CN116940075A - Naked eye 3D imaging equipment based on MOST optical fiber network - Google Patents

Abstract

The invention relates to the technical field of imaging equipment, and particularly provides naked eye 3D imaging equipment based on an MOST optical fiber network. This bore hole 3D imaging device based on MOST fiber network includes storage subassembly, bore hole 3D display module, filter module and trigger assembly, storage subassembly is including accomodating the framework, wedge water conservancy diversion piece and receiver, accomodate the framework and offer the acceping through groove that runs through two relative lateral walls, this case is kept away from the bore hole 3D display through a plurality of air current through groove flow direction bore hole 3D display one side of accomodating the framework, thereby realize bore hole 3D display at utmost cooling, through carrying out cooling, can reduce the inside temperature of display effectively, promote its performance and keep its steady operation, reduce the risk of component ageing, thereby prolong the life of display, reduce the discomfort that the display generates heat and arouses, ensure image quality and stability during the use.

Description

Naked eye 3D imaging equipment based on MOST optical fiber network

Technical Field

The invention relates to the technical field of imaging equipment, in particular to naked eye 3D imaging equipment based on an MOST optical fiber network.

Background

The naked eye 3D technology mainly comprises a parallax barrier wall type and a lens type, the principle is that when a display screen is watched through a parallax barrier or a lens, the left eye and the right eye can see different images, so that stereoscopic vision is formed, the mainstream technology implementation means are a light barrier type, a cylindrical lens type and a directional backlight 3D technology, the naked eye 3D imaging equipment is a technology capable of realizing the 3D effect watching without wearing glasses or other auxiliary equipment, the special screen or projection technology is utilized for creating stereoscopic vision, and a viewer can feel a vivid 3D effect in the naked eye state. At present, the naked eye 3D equipment is easy to cause temperature rise after long-time use, and the naked eye 3D equipment can be damaged under the condition that the naked eye 3D equipment is at high temperature for a long time.

Disclosure of Invention

Based on this, it is necessary to provide a naked eye 3D imaging device based on a MOST optical fiber network, so as to solve at least one technical problem set forth in the above background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a bore hole 3D imaging device based on MOST fiber network, including accomodating the subassembly, bore hole 3D display element, filter component and trigger assembly, accomodate the subassembly and including accomodating the framework, wedge water conservancy diversion piece and receiver, accomodate the framework and offer the acceping logical groove that runs through two relative lateral walls, wedge water conservancy diversion piece slidable mounting is in the bottom of acceping logical groove, receiver fixed mounting is in the top of wedge water conservancy diversion piece, bore hole 3D display element fixed mounting is in the top of accomodating the framework, filter component slidable mounting is in acceping logical inslot, trigger assembly fixed mounting is in acceping logical groove and keep away from the top of receiver one side, and be located one side of filter component.

Preferably, the naked eye 3D display assembly comprises a mounting support plate, a mounting adjusting shaft, a mounting connecting plate, a naked eye 3D display and two limiting support plates, wherein the mounting support plate is fixedly mounted at the top of the storage frame body and is obliquely mounted relative to the top surface of the storage frame body, the mounting adjusting shaft is rotatably mounted at the top of the mounting support plate, the mounting connecting plate is fixedly mounted on the side wall of the mounting adjusting shaft, the naked eye 3D display is fixedly mounted on the side wall of the mounting connecting plate, which is far away from the mounting adjusting shaft, and the two limiting support plates are fixedly mounted at the top of the storage frame body and are respectively positioned at two ends of the mounting connecting plate near one side of the storage frame body.

Preferably, the side wall of the spacing backup pad that is close to the installation backup pad is formed with the support inclined plane, and supports the inclined plane and accomodates the distance between the framework along keeping away from the direction of bore hole 3D display and reduce gradually, and the both ends of installation backup pad support each other with two spacing backup pads respectively and hold, and the bottom of installation connecting plate supports and holds in the top of two spacing backup pads, has seted up a plurality of air current on the side wall of installation connecting plate that is close to bore hole 3D display and has led to the groove.

Preferably, the outer side wall of the storage box far away from the trigger assembly is fixedly provided with a drawing handle, one end of the wedge-shaped flow guide block close to the drawing handle is provided with a ventilation strip-shaped groove penetrating through the other end, one end of the wedge-shaped flow guide block far away from the drawing handle is provided with a flow guide inclined surface, and the distance between the flow guide inclined surface and the groove bottom wall of the storage through groove is gradually increased towards the direction that the wedge-shaped flow guide block is close to one end of the drawing handle.

Preferably, two longitudinal sliding grooves are formed in the storage frame body, the two longitudinal sliding grooves are respectively communicated with two sides of the storage through groove, the filtering assembly comprises two longitudinal connecting springs, two movable sliding blocks, a movable baffle and a plurality of filtering net pieces, the two longitudinal connecting springs are respectively fixedly mounted at the tops of the two longitudinal sliding grooves, the two movable sliding blocks are respectively fixedly mounted at the bottoms of the two longitudinal connecting springs, the two movable sliding blocks are respectively arranged in the two longitudinal sliding grooves in a sliding manner, the movable baffle is fixedly mounted on the side walls of the two movable sliding blocks facing each other, one side wall of the movable baffle is attached to one side wall of the storage box, and the plurality of filtering net pieces are all mounted on the side wall of the movable baffle far away from the storage box.

