Shared pixel arrangement structure and sharing method of three-primary-color full-color LED display screen
Technical Field
The invention belongs to the technical field of full-color LED display screens, and particularly relates to a shared pixel arrangement structure and a shared method of a three-primary-color full-color LED display screen.
Background
As shown in fig. 1, a full-color LED display panel with three primary colors in the prior art includes a plurality of pixels arranged in a horizontal and vertical manner, each pixel is composed of a red LED R, a green LED G, and a violet LED B (i.e., RGB pixel), and the RGB pixel is a pixel with three primary colors and correspondingly displays only one image element.
The disadvantages of this technique are: each LED belongs to a three-primary-color pixel uniquely and can only play a role in displaying one image element, and the utilization rate of each LED is low, so that the LED display screen with high resolution cannot be made.
Disclosure of Invention
The present invention is directed to overcome the above-mentioned deficiencies in the prior art, and to provide a shared pixel arrangement structure of a three-primary-color full-color LED display panel.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen is realized in the way that each line of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals;
a red light LED is arranged at a first position in a first line of the display screen, a green light LED is arranged at a second position in the first line of the display screen, a blue light LED is arranged at a third position in the first line of the display screen, a red light LED is arranged at a fourth position in the first line of the display screen, a green light LED is arranged at a fifth position in the first line of the display screen, a blue light LED is arranged at a sixth position in the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a green LED is arranged at the first position of the second line of the display screen, a blue LED is arranged at the second position of the second line of the display screen, a red LED is arranged at the third position of the second line of the display screen, a green LED is arranged at the fourth position of the second line of the display screen, a blue LED is arranged at the fifth position of the second line of the display screen, a red LED is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a blue light LED is arranged at the first position of the third row of the display screen, a red light LED is arranged at the second position of the third row of the display screen, a green light LED is arranged at the third position of the third row of the display screen, a blue light LED is arranged at the fourth position of the third row of the display screen, a red light LED is arranged at the fifth position of the third row of the display screen, a green light LED is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh.
The arrangement structure of the sixth, ninth and twelfth.
The invention also provides another shared pixel arrangement structure of a three-primary-color full-color LED display screen, wherein each line of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals;
a green light LED is arranged at the first position of the first line of the display screen, a blue light LED is arranged at the second position of the first line of the display screen, a red light LED is arranged at the third position of the first line of the display screen, a green light LED is arranged at the fourth position of the first line of the display screen, a blue light LED is arranged at the fifth position of the first line of the display screen, a red light LED is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a blue light LED is arranged at the first position of the second line of the display screen, a red light LED is arranged at the second position of the second line of the display screen, a green light LED is arranged at the third position of the second line of the display screen, a blue light LED is arranged at the fourth position of the second line of the display screen, a red light LED is arranged at the fifth position of the second line of the display screen, a green light LED is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a red LED is arranged at the first position of the third row of the display screen, a green LED is arranged at the second position of the third row of the display screen, a blue LED is arranged at the third position of the third row of the display screen, a red LED is arranged at the fourth position of the third row of the display screen, a green LED is arranged at the fifth position of the third row of the display screen, a blue LED is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh.
The arrangement structure of the sixth, ninth and twelfth.
The invention also provides another shared pixel arrangement structure of a three-primary-color full-color LED display screen, wherein each line of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals;
the first position of the first line of the display screen is provided with a blue LED, the second position of the first line of the display screen is provided with a red LED, the third position of the first line of the display screen is provided with a green LED, the fourth position of the first line of the display screen is provided with a blue LED, the fifth position of the first line of the display screen is provided with a red LED, the sixth position of the first line of the display screen is provided with a green LED, and the first line of the display screen is repeatedly arranged;
a red LED is arranged at a first position of a second line of the display screen, a green LED is arranged at a second position of the second line of the display screen, a blue LED is arranged at a third position of the second line of the display screen, a red LED is arranged at a fourth position of the second line of the display screen, a green LED is arranged at a fifth position of the second line of the display screen, a blue LED is arranged at a sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a green light LED is arranged at the first position of the third row of the display screen, a blue light LED is arranged at the second position of the third row of the display screen, a red light LED is arranged at the third position of the third row of the display screen, a green light LED is arranged at the fourth position of the third row of the display screen, a blue light LED is arranged at the fifth position of the third row of the display screen, a red light LED is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh.
The arrangement structure of the sixth, ninth and twelfth.
