CN112652254B - Anti-electromagnetic interference low-temperature-resistant liquid crystal display screen - Google Patents

Abstract

The invention provides a low temperature resistant liquid crystal display screen capable of resisting electromagnetic interference, and belongs to the technical field of display screens. This anti-electromagnetic interference's low temperature resistant liquid crystal display, including the TP screen, TP screen top is equipped with the screen frame, screen frame lower extreme fixedly connected with TP screen interface base, TP screen interface base below is equipped with the adhesive and glues, TP screen interface base top integration is equipped with TP screen interface, states TP screen interface lower extreme electric connection and has TP screen signal line, TP screen signal line lower extreme is connected with TP screen reinforcement steel sheet, be equipped with TP screen group in the screen frame, TP screen below surface glue is connected with the LCM screen, be equipped with LCM screen group in the LCM screen. According to the invention, the low-temperature polycrystalline silicon glass layer is added in the LCM screen, so that the low-temperature resistance of the display screen is enhanced; through the anti electromagnetism line outside that extends out at the LCM screen, the design has added two sides electromagnetic film, and the cooperation adds the enhancement steel sheet in the junction, and the connection stability of reinforcing connector increases anti electromagnetism.

Description

Anti-electromagnetic interference low-temperature-resistant liquid crystal display screen

Technical Field

The invention relates to the technical field of display screens, in particular to a low-temperature resistant liquid crystal display screen capable of resisting electromagnetic interference.

Background

The touch screen is also called touch screen and touch panel, and is one kind of induction liquid crystal display device capable of receiving input signal of contact, etc. when the touch screen is contacted with the graphic buttons on the screen, the touch feedback system on the screen can drive various connecting devices based on pre-programmed program to replace mechanical button panel and produce vivid video effect via the liquid crystal display. The multimedia interactive device gives a brand-new appearance to multimedia, is a brand-new attractive multimedia interactive device, and is mainly applied to inquiry of public information, industrial control, military command, electronic games, multimedia teaching and the like. However, the display screens of the present day have the following defects: 1. under some special low-temperature environments, the display screen has a screen-splash phenomenon, and the low-temperature resistance is not high; 2. the display screen is arranged on some electric appliances, and some electric appliances have certain electromagnetic waves, so that the electromagnetic waves can influence the signal transmission of the display screen.

Disclosure of Invention

The invention mainly aims to provide a low-temperature resistant liquid crystal display screen capable of resisting electromagnetic interference, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides an anti-electromagnetic interference's low temperature resistant liquid crystal display, includes the TP screen, TP screen top is equipped with the screen frame, screen frame top is with TP screen membrane, screen frame upper end surface is equipped with pilot lamp and power lamp, screen frame lower extreme fixedly connected with TP screen interface base, TP screen interface base below is equipped with the adhesive, TP screen interface base top integration is equipped with TP screen interface, TP screen interface lower extreme electric connection has TP screen signal line, TP screen signal line side integration is connected with TP screen signal line interface, TP screen signal line lower extreme is connected with TP screen reinforcement steel sheet, be equipped with TP screen group in the screen frame, TP screen below surface is connected with LCM screen, be equipped with LCM screen group in the LCM screen.

Preferably, LCM screen top surface is equipped with the dyestripping film, LCM screen below surface is equipped with the dust-proof membrane, be equipped with the screen bottom plate between LCM screen and the dust-proof membrane, screen bottom plate lower extreme integration is equipped with LCM screen cushion, screen bottom plate lower extreme fixed mounting has LCM screen interface, LCM screen interface electric connection anti-electromagnetism line, anti-electromagnetism line top surface is connected with LCM screen filler strip, anti-electromagnetism line top surface electric mounting has two integrated components and parts, anti-electromagnetism line lower extreme is equipped with anti-electromagnetism line interface.

Preferably, LCM sponge rubber is bonded on the lower surface of the anti-electromagnetic wire, electromagnetic films are attached to the upper surface and the lower surface of the LCM sponge rubber, and the anti-electromagnetic wire connector is integrally connected with the anti-electromagnetic wire connector.

