DE4241159A1 - Deflection yoke for CRT - has stray magnetic field blocking element provided by two coils wound in opposing directions providing compensation flux in opposite direction to stray flux - Google Patents

Abstract

The CRT deflection yoke has a stray magnetic field blocking element (6) providing a magnetic field which opposes the stray magnetic field generated by the horizontal deflection coil and which uses 2 coils (11) opposing a flange (4) and centred relative to the centre axis of the deflection yoke. The coils (11) have opposing winding directions and are contained in a housing (7) having the same curvature as the flange (4) and secured to the latter, with ventilation openings (17) for the interior of the housing (7) provided in a cooperating cover (14). USE/ADVANTAGE - For blocking stray magnetic field resulting from horizontal deflection coil. Eliminates magnetic body on which coil is conventionally wound.

Description

The invention relates to a deflection yoke, in particular special no magnetic body is used to not only reduce costs but also introvert to avoid the image caused by the strong magnetic Field caused by the magnetic body comes during operation.

A cathode ray tube generally has one Front panel on which a layer of fluorescent is formed and a shadow mask is provided, a funnel part, with a Graphite layer on the inner and outer surface and one Neck part in which an electron gun is accommodated and a deflection yoke is arranged on the outer circumference thereof. The Ablenkjoch is with two separators made of a resin material,  a horizontal deflection coil, which is arranged on the inner surface net, and a vertical deflection coil provided on the Outside surface is arranged.

The horizontal and vertical deflection coils generate hori zontal and vertical deflection magnetic fields to one of the Electron gun emitted electron beam to the picture to divert screen corners.

The deflected electron beam hits the light layer of fabric, which creates the image. After the deflection kung remain in the horizontal and vertical coils of the Deflection yoke generated to deflect the electron beam However, fields are not on the respective coils and wide unnecessary stray magnetic fields over the entire front surface of the screen, which is also for the human body is harmful. With a conventional saddle toroid deflection Accordingly, coils are supplied with current that are wrapped around the outer periphery of the front panel so that Counter magnetic fields assume the stray magnetic fields reduce that are generated from the outside.

While the vertical deflection coil is only a small litter generated magnetic field that is harmful to health the horizontal deflection coil has a very strong stray magnetic field, that is harmful to the human body. The above counter magnetic field acts the horizontal deflection coil counter to reduce the stray magnetic field. At a further developed double saddle deflection yoke becomes a current which generates a magnetic field, the direction of which is the direction of the Magnetic field of the horizontal deflection yoke is opposite, supplied to an element for preventing the stray magnetic field, that with a bobbin of a certain type, which on Body of the deflection yoke is attached, and a magneti is provided body, which is formed in that Coil windings are inserted into the bobbin so that the counter magnetic field generated by it, the stray  can reduce the magnetic field from the horizontal deflection coil.

A deflection yoke with such a stray magnetic field preventing construction is described in US-PS 50 17 900 be. Referring to FIG. 8 of the drawing are two Unterdrüc kung coils 51, 51 ', that an imaginary axis in vertical and horizontal directions opposite to each other longitudinally provided which passes through the center axis of a core 50 in the vicinity of a front end portion of the Verti kalablenkspulen 52 52 'arranged. The suppression coils 51 , 51 'are mounted so that their central axes intersect the central axis of the core 50 at an angle O. These suppression coils 51 , 51 'are either connected in series with or in parallel to the horizontal deflection coils 53 , 53 ' and each wed on a magnetic body.

In US-PS 48 53 588 a deflection yoke has been proposed, which is shown in Fig. 9 and at the auxiliary spool len 54 , 54 'in series with or parallel to the horizontal deflection coils 55 , 55 ' are connected to a suppression magnetic field generate that suppresses part of the external stray magnetic field emanating from the deflection yoke. These auxiliary coils 54 , 54 'are however also wound on a magnetic table body.

As described above, the coils 51 , 51 ', 54 , 54 ' are wound on a magnetic body and reduces the counter magnetic field generated by the stray magnetic field. The strong magnetic field emanating from the magnetic body itself reduces the stray magnetic field, but at the same time has an influence on the deflection angle of the electron beam, so that an image introversion of about 25 µm is caused. The use of the magnetic body also leads to high production costs.

The invention is therefore intended to provide a deflection yoke for a  Cathode ray tubes are created that the high produk can avoid costs due to use of a magnetic body as a ver the stray magnetic field preventing element to reduce the stray magnetic field ent stand by the horizontal deflection coil of the deflection yoke the cathode ray tube is generated.