Preferably, the filter screen spare includes filter screen tilting shaft, dustproof filter screen, two elastic air bags, filter screen conducting shoe and wedge conducting shoe, the filter screen tilting shaft is rotationally installed in moving baffle and is kept away from the receiver through the torsional spring, dustproof filter screen fixed mounting is kept away from on the lateral wall of moving baffle in the filter screen tilting shaft, two elastic air bags respectively fixed mounting are on the both sides wall of dustproof filter screen, filter screen conducting shoe fixed mounting is close to the top of filter screen tilting shaft one end in dustproof filter screen, wedge conducting shoe fixed mounting moves the baffle towards on the lateral wall of dustproof filter screen, wedge conducting shoe keeps away from the one end of moving baffle and is formed with the contact inclined plane.

Preferably, the side wall of the elastic air bag far away from the dustproof filter screen is provided with dust removal air holes, the top of the accommodating through groove is fixedly provided with two guide baffles, the two side walls of the movable baffle are provided with guide clamping grooves, and the movable baffle is respectively arranged between the two guide baffles in a sliding manner through the two guide clamping grooves.

Preferably, the triggering component comprises a triggering fixed block, a heat conduction guide rod, a bending alloy and a telescopic supporting block, wherein the triggering fixed block is fixedly installed at one end of the accommodating through groove far away from the drawing handle, the heat conduction vertical groove is formed in the top of the triggering fixed block, the heat conduction communication groove is formed in the top of the accommodating frame body, the bottom of the heat conduction communication groove is mutually communicated with the top of the heat conduction vertical groove, the heat conduction rod is fixedly installed in the heat conduction vertical groove and the heat conduction communication groove, the top wall of the heat conduction guide rod is located at the outer side of the heat conduction communication groove, the bottom of the triggering fixed block is provided with a telescopic chute, the top of the telescopic chute is communicated with the bottom of the heat conduction vertical groove, the bending alloy is made of a memory alloy, the bending alloy is fixedly installed at the bottom of the bending alloy, the telescopic supporting block is arranged in the telescopic chute in a sliding mode, the bottom of the telescopic supporting block extends to the outer side of the telescopic chute, and the bottom of the telescopic supporting block is supported on the guide inclined plane.

Preferably, the triggering fixed block is convexly provided with a plurality of propping convex strip groups corresponding to the dustproof filter screen towards one side wall of the movable baffle, and the propping convex strip groups comprise a plurality of propping convex strips which are longitudinally arranged, and the propping convex strips are used for propping the dustproof filter screen when the movable baffle moves, so that the dustproof filter screen is turned over.

Preferably, a ventilation gap is formed between the movable baffle and the triggering fixed block, a plurality of dustproof filter screens are positioned in the ventilation gap, a plurality of ventilation square holes are formed in the top of the storage frame body, the bottoms of the ventilation square holes are communicated with the top of the ventilation gap, a concave groove is formed in the bottom wall of the storage through groove, a dust removal box is arranged in the concave groove in a sliding mode, and the dust removal box is positioned on one side, away from the ventilation square holes, of the ventilation gap.

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

1. when the bottom of triggering the fixed block is kept away from at wedge water conservancy diversion piece, part air conditioning can enter into the ventilation clearance through the guide of water conservancy diversion inclined plane, the air conditioning flows to the support inclined plane through the square hole of a plurality of ventilation through the ventilation clearance, the air conditioning flows to bore hole 3D display through the guide of support inclined plane, thereby realize bore hole 3D display's cooling, the air conditioning that flows to bore hole 3D display can make bore hole 3D display, the installation backup pad, install sealed space temperature that regulating spindle, installation connecting plate and two spacing backup pads formed with it, and part air conditioning can keep away from the one side of accomodating the framework through a plurality of air current ventilation groove flow bore hole 3D display, thereby realize bore hole 3D display at utmost's cooling, through carrying out cooling, can reduce the inside temperature of display effectively, promote its performance and keep its steady operation, reduce the risk of component ageing, thereby the life of extension display, reduce the discomfort that the display generates heat and cause, ensure image quality and stability during the use.

2. The air conditioner can flow to the other end of the wedge-shaped guide block through the plurality of ventilation strip-shaped grooves, flows out from the other direction of the wedge-shaped guide block, can assist the temperature in the automobile to reduce, and can improve the comfort level of a user.

3. When wedge guide block moves to the direction of keeping away from the trigger fixed block, part air conditioning upwards flows through ventilation clearance, another part still can flow to the other end of wedge guide block through a plurality of ventilation bar groove, but along with the downwardly moving of movable baffle, can seal a plurality of ventilation bar groove gradually, thereby make air conditioning can only upwards flow through ventilation clearance, still be provided with the filter screen spare in the ventilation clearance, can filter air conditioning, prevent the dust in the air conditioning upwards flow to the sealed space in, prevent that dust in the air conditioning from causing the influence to the bore hole 3D display, prevent the dust entering bore hole 3D display inside possibility, reduce the accumulation of dust on surface and other important parts, thereby reduced the risk of trouble and damage, the life-span of display has been prolonged.

