CN111336369B

CN111336369B - Plasma display driven by plasma display screen

Info

Publication number: CN111336369B
Application number: CN202010276150.0A
Authority: CN
Inventors: 吴雪群
Original assignee: Shenzhen Mingcai New Century Technology Co ltd
Current assignee: SHENZHEN MINGCAI NEW CENTURY TECHNOLOGY Co.,Ltd.
Priority date: 2020-04-09
Filing date: 2020-04-09
Publication date: 2021-07-30
Anticipated expiration: 2040-04-09
Also published as: CN111336369A

Abstract

The invention discloses a plasma display driven by a plasma display screen, which structurally comprises the display screen and a wall frame, wherein the display screen is spliced and connected with the wall frame, the wall frame consists of a frame plate, a fastener and a wall plate, the fastener is arranged on the wall plate, the frame plate is locked with the wall plate, the display screen comprises a display screen plate, a screen plate connecting plate and a rear frame, the display screen plate is connected with the rear frame through the screen plate connecting plate, the display screen plate comprises a screen frame and an original screen plate, the screen frame is spliced and connected with the original screen plate, the screen plate connecting plate comprises an annular electrode plate, an electrode push plate and a connecting plate body, the annular electrode plate is connected with the electrode push plate through glue, the annular electrode plate and the electrode push plate are embedded and arranged on the connecting plate body, the annular electrode plate and the electrode plate carry out current replacement excitation, the current is locally distributed, the electricity is consumed, the heat is reasonably controlled, screen burning is avoided, and the annular electrode plate and the connecting plate are spliced to form a circle, the current is reasonably uniform, the screen display is bright and stable, and the imaging quality is good.

Description

Plasma display driven by plasma display screen

Technical Field

The invention relates to the field of PDP plasma flat display screen, in particular to a plasma display driven by a plasma display screen.

Background

The PDP plasma flat display screen is characterized in that mixed gas is filled between two thin glass plates, the mixed gas is excited by current to generate ion gas, ultraviolet light which cannot be seen by naked eyes is emitted, and the ultraviolet light strikes red, green and blue phosphors on the rear glass to emit visible light which can be seen by naked eyes, so that a color image is generated.

In the prior art, mixed gas between thin glass plates is formed by arranging thousands of sealed small low-pressure gas chambers, when current is excited, the current distribution is wide, the power consumption is high, the heat is increased, screen burning is serious after long-time work, and if the current distribution is uneven, the screen brightness is not equal, and the imaging quality is poor.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a plasma display driven by a plasma display screen so as to solve the problems that mixed gas positioned between thin glass plates is formed by arranging thousands of sealed small low-pressure gas chambers, the current distribution is wide, the power consumption is large, the heat is increased, the screen burning is serious after long-time work, and the imaging quality is poor if the current distribution is uneven and the brightness and the intensity of the screen display are different.

The invention is realized by adopting the following technical scheme: the utility model provides a plasma display panel driven plasma display, its structure includes display screen, ledge, the display screen right-hand member is assembled with the ledge and is connected, the ledge comprises frame plate, knot ware, wallboard, the knot ware is installed at the wallboard left end, the frame plate is locked with the wallboard right side.

Further preferably, the display screen comprises a display screen panel, screen panel connecting plates and a rear frame, and the display screen panel and the rear frame are connected through the left side and the right side of the screen panel connecting plates in an installing mode.

Further preferably, the display screen panel comprises a screen frame and an original screen panel, the inner side of the screen frame is embedded and connected with the original screen panel, the screen panel connection plate comprises an annular electrode plate, an electrode push plate and a connection plate body, the annular electrode plate is connected with the left side of the electrode push plate in an adhesive mode, and the annular electrode plate and the electrode push plate are embedded in the middle of the connection plate body.

Preferably, the rear frame comprises a rear frame buckle, a rear frame pressing plate, a rear frame body and a rear frame support plate, the rear frame body is in track connection with the left side of the rear frame buckle and the right side of the rear frame support plate, and the rear frame pressing plate is fastened with the right end of the rear frame body.

Preferably, the original screen plate is provided with an insulating layer, a front glass substrate, a three-color fluorescent layer, a blue fluorescent layer, an electrode plate and a rear substrate, wherein the front glass substrate, the three-color fluorescent layer and the insulating layer are arranged from top to bottom, and the insulating layer, the electrode plate and the rear substrate are arranged from top to bottom and are attached to each other.

