Abstract:
A color cathode ray tube including a generally rectangular shadow mask having a curved aperture portion having a multiplicity of electron-transmissive apertures, a curved imperforate portion surrounding and integral with said apertured portion and a skirt portion being bent back from a periphery of said curved imperforate portion; said skirt portion being provided with a plurality of embossments and a plurality of: (a) tilted slits or (b) a plurality of tilted slits with bridge.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates generally to a shadow mask for a color cathode ray tube, and more particularly to a shadow mask for a color cathode ray tube having a modified shape and arrangement of slits, and embossments of a skirt portion of the shadow mask. 
     2. Description of the Related Art 
     As a main element for realizing pictures in a picture display apparatus such as a television receiver or a computer monitor, a color cathode ray tube (CRT) is a device for realizing color pictures by emitting light from fluorescent substance in a fluorescent screen including R, G and B fluorescent substance patterned in an inner side of a panel, which is a front body of the CRT, by means of electron beam controlled by picture signals. 
     FIG. 1 is a partial sectional view showing a structure of a general color CRT. 
     Referring to FIG. 1, the color CRT generally comprises a panel  1  having a roughly rectangular shape and arranged in the front of the color CRT and a funnel  2  having a roughly conical shape and arranged in the rear of the panel  1 . 
     In addition, in an inner space formed by the panel  1  and the funnel  2 , the color CRT further includes a fluorescent screen  4  for emitting light, an electron gun  12  provided within a neck  13  of the funnel  2  for projecting electron beam  6  for emitting light from the fluorescent screen  4 , a shadow mask  3  for selecting color so that light is emitted from the fluorescent screen  4 , a frame assembly  7  for supporting the shadow mask  3  by applying tension to it, a spring  8  for coupling the frame assembly  7  to the panel  1 , an inner shield  9  welded and fixed to the frame assembly  7  for shielding an external earth magnetic field, and a reinforcement band  11  for provided at a circumference of a side portion of the panel  1  for preventing an external impact. 
     In addition, outside the neck  13  of the funnel  2  is provided a deflection yoke  5  for deflecting the electron beam  6  projected from the electron gun  12  in various directions, i.e., up, down, left and right and 2, 4 and 6-pole magnets for correcting a traveling locus of the projected electron beam  6  so that the projected electron beam  6  is precisely hit on prescribed fluorescent substance for the purpose of preventing the badness of color purity. 
     Now, as a main element in connection with the present invention, the shadow mask  3  will be in detail explained. 
     FIG. 2 is a front sectional view of the shadow mask  3 . 
     Referring to FIG. 2, the shadow mask  3  made of thin metal film having a thickness of about 0.1 to 0.12 mm is a portion positioned opposite the fluorescent screen  4 . The shadow mask  3  is completed by punching a circle plate with a plurality of electron beam through holes  110  formed by an etching process into a prescribed shape, pressing the punched plate into a curve shape such that it has same curve as a screen of the panel  1 , and forming a skirt portion  130  to be welded to the frame assembly  7  by bending four sides of the curve shape by 90 degree. 
     Herein, the steps of pressing and bending are continuously performed in a single process. 
     Therefore, the shadow mask  3  includes a porous portion  100  having a curved shape, a nonporous portion  120  connected adjacent to the porous portion  100  and having a curved shape, and the skirt portion  130  bent backward from a periphery of the nonporous portion  120 . 
     In the shadow mask  3  formed as above, the so-called “spring back” due to a property of material is generated in the skirt portion  130 . Accordingly, the skirt portion is bent in a spaced direction from an outside direction. That is, when a specific time elapses after pressing the skirt portion  130  by use of a presser, the skirt portion  130  becomes wider at an initial position with a specific interval. Under such a condition, when the skirt portion  130  is fixed to the frame assembly  7 , a deformation due to the bend of the skirt portion  130  is generated in a part of the porous portion having the curved shape (hereinafter referred to as “a curved portion”) of the shadow mask  3 . In this way, as the skirt portion  130  becomes more widened, a support force for supporting the curved portion become more weakened, which results in decrease of a strength of the curved portion of the shadow mask  3 . In addition, due to a close pressing to the shadow mask  3  by an amount of the widened of the skirt portion, a repulsive force is applied to the curved portion, which results in a variation of a curvature of the curved portion. 
