CN216622903U - Frameless display device mounting structure and frameless display device - Google Patents

Abstract

The application provides a frameless display device mounting structure and frameless display includes: the main mounting shell, the fixed support, the light-diffusing plate, the liquid crystal display layer and the glass mirror surface layer are arranged on the main mounting shell; the main installation shell is internally provided with a placement cavity for placing an electrical component, and the liquid crystal display layer is provided with a liquid crystal control connecting wire electrically connected with the electrical component; the fixed bracket is fixedly arranged on the main mounting shell; the inner side frame of the fixed support is provided with the light diffusion plate and the liquid crystal display layer which are sequentially arranged, the light diffusion plate is fixedly connected with the fixed support, and the liquid crystal display layer is fixedly arranged on the upper surface of the light diffusion plate; the glass mirror layer is fixedly connected with the upper surface of the fixing support through the first adhesive layer. This application arranges through reasonable structure, under the condition that realizes the design of the complete screen of frameless for the display effect of promotion reaches the effect of infinitely approaching full laminating technology.

Description

Frameless display device mounting structure and frameless display device

Technical Field

The present disclosure relates to electronic display devices, and particularly to a frameless display device and a mounting structure thereof.

Background

Liquid Crystal Display (LCD) is called liquid crystal display (Liquidcrystal display) for short, belongs to a flat panel display, and is used for screen display of televisions and computers. The display screen has the advantages of low power consumption, small size and low radiation. At present, a so-called borderless display is newly provided in the industry of liquid crystal displays, the borderless display refers to display equipment with an extremely narrow screen frame, the design that a display screen and the frame are fused together is adopted, the attractiveness of the display is improved, and meanwhile, the broad sense of the visual experience of a user is improved; for example, the invention with application number 201821073992.0 is named as a support frame of a borderless display and the borderless display, which comprises an optical element and a display screen, and also comprises a support frame of the borderless display, compared with the traditional peripheral lock screw structure, the design structure is simple, the operation is convenient, and the working efficiency is high; meanwhile, the edge can be narrower, and the appearance is more attractive.

However, in the so-called borderless display in the prior art, in order to fix the liquid crystal display and to take the problem of wiring into consideration, at least a frame structure for supporting and fixing the liquid crystal display layer (5) still needs to be arranged at the bottom of the liquid crystal display, so that the borderless display still has the problem of a cladding type frame at the bottom, and cannot achieve a true borderless, and a person skilled in the art can only further narrow the frame, and cannot achieve the borderless effect.

In addition, along with the improvement of people on the fitness requirement, an intelligent fitness mirror product appears in the prior art. Intelligent body-building mirror is touch intelligent mirror, is a mirror that has demonstration and touch function, has combined the characteristics of display and mirror, can let the user look over the body-building motion course through touch screen in body-building. However, due to the existence of the frame in the prior art, when designing and manufacturing the body-building mirror, the body-building mirror cannot be matched with the glass mirror surface to achieve a good frameless display effect, and therefore, a frameless display device with an improved display effect is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the frameless display device mounting structure assembling method is provided, and through reasonable structural arrangement, under the condition of realizing frameless overall screen design, the improved display effect can reach the effect which is infinitely close to the full-lamination process.

The technical effect of the application is realized as follows:

a frameless display device mounting structure comprising:

the main mounting shell, the fixed bracket, the light-diffusing plate, the liquid crystal display layer and the glass mirror layer;

the main installation shell is internally provided with a placement cavity for placing an electrical component, and the liquid crystal display layer is provided with a liquid crystal control connecting wire electrically connected with the electrical component;

the fixed bracket is fixedly arranged on the main mounting shell;

the inner side frame of the fixed support is provided with the light diffusion plate and the liquid crystal display layer which are sequentially arranged, the light diffusion plate is fixedly connected with the fixed support, and the liquid crystal display layer is fixedly arranged on the upper surface of the light diffusion plate;

the glass mirror layer is fixedly connected with the upper surface of the fixed support through the first adhesive layer.