4. When two adjacent dustproof filter screens overturn and recover when different elastic air bags, when the adjacent dustproof filter screens intersect, the two adjacent elastic air bags mutually support and press, so that gas in the elastic air bags is sprayed out from dust removing air holes, sprayed gas in the dust removing air holes is sprayed to the adjacent dustproof filter screens, the dustproof filter screens are cleaned, dust attached to the dustproof filter screens is blown off and falls into a dust removing box, when the filter screen conducting blocks are contacted with the wedge-shaped conducting blocks, the dustproof filter screens carry current, static electricity on the dustproof filter screens is eliminated, dust is prevented from being adsorbed on the dustproof filter screens because of static electricity, the dust filter screens can be automatically cleaned, the influence of static electricity on the attachment of particles is reduced, the high-efficiency filtering capability of the dustproof filter screens is maintained, the service life of the dustproof filter screens is prolonged, the filtering effect and the effectiveness are ensured, and the quality of cold air is improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of another view according to an embodiment of the present invention;

FIG. 4 is a schematic view of a filter according to an embodiment of the present invention;

FIG. 5 is an enlarged partial schematic view of FIG. 2A;

FIG. 6 is an enlarged partial schematic view at B in FIG. 2;

in the figure: 10. a receiving assembly; 20. naked eye 3D display components; 30. a filter assembly; 40. a trigger assembly; 11. a housing frame; 12. wedge-shaped flow guiding blocks; 13. a storage box; 111. a receiving through groove; 21. mounting a supporting plate; 22. installing an adjusting shaft; 23. installing a connecting plate; 24. naked eye 3D displays; 25. a limit support plate; 251. a support slope; 231. a gas flow channel; 131. a pull handle; 121. a ventilation bar-shaped groove; 122. a diversion inclined plane; 112. a longitudinal sliding groove; 31. a longitudinal connecting spring; 32. moving the slide block; 33. moving the baffle; 34. a filter screen member; 341. a filter screen turning shaft; 342. a dust-proof filter screen; 343. an elastic air bag; 344. a filter screen conductive block; 345. wedge-shaped conductive blocks; 346. a contact slope; 347. dust removal air holes; 331. a guide baffle; 41. triggering the fixed block; 42. a heat conducting rod; 43. bending the alloy; 44. a telescopic supporting block; 411. a heat conduction vertical groove; 113. a heat conduction communication groove; 412. a telescopic chute; 413. a supporting convex strip; 114. a ventilation gap; 115. a ventilation square hole; 116. a concave groove; 117. a dust removing box.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The invention provides naked eye 3D imaging equipment based on MOST optical fiber network, as shown in fig. 1-6, the naked eye 3D imaging equipment comprises a storage assembly 10, a naked eye 3D display assembly 20, a filtering assembly 30 and a triggering assembly 40, wherein the storage assembly 10 comprises a storage frame 11, a wedge-shaped guide block 12 and a storage box 13, the storage frame 11 is provided with a storage through groove 111 penetrating through two opposite side walls, the wedge-shaped guide block 12 is slidably mounted at the bottom of the storage through groove 111, the storage box 13 is fixedly mounted at the top of the wedge-shaped guide block 12, the naked eye 3D display assembly 20 is fixedly mounted at the top of the storage frame 11, the filtering assembly 30 is slidably mounted in the storage through groove 111, and the triggering assembly 40 is fixedly mounted at the top of one side of the storage through groove 111 away from the storage box 13 and is positioned at one side of the filtering assembly 30.

The naked eye 3D display assembly 20 comprises a mounting support plate 21, a mounting adjusting shaft 22, a mounting connecting plate 23, a naked eye 3D display 24 and two limiting support plates 25, wherein the mounting support plate 21 is fixedly mounted at the top of the storage frame 11, the mounting support plate 21 is obliquely mounted relative to the top surface of the storage frame 11, the mounting adjusting shaft 22 is rotatably mounted at the top of the mounting support plate 21, the mounting connecting plate 23 is fixedly mounted on the side wall of the mounting adjusting shaft 22, the naked eye 3D display 24 is fixedly mounted on the side wall, far away from the mounting adjusting shaft 22, of the mounting connecting plate 23, and the two limiting support plates 25 are fixedly mounted at the top of the storage frame 11 and are respectively positioned at two ends of the mounting connecting plate 23 near one side of the storage frame 11.

The side wall of the spacing backup pad 25, which is close to the installation backup pad 21, is formed with a supporting inclined plane 251, and the distance between the supporting inclined plane 251 and the storage frame 11 gradually decreases along the direction away from the naked eye 3D display 24, two ends of the installation backup pad 21 respectively support the two spacing backup pads 25 mutually, the bottom of the installation connecting plate 23 supports the top of the two spacing backup pads 25, and a plurality of air flow through grooves 231 are formed in one side wall of the installation connecting plate 23, which is close to the naked eye 3D display 24.

The outer side wall of the storage box 13 far away from the trigger assembly 40 is fixedly provided with a pull handle 131, one end of the wedge-shaped guide block 12 close to the pull handle 131 is provided with a ventilation strip-shaped groove 121 penetrating through the other end, one end of the wedge-shaped guide block 12 far away from the pull handle 131 is provided with a guide inclined surface 122, and the distance between the guide inclined surface 122 and the bottom wall of the accommodating through groove 111 is gradually increased towards the direction of the wedge-shaped guide block 12 close to one end of the pull handle 131.