The invention also provides another shared pixel arrangement structure of a three-primary-color full-color LED display screen, wherein each line of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals;
a red light LED is arranged at a first position in a first line of the display screen, a blue light LED is arranged at a second position in the first line of the display screen, a green light LED is arranged at a third position in the first line of the display screen, a red light LED is arranged at a fourth position in the first line of the display screen, a blue light LED is arranged at a fifth position in the first line of the display screen, a green light LED is arranged at a sixth position in the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a blue light LED is arranged at the first position of the second line of the display screen, a green light LED is arranged at the second position of the second line of the display screen, a red light LED is arranged at the third position of the second line of the display screen, a blue light LED is arranged at the fourth position of the second line of the display screen, a green light LED is arranged at the fifth position of the second line of the display screen, a red light LED is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a green light LED is arranged at the first position of the third row of the display screen, a red light LED is arranged at the second position of the third row of the display screen, a blue light LED is arranged at the third position of the third row of the display screen, a green light LED is arranged at the fourth position of the third row of the display screen, a red light LED is arranged at the fifth position of the third row of the display screen, a blue light LED is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh.
The arrangement structure of the sixth, ninth and twelfth.
The invention also provides another shared pixel arrangement structure of a three-primary-color full-color LED display screen, wherein each line of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals;
the first position of the first line of the display screen is provided with a blue LED, the second position of the first line of the display screen is provided with a green LED, the third position of the first line of the display screen is provided with a red LED, the fourth position of the first line of the display screen is provided with a blue LED, the fifth position of the first line of the display screen is provided with a green LED, the sixth position of the first line of the display screen is provided with a red LED, and the first line of the display screen is repeatedly arranged;
a green LED is arranged at the first position of the second line of the display screen, a red LED is arranged at the second position of the second line of the display screen, a blue LED is arranged at the third position of the second line of the display screen, a green LED is arranged at the fourth position of the second line of the display screen, a red LED is arranged at the fifth position of the second line of the display screen, a blue LED is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a red LED is arranged at the first position of the third row of the display screen, a blue LED is arranged at the second position of the third row of the display screen, a green LED is arranged at the third position of the third row of the display screen, a red LED is arranged at the third position of the first row of the display screen, a blue LED is arranged at the fifth position of the third row of the display screen, a green LED is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh.
The arrangement structure of the sixth, ninth and twelfth.
The invention also provides another shared pixel arrangement structure of a three-primary-color full-color LED display screen, wherein each line of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs, green LEDs and blue LEDs which are arranged at equal intervals;
a green light LED is arranged at the first position of the first line of the display screen, a red light LED is arranged at the second position of the first line of the display screen, a blue light LED is arranged at the third position of the first line of the display screen, a green light LED is arranged at the fourth position of the first line of the display screen, a red light LED is arranged at the fifth position of the first line of the display screen, a blue light LED is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a red light LED is arranged at a first position of a second line of the display screen, a blue light LED is arranged at a second position of the second line of the display screen, a green light LED is arranged at a third position of the second line of the display screen, a red light LED is arranged at a fourth position of the second line of the display screen, a blue light LED is arranged at a fifth position of the second line of the display screen, a green light LED is arranged at a sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a blue light LED is arranged at the first position of the third row of the display screen, a green light LED is arranged at the second position of the third row of the display screen, a red light LED is arranged at the third position of the third row of the display screen, a blue light LED is arranged at the fourth position of the third row of the display screen, a green light LED is arranged at the fifth position of the third row of the display screen, a red light LED is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh.
The arrangement structure of the sixth, ninth and twelfth.
The invention also provides a sharing method of the shared pixel arrangement structure of the three-primary-color full-color LED display screen,
(1) the LED at the first position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; LEDs at the first position of the same line of the display screen are used once when forming RGB pixels;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; LEDs at a second position on the same line of the display screen are used twice when forming RGB pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; the LEDs starting from the third position of the same line of the display screen to the third last position of the same line are used for three times according to the method in the step (3) when the RGB pixels are formed;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; LEDs at the penultimate position on the same line of the display screen are used twice when forming RGB pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; the LEDs in the last position of the same line of the display are used once when composing the RGB pixels.
The invention also provides another sharing method of the shared pixel arrangement structure of the three-primary-color full-color LED display screen,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; LEDs at the first position of the same column of the display screen are used once when forming RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; LEDs in the same column and at the second position of the display screen are used twice when forming RGB pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when RGB pixels are formed;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; LEDs in the penultimate position of the same column of the display screen are used twice when forming RGB pixels;
(5) the LED at the last position of the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; the last LED position in the same column of the display screen is used once in forming the RGB pixels.
According to the invention, the red LEDs, the green LEDs and the blue LEDs are regularly arranged in each row and each column of the display screen, and each red LED, the green LED and the blue LED which are adjacent in each row or each column form an RGB pixel, so that the LEDs at the first position or the penultimate position in the same row or the same column are used once when forming the RGB pixel, the LEDs at the second position or the penultimate position in the same row or the same column are used twice when forming the RGB pixel, and the LEDs from the third position in the same row or the same column to the penultimate position in the same row or the same column are all used three times.
Drawings
In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 shows a pixel arrangement structure of a full-color LED display panel in the prior art.
Fig. 2 is a pixel arrangement structure of a three-primary-color full-color LED display panel according to embodiment 1 of the present invention.