Further, the upper surface of the liquid crystal display layer is higher than the upper surface of the fixing support used for being connected with the glass mirror layer.

Furthermore, the height difference between the upper surface of the liquid crystal display layer and the upper surface of the fixing support, which is used for being connected with the glass mirror surface layer, is smaller than the thickness of the first adhesive layer, and a first gap is formed between the liquid crystal display layer and the glass mirror surface layer.

Further, the light diffusion plate is connected with the fixed support through a second adhesive layer, and the second adhesive layer is provided with a gap opening through which the liquid crystal control connecting line connected with the liquid crystal display layer passes.

Furthermore, the light-diffusing plate is of a rectangular structure, the lower surface of the light-diffusing plate of the second adhesive layer is arranged along three sides, a gap opening is formed in the fourth side, and the liquid crystal control connecting wire bypasses the edge of the light-diffusing plate and then penetrates through the gap opening to be electrically connected with the electrical component.

Further, the fixed bolster is including setting up in the first step of lower surface and setting up in the second step of internal surface, the tip of main installation casing with first step phase-match, the length of diffusion sheet with the distance phase-match between the second step internal surface of fixed bolster.

Further, the liquid crystal display layer is fixedly connected with the light diffusion plate through a third adhesive layer.

Further, the liquid crystal display layer is of a rectangular structure, and the third adhesive layer is arranged on the lower surface of the liquid crystal display layer along four sides and forms a hollow structure in the middle.

Further, the outer side surfaces of the main mounting shell, the fixed support and the glass mirror surface layer are located on the same plane.

In another aspect, the present application provides a frameless display device, which includes the frameless display device mounting structure as described above, wherein the electrical assembly is disposed in the mounting cavity, the electrical assembly includes a light emitting element and a liquid crystal control element, and the liquid crystal control element is electrically connected to the liquid crystal control layer through a liquid crystal control connection line.

As described above, the present application has the following advantageous effects,

through directly bonding the glass mirror layer on the fixed bolster, and the liquid crystal display layer is together fixed on the fixed bolster through the diffusion sheet again, has guaranteed the relatively fixed of glass mirror layer and liquid crystal display layer to effectively shared the structure of fixed bolster, need not adopt the centre gripping frame among the prior art. After the clamping frame is omitted, the gap between the glass mirror surface layer and the liquid crystal display layer is greatly reduced compared with the gap between the glass mirror surface layer and the liquid crystal display layer in the prior art, the final display effect is improved, and the improved display effect achieves the effect of infinitely approaching the full-laminating process.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings used in the description of the embodiment or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic diagram of a conventional frameless display device;

FIG. 2 is a schematic overall structure diagram of an embodiment of the present application;

FIG. 3 is a schematic diagram of an embodiment of the present application after applying glue on a liquid crystal display layer;

FIG. 4 is a side view of FIG. 3 in accordance with an embodiment of the present application;

FIG. 5 is a schematic view illustrating a process of attaching a light-diffusing plate to a liquid crystal display layer according to an embodiment of the present disclosure;

FIG. 6 is a schematic view of an embodiment of the present application after applying glue to a light-diffusing sheet;

FIG. 7 is a top view of a mounting bracket according to an embodiment of the present application;

FIG. 8 is a schematic view of the pre-assembly of the fixing bracket and the light-diffusing plate with the liquid crystal display layer according to the embodiment of the present application;

fig. 9 is a schematic view illustrating a process of mounting the coated diffusion sheet to a fixing bracket according to the embodiment of the present application;

FIG. 10 is a schematic diagram of an arrangement of liquid crystal control connection lines according to an embodiment of the present application;

FIG. 11 is an enlarged view of a portion of FIG. 9 after installation in accordance with an embodiment of the present application;

FIG. 12 is a schematic view of the process of mounting the rubberized glass mirror layer to a mounting bracket according to the embodiment of the present application;

FIG. 13 is an enlarged view of a portion of FIG. 12 after installation in accordance with an embodiment of the present application

