CN216487154U - Energy-saving temperature-control heat dissipation display screen - Google Patents

Abstract

The utility model relates to the technical field of display screens, in particular to an energy-saving temperature-control heat-dissipation display screen which comprises a display screen body, wherein a separation frame is installed in an inner cavity of the display screen body through a fixing piece, a heat-dissipation component is arranged on the back surface of the separation frame through an L-shaped occlusion block and a telescopic spring, an air supply component is arranged on the bottom wall of the inner cavity of the display screen body, an embedded groove is formed in the side wall of the inner cavity of the display screen body, which is close to one end of a heat dissipation hole, and the inner part of the embedded groove is rotatably connected with a fixing block through a rotating shaft and a torsion spring; according to the utility model, the arranged heat dissipation component is used for absorbing heat generated by the display screen, the heat conduction plate is attached to the panel in the display screen and transmits the heat absorbed to the heat collection plate through the vertical heat conduction strips, and the heat collection plate concentrates the heat and is more favorable for dissipating the heat through the transverse heat dissipation plate group, so that good heat dissipation performance is achieved, and the problem of damage to the display screen caused by the temperature rise of the display screen body is avoided.

Description

Energy-saving temperature-control heat dissipation display screen

Technical Field

The utility model relates to the technical field of display screens, in particular to an energy-saving temperature-control heat-dissipation display screen.

Background

The display screen is used for digital watches and clocks and as a display type for many portable computers. The LCD display uses two sheets of polarized material with a liquid crystal solution between them. When current is passed through the liquid, the crystals will rearrange so that light cannot pass through them. Thus, each crystal acts like a louver, both allowing light to pass through and blocking light.

However, the panel of the current display screen is easy to generate heat in the using process, the impedance of the display screen can be improved in an overheated environment, the power consumption is more serious, the temperature is increased due to heat accumulation, the display screen is easy to damage, and the service life of the display screen is adversely affected.

SUMMERY OF THE UTILITY MODEL

Solves the technical problem

Aiming at the defects in the prior art, the utility model provides an energy-saving temperature-control heat-dissipation display screen, which solves the problems that a panel is easy to heat in the use process of the display screen, the impedance of the display screen can be improved in an overheated environment, the power consumption is more serious, the temperature is increased due to heat accumulation, the display screen is easy to damage, and the service life of the display screen is adversely affected.

Technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme:

an energy-saving temperature-control heat-dissipation display screen comprises a display screen body, wherein a separation frame is installed in an inner cavity of the display screen body through a fixing piece, a heat-dissipation component is arranged on the back surface of the separation frame through an L-shaped occlusion block and a telescopic spring, an air supply component is arranged on the bottom wall of the inner cavity of the display screen body, an internal groove is formed in the side wall of the inner cavity of the display screen body, which is close to one end of a heat dissipation hole, and the inside of the internal groove is rotatably connected with a fixing block through a rotating shaft and a torsion spring;

the heat dissipation component is fixedly installed in the inner cavity of the display screen body through the heat conduction plate and the T-shaped insertion block, and the air supply component is fixedly installed on the bottom wall of the inner cavity of the display screen body through the second shell and the driving motor so as to achieve good heat dissipation performance and avoid the problem that the display screen is damaged due to the fact that the temperature of the display screen body rises.

Furthermore, the front surface of the separation frame is fixedly provided with a joint pad, one end surface of the joint pad, which is far away from the separation frame, is jointed with the panel in the display screen body, and the joint pad can prevent the separation frame from damaging the panel in the display screen body.

Further, the radiator-grid element includes the heat-conducting plate, the front of heat-conducting plate is laminated with the panel in the display screen body mutually, the back array mounting of heat-conducting plate has a set of vertical heat conduction strip, and a terminal surface fixedly connected with thermal-arrest board of heat-conducting plate is kept away from to vertical heat conduction strip, a terminal surface fixed mounting that the thermal-arrest board was kept away from to vertical heat conduction strip has first shell, a set of horizontal fin is installed to the array in the inside of first shell, a set of choke piece is installed to the array in the inside of first shell, and the position of choke piece is corresponding with the position of horizontal fin, the front of first shell has the installing frame through thermal-insulated frame fixed mounting, and the front of installing frame is laminated with the back of separating the frame mutually, and the radiator-grid element is used for absorbing the heat of display screen output.

