CN212229987U - Transparent LED display screen of high contrast - Google Patents

Abstract

The utility model discloses a transparent LED display screen of high contrast, including a plurality of transparent LED lamp strips, transparent LED lamp strip includes: the LED lamp comprises a plurality of lamp bead bonding pads, a plurality of signal lines, a VCC line, a GND line and a plurality of LED lamp beads; the LED lamp beads are welded on the lamp bead welding pads; at least one side of each transparent LED lamp strip is a grid line, the grid lines occupy the space between adjacent lamp bead pads in two adjacent transparent LED lamp strips, and the area of a blank area in each grid line occupies 68-98% of the area of each grid line. The utility model discloses a gridlines can also provide the background for transparent LED lamp strip under the penetrating condition that does not influence transparent display screen to increase the contrast of transparent LED display screen, promote the display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

Description

Transparent LED display screen of high contrast

Technical Field

The utility model relates to a transparent LED display screen technical field especially relates to a transparent LED display screen of high contrast.

Background

The transparent LED display screen is composed of a plurality of LED lamp bars, and hollow parts are arranged between the lamp bars, so that transparent display can be realized. In order to obtain the best transparent display effect, manufacturers can enlarge the distance between the LED light bars; when can bear operating current voltage safely, also constantly concentrate as far as possible the wire of connecting LED lamp pearl in the LED lamp strip, contain VCC line, GND line and signal transmission line in the LED lamp strip, three wires are all very close to. The transparent LED display screen which is pursuing to be transparent lacks the black background of the common LED display screen, and the contrast is very deficient, so that the display effect is relatively weak. For the same transparent LED display screen, the display effect is good at night due to the background of the night; however, when the display is performed in daytime, the background of the night is not available, the display effect is white, and the display effect is poor.

The transparent LED display screen which is sought to be transparent has the defect that the heat dissipation effect of the concentrated wires is inevitably poor due to the fact that the wires need to be concentrated as much as possible, and the service life of the transparent LED display screen is greatly influenced.

In order to reduce the interference of external signals, metal boxes are mostly installed on the LED display module of the common LED display screen. The transparent LED display screen needs a transparent effect, and the transparent LED display screen is not realistic to be solved by adopting the installation metal box.

The transparent LED display screen which is pursued to be transparent is easy to damage due to the fact that the wires need to be concentrated as much as possible and are thin, and the structural strength of the transparent LED lamp strip is not enough.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the utility model provides a transparent LED display screen of high contrast promotes the contrast of current transparent LED display screen to promote transparent LED display screen display effect, promote the radiating effect of transparent LED display screen, reduce the external electromagnetic interference to transparent LED display screen, strengthen the structural strength of transparent LED lamp strip.

The technical scheme of the utility model as follows: the utility model provides a transparent LED display screen of high contrast, includes a plurality of transparent LED lamp strips, transparent LED lamp strip includes: the LED lamp comprises a plurality of lamp bead bonding pads, a plurality of signal lines, a VCC line, a GND line and a plurality of LED lamp beads; and the LED lamp beads are welded on the lamp bead welding pads.

The lamp pearl pad includes: VCC bonding pad, GND bonding pad, signal input bonding pad unit, signal output bonding pad; the VCC line is connected with VCC bonding pads in all the lamp bead bonding pads, and the GND line is connected with GND bonding pads in all the lamp bead bonding pads; in two adjacent lamp pearl pads, the signal output pad of preceding lamp pearl pad is connected through the signal line between the signal input pad unit of back lamp pearl pad.

At least one side of each transparent LED lamp strip is a grid line, the grid lines occupy the space between adjacent lamp bead pads in two adjacent transparent LED lamp strips, and the area of a blank area in each grid line occupies 68-98% of the area of each grid line.

At least one side of transparent LED lamp strip is the gridline, and the gridline has occupied the space between the adjacent lamp pearl pad in two adjacent transparent LED lamp strips, therefore the gridline is not influencing under transparent condition of transparent display screen, can also provide the background for transparent LED lamp strip to increase the contrast of transparent LED display screen, promote display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

Further, at least one of the VCC line, the GND line, and the signal line is a grid line. Will VCC line at least one of the line in the GND line the signal line is the gridline, because the area of gridline is great, consequently the radiating effect of promotion transparent LED display screen that can be very big. Because the space between the adjacent lamp pearl pad in two adjacent transparent LED lamp strips has been occupied to the gridlines, increased the density of cable, consequently can be very big promotion electromagnetic shield performance, reduce external disturbance. And VCC line the GND line the signal line is transparent LED lamp strip self's subassembly, regards it as the gridline, also is convenient for produce. Because VCC line and GND line supply power for a plurality of LED lamp pearls, the voltage current that bears is great, consequently, adopt a VCC line and a GND line alone to supply power, can lead to VCC line alone, GND line is all thicker, influences the transparency of transparent LED display screen very easily, sets VCC line and GND line into the grid line, when satisfying the bearing current voltage, has avoided thick VCC line, GND line to the transparency influence of transparent LED display screen.

