CN112278599A - Conveyer for liquid crystal display - Google Patents

Abstract

The invention discloses a conveying device for a liquid crystal display screen, which comprises a box body, wherein a placing cavity with the upper side communicated with the outside through a cover plate rotating cavity is arranged in the box body, a cover plate assembly is arranged in the cover plate rotating cavity, a gravity lifting cavity is communicated with the lower side of the placing cavity, a fixing assembly is arranged in the gravity lifting cavity, a balance cavity with the left side and the right side communicated with the gravity lifting cavity is arranged on the lower side of the gravity lifting cavity, vibration cavities communicated through ventilation openings and with ventilation openings on the upper side are symmetrically arranged on the front side and the rear side of the placing cavity, a display screen is fixed by matching of a damping block when the liquid crystal display screen is conveyed, the balance block moves to keep the balance of the display screen when the box body is inclined in the conveying process, and the vibration block vibrates up.

Description

Conveyer for liquid crystal display

Technical Field

The invention relates to the technical field of display screens, in particular to a conveying device for a liquid crystal display screen.

Background

The liquid crystal display screen uses liquid crystal solution in two pieces of polarization materials, so that the crystal can be rearranged to achieve the purpose of imaging when current passes through the liquid. But liquid crystal display's transportation has very high requirement, and current liquid crystal display generally all carries out the shock attenuation through simple foam in the transportation, and the rethread carton transports after packing, and the transportation jolts and causes the damage to liquid crystal display easily, and can not be fine carry out the shock attenuation to the display screen, and a large amount of plastic foam can cause the pollution to the environment.

Disclosure of Invention

Aiming at the technical defects, the invention provides a conveying device for a liquid crystal display screen, which can overcome the defects.

The invention relates to a transportation device for a liquid crystal display screen, which comprises a box body, wherein a placing cavity with the upper side communicated with the outside through a cover plate rotating cavity is arranged in the box body, a cover plate assembly is arranged in the cover plate rotating cavity, a gravity lifting cavity is communicated with the lower side of the placing cavity, a fixing assembly is arranged in the gravity lifting cavity, a balance cavity with the left side and the right side communicated with the gravity lifting cavity is arranged at the lower side of the gravity lifting cavity, a balance assembly is arranged in the balance cavity, vibration cavities communicated through a ventilation opening and with the ventilation opening at the upper side are symmetrically arranged at the front side and the rear side of the placing cavity, a vibration assembly is arranged in the vibration cavities, the fixing assembly comprises a bottom damping block which is arranged in the gravity lifting cavity in a vertical sliding mode and is connected with the lower end wall of the gravity lifting cavity, gravity lift chamber lower extreme wall fixed mounting have can with T type sliding tray cooperation and upside contain the bottom fixed block of anodal magnet, the bilateral symmetry slides in the T type sliding tray and is equipped with and is close to bottom fixed block side fixed mounting has the bottom telescopic link of negative magnet, the bottom telescopic link is kept away from bottom snubber block side fixed mounting have with the bottom snubber block passes through the side damping spring and connects and be close to the bottom snubber block side contains the side snubber block of sponge, the side snubber block upside is equipped with the shock attenuation flexible groove, slide in the shock attenuation flexible groove be equipped with the shock attenuation flexible groove passes through the shock attenuation flexible spring coupling's shock attenuation telescopic link, shock attenuation telescopic link upside fixed mounting has and is close to the bottom snubber block side contains the angle snubber block of sponge, angle snubber block upside fixed mounting has anodal magnet.

Preferably, the apron subassembly include with the apron rotates the chamber rear end wall and rotates the installation and pass through torsional spring connection's apron axis of rotation, fixed mounting has downside bilateral symmetry fixed mounting in the apron axis of rotation with the apron of the anodal magnet that the angle snubber block corresponds, be equipped with right side and downside and the communicating L type sliding tray in the external world in the apron, the horizontal slip in the L type sliding tray be equipped with the top slide bar that anodal magnet was installed through top spring coupling and downside to L type sliding tray left end wall, the top elevator that the upside fixed mounting had anodal magnet is equipped with in the L type sliding tray from top to bottom to the slip, top elevator downside fixed mounting have with the apron contains the top snubber block of sponge through top damping spring coupling and downside.