     As a solution for the above problems, Korean patent application No. 10-1998-0008030 (published on Nov. 25, 1998, with publication No. 1998-0080110) is disclosed, which will be explained below. 
     FIG. 3 is a side sectional view of long and short sides of a shadow mask in the published patent application. 
     Referring to FIG. 3, a skirt portion ( 130  in FIG. 2) of the shadow mask has a plurality of pairs of embossments  200  and  300  and slit  210  and  310  having a prescribed shape and formed alternately in parallel, with one of the plurality of pairs of embossments positioned at both sides on the basis of central lines of the long and short sides. 
     By absorbing surplus material remaining after performing the steps of pressing and bending the shadow mask, the slits  210  and  310  and the embossments  200  and  300  formed in the skirt portion  130  are intended to substantially reduce a tendency of returning to an initial shape of the skirt portion  130 , reduce a curl generated in the skirt portion  130 , and minimize the occurrence of curl into a comparatively small region over the whole periphery of the skirt portion. 
     As shown in FIG. 3, however, the slits  210  and  310  and the embossments  200  and  300  in the skirt portion  130  of the conventional shadow mask  3  are configured to be positioned erectly and alternately in parallel with a specific interval. Thus, since the erected slits  210  and  310  and the embossments  200  and  300  undertake all amount of curl of the skirt portion  130  generated in a crossing direction upon forming the shadow mask  3 , they do not have a strength sufficient to absorb a compression force applied upon forming the shadow mask, which results in excessive creases in the slits  210  and  310  and the embossments  200  and  300  and a deformation of contour of the curved shape of the shadow mask  3 . 
     Typically, after a CRT is manufactured using a conventional shadow mask  3  as shown in FIG. 1, the CRT is subject to various kinds of reliability tests including, particularly, a falling test as a strength test. The falling test is a test for checking whether the shadow mask is deformed when the CRT is fallen from a specific height. 
     If an impact on the fallen CRT is weak in the falling test, the shadow mask  3  returns immediately to its original state though it is slightly deformed. In contrast, if the impact is strong, the shadow mask  3  cannot return to the original state due to a deformation such as a distortion of a portion of its surface caused while it is largely vibrated up and down. 
     The above problem involves with various causes, particularly, a structure of the shadow mask  3 . In other words, the slits  210  and  310  and the embossments  200  and  300  in the skirt portion  130  of the shadow mask  3  cannot endure the impact in the falling test due to failure of a proper dispersion of load, which results in a serious deformation of the shadow mask. 
     When such a plastic deformation is generated in the shadow mask, the electron beam  6  emitted from the electron gun  12  can collide with the shadow mask since it cannot properly pass through the electron beam through holes of the shadow mask  3 , which results in a deterioration of the shadow mask. In addition, the electron beam  6  cannot properly hit the fluorescent substance on the fluorescent screen  4  of the panel  1 , which results in a badness of the picture on the screen and hence a deterioration of productivity. 
     In addition, for an acoustic impact test, vibration of the shadow mask cannot be sufficiently absorbed, which results in a serious vibration of the picture on the screen and a deterioration of a strength of the shadow mask. 
     In summary, conventionally, the slits  210  and  310  and the embossments  200  and  300  each having a prescribed shape are placed in a parallel and alternate manner in order to minimize the amount of curl being an amount of spring-back of the skirt portion  130  of the shadow mask  3 . However, such a conventional structure for shadow mask has a limitation on reduction of the spring-back and is insufficient to prevent a deterioration of the strength of the shadow mask. 
     Accordingly, there is a need for a new shadow mask having a higher strength. 
