RU2128863C1 - Protection device for computer displays - Google Patents

Abstract

FIELD: computer engineering, in particular, for protection of users of personal computers and computer networks from harmful effect of static and alternating electric fields generated by computer displays with cathode-ray tubes. SUBSTANCE: device has protection shield which is designed as transparent plate which is mounted in frame and covered with transparent current-conducting grounded coating. In addition device has current-conducting grounded protection plate which area is at least 0.6 of area of upper display surface and is located above said upper display surface and is spaced from it by distance which is less than 50 mm. Protection shield and current-conducting protection plate may be attached to display independently and have separate grounding. They may also be connected by shared axis. Current-conducting protection plate is designed as either solid or perforated plate. It is made from, for example, aluminum or copper alloys. EFFECT: decreased level of electric fields which are generated by computer displays and have harmful effect for computer operator and near-by personnel. 5 cl, 3 dwg

Description

 The invention relates to computer technology, and more particularly to a means of protecting users of personal and collective computers from the harmful effects of static and variable electric fields generated by computer monitors on cathode ray tubes.

 A device for attenuating the electric fields of computer monitors is known, consisting of a grounded metal microgrid installed in front of the monitor screen, and reducing the level of the electric field in its front side [EM Lazarev, VK Shikiryavy Translucent electromagnetic screen in information display equipment with cathode ray tubes. Applied Ergonomics. 1992, issue 2, p. 36-40].

The disadvantages of this device are the low degree of attenuation of electric fields (approximately 40%), a sharp deterioration in the quality of perception of the image on the monitor, and a high level of electric field around the monitor in other directions than normal to the plane of the screen (since the known device has no screening effect in these directions )
Closest to the proposed invention in technical essence is a protective device, which is a screen made in the form of a frame, in which an optically transparent plate is mounted with a grounded transparent conductive coating deposited on it, placed in front of the monitor screen (Prospectus from Ergo View UK Ltd, Universal Contour Glass Eye Protection Filters, 1994).

 Such a device provides a higher (up to 60%) degree of attenuation of electric fields on the front of the monitor and practically does not impair the quality of the information displayed on the monitor screen. However, the task of significantly reducing the level of electric fields around the monitor remains unresolved (especially with regard to directions in the opposite direction from the protective screen).

 The objective of the present invention is to reduce in all directions the level of electric (electrostatic and variable electromagnetic) fields generated by computer monitors and having a detrimental effect on both the computer operator and the surrounding personnel.

 This problem is solved in that the protective device for the computer monitor, including a protective screen, which is a transparent plate mounted in the frame with an optically transparent conductive grounded coating deposited on it, additionally contains a conductive grounded protective plate with an area of at least 0.6 of the area of the upper surface of the case a monitor mounted above said upper surface of the monitor at a distance from it not exceeding 50 mm.

 The protective screen and the conductive protective plate can be mounted on the monitor independently of each other and have separate grounding. They can also be connected by a common axis.

 The conductive protective plate is solid or perforated. It is made of conductive material, such as aluminum or copper alloys. The contour of the plate can be quite arbitrary, and the shape can either follow the shape of the upper surface of the monitor or be different from it.

 The essence of the invention is illustrated in FIG. 1 and FIG. 2.

 In FIG. 1 shows the layout of the protective device on the PC monitor housing, where 1 is the monitor; 2 - a protective screen; 3 - a protective plate, 4 - grounding electrodes.

Diagrams schematically illustrating the radiation intensity of the monitor in the horizontal plane when using various protective devices in the frequency ranges 5 Hz - 2000 Hz, 2 kHz - 400 kHz are shown in FIG. 2, 3, respectively, where the following notation is applied:
1 - radiation intensity of the monitor without a protective device;
2 - radiation intensity corresponding to the requirements of the Swedish MPR II safety standard (25 V / m and 2.5 V / m, respectively, for the above frequency ranges);
3 - radiation intensity of the monitor with a protective screen;
4 - radiation intensity of the monitor with the proposed protective device.

 The personal computer monitor protective device comprises a protective screen 2 located in front of the monitor screen 1 with a transparent grounded coating and a grounded protective plate 3.

 The protective screen works as follows.

 The protective plate is installed over the upper side of the monitor using screws, Velcro or other mechanical means. The shield and shield plate are connected to the ground by separate or common electrodes.

 The following are examples of specific performance of the proposed protective device.

 Example 1. On a WCI-type monitor with a 14-inch screen, a protective device is installed, including an "Absolut" -type protective screen, and a protective plate 300 × 400 mm in size and 1 mm thick made of alloy is fastened with Velcro to it at a distance of 1 cm from the upper surface of the monitor aluminum with profiled round holes with a diameter of 10 mm. The radiation intensity of the monitor before and after the establishment of the proposed protective device in the frequency ranges 5 Hz - 2000 Hz, 2 kHz - 400 kHz is shown respectively in FIG. 2 and FIG. 3. With the protective device described above, the monitor radiation intensity is much lower in all directions.

 Applicants have experimentally discovered that when using the proposed protective device, such a significant weakening of the electric (electrostatic and electromagnetic) fields of the monitor is achieved that the space within which the level of these fields exceeds the values allowed by the safety rules does not actually (practically) go beyond the geometric dimensions of the monitor. Thus, the computer user or staff physically cannot get into the range of the electric field of the monitor, where the mentioned field can have any noticeable harmful effect on the body.

 The proposed protective device for a computer monitor provides protection for both modern and obsolete monitors, and in all spatial directions, which is especially important for rooms where a significant number of personnel are located (computer rooms, banks, etc.).

Claims (5)

 1. A protective device for a personal computer monitor, comprising a protective screen, which is a transparent plate mounted in a frame with an optically transparent conductive grounded coating deposited on it, characterized in that it further comprises a conductive grounded protective plate with an area of at least 0.6 of the upper the surface of the monitor, mounted above said upper surface of the monitor at a distance from it not exceeding 50 mm.  2. The device according to claim 1, characterized in that the conductive protective plate is solid or perforated.  3. The device according to claim 1 or 2, characterized in that the conductive protective plate is made of aluminum or copper alloys.  4. The device according to claim 1, characterized in that the protective screen and the conductive protective plate are mounted on the monitor independently of each other and have separate grounding.  5. The device according to claim 1, characterized in that the protective shield and the conductive protective plate are connected by a common axis.

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