KR200203899Y1 - Shadow mask heat conduction device of Color water pipe - Google Patents

Abstract

The present invention relates to a heat conduction device of a shadow mask for a color water pipe, and in the shadow mask of a conventional color water pipe, an electron beam that strikes the surface of the shadow mask is converted into heat, and when the shadow mask is heated, the surface swells due to thermal expansion. There was a problem that the resolution of the screen is reduced. The present invention forms the high conductive coating layer 15 and the normal blackening layer 20 which are excellent in thermal conductivity, such as aluminum, on the inside and outside surfaces of the shadow mask 30 for color water pipes, respectively, The heat generated by the collision between the electron beam and the shadow mask 30 is interposed between the peripheral portion and the contact portion of the support frame 40 through the peripheral parts of the shadow mask 30. By dispersing and discharging rapidly, the temperature of the shadow mask itself can be significantly lowered during the operation of the color receiver, eliminating the doming phenomenon of the shadow mask surface caused by thermal expansion, and further increasing the color accuracy and definition of the color receiver. In other words, by increasing the resolution of the color receiver, the quality of the device can be greatly improved and the service life of the device can be extended.

Description

Shadow mask heat conduction device of Color water pipe

1 is a schematic longitudinal cross-sectional view showing the overall configuration of a conventional color water pipe.

2 is an enlarged view of a portion “A” of FIG. 1.

3 is a view illustrating a connection and fixing structure of a shadow mask and a frame of a conventional color water pipe.

3 (a) is a rear view.

3 (b) is a front view.

Figure 4 (a) is a schematic longitudinal cross-sectional view showing the configuration of the color water pipe according to the present invention.

4 (b) is an enlarged view of portion “B” of FIG. 4 (a).

5 is a comparison between the shadow mask of the conventional color water pipe and the present invention shadow mask,

Figure 5 (a) is a partially enlarged cross-sectional view of a conventional shadow mask.

Figure 5 (b) is an enlarged cross-sectional view of the shadow mask according to the present invention.

Figure 6 is a rear view showing the heat conduction flow of the shadow mask for color water pipe according to the present invention.

Figure 7 shows an embodiment of the aluminum connector applied to the present invention,

7 (a) to 7 (d) is a cross-sectional view showing another embodiment of the aluminum connector according to the present invention.

* Explanation of symbols for main parts of the drawings

40 frame 35 connector

15: high conductive coating layer 20: blackening layer

The present invention relates to a shadow mask heat conduction apparatus of a color water pipe, and in particular, to increase the thermal conductivity of the shadow mask surface and to allow the heat generated from the shadow mask to smoothly escape to the surrounding parts, thereby causing the shadow according to the operation of the color water pipe. By minimizing the temperature rise of the mask, it relates to a shadow mask heat conduction device of the color water pipe which can significantly improve the color accuracy and high definition of the color water pipe.

FIG. 1 is a vertical cross-sectional view of a color water pipe according to the prior art, and FIG. 2 is an enlarged view of a portion “A” of FIG. 1, and FIGS. 3 (a) and 3 (b) show a connection between a conventional shadow mask and a frame. The fixed structure is shown in a rear view and a bottom view, respectively. As shown in the drawing, the conventional color water pipe maintains a high vacuum therein and is also sealed to protect the internal components. And the electron gun 3 emitting an electron beam, the deflection yoke 4 for generating a magnetic field to deflect the electron beam, and the electron beam emitted from the electron gun 3 to produce desired red, green, and blue colors in the phosphor 6. It consists of the shadow mask 5 which touches, and the phosphor 6 etc. which light-emits by an electron beam and produces an image.

In particular, the shadow mask assembly related to the present invention among the components, as shown in FIG. 2, guides only the necessary electron beams through the mask hole 5a to accurately reach the corresponding red, green, and blue phosphors 6. The shadow mask 5, the frame 10 for fixing the shadow mask 5 to the inside of the panel 1, and the shadow mask 5 and the frame 10 in front of the phosphor 6; It consists of the leaf | plate spring 11 fixed to the skirt part 7 formed in the inner surface of the collar water pipe body 1 so that it may be located.

In the conventional color receiver configured as described above, when the electron gun 3 emits an electron beam by using a heated cathode therein, the deflection yoke 4 generates a magnetic field and deflects the electron beam in a desired direction to spray it. . The electron beam deflected as described above is filtered as necessary by the mask hole 5a formed over the entire surface of the shadow mask 5 and is forwarded. As such, the electron beam passing through the mask hole 5a is passed through the inner surface of the panel 1. While colliding with the phosphor 6 coated on the phosphor 6, the phosphor 6 is emitted to generate a screen on the front of the water pipe.