Wherein the reference numbers in the drawings correspond to the following:

the liquid crystal display panel comprises a main mounting shell 1, a mounting cavity 2, a fixing support 3, a light diffusion plate 4, a liquid crystal display layer 5, a glass mirror layer 6, a clamping frame 7, a liquid crystal control connecting wire 8, a first gap 9, a gap opening 10, a first adhesive layer 11, a second adhesive layer 12, a third adhesive layer 13, a first step 14 and a second step 15.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

As shown in fig. 1, which is a cross-sectional view of a body-building mirror product made of a liquid crystal display device combined with glass in the prior art, the body-building mirror product includes a main mounting housing 1, a fixing bracket 3, an electrical component not shown in the figure, a light-diffusing plate 4, a liquid crystal display layer 5, a glass mirror layer 6 and a clamping frame 7.

The electrical components are arranged in the placing cavity 2 of the main mounting shell 1, and the electrical components comprise a liquid crystal control element which is electrically connected with the liquid crystal display layer 5 and is used for controlling the electric field of the liquid crystal display layer 5, and a light-emitting element. The light emitted by the light emitting element passes through the light diffusion plate 4 and enters the liquid crystal display layer 5; the liquid crystal display layer 5 generates the change of an electric field through the control of a liquid crystal control element, the arrangement direction of liquid crystal molecules is changed, the light transmittance of an external light source is changed (modulated), electro-optical conversion is completed, and color reproduction of a time domain and a space domain is completed through different excitations of R, G, B tricolor signals and through a red, green and blue tricolor filter film.

Wherein, among the current body-building mirror product, mounting structure specifically is: the fixing support 3 is arranged on the main mounting shell 1, the light diffusion plate 4 is erected on a step of the fixing support 3 for positioning, and the liquid crystal display layer 5 is clamped and fixed between the upper end face of the fixing support 3 and the inner surface of the clamping frame 7 through the matching of the clamping frame 7 and the fixing support 3. While the other end holding portion of the holding frame 7 holds the lower surface of the main mounting case 1, thereby holding the entire structure in place. And then the glass mirror surface layer 6 is attached above the clamping frame 7, so that a complete body-building mirror product is formed.

However, due to the existence of the clamping frame 7 and the fact that the frame must be provided in the prior art to ensure that the flat cable (such as the liquid crystal control connection cable) of the liquid crystal display layer 5 can be received inside after being led out and is finally connected with the liquid crystal control element circuit located in the placement cavity 2 of the main mounting housing 1, a gap for the circuit to pass through needs to be provided between the liquid crystal display layer 5 and the clamping frame 7, and the fixing bracket 3 abuts against the clamping frame 7 through a bump to form an upper gap. However, this arrangement results in an excessively large gap between the glass mirror layer 6 and the liquid crystal display layer 5, which affects the final display effect, and if the clamping bezel 7 is removed, the flat cable is exposed to the outside.

Example (b):

the frameless display device mounting structure in the embodiment belongs to the field of electronic display devices and is applied to frameless displays, for example, smart televisions, intelligent body-building mirrors and the like.

Wherein, in particular, see as shown in FIGS. 2-13; fig. 2 shows an improved frameless display device mounting structure according to an embodiment of the present application, including: the main mounting shell 1, the fixed bracket 3, the light-diffusing plate 4, the liquid crystal display layer 5 and the glass mirror layer 6; a mounting cavity 2 for placing an electrical component is arranged in the main mounting shell 1, and a liquid crystal control connecting wire 8 electrically connected with the electrical component is arranged on the liquid crystal display layer 5; the fixed bracket 3 is fixedly arranged on the main mounting shell 1; the inner side of the fixed support 3 is provided with a light diffusion plate 4 and a liquid crystal display layer 5 which are sequentially arranged, the light diffusion plate 4 is fixedly connected with the fixed support 3, and the liquid crystal display layer 5 is fixedly arranged on the upper surface of the light diffusion plate 4; the glass mirror layer 6 is fixedly connected with the upper surface of the fixed support 3 through the first adhesive layer 11. Because the glass mirror layer 6 is directly bonded on the fixed support 3, and the liquid crystal display layer 5 is fixed on the fixed support 3 together through the light-diffusing plate 4, the relative fixation of the glass mirror layer 6 and the liquid crystal display layer 5 is ensured, and the structure of the fixed support 3 is effectively shared without adopting a clamping frame in the prior art. After omitting the centre gripping frame, the clearance between glass mirror layer 6 and the liquid crystal display layer 5 is compared and is dwindled greatly in prior art, has improved ultimate display effect for the display effect who promotes reaches the effect that is infinitely close to laminating technology entirely.

