CN218768642U - High-energy-efficiency liquid crystal display screen - Google Patents

Abstract

The utility model discloses a high energy efficiency liquid crystal display, which comprises a display screen, the camera module, a column, a pedestal, the host computer storehouse, the sound unit, the mainboard, compound heat-conducting plate, the heat dissipation backplate, go up the filter core, host computer storehouse both sides based on display screen backplate lower extreme are provided with the sound unit, host computer storehouse internally mounted has the mainboard, compound heat-conducting plate is equipped with to the subsides of mainboard top layer, compound heat-conducting plate skin installation has the heat dissipation backplate, install the filter core based on host computer storehouse upper end, host computer storehouse end heat dissipation design has been realized, a high energy efficiency liquid crystal display, the filter core support is horizontal grafting installation design of horizontal direction, the built-in multistage filter core that piles up of installing of filter core support, the clearance can independently be disassembled to whole filter core support, heat dissipation backplate base plate upper end is provided with last air inlet, five groups of heat conduction copper pipe are installed to the base plate built-in, the heat conduction copper pipe outside is installed the cooling fan unit, realize the quick heat conduction design of convection about the air, the host computer storehouse is accomplished end heat dissipation design, effectual accomplish the heat dissipation, the balance of heat dissipation, and deposition.

Description

High-energy-efficiency liquid crystal display screen

Technical Field

The utility model relates to a liquid crystal display field, especially a high-energy efficiency liquid crystal display.

Background

The air humidity is high in summer, and the insulation performance is easily reduced. The high voltage of tens of thousands of volts exists in the television, which easily causes the problems of high voltage ignition, insulation breakdown and the like in the television. Moreover, if the television is not used for a long time, the performance of parts in the television is also deteriorated. Therefore, in summer, the television can be started for a while every day, and the heat generated in the television is utilized to dissipate moisture. The too high heat in the liquid crystal display influences the efficiency of the liquid crystal display too much.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a high-energy efficiency liquid crystal display. In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a high energy efficiency liquid crystal display, includes display screen, camera module, stand, base, host computer storehouse, stereo set unit, mainboard, compound heat-conducting plate, heat dissipation backplate, goes up the filter core, is provided with the stereo set unit based on the host computer storehouse both sides of display screen backplate lower extreme, and host computer storehouse internally mounted has the mainboard, and compound heat-conducting plate is equipped with in the subsides of mainboard top layer, and compound heat-conducting plate skin installs the heat dissipation backplate, installs the filter core based on host computer storehouse upper end, has realized the design of heat dissipation at the bottom of the host computer storehouse.

Preferably, the heat dissipation back plate is composed of a base plate, an upper air inlet, a heat conduction copper pipe and a heat dissipation fan unit, the upper air inlet is formed in the upper end of the base plate, five groups of heat conduction copper pipes are installed in the base plate, and the heat dissipation fan unit is installed on the outer side of each heat conduction copper pipe, so that the design of rapid heat conduction through up-down convection of air is realized.

Preferably, go up the filter core and pile up the filter core by filter core support, installation screw and multistage and constitute, the filter core support is the horizontal installation design of pegging graft of horizontal direction, and the installation screw on filter core support right side and external screw location installation, the filter core support is built-in to be installed multistage and piles up the filter core, and whole filter core support can independently be disassembled the clearance.

Preferably, the multistage filter core that piles up is piled up the installation from top to bottom by the different aperture filter cores of multiunit, can filter the dust of different particle sizes, has guaranteed the normal heat dissipation operation in host computer storehouse.

Compared with the prior art, the utility model has the advantages of it is following: the utility model provides an energy-efficient liquid crystal display, this device design:

1: the filter element bracket is horizontally inserted and installed, an installation screw hole on the right side of the filter element bracket is positioned and installed with an external screw, a multi-stage stacked filter element is installed in the filter element bracket, and the whole filter element bracket can be independently disassembled and cleaned;

2: an upper air inlet is formed in the upper end of the heat dissipation back plate substrate, five groups of heat conduction copper pipes are installed in the substrate, and a heat dissipation fan unit is installed on the outer side of each heat conduction copper pipe, so that the rapid heat conduction design of up-and-down air convection is realized.

Drawings

Fig. 1 is a schematic structural diagram of the energy-efficient liquid crystal display of the present invention.

Fig. 2 is the installation structure diagram of the energy-efficient liquid crystal display of the present invention.

Fig. 3 is a schematic view of the installation structure of the upper filter element of the present invention.

Fig. 4 is a schematic structural view of the heat dissipation back plate of the present invention.

Fig. 5 is a schematic structural view of the upper filter element of the present invention.

In the figure: 1. display screen, 2, camera module, 3, stand, 4, base, 5, host computer storehouse, 6, sound unit, 7, mainboard, 8, compound heat-conducting plate, 9, heat dissipation backplate, 10, go up the filter core, 11, base plate, 12, go up the air inlet, 13, heat conduction copper pipe, 14, cooling fan unit, 15, filter core support, 16, installation screw, 17, multistage filter core that piles up.