Further, the grid lines include: the LED lamp comprises a plurality of long wires along the direction of a transparent LED lamp strip and a plurality of connecting wires connected with the long wires; the distance range between two adjacent long wires is as follows: 0.82mm-0.96mm, and the distance between two adjacent connecting leads is in the range of: 0.82mm-0.96 mm; the width of the long wire ranges from: 0.09mm to 0.15mm, the width of the connecting wire being in the range of: 0.09mm-0.15 mm.

Further, the distance range between two adjacent bead pads is 5mm-10mm, and the distance range between two adjacent grid lines in two adjacent transparent LED light bars is 0.30mm-0.46 mm.

Furthermore, the grid lines are inserted between two adjacent lamp bead pads of the same transparent LED lamp strip. And the contrast of the transparent LED display screen is further improved.

Further, the signal input pad unit includes: the first signal input pad and the second signal input pad. In three adjacent lamp pearl pad, the first signal input pad of second lamp pearl pad is connected with the signal output pad of first lamp pearl pad through a signal line, the second signal input pad of second lamp pearl pad is connected with the first signal input pad of first lamp pearl pad through a signal line, the first signal input pad of third lamp pearl pad is connected with the signal output pad of second lamp pearl pad through a signal line, the second signal input pad of third lamp pearl pad is connected with the first signal input pad of second lamp pearl pad through a signal line. The LED lamp beads are LED lamp beads with chips.

The VCC line is used for providing VCC voltage, the GND line is grounded, and the signal line is used for transmitting a control signal. The chip in the LED lamp bead can control whether the LED lamp bead emits light or not and how to emit light.

The signal output pad in the first lamp pearl pad in the adjacent three lamp pearl pad in same transparent LED lamp strip has connected the first signal input pad in the second lamp pearl pad and the second signal input pad in the third lamp pearl pad, consequently, even LED lamp pearl on the second lamp pearl pad breaks down, the LED lamp pearl of taking the chip on the third lamp pearl pad also can light.

When a first LED lamp bead in one row or one column of lamp beads breaks down, the second signal input pad of the second lamp bead pad is connected with the first signal input pad of the first lamp bead pad through a signal line, so that even if the first LED lamp bead breaks down, the following lamp beads can still work normally.

Further, VCC pad sets up the lower right corner at the lamp pearl pad, GND pad sets up the upper left corner at the lamp pearl pad, and first signal input pad sets up in the middle of the left side of lamp pearl pad, and second signal input pad sets up the lower left corner at the lamp pearl pad, and signal output pad sets up the upper right corner at the lamp pearl pad.

Further, the LED lamp beads are RGB lamp beads, and the model of the LED lamp beads is HBS 1910-RGB.

The VCC line, the GND line and the signal line are silver lines or printed silver paste.

According to the above technical scheme, the utility model provides a transparent LED display screen of high contrast, will at least one side of transparent LED lamp strip sets up to the gridline, and the gridline has occupied the space between the adjacent lamp pearl pad in two adjacent transparent LED lamp strips, therefore the gridline can also provide the background for transparent LED lamp strip under the penetrating condition that does not influence transparent display screen to increase the contrast of transparent LED display screen, promote the display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

Drawings

Fig. 1 is a schematic structural view of a transparent LED light bar according to embodiment 1 of the present invention;

fig. 2 is a schematic connection diagram of a lamp bead pad, a VCC line, a GND line, and a signal line of embodiment 1;

fig. 3 is a schematic structural view of a transparent LED light bar according to embodiment 2 of the present invention;

fig. 4 is a schematic connection diagram of a bead pad, a VCC line, a GND line, and a signal line of embodiment 2;

fig. 5 is a schematic structural view of a transparent LED light bar according to embodiment 3 of the present invention;

fig. 6 is a schematic connection diagram of a bead pad, a VCC line, a GND line, and a signal line of embodiment 3;

fig. 7 is a schematic structural diagram of a lamp bead pad, a VCC line, a GND line, and a signal line of the transparent LED display screen of embodiment 3.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