In the deflection yoke according to the invention, this is the litter Magnetic field preventing element without a magnetic body per trained such that coil winding parts each other opposite and at a certain distance from each other are formed inside a housing that with the same curvature as that of a flange part of the separator is formed, and coils with a certain diameter in a certain number of turns are wound around it, wherein a current is supplied that generate a magnetic field can, the direction of which is opposite to the direction of the magnetic field is set that is generated by the horizontal deflection coil and the element preventing a stray magnetic field a cover with multiple heat release holes attached to the Is attached to the flange part in one of the Horizontal deflection coil corresponding shape is combined, by attaching a mounting part of the housing to the the part of the flange part is combined.

The following are based on the associated drawings particularly preferred embodiments of the invention described in more detail. Show it:

Fig. 1 is a front view of an embodiment of the deflection yoke according to the invention with a Streumag netfeld preventing member,

Fig. 2 is a side view of the deflection yoke shown in Fig. 1,

Fig. 3 is a perspective view of another embodiment of the invention,

A partial sectional view of a stray magnetic field preventing member which is on a separator, FIG. 4 introduced,

Fig. 5 is a plan view of the embodiment shown in Fig. 2 cover in the mounted state,

Fig. 6 is an enlarged partial perspective view of a leakage magnetic field and preventing a separator element in the mounted state,

Fig. 7 shows schematically the magnetic fields a leakage magnetic field and preventing member talablenkspule from Horizon generated by the,

Fig. 8 is a front view of an embodiment of a conventional deflection yoke with a conventional stray magnetic field preventing element and

Fig. 9 is a front view of a further embodiment example of a conventional deflection yoke with a conventional a stray magnetic field preventing element.

Fig. 1 shows a front view of a game Ausführungsbei the deflection yoke according to the invention with a stray magnetic field preventing element. Fig. 2 shows a side view of the deflection yoke shown in Fig. 1. Vertical deflection coils 1 , 1 'which are on ferrite cores 2 , 2 ' are wed, a separator 3 is placed near the outer circumference. Elements 6 , 6 'preventing stray magnetic fields are mounted opposite one another on a flange part 4 which corresponds to the horizontal deflection coils 5 , 5 ', which are mounted close to the inner surface of the separator 3 .

As shown in Fig. 3, the stray gnetfeld preventing elements 6 , 6 ', which are attached to the flange part 4 of the deflection yoke, formed by the fact that semicircular coil winding parts 9 , 9 ' facing each other in the space 8 of a housing 7 attached are formed with the same curvature as the separator 3 . A projection 10 , with which the housing 7 is attached close to the separator 3 , holds the distance between the separator 3 and the elements 6 , 6 'preventing the stray magnetic field and is formed on one side of the housing 7 . Covers 14 , 14 ', in which hanging holes and a plurality of heat discharge holes 12 are formed, which emit the heat generated by the coils 11 , the parts on the coil winding 9 , 9 ' are wound at both ends in connection with trained the housing. Cover suspension elements 15 , 15 ', which fasten the covers 14 , 14 ', are formed on the inside of the housing 7 and holding devices 16 , 16 'for holding the covers 14 , 14 ' are formed facing each other on the central part of the housing 7 .

A coil 11 is wound around the coil winding parts 9 , 9 'with a certain number of turns and the covers 14 , 14 ' are fastened tightly to the housing 7 . As shown in Fig. 4, the housing is attached to the flange part 4 of the separator 3, the horizontal deflection coils 5 , 5 ', which are located on the inner surface of the separator 3 . The coil 11 is led out through coil holes 17 , 17 'and supplied with a current whose direction is opposite to the direction of the current of the horizontal deflection coils 5 , 5 ', so that a magnetic field is generated in a direction which corresponds to the direction of the magnetic field of the horizontal deflection coils 5 , 5 'is opposite.

As shown in Fig. 5, the coil 11 is wound on the coil winding parts 9 , 9 ', which face each other, 16 to 20 times. The covers 14 , 14 'are fastened tightly to the housing 7 , so that the cover suspension holes 13 , 13 ' sit on the cover suspension elements 15 , 15 'to fix the covers, while the covers 14 , 14 ' by holding elements 18 , 18 ' are held, which are designed so that they start from the cover suspension elements 15 , 15 '.