Preferably, a synthesized screen is formed by adhering the TP screen group and the LCM screen group through the viscosity of an optical adhesive layer, the TP screen sequentially comprises CG glass, a sensing layer and a shielding film from top to bottom, and the LCM screen sequentially comprises a polarizing layer, a packaging glass layer, a low-temperature polycrystalline silicon glass layer, a rear adhesive tape and a screen bottom plate from top to bottom.

Preferably, the anti electromagnetism line interface lower extreme electric connection has the patch cord, patch cord top surface bonds has patch cord sponge, the patch cord upper end is equipped with the line of buckling, the integration of patch cord lower extreme is connected with patch cord and strengthens the steel sheet, the integration is connected with the patch cord joint in the aspect of the steel sheet is strengthened to the patch cord.

Preferably, the surface is equipped with anti electromagnetism line reinforcing steel sheet above the patch cord and anti electromagnetism line interface connection department, the integration is equipped with patch cord attach fitting below anti electromagnetism line reinforcing steel sheet, patch cord attach fitting includes anti electromagnetism line buckle and patch cord buckle, through buckle fixed connection between anti electromagnetism line buckle and the patch cord buckle.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, the low-temperature-resistant performance of the display screen is enhanced by adding the low-temperature polycrystalline silicon glass layer in the LCM screen;

(2) according to the invention, two electromagnetic films are designed and added on the outer side of the anti-electromagnetic wire extending out of the LCM screen, and the reinforcing steel sheet is added at the joint, so that the connection stability of the connector is enhanced, and the anti-electromagnetic property is increased in an isolation mode;

(3) according to the invention, the Corning 3-generation material surface electroplating AF is added on the upper surface of the whole screen, so that the influence on the sensitivity of the touch screen caused by the residual fingerprints on the screen is prevented;

(4) according to the invention, under the condition that no auxiliary material is included, the thickness of the screen is controlled within the range of 2.38 +/-0.20 MM, so that the overall thickness of the screen is reduced, and the volume and the mass of the equipment are favorably reduced.

Drawings

FIG. 1 is a schematic diagram of an entire front view structure of a low temperature resistant LCD screen with anti-electromagnetic interference;

FIG. 2 is a schematic diagram of an overall rear view structure of a low temperature resistant LCD screen with anti-electromagnetic interference;

FIG. 3 is a schematic diagram of a front view structure of a low temperature resistant liquid crystal display TP screen with anti-electromagnetic interference according to the present invention;

FIG. 4 is a schematic diagram of a rear view structure of an anti-EMI low temperature resistant liquid crystal display TP panel of the present invention;

FIG. 5 is a schematic view of a front view structure of an anti-electromagnetic interference low temperature resistant liquid crystal display LCM screen of the invention;

FIG. 6 is a schematic view of a rear view structure of an anti-EMI LCM panel of a low temperature resistant LCD panel of the present invention;

FIG. 7 is a schematic diagram of a side view of a low temperature resistant LCD panel with anti-EMI features of the present invention;

FIG. 8 is a schematic diagram of an enlarged structure at a side view of a low temperature resistant LCD panel with anti-EMI properties according to the present invention;

FIG. 9 is a schematic diagram of a side view of a low temperature resistant LCD panel with anti-EMI properties at position B;

FIG. 10 is a schematic diagram of a side view of a low temperature resistant LCD panel with anti-EMI properties at position C according to the present invention;

fig. 11 is a schematic diagram of a side view structure at position D of a low temperature resistant lcd panel with electromagnetic interference resistance according to the present invention.