Referring to fig. 1 and 2, the utility model provides a transparent LED display screen of high contrast, including a plurality of transparent LED lamp strips, transparent LED lamp strip includes: the LED lamp comprises a plurality of lamp bead bonding pads 10, a plurality of signal wires 20, a VCC wire 30, a GND wire 40 and a plurality of LED lamp beads 50; LED lamp pearl 50 welds on lamp pearl pad 10.

The lamp bead pad 10 includes: VCC bonding pad 11, GND bonding pad 12, signal input bonding pad unit, signal output bonding pad 15; the VCC line 30 is connected with VCC bonding pads 11 in all the lamp bead bonding pads 10, and the GND line 40 is connected with GND bonding pads 12 in all the lamp bead bonding pads 10; in two adjacent lamp bead pads 10, the signal output pad 15 of the front lamp bead pad 10 is connected with the signal input pad unit of the rear lamp bead pad 10 through a signal line 20.

Two sides of transparent LED lamp strip are the gridlines, the gridlines occupy the space between two adjacent lamp pearl pads 10 in two adjacent transparent LED lamp strips, the area in the blank region in the gridlines occupies 68% of the area of gridlines.

Two sides of transparent LED lamp strip are the gridlines, and the gridlines have occupied the space between adjacent lamp pearl pad 10 in two adjacent transparent LED lamp strips, therefore the gridlines can also provide the background for transparent LED lamp strip under the penetrating condition that does not influence transparent display screen to increase the contrast of transparent LED display screen, promote display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

The VCC lines 30 and the GND lines 40 are grid lines. Will VCC line 30 the GND line 40 sets up to the gridlines, because the area of gridlines is great, consequently the radiating effect of promotion transparent LED display screen that can be very big. Because VCC line 30 the GND line 40 all is the passageway of electric current, and the gridlines has occupied the space between the adjacent lamp pearl pad 10 in two adjacent transparent LED lamp strips, consequently promotion electromagnetic shield performance that can be very big reduces external disturbance. And VCC line 30 the GND line 40 the signal line 20 is the subassembly of transparent LED lamp strip self, regard it as the gridline, also be convenient for produce.

The grid lines include: the LED lamp comprises a plurality of long wires 81 along the direction of a transparent LED lamp strip, and a plurality of connecting wires 82 connected with the long wires 81; the distance between two adjacent long wires 81 is: 0.82mm, and the distance between two adjacent connecting leads 82 is as follows: 0.82 mm; the width of the long wire 81 is: 0.09, the width of the connecting wire 82 is: 0.09 mm.

The distance between two adjacent lamp pearl pads 10 is 5mm, and the distance between two adjacent gridlines in two adjacent transparent LED lamp strips is 0.30 mm.

The LED lamp beads 50 are RGB lamp beads, and the model of the LED lamp beads 50 is HBS 1910-RGB. The VCC line 30, the GND line 40, and the signal line 20 are all silver lines.

Example 2

Referring to fig. 3 and 4, the utility model provides a transparent LED display screen of high contrast, including a plurality of transparent LED lamp strips, transparent LED lamp strip includes: the LED lamp comprises a plurality of lamp bead bonding pads 10, a plurality of signal wires 20, a VCC wire 30, a GND wire 40 and a plurality of LED lamp beads 50; LED lamp pearl 50 welds on lamp pearl pad 10.

The lamp bead pad 10 includes: VCC bonding pad 11, GND bonding pad 12, signal input bonding pad unit, signal output bonding pad 15; the VCC line 30 is connected with VCC bonding pads 11 in all the lamp bead bonding pads 10, and the GND line 40 is connected with GND bonding pads 12 in all the lamp bead bonding pads 10; in two adjacent lamp bead pads 10, the signal output pad 15 of the front lamp bead pad 10 is connected with the signal input pad unit of the rear lamp bead pad 10 through a signal line 20.

Two sides of transparent LED lamp strip are the gridlines, the gridlines occupy the space between two adjacent lamp pearl pads 10 in two adjacent transparent LED lamp strips, the area in the blank region in the gridlines occupies 98% of the area of gridlines.