The stray magnetic field preventing elements 6 , 6 'can avoid an introversion of an image caused by an incorrect electron beam deflection angle due to the strong magnetic field of a magnetic body, since the coil 11 is wound without a magnetic body on the coil winding parts 9 , 9 ' , so that only the magnetic field generated by the current supplied to the coil 11 is used to suppress the stray magnetic field.

The housing 7 , which has the same curvature as the separator 3 , is provided, since with a stray magnetic field measured 50 cm from the outer surface of the cathode ray tube, the suppressive effect of the stray magnetic field in a housing 7 with the same curvature as that of the separator 3 by 35, 8 n / T to 6.8 n / T compared to a plattenför shaped housing 7 can be improved.

The covers 14 , 14 ', which sit on the housing 7 , are ausgebil det with half the size of the housing 7 , so that they can be opened and closed in one direction on both sides. If a cover with the same size as the housing is used, regardless of whether the cover has the same curvature as the housing 7 or is plate-shaped, the same effect can be achieved.

The number of turns of the coil 11 , which is coiled in the housing 7 with the same curvature as the separator 3 , is preferably between 16 and 20 and the diameter of the coil wire is preferably between 0.46 and 0.50 mm to achieve the strongest possible suppression effect with regard to the stray magnetic field.

The reason for limiting the number of turns on 16 to 20 is that at a higher or lower rigiger number of turns the suppression effect decreases. The Reason for the limitation of the diameter of the coil wire to 0.46 to 0.50 mm is that with a larger one or smaller diameter, the suppression effect of  is the same, the increasing cross-sectional area of the coil however, an increase in resistance and an increase of heat and that when using a large Coil also increase the cost.

The inner surface of the central part of the covers 14 , 14 'is held by the holding devices 16 , 16 ', which are formed starting from the housing 7 . Wedges 19 , 19 'are formed on the inner surface of the covers 14 , 14 ' in the vicinity of the connecting part of the housing 7 and the covers 14 , 14 '. Combination parts 20 , 20 'for receiving the wedges 19 , 19 ' are formed on the inside of the semicircular winding parts 9 , 9 '.

From the holding devices 16 , 16 'and the cover suspension elements 18 , 18 ', the combination part with the covers 14 , 14 'is formed with the same curvature as the covers 14 , 14 ', so that the covers 14 , 14 'are securely fixed can.

The wedges 19 , 19 'are divided into two parts. When they are inserted into the combination part, they snap into place. After insertion, the wedges 19 are 'opened so that the combination members 20, 20' 19 press together and the wedges 19, 19 'do not share tion 20 readily by the Kombina, 20' can solve.

If due to external vibrations or shocks the covers 14 , 14 'fall off and press on the coil 11 and change the magnetic field of the coil 11 , the suppression effect with respect to the stray magnetic field decreases. Dement accordingly, for holding the covers 14 , 14 ', the holding devices 16 , 16 ' and the holding parts 18 , 18 'on the central part of the housing and the cover suspension elements 15 , 15 ' are formed, so that such a decrease in the suppression effect can be avoided .

As shown in Fig. 6, in the above-described, a stray magnetic field preventing element fastening parts 22 , 22 ', in which projections 21 , 21 ' are formed at a distance from each other, are formed on the end portion of the housing 7 and corresponding parts 23 , 23 'the fastening parts 22 , 22 ' opposite to the flange part 4 is formed.

Grooves 24 , 24 ', in which the projections 21 , 21 ', which are formed on the fastening parts 22 , 22 ', can be used are formed in the corresponding parts 23 , 23 '. If the fastening parts 22 , 22 'are combined with the corresponding parts 23 , 23 ', the groove is expanded due to the inherent elasticity equal to the projection length of the projection 21 . When the protrusion 21 is inserted into the groove 24 , the groove is closed so that the protrusion and the groove are combined. In this way, the stray magnetic field preventing elements 6 , 6 'are fixedly attached to the flange portion of the deflection yoke.

The grooves 24 , 24 'of the corresponding parts 23 , 23 ' are formed at the position already indicated so that when the stray magnetic field preventing elements 6 , 6 'are firmly attached, the best suppression effect can be achieved.

As shown in Fig. 7, the deflection yoke provided with the elements 6 , 6 'preventing a stray magnetic field is formed so that a magnetic field CC in a direction opposite to the direction of the stray magnetic field LC from the horizontal deflection coils 5 , 5 ', by the stray magnetic field preventing elements 6 , 6 'is generated to reduce the stray magnetic field LC.