Further preferably, in the embodiment of the present application, the upper surface of the liquid crystal display layer 5 is set to be higher than the upper surface of the fixing support 3 for connecting with the glass mirror layer 6, the height of the upper surface of the liquid crystal display layer 5 is slightly higher than the upper surface of the fixing support 3, but the height difference is smaller than the thickness of the first adhesive layer 11, so that a first gap 9 is formed between the final liquid crystal display layer 5 and the glass mirror layer 6, so that the thickness of the final first gap 9 is smaller than the thickness of the first adhesive layer 11, and the specific gap thickness can be adjusted according to actual requirements, compared with the thickness with the clamping frame in the prior art, or at least larger than the design of the adhesive layer thickness, the approaching effect of the glass mirror layer and the liquid crystal display layer of the present application is significantly better.

Further preferably, the light-diffusing plate 4 is connected to the fixing support 3 by a second adhesive layer 12, and the second adhesive layer 12 is provided with a gap opening 10 for the liquid crystal control connection line 8 connected to the liquid crystal display layer 5 to pass through. Referring to the top view of the fixing bracket of fig. 7, in this embodiment, the fixing bracket 3 includes three side walls having the second step 15 and a flat side wall, and referring to fig. 6 to 10, the light-diffusing plate 4 is a rectangular structure, the lower surface of the light-diffusing plate 4 of the second adhesive layer 12 is disposed along three sides, and a gap opening 10 is formed at the fourth side, the gap opening 10 corresponds to the flat side wall of the fixing bracket 3, and the second adhesive layer 12 is matched with the three side walls having the second step 15 to fix the light-diffusing plate 4 on the fixing bracket 3. The liquid crystal control connecting wire 8 bypasses the edge of the light diffusion plate 4 and then passes through the gap opening 10 for being electrically connected with an electrical appliance component, and the gap opening is formed in the second adhesive layer by matching with the structure of the fixing support, so that the liquid crystal control connecting wire can conveniently pass through the inside of the multilayer structure to realize the connection of circuits, and an additional external frame is not needed for protection.

Further preferably, the fixing bracket 3 comprises a first step 14 arranged on the lower surface and a second step 15 arranged on the inner surface, the end of the main mounting shell 1 is matched with the first step 14, the length of the light-diffusing plate 4 is matched with the distance between the inner surfaces of the second step 15 of the fixing bracket 3, preferably, three side walls of the fixing bracket 3 are fitted and matched with three side edges of the light-diffusing plate for positioning, the fourth side edge is arranged corresponding to the gap opening 10 of the light-diffusing plate 4, correspondingly, the liquid crystal display layer 5 is fixedly connected with the light-diffusing plate 4 through the third adhesive layer 13, and a gap is formed between the side wall of the liquid crystal display layer 5 and the inner surface of the second step 15 of the fixing bracket 3, so that the liquid crystal control connecting wire 8 passes through the gap opening after passing through the gap, and is used for being electrically connected with an electrical appliance component.

In this embodiment, it is further preferable that the liquid crystal display layer 5 has a rectangular structure, and the third adhesive layer 13 is disposed along four sides of the lower surface of the liquid crystal display layer 5 and forms a hollow structure in the middle.

In addition, the outer side surfaces of the main mounting shell 1, the fixing support 3 and the glass mirror surface layer 6 are all located on the same plane, so that a flat outer surface can be formed on the exterior of the mounted frameless display device without adding other structures, mounting procedures are reduced while assembly parts are reduced, and the smoothness and the integrity of the outer surface are guaranteed.