Two sides of transparent LED lamp strip are the gridlines, and the gridlines have occupied the space between adjacent lamp pearl pad 10 in two adjacent transparent LED lamp strips, therefore the gridlines can also provide the background for transparent LED lamp strip under the penetrating condition that does not influence transparent display screen to increase the contrast of transparent LED display screen, promote display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

The VCC lines 30 and the GND lines 40 are grid lines. Will VCC line 30 the GND line 40 sets up to the gridlines, because the area of gridlines is great, consequently the radiating effect of promotion transparent LED display screen that can be very big. Because VCC line 30 the GND line 40 all is the passageway of electric current, and the gridlines has occupied the space between the adjacent lamp pearl pad 10 in two adjacent transparent LED lamp strips, consequently promotion electromagnetic shield performance that can be very big reduces external disturbance. And VCC line 30 the GND line 40 the signal line 20 is the subassembly of transparent LED lamp strip self, regard it as the gridline, also be convenient for produce.

The grid lines include: the LED lamp comprises a plurality of long wires 81 along the direction of a transparent LED lamp strip, and a plurality of connecting wires 82 connected with the long wires 81; the distance between two adjacent long wires 81 is: 0.96mm, and the distance between two adjacent connecting leads 82 is: 0.96 mm; the width of the long wire 81 is: 0.15mm, the width of the connecting lead 82 is: 0.15 mm.

The distance between two adjacent lamp bead pads 10 is 10mm, and the distance between two adjacent grid lines in two adjacent transparent LED lamp strips is 0.46 mm.

The signal input pad unit includes: a first signal input pad 13, a second signal input pad 14. In three adjacent lamp pearl pad 10, the first signal input pad 13 of second lamp pearl pad 10 is connected with the signal output pad 15 of first lamp pearl pad 10 through a signal line 20, the second signal input pad 14 of second lamp pearl pad 10 is connected with the first signal input pad 13 of first lamp pearl pad 10 through a signal line 20, the first signal input pad 13 of third lamp pearl pad 10 is connected with the signal output pad 15 of second lamp pearl pad 10 through a signal line 20, the second signal input pad 14 of third lamp pearl pad 10 is connected with the first signal input pad 13 of second lamp pearl pad 10 through a signal line 20. The LED lamp bead 50 is an LED lamp bead with a chip.

The VCC line 30 is used to provide VCC voltage, the GND line 40 is grounded, and the signal line 20 is used to transmit control signals. The chips in the LED lamp beads 50 can control whether the LED lamp beads 50 emit light or not and how to emit light.

The signal output pad 15 in the first lamp pearl pad 10 among the adjacent three lamp pearl pads 10 in same transparent LED lamp strip has connected the first signal input pad 13 in the second lamp pearl pad 10 and the second signal input pad 14 in the third lamp pearl pad 10, consequently, even LED lamp pearl 50 on the second lamp pearl pad 10 breaks down, the LED lamp pearl 50 of taking the chip on the third lamp pearl pad 10 also can light.

When a first LED lamp bead 50 in one column or one row of lamp beads fails, since the second signal input pad 14 of the second lamp bead pad 10 is connected to the first signal input pad 13 of the first lamp bead pad 10 through one signal line 20, even if the first LED lamp bead 50 fails, the following lamp beads can still work normally.

VCC pad 11 sets up the lower right corner at lamp pearl pad 10, GND pad 12 sets up the upper left corner at lamp pearl pad 10, and first signal input pad 13 sets up in the middle of the left of lamp pearl pad 10, and second signal input pad 14 sets up the lower left corner at lamp pearl pad 10, and signal output pad 15 sets up the upper right corner at lamp pearl pad 10.

The LED lamp beads 50 are RGB lamp beads, and the model of the LED lamp beads 50 is HBS 1910-RGB. The VCC line 30, the GND line 40, and the signal line 20 are all silver lines.

Example 3

Referring to fig. 5, fig. 6 and fig. 7, the utility model provides a transparent LED display screen of high contrast, including a plurality of transparent LED lamp strips, transparent LED lamp strip includes: the LED lamp comprises a plurality of lamp bead bonding pads 10, a plurality of signal wires 20, a VCC wire 30, a GND wire 40 and a plurality of LED lamp beads 50; LED lamp pearl 50 welds on lamp pearl pad 10.