The two longitudinal sliding grooves 112 are formed in the accommodating frame 11, the two longitudinal sliding grooves 112 are respectively communicated with two sides of the accommodating through groove 111, the filter assembly 30 comprises two longitudinal connecting springs 31, two movable sliding blocks 32, a movable baffle 33 and a plurality of filter screen pieces 34, the two longitudinal connecting springs 31 are respectively and fixedly arranged at the tops of the two longitudinal sliding grooves 112, the two movable sliding blocks 32 are respectively and fixedly arranged at the bottoms of the two longitudinal connecting springs 31, the two movable sliding blocks 32 are respectively and slidingly arranged in the two longitudinal sliding grooves 112, the movable baffle 33 is fixedly arranged on the side walls of the two movable sliding blocks 32 facing each other, one side wall of the movable baffle 33 is attached to one side wall of the accommodating box 13, and the plurality of filter screen pieces 34 are respectively arranged on the side wall of the movable baffle 33 far away from the accommodating box 13.

The filter screen 34 includes a filter screen turning shaft 341, a dustproof filter screen 342, two elastic air bags 343, a filter screen conductive block 344 and a wedge-shaped conductive block 345, the filter screen turning shaft 341 is rotatably mounted on the side wall of the movable baffle 33, which is far away from the storage box 13, of the movable baffle 33 through a torsion spring, the dustproof filter screen 342 is fixedly mounted on the side wall of the filter screen turning shaft 341, the two elastic air bags 343 are respectively fixedly mounted on two side walls of the dustproof filter screen 342, the filter screen conductive block 344 is fixedly mounted on the top of the dustproof filter screen 342, which is close to one end of the filter screen 341, the wedge-shaped conductive block 345 is fixedly mounted on the side wall of the movable baffle 33, which faces the dustproof filter screen 342, and a contact inclined surface 346 is formed at one end of the wedge-shaped conductive block 345, which is far away from the movable baffle 33.

The side wall of the elastic air bag 343, which is far away from the dust-proof filter screen 342, is provided with dust-removing air holes 347, the top of the accommodating through groove 111 is fixedly provided with two guide baffles 331, the two side walls of the movable baffle 33 are provided with guide clamping grooves, and the movable baffle 33 is respectively arranged between the two guide baffles 331 in a sliding way through the two guide clamping grooves.

The triggering component 40 comprises a triggering fixing block 41, a heat conduction rod 42, a bending alloy 43 and a telescopic supporting block 44, wherein the triggering fixing block 41 is fixedly installed at one end of a containing through groove 111 far away from a pulling handle 131, a heat conduction vertical groove 411 is formed in the top of the triggering fixing block 41, a heat conduction communication groove 113 is formed in the top of the containing frame 11, the bottom of the heat conduction communication groove 113 is mutually communicated with the top of the heat conduction vertical groove 411, the heat conduction rod 42 is fixedly installed in the heat conduction vertical groove 411 and the heat conduction communication groove 113, the top wall of the heat conduction rod 42 is located at the outer side of the heat conduction communication groove 113, a telescopic chute 412 is formed in the bottom of the triggering fixing block 41, the top of the telescopic chute 412 is communicated with the bottom of the heat conduction vertical groove 411, the bending alloy 43 is made of a memory alloy, the bending alloy 43 is fixedly installed at the bottom of the heat conduction rod 42, the bending alloy 43 is located in the telescopic chute 412, the telescopic supporting block 44 is fixedly installed at the bottom of the bending alloy 43, the telescopic supporting block 44 is slidably arranged in the telescopic chute 412, the bottom of the telescopic supporting block 44 extends to the outer side of the telescopic chute 412, and the bottom of the telescopic supporting block 44 is supported by the bottom of the telescopic supporting block 44 on the inclined surface 122.

The triggering fixed block 41 is provided with a plurality of supporting convex strip groups corresponding to the dustproof filter screen 342 in a protruding mode towards one side wall of the movable baffle 33, each supporting convex strip group comprises a plurality of supporting convex strips 413 which are longitudinally arranged, and the supporting convex strips 413 are used for supporting the dustproof filter screen 342 when the movable baffle 33 moves, so that the dustproof filter screen 342 turns over.

A ventilation gap 114 is formed between the movable baffle 33 and the triggering fixed block 41, a plurality of dust-proof filter screens 342 are positioned in the ventilation gap 114, a plurality of ventilation square holes 115 are formed in the top of the storage frame 11, the bottoms of the ventilation square holes 115 are communicated with the top of the ventilation gap 114, a concave groove 116 is formed in the bottom wall of the storage through groove 111, a dust-proof box 117 is arranged in the concave groove 116 in a sliding manner, and the dust-proof box 117 is positioned on one side, far away from the ventilation square holes 115, of the ventilation gap 114.

