• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    PURPOSE: A band coupling structure is provided to reduce the thickness of panel and manufacturing costs by recovering the displacement of the panel during ventilation process, through the use of a tension force. CONSTITUTION: A flat cathode ray tube comprises a panel(102) which is pressured by an atmospheric pressure since the cathode ray tube is vacuumed; and a funnel(103) having a linear section(103a) formed at the top of the funnel so as to mount a band(110), wherein the linear section is vertical to the panel. The band to be coupled onto the top of the funnel has a tension force of 600kgf to 3000kgf. The linear section is formed into a length of 16mm or longer.
    公开号:KR20040071443A
    申请号:KR1020030007410
    申请日:2003-02-06
    公开日:2004-08-12
    发明作者:박상윤
    申请人:엘지.필립스디스플레이(주);
    IPC主号:
    专利说明:

    Structure for Equipping Band in a Plane Cathode Ray Tube}
    [16] The present invention relates to a planar cathode ray tube, and in particular, by improving the structure of the funnel and the method of fastening the band, the planar cathode ray tube is made to reduce the off-panel caused by the vacuum inside the cathode ray tube and to reduce the stress of the cathode ray tube. It is about.
    [17] 1 is a schematic view showing the structure of a conventional planar cathode ray tube. As shown in the drawing, a conventional planar cathode ray tube has an explosion-proof glass 1 having explosion-proof characteristics and is formed on the front surface of the panel 2. 2) The funnel 3 is fused using fritted glass on the back side, and an electron gun 4 for radiating three electron beams of R, G and B toward the panel 2 is enclosed in the neck portion of the funnel 3. .
    [18] In addition, a fluorescent film 6 is formed on the inner surface of the panel 2 by coating R, G, and B phosphors so that the electron beams emitted from the electron gun 4 collide with each other to express the respective colors.
    [19] In addition, a tensioned shadow mask 7 is formed on the front surface of the panel 2 at a constant distance from the inner surface of the panel 2 by the rail 8.
    [20] Then, lugs 9 and bands 10 for fastening the cathode ray tube to the monitor or TV chassis are fastened to the corners of the panel 2.
    [21] Referring to the operation of the conventional planar cathode ray tube made of the above configuration is as follows.
    [22] First, when the electrons emitted from the electron gun 4 strike the phosphor particles coated on the inner surface of the panel 2, the light emission and the screen are reproduced by the energy difference generated when the electrons in the phosphor are excited and fall to the ground state. .
    [23] At this time, in order to facilitate electron emission, the inside of the cathode ray tube undergoes an exhaust process to maintain a vacuum of about 10 −7 to 10 −8 torr.
    [24] A brief description will be given of an exhaust process for maintaining the interior of a conventional flat cathode ray tube in a vacuum state, in which the interior of the flat cathode panel is vacuumed while the panel 2, which is completely flat, is fixed by the funnel 3 and the frit glass. When the inside of the cathode ray tube is in a vacuum state, the outer surface of the panel 2 and the funnel 3, which are cathode ray tube glass, has a pressure of 1 atm, that is, 1.01325 × 10 5 N / m 2, due to the difference in pressure from the outside. Will receive.
    [25] Accordingly, the planar cathode ray tube after the exhaust process is contracted to the inner circumferential surface by atmospheric pressure, and in particular, the flat panel 2 is recessed into the cathode ray tube due to contraction to the inner surface of the cathode ray tube. Deformation of the panel 2, which occurs when it has a very bad effect on the characteristics of the cathode ray tube.
    [26] Figure 2 is a schematic diagram showing a deformation of the panel by the band fastening according to the prior art.
    [27] As shown in the figure, a band-bonding body composed of a lug 9 and a band 10 is applied to the outer circumferential surface of the panel 2 for the purpose of fixing the flat cathode ray tube to the monitor or TV chassis after the exhaust process. When tightened in the state, the tightening tension of the band 10 is acted in the "a" direction, thereby causing displacement of the panel 2 in the "b" direction and the "c" direction, resulting in the depression of the panel 2. The phenomenon becomes even more serious.