Detailed Description

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

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 show, an energy-efficient liquid crystal display, including display screen 1, camera module 2, stand 3, base 4, host computer storehouse 5, sound unit 6, mainboard 7, compound heat-conducting plate 8, heat dissipation backplate 9, go up filter core 10, camera module 2 is installed to 1 support body upper end central point of display screen, 1 support body of display screen passes through stand 3 and 4 location installations of base, install host computer storehouse 5 based on 1 backplate lower extreme position of display screen, 5 both sides in host computer storehouse are provided with sound unit 6, 5 internally mounted in host computer storehouse has mainboard 7, 7 top layer pastes and is equipped with compound heat-conducting plate 8 on the mainboard, heat dissipation backplate 9 is installed to 8 outer layers of compound heat-conducting plate, install filter core 10 based on 5 upper ends in host computer storehouse, the heat dissipation design at the bottom of host computer storehouse 5 has been realized.

The heat dissipation back plate 9 is composed of a base plate 11, an upper air inlet 12, a heat conduction copper pipe 13 and a heat dissipation fan unit 14, the upper air inlet 12 is arranged at the upper end of the base plate 11, five groups of heat conduction copper pipes 13 are installed in the base plate 11, the heat dissipation fan unit 14 is installed on the outer side of each heat conduction copper pipe 13, a lower air outlet is formed in the lower end of the base plate 11, and the design of quick heat conduction of up-down convection of air is achieved.

Go up filter core 10 and pile up the filter core 17 by filter core support 15, installation screw 16 and multistage and constitute, filter core support 15 is the horizontal installation design of pegging graft of horizontal direction, installation screw 16 and external screw location installation on filter core support 15 right side, filter core support 15 is built-in to be installed multistage and piles up filter core 17, and clearance can independently be disassembled to whole filter core support 15, has realized filter core support 15's quick clean operation, avoids the inside dust in host computer storehouse 9 to pile up the phenomenon and takes place.

The multistage stacking filter element 17 is formed by vertically stacking a plurality of groups of filter elements with different apertures, dust with different particle sizes can be filtered, normal heat dissipation operation of the host bin 5 is guaranteed, and balance of heat dissipation, energy efficiency and dust deposition is achieved effectively.

The utility model discloses the theory of operation: the utility model provides a high energy efficiency liquid crystal display, the filter core support is the horizontal installation design of pegging graft of horizontal direction, the filter core support embeds installs multistage filter core that piles up, whole filter core support can independently disassemble the clearance, heat dissipation backplate base plate upper end is provided with last air inlet, five groups of heat conduction copper pipes are installed to the base plate embeds, the cooling fan unit is installed in the heat conduction copper pipe outside, the quick heat conduction design of convection current about realizing the air, heat dissipation design at the bottom of the host computer storehouse is accomplished, the effectual heat dissipation of accomplishing, the balance of efficiency and deposition.

The foregoing is a preferred embodiment of the present invention, and for those skilled in the art, in light of the teachings of the present invention, variations, modifications, substitutions and changes may be made without departing from the spirit and scope of the invention.

Claims (4)

1. The utility model provides a high energy efficiency liquid crystal display, a serial communication port, including display screen (1), camera module (2), stand (3), base (4), host computer storehouse (5), stereo set unit (6), mainboard (7), compound heat-conducting plate (8), heat dissipation backplate (9), go up filter core (10), display screen (1) support body upper end central point puts and installs camera module (2), display screen (1) support body passes through stand (3) and base (4) location installation, install host computer storehouse (5) based on display screen (1) backplate lower extreme position, host computer storehouse (5) both sides are provided with stereo set unit (6), host computer storehouse (5) internally mounted has mainboard (7), compound heat-conducting plate (8) are equipped with in mainboard (7) top layer subsides, heat dissipation backplate (9) are installed to compound heat-conducting plate (8) skin, install filter core (10) based on host computer storehouse (5) upper end, the heat dissipation design has been realized at the bottom of host computer storehouse (5).

2. The energy-efficient liquid crystal display screen according to claim 1, wherein the heat-dissipating back plate (9) is composed of a substrate (11), an upper air inlet (12), a heat-conducting copper tube (13) and a heat-dissipating fan unit (14), the upper air inlet (12) is arranged at the upper end of the substrate (11), five groups of heat-conducting copper tubes (13) are arranged in the substrate (11), and the heat-dissipating fan unit (14) is arranged at the outer side of the heat-conducting copper tubes (13), so that the design of rapid heat conduction through up-down convection of air is realized.

3. The energy-efficient liquid crystal display screen according to claim 1, wherein the upper filter element (10) is composed of a filter element support (15), installation screw holes (16) and multi-stage stacked filter elements (17), the filter element support (15) is designed to be horizontally inserted and installed in an inserting mode, the installation screw holes (16) on the right side of the filter element support (15) are located and installed with external screws, the multi-stage stacked filter elements (17) are installed in the filter element support (15), and the whole filter element support (15) can be independently disassembled and cleaned.

4. The energy-efficient liquid crystal display screen according to claim 3, wherein the multi-stage stacked filter elements (17) are stacked up and down by a plurality of sets of filter elements with different apertures, which can filter dust with different particle sizes, thereby ensuring normal heat dissipation operation of the main cabinet (5).

Images