The lamp bead pad 10 includes: VCC bonding pad 11, GND bonding pad 12, signal input bonding pad unit, signal output bonding pad 15; the VCC line 30 is connected with VCC bonding pads 11 in all the lamp bead bonding pads 10, and the GND line 40 is connected with GND bonding pads 12 in all the lamp bead bonding pads 10; in two adjacent lamp bead pads 10, the signal output pad 15 of the front lamp bead pad 10 is connected with the signal input pad unit of the rear lamp bead pad 10 through a signal line 20.

Two sides of transparent LED lamp strip are the gridlines, the gridlines occupy the space between two adjacent lamp pearl pads 10 in two adjacent transparent LED lamp strips, the area in the blank region in the gridlines occupies 84% of the area of gridlines.

Two sides of transparent LED lamp strip are the gridlines, and the gridlines have occupied the space between adjacent lamp pearl pad 10 in two adjacent transparent LED lamp strips, therefore the gridlines can also provide the background for transparent LED lamp strip under the penetrating condition that does not influence transparent display screen to increase the contrast of transparent LED display screen, promote display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

The VCC lines 30 and the GND lines 40 are grid lines. Will VCC line 30 the GND line 40 sets up to the gridlines, because the area of gridlines is great, consequently the radiating effect of promotion transparent LED display screen that can be very big. Because VCC line 30 the GND line 40 all is the passageway of electric current, and the gridlines has occupied the space between the adjacent lamp pearl pad 10 in two adjacent transparent LED lamp strips, consequently promotion electromagnetic shield performance that can be very big reduces external disturbance. And VCC line 30 the GND line 40 the signal line 20 is the subassembly of transparent LED lamp strip self, regard it as the gridline, also be convenient for produce.

The grid lines include: the LED lamp comprises a plurality of long wires 81 along the direction of a transparent LED lamp strip, and a plurality of connecting wires 82 connected with the long wires 81; the distance between two adjacent long wires 81 is in the range: 0.89mm, and the distance between two adjacent connecting leads 82 is in the range: 0.89 mm; the width of the long wire 81 ranges from: 0.12mm, the width of the connecting wire 82 ranges from: 0.12 mm.

The distance range between two adjacent lamp bead pads 10 is 7.8mm, and the distance range between two adjacent grid lines in two adjacent transparent LED lamp strips is 0.38 mm.

The grid lines are inserted between two adjacent lamp bead pads 10 of the same transparent LED lamp strip. And the contrast of the transparent LED display screen is further improved.

The signal input pad unit includes: a first signal input pad 13, a second signal input pad 14. In three adjacent lamp pearl pad 10, the first signal input pad 13 of second lamp pearl pad 10 is connected with the signal output pad 15 of first lamp pearl pad 10 through a signal line 20, the second signal input pad 14 of second lamp pearl pad 10 is connected with the first signal input pad 13 of first lamp pearl pad 10 through a signal line 20, the first signal input pad 13 of third lamp pearl pad 10 is connected with the signal output pad 15 of second lamp pearl pad 10 through a signal line 20, the second signal input pad 14 of third lamp pearl pad 10 is connected with the first signal input pad 13 of second lamp pearl pad 10 through a signal line 20. The LED lamp bead 50 is an LED lamp bead with a chip.

The VCC line 30 is used to provide VCC voltage, the GND line 40 is grounded, and the signal line 20 is used to transmit control signals. The chips in the LED lamp beads 50 can control whether the LED lamp beads 50 emit light or not and how to emit light.

The signal output pad 15 in the first lamp pearl pad 10 among the adjacent three lamp pearl pads 10 in same transparent LED lamp strip has connected the first signal input pad 13 in the second lamp pearl pad 10 and the second signal input pad 14 in the third lamp pearl pad 10, consequently, even LED lamp pearl 50 on the second lamp pearl pad 10 breaks down, the LED lamp pearl 50 of taking the chip on the third lamp pearl pad 10 also can light.

When a first LED lamp bead 50 in one column or one row of lamp beads fails, since the second signal input pad 14 of the second lamp bead pad 10 is connected to the first signal input pad 13 of the first lamp bead pad 10 through one signal line 20, even if the first LED lamp bead 50 fails, the following lamp beads can still work normally.

VCC pad 11 sets up the lower right corner at lamp pearl pad 10, GND pad 12 sets up the upper left corner at lamp pearl pad 10, and first signal input pad 13 sets up in the middle of the left of lamp pearl pad 10, and second signal input pad 14 sets up the lower left corner at lamp pearl pad 10, and signal output pad 15 sets up the upper right corner at lamp pearl pad 10.