Furthermore, a group of mounting grooves are symmetrically formed in the back of the separation frame, a group of L-shaped occlusion blocks are symmetrically connected into an inner cavity of each mounting groove through a telescopic spring, a group of T-shaped insertion blocks matched with the L-shaped occlusion blocks are symmetrically mounted on the front of the mounting frame, and the T-shaped insertion blocks are occluded between the L-shaped occlusion blocks; the back joint of display screen body has the back lid, one side fixed mounting that the back lid is close to the display screen body has thermal-insulated fixed bolster, and thermal-insulated fixed bolster keep away from a terminal surface of back lid and the back of first shell and laminate mutually, and L shape interlock piece, expanding spring and the mutually supporting of T shape grafting piece can be directly installed the inside of display screen body with radiator unit, and the fixed block can carry out the secondary to it and fix.

Further, the air supply component includes second shell and CD-ROM drive motor, the inside of second shell is rotated through the pivot and is connected with the crossing current flabellum, there is flexible wind channel at the top of second shell through bolt fixed mounting, the one end fixed mounting that the second shell was kept away from in flexible wind channel has the magnet frame, and the one end fixed mounting that the flexible wind channel was kept away from to the magnet frame has the frame that hinders heat, CD-ROM drive motor's drive end passes the second shell and is connected with the pivot in the crossing current flabellum, and the air supply component is used for assisting the heat radiation component to dispel the heat.

Furthermore, the bottom end of the first shell is provided with an air inlet, the top of the second shell is provided with an air outlet, the air outlet is communicated with the air inlet through a telescopic air duct and a magnet frame, one side of the display screen body is symmetrically provided with a group of heat dissipation holes, the positions of the heat dissipation holes correspond to those of the first shell, and the air outlet of the second shell is communicated with the air inlet of the first shell through the telescopic air duct and the magnet frame so as to avoid the loss of an air source and improve the energy conservation of the air supply component.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the utility model has the following beneficial effects:

1. according to the utility model, the arranged heat dissipation component is used for absorbing heat generated by the display screen, the heat conduction plate is attached to the panel in the display screen and transmits the heat absorbed to the heat collection plate through the vertical heat conduction strips, and the heat collection plate concentrates the heat and is more favorable for dissipating the heat through the transverse heat dissipation plate group, so that good heat dissipation performance is achieved, and the problem of damage to the display screen caused by the temperature rise of the display screen body is avoided.

2. The air supply component is arranged to assist the heat dissipation component to dissipate heat, the air fanned by the transverse flow fan blades is vertical and enters the first shell through the telescopic air duct, and as the height of the wind resistance sheet is from low to high, a part of air can be blocked from entering between every two transverse radiating fins so as to achieve uniform distribution of an air source, so that the air around the transverse radiating fins can flow in an accelerated manner, and the cooling speed of the display screen is improved; in addition, the air outlet of the second shell is connected with a telescopic air duct, and the telescopic air duct can be accurately arranged at the air inlet of the first shell through the magnet frame, so that the loss of an air source is avoided, and the energy saving performance of the air supply component is improved.