However, in the technique of the color water tube, the electron beam emitted from the electron gun 3 does not pass all the mask holes 5a of the shadow mask 5 and passes only about 15 to 20%. 80% of the electron beam hits the surface of the shadow mask 5 and is converted into heat, thereby heating the shadow mask 5.

However, since the shadow mask 5 heated in this way is composed of a thin plate having a thickness of about 0.2 mm, the doping phenomenon in which the surface thereof swells due to the thermal expansion of the thin shadow mask material itself is generated. This will lower the overall screen resolution.

In general, the conventional color receiving tube is a plate attached with a bimetal between the frame 10 for supporting the shadow mask 5 and the stud pins 8 fixed to the inner surface of the panel 1 to compensate for the above-mentioned ming phenomenon. The spring 11 is installed to compensate for the dominant phenomenon by the deformation amount of the bimetal proportional to the increase in temperature, or as shown in FIG. 3, the bead part 10a is formed at the edge of the shadow mask 5 so as to provide the shadow mask. Although many efforts have been made to improve the structure, such as to suppress the thermal deformation of (5), the improvement of the structure alone does not fundamentally exclude the temperature rise factor of the shadow mask (5). 10a) shows a welding point for fixing between the shadow mask 5 and the frame 10.)

In particular, in order to suppress the temperature rise of the shadow mask 5, the heat generated in the shadow mask 5 should be smoothly dispersed and drawn out. In addition, the conventional shadow mask 5 as described above is shown in FIG. As it is connected to and fixed to the frame 10 only by a few welding points 10a formed in the frame 10 and the shadow mask 5, the high temperature generated in the shadow mask 5 during operation of the device. The heat cannot be quickly and sufficiently escaped to parts such as the frame 10, and there is a problem in that the dominant phenomenon of the shadow mask 5 is severely generated due to heat deformation caused by such a high temperature.

Therefore, the object of the present invention is to improve the thermal conductivity of the shadow mask surface itself, and to greatly increase the contact area with the frame, which is the peripheral part of the shadow mask, so that heat generated in the shadow mask is immediately conducted to the surrounding parts, It is to provide a heat conduction device of a color water pipe shadow mask which can reduce the temperature rise of the shadow mask itself as smoothly as possible, thereby significantly reducing the dominant phenomenon which adversely affects the color accuracy and high definition of the color water pipe. .

The purpose of the present invention is to coat the material having good thermal conductivity such as aluminum on the front and rear surfaces of the shadow mask of the color water pipe, and then blackening the outer surface of the coating part, and the contact portion between the shadow mask and the frame. It can be achieved by inserting an annular connector having excellent thermal conductivity into the film and increasing the thermal conductivity between the shadow mask and the frame.

Hereinafter, the heat conduction apparatus of the shadow mask for color water pipe according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 (a) is a longitudinal cross-sectional view showing the overall configuration of the color water pipe provided with the heat conduction device of the shadow mask according to the present invention, Figure 4 (b) is a fourth (a) showing the main configuration of the device of the present invention FIG. 5 is an enlarged view of portion “B” of FIG. 5 and FIG. 5 is an enlarged view of portion “P” of FIG. 4 (a) showing an enlarged view of the mask hole portion of the shadow mask according to the present invention. It is composed of a front panel (25) and a funnel side funnel (75), which is sealed in a high vacuum state to protect the internal parts, and is located behind the panel (100) and the panel (25). An electron gun 70 installed to emit an electron beam; A phosphor (30) installed inside the front surface of the panel (1) and emitting light by an electron beam scanned from the electron gun (70) to generate an image on the front panel (25) of the water tube body (100); A deflection yoke 55 for generating a magnetic field and deflecting the electron beam emitted from the electron gun 70; A shadow mask 60 for guiding only the desired electron beams of the electron beams emitted from the electron gun 70 to reach the corresponding phosphors of red, green, and blue accurately; The shadow mask 60 is composed of a support frame 40 or the like for supporting the shadow mask 60 to be positioned inside the front panel 25.

In such a color water pipe, the shadow mask heat conduction apparatus according to the present invention is the front of the shadow mask 50 in which the mask hole 22 is formed. The surface is then coated with a material having excellent thermal conductivity such as aluminum to form a highly conductive coating layer 15 and then etched, and then an outer surface (front and rear) of the highly conductive coating layer 15 including the mask hole 22. Blackening process to form a blackening layer 20, and at the same time between the rear edge of the shadow mask 60 and the front contact portion of the support frame 40, which is supported by the shadow mask 60 is also thermally conductive, such as aluminum By inserting and fixing the spherical or annular thermally conductive connector 35 made of this excellent material, heat generated in the shadow mask 50 is transferred to the support frame 40 through the thermally conductive connector 35. It was made.