The LED lamp beads 50 are RGB lamp beads, and the model of the LED lamp beads 50 is HBS 1910-RGB. The VCC line 30, the GND line 40, and the signal line 20 are all silver lines.

To sum up, the utility model provides a transparent LED display screen of high contrast will at least one side of transparent LED lamp strip sets up to the gridline, and the gridline has occupied the space between the adjacent lamp pearl pad in two adjacent transparent LED lamp strips, therefore the gridline can also provide the background for transparent LED lamp strip under the penetrating condition that does not influence transparent display screen to increase the contrast of transparent LED display screen, promote the display effect. And the gridlines compares the straight line, and the gridlines has better structural strength, and the structural strength of the transparent LED lamp strip that has the gridlines has great promotion, reduces the damage.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a transparent LED display screen of high contrast, includes a plurality of transparent LED lamp strips, its characterized in that, transparent LED lamp strip includes: the LED lamp comprises a plurality of lamp bead bonding pads, a plurality of signal lines, a VCC line, a GND line and a plurality of LED lamp beads; the LED lamp beads are welded on the lamp bead welding pads;

the lamp pearl pad includes: VCC bonding pad, GND bonding pad, signal input bonding pad unit, signal output bonding pad; the VCC line is connected with VCC bonding pads in all the lamp bead bonding pads, and the GND line is connected with GND bonding pads in all the lamp bead bonding pads; in two adjacent lamp bead bonding pads, a signal output bonding pad of the front lamp bead bonding pad is connected with a signal input bonding pad unit of the rear lamp bead bonding pad through a signal wire;

at least one side of each transparent LED lamp strip is a grid line, the grid lines occupy the space between adjacent lamp bead pads in two adjacent transparent LED lamp strips, and the area of a blank area in each grid line occupies 68-98% of the area of each grid line.

2. The high-contrast transparent LED display screen according to claim 1, wherein at least one of the VCC lines, GND lines and signal lines is a grid line.

3. A high contrast transparent LED display screen according to claim 2, wherein the grid lines comprise: the LED lamp comprises a plurality of long wires along the direction of a transparent LED lamp strip and a plurality of connecting wires connected with the long wires; the distance range between two adjacent long wires is as follows: 0.82mm-0.96mm, and the distance between two adjacent connecting leads is in the range of: 0.82mm-0.96 mm; the width of the long wire ranges from: 0.09mm to 0.15mm, the width of the connecting wire being in the range of: 0.09mm-0.15 mm.

4. The high-contrast transparent LED display screen of claim 1, wherein the distance between two adjacent bead pads ranges from 5mm to 10mm, and the distance between two adjacent grid lines in two adjacent transparent LED light bars ranges from 0.30mm to 0.46 mm.

5. The high-contrast transparent LED display screen of claim 1, wherein the grid lines are inserted between two adjacent bead pads of the same transparent LED light bar.

6. A high contrast transparent LED display panel according to claim 1, wherein said signal input pad unit comprises: a first signal input pad, a second signal input pad;

in three adjacent lamp bead pads, a first signal input pad of a second lamp bead pad is connected with a signal output pad of a first lamp bead pad through a signal line, a second signal input pad of the second lamp bead pad is connected with a first signal input pad of the first lamp bead pad through a signal line, a first signal input pad of a third lamp bead pad is connected with a signal output pad of the second lamp bead pad through a signal line, and a second signal input pad of the third lamp bead pad is connected with a first signal input pad of the second lamp bead pad through a signal line; the LED lamp beads are LED lamp beads with chips.

7. The high-contrast transparent LED display screen according to claim 6, wherein the VCC bonding pad is arranged at the lower right corner of the bonding pad of the lamp bead, the GND bonding pad is arranged at the upper left corner of the bonding pad of the lamp bead, the first signal input bonding pad is arranged in the middle left of the bonding pad of the lamp bead, the second signal input bonding pad is arranged at the lower left corner of the bonding pad of the lamp bead, and the signal output bonding pad is arranged at the upper right corner of the bonding pad of the lamp bead.

8. The high-contrast transparent LED display screen of claim 1, wherein the LED lamp beads are RGB lamp beads, and the model of the LED lamp beads is HBS 1910-RGB.

9. The high-contrast transparent LED display screen of claim 1, wherein the VCC lines, GND lines, and signal lines are all silver lines or printed silver paste.

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