3. The heat dissipation component can be directly installed in the display screen body through the mutual matching of the L-shaped occlusion block, the telescopic spring and the T-shaped insertion block, and the fixing block can be used for secondarily fixing the heat dissipation component.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments 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 utility model, 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 an exploded structure of a display screen body according to the present invention;

FIG. 2 is a schematic view of the internal structure of the display screen body according to the present invention;

FIG. 3 is a schematic view of a three-dimensional anatomical structure of a display screen body according to the present invention;

FIG. 4 is a schematic view of a three-dimensional partial anatomy of a separation frame according to the present invention;

FIG. 5 is a perspective view of a heat dissipation member according to the present invention;

FIG. 6 is a schematic perspective internal structure view of a heat dissipation member according to the present invention;

FIG. 7 is a perspective anatomical schematic view of an air delivery member of the present invention;

the reference numerals in the drawings denote: 1. a display screen body; 2. a separation frame; 3. attaching a pad; 4. a heat dissipating member; 401. a heat conducting plate; 402. a vertical heat conducting strip; 403. installing a frame; 404. a heat insulation frame; 405. a first housing; 406. a T-shaped plug-in block; 407. a transverse heat sink; 408. a wind resistance sheet; 409. a heat collecting plate; 5. a rear cover; 6. a heat insulating fixing pad; 7. heat dissipation holes; 8. a built-in groove; 9. a fixed block; 10. mounting grooves; 11. an L-shaped bite block; 12. a tension spring; 13. an air supply member; 1301. a second housing; 1302. a cross flow fan blade; 1303. a drive motor; 1304. a telescopic air duct; 1305. a magnet frame; 1306. thermal resistance frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all 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.

The present invention will be further described with reference to the following examples.

Examples

The energy-saving temperature-control heat dissipation display screen of the embodiment is shown in fig. 1 to 2, and comprises a display screen body 1, wherein a separation frame 2 is installed in an inner cavity of the display screen body 1 through a fixing part, a heat dissipation member 4 is arranged on the back surface of the separation frame 2 through an L-shaped occlusion block 11 and a telescopic spring 12, an air supply member 13 is arranged on the bottom wall of the inner cavity of the display screen body 1, an inner groove 8 is formed in the side wall of the inner cavity of the display screen body 1, which is close to one end of a heat dissipation hole 7, and the inner part of the inner groove 8 is rotatably connected with a fixing block 9 through a rotating shaft and a torsion spring;

the heat dissipating member 4 is fixedly mounted in the inner cavity of the display screen body 1 through the heat conducting plate 401 and the T-shaped inserting block 406, and the air blowing member 13 is fixedly mounted on the bottom wall of the inner cavity of the display screen body 1 through the second housing 1301 and the driving motor 1303.

The front surface of the separation frame 2 is fixedly provided with the attaching pad 3, and one end surface of the attaching pad 3 far away from the separation frame 2 is attached to the panel in the display screen body 1.

In this embodiment, when the heat dissipation member 4 is installed, the separation frame 2 is first installed in the inner cavity of the display screen body 1 through the fixing member, and the attachment pad 3 is attached to the panel in the display screen body 1, then the T-shaped insertion blocks 406 in the heat dissipation member 4 are respectively aligned to the L-shaped engagement blocks 11 and inserted into the L-shaped engagement blocks, so that the T-shaped insertion blocks 406 and the L-shaped engagement blocks 11 are engaged with each other, the fixing block 9 is taken out from the built-in groove 8 by taking the rotating shaft as the center, and is attached to the first housing (405), the heat dissipation member 4 is secondarily fixed, then the air outlet of the second housing 1301 is communicated with the air inlet of the first housing 405 through the telescopic air duct 1304 and the magnet frame 1305, and when the installation is completed, the rear cover 5 is covered.

As shown in fig. 3 to 4, a set of mounting grooves 10 is symmetrically formed in the back surface of the separation frame 2, a set of L-shaped engagement blocks 11 is symmetrically connected to the inner cavity of the mounting groove 10 through a telescopic spring 12, a set of T-shaped insertion blocks 406 corresponding to the L-shaped engagement blocks 11 is symmetrically mounted on the front surface of the mounting frame 403, and the T-shaped insertion blocks 406 are engaged between the L-shaped engagement blocks 11; the back card of display screen body 1 has connect back lid 5, and one side fixed mounting that back lid 5 is close to display screen body 1 has thermal-insulated fixed bolster 6, and thermal-insulated fixed bolster 6 keeps away from a terminal surface of back lid 5 and the back of first shell 405 is laminated mutually.