     SUMMARY OF THE INVENTION 
     Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a shadow mask for a color CRT whose strength is increased and whose curve distortion is reduced by inclining angles of a plurality of slits formed in a skirt portion of a shadow mask. 
     Another object of the present invention is to provide a shadow mask for a color CRT in which an amount of curl in a skirt portion of the shadow mask is minimized and a curve distortion of the shadow mask is prevented by an increase of a strength of the shadow mask by forming prescribed bridges in a plurality of slits provided in the skirt portion of the shadow mask including the plurality of slits and a plurality of embossments or inclining angles of the plurality of slits in which the bridges are formed. 
     Through the above objects, the present invention has an eventual object of improving a quality of picture and a productivity of the CRT. 
     In order to accomplish the above objects, the present invention provides a color cathode ray tube including a generally rectangular shadow mask having a curved apertured portion having a multiplicity of electron-transmissive apertures, a curved imperforate portion surrounding and integral with said apertured portion and a skirt portion being bent back from a periphery of said curved imperforate portion; said skirt portion being provided with a plurality of tilted slits and a plurality of embossments. 
     In addition, the present invention provides a color cathode ray tube including a generally rectangular shadow mask having a curved apertured portion having a multiplicity of electron-transmissive apertures, a curved imperforate portion surrounding and integral with said apertured portion and a skirt portion being bent back from a periphery of said curved imperforate portion; said skirt portion being provided with a plurality of tilted slits with bridge and a plurality of embossments. 
     In addition, the present invention provides a color cathode ray tube including a generally rectangular shadow mask having a curved apertured portion having a multiplicity of electron-transmissive apertures, a curved imperforate portion surrounding and integral with said apertured portion and a skirt portion being bent back from a periphery of said curved imperforate portion; said skirt portion being provided with a plurality of tilted slits with bridges are tilted from the vertical position toward a direction of the end portion of the skirt portion. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The above and other objects, features and other advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which: 
     FIG. 1 is a sectional view of a general CRT on which a conventional shadow mask is mounted; 
     FIG. 2 is a front sectional view of a conventional shadow mask; 
     FIG. 3 is a side sectional view of long and short sides of a conventional shadow mask; 
     FIG. 4 is a side sectional view of long and short sides of a shadow mask according to a preferred embodiment of the present invention; 
     FIG. 5 is a graph showing a result of improvement of a howling characteristic according to a preferred embodiment of the present invention, compared with a conventional result; 
     FIG. 6 is a side sectional view of long and short sides of a shadow mask according to another preferred embodiment of the present invention; 
     FIG. 7 is a graph showing an enhancement of strength of mask slits in the embodiment of FIG. 6; 
     FIG. 8 is a view showing a first example of slits provided in a skirt portion of the shadow mask in the embodiment of FIG. 6; 
     FIG. 9 is a view showing a second example of slits provided in a skirt portion of the shadow mask in the embodiment of FIG. 6; 
     FIG. 10 is a side sectional view of long and short sides of a shadow mask according to still another preferred embodiment of the present invention; 
     FIG. 11 is a graph showing an enhancement of strength of mask slits in the embodiment of FIG. 10; 
     FIG. 12 is a view showing a first example of slits provided in a skirt portion of the shadow mask in the embodiment of FIG. 10; and 
     FIG. 13 is a view showing a second example of slits provided in a skirt portion of the shadow mask in the embodiment of FIG.  10 . 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. 
     In the preferred embodiments of the present invention, since only slits in a skirt portion  130  are modified, a front sectional view of a shadow mask of the present invention is similar to FIG. 2 showing the front sectional view of the conventional shadow mask. 
     FIG. 4 is a side sectional view of long and short sides of a shadow mask according to a preferred embodiment of the present invention. 
     Referring to FIG. 4, the shadow mask according to a preferred embodiment of the present invention will be described. 