Further preferably, the electrode plate comprises a ring electrode plate, a moving plate structure, a circular electrode plate and a middle ring, the inner ring side of the ring electrode plate is connected with the moving plate structure through glue, the moving plate structure is buckled with the outer ring side of the circular electrode plate, and the middle ring part of the moving plate structure is provided with the middle ring.

Further preferably, the moving plate structure comprises a rotating rail, a track and a rotating wheel, the middle ring part of the rotating rail is welded with the track, and the rotating rail is installed and connected with the side of the rotating wheel ring.

Preferably, the rear substrate comprises a substrate outer ring, a substrate middle ring and a substrate inner circle, the substrate outer ring is connected with the substrate middle ring outer ring side track, the substrate middle ring inner ring side is buckled with the substrate inner circle, the substrate middle ring comprises blocking polar plates and blocking rail grooves, the blocking rail grooves are distributed on the blocking polar plate ring tracks and are spliced and connected with the blocking polar plate ring tracks, the substrate inner circle is provided with rail covers, and the rail covers are more than 3 and are distributed on the circular surface of the substrate inner circle.

Advantageous effects

The invention is mounted on the wall, hang the display screen on the wall, display the main power supply of the screen panel and broadcast the image, the screen panel joint plate is used for the battery replacement, disperse the power supply heat, the rear frame pushes the screen panel joint plate to realize the power output replacement under the drive of the wall, the middle ring of the electrode plate is used for replacing and storing the annular electrode plate, the annular electrode plate and the circular electrode plate realize the main power supply and are mounted at the original screen panel, the integrated structure avoids the power failure of the original screen panel, the shifting plate structure drives the rotation of the annular electrode plate during the drive, ensures the annular electrode plate to be matched at the middle ring, avoids the loosening and falling, the annular electrode plate is driven by the rear base plate drive during the connection replacement of the annular electrode plate and the electrode plate power supply, the middle ring of the base plate is decomposed to move, the blocking electrode plate moves to the outer ring of the base plate, the blocking rail groove retracts to the rail cover, meanwhile, the fastener is buckled with the rear frame to drive the side pressure of the rear frame pressing plate to push the electrode push plate, the annular electrode plate is embedded in the middle ring, the rear frame support plate is glidingly fixed with the rear frame pressing plate and the power supply replacement of the annular electrode plate and the electrode plate is started, namely, the heating source of the original screen plate is replaced from the electrode plate to the annular electrode plate, the continuous temperature rise of the display screen plate is controlled by the conversion of the heat source, the heat dissipation circulation space is increased, the temperature is lowered, the annular electrode plate returns, and the screen burn-in phenomenon cannot occur on the screen.

Compared with the prior art, the invention has the beneficial effects that: the annular electrode plate and the electrode plate are excited by current replacement, the current is locally distributed, the power consumption is uniformly distributed, the heat is reasonably controlled, screen burning is avoided, the annular electrode plate and the electrode plate are spliced to form a circle, the current is reasonably uniformly distributed, the screen display is bright and stable, and the imaging quality is good.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a plasma display panel driven by a plasma display panel according to the present invention.

Fig. 2 shows a schematic structural diagram of the display screen of the present invention.

Fig. 3 shows a schematic view of a cut-away structure of the original screen panel of the present invention.

Fig. 4 shows a schematic view of the structure of the electrode plate of the present invention.

Fig. 5 shows a schematic structural diagram of a of fig. 4 according to the present invention.

Fig. 6 shows a schematic structural view of the rear substrate of the present invention.

In the figure: display screen 1, ledge 2, frame plate 20, fastener 21, wall plate 22, display screen plate 10, screen plate joint plate 11, rear frame 12, screen frame 100, original screen plate 101, annular electrode plate 110, electrode push plate 111, joint plate body 112, rear frame buckle 120, rear frame press plate 121, rear frame body 122, rear frame support plate 123, insulating layer 1010, front glass substrate 1011, three-color fluorescent layer 1012, blue fluorescent layer 1013, electrode plate 1014, rear substrate 1015, ring electrode plate 300, moving plate structure 301, circular electrode plate 302, middle ring 303, rotating rail 3010, rail 3011, rotating wheel 3012, substrate outer ring 400, substrate middle ring 401, substrate inner circle 402, block 400plate 1, block rail groove 4002 and rail cover 4020.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