In the figure: 1. a TP screen; 2. TP screen membrane; 3. a screen frame; 4. an indicator light; 5. a power supply lamp; 6. a TP screen signal line; 7. a TP screen signal line interface; 8. TP screen reinforcement steel sheet; 9. a TP screen interface; 10. a TP screen interface base; 11. a dust-proof film; 12. LCM screen; 13. LCM screen cushion block; 14. an LCM screen interface; 15. LCM screen pad strip; 16. integrating components; 17. anti-electromagnetic wire; 18. an anti-electromagnetic wire interface; 19. tearing the film; 20. adhesive glue; 21. LCM sponge glue; 22. an anti-electromagnetic wire adapter; 23. a composite screen; 24. anti-electromagnetic wire reinforced steel sheet; 25. bending the grains; 26. the patch cord is sponge rubber; 27. a patch cord; 28. a patch cord reinforcing steel sheet; 29. the patch cord is connected with the connector; 30. a patch cord connector; 31. a TP screen group; 32. LCM screen group; 33. an optical adhesive layer; 34. CG glass; 35. a sensing layer; 36. a shielding film; 37. a polarizing layer; 38. packaging the glass layer; 39. a low temperature polysilicon glass layer; 40. a back tape; 41. a screen base plate; 42. an electromagnetic film; 43. anti-electromagnetic wire buckling; 44. the patch cord buckle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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.

Examples

As shown in fig. 1-11, a low temperature resistant liquid crystal display screen of anti-electromagnetic interference, including TP screen 1, TP screen 1 top is equipped with screen frame 3, screen frame 3 top is with TP screen membrane 2, screen frame 3 upper end surface is equipped with pilot lamp 4 and power lamp 5, screen frame 3 lower extreme fixedly connected with TP screen interface base 10, TP screen interface base 10 below is equipped with adhesive 20, TP screen interface base 10 top integration is equipped with TP screen interface 9, TP screen interface 9 lower extreme electrically connected with TP screen signal line 6, TP screen signal line 6 side integration is connected with TP screen signal line interface 7, TP screen signal line 6 lower extreme is connected with TP screen reinforcement steel sheet 8, be equipped with TP screen group 31 in the screen frame 3, TP screen 1 below surface is connected with LCM screen 12, be equipped with LCM screen group 32 in the LCM screen 12.

By the technical scheme, the low-temperature polycrystalline silicon glass layer is added in the LCM 12, so that the low-temperature resistance of the display screen is enhanced; through the anti-electromagnetism line 17 outside that extends out at LCM screen 12, the design has added two sides electromagnetic film 42, and the cooperation adds the enhancement steel sheet in the junction, and the connection stability of reinforcing connector increases anti-electromagnetism through isolated mode.

In order to facilitate installation of the screen, a film tearing film 19 is arranged on the surface above the LCM screen 12, a dustproof film 11 is arranged on the surface below the LCM screen 12, dust is prevented from falling on the LCM screen 12 through the dustproof film 11 to cause an electromagnetic effect, in order to facilitate installation of other components and parts, the whole screen can be supported, a screen bottom plate 41 is arranged between the LCM screen 12 and the dustproof film 11, an LCM screen cushion block 13 is integrally arranged at the lower end of the screen bottom plate 41, an LCM screen interface 14 is fixedly arranged at the lower end of the screen bottom plate 41, the LCM screen interface 14 is electrically connected with an anti-electromagnetic wire 17, an LCM screen cushion strip 15 is connected to the upper surface of the anti-electromagnetic wire 17, two integrated components 16 are electrically arranged on the upper surface of the anti-electromagnetic wire 17, and an anti-electromagnetic wire interface 18 is arranged at the lower end of the anti-electromagnetic wire 17.

By the technical scheme, the LCM screen 12 can be integrally associated, and the anti-electromagnetic wire 17 is electrically connected to the LCM screen through the LCM screen interface 14.

In order to facilitate the fixing of the anti-electromagnetic wire 17 on the screen bottom plate 41, LCM sponge rubber 21 is adhered to the lower surface of the anti-electromagnetic wire 17, electromagnetic films 42 are attached to the upper and lower surfaces of the LCM sponge rubber 21, an anti-electromagnetic wire adapter 22 is integrally connected to the anti-electromagnetic wire interface 18, the anti-electromagnetic wire 17 is fixed on the bottom of the screen bottom plate 41 through the LCM sponge rubber 21, and external electromagnetic interference is isolated through the electromagnetic films 42.