Preferably, the apron subassembly is still including being located the apron rotates the first spacing groove on chamber right side, first spacing inslot slip be equipped with first spacing groove is through first spacing spring coupling's first stopper, place the outer lift groove that the chamber outside was equipped with the intercommunication, gravity lift chamber left and right sides intercommunication be equipped with the voussoir sliding tray of outer lift groove intercommunication, slide in the voussoir sliding tray be equipped with the voussoir sliding tray passes through voussoir spring coupling's voussoir, outer lift inslot slides from top to bottom and is equipped with outer elevator, outer lift groove left side upper end with the apron rotates the chamber intercommunication, outer lift groove left side upper end fixed mounting have with outer lift groove passes through the second stopper of the spacing spring coupling of second, the apron downside be equipped with second stopper complex second spacing groove.

Preferably, the balance assembly includes bilateral symmetry slidable mounting in the balance cavity and with the balancing piece that the outer end wall of balance cavity passes through balanced spring connection, the gravity lift cavity bilateral symmetry slide in the balance cavity be equipped with the balanced lifting block of balancing piece outer end wall sliding fit, the gravity lift intracavity be equipped with balanced lifting block upside fixed mounting and with the balance plate that the end wall passes through balanced reset spring connection under the gravity lift cavity, the roll of balance intracavity is equipped with and is located balance ball between the balancing piece.

Preferably, the vibrations subassembly include with the vibrations chamber is kept away from place the chamber side end wall and rotate and install the heat dissipation axis of rotation, fixed mounting has the heat dissipation flabellum in the heat dissipation axis of rotation, vibrations chamber rear end wall rotate install with the lever axis of rotation that the vibrations chamber passes through torsional spring connection, both sides are equipped with the lever of first spout, second spout respectively about the fixedly connected with in the lever axis of rotation, vibrations chamber rear end wall slide be equipped with contain with first spout is through first slider sliding connection's quarter butt, vibrations chamber rear end wall slide be equipped with be located the quarter butt downside and contain with the second spout is through second slider sliding connection's stock, place intracavity fixed mounting with stock fixed connection's sponge board.

Preferably, the vibrations subassembly include with the disc axis of rotation of vibrations chamber rear end wall rotation installation, fixed mounting has the rotating disc in the disc axis of rotation, the equidistance is equipped with six rotation flexible grooves on the rotating disc, it has the rotation flexible piece through rotating flexible spring coupling with to rotate flexible groove to slide in the flexible groove to rotate, the vibrations chamber is close to place the chamber side end wall and be equipped with vibrations groove, slide in the vibrations groove and be equipped with the vibrations rack that passes through vibrations spring coupling with the vibrations groove, fixed mounting has the ratchet on the disc axis of rotation, vibrations chamber front side end wall rotates and installs the hollow shaft, fixed mounting has on the hollow shaft with ratchet complex foreign steamer, the foreign steamer outside can with the meshing of vibrations rack, the foreign steamer inboard articulated have two with the foreign steamer pass through pawl spring coupling of pawl, the vibrations chamber is kept away from place chamber side end wall and rotate and install the transmission shaft, the heat dissipation axis of rotation the transmission shaft is through a set of belt pulley connection, the disc axis of rotation the transmission shaft is through a set of bevel gear pair transmission.