the invention provides a plasma display panel driven by a plasma display panel, which comprises the following technical scheme: its structure includes display screen 1, ledge 2, display screen 1 assembles with ledge 2 and is connected, ledge 2 comprises frame plate 20, spiral shell utensil 21, wallboard 22, spiral shell utensil 21 installs on wallboard 22, frame plate 20 locks with wallboard 22, display screen 1 includes display screen panel 10, screen panel linkage plate 11, after-frame 12, display screen panel 10 owner's power supply and broadcast image, display screen panel 10 passes through screen panel linkage plate 11 erection joint with after-frame 12, screen panel linkage plate 11 is used for the battery replacement, the dispersion power supply heat, display screen panel 10 includes screen frame 100, former screen panel 101, screen frame 100 inlays with former screen panel 101 and is connected, screen panel linkage plate 11 includes annular electrode board 110, electrode push pedal 111, linkage plate body 112, annular electrode board 110 is glued with electrode push pedal 111 and is connected, annular electrode board 110, electrode push pedal 111 are inlayed and are established on linkage plate body 112, the rear frame 12 includes a rear frame buckle 120, a rear frame pressing plate 121, a rear frame body 122, and a rear frame support 123, the rear frame body 122 is connected with the rear frame buckle 120 and the rear frame support 123 via rails, the rear frame pressing plate 121 is fastened with the rear frame body 122, the original screen panel 101 is provided with an insulating layer 1010, a front glass substrate 1011, a three-color fluorescent layer 1012, a blue fluorescent layer 1013, an electrode plate 1014, and a rear substrate 1015, the front glass substrate 1011, the three-color fluorescent layer 1012 and the insulating layer 1010 are arranged from top to bottom, the insulating layer 1010 is arranged from top to bottom and is attached to the electrode plate 1014 and the rear substrate 1015, the annular electrode plate 110 is a circular ring structure and can be matched with the electrode plate 1014 for replacement, the electrode plate 1014 includes a ring electrode plate 300, a moving plate structure 301, a circular electrode plate 302, and a middle ring 303, the ring electrode plate 300 is connected with the moving plate structure 301 by glue, the moving plate structure 301 is fastened with the circular electrode plate 302, the moving plate structure 301 is provided with a middle ring 303, the moving plate structure 301 comprises a rotating track 3010, a track 3011 and a rotating wheel 3012, the rotating track 3010 is welded to the track 3011, and the rotating track 3010 is connected to the rotating wheel 3012 in an installing manner.

Referring to fig. 1-5, a wall mount 2 is installed on a wall, a display screen 1 is hung on the wall mount 2, a display screen panel 10 mainly supplies power and plays images, a screen panel connecting plate 11 is used for battery replacement and disperses power supply heat, a rear frame 12 pushes the screen panel connecting plate 11 to realize power output replacement under the transmission of the wall mount 2, a middle ring 303 of an electrode plate 1014 is used for replacing and storing an annular electrode plate 110, an annular electrode plate 300 and a circular electrode plate 302 realize main power supply and are installed at an original screen plate 101, an integrated structure prevents the original screen plate 101 from being powered off, a movable plate structure 301 drives the annular electrode plate 110 to rotate during transmission, the annular electrode plate 110 is ensured to be matched at the middle ring 303, and loosening and falling are avoided.

Example 2:

on the basis of embodiment 1, the invention provides a plasma display panel driven by a plasma display panel, and the technical scheme is as follows: the rear substrate 1015 structurally comprises a substrate outer ring 400, a substrate middle ring 401 and a substrate inner ring 402, wherein the substrate outer ring 400 is in track connection with the substrate middle ring 401, the substrate middle ring 401 is buckled with the substrate inner ring 402, the substrate middle ring 401 comprises a blocking polar plate 4001 and a blocking rail groove 4002, the blocking polar plate 4001 is connected with the blocking rail groove 4002 in a splicing manner, the substrate inner ring 402 is provided with a rail cover 4020, the substrate middle ring 401 moves in an exploded manner, the blocking polar plate 4001 moves in the opposite direction of the blocking rail groove 4002, and repulsion force is generated during movement to enhance the stability of movement.