    [28] That is, in the conventional band fastening structure, the panel 2 is deformed by fastening the band 10 having the fastening tension to the side surface of the panel 2 in which the deformation has occurred in the inner direction of the tube axis of the bulb during the vacuum evacuation process. This further deepens and, accordingly, the vacuum stress generated in the vicinity of the sealing surface of the panel 2 and the funnel 3 becomes larger, so that the permanent stress applied to the bulb is increased when the band 10 is connected to the stress caused by the vacuum exhaust. The resulting permanent stresses add up.
    [29] Therefore, the thickness of the flat panel 2 for flat cathode ray tubes forms a thicker thickness of the center portion than the existing cathode ray tubes.
    [30] However, as the thickness of the panel 2 is set thick, the following problems occur.
    [31] First, the cathode ray tube is heated to about 340 to 360 ° C. in order to discharge the gas adsorbed on the surface of the cathode ray tube in the exhaust process of vacuuming the inside of the cathode ray tube during the planar cathode ray tube manufacturing process.
    [32] At this time, heat from the heater in the furnace heats the outer surface of the cathode ray tube by convection, and heat applied to the outer surface of the cathode ray tube is transferred to the surface of the cathode ray tube by conduction.
    [33] The thermal conductivity of the glass is about 0.92 × 10 -3 (W / mm * K), while the metal rails (8) are about 22.8 (W / mm * K) and the glass is relatively lower than metal. .
    [34] Here, since the thermal conductivity is inversely proportional to the thickness, the thicker the thickness of the flat panel 2, the greater the temperature difference between the inner surface and the outer surface of the cathode ray tube and the cathode ray tube caused by the thermal stress caused by such temperature difference. The breakage occurs in the process.
    [35] In addition, in the frit sealing process in which the panel 2 and the funnel 3 are sealed using frit glass before the exhaust process, the frit glass is crystallized at a high temperature to seal the panel 2 and the funnel 3. At this time, the cathode ray tube temperature is heated to about 440 ° C by the crystallization characteristics of the frit glass.
    [36] At this time, due to the thickness of the panel 2, a temperature difference occurs between the inner surface and the outer surface of the cathode ray tube, and the breakage of the cathode ray tube occurs due to the temperature difference.
    [37] In order to prevent such damage, the temperature difference between the inner surface and the outer surface of the cathode ray tube should be reduced by lengthening the thermal process time, which results in a poor thermal process yield, a longer time required for manufacturing, and a large amount of thermal energy consumption. Losing problems will occur.
    [38] In addition, when the light transmittance of the panel 2 having a thickness of 18.0 mm or more is Tint Glass (light transmittance is 57% at a thickness of 10.16 mm), it is less than about 40%, and dark Tint Glass (light transmittance). If the thickness is 46% at 10.16mm), it is less than about 28%, so practical application is impossible.
    [39] Design restriction that only applicable to Clear Glass (light transmittance is 86% at 10.16mm thickness) and Semi-Clear Glass (light transmittance is 82% at 10.16mm thickness) Will have
    [40] In addition, the vacuum applied to the cathode ray tube forms a permanent stress in the cathode ray tube. If the permanent stress is too large, there is a risk of spontaneous breakage, and thus the allowable vacuum stress is generally regulated to 90 kgf / cm 2 or less.
    [41] In the conventional planar cathode ray tube, the thickness of the panel 2 and the thickness of the funnel 3 are thickened together as a method for reducing such vacuum stress.
    [42] In addition, in the conventional flat cathode ray tube, explosion-proof glass 1 is attached to the front surface of the panel 2 by using a photocurable resin to prevent explosion of the cathode ray tube due to external impact. As the photocurable resin is further used, there is a problem that the material cost increases due to the production of the cathode ray tube.
    [43] In particular, the monitor panel has a very strict standard for bubbles or other foreign matter on the screen. By attaching the explosion-proof glass 1 on the panel 2, defects due to foreign matter such as bubbles may occur on the screen. The possibility is very high, and the problem that this material or air bubbles can be introduced in the process of injecting the photocurable resin in the attaching process can cause defects, and to maintain the cleanliness in the attaching process, a separate facility is provided. There is a difficulty to be carried out in space.