As shown in FIG. 4 (b), the front part of the spherical rim-shaped body having a triangular cross section is in contact with the rear periphery of the shadow mask 60 as shown in FIG. The rear portion is in contact with the groove portion 40a formed over the front surface of the support frame 40.

In the above embodiment, the body of the conductive connector 35 interposed between the shadow mask 60 and the support frame 40 has a triangular cross section, and of the support frame 40 into which the conductive connector 35 is inserted. Although the groove portion 40a is illustrated and described as an example of being formed in a “V” shape, the cross-sectional shape of the conductive connecting member 35 is implemented between the shadow mask 60 and the support frame 40. As shown in Figs. 7 (a), (b), (c), and (d), the circular body, the rectangular body, the semi-circular body, and the triangular body are deformed within the range in which the contact area can be maximized. It is possible to implement, the shape of the groove portion (40a) of the support frame 40 side in which they are inserted can also form grooves (not shown) corresponding to each body of each of the conductive connecting member (35).

Unexplained reference numerals in the drawing is a conventional plate spring 45 for fixing and fixing the support frame 40 to each stud pin 50 fixed to the inner surface of the side funnel 75 and the panel 25 of the water pipe main body 100 ).

The effects of this shadow shadow mask heat conduction device composed of the above are as follows.

Image generation process and action according to the operation of the color receiver according to the present invention is the same as the operation of the conventional color receiver.

However, as described above, the color water pipe according to the present invention has a high conductive coating layer made of aluminum that has a thermal conductivity of 20 times or more than that of aluminum-kilted steel or invar on the inner surface of the blackening layer 20 of the shadow mask 60. Since the heat is generated in the shadow mask 60 according to the driving of the color water pipe, the shadow mask is formed by the highly conductive coating layer 15 of the shadow mask 60, as shown by the arrows in FIG. At the same time, it is rapidly dispersed and conducted to the periphery of (60), and is conducted to the support frame (40) through the thermally conductive connection (35) in close contact with the periphery of the shadow mask (60), and thus to the support frame (40). The high temperature heat transmitted is conducted to the side funnel 75 of the water pipe main body 100 through each of the leaf springs 45 and then smoothly discharged to the outside of the water pipe main body 100, whereby the shadow mask 60 Due to the collision of the surface with the electron beam It is possible to significantly lower the temperature rise of one shadow mask (60).

As described above, the thermal conduction apparatus of the shadow mask for color water pipes according to the present invention forms a highly conductive coating layer having excellent thermal conductivity such as aluminum on the surface of the shadow mask heated by the electron beam emitted from the electron gun, and the shadow mask. The heat conduction is connected between the periphery of the frame and the contact part of the support frame, so that the heat generated by the collision of the electron beam and the shadow mask can be dissipated quickly to the outside through the peripheral parts of the shadow mask. When driving, the temperature of the shadow mask itself is significantly lowered to eliminate the shadowing of the shadow mask due to thermal expansion and to further increase the color accuracy and high definition of the color receiver, thereby improving the quality of the device by increasing the resolution of the color receiver. The longevity of the device There is an effect such as being able sikilsu chapter.

Claims (5)

A high conductive coating layer, such as an aluminum coating layer, is formed on the front and rear surfaces of the shadow mask having the mask holes formed thereon, and a blackening layer is formed by blackening the outer surface of the high conductive coating layer including the mask holes, and the rear edge of the shadow mask. And a shadow mask thermal conduction apparatus of a color receiving pipe, characterized by inserting and fixing a spherical thermally conductive connector made of a material having excellent thermal conductivity between a front contact portion of a support frame on which the shadow mask is supported. 2. The conductive connector of claim 1, wherein one side of the spherical edge-shaped body is in intimate contact with the rear periphery of the shadow mask, and the other side of the body is inserted into a recess formed over one surface of the support frame. Shadow mask heat conduction apparatus of the color water pipe, characterized in that the contact. The shadow mask heat conduction apparatus of claim 1 or 2, wherein the conductive connecting body has a triangular cross-sectional shape of the body. The shadow mask heat conduction apparatus of claim 1 or 2, wherein the conductive connecting body has a polygonal cross-sectional shape of the body. The shadow mask heat conduction apparatus of claim 1 or 2, wherein the conductive connecting member has a circular cross-sectional shape of the body.