In an embodiment, an operator uses an optical fiber connector to interface the naked eye 3D display assembly 20 with an available MOST optical fiber network, so that the naked eye 3D display assembly 20 can provide a realistic 3D image effect without any glasses or head-mounted equipment, the naked eye 3D display assembly 20 uses special optical lenses and screen technologies to create a stereoscopic effect, the MOST optical fiber network can provide high bandwidth and reliable data transmission for the naked eye 3D display assembly 20, high speed data transmission can be realized in the MOST optical fiber network, and the requirements of the naked eye 3D display assembly 20 for real-time image and video data can be met, by connecting the naked eye 3D display assembly with the MOST optical fiber network, a user can enjoy a more realistic and immersive 3D experience, and high quality of images and videos can be maintained while high speed data transmission is performed.

In an embodiment, the naked eye 3D display 24 is easy to generate more heat under the condition of long-term use, so that the naked eye 3D display 24 and the surrounding air can generate certain heat, the naked eye 3D display 24 is at a higher temperature, if the naked eye 3D display 24 is easy to damage the naked eye 3D display 24 under the condition of long-term high temperature, the service life of the naked eye 3D display 24 is reduced, an operator can install the imaging device in the air conditioner at the air outlet of the air conditioner, the air outlet of the air conditioner is aligned with the air guiding inclined plane 122 of the wedge-shaped air guiding block 12, in general, the case can be arranged in an automobile, the corresponding air outlet of the air conditioner is aligned with the air guiding inclined plane 122 of the wedge-shaped air guiding block 12, so that the air of the air outlet of the air conditioner in the automobile directly flows towards the air guiding inclined plane 122, the heat generated by the naked eye 3D display 24 increases the temperature of the naked eye 3D display 24 towards the side of the mounting support plate 21, the heat conduction performance of the heat conduction rod 42 and the bending alloy 43 is strong, the heat conduction performance of the triggering fixing block 41 and the telescopic supporting block 44 is poor, the triggering fixing block 41 and the telescopic supporting block 44 can isolate temperature transmission, due to the sealed space formed by the naked eye 3D display 24, the mounting support plate 21, the mounting adjustment shaft 22, the mounting connection plate 23 and the two limiting support plates 25, the temperature of the naked eye 3D display 24 towards the lower part of the side of the mounting support plate 21 is fast, the temperature of the heat conduction rod 42 is rapidly increased when the temperature is increased, the temperature of the bending alloy 43 is increased when the temperature of the heat conduction rod 42 is increased, the bending alloy 43 is made to be memory alloy, the telescopic supporting block 44 can be supported to move away from the bending alloy 43 when the temperature of the bending alloy 43 is increased, the telescopic supporting block 44 can support the guide inclined plane 122 of the wedge-shaped guide block 12 when moving, so that the wedge-shaped guide block 12 moves in a direction away from the trigger fixed block 41, when the wedge-shaped guide block 12 moves, the top of the wedge-shaped guide block 12 can be away from the bottom of the trigger fixed block 41, when the wedge-shaped guide block 12 does not move, the top of the wedge-shaped guide block 12 and the bottom part of the trigger fixed block 41 are attached together, namely, cold air of an automobile cannot flow into the ventilation gap 114, when the top of the wedge-shaped guide block 12 is away from the bottom of the trigger fixed block 41, part of cold air can enter the ventilation gap 114 through the guide of the guide inclined plane 122, the cold air flows out of a plurality of ventilation square holes 115 onto the support inclined plane 251 through the guide of the support inclined plane 251, thereby realize the cooling of bore hole 3D display 24, the air conditioning of flowing to bore hole 3D display 24 can make bore hole 3D display 24, installation backup pad 21, installation regulating spindle 22, the sealed space temperature that installation connecting plate 23 and two spacing backup pads 25 formed will it, and the one side that bore hole 3D display 24 kept away from accomodating framework 11 can be flowed to bore hole 3D display 24 through a plurality of air current through-slot 231, thereby realize bore hole 3D display 24 at utmost cooling, through carrying out cooling, can reduce the inside temperature of display effectively, promote its performance and keep its steady operation, reduce the risk of component ageing, thereby prolong the life of display, reduce the discomfort that the display generates heat and arouse, ensure image quality and the stability during the use.

In another embodiment, when the naked eye 3D display 24 does not generate higher temperature, the air outlet of the air conditioner of the automobile is aligned to the wedge-shaped guide block 12, the air conditioner of the automobile flows towards the wedge-shaped guide block 12, at this time, the top of the wedge-shaped guide block 12 is attached to the bottom of the trigger fixing block 41, the air conditioner of the automobile cannot flow into the ventilation gap 114, the air conditioner can flow towards the other end of the wedge-shaped guide block 12 through the plurality of ventilation strip grooves 121, and flows out from the other direction of the wedge-shaped guide block 12, so that the temperature in the automobile can be assisted to be reduced, and the comfort of a user can be improved.