The beneficial effects are that: the device simple structure, high durability and convenient operation, the device is when fortune liquid crystal display, place the display screen on the bottom snubber block, cover the apron back, both sides snubber block inwards slides and presss from both sides tight display screen edge, upside snubber block lapse and the fixed display screen of bottom snubber block cooperation simultaneously, the balancing piece removes when the box takes place the slope in the transportation and keeps the display screen balanced, both sides snubber block inwards slides around the vibrations drive about the snubber block when the vehicle jolts, protect the display screen, the heat dissipation flabellum rotates the heat dissipation simultaneously, prevent to damage the display screen because the high temperature is wrapped up completely and lead to the high temperature in the box and the display screen, plastic foam need not be used, the environmental protection.

Drawings

In order to more clearly illustrate the embodiments of the 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, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

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

FIG. 2 is a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at D in FIG. 1 according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure E-E in FIG. 3 according to the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a transportation device for a liquid crystal display screen, which comprises a box body 10, wherein a placing cavity 40 with the upper side communicated with the outside through a cover plate rotating cavity 29 is arranged in the box body 10, a cover plate assembly is arranged in the cover plate rotating cavity 29, a gravity lifting cavity 15 is communicated and arranged at the lower side of the placing cavity 40, a fixing assembly is arranged in the gravity lifting cavity 15, a balance cavity 17 with the left side and the right side communicated with the gravity lifting cavity 15 is arranged at the lower side of the gravity lifting cavity 15, a balance assembly is arranged in the balance cavity 17, vibration cavities 47 which are communicated through vent holes and have vent holes at the upper side are symmetrically arranged at the front side and the rear side of the placing cavity 40, a vibration assembly is arranged in the vibration cavity 47, the fixing assembly comprises a bottom damping block 12 which is arranged in the gravity lifting cavity 15 in an up-down sliding manner and has sponge, be equipped with T type sliding tray 14 in the bottom snubber block 12, end wall fixed mounting under the gravity lift chamber 15 can with the cooperation of T type sliding tray 14 and upside contain the bottom fixed block 42 of anodal magnet, bilateral symmetry slides in the T type sliding tray 14 and is equipped with the bottom telescopic link 16 that is close to bottom fixed block 42 side fixed mounting has negative pole magnet, bottom telescopic link 16 keeps away from bottom snubber block 12 side fixed mounting with bottom snubber block 12 is connected and is close to through side damping spring 18 bottom snubber block 12 side contain the side snubber block 19 of sponge, side snubber block 19 upside is equipped with shock attenuation expansion tank 21, slide in shock attenuation expansion tank 21 and be equipped with shock attenuation expansion tank 21 passes through shock attenuation expansion spring 20 and is connected shock attenuation telescopic link 22, shock attenuation telescopic link 22 upside fixed mounting is close to bottom snubber block 12 side contains the angle snubber block 23 of sponge, the utility model discloses a bottom telescopic link 16, including angle snubber block 23 upside fixed mounting has anodal magnet, bottom snubber block 12 is when sliding downwards because the action of gravity bottom damping spring 57 compresses, bottom fixed block 42 inserts in the T type sliding tray 14, bottom fixed block 42 upside anodal magnet adsorbs the negative pole magnet of bottom telescopic link 16, bottom telescopic link 16 side snubber block 19 is to being close to the fixed liquid crystal display left and right sides is slided to bottom snubber block 12 side, side damping spring 18 compresses.

Beneficially, the cover plate assembly comprises a cover plate rotating shaft 71 which is rotatably installed on the rear end wall of the cover plate rotating cavity 29 and is connected with the rear end wall through a torsion spring, a cover plate 39 which is provided with an anode magnet corresponding to the corner damping block 23 and is fixedly installed on the cover plate rotating shaft 71 in a bilateral symmetry mode on the lower side, an L-shaped sliding groove 36 which is provided with the right side and the lower side communicated with the outside is arranged in the cover plate 39, a top sliding rod 34 which is connected with the left end wall of the L-shaped sliding groove 36 through a top spring 37 and is provided with the anode magnet on the lower side is arranged in the L-shaped sliding groove 36 in a sliding mode, a top lifting block 31 which is provided with the anode magnet on the upper side in a vertical sliding mode is arranged in the L-shaped sliding groove 36, a top damping block 32 which is connected with the cover plate 39 through a top damping spring 30 and is provided with a sponge on the, when the cover plate 39 is closed, the positive magnet on the lower side of the cover plate 39 and the positive magnet on the upper side of the angle shock absorption block 23 repel each other, and the angle shock absorption block 23 slides downwards to fix the liquid crystal display screen.