Fig. 3 is a pixel arrangement structure of a three-primary-color full-color LED display panel according to embodiment 2 of the present invention.
Fig. 4 is a pixel arrangement structure of a three-primary-color full-color LED display panel according to embodiment 3 of the present invention.
Fig. 5 is a pixel arrangement structure of a three-primary-color full-color LED display panel according to embodiment 4 of the present invention.
Fig. 6 is a pixel arrangement structure of a three-primary-color full-color LED display panel according to embodiment 5 of the present invention.
Fig. 7 is a pixel arrangement structure of a three-primary-color full-color LED display panel according to embodiment 6 of the present invention.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Example 1:
as shown in fig. 2, in the shared pixel arrangement structure of a three-primary-color full-color LED display screen provided in embodiment 1 of the present invention, each row of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals;
a red light LED R is arranged at the first position of the first line of the display screen, a green light LED G is arranged at the second position of the first line of the display screen, a blue light LED B is arranged at the third position of the first line of the display screen, a red light LED R is arranged at the fourth position of the first line of the display screen, a green light LED G is arranged at the fifth position of the first line of the display screen, a blue light LED B is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a green light LED G is arranged at the first position of the second line of the display screen, a blue light LED B is arranged at the second position of the second line of the display screen, a red light LED R is arranged at the third position of the second line of the display screen, a green light LED G is arranged at the fourth position of the second line of the display screen, a blue light LED B is arranged at the fifth position of the second line of the display screen, a red light LED R is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a blue light LED B is arranged at the first position of the third row of the display screen, a red light LED R is arranged at the second position of the third row of the display screen, a green light LED G is arranged at the third position of the third row of the display screen, a blue light LED B is arranged at the fourth position of the third row of the display screen, a red light LED R is arranged at the fifth position of the third row of the display screen, a green light LED G is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh lines of the display screen is the same as that of the second line of the display screen, namely the arrangement structure of every other three lines is the same;
the arrangement structure of the sixth, ninth and twelfth.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 1 of the present invention is: the red light LED R at the first position in the first line, the green light LED G at the second position in the first line and the blue light LED B at the third position in the first line form an RGB pixel; the green light LED G at the second position of the first line, the blue light LED B at the third position of the first line and the red light LED R at the fourth position of the first line form an RGB pixel; the blue light LED B at the third position of the first line, the red light LED R at the fourth position of the first line and the green light LED G at the fifth position of the first line form an RGB pixel; the red light LED R at the fourth position of the first line, the green light LED G at the fifth position of the first line and the blue light LED B at the sixth position of the first line form an RGB pixel; the RGB pixels are combined according to this rule. Other rows also combine the RGB pixels in this manner.
Or, the shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 1 of the present invention is: the red light LED R at the first position in the first column, the green light LED G at the second position in the first column and the blue light LED B at the third position in the first column form an RGB pixel; the green light LED G at the second position in the first column, the blue light LED B at the third position in the first column and the red light LED R at the fourth position in the first column form an RGB pixel; the blue light LED B at the third position in the first column, the red light LED R at the fourth position in the first column and the green light LED G at the fifth position in the first column form an RGB pixel; the red light LED R at the fourth position in the first column, the green light LED G at the fifth position in the first column and the blue light LED B at the sixth position in the first column form an RGB pixel; the RGB pixels are combined according to this rule. The other columns also combine the RGB pixels in this manner.
Embodiment 1 of the present invention provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel as described above,
(1) the LED at the first position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the first position of the same line of the display screen are used once when forming RGB pixels;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the second position on the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the second position on the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs starting from the third position on the same line of the display screen to the third last position on the same line are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position on the same line of the display screen to the third last position on the same line of the display screen are used three times to form the RGB pixels, and the formed RGB pixels are called as shared pixels;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; therefore, the LEDs at the penultimate position in the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the penultimate position in the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; the last LED position in the same line of the display is used once in the composition of the RGB pixels.
Embodiment 1 of the present invention further provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs in the first position of the same column of the display screen are used once when composing the RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; therefore, the LEDs in the second position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the second position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; therefore, the LEDs in the penultimate position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the penultimate position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; thus, the last LED position in the same column of the display screen is used once in forming the RGB pixels.
In the display screen of embodiment 1 of the present invention, red LEDs, green LEDs, and blue LEDs are regularly arranged in each row and each column, and one red LED, one green LED, and one blue LED adjacent to each row or each column form an RGB pixel, so that the LEDs in the first position or the last position in the same row or the same column are used once when forming the RGB pixel, the LEDs in the second position or the last position in the same row or the same column are used twice when forming the RGB pixel, the LEDs in the third position in the same row or the same column from the first position to the last position in the same row or the same column are used three times, therefore, compared with the prior art, the display screen of embodiment 1 of the present invention has a high usage rate of each LED in each row or each column, and the number of RGB pixels formed in each row or each column of the display screen is greatly increased, thereby significantly improving the resolution of the display screen.