As shown in fig. 5 to 6, the heat dissipating member 4 includes a heat conducting plate 401, a front surface of the heat conducting plate 401 is attached to a panel in the display screen body 1, a set of vertical heat conducting strips 402 is installed on a back surface of the heat conducting plate 401 in an array manner, and one end surface of each vertical heat conducting strip 402 away from the heat conducting plate 401 is fixedly connected with a heat collecting plate 409, one end surface of each heat collecting plate 409 away from the vertical heat conducting strips 402 is fixedly installed with a first shell 405, a set of transverse heat dissipating fins 407 is installed in an array manner in an interior of the first shell 405, a set of wind resistance fins 408 are installed in an array manner in the interior of the first shell 405, and positions of the wind resistance fins 408 correspond to positions of the transverse heat dissipating fins 407, a mounting frame 403 is fixedly installed on the front surface of the first shell 405 through a heat insulating frame 404, and a front surface of the mounting frame 403 is attached to a back surface of the partition frame 2.

In the utility model, the arranged heat dissipation member 4 is used for absorbing heat generated by the display screen, the heat conduction plate 401 is attached to a panel in the display screen and absorbs the heat and transmits the heat to the heat collection plate 409 through the vertical heat conduction strip 402, and the heat collection plate 409 concentrates the heat to be more beneficial to dissipating the heat through the transverse heat dissipation fin 407 group, so that good heat dissipation performance is achieved, and the problem of damage to the display screen caused by the temperature rise of the display screen body 1 is avoided.

In the utility model, the heat dissipation component 4 can be directly installed in the display screen body 1 by the mutual matching of the L-shaped occlusion block 11, the extension spring 12 and the T-shaped insertion block 406 through the arranged separation frame 2, and the heat dissipation component 4 can be directly installed in the display screen body 1, and the fixing block 9 can be used for carrying out secondary fixing on the heat dissipation component, so that the L-shaped occlusion block 11 and the T-shaped insertion block 406 have certain occlusion end surfaces, and the heat dissipation component 4 can be detached and cleaned and overhauled by slight force.

As shown in fig. 7, the air supply member 13 includes a second casing 1301 and a driving motor 1303, the second casing 1301 is rotatably connected with a cross flow fan 1302 through a rotating shaft, a telescopic air duct 1304 is fixedly installed on the top of the second casing 1301 through a bolt, a magnet frame 1305 is fixedly installed on one end of the telescopic air duct 1304 far away from the second casing 1301, a heat resistance frame 1306 is fixedly installed on one end of the magnet frame 1305 far away from the telescopic air duct 1304, and a driving end of the driving motor 1303 passes through the second casing 1301 and is connected with the rotating shaft in the cross flow fan 1302; an air inlet is formed in the bottom end of the first casing 405, an air outlet is formed in the top of the second casing 1301, the air outlet is communicated with the air inlet through a telescopic air duct 1304 and a magnet frame 1305, a group of heat dissipation holes 7 are symmetrically formed in one side of the display screen body 1, and the positions of the heat dissipation holes 7 correspond to the positions of the first casing 405.

In the utility model, the arranged air supply component 13 is used for assisting the heat dissipation component 4 to dissipate heat, the air fanned by the cross flow fan blade 1302 is vertical and enters the first shell 405 through the telescopic air duct 1304, and as the height of the wind resistance sheet 408 is from low to high, a part of air can be blocked from entering between every two transverse radiating fins 407 so as to achieve the uniform distribution of an air source, so that the air around the transverse radiating fins 407 can flow in an accelerated manner, and the cooling speed of the display screen is improved; in addition, the air outlet of the second casing 1301 is connected to a telescopic air duct 1304, and the telescopic air duct can be accurately arranged at the air inlet of the first casing 405 through a magnet frame 1305, so that the loss of an air source is avoided, and the energy saving performance of the air supply member 13 is improved.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (5)