     In the side sectional view of FIG. 4, a long portion having a prescribed thickness and forming a slightly curved surface represents a shape of a curve surface of the shadow mask. One of a plurality of embossments  410  indented, with an arched shape, into a central internal portion in the skirt portion ( 130  in FIG. 2) of the shadow mask is arranged in a center of each of long and short sides of the skirt portion. A pair of slits of a plurality of slits are arranged in a center of each of long and short sides of the skirt portion with a prescribed interval in both sides of one embossments  410 . Then, the plurality of slits  400  are inclined toward the embossments  410  being a central axis of each of the long and short sides with a prescribed angle with respect to a direction of an end portion of the skirt from a direction of height of the skirt of the shadow mask. The plurality of slits  400  inclined at the prescribed angle and the remaining of the plurality of embossments  410  are arranged in an alternate and parallel manner. 
     More particularly, if the prescribed angle θ of the plurality of slits  400  lies between 60° and 90° in the direction of an end portion of the skirt from the direction of height of the skirt of the shadow mask, when the skirt portion  130  of the shadow mask is bent, many creases occur in the slits and a remarkable improvement effect for the spring-back and the strength of the shadow mask cannot be achieved. However, if the angle θ of the slits  400  continues to be modified to lie between 30° and 60° in the direction of an end portion of the skirt from the direction of height of the skirt of the shadow mask, the shadow mask having a high strength, a reduced deformation and a reduced curl can be obtained when the shadow mask is formed. 
     At this time, in order to prevent folding of a diagonal corner of the shadow mask when the shadow mask is formed, slits  420  at both ends of the long and short sides of the skirt portion are arranged without any inclination. 
     In practicing the present invention, preferably, the plurality of slits  400  are formed by 20%-60% of entire height of the skirt portion from the end portion of the skirt portion and the plurality of embossments  410  are formed over the entire height of the skirt portion. 
     The reason of such a formation is that if the slits  400  are formed at a too low location, a curl prevention effect in the skirt portion of the shadow mask is low and a strength improvement of the shadow mask cannot be achieved up a desired level, in contrast, if the slits  400  are formed at a too high location above 60% of the entire height of the skirt portion, a stress generated in the skirt portion when the shadow mask is fitted into the frame assembly ( 7  in FIG. 1) cannot be properly dispersed and hence is transmitted up to the porous portion having a curved shape, which results in a deformation of the porous portion of the shadow mask to be used in future. 
     FIG. 5 is a graph showing a result of improvement of a howling characteristic according to a preferred embodiment of the present invention, compared with a conventional result. 
     Herein, a horizontal axis indicates a frequency Hz and a vertical axis indicates a grade of a howling characteristic. 
     Grade  1  indicates that the howling characteristic is fine, grade  2  indicates that ¼ of a picture is shivered, and grade  3  indicates that the howling characteristic is wrongest. Namely, a higher grade means a wronger howling characteristic. 
     Referring to FIG. 5, it can be seen that a proportion of grade  2  in the present invention is certainly decreased compared to the prior art. 
     Therefore, it can be seen that the preferred embodiment of the present invention considerably improves a picture shivering phenomenon compared to the prior art. 
     In addition, a Doming characteristic is conventionally 7-11 μm in three and nine o&#39;clock directions, but is 6-8 μm in three and nine o&#39;clock directions and 4 μm in a two o&#39;clock direction in the present invention. This shows that the Doming characteristic improves by a comparative decrease of its value. 
     On the other hand, although one of the plurality of embossments is located at the center axis of the long and short sides of the skirt portion of the shadow mask in the preferred embodiment of the present invention, it is possible to locate a pair of slits at both sides of the center axis without an embossments, arrange the plurality of embossments and the remaining slits in the alternate and parallel manner, and then arrange the plurality of slits symmetrical with respect to the center axis to be inclined toward a center point. 
