DE4312645C3 - Screening device for an image display device - Google Patents

Description

The present invention relates to a shield device according to the preamble of claim 1, which for an image display device is provided and for shielding nes very low frequency field that comes from a Entma gnetizing coil emerges.

A shielding device according to the preamble of claim 1 is shown in FIG. 6; this provided for an image display device or a monitor shielding device represents a preliminary stage of the invention designed by the applicant. As can be seen from the perspective view in FIG. 6, a front mask 1 has an un dangerously U-shaped section, which in part includes the edge of a surface of a cathode ray tube 2 . Egg ne also shown in Fig. 7 demagnetizing coil 3 is arranged on a funnel-shaped part or funnel part of the cathode ray tube 2 , while on the inside (back) of the front mask 1, a conductive coating 11 is applied.

A mounting surface or plate 5 is protruding mounted within the front mask 1 ; a screw 6 is used for mounting and securing a Befestigungsansat zes or Tragarmabschnitts 2 a of the cathode ray tube 2 to the fixing plate 5; a copper spring 12 is mounted if by means of the screw 6 when the fastening supply approach 2 a is screwed. The copper spring 12 is partially (namely with its U-shaped section) in contact with the conductive coating 11th

The operation of this Abschirmvorrich device is explained in more detail. The inner surface of the front mask 1 is provided with the conductive coating 11 ; if the cathode ray tube 2 on the mounting plate 5 , which is integrally formed with the front mask 1 , be fastened, the screw 6 to the base part of the copper ferfeder 12 , the supply approach between the screw 6 and the fastening approach 2 a of the cathode ray tube 2 is held is tightened, the U-shaped front end of the copper ferrule 12 being in contact with the conductive coating 11 .

The mounting approach or flange 2a of the cathode ray tube 2 is preset or biased to zero potential or mass, the entire surface of the conductive coating 11 located on the inner surface of the front mask 1 also being at zero potential, thereby shielding the very low frequency field is made possible, which is emitted from the demagnetizing coil 3 towards the front surface or image surface of the cathode ray tube 2 .

This conventional shielding device requires the application of the conductive coating 11 to the front mask 1 in order to achieve a substantial shielding effect, and is therefore problematic in that it requires adhesion of the conductive layer 11 to a modeled surface during the coating process any unevenness in the thickness of the coating causes an uneven shielding effect and as differences in the shielding effect between the individual batches are unavoidable.

In addition, since the use of the copper spring 12 is neces sary, the shielding device has a complicated construction and requires complex assembly work, which leads to high costs.

If, on the other hand, the display device in question has a housing that is made entirely of metal, as is the case, for example, with monitors in protection class 2 , the desired shielding effect is already achieved by the grounded metal housing. Although therefore no additional shielding device is required and the associated costs are eliminated, it goes without saying that a metal housing is much more expensive than a plastic housing, so that the use of such monitors al linen will be limited to appropriate special cases for reasons of cost.

The invention has for its object a shield direction according to the preamble of claim 1 such white terzubilden that both the assembly effort and the Manufacturing costs can be reduced.

This object is achieved with the in the character solved part of claim 1 specified measures.

According to the invention, the shielding device is thus made of one separate shielding plate formed with a metal foil lie is coated and close to the demagnetization coil can be attached to the cathode ray tube. at the shielding device is therefore a pre manufactured, correspondingly inexpensive component, its Assembly much easier than in the prior art nik is. The manufacturing costs and assembly costs are therefore much less than with the known shield contraption.

US 49 43 755 discloses a shielding device for a Image display device that serves the inside of the cathodes ray tube of the image display device compared to such a magnet fields that are otherwise shielded from the surroundings of the Image display device would penetrate into this. The in the This document is the shielding device explained with the specified in the preamble of claim 1 or 3  Shielding device with which the leakage of a low-frequency part prevented from the image display device should not be comparable.

JP 2-146890 A2 describes a cathode ray tube wrote in which one surrounding the cathode ray tube Demagnetizing coil is provided. To the size of this To be able to reduce the demagnetization coil is a ma magnetic cover is provided covering the outer circumference section of the degaussing coil surrounds. The magnetic Cover has a very small magnetic resistance on and therefore forms a the degaussing coil practicing magnetic circuit. The well-known magnetic cover therefore serves a different purpose than that of the invention Shielding plate, namely a reduction in the size of the Degaussing coil.

JP 3-182187 A2 finally shows a cathode ray tube surrounded by a magnetic shielding body is. To determine the effective magnetic permeability of this ma magnetic shielding body constantly at a high value hold, a coil is provided that repeats a current is fed such that in the magnetic shielding body is generated by an alternating magnetic field. The one from the ent known magnetic shielding body ent thus also does not speak further of the invention formed genus of shielding devices.

The invention is described below based on the description of Embodiments with reference to the drawing explained in more detail. Show it:

Fig. 1 with reference to a sectional view of a shielding device according to the invention exporting the approximate shape ei nes image display apparatus;

FIG. 2 is a perspective view of the entire body of the shielding device of FIG. 1;

Fig. 3 is a perspective view of a shield plate from Fig. 1;

Fig. 4 based on a sectional view of another embodiment of the Abschirmvor direction of an image display device according to the invention;

Figure 5 ei NEN basis of a perspective view of part of a shielding plate shown in Fig. 4.

