KR19980031795A - Anti-Doming Composition of Shadow Mask and Method of Making the Same - Google Patents

Abstract

The anti-doming composition of the shadow mask including vehicle and ferroelectric PZT, PT, PZ, PLZT and the like, and the shadow mask for color cathode ray tube coated with the composition change the energy of the electron beam to a form other than heat to raise the temperature of the shadow mask. By suppressing this, the incidence rate of the domming can be reduced by about 30 to 50%, while the price is low and the processing is easy.

Description

Anti-Doming Composition of Shadow Mask and Method of Making the Same

[Industrial use]

The present invention relates to an anti-doming composition of a shadow mask and a method for manufacturing the same, and more particularly, to an electron beam by coating an anti-doming composition including PZT, PT, PZ, PLZT, etc., which are used as ferroelectrics, in a shadow mask for cathode ray tubes. It is to provide an anti-doming composition of a shadow mask and a method for producing the same that can change the energy of to a form other than heat to suppress the temperature rise of the shadow mask.

[Private Technology]

A typical shadow-mask-type CRT tube has three electron beams, red, green, and blue, which are irradiated by an electron beam launcher, focus through a hole in the shadow mask and then focus on a panel. Each electron beam collides (lands) on red, green, and blue phosphors formed on an inner phosphor screen to reproduce a predetermined image.

As such, the shadow mask used for the color cathode ray tube performs a color screening function for selecting the electron beam irradiated from the electron beam, and is mainly a method of corrosion by applying photolithography to A / K (aluminum-killed) steel of pure iron material. It is common to make hundreds of thousands of holes on the surface of the fabric.

The general manufacturing process of such a shadow mask is described in more detail as follows.

Roller leveling of the A / K steel gives plastic deformation to the mask plate, imparting flatness and work hardening, and then forming into a uniform form by pressing. After the foaming is completed, the mask plate is subjected to a degreasing process of removing foreign substances such as contamination and fingerprints, and then a hole is formed to pass through the electron beam. The process of forming a hole in the mask plate is performed by a method using photolithography, in which the photoresist is applied to the mask plate on which degreasing is completed, exposed, developed, and then etched. When the etching process is completed, a hole for passing a predetermined electron beam is formed in the shadow mask. In this way, the shadow mask is manufactured by applying a blackening process as a means for preventing the doming to the shadow mask in which the hole is formed.

Meanwhile, about 20% of the electrons irradiated from the electron gun and arrive at the shadow mask emit light through the shadow mask, and about 80% are absorbed by the shadow mask to induce thermal expansion of the shadow mask. Is raised to about 80-90 ° C. This phenomenon of thermal expansion of the shadow mask is called doming, which causes each hole on the shadow mask to move, resulting in a different light emission position, and even other colors to emit light, thereby lowering the purity of the cathode ray tube. Becomes Therefore, efforts are being made to develop an anti-doming method in order to prevent such a doming phenomenon.

As described above, the manufacturing technology of cathode ray tube using Invar steel as a shadow mask to prevent the color purity deterioration by doming is disclosed in Japanese Patent Laid-Open Nos. 59-15861, US Pat. Nos. 647924 and 4528246. Is disclosed. Invar steel is widely used as a material for shadow masks for high-definition cathode ray tubes of 15 inches or more because the thermal expansion coefficient of the A / K steel is 11.7 × 10 ^-6 / K, which is very small at about 1/10 and the effect of reducing doming is excellent. Although used, there are problems such as high price and difficult processability.

In addition, Korean Patent Application No. 86-1589 discloses that a heavy metal such as lead (Pb), bismuth (Bi), tungsten (W) and the like is applied to the electron gun side of a shadow mask to apply an electron reflection film to reduce heating by an electron beam. The technique to make is disclosed. However, these heavy metal films are not easy to apply, and only about 30% of the dope reduction effect can be obtained, and it is difficult to apply them to the actual mass production process. In addition, in the case of tungsten film, since oxidation generally occurs at a temperature of 300 ° C. or more, there is a problem that severe oxidation occurs at a temperature of about 450 ° C. of the firing and sealing process.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to mechanically suppress the expansion of the shadow mask, suppress the temperature rise of the shadow mask to reduce the doming incidence about 30 to 40% It is possible to provide an anti-doming composition of a shadow mask and a method for producing the same, which can be used at the same time, and which is inexpensive and has easy processability.

In order to achieve the above object of the present invention, the present invention is selected from the group consisting of vehicle and PZT (PbZrTiO ₃ ), PT (PbTiO ₃ ), PZ (PbZrO ₃ ) and PLZT [(PbLa) (ZrTi) O ₃ ] It provides an anti-doming composition of a shadow mask comprising one compound or a mixture thereof. Here, it is preferable that one compound selected from the group consisting of PZT, PT, PZ and PLZT or a mixture thereof is included in an amount of 30 parts by weight or more based on the total weight of the composition. In another aspect, the present invention provides a shadow mask comprising a steel sheet for shadow mask comprising a plurality of holes for passing the electron beam and a coating film formed of the anti-doming composition. Here, the coating film is preferably formed to a thickness of 3 to 30㎛ using a silk screen printing method.