     In addition, although the present invention illustrates, as an example, the shadow mask including the skirt portion having a structure in which the slits forming six bridges are arranged in the long side of the skirt portion and the slits forming four bridges are arranged in the short side of the skirt portion in the alternate and parallel manner, such a structure can be varied depending on a size of a screen, and therefore, the principle of the present invention is applicable to a shadow mask for a color CRT having different number of the slits and/or embossments. 
     In addition, it is preferred that the panel has a substantially flat outer surface and a curved inner surface. 
     &lt;Another Preferred Embodiment&gt; 
     Another preferred embodiment of the present invention provides a shadow mask  3  comprising a porous portion  100  with a curved shape including a plurality of beam through holes  110 , a nonporous portion  120  with a curved shape connected adjacent to the porous portion  100 , and a skirt portion  130  bent backward from a periphery of the porous portion  100  and including a plurality of slits  500 ,  600  and  700  forming bridges as strength enhancing means and a plurality of embossments  520 ,  620  and  720 . 
     FIG. 6 is a side sectional view of long and short sides of a shadow mask according to another preferred embodiment of the present invention. 
     As a more particular embodiment of the present invention, the side sectional view of the long and short sides of the shadow mask in FIG. 6 show bridges added, as strength enhancing means, to the slits  500  in the skirt portion  130  of the shadow mask. 
     As can be seen from a more particular observation of the side sectional view of FIG. 6, a long portion having a prescribed thickness in the upper of the skirt portion and forming a slightly curved surface represents a shape of a curve surface of the shadow mask. In the skirt portion below the long portion, a pair of slits of a plurality of slits  500  are arranged at both sides of the center point of each of long and short sides of the skirt portion with a prescribed interval and the remaining of the plurality of slits  500  are arranged together the plurality of embossments  520  in an alternate and parallel manner, as shown in FIG.  6 . 
     The plurality of slits  500  are separated into upper slits  530  and lower slits  540  to form bridges  510  having a prescribed shape. The plurality of slits  500  extend up to 30 to 70% of the entire height of the skirt portion from the end of the skirt portion. The plurality of embossments  520  extend over the entire height of the skirt portion from the end of the skirt portion and have an arch-shaped section and a shape indented into an inside from the skirt portion. 
     On the other hand, in order to prevent folding of a diagonal corner of the shadow mask when the shadow mask is formed, slits  550  at both ends of the long and short sides of the skirt portion are arranged without any bridge. 
     FIG. 7 is a graph showing an enhancement of strength of mask slits in the embodiment of FIG.  6 . 
     As can be seen from the graph of FIG. 7, while a conventional limit of maximal falling height at which mask slits are broken is 160 mm, a limit of maximal falling height at which mask slits are broken according to the present invention is 180 mm. That is, the limit of maximal falling height of slits of the present invention is higher 20 mm than that of the prior art in a characteristic estimation (impact test). This shows that the slits modified according to the present invention have high strength over the slits in the prior art. 
     On the other hand, several embodiments of a shape of slit in the present invention will be explained with reference to FIGS. 8 and 10. 
     FIG. 8 is a view showing circular slits provided in a skirt portion of the shadow mask in the embodiment of FIG.  6 . 
     As can be seen from FIG. 8, the slits in the long and short sides of the skirt portion of the shadow mask are separated by bridges  610  into upper slits  630  having a circular shape and lower slits  640 . 
     FIG. 9 is a view showing triangular slits provided in a skirt portion of the shadow mask in the embodiment of FIG.  6 . 
     As can be seen from FIG. 9, the slits in the long and short sides of the skirt portion of the shadow mask are separated by bridges  710  into upper slits  730  having a triangular shape and lower slits  740 . 
     As described above, although the preferred embodiment of the present invention shown in FIG. 6 is for rectangular slits, the shape of the slits is not limited to that, but can be diversely formed as circular  630  or triangular  730 , as shown in FIG. 8 or  9 . 