In another embodiment, an operator can store the storage objects in the storage box 13, and pull the pull handle 131 outwards, so that the storage box 13 moves away from the trigger fixed block 41 to realize the storage function of the storage box 13, when the storage box 13 moves away from the trigger fixed block 41, the wedge-shaped flow guide block 12 can be driven to move away from the trigger fixed block 41, so that the wedge-shaped flow guide block 12 is far away from the trigger fixed block 41, cold air can enter the ventilation gap 114, when the wedge-shaped flow guide block 12 passes over the bottom of the movable baffle 33 in the process of keeping away from the trigger fixed block 41, the elasticity of the longitudinal connecting spring 31 can enable the movable slide block 32 to move downwards, the movable slide block 32 can drive the movable baffle 33 to move downwards, the bottom wall of the movable baffle 33 is formed with a sliding inclined surface corresponding to the flow guide inclined surface 122, the sliding inclined plane and the diversion inclined plane 122 are mutually attached in the moving process of the movable baffle 33 until the wedge-shaped diversion block 12 passes over the movable baffle 33, the sliding inclined plane and the diversion inclined plane 122 are mutually far away when the wedge-shaped diversion block 12 continues to move, when the wedge-shaped diversion block 12 moves in the direction far away from the trigger fixed block 41, part of cold air flows upwards through the ventilation gap 114, the other part of cold air flows out to the other end of the wedge-shaped diversion block 12 through the plurality of ventilation strip-shaped grooves 121, but along with the downward movement of the movable baffle 33, the plurality of ventilation strip-shaped grooves 121 can be gradually closed, so that the cold air can only flow upwards through the ventilation gap 114, the filter screen piece 34 is further arranged in the ventilation gap 114, the cold air can be filtered, dust in the cold air is prevented from flowing upwards into the sealed space, the dust in the cold air is prevented from affecting the naked eye 3D display 24, the possibility of dust entering the interior of the naked eye 3D display 24 is prevented, reducing the accumulation of dust on surfaces and other important parts, thereby reducing the risk of failure and damage, and extending the lifetime of the display.

In another embodiment, the elastic air bags 343 of two adjacent dust-proof filter screens 342 are pressed against each other, the adjacent two groups of pressing raised line groups are different in installation height, that is, each group of pressing raised line group is installed up and down in turn according to the installation direction of a plurality of dust-proof filter screens 342, when the movable baffle 33 moves down, a plurality of dust-proof filter screens 342 can be driven to move down, each dust-proof filter screen 342 can press against the corresponding pressing raised line group when moving down, the pressing raised line 413 can turn over the dust-proof filter screen 342, the dust-proof filter screen 342 is restored under the action of the torsion spring after passing over the pressing raised line 413, and a certain vibration is generated, the dust accumulated on the dust-proof filter screen 342 falls into the dust-proof box 117, an operator can take out the dust-proof box 117 for cleaning, because each group of pressing raised line group is installed up and down in turn, therefore, the two adjacent dustproof filter screens 342 are different in overturning and resetting actions, when the two adjacent dustproof filter screens 342 are different in overturning, the elastic air bags 343 are restored, when the two adjacent dustproof filter screens 342 are intersected, the two adjacent elastic air bags 343 are mutually propped and pressed, so that gas in the elastic air bags 343 is sprayed out of the dust removing air holes 347, the gas sprayed out of the dust removing air holes 347 is blown to the adjacent dustproof filter screens 342 to clean the dustproof filter screens 342, dust attached to the dustproof filter screens 342 is blown off and falls into the dust removing box 117, when the dustproof filter screens 342 are overturned, the filter screen conductive blocks 344 can be driven to overturn, the top of the filter screen conductive blocks 344 are contacted on the contact inclined surfaces 346 when the filter screen conductive blocks 344 are overturned upwards to the maximum angle, when the filter screen conductive blocks 344 are contacted with the wedge-shaped conductive blocks 345, the dust removing filter screens 342 carry current, static electricity on the dust removing filter screens 342 is eliminated, prevent that the dust from adsorbing on dustproof filter screen 342 because static, can self-cleaning dustproof filter screen 342, reduce the static to the attached influence of particulate matter, maintain the high-efficient filtration ability of dustproof filter screen 342, extension dustproof filter screen 342's life ensures filter effect and validity, promotes air conditioning quality.

During installation, the installation backup pad 21 fixed mounting is at the top of accomodating frame 11, installation regulating spindle 22 rotates the top of installing backup pad 21, installation connecting plate 23 fixed mounting is on the lateral wall of installation regulating spindle 22, bore hole 3D display 24 fixed mounting is on the lateral wall of installation connecting plate 23 keeping away from installation regulating spindle 22, two equal fixed mounting of spacing backup pad 25 are at the top of accomodating frame 11, two longitudinal connection springs 31 fixed mounting are respectively at the top of two longitudinal sliding grooves 112, two movable sliders 32 fixed mounting are respectively at the bottom of two longitudinal connection springs 31, movable baffle 33 fixed mounting is on the lateral wall that two movable sliders 32 face each other, filter screen tilting shaft 341 is through torsional spring rotation mounting at movable baffle 33 and is kept away from receiver 13, dustproof filter screen 342 fixed mounting is kept away from on the lateral wall of movable baffle 33, two elastic air bags 343 are respectively fixed mounting on the both sides wall of dustproof filter screen 342, filter screen 344 fixed mounting is close to the top of filter screen 342, wedge-shaped conductive block 345 fixed mounting movable baffle 33 is towards dustproof filter screen 342, trigger fixed mounting fixed block is fixed mounting is kept away from the bent piece 111 at the bottom of holding alloy 43, it is fixed alloy 43 is kept away from the heat-conducting groove 43 in a fixed connection with the vertical bending device, and is fixed alloy 43 is fixed at the bottom of holding alloy 43, and is connected to install in a thermal-storage alloy 43.