As described above, the invention has Training the advantage that without using a magneti body on which the coil is wound and due to the fact that the coil on coil winding parts kelt, which is opposite each other in a housing det, and holding parts and holding structures that the  Hold the inside surface of a cover that covers the open side of the Cover the housing, are formed in the housing and abdec suspension elements are provided, an introversion of Screen can be avoided on the use of a magnetic body, the manufacturing cost can be reduced and also a change in magnetic field generated by the coil by falling Coverage can be avoided.

Claims (15)

1. deflection yoke with a stray magnetic field prevent the element that generates a magnetic field, the direction of which is opposite to the direction of the stray magnetic field of a horizontal deflection coil, characterized in that the stray magnetic field preventing element ( 6 , 6 ') comprises two coils ( 11 ) a flange part ( 4 ) are arranged so that they are zen trated about the central axis of the deflection yoke, and have opposite winding directions, and comprises a housing ( 7 ) in which the coils ( 11 ) are accommodated, the housing ( 7 ) coil winding parts (9) which are arranged at both lateral ends of an interior space of, coil lead-out holes passing through the bottom of coil winding portions (9), so that the coils (11) are led out, when parts of the coil-winding (9) wound are, and thus both ends of the coils ( 11 ) are electrically connected, fastening parts which are formed on the inside nd to attach the housing ( 7 ) to a corresponding part on the flange part ( 4 ), covers ( 14 , 14 ') for covering the open part of the housing ( 7 ), which are connected to the housing ( 7 ), so that they can be pivoted outwards, cover suspension parts ( 15 , 15 ') which are ausgebil det in the interior of the housing ( 7 ) in order to hang the covers ( 14 , 14 ') on the housing ( 7 ), cover suspension holes which cover the cover hanging parts ( 15 , 15 ') correspond and are attached to the covers ( 14 , 14 ') in order to firmly attach them to the covering parts ( 15 , 15 ') and comprise a plurality of heat discharge holes which are provided on the covers ( 14 , 14 ') ) are formed so that the heat generated by the coil ( 11 ) can escape. 2. deflection yoke according to claim 1, characterized in that the curvature of the housing ( 7 ) is equal to that of the flange part ( 4 ), so that the housing ( 7 ) can be fixedly attached to the flange part ( 4 ) of the separator ( 3 ). 3. Deflection yoke according to claim 1, characterized in that a holding part from the central part of the interior is formed starting to prevent the covers ( 14 , 14 ') attached to the cover ( 15 , 15 ') from falling down and with the coil ( 11 ) come into contact. 4. deflection yoke according to claim 1, characterized by a combination part ( 20 , 20 '), which is formed on the coil winding part ( 9 ) to improve the combination force of the housing ( 7 ), and wedges ( 19 , 19 ') for fastening the combination part ( 20 , 20 ') which are attached to the cover ( 14 , 14 ') at a corresponding point. 5. deflection yoke according to claim 1, characterized in that the coil ( 11 ) on the coil winding parts ( 9 ) of a stray magnetic field preventing element ( 6 , 6 ') is wound with 16 to 20 turns. 6. deflection yoke according to claim 1, characterized in that the diameter of the wire of the coil ( 11 ) which is wound on the coil winding parts ( 9 ) is between 0.46 and 0.50 mm. 7. deflection yoke according to claim 1, characterized in that the coil winding parts ( 9 ) are semicircular out. 8. deflection yoke according to claim 1, characterized in that the curvature of the housing ( 7 ) combined Abdec kung ( 14 , 14 ') is the same as that of the housing ( 7 ). 9. deflection yoke according to claim 3, characterized in that the curvature of the housing ( 7 ) combined Abdec kung ( 14 , 14 ') is equal to that of the housing ( 7 ). 10. deflection yoke according to claim 1, characterized in that the cover ( 14 , 14 ') consists of two parts which can be opened and closed in the direction on both sides. 11. deflection yoke according to claim 3, characterized in that the cover ( 14 , 14 ') is formed in two parts which can be opened and closed in the direction on both sides. 12. deflection yoke according to claim 1, characterized net that the cover is in the form of a plate, which opened and closed in the direction of one side can be. 13. deflection yoke according to claim 9, characterized net that the cover is in the form of a plate, which opened and closed in the direction of one side can be. 14. deflection yoke according to claim 1, characterized net that the cover is formed in a flat shape. 15. deflection yoke according to claim 8, characterized net that the cover is formed in a flat shape.