlled degree of the astigmatism that angle θ influence is relevant with electron beam.

Figure 13 illustrates the perspective view that dissects according to the part of the main focusing lens of the colour cathode-ray tube electron gun of the 7th preferred embodiment of the present invention.Here said architrave structure is identical with shown in Fig. 9 substantially.

Referring to Figure 13, according to the 7th embodiment, electrostatic field control electrode plate 46 is from architrave 40 recessed distances, and comprises that one has the horizontal electrostatic control battery lead plate in many holes, to correct astigmatism.Each is preferably circular corresponding corresponding electron beam in hole, and separates with other holes that constitute individual window.The diameter of apertura lateralis is preferably different with the diameter of medium pore in the control electrode plate, so that the astigmatism relevant with outer beams controlled to the same degree of the astigmatism relevant with central electron beam.

Other embodiment of the present invention are concerning those skilled in the art, according to readily understanding in this disclosed explanation of the present invention and practice.This means specification and example only as demonstration, actual range of the present invention and spirit are limited by following claim.

Claims (30)

1. colour cathode-ray tube electron gun, its have direction of principal axis along central electron beam, horizontal direction vertical with described direction of principal axis and that extend along electron beam channel place flat transverse and with the described direction of principal axis vertical direction vertical with horizontal direction, this electron gun comprises:

Produce the device of many electron beams, every corresponding corresponding colour cell that forms coloured image of electron beam; With

The pair of electrodes device, they are symmetrical mutually with respect to horizontal direction, coaxial at direction of principal axis and ray tube, and provide passage for said many electron beams, in the said pair of electrodes device each all has a common hole, each common hole is relative with another, and spaced apart with given distance and another at direction of principal axis, and each electrode assembly comprises:

First electrode member, it and one gives set a distance in direction of principal axis and its common hole at interval in electrode assembly, and said first electrode member comprises a plurality of holes connected in series in the horizontal direction, in corresponding said many electron beams in each hole corresponding one; It is characterized in that:

Said a plurality of hole is partly superimposed mutually in twos and form one or more superimposed districts, and said a plurality of hole is interconnected, with constitute single window and

Second electrode member, it in electrode assembly, and in direction of principal axis and first an electrode member given distance at interval, and at direction of principal axis than the common hole of first electrode member further from electrode assembly.

2. according to the said electron gun of claim 1, it is characterized in that the common hole of said electrode assembly has non-circular hole shape, the size of its horizontal direction is bigger than the size of vertical direction.

3. according to the said electron gun of claim 1, it is characterized in that in said a plurality of hole each all is circular.

4. according to the said electron gun of claim 1, it is characterized in that a plurality of holes of said first electrode member comprise a medium pore and pair of outside hole, each apertura lateralis is partly superimposed and bigger than medium pore with medium pore in the horizontal direction.

5. according to the said electron gun of claim 1, the a plurality of holes that it is characterized in that said first electrode member comprise a medium pore and pair of outside hole, each apertura lateralis is partly superimposed with medium pore in the horizontal direction, and wherein first electrode is vertically cut away near the outer end portion of the Outboard Sections of each apertura lateralis.

6. according to the said electron gun of claim 1, it is characterized in that second electrode member comprises a plurality of vertical frame elements that are parallel to each other in vertical direction, and in the horizontal direction to be spaced from each other to set a distance, with the formation rectangular window, and each vertical frame element is near corresponding one in said one or more superimposed districts in a plurality of holes of first electrode member.

7. according to the said electron gun of claim 1, the common hole that it is characterized in that said each electrode assembly is having an architrave near its periphery place, said architrave comprises an architrave face relative with another common hole on the common hole periphery and a narrow endless belt, and the peripheral part of common hole forms narrow endless belt towards the open end direction is crooked in housing at the inwall near common hole.

8. according to the said electron gun of claim 4, it is characterized in that said each Kong Douwei has the circle of certain diameter, and the diameter of apertura lateralis is bigger than the diameter of medium pore.

9. according to the said electron gun of claim 5, it is characterized in that said medium pore for circular, each apertura lateralis all has a circular shape.

10. according to the said electron gun of claim 6, it is characterized in that each said vertical frame element all defines by the width dimensions of horizontal direction with at the direction of principal axis gauge littler than width dimensions.