The beneficial effects are that: 1. when the top of wedge water conservancy diversion piece 12 is kept away from the bottom of triggering fixed block 41, part of cold air can be through the guide of water conservancy diversion inclined plane 122 entering ventilation gap 114, cold air flows to support inclined plane 251 through ventilation gap 114 from a plurality of ventilation square hole 115, cold air flows to bore hole 3D display 24 through the guide of support inclined plane 251, thereby realize bore hole 3D display 24's cooling, the cold air that flows to bore hole 3D display 24 can make bore hole 3D display 24, installation backup pad 21, install regulating spindle 22, install connecting plate 23 and two spacing backup pad 25 and form sealed space temperature with it, and part of cold air can flow to bore hole 3D display 24 through a plurality of air current through groove 231 and keep away from the one side of accomodating framework 11, thereby realize bore hole 3D display 24's cooling to the utmost extent, through cooling, can effectively reduce the inside temperature of display, promote its performance and keep its steady operation, thereby reduce the risk of element ageing, and the life of display reduces the discomfort that the display generates heat, ensure image quality and stability during the use.

2. The cool air flows to the other end of the wedge-shaped guide block 12 through the plurality of ventilation strip-shaped grooves 121, flows out from the other direction of the wedge-shaped guide block 12, can assist the temperature in the automobile to be reduced, and can improve the comfort level of the user.

3. When the wedge-shaped guide block 12 moves in a direction away from the trigger fixed block 41, part of cold air flows upwards through the ventilation gap 114, and the other part of cold air flows out to the other end of the wedge-shaped guide block 12 through the plurality of ventilation strip-shaped grooves 121, but along with the downward movement of the movable baffle 33, the plurality of ventilation strip-shaped grooves 121 can be gradually closed, so that the cold air can only flow upwards through the ventilation gap 114, the filter screen piece 34 is further arranged in the ventilation gap 114, the cold air can be filtered, dust in the cold air is prevented from flowing upwards into a sealed space, the influence of the dust in the cold air on the naked eye 3D display 24 is prevented, the possibility that the dust enters the inside of the naked eye 3D display 24 is prevented, the accumulation of the dust on the surface and other important parts is reduced, the risks of faults and damages are reduced, and the service life of the display is prolonged.

4. When two adjacent dustproof filter screens 342 overturn different time elastic air bags 343 resume, when adjacent dustproof filter screens 342 intersect two adjacent elastic air bags 343 support each other and push each other, make the gas in the elastic air bags 343 spout from dust removal air holes 347, blow the gas of blowout in the dust removal air holes 347 to adjacent dustproof filter screens 342, clear up dustproof filter screens 342, blow away the dust that will attach on dustproof filter screens 342 and drop in dust removal box 117, when filter screen conducting block 344 and wedge conducting block 345 contact, make dustproof filter screens 342 carry the electric current, eliminate the static on the dustproof filter screens 342, prevent that the dust from adsorbing on dustproof filter screens 342 because static, can self-cleaning dustproof filter screens 342, reduce the influence that static attached to the particulate matter, maintain the high-efficient filtration ability of dustproof filter screens 342, prolong the life of dustproof filter screens 342, ensure filter effect and effectiveness, promote the air conditioning quality.

All possible combinations of the technical features in the above embodiments are described, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above embodiments represent only a few embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the present invention. It should be noted that numerous variations and modifications could be made to the person skilled in the art without departing from the spirit of the invention, which would fall within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. Naked eye 3D imaging device based on MOST fiber network, a serial communication port, including accomodating the subassembly, naked eye 3D display element, filter component and trigger assembly, accomodate the subassembly and including accomodating the framework, wedge water conservancy diversion piece and receiver, accomodate the framework and offer the acceping logical groove that runs through relative two lateral walls, wedge water conservancy diversion piece slidable mounting is in the bottom of acceping logical groove, receiver fixed mounting is in the top of wedge water conservancy diversion piece, naked eye 3D display element fixed mounting is in the top of accomodating the framework, filter component slidable mounting is in acceping logical inslot, trigger assembly fixed mounting is in acceping logical groove and keep away from the top of receiver one side, and be located one side of filter component.

2. The MOST fiber network-based naked eye 3D imaging device according to claim 1, wherein the naked eye 3D display assembly comprises a mounting support plate, a mounting adjustment shaft, a mounting connection plate, a naked eye 3D display and two limiting support plates, wherein the mounting support plate is fixedly mounted at the top of the storage frame body, and the mounting support plate is obliquely mounted relative to the top surface of the storage frame body, the mounting adjustment shaft is rotatably mounted at the top of the mounting support plate, the mounting connection plate is fixedly mounted on the side wall of the mounting adjustment shaft, the naked eye 3D display is fixedly mounted on the side wall of the mounting connection plate far away from the mounting adjustment shaft, and the two limiting support plates are fixedly mounted at the top of the storage frame body and are respectively positioned at two ends of the mounting connection plate near one side of the storage frame body.

3. The naked eye 3D imaging device based on MOST optical fiber network according to claim 2, wherein a supporting inclined plane is formed on the side wall of the limiting supporting plate, which is close to the mounting supporting plate, and the distance between the supporting inclined plane and the accommodating frame body is gradually reduced along the direction away from the naked eye 3D display, two ends of the mounting supporting plate are respectively propped against the two limiting supporting plates, the bottom of the mounting connecting plate is propped against the top of the two limiting supporting plates, and a plurality of airflow through grooves are formed on one side wall of the mounting connecting plate, which is close to the naked eye 3D display.