In addition, in this embodiment, a frameless display device is further described, which includes the above installation structure of a frameless display device, the electrical component is disposed in the installation cavity 2, the electrical component includes a light emitting element and a liquid crystal control element, and the liquid crystal control element is electrically connected to the liquid crystal control layer through a liquid crystal control connection line 8.

In this embodiment, an assembling method (process) of a frameless display device is further provided, where based on an installation structure of the frameless display device, the method includes:

s1, fixedly connecting the light-diffusing plate 4 with the liquid crystal display layer 5;

s2, fixedly connecting the other side of the light-diffusing plate 4 fixedly connected with the liquid crystal display layer 5 with the fixed bracket 3;

and S3, coating the first adhesive layer 11 on the lower surface of the glass mirror layer 6 and then fixedly connecting the lower surface with the upper surface of the fixed support 3.

In step S1, referring to fig. 3-5 in detail, first, a third adhesive layer is coated along four edges on the lower surface of the liquid crystal display layer 5, and then the light-diffusing plate 4 is attached to the liquid crystal display layer 5;

in step S2, referring to fig. 6 and 9-10, the method specifically includes:

coating a second adhesive layer 12 on the lower surface of the light diffusion plate 4 along three edges; a gap opening 10 for the liquid crystal control connecting wire 8 connected with the liquid crystal display layer 5 to pass through is formed on the second adhesive layer 12;

the fixing support 3 and the light-diffusing plate 4 are fixedly connected through the second adhesive layer 12, specifically, three edges of the second adhesive layer 12 are respectively bonded on the second step 15 of the fixing support 3.

After the fixing support 3 and the light-diffusing plate 4 are fixedly connected, the liquid crystal control connecting wire 8 is wound around the edge of the light-diffusing plate 4, passes through the gap opening 10 and is electrically connected with the electrical component. At this time, as shown in fig. 11, after the fixing holder 3 and the light-diffusing plate 4 are fixedly connected, the height of the upper surface of the liquid crystal display layer is higher than the height of the upper surface of the fixing holder 3.

As for step S3, referring to fig. 12-13, the first adhesive layer 11 is coated on four sides of the lower surface of the glass mirror layer 6, the width of the first adhesive layer corresponds to the width of each of the four sides of the upper surface of the fixing bracket 3, and then the first adhesive layer is fixedly connected to the upper surface of the fixing bracket 3, so as to finally form the frameless display device after fixing, wherein in this embodiment, preferably, when the thickness of the first adhesive layer 11 is h, the first gap is set to be one third of the thickness of the first adhesive layer 11, or other ratios are also possible, and the first gap between the liquid crystal display layer and the glass mirror layer ranges from 0.1mm to 0.5mm, and particularly 0.2mm, 0.3mm, or 0.4 mm.

In addition, before step S1, the method may further include the steps of:

an electrical appliance component is placed in a placing cavity 2 of a main mounting shell 1;

the fixing bracket 3 is fixedly connected to the main mounting case 1.

The fixed bracket 3 is fixedly connected to the main mounting shell 1 and can be inserted among the steps according to the actual assembly process.

According to the above-described embodiments, the present application has the following advantageous effects,

1. through directly bonding the glass mirror layer on the fixed bolster, and the liquid crystal display layer is together fixed on the fixed bolster through the diffusion sheet again, has guaranteed the relatively fixed of glass mirror layer and liquid crystal display layer to effectively shared the structure of fixed bolster, need not adopt the centre gripping frame among the prior art. After the clamping frame is omitted, the gap between the glass mirror surface layer and the liquid crystal display layer is greatly reduced compared with the prior art, the final display effect is improved, and the improved display effect can reach the effect which is infinitely close to the full-lamination process;

2. the height of the upper surface of the liquid crystal display layer is slightly higher than that of the upper surface of the fixing support, the height difference is smaller than the thickness of the first adhesive layer, a first gap is formed between the final liquid crystal display layer and the glass mirror layer, and the thickness of the final first gap is smaller than that of the first adhesive layer;

3. through the structure of cooperation fixed bolster, form the clearance opening in second adhesive layer department, the connection of the liquid crystal control connecting wire of being convenient for passes the realization circuit in multilayer structure's inside, need not extra external frame and protects.