In order to connect the touch screen with the real screen, the TP screen group 31 and the LCM screen group 32 are adhered by the optical adhesive layer 33 to form the composite screen 23, the TP screen 1 is sequentially provided with a CG glass 34, a sensing layer 35 and a shielding film 36 from top to bottom, and the LCM screen 12 is sequentially provided with a polarizing layer 37, a packaging glass layer 38, a low temperature polysilicon glass layer 39, a rear adhesive tape 40 and a screen bottom plate 41 from top to bottom.

Through foretell technical scheme, through sensing layer 35 response touch point, can make the capacitive signal transmission of touch-sensitive screen to the mainboard, the rethread mainboard transmission is to the display screen, and low temperature polycrystalline silicon glass layer 39 can improve the low temperature resistance of screen itself.

The lower end of the electromagnetic wire resisting interface 18 is electrically connected with a patch cord 27, a patch cord sponge 26 is bonded on the surface above the patch cord 27, a bending line 25 is arranged at the upper end of the patch cord 27, a patch cord reinforcing steel sheet 28 is integrally connected with the lower end of the patch cord 27, and a patch cord connector 30 is integrally connected with the patch cord reinforcing steel sheet 28.

Through the technical scheme, the adapter interface of the LCM screen 12 can be converted into the conversion interface for the butt joint of the mainboard, so that the signal transmission between the LCM screen 12 and the mainboard is realized.

The surface of the upper portion of the connection portion of the transfer line 27 and the anti-electromagnetic-line interface 18 is provided with an anti-electromagnetic-line reinforcing steel sheet 24, the transfer line connection joint 29 is integrally arranged below the anti-electromagnetic-line reinforcing steel sheet 24, the transfer line connection joint 29 comprises an anti-electromagnetic-line buckle 43 and a transfer line buckle 44, and the anti-electromagnetic-line buckle 43 and the transfer line buckle 44 are fixedly connected through a buckle.

Through the technical scheme, the connecting structure between the patch cord connecting joint 29 and the anti-electromagnetic wire reinforcing steel sheet 24 is reinforced, and the transmission structure is reinforced, so that the stability of signal transmission is enhanced.

This anti-electromagnetic interference's low temperature resistant liquid crystal display's theory of operation:

when the device is installed, the whole patch cord is firstly bonded on the screen bottom plate 41 through the LCM sponge rubber 21, and then the corresponding interface is inserted on the main board.

When the LCM screen is used, the low-temperature polycrystalline silicon glass layer 39 is added in the LCM screen 12, so that the low-temperature resistance of the display screen is enhanced; by designing and adding two electromagnetic films 42 at the outer side of an anti-electromagnetic wire 17 extending out of an LCM screen 12, matching and adding a reinforcing steel sheet at the joint, the connection stability of a connecting port is enhanced, the anti-electromagnetic property is increased by an isolation mode, the LCM screen 12 can be integrally associated, the anti-electromagnetic wire 17 is electrically connected to the LCM screen through an LCM screen interface 14, a touch point is sensed through a sensing layer 35, a capacitance signal of the touch screen can be transmitted to a mainboard and then transmitted to a display screen through the mainboard, the low-temperature resistance of the screen can be improved through a low-temperature polycrystalline silicon glass layer 39, a switching port of the LCM screen 12 can be converted into a conversion interface for butting the mainboard, so that the signal transmission between the LCM screen 12 and the mainboard is achieved, the anti-electromagnetic wire reinforcing 24 is arranged on the surface above the joint of the switching wire 27 and the anti-electromagnetic wire interface 18, the switching wire connecting joint 29 is integrally arranged below the anti-electromagnetic wire reinforcing steel sheet 24, the patch cord connection joint 29 comprises an anti-electromagnetic wire buckle 43 and a patch cord buckle 44, the anti-electromagnetic wire buckle 43 and the patch cord buckle 44 are fixedly connected through a buckle, the connection structure between the patch cord connection joint 29 and the anti-electromagnetic wire reinforced steel sheet 24 is reinforced, and the transmission structure is reinforced, so that the stability of signal transmission is enhanced