4. The naked eye 3D imaging device based on MOST optical fiber network according to claim 3, wherein the storage box is far away from the outer side wall of the triggering component, a drawing handle is fixedly installed on the outer side wall of the storage box, one end, close to the drawing handle, of the wedge-shaped flow guide block is provided with a ventilation strip-shaped groove penetrating through the other end, one end, far away from the drawing handle, of the wedge-shaped flow guide block is provided with a flow guide inclined plane, and the distance between the flow guide inclined plane and the bottom wall of the containing through groove is gradually increased towards the direction, close to one end of the drawing handle, of the wedge-shaped flow guide block.

5. The device of claim 4, wherein two longitudinal sliding grooves are formed in the accommodating frame, the two longitudinal sliding grooves are respectively communicated with two sides of the accommodating through groove, the filtering component comprises two longitudinal connecting springs, two movable sliding blocks, a movable baffle and a plurality of filtering net pieces, the two longitudinal connecting springs are respectively and fixedly arranged at the tops of the two longitudinal sliding grooves, the two movable sliding blocks are respectively and fixedly arranged at the bottoms of the two longitudinal connecting springs, the two movable sliding blocks are respectively and slidably arranged in the two longitudinal sliding grooves, the movable baffle is fixedly arranged on the side walls of the two movable sliding blocks facing each other, one side wall of the movable baffle is attached to one side wall of the accommodating box, and the plurality of filtering net pieces are respectively arranged on the side wall of the movable baffle far away from the accommodating box.

6. The device of claim 5, wherein the filter screen comprises a filter screen turning shaft, a dust-proof filter screen, two elastic air bags, a filter screen conductive block and a wedge-shaped conductive block, the filter screen turning shaft is rotatably mounted on the movable baffle plate through a torsion spring and far away from the storage box, the dust-proof filter screen is fixedly mounted on the side wall of the filter screen turning shaft far away from the movable baffle plate, the two elastic air bags are respectively fixedly mounted on two side walls of the dust-proof filter screen, the filter screen conductive block is fixedly mounted on the top of one end of the dust-proof filter screen, which is close to the filter screen turning shaft, the wedge-shaped conductive block is fixedly mounted on the side wall of the dust-proof filter screen, and one end of the wedge-shaped conductive block far away from the movable baffle plate is formed with a contact inclined surface.

7. The naked eye 3D imaging device based on MOST optical fiber network according to claim 6, wherein the side wall of the elastic air bag far away from the dustproof filter screen is provided with dust removing air holes, the top of the accommodating through groove is fixedly provided with two guide baffles, the two side walls of the movable baffle are provided with guide clamping grooves, and the movable baffle is respectively arranged between the two guide baffles in a sliding manner through the two guide clamping grooves.

8. The MOST fiber network-based naked eye 3D imaging device of claim 7, wherein the triggering component comprises a triggering fixed block, a heat conduction rod, a bending alloy and a telescopic supporting block, the triggering fixed block is fixedly installed at one end of the containing through groove far away from the pulling handle, the heat conduction vertical groove is formed at the top of the triggering fixed block, the heat conduction communication groove is formed at the top of the containing frame body, the bottom of the heat conduction communication groove is mutually communicated with the top of the heat conduction vertical groove, the heat conduction rod is fixedly installed in the heat conduction vertical groove and the heat conduction communication groove, the top wall of the heat conduction rod is located at the outer side of the heat conduction communication groove, the bottom of the triggering fixed block is provided with a telescopic chute, the top of the telescopic chute is communicated with the bottom of the heat conduction vertical groove, the bending alloy is a memory alloy, the bending alloy is fixedly installed at the bottom of the heat conduction rod, the bending alloy is located in the telescopic chute, the telescopic supporting block is fixedly installed at the bottom of the bending alloy, the telescopic supporting block is slidingly arranged in the telescopic chute, the bottom of the telescopic supporting block extends to the telescopic chute, and the bottom of the telescopic supporting block is supported at the bottom of the telescopic chute is supported on the inclined surface of the guide.

9. The naked eye 3D imaging device based on MOST optical fiber network according to claim 8, wherein a plurality of supporting convex strip groups corresponding to the dustproof filter screen are convexly arranged on one side wall of the triggering fixing block facing the movable baffle, and each supporting convex strip group comprises a plurality of supporting convex strips longitudinally arranged, and each supporting convex strip is used for supporting the dustproof filter screen when the movable baffle moves, so that the dustproof filter screen is turned over.

10. The device of claim 9, wherein a ventilation gap is formed between the movable baffle and the triggering fixing block, a plurality of dust-proof filter screens are positioned in the ventilation gap, a plurality of ventilation square holes are formed in the top of the containing frame, the bottoms of the ventilation square holes are communicated with the top of the ventilation gap, a concave groove is formed in the bottom wall of the containing through groove, a dust-removing box is slidably arranged in the concave groove, and the dust-removing box is positioned on one side, away from the ventilation square holes, of the ventilation gap.