     In addition, although the preferred embodiment of the present invention shown in FIG. 6 illustrates, as an example, the shadow mask including the skirt portion having a structure in which the slits forming six bridges are arranged in the long side of the skirt portion and the slits forming four bridges are arranged in the short side of the skirt portion in the alternate and parallel manner, such a structure can be varied depending on a size of a screen, and therefore, the principle of the present invention is applicable to a shadow mask for a color CRT having different number of the slits and/or embossments. 
     In addition, although not shown in the drawings, preferably, as another example, one embossments is located on the center axis of the long and short sides of the skirt portion. 
     In other words, it is possible to locate one of the plurality of embossments on the center axis in the long and short sides of the skirt portion of the shadow mask, arrange slits forming a pair of bridges at both sides of the center axis with a specific interval, and arrange the slits and the remaining embossments in the alternate and parallel manner. 
     In addition, it is preferred that the panel has a substantially flat outer surface and a curved inner surface. 
     &lt;Still Another Preferred Embodiment&gt; 
     FIG. 10 is a side sectional view of long and short sides of a shadow mask according to still another preferred embodiment of the present invention. 
     As shown in FIG. 10, still another preferred embodiment is characterized in that a plurality of slits  800  including the bridges  810  in the skirt portion  810  of the shadow mask  130  are inclined by a prescribed angle. 
     Herein, when the plurality of slits  800  are inclined, a pair of slits  800  are arranged to be inclined toward the center axis with respect to a direction of height of the skirt portion at both sides of the center axis of the long and short sides of the skirt portion with a specific interval. Also, a structure composed of one embossments  820  and a pair of slits  800  inclined toward the embossments  820  with respect to the direction of height of the skirt portion at both sides of the embossments  820  is arranged in parallel at both sides of the center axis with a prescribed interval. 
     In the other hand, in order to prevent folding of a diagonal corner of the shadow mask when the shadow mask is formed, slits  850  at both ends of the long and short sides of the skirt portion are arranged without any inclination and bridge. 
     In addition, the plurality of slits  800  are separated into upper slits  830  and lower slits  840  to form bridges  810  having a prescribed shape. The plurality of slits  800  extend up to 30 to 70% of the entire height of the skirt portion from the end of the skirt portion. The plurality of embossments  820  extend over the entire height of the skirt portion from the end of the skirt portion and have an arch-shaped section and a shape indented into an inside from the skirt portion. 
     In addition, if the prescribed angle θ of the plurality of slits  800  forming the bridges lies between 60° and 90° in the direction of an end portion of the skirt from the direction of height of the skirt of the shadow mask, when the skirt portion  130  of the shadow mask is bent, many creases occur in the slits and a remarkable improvement effect for the spring-back and the strength of the shadow mask cannot be achieved. However, if the angle θ of the slits  800  continues to be modified to lie between 0° and 60° in the direction of an end portion of the skirt from the direction of height of the skirt of the shadow mask, the shadow mask having a high strength, a reduced deformation and a reduced curl can be obtained when the shadow mask is formed. Such a structure has same strength as the structure in which the slits not inclined in the preferred embodiment of FIG. 6 are separated into the upper and lower slits to form the bridges. 
     Namely, when the slits forming the bridges are inclined with a prescribed angle to be selected from a range of 0° to 90° in the direction of an end portion of the skirt from the direction of height of the skirt of the shadow mask, the spring-back is reduced, the strength of the shadow mask is increased, and the curl of the skirt portion is reduced. 
     FIG. 11 is a graph showing an enhancement of strength of mask slits in the embodiment of FIG.  10 . 
     As can be seen from the graph of FIG. 11, while a conventional limit of maximal falling height at which mask slits are broken is 160 mm, a limit of maximal falling height at which mask slits are broken according to the present invention is 180 mm. That is, the limit of maximal falling height of slits of the present invention is higher 20 mm than that of the prior art in a characteristic estimation (impact test). This shows that the slits modified according to the present invention have high strength over the slits in the prior art. 
     On the other hand, several embodiments of a shape of slit in the present invention will be explained with reference to FIGS. 12 and 13. 