1. The utility model provides an energy-conserving control by temperature change heat dissipation display screen, includes display screen body (1), its characterized in that: a separation frame (2) is mounted in an inner cavity of the display screen body (1) through a fixing piece, a heat dissipation component (4) is arranged on the back face of the separation frame (2) through an L-shaped occlusion block (11) and a telescopic spring (12), an air supply component (13) is arranged on the bottom wall of the inner cavity of the display screen body (1), an embedded groove (8) is formed in the side wall of one end, close to the heat dissipation hole (7), of the inner cavity of the display screen body (1), and the inside of the embedded groove (8) is rotatably connected with a fixing block (9) through a rotating shaft and a torsion spring;

the heat dissipation member (4) is fixedly installed in the inner cavity of the display screen body (1) through the heat conduction plate (401) and the T-shaped insertion block (406), and the air supply member (13) is fixedly installed on the bottom wall of the inner cavity of the display screen body (1) through the second shell (1301) and the driving motor (1303).

2. The energy-saving temperature-control heat-dissipation display screen as recited in claim 1, wherein the front surface of the separation frame (2) is fixedly provided with the attaching pad (3), and one end surface of the attaching pad (3) far away from the separation frame (2) is attached to the panel in the display screen body (1).

3. The energy-saving temperature-control heat-dissipation display screen according to claim 1, wherein the heat-dissipation member (4) comprises a heat-conducting plate (401), the front surface of the heat-conducting plate (401) is attached to a panel in the display screen body (1), a set of vertical heat-conducting strips (402) is installed on the back surface of the heat-conducting plate (401) in an array manner, one end surface of each vertical heat-conducting strip (402) far away from the heat-conducting plate (401) is fixedly connected with a heat-collecting plate (409), one end surface of each heat-collecting plate (409) far away from each vertical heat-conducting strip (402) is fixedly installed with a first shell (405), a set of transverse heat-dissipation fins (407) is installed in the first shell (405) in an array manner, a set of wind-resistance fins (408) is installed in the first shell (405) in an array manner, the positions of the wind-resistance fins (408) correspond to the positions of the transverse heat-dissipation fins (407), and a mounting frame (403) is fixedly installed on the front surface of the first shell (405) through a heat-insulation frame (404), the front surface of the mounting frame (403) is attached to the back surface of the separation frame (2), and an air inlet is formed in the bottom end of the first shell (405).

4. The energy-saving temperature-control heat-dissipation display screen according to claim 3, wherein a group of mounting grooves (10) are symmetrically formed in the back of the separation frame (2), a group of L-shaped engagement blocks (11) are symmetrically connected to the inner cavity of the mounting grooves (10) through expansion springs (12), a group of T-shaped insertion blocks (406) corresponding to the L-shaped engagement blocks (11) are symmetrically mounted on the front of the mounting frame (403), and the T-shaped insertion blocks (406) are engaged between the L-shaped engagement blocks (11); the back joint of display screen body (1) has back lid (5), one side fixed mounting that back lid (5) are close to display screen body (1) has thermal-insulated fixed bolster (6), and thermal-insulated fixed bolster (6) keep away from a terminal surface of back lid (5) and the back of first shell (405) and laminate mutually, a set of louvre (7) have been seted up to one of them side symmetry of display screen body (1), and the position of louvre (7) is corresponding with the position of first shell (405).

5. The energy-saving temperature-control heat-dissipation display screen as recited in claim 1, wherein the air supply member (13) comprises a second housing (1301) and a driving motor (1303), the inside of the second housing (1301) is rotatably connected with cross flow fan blades (1302) through a rotating shaft, the top of the second housing (1301) is fixedly provided with a telescopic air duct (1304) through bolts, one end of the telescopic air duct (1304), which is far away from the second housing (1301), is fixedly provided with a magnet frame (1305), one end of the magnet frame (1305), which is far away from the telescopic air duct (1304), is fixedly provided with a heat blocking frame (1306), the driving end of the driving motor (1303) penetrates through the second housing (1301) and is connected with the rotating shaft in the cross flow fan blades (1302), and the top of the second housing (1301) is provided with an air outlet.

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