Fig. 6 with reference to a perspective view of the whole body of a conventional Abschirmvorrich processing for an image display device; and

Fig. 7 is a sectional view of the Abschirmvor direction of the image display device shown in Fig. 6.

An embodiment of the invention will be described below with reference to FIGS. 1 to 3.

According to Fig. 2 has a front mask or front panel 1 an approximately U-shaped section, a portion of which the outer peripheral edge of the upper surface of a cathode-ray tube 2 is covered. A degaussing coil 3 also shown in FIG. 1 is arranged in the vicinity of a part of the funnel of the cathode ray tube 2 .

A shield plate 4 having an approximately L-shaped portion is coated as shown in Fig. 1 with a metal foil such as an iron or aluminum foil on one side of a vinyl chloride sheet (or a vinyl chloride plate). This shielding plate 4 is fastened by means of a known method within the front mask 1 . Inside the front mask 1 , a mounting plate 5 is seen in a prominent arrangement. A screw 6 is used to attach a mounting or mounting piece 4 a of the shielding plate 4 and a mounting bracket or bracket section 2 a of the cathode ray tube 2 to the mounting plate 5 .

The shielding plate 4 described above is made, for example, from a plate that is generally molded or bent into a shape as shown in FIG. 3. The protruding on each side of the shielding plate 4 provided mounting piece (mounting bracket) 4 a is connected together with the fastening supply approach 2 a with the mounting plate 5 by means of the screw 6 , which is inserted into a mounting hole 4 b provided therein.

The mode of operation is explained in more detail below. To the cathode ray tube 2 to be mounted on the front mask 1, the shield plate 4 will next by means of an adhesive or by fitting bolt connection to the inner surface of the front mask 1 is fixed. Then the surface part of the cathode ray tube 2 is inserted and attached in the front mask 1 . At this time, the non-coated surface of the shielding plate 4 is kept in contact with the metallic part of the fastening projection 2 a.

Then the screw 6 is inserted into the fastening set 2 a and the mounting piece 4 a of the shielding plate 4 ; then the screw 6 in the fastening supply plate 5 is tightened to attach the cathode ray tube 2 to the front mask 1 . It is possible in this way to reduce the potential of the shielding plate 4 to the value zero, as a result of which the very low-frequency field emitted by the demagnetizing coil towards the front surface or image surface of the cathode ray tube 2 is shielded.

A second exemplary embodiment of the invention is described in more detail below with reference to FIGS. 4 and 5.

In the game Ausführungsbei described above, it is necessary to attach the shielding plate 4 to the front mask 1 before mounting the cathode ray tube 2 on the front mask 1 . In contrast, in this exemplary embodiment, a shielding plate 8 with a V-shaped cross section is used, as is shown in FIG. 5 is shown; if a mounting piece 8a of the shielding plate 8 on the Befestigungsan set 2 a is placed, it is possible to mount the shielding plate 8 by means of the screw 6 in such a state that the cathode ray tube 2 and the front particular mask 1 as shown in Fig. 4 are assembled together.

This makes it possible to do without a connection method for the hard shielding plate for producing the front mask 1 integrally with the shielding plate.

The above-mentioned shielding plate 8 can be manufactured as shown in Fig. 5 in the form of a V-section or, if necessary, in the form of an L-section. In any case, the shielding plate 8 is shaped so that it covers the degaussing coil 3 , thereby effectively shielding the very low frequency field radiated from the degaussing coil 3 to the front. In the mounting piece 8 a, a mounting hole 8 b is formed, into which the screw 6 can be inserted.

According to the invention, the shielding plate coated with the metal foil for shielding the very low frequency field emerging from the demagnetizing coil, which is mounted on the funnel-shaped part of the cathode ray tube 2 , is arranged in the vicinity of the demagnetizing coil. This makes it possible to dispense with a shield, which, as in the prior art, is formed from a conductive coating and a copper spring, so that tedious control of the coating thickness and a coating process can be dispensed with; consequently, the device according to the invention can be manufactured at low cost and uniform shielding performance can be achieved.

Claims (2)

1. Shielding device for an image display device, which has a cathode ray tube ( 2 ) with a funnel-shaped part, with a demagnetizing coil ( 3 ) being arranged on the funnel-shaped part, from which a very low-frequency field emerges, and wherein the shielding device is grounded and is arranged such that it prevents the low-frequency field from escaping from the image display, characterized in that the shielding device is formed from a separate shielding plate ( 4 ; 8 ) which is coated with a metal foil and in the vicinity of the demagnetizing coil ( 3 ) on the cathode ray tube ( 2 ) can be attached. 2. Shielding device according to claim 1, characterized in that the shielding plate ( 8 ) has a V-shaped cross section and can be fastened to the cathode ray tube ( 2 ) in such a way that its tip points forward.