    [44] The present invention has been proposed to solve the above problems, an object of the present invention is to improve the structure of the funnel to the stress reduction type, planar cathode ray to recover the deformation of the panel by allowing the band to be fastened to the upper end of the funnel The purpose is to provide a band fastening structure of the tube.
    [1] 1 is a schematic view showing the structure of a conventional planar cathode ray tube.
    [2] Figure 2 is a schematic diagram showing a deformation of the panel by the band fastening according to the prior art.
    [3] Figure 3 is a schematic view showing a funnel shape and band fastening structure according to the present invention.
    [4] Figure 4 is a schematic view showing a deformation of the panel by the band fastening according to the present invention.
    [5] Figure 5 is a schematic view showing a cross section of the funnel according to the present invention in each axial direction.
    [6] 6 is a schematic view showing the maximum tensile stress generated by the vacuum of the planar cathode ray tube.
    [7] 7 is a schematic view showing the deformation angle θ p of the panel and the deformation angle θ f of the funnel according to the internal vacuum of the planar cathode ray tube.
    [8] 8 is a schematic view showing a bonding angle between the panel and the funnel in the horizontal axis of the planar cathode ray tube according to the present invention.
    [9] * Description of the symbols for the main parts of the drawings *
    [10] 1: explosion-proof glass 2: panel
    [11] 3: funnel 4: electron gun
    [12] 5: electron beam 6: fluorescent film
    [13] 7: Shadowmask 8: Rail
    [14] 9: lug 10: band
    [15] 103a: straight section
    [45] The band fastening structure of the flat cathode ray tube according to the present invention for achieving the above object is a flat cathode ray tube in which the panel of the flat cathode ray tube is pressurized by atmospheric pressure by the vacuum inside the cathode ray tube,
    [46] In order to install the band is characterized in that the upper end of the funnel has a straight section perpendicular to the panel.
    [47] In addition, the band fastening structure of the flat cathode ray tube according to the embodiment of the present invention for achieving the above object is a flat cathode ray tube in which the panel of the flat cathode ray tube is pressurized by atmospheric pressure by the vacuum inside the cathode ray tube,
    [48] A straight section perpendicular to the panel of the upper part of the funnel for installing the band is characterized in that it exists only on the diagonal axis.
    [49] Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
    [50] 3 is a schematic view showing a funnel shape and a band fastening structure according to the present invention. As shown in the drawing, a lug 109 for fastening a flat cathode ray tube according to the present invention to a chassis of a monitor or a TV is fastened to a CRT. The band 110 is fixed to the outer circumferential surface of the funnel 103 in close proximity to the panel 102.
    [51] At this time, the tightening tension of the band 110 should be maintained to be more than 600kg f 3000kg f or less.
    [52] In the fastening of the band 110 as described above, when the fastening tension of the band 110 is 600kg f or less, the recovery force by the fastening force of the band 110 is less than 10%, so the effect of improvement is not great, and the recovery power is greater than 3000kg f. The problem is that the change is not severe.
    [53] The outer circumferential surface of the funnel 103 to which the band 110 is fastened consists of a straight section 103a perpendicular to the panel 102, wherein the width of the straight section 103a perpendicular to the panel 102 is defined by a band ( It is set wider than the width of 110). This is to stably maintain the fastening force of the band 110.
    [54] Referring to the operation of the present invention made of such a configuration as follows.
    [55] First, as in the prior art, when the exhausting process is performed while the panel 102 and the funnel 103 are sealed, a shrinkage shape in which the center portion of the panel 102 is recessed into the cathode ray tube is generated.
    [56] In this state, when a suitable tension force is applied to the band 110, the fastening force is applied to the straight section 103a of the outer circumferential surface of the funnel 103 adjacent to the panel 102, and the force in the order of A → B → C as shown in FIG. 4. This action is to restore the displacement of the panel 102 generated in the exhaust process close to the original state.
    [57] As described above, the relationship between the width of the band 110 fastened in a state in which tension is applied to the outer circumferential surface of the funnel 103 and the tightening tension may be expressed by the following relational expression.