11., it is characterized in that each said vertical frame element all defines by the width dimensions of horizontal direction with at the direction of principal axis gauge bigger than width dimensions according to the said electron gun of claim 6.

12., it is characterized in that said each vertical frame element all has a cavity towards said common hole according to the said electron gun of claim 6.

13. according to the said electron gun of claim 6, it is characterized in that a plurality of perpendicular elements of said second electrode member are coupled mutually with horizontal cell, to form fence formula quadrangle, said quadrangle is big in the size ratio size in the horizontal direction of vertical direction.

14., it is characterized in that the bight of said rectangular window is covered by first electrode member vertically at least in part according to the said electron gun of claim 6.

15. according to the said electron gun of claim 9, it is characterized in that said each electrode assembly comprises the non-cylindrical body of an enveloping ring around this electron tube, wherein the effective diameter of each apertura lateralis is partly defined by housing.

16., it is characterized in that said cavity is a half elliptic according to the said electron gun of claim 12.

17., it is characterized in that said cavity is for semicircle according to the said electron gun of claim 12.

18. colour cathode-ray tube electron gun, its have direction of principal axis along central electron beam, horizontal direction vertical with described direction of principal axis and that extend along electron beam channel place flat transverse and with the described direction of principal axis vertical direction vertical with horizontal direction, this electron gun comprises:

Produce the device of many electron beams, every corresponding corresponding colour cell that forms coloured image of electron beam; With

The pair of electrodes device, they are symmetrical mutually with respect to horizontal direction, coaxial at direction of principal axis and ray tube, and provide passage for said many electron beams, said this all has a common hole to each of electrode assembly, each common hole is relative with another, and at direction of principal axis to spaced apart with given distance and another, each electrode assembly comprises:

First electrode member, said first electrode member comprises a plurality of holes connected in series in the horizontal direction, in corresponding said many electron beams in each hole corresponding one, described first electrode member comprises an architrave, described architrave is near the common hole of said electrode assembly, and it comprises: on the periphery of the common hole of said electrode assembly and facing to the architrave face of another electrode; Inner edge wall from the architrave face along housing extends the architrave endless belt of certain distance; It is characterized in that:

Said architrave also comprises one from the recessed distance of said architrave face, is arranged in the architrave endless belt and chain link formula architrave element in aggregates with it, this chain link formula architrave element have the superimposed hole of a plurality of parts each other and constitute single window and

In said electrode assembly and to give set a distance and the isolated control electrode plate of said architrave.

19. according to the said electron gun of claim 18, it is characterized in that said control electrode plate comprises a pair of vertical bar, they are parallel to each other in vertical direction, in the horizontal direction to give set a distance apart from one another by opening to form rectangular window, the corresponding congruent region in the hole that all close part of each vertical bar is superimposed.

20. according to the said electron gun of claim 18, it is characterized in that said control electrode plate comprises that one has the plate in a plurality of holes of opening disconnected from each other, in the corresponding said electron beam in each hole corresponding one.

21. according to the said electron gun of claim 18, the common hole that it is characterized in that said electrode assembly is non-circular, the size of its horizontal direction is bigger than the size of vertical direction.

22. according to the said electron gun of claim 18, each that it is characterized in that hole that said part is superimposed all is circular.

23. according to the said electron gun of claim 18, it is characterized in that the superimposed hole of a plurality of parts of said first electrode member comprises a medium pore and pair of outside hole, each apertura lateralis is superimposed and bigger than medium pore with the medium pore part in the horizontal direction.

24., it is characterized in that each said vertical bar all has a cavity towards said architrave according to the said electron gun of claim 19.

25., it is characterized in that each said vertical bar all is bent to the angle of at least one nonzero value according to the said electron gun of claim 19.

26., it is characterized in that said control electrode plate also comprises the horizontal frame element that is coupled with said a pair of vertical bar according to the said electron gun of claim 19.

27. according to the said electron gun of claim 23, it is characterized in that said each Kong Douwei has the circle of certain diameter, the diameter of apertura lateralis is bigger than the diameter of medium pore.

28. according to the said electron gun of claim 23, it is characterized in that said medium pore circle, each apertura lateralis all is an arc.

29., it is characterized in that said cavity is a half elliptic according to the said electron gun of claim 24.

30., it is characterized in that said cavity is for semicircle according to the said electron gun of claim 24.

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