Example 2:
as shown in fig. 3, in the shared pixel arrangement structure of a three-primary-color full-color LED display screen provided in embodiment 2 of the present invention, each row of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals;
a green light LED G is arranged at the first position of the first line of the display screen, a blue light LED B is arranged at the second position of the first line of the display screen, a red light LED R is arranged at the third position of the first line of the display screen, a green light LED G is arranged at the fourth position of the first line of the display screen, a blue light LED B is arranged at the fifth position of the first line of the display screen, a red light LED R is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a blue light LED B is arranged at the first position of the second line of the display screen, a red light LED R is arranged at the second position of the second line of the display screen, a green light LED G is arranged at the third position of the second line of the display screen, a blue light LED B is arranged at the fourth position of the second line of the display screen, a red light LED R is arranged at the fifth position of the second line of the display screen, a green light LED G is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a red light LED R is arranged at the first position of the third row of the display screen, a green light LED G is arranged at the second position of the third row of the display screen, a blue light LED B is arranged at the third position of the third row of the display screen, a red light LED R is arranged at the fourth position of the third row of the display screen, a green light LED G is arranged at the fifth position of the third row of the display screen, a blue light LED B is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh lines of the display screen is the same as that of the second line of the display screen, namely the arrangement structure of every other three lines is the same;
the arrangement structure of the sixth, ninth and twelfth.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 2 of the present invention is: the green light LED G at the first position in the first line, the blue light LED B at the second position in the first line and the red light LED R at the third position in the first line form an RGB pixel; the blue light LED B at the second position of the first line, the red light LED R at the third position of the first line and the green light LED G at the fourth position of the first line form an RGB pixel; the red light LED R at the third position in the first line, the green light LED G at the fourth position in the first line and the blue light LED B at the fifth position in the first line form an RGB pixel; the green light LED G at the fourth position of the first line, the blue light LED B at the fifth position of the first line and the red light LED R at the sixth position of the first line form an RGB pixel; the RGB pixels are combined according to this rule. Other rows also combine the RGB pixels in this manner.
Or, the shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 2 of the present invention is: the green light LED G at the first position in the first column, the blue light LED B at the second position in the first column and the red light LED R at the third position in the first column form an RGB pixel; the blue light LED B at the second position in the first column, the red light LED R at the third position in the first column and the green light LED G at the fourth position in the first column form an RGB pixel; the red light LED R at the third position in the first column, the green light LED G at the fourth position in the first column and the blue light LED B at the fifth position in the first column form an RGB pixel; the green light LED G at the fourth position in the first column, the blue light LED B at the fifth position in the first column and the red light LED R at the sixth position in the first column form an RGB pixel; the RGB pixels are combined according to this rule. The other columns also combine the RGB pixels in this manner.
Embodiment 2 of the present invention provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel as described above,
(1) the LED at the first position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the first position of the same line of the display screen are used once when forming RGB pixels;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the second position on the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the second position on the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs starting from the third position on the same line of the display screen to the third last position on the same line are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position on the same line of the display screen to the third last position on the same line of the display screen are used three times to form the RGB pixels, and the formed RGB pixels are called as shared pixels;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; therefore, the LEDs at the penultimate position in the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the penultimate position in the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; thus, the last LED in the same row of the display screen is used once to form the RGB pixels.
Embodiment 2 of the present invention further provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display screen,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs in the first position of the same column of the display screen are used once when composing the RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; therefore, the LEDs in the second position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the second position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; therefore, the LEDs in the penultimate position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the penultimate position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; thus, the last LED position in the same column of the display screen is used once in forming the RGB pixels.
In the display screen of embodiment 2 of the present invention, red LEDs, green LEDs, and blue LEDs are regularly arranged in each row and each column, and one red LED, one green LED, and one blue LED adjacent to each row or each column form an RGB pixel, so that the LEDs in the first position or the last position in the same row or the same column are used once when forming the RGB pixel, the LEDs in the second position or the last position in the same row or the same column are used twice when forming the RGB pixel, the LEDs in the third position in the same row or the same column from the first position to the last position in the same row or the same column are used three times, therefore, compared with the prior art, the display screen of embodiment 2 of the present invention has a high usage rate of each LED in each row or each column, and the number of RGB pixels formed in each row or each column of the display screen is greatly increased, thereby significantly improving the resolution of the display screen.