Referring to fig. 1-3 and fig. 6, when the power supply connection of the ring-shaped electrode plate 110 and the electrode plate 1014 is replaced, the ring-shaped substrate 1015 drives the substrate middle ring 401 to move in a decomposition manner, the segmented electrode plate 4001 moves towards the substrate outer ring 400, the segmented rail groove 4002 retracts towards the rail cover 4020, the buckle 21 and the rear frame buckle 120 buckle at the same time to drive the rear frame pressing plate 121 to push the electrode pushing plate 111, so that the ring-shaped electrode plate 110 is embedded at the middle ring 303, the rear frame pressing plate 121 is fixed on the rear frame support plate 123 in a sliding manner, and the power supply replacement of the ring-shaped electrode plate 110 and the electrode plate 1014 is started, namely, the heating source of the original screen plate 101 is replaced from the electrode plate 1014 to the ring-shaped electrode plate 110, the heat source conversion controls the continuous temperature rise of the display screen plate 10, the heat dissipation circulation space is increased, and the electrode plate 110 returns to the original position when the temperature drops, and the screen burn-up phenomenon does not occur.

Compared with the prior art, the invention has the technical progress that: the annular electrode plate 110 and the electrode plate 1014 are excited by current replacement, the current is locally distributed, the current is consumed uniformly, the heat is reasonably controlled, screen burning is avoided, the annular electrode plate 110 and the electrode plate 1014 are spliced to form a circle, the current is reasonably uniformly distributed, screen display is bright and stable, and the imaging quality is good.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a plasma display panel driven plasma display, its structure includes display screen (1), ledge (2), display screen (1) is assembled with ledge (2) and is connected, its characterized in that:

the wall rack (2) consists of a frame plate (20), a fastener (21) and a wall plate (22), wherein the fastener (21) is arranged on the wall plate (22), and the frame plate (20) is locked with the wall plate (22);

the display screen (1) comprises a display screen panel (10), a screen panel connecting plate (11) and a rear frame (12), wherein the display screen panel (10) is connected with the rear frame (12) through the screen panel connecting plate (11);

the display screen panel (10) comprises a screen frame (100) and an original screen panel (101), the screen frame (100) is connected with the original screen panel (101) in an embedded mode, the screen panel connection plate (11) comprises an annular electrode plate (110), an electrode push plate (111) and a connection plate body (112), the annular electrode plate (110) is connected with the electrode push plate (111) in an adhesive mode, and the annular electrode plate (110) and the electrode push plate (111) are embedded in the connection plate body (112);

the rear frame (12) comprises a rear frame buckle (120), a rear frame pressing plate (121), a rear frame body (122) and a rear frame support plate (123), the rear frame body (122) is in rail connection with the rear frame buckle (120) and the rear frame support plate (123), and the rear frame pressing plate (121) is buckled with the rear frame body (122);

the original panel (101) is provided with an insulating layer (1010), a front glass substrate (1011), three-color fluorescent layers (1012), blue fluorescent layers (1013), an electrode plate (1014) and a rear substrate (1015), wherein the front glass substrate (1011), the three-color fluorescent layers (1012) and the insulating layer (1010) are arranged from top to bottom, and the insulating layer (1010), the electrode plate (1014) and the rear substrate (1015) are arranged from top to bottom and are jointed.

2. The plasma display panel-driven according to claim 1, wherein: the electrode plate (1014) comprises a ring electrode plate (300), a moving plate structure (301), a circular electrode plate (302) and a middle ring (303), the ring electrode plate (300) is connected with the moving plate structure (301) through glue, the moving plate structure (301) is buckled with the circular electrode plate (302), and the moving plate structure (301) is provided with the middle ring (303).

3. A plasma display panel-driven plasma display panel according to claim 2, characterized in that: the movable plate structure (301) comprises a rotary rail (3010), a rail (3011) and a rotating wheel (3012), the rotary rail (3010) is welded with the rail (3011), and the rotary rail (3010) is connected with the rotating wheel (3012) in an installing mode.

4. The plasma display panel-driven according to claim 1, wherein: the rear substrate (1015) comprises a substrate outer ring (400), a substrate middle ring (401) and a substrate inner ring (402), the substrate outer ring (400) is in track connection with the substrate middle ring (401), the substrate middle ring (401) is buckled with the substrate inner ring (402), the substrate middle ring (401) comprises a block polar plate (4001) and a block rail groove (4002), the block polar plate (4001) is connected with the block rail groove (4002) in a splicing manner, and the substrate inner ring (402) is provided with a rail cover (4020).