The present invention also provides a method for producing an anti-doming composition of a shadow mask comprising a vehicle and a process for mixing one compound selected from the group consisting of PZT, PT, PZ and PLZT or mixtures thereof. Here, it is preferable that one compound selected from the group consisting of PZT, PT, PZ and PLZT or a mixture thereof is included in an amount of 30 parts by weight or more based on the total weight of the coating composition. In another aspect, the present invention is a method of manufacturing a shadow mask to form a coating film using an anti-doming composition prepared to prevent dope in the steel sheet for shadow mask including a plurality of holes for passing the electron beam, the anti-doming composition as described above Provides a method for producing a shadow mask, characterized in that it comprises one compound selected from the group consisting of PZT, PT, PZ and PLZT or mixtures thereof. Here, the coating film is preferably formed to a thickness of 3 to 30㎛ using a silk screen printing method.

EXAMPLE

Representative Example

A powder of a compound such as PZT, PT, PZ and PLZT or a mixture thereof is added to an epoxy-based vehicle to prepare an antidoming coating composition of a shadow mask in a paste state, and an appropriate amount of low melting point is added thereto. A frit is added to prevent the particles from leaving after blackening or firing. Since PZT, PT, PZ and PLZT have effects such as piezoelectric and pyroelectric, they change the energy of the electron beam to a form other than heat to prevent the temperature of the shadow mask from rising. Screen printing may be used as a coating method for coating the prepared coating composition on the shadow mask having completed the annealing process. The blackening process is applied to the shadow mask on which the coating layer is formed to prevent the doming, and thus the shadow mask of the present invention is manufactured. In this step, the frit melts to cover PZT and the like, so that powder does not drop out in a subsequent process.

Preferred Embodiment

Preferred examples and comparative examples of the present invention are described. However, the following examples are merely examples of the present invention showing the constitution and effects of the present invention, and the present invention is not limited to the following examples.

Example 1

A vehicle was prepared by adding 4 g of epoxy resin to 16 g of butyl carbitol. 16 g frit was added to 64 g PZT powder to prepare a mixed powder. The mixed powder was added to the vehicle to prepare an antidoming composition of the present invention. A coating film having a film thickness of 20 μm was formed on the shadow mask in which the prepared anti-doming composition was annealed by a silk screen method. Thus, the shadow mask for the color cathode ray tube of the present invention was prepared by heating the shadow mask having a coating layer for preventing dope to improve the anti-domming properties by heating to 570 ℃ through a blackening process.

Example 2

A vehicle was prepared by adding 4 g of epoxy resin to 16 g of butyl carbitol. A mixed powder was prepared by adding 8 g frit to 72 g PZT powder. The mixed powder was added to the vehicle to prepare an antidoming composition of the present invention. A coating film having a film thickness of 25 μm was formed on the shadow mask in which the prepared anti-doming composition was annealed by a silk screen method. Thus, the shadow mask for the color cathode ray tube of the present invention was prepared by heating the shadow mask having a coating layer for preventing dope to improve the anti-domming properties by heating to 570 ℃ through a blackening process.

Comparative Example 1

A shadow mask for a color cathode ray tube was manufactured in the same manner as in Example 1, except that the coating film was formed using the anti-doming composition of Example 1.

The method of measuring the dominant incidence rate is generally determined by measuring the maximum position of the beam when it is not subjected to heat and the maximum position of the beam when it is immersed in heat. The domming rate measured by coating the surface of the shadow mask is shown in Table 1.

Maximum Domming Amount (㎛) Doming reduction (%) Example 1 38 36.7 Example 2 36 40.0 Comparative Example 1 60 -

As a result of the preparation of the anti-doming composition of the shadow mask and the shadow mask coated with the same by the method of Examples and Comparative Examples of the present invention, the shadow mask of the Example suppresses the temperature increase compared to the shadow mask of the Comparative Example to about 30 to 40 It could be confirmed that the% can be reduced, and the price was low and easy processability was confirmed.

Claims (8)

Vehicle; And One compound selected from the group consisting of PZT, PT, PZ and PLZT or mixtures thereof; Anti-doming composition of the shadow mask comprising a. According to claim 1, wherein the compound selected from the group consisting of PZT, PT, PZ and PLZT or mixtures thereof is 30 parts by weight or more based on the total weight of the composition. A steel sheet for shadow mask including a plurality of holes through which an electron beam passes; And A coating film formed of the anti-doming composition of claim 1; Shadow mask comprising. The shadow mask of claim 3, wherein the coating layer is formed to a thickness of 3 to 30 μm using a silk screen printing method. A method for producing an anti-doming composition of a shadow mask, comprising mixing a vehicle and one compound selected from the group consisting of PZT, PT, PZ and PLZT or mixtures thereof. The method of claim 5, wherein the compound or a mixture thereof selected from the group consisting of PZT, PT, PZ, and PLZT is 30 parts by weight or more based on the total weight of the coating composition. In the manufacturing method of the shadow mask to form a coating film by using the anti-doming composition prepared to prevent doming in the steel sheet for shadow mask comprising a plurality of holes for passing the electron beam, The anti-doming composition is a method for producing a shadow mask, characterized in that it comprises one compound selected from the group consisting of PZT, PT, PZ and PLZT or mixtures thereof. The method of claim 7, wherein the coating film is formed to a thickness of 3 to 30 μm using a silk screen printing method.