Example 3:
as shown in fig. 4, in the shared pixel arrangement structure of a three-primary-color full-color LED display screen provided in embodiment 3 of the present invention, each row of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals;
a blue light LED B is arranged at the first position of the first line of the display screen, a red light LED R is arranged at the second position of the first line of the display screen, a green light LED G is arranged at the third position of the first line of the display screen, a blue light LED B is arranged at the fourth position of the first line of the display screen, a red light LED R is arranged at the fifth position of the first line of the display screen, a green light LED G is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a red light LED R is arranged at the first position of the second line of the display screen, a green light LED G is arranged at the second position of the second line of the display screen, a blue light LED B is arranged at the third position of the second line of the display screen, a red light LED R is arranged at the fourth position of the second line of the display screen, a green light LED G is arranged at the fifth position of the second line of the display screen, a blue light LED B is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a green light LED G is arranged at the first position of the third row of the display screen, a blue light LED B is arranged at the second position of the third row of the display screen, a red light LED R is arranged at the third position of the third row of the display screen, a green light LED G is arranged at the fourth position of the third row of the display screen, a blue light LED B is arranged at the fifth position of the third row of the display screen, a red light LED R is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh lines of the display screen is the same as that of the second line of the display screen, namely the arrangement structure of every other three lines is the same;
the arrangement structure of the sixth, ninth and twelfth.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 3 of the present invention is: the blue light LED B at the first position in the first line, the red light LED R at the second position in the first line and the green light LED G at the third position in the first line form an RGB pixel; the red light LED R at the second position of the first line, the green light LED G at the third position of the first line and the blue light LED B at the fourth position of the first line form an RGB pixel; the green light LED G at the third position of the first line, the blue light LED B at the fourth position of the first line and the red light LED R at the fifth position of the first line form an RGB pixel; the blue light LED B at the fourth position of the first line, the red light LED R at the fifth position of the first line and the green light LED G at the sixth position of the first line form an RGB pixel; the RGB pixels are combined according to this rule. Other rows also combine the RGB pixels in this manner.
Or, the shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 3 of the present invention is: the blue light LED B at the first position in the first column, the red light LED R at the second position in the first column and the green light LED G at the third position in the first column form an RGB pixel; the red light LED R at the second position in the first column, the green light LED G at the third position in the first column and the blue light LED B at the fourth position in the first column form an RGB pixel; the green light LED G at the third position in the first column, the blue light LED B at the fourth position in the first column and the red light LED R at the fifth position in the first column form an RGB pixel; the blue light LED B at the fourth position in the first column, the red light LED R at the fifth position in the first column and the green light LED G at the sixth position in the first column form an RGB pixel; the RGB pixels are combined according to this rule. The other columns also combine the RGB pixels in this manner.
Embodiment 3 of the present invention provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel as described above,
(1) the LED at the first position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel, so that the LED at the first position of the same line of the display screen is used once when forming the RGB pixel;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the second position on the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the second position on the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs starting from the third position on the same line of the display screen to the third last position on the same line are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position on the same line of the display screen to the third last position on the same line of the display screen are used three times to form the RGB pixels, and the formed RGB pixels are called as shared pixels;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; therefore, the LEDs at the penultimate position in the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the penultimate position in the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; thus, the last LED in the same row of the display screen is used once to form the RGB pixels.
Embodiment 3 of the present invention further provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs in the first position of the same column of the display screen are used once when composing the RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; therefore, the LEDs in the second position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the second position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; therefore, the LEDs in the penultimate position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the penultimate position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; thus, the last LED position in the same column of the display screen is used once in forming the RGB pixels.
In the display screen of embodiment 3 of the present invention, the red LEDs, the green LEDs and the blue LEDs are regularly arranged in each row and each column, and one red LED, one green LED and one blue LED adjacent to each row or each column form one RGB pixel, so that the LEDs in the first position or the penultimate position in the same row or the same column are used once when forming the RGB pixel, the LEDs in the second position or the penultimate position in the same row or the same column are used twice when forming the RGB pixel, and the LEDs in the third position from the same row or the same column to the penultimate position in the same row are all used three times.
Example 4:
as shown in fig. 5, in the shared pixel arrangement structure of a three-primary-color full-color LED display screen provided in embodiment 4 of the present invention, each row of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals;
a red light LED R is arranged at the first position of the first line of the display screen, a blue light LED B is arranged at the second position of the first line of the display screen, a green light LED G is arranged at the third position of the first line of the display screen, a red light LED R is arranged at the fourth position of the first line of the display screen, a blue light LED B is arranged at the fifth position of the first line of the display screen, a green light LED G is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a blue light LED B is arranged at the first position of the second line of the display screen, a green light LED G is arranged at the second position of the second line of the display screen, a red light LED R is arranged at the third position of the second line of the display screen, a blue light LED B is arranged at the fourth position of the second line of the display screen, a green light LED G is arranged at the fifth position of the second line of the display screen, a red light LED R is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a green light LED G is arranged at the first position of the third row of the display screen, a red light LED R is arranged at the second position of the third row of the display screen, a blue light LED B is arranged at the third position of the third row of the display screen, a green light LED G is arranged at the fourth position of the third row of the display screen, a red light LED R is arranged at the fifth position of the third row of the display screen, a blue light LED B is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh lines of the display screen is the same as that of the second line of the display screen, namely the arrangement structure of every other three lines is the same;
the arrangement structure of the sixth, ninth and twelfth.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 4 of the present invention is: the red light LED R at the first position in the first line, the blue light LED B at the second position in the first line and the green light LED G at the third position in the first line form an RGB pixel; the blue light LED B at the second position of the first line, the green light LED G at the third position of the first line and the red light LED R at the fourth position of the first line form an RGB pixel; the green light LED G at the third position of the first line, the red light LED R at the fourth position of the first line and the blue light LED B at the fifth position of the first line form an RGB pixel; the red light LED R at the fourth position of the first line, the blue light LED B at the fifth position of the first line and the green light LED G at the sixth position of the first line form an RGB pixel; the RGB pixels are combined according to this rule. Other rows also combine the RGB pixels in this manner.