     As can be seen from FIG. 12, the slits in the long and short sides of the skirt portion of the shadow mask are separated by bridges  910  into upper slits  930  having a circular shape and lower slits  940 . 
     In addition, as can be seen from FIG. 13, the slits in the long and short sides of the skirt portion of the shadow mask are separated by bridges  1010  into upper slits  1030  having a triangular shape and lower slits  1040 . 
     As described above, although the preferred embodiment of the present invention shown in FIG. 10 is for rectangular slits, the shape of the slits is not limited to that, but can be diversely formed as circular  930  or triangular  1030 , as shown in FIG. 11 or  12 . 
     Although the preferred embodiment of the present invention shown in FIG. 10 illustrates, as an example, the shadow mask including the skirt portion having a structure in which the slits forming six bridges are arranged in the long side of the skirt portion and the slits forming four bridges are arranged in the short side of the skirt portion in the alternate and parallel manner, such a structure can be varied depending on a size of a screen, and therefore, the principle of the present invention is applicable to a shadow mask for a color CRT having different number of the slits and/or embossments. 
     In addition, although not shown in the drawings, preferably, as another example, one embossments is located on the center axis of the long and short sides of the skirt portion. 
     In other words, it is possible to locate one of the plurality of embossments on the center axis in the long and short sides of the skirt portion of the shadow mask, arrange slits forming a pair of bridges at both sides of the center axis with a specific interval, and arrange the slits and the remaining embossments in the alternate and parallel manner. In addition, it is possible to incline the slits forming the bridges located at both sides of the embossments on the center axis toward the embossments on the center axis with a prescribed angle between 0° and 60° in the direction of an end portion of the skirt from the direction of height of the skirt of the shadow mask and incline pairs of slits of the remaining slits toward adjacent embossments with a prescribed angle selected from the range of 0° to 60°, with the embossments centered, in the alternate and parallel manner. 
     In addition, it is preferred that the panel has a substantially flat outer surface and a curved inner surface. 
     As described above, by locating one of the plurality of embossments having a prescribed shape on the center axis of the long and short sides of the skirt portion of the shadow mask for the color CRT and arranging a pair of slits at both sides of the center axis to be symmetrically inclined toward the embossments on the center axis with a prescribed angle, the spring-back in the skirt portion can be reduced when the shadow mask is formed. 
     Accordingly, since the amount of curt generated in the curved portion of the skirt portion can be minimized so that a stress applied to the skirt portion when the skirt portion is fitted into the frame assembly does not propagate up to the porous portion or the nonporous portion, it is possible to prevent a distortion from being generated in the curved shape of the porous portion of the shadow mask. 
     In addition, by adding bridges to a plurality of slits and inclining the plurality of slits above an angle of 30° with one embossments centered, the amount of curl generated in forming the skirt portion by press can be reduced so that the skirt portion can be easily fixed to the mask frame. In addition, since a stress of the skirt portion fitted into the frame assembly is small, a distortion of contour of the curved shape of the porous portion can be prevented. As a result, a deterioration generated by hitting the electron beam on the shadow mask can be prevented, and accordingly, a selectivity for color become better and the strength of the shadow mask is further enhanced. 
     In addition, since a falling impact is dispersedly and sufficiently absorbed by the slits having a strengthened structure in the present invention, it is possible to reduce a deformation of the shadow mask generated since erected slits in the skirt portion of the shadow mask cannot properly disperse a load by an impact in the falling test as the reliability test in the conventional CRT. As a result, the problems in the prior art can be solved by increasing the strength of the shadow mask and sufficiently absorbing the shivering of the shadow mask in the acoustic impact test and hence reducing the shivering of the picture in the CRT. 
     Accordingly, color purity characteristic of the shadow mask becomes better and the strength of the shadow mask becomes enhanced, which results in improvement of productivity and reliability of products employing the shadow mask. 
     Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. 
     For example, a shape of the slits and the embossments or an angle of the slits can be variously modified and practiced by those skilled in the art.