Although the present application has been described with reference to preferred embodiments, the present application is not limited to the embodiments described herein, and various changes and modifications may be made without departing from the scope of the present application.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The embodiments and features of the embodiments described herein above can be combined with each other without conflict.

The above disclosure is only one preferred embodiment of the present application, and certainly does not limit the scope of the present application, which is therefore intended to cover all modifications and equivalents of the claims.

Claims (10)

1. A frameless display device mounting structure, comprising:

the LED display panel comprises a main mounting shell (1), a fixed support (3), a light scattering plate (4), a liquid crystal display layer (5) and a glass mirror layer (6);

a placement cavity (2) for placing an electrical component is arranged in the main mounting shell (1), and a liquid crystal control connecting wire (8) electrically connected with the electrical component is arranged on the liquid crystal display layer (5);

the fixed support (3) is fixedly arranged on the main mounting shell (1);

the light-diffusing plate (4) and the liquid crystal display layer (5) are sequentially arranged on the inner side of the fixed support (3), the light-diffusing plate (4) is fixedly connected with the fixed support (3), and the liquid crystal display layer (5) is fixedly arranged on the upper surface of the light-diffusing plate (4);

the glass mirror layer (6) is fixedly connected with the upper surface of the fixed support (3) through the first adhesive layer (11).

2. The frameless display device mounting structure of claim 1, wherein the upper surface of the liquid crystal display layer (5) is higher than the upper surface of the fixing bracket (3) for connecting with the glass mirror layer (6).

3. A frameless display device mounting structure according to claim 2, wherein the height difference between the upper surface of the liquid crystal display layer (5) and the upper surface of the fixing bracket (3) for connecting with the glass mirror layer (6) is smaller than the thickness of the first adhesive layer (11), and a first gap (9) is formed between the liquid crystal display layer (5) and the glass mirror layer (6).

4. The frameless display device mounting structure according to claim 1, wherein the light-diffusing plate (4) and the fixing bracket (3) are connected by a second adhesive layer (12), the second adhesive layer (12) being provided with a gap opening (10) for the liquid crystal control connection line (8) connected to the liquid crystal display layer (5) to pass through.

5. The frameless display device mounting structure according to claim 4, wherein the light-diffusing plate (4) has a rectangular structure, the second adhesive layer (12) is disposed along three sides of the lower surface of the light-diffusing plate (4), and a gap opening (10) is formed at the fourth side, and the liquid crystal control connecting wire (8) is used for electrically connecting with the electrical components after passing through the gap opening (10) after bypassing the edge of the light-diffusing plate (4).

6. The frameless display device mounting structure of claim 1, wherein the fixing bracket (3) comprises a first step (14) provided on a lower surface and a second step (15) provided on an inner surface, an end of the main mounting housing (1) is matched with the first step (14), and a length of the light diffusion plate (4) is matched with a distance between inner surfaces of the second steps (15) of the fixing bracket (3).

7. The frameless display device mounting structure of claim 6, wherein the liquid crystal display layer (5) is fixedly connected to the light-diffusing plate (4) by a third adhesive layer (13).

8. The frameless display device mounting structure of claim 7, wherein the liquid crystal display layer (5) has a rectangular structure, and the third adhesive layer (13) is disposed along four sides of the lower surface of the liquid crystal display layer (5) and forms a hollow structure in the middle.

9. The frameless display device mounting structure of claim 1, wherein the outer side surfaces of the main mounting housing (1), the fixing bracket (3) and the glass mirror layer (6) are all in the same plane.

10. A frameless display device, comprising the frameless display device mounting structure of any one of claims 1-9, the electrical components being disposed within the mounting cavity (2), the electrical components comprising a light emitting element and a liquid crystal control, the liquid crystal control being electrically connected to the liquid crystal control layer by liquid crystal control connection lines (8).

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