Or, the shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 4 of the present invention is: the red light LED R at the first position in the first column, the blue light LED B at the second position in the first column and the green light LED G at the third position in the first column form an RGB pixel; the blue light LED B at the second position in the first column, the green light LED G at the third position in the first column and the red light LED R at the fourth position in the first column form an RGB pixel; the green light LED G at the third position in the first column, the red light LED R at the fourth position in the first column and the blue light LED B at the fifth position in the first column form an RGB pixel; the red light LED R at the fourth position in the first column, the blue light LED B at the fifth position in the first column and the green light LED G at the sixth position in the first column form an RGB pixel; the RGB pixels are combined according to this rule. The other columns also combine the RGB pixels in this manner.
Embodiment 4 of the present invention provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel as described above,
(1) the LED at the first position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the first position of the same line of the display screen are used once when forming RGB pixels;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the second position on the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the second position on the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs starting from the third position on the same line of the display screen to the third last position on the same line are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position on the same line of the display screen to the third last position on the same line of the display screen are used three times to form the RGB pixels, and the formed RGB pixels are called as shared pixels;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; therefore, the LEDs at the penultimate position in the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the penultimate position in the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; thus, the last LED in the same row of the display screen is used once to form the RGB pixels.
Embodiment 4 of the present invention further provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs in the first position of the same column of the display screen are used once when composing the RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; therefore, the LEDs in the second position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the second position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; therefore, the LEDs in the penultimate position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the penultimate position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; thus, the last LED position in the same column of the display screen is used once in forming the RGB pixels.
In the display screen of embodiment 4 of the present invention, red LEDs, green LEDs, and blue LEDs are regularly arranged in each row and each column, and one red LED, one green LED, and one blue LED adjacent to each row or each column form an RGB pixel, so that the LEDs in the first position or the last position in the same row or the same column are used once when forming the RGB pixel, the LEDs in the second position or the last position in the same row or the same column are used twice when forming the RGB pixel, the LEDs in the third position in the same row or the same column from the first position to the last position in the same row or the same column are used three times, therefore, compared with the prior art, the display screen of embodiment 4 of the present invention has a high usage rate of each LED in each row or each column, and the number of RGB pixels formed in each row or each column of the display screen is greatly increased, thereby significantly improving the resolution of the display screen.
Example 5:
as shown in fig. 6, in the shared pixel arrangement structure of a three-primary-color full-color LED display screen provided in embodiment 5 of the present invention, each row of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals;
a first blue light LED B is arranged at a first position in a first line of the display screen, a second green light LED G is arranged at a second position in the first line of the display screen, a red light LED R is arranged at a third position in the first line of the display screen, a blue light LED B is arranged at a fourth position in the first line of the display screen, a fifth position in the first line of the display screen is provided with a green light LED G, a sixth position in the first line of the display screen is provided with a red light LED R, and the first line of the display screen is repeatedly arranged;
a green light LED G is arranged at the first position of the second line of the display screen, a red light LED R is arranged at the second position of the second line of the display screen, a blue light LED B is arranged at the third position of the second line of the display screen, a green light LED G is arranged at the fourth position of the second line of the display screen, a red light LED R is arranged at the fifth position of the second line of the display screen, a blue light LED B is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a red light LED R is arranged at the first position of the third row of the display screen, a blue light LED B is arranged at the second position of the third row of the display screen, a green light LED G is arranged at the third position of the third row of the display screen, a red light LED R is arranged at the fourth position of the third row of the display screen, a blue light LED B is arranged at the fifth position of the third row of the display screen, a green light LED G is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh lines of the display screen is the same as that of the second line of the display screen, namely the arrangement structure of every other three lines is the same;
the arrangement structure of the sixth, ninth and twelfth.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 5 of the present invention is: the blue light LED B at the first position in the first line, the green light LED G at the second position in the first line and the red light LED R at the third position in the first line form an RGB pixel; the green light LED G at the second position of the first line, the red light LED R at the third position of the first line and the blue light LED B at the fourth position of the first line form an RGB pixel; the red light LED R at the third position in the first line, the blue light LED B at the fourth position in the first line and the green light LED G at the fifth position in the first line form an RGB pixel; the blue light LED B at the fourth position of the first line, the green light LED G at the fifth position of the first line and the red light LED R at the sixth position of the first line form an RGB pixel; the RGB pixels are combined according to this rule. Other rows also combine the RGB pixels in this manner.