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides an anti-electromagnetic interference's low temperature resistant liquid crystal display, includes TP screen (1), its characterized in that: a screen frame (3) is arranged above the TP screen (1), a TP screen film (2) is attached above the screen frame (3), an indicator lamp (4) and a power lamp (5) are arranged on the upper end surface of the screen frame (3), the lower end of the screen frame (3) is fixedly connected with a TP screen interface base (10), adhesive glue (20) is arranged below the TP screen interface base (10), a TP screen interface (9) is integrally arranged above the TP screen interface base (10), the lower end of the TP screen interface (9) is electrically connected with a TP screen signal wire (6), the side end of the TP screen signal line (6) is integrally connected with a TP screen signal line interface (7), the lower end of the TP screen signal wire (6) is connected with a TP screen reinforcing steel sheet (8), a TP screen group (31) is arranged in the screen frame (3), an LCM screen (12) is connected to the surface of the lower portion of the TP screen (1) in a gluing mode, and an LCM screen group (32) is arranged in the LCM screen (12);

LCM screen (12) top surface is equipped with tear film (19), LCM screen (12) below surface is equipped with dust-proof membrane (11), be equipped with screen bottom plate (41) between LCM screen (12) and dust-proof membrane (11), screen bottom plate (41) lower extreme integration is equipped with LCM screen cushion (13), screen bottom plate (41) lower extreme fixed mounting has LCM screen interface (14), LCM screen interface (14) electric connection anti-electromagnetic (17), anti-electromagnetic (17) top surface is connected with LCM screen filler strip (15), anti-electromagnetic (17) top surface electric mounting has two integrated components (16), anti-electromagnetic (17) lower extreme is equipped with anti-electromagnetic interface (18).

2. The lcd panel of claim 1, wherein the lc panel is resistant to electromagnetic interference, and further comprising: LCM sponge rubber (21) is bonded on the lower surface of the anti-electromagnetic wire (17), electromagnetic films (42) are attached to the upper surface and the lower surface of the LCM sponge rubber (21), and anti-electromagnetic wire adapters (22) are integrally connected to the anti-electromagnetic wire interfaces (18).

3. The lcd panel of claim 2, wherein the lc panel is resistant to electromagnetic interference, and further comprising: synthetic screen (23) is constituteed through optical adhesive layer (33) viscidity laminating between TP screen group (31) and LCM screen group (32), TP screen (1) is CG glass (34), sensing layer (35), barrier film (36) from last to being in proper order down, LCM screen (12) is from last to being in proper order down polarization layer (37), packing glass layer (38), low temperature polycrystalline silicon glass layer (39), back sticky tape (40) and screen bottom plate (41).

4. The low temperature resistant liquid crystal display panel of claim 3, wherein: anti electromagnetism line interface (18) lower extreme electric connection has patch cord (27), patch cord (27) top surface bonds has patch cord sponge (26), patch cord (27) upper end is equipped with buckle line (25), patch cord (27) lower extreme integration is connected with patch cord and strengthens steel sheet (28), the patch cord is strengthened the integration in the aspect of steel sheet (28) and is connected with patch cord joint (30).

5. The low temperature resistant liquid crystal display panel of claim 4, wherein: the utility model discloses a patch cord, including patch cord, adaptor line and patch cord buckle, patch cord (27) and anti electromagnetic wire interface (18) junction top surface are equipped with anti electromagnetic wire and strengthen steel sheet (24), the integration of anti electromagnetic wire is strengthened steel sheet (24) below and is equipped with adaptor line attach fitting (29), adaptor line attach fitting (29) are including anti electromagnetic wire buckle (43) and adaptor line buckle (44), through buckle fixed connection between anti electromagnetic wire buckle (43) and adaptor line buckle (44).

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