    [58] W = T / (t × σ) -------- (1)
    [59] In Equation 1, W is the width of the band, t is the thickness of the band, σ is the yield strength of the band, in general, the yield strength of the material used as a band material for cathode ray tube is about 32kg f / cm 2 and the thickness t Use about 1.2mm.
    [60] Therefore, it can be seen from the above relation that the width of the band 110 should be at least 16 mm in order for the band 110 to have a fastening tension of 600 kg f or more.
    [61] Therefore, in order to fasten the band 110 to the funnel 102, the straight section 103a perpendicular to the panel 102 at the upper end of the funnel 103 should be at least 16 mm.
    [62] Thus, as the displacement generated in the exhaust process is recovered by the tightening tension of the band 110, the thickness of the panel 102 can be considerably reduced as compared with the related art.
    [63] Accordingly, the temperature difference between the inner circumferential surface and the outer circumferential surface of the panel 102 can be reduced in the frit sealing process and the exhaust process of sealing the panel 102 and the funnel 103.
    [64] The relationship between the thickness of the panel 102 and the light transmittance is expressed as follows.
    [65] T = (1-R) × e -kt × 100% -------- (2)
    [66] Where T is the light transmittance of the panel, R is the reflectance, k is the extinction coefficient, and t is the thickness of the glass.
    [67] In general, the reflectance uses the same value of 0.045 for the tint glass and the clear glass, the extinction coefficient is 0.04626 for the tint glass, and the value of 0.00578 for the clear glass.
    [68] According to the above relationship, when the tint glass is used, the light transmittance is less than 40% when the thickness of the panel 102 is 18.0 mm.
    [69] As a result, the present invention can reduce the thickness of the panel 102, so that not only clear glass but also tint glass can be applied, thereby reducing design limitations.
    [70] The pressure P per unit area applied to the funnel 103 by the fastening force of the band 110 is as follows.
    [71] P = σ × t / R ------- (3)
    [72] In Equation (2), P denotes the pressure applied per unit area, t denotes the thickness of the band, and R denotes the radius of the funnel curvature of the portion engaged with the band.
    [73] 5 is a schematic view showing a cross section of the funnel according to the present invention in each axial direction, and shows a curvature cross section of a horizontal axis (H axis), a vertical axis (V axis), and a diagonal axis (D axis).
    [74] As shown in the figure, the radius of curvature of the diagonal axis is larger than that of the horizontal or vertical axis.
    [75] In general, the funnel 103 of the cathode ray tube has a rectangular shape with an aspect ratio of 3: 4. In particular, the radius of curvature of the horizontal axis (H axis) and the vertical axis (V axis) is about 20 to 50R, while the radius of curvature of the diagonal axis (D axis) is about 5000R to ∞.
    [76] It can be seen that the band fastening force on the diagonal axis (D axis) is more than 100 times different than the band fastening force on the horizontal axis (H axis) and the vertical axis (V axis). Accordingly, the straight section 103a formed to fasten the band 110 to the funnel 103 can be formed only on the diagonal axis (D axis).
    [77] 6 is a schematic view showing the maximum tensile stress caused by the vacuum of the planar cathode ray tube, the maximum tensile stress generated in the cathode ray tube by vacuum as shown in the figure is the adhesive portion of the panel 102 and the funnel 103 Maximum at the corners.
    [78] This tensile stress is caused by the discontinuity of the bending occurring at the fusion surface of the panel 102 and the funnel 103.
    [79] 7 is a schematic view showing the deformation angle (θ p ) of the panel and the funnel deformation angle (θ f ) according to the internal vacuum of the planar cathode ray tube. As shown in the figure, the dotted line shows the panel 102 before deformation by vacuum. ) And the funnel 103, and solid lines represent the shapes of the panel 102 and the funnel 103 after deformation.
    [80] The smaller the amount of deformation before and after deformation of the panel 102 and the funnel 103, the smaller the difference in deformation angle between the panel 102 and the funnel 103, and the smaller the angle between the panel 102 and the funnel 103. The difference between the deformation angle θ p of the panel and the deformation angle θ f of the funnel can be reduced.