Or, the shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 5 of the present invention is: the blue light LED B at the first position in the first column, the green light LED G at the second position in the first column and the red light LED R at the third position in the first column form an RGB pixel; the green light LED G at the second position in the first column, the red light LED R at the third position in the first column and the blue light LED B at the fourth position in the first column form an RGB pixel; the red light LED R at the third position in the first column, the blue light LED B at the fourth position in the first column and the green light LED G at the fifth position in the first column form an RGB pixel; the blue light LED B at the fourth position in the first column, the green light LED G at the fifth position in the first column and the red light LED R at the sixth position in the first column form an RGB pixel; the RGB pixels are combined according to this rule. The other columns also combine the RGB pixels in this manner.
Embodiment 5 of the present invention provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel as described above,
(1) the LED at the first position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the first position of the same line of the display screen are used once when forming RGB pixels;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the second position on the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the second position on the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs starting from the third position on the same line of the display screen to the third last position on the same line are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position on the same line of the display screen to the third last position on the same line of the display screen are used three times to form the RGB pixels, and the formed RGB pixels are called as shared pixels;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; therefore, the LEDs at the penultimate position in the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the penultimate position in the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; thus, the last LED in the same row of the display screen is used once to form the RGB pixels.
Embodiment 5 of the present invention further provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs in the first position of the same column of the display screen are used once when composing the RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; therefore, the LEDs in the second position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the second position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; therefore, the LEDs in the penultimate position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the penultimate position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same column of the display screen and the two adjacent LEDs above the same column form an RGB pixel, so the LED at the last position of the same column of the display screen is used once when forming the RGB pixel.
The display screen of embodiment 5 of the present invention has red LEDs, green LEDs, and blue LEDs regularly arranged in each row and each column, and one red LED, one green LED, and one blue LED adjacent to each row or each column form an RGB pixel, so that the LEDs in the first position or the last position in the same row or the same column are used once when forming the RGB pixel, the LEDs in the second position or the last position in the same row or the same column are used twice when forming the RGB pixel, the LEDs in the third position in the same row or the same column from the first position to the last position in the same row or the same column are used three times, therefore, compared with the prior art, the display screen of embodiment 5 of the present invention has a high usage rate of each LED in each row or each column, and the number of RGB pixels formed in each row or each column of the display screen is greatly increased, thereby significantly improving the resolution of the display screen.
Example 6:
as shown in fig. 7, in the shared pixel arrangement structure of a three-primary-color full-color LED display screen provided in embodiment 6 of the present invention, each row of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals, and each column of the display screen is provided with a plurality of red LEDs R, green LEDs G, and blue LEDs B arranged at equal intervals;
a green light LED G is arranged at the first position of the first line of the display screen, a red light LED R is arranged at the second position of the first line of the display screen, a blue light LED B is arranged at the third position of the first line of the display screen, a green light LED G is arranged at the fourth position of the first line of the display screen, a red light LED R is arranged at the fifth position of the first line of the display screen, a blue light LED B is arranged at the sixth position of the first line of the display screen, and the first line of the display screen is repeatedly arranged;
a red light LED R is arranged at the first position of the second line of the display screen, a blue light LED B is arranged at the second position of the second line of the display screen, a green light LED G is arranged at the third position of the second line of the display screen, a red light LED R is arranged at the fourth position of the second line of the display screen, a blue light LED B is arranged at the fifth position of the second line of the display screen, a green light LED G is arranged at the sixth position of the second line of the display screen, and the second line of the display screen is repeatedly arranged;
a blue light LED B is arranged at the first position of the third row of the display screen, a green light LED G is arranged at the second position of the third row of the display screen, a red light LED R is arranged at the third position of the third row of the display screen, a blue light LED B is arranged at the fourth position of the third row of the display screen, a green light LED G is arranged at the fifth position of the third row of the display screen, a red light LED R is arranged at the sixth position of the third row of the display screen, and the third row of the display screen is repeatedly arranged;
the arrangement structure of the fourth, seventh and tenth.
The arrangement structure of the fifth, eighth and eleventh lines of the display screen is the same as that of the second line of the display screen, namely the arrangement structure of every other three lines is the same;
the arrangement structure of the sixth, ninth and twelfth.
The shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 6 of the present invention is: the green light LED G at the first position in the first line, the red light LED R at the second position in the first line and the blue light LED B at the third position in the first line form an RGB pixel; the red light LED R at the second position of the first line, the blue light LED B at the third position of the first line and the green light LED G at the fourth position of the first line form an RGB pixel; the blue light LED B at the third position of the first line, the green light LED G at the fourth position of the first line and the red light LED R at the fifth position of the first line form an RGB pixel; the green light LED G at the fourth position of the first line, the red light LED R at the fifth position of the first line and the blue light LED B at the sixth position of the first line form an RGB pixel; the RGB pixels are combined according to this rule. Other rows also combine the RGB pixels in this manner.
Alternatively, the shared pixel arrangement structure of the three-primary-color full-color LED display screen provided in embodiment 6 of the present invention is: the green light LED G at the first position in the first column, the red light LED R at the second position in the first column and the blue light LED B at the third position in the first column form an RGB pixel; the red light LED R at the second position in the first column, the blue light LED B at the third position in the first column and the green light LED G at the fourth position in the first column form an RGB pixel; the blue light LED B at the third position in the first column, the green light LED G at the fourth position in the first column and the red light LED R at the fifth position in the first column form an RGB pixel; the green light LED G at the fourth position in the first column, the red light LED R at the fifth position in the first column and the blue light LED B at the sixth position in the first column form an RGB pixel; the RGB pixels are combined according to this rule. The other columns also combine the RGB pixels in this manner.
Embodiment 6 of the present invention provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel as described above,
(1) the LED at the first position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the first position of the same line of the display screen are used once when forming RGB pixels;
(2) the LED at the second position of the same line of the display screen, the adjacent LED at the left side of the same line and the adjacent LED at the right side of the same line form an RGB pixel; the LED at the second position of the same line of the display screen and the two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs at the second position on the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the second position on the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same line of the display screen, an LED adjacent to the left side of the same line and an LED adjacent to the right side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; an LED at the third position of the same line of the display screen and two adjacent LEDs at the right side of the same line form an RGB pixel; therefore, the LEDs starting from the third position on the same line of the display screen to the third last position on the same line are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position on the same line of the display screen to the third last position on the same line of the display screen are used three times to form the RGB pixels, and the formed RGB pixels are called as shared pixels;
(4) an LED at the penultimate position of the same line of the display screen, an adjacent LED at the left side of the same line and an adjacent LED at the right side of the same line form an RGB pixel; an LED at the penultimate position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; therefore, the LEDs at the penultimate position in the same line of the display screen are used twice when forming the RGB pixels, that is, the LEDs at the penultimate position in the same line of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same line of the display screen and two adjacent LEDs at the left side of the same line form an RGB pixel; thus, the last LED in the same row of the display screen is used once to form the RGB pixels.
Embodiment 6 of the present invention further provides a method for sharing a shared pixel arrangement structure of a three-primary-color full-color LED display panel,
(1) the LED at the first position of the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs in the first position of the same column of the display screen are used once when composing the RGB pixels;
(2) the LED at the second position on the same column of the display screen, the adjacent LED above the same column and the adjacent LED below the same column form an RGB pixel; the LED at the second position in the same row of the display screen and the two adjacent LEDs below the same row form an RGB pixel; therefore, the LEDs in the second position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the second position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(3) an LED at the third position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the third position on the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; an LED at the third position in the same column of the display screen and two adjacent LEDs below the same column form an RGB pixel; therefore, the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times according to the method in the step (3) when forming the RGB pixels, namely the LEDs starting from the third position of the same column of the display screen to the third last position of the same column are used three times to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(4) an LED at the penultimate position of the same column of the display screen, an adjacent LED above the same column and an adjacent LED below the same column form an RGB pixel; an LED at the penultimate position of the same row of the display screen and two adjacent LEDs above the same row form an RGB pixel; therefore, the LEDs in the penultimate position of the same column of the display screen are used twice when forming the RGB pixels, that is, the LEDs in the penultimate position of the same column of the display screen are used twice to form the RGB pixels, and the formed RGB pixels are called shared pixels;
(5) the LED at the last position of the same column of the display screen and two adjacent LEDs above the same column form an RGB pixel; thus, the last LED position in the same column of the display screen is used once in forming the RGB pixels.
In the display screen of embodiment 6 of the present invention, red LEDs, green LEDs, and blue LEDs are regularly arranged in each row and each column, and one red LED, one green LED, and one blue LED adjacent to each row or each column form an RGB pixel, so that the LEDs in the first position or the last position in the same row or the same column are used once when forming the RGB pixel, the LEDs in the second position or the last position in the same row or the same column are used twice when forming the RGB pixel, the LEDs in the third position in the same row or the same column from the first position to the last position in the same row or the same column are used three times, therefore, compared with the prior art, the display screen of embodiment 6 of the present invention has a high usage rate of each LED in each row or each column, and the number of RGB pixels formed in each row or each column of the display screen is greatly increased, thereby significantly improving the resolution of the display screen.
While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.