    [81] 8 is a schematic view showing a bonding angle between the panel and the funnel at the horizontal axis of the planar cathode ray tube according to the present invention. When the maximum angle formed by the panel 102 and the funnel 103 through computer simulation is θ, It was found that by setting it as 80 degrees or less, it is possible to have a stress reduction effect of about 7%.
    [82] This result is applied to both the diagonal axis (D axis) and the horizontal axis (H axis).
    [83] In the present invention as described above, it is more preferable that the angle formed by the panel and the funnel bonding on the diagonal axis, the vertical axis, and the horizontal axis is formed in a diagonal> vertical> horizontal order.
    [84] In the case of using the technique of the present invention as described above, since the permanent stress generated by the vacuum is reduced by the tightening tension of the band, even if the thickness of the panel is thin, the allowable vacuum stress can be satisfied.
    [85] In addition, by fastening the band to the funnel, the band's clamping tension can be used to recover the deformation of the panel caused by vacuum and to reduce the vacuum stress by reducing the difference in the angle of deformation between the panel and the funnel caused by vacuum due to the improved funnel shape. It is possible to remove the explosion-proof glass for the purpose of protecting the cathode ray tube from an external impact.
    [86] The present invention is to recover the panel displacement generated in the exhaust process by the tightening tension of the band, it is possible to form a thinner thickness of the flat panel has the effect of reducing the manufacturing cost of the panel.
    [87] In addition, since the temperature difference between the inner and outer surfaces of the panel can be reduced in the frit sealing process and the exhaust process of sealing the panel and the funnel, the bulb breakage generated in the frit sealing or exhaust process can be reduced, and the time of the frit sealing process or the exhaust process can be reduced. Has the effect of being able to.
    [88] In addition, by fastening the band to the funnel, the band's tightening tension can be used to recover the deformation of the panel caused by vacuum and to reduce the vacuum stress by reducing the difference in the deformation angle between the panel and the funnel caused by vacuum due to the improved funnel shape. Therefore, it does not need to use explosion-proof glass.
    权利要求:
    Claims (6)
    [1" claim-type="Currently amended] In a flat cathode ray tube in which the panel of the flat cathode ray tube is pressurized by atmospheric pressure by the vacuum inside the cathode ray tube,
    A band fastening structure of a flat cathode ray tube, characterized in that it has a straight section perpendicular to the panel at the upper end of the funnel to install the band.
    [2" claim-type="Currently amended] In a flat cathode ray tube in which the panel of the flat cathode ray tube is pressurized by atmospheric pressure by the vacuum inside the cathode ray tube,
    A band fastening structure of a flat cathode ray tube, characterized in that a straight section perpendicular to the panel of the upper portion of the funnel for installing the band exists only on the diagonal axis.
    [3" claim-type="Currently amended] The method according to claim 1 or 2,
    Band fastening structure of the flat cathode ray tube, characterized in that the fastening tension of the band for fastening to the upper end of the funnel is less than 600kg f and less than 3000kg f .
    [4" claim-type="Currently amended] The method according to claim 1 or 2,
    A band fastening structure of a flat cathode ray tube, characterized in that a straight section perpendicular to the panel is formed at least 16 mm at the upper end of the funnel to install the band.
    [5" claim-type="Currently amended] The method according to claim 1 or 2,
    A band fastening structure of a flat cathode ray tube, characterized in that the maximum angle θ formed between the panel and the funnel joined to the horizontal axis of the cathode ray tube is 80 ° or less.
    [6" claim-type="Currently amended] The method according to claim 1 or 2,
    A band fastening structure of a flat cathode ray tube, characterized in that a diagonal axis, a vertical axis, and an angle formed by the panel and the funnel at the horizontal axis of the cathode ray tube are formed in a diagonal> vertical> horizontal order.
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    同族专利:
    公开号 | 公开日
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2003-02-06|Application filed by 엘지.필립스디스플레이(주)
    2003-02-06|Priority to KR1020030007410A
    2004-08-12|Publication of KR20040071443A
    优先权:
    申请号 | 申请日 | 专利标题
    KR1020030007410A|KR20040071443A|2003-02-06|2003-02-06|Structure for Equipping Band in a Plane Cathode Ray Tube|
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