Advantageously, the cover plate assembly further comprises a first limiting groove 26 located on the right side of the cover plate rotating cavity 29, a first limiting block 27 connected with the first limiting groove 26 through a first limiting spring 25 is slidably arranged in the first limiting groove 26, an outer lifting groove 24 communicated with the placing cavity 40 is arranged on the outer side of the placing cavity 40, a wedge sliding groove 28 communicated with the outer lifting groove 24 is arranged on the left side and the right side of the gravity lifting cavity 15, a wedge 35 connected with the wedge sliding groove 28 through a wedge spring 38 is slidably arranged in the wedge sliding groove 28, an outer lifting block 11 is slidably arranged in the outer lifting groove 24 up and down, the upper left end of the outer lifting groove 24 is communicated with the cover plate rotating cavity 29, a second limiting block 74 connected with the outer lifting groove 24 through a second limiting spring 73 is fixedly installed at the upper left end of the outer lifting groove 24, a second limiting groove 72 matched with the second limiting block 74 is arranged on the lower side of the cover plate 39, when the cover plate 39 is opened, the second limit block 74 and the outer lifting block 11 slide downwards, thereby bringing said wedge 35 to slide and seize on the underside of said side shock-absorbing block 19 towards the side close to said bottom shock-absorbing block 12, the wedge spring 38 is stretched, the second stopper 74 is engaged with the second stopper groove 72 when the cover 39 is closed, the wedge 35 slides to the side far away from the bottom shock absorption block 12, the side shock absorption block 19 and the bottom shock absorption block 12 descend due to the gravity of the display screen, meanwhile, the first stop block 27 is matched with the L-shaped sliding groove 36, so as to push the top sliding rod 34 leftwards, the positive pole magnet at the lower side of the top sliding rod 34 is repelled with the positive pole magnet at the upper side of the top lifting block 31, thereby driving the top damper 32 to slide downward to cooperate with the bottom damper 12 to secure the display screen, and the top damper spring 30 is stretched.

Beneficially, the balancing assembly comprises balance blocks 69 which are bilaterally symmetrically and slidably mounted in the balancing cavity 17 and are connected with the end wall on the outer side of the balancing cavity 17 through a balancing spring 41, the gravity lifting cavity 15 and the balancing cavity 17 are bilaterally and slidably provided with balancing lifting blocks 68 which are slidably matched with the end wall on the outer side of the balance blocks 69, a balancing plate 70 which is fixedly mounted on the upper side of the balancing lifting blocks 68 and is connected with the lower end wall of the gravity lifting cavity 15 through a balancing return spring 33 is arranged in the gravity lifting cavity 15, balancing balls 13 located between the balance blocks 69 are rotatably arranged in the balancing cavity 17, the balancing balls 13 roll leftwards and rightwards when the box body 10 is inclined, so as to drive the balance blocks 69 to slide leftwards and rightwards, the balance blocks 69 on the side sliding outwards push the balancing lifting blocks 68 to slide upwards, so as to drive the balancing plates 70 to slide upwards to push the side shock absorbing blocks 19, the balance return spring 33 is stretched, and the balance spring 41 is compressed to keep the display screen balanced.

Beneficially, the vibration assembly comprises a heat dissipation rotating shaft 48 which is rotatably installed on the side end wall of the placement cavity 40 far away from the vibration cavity 47, heat dissipation fan blades 46 are fixedly installed on the heat dissipation rotating shaft 48, a lever rotating shaft 52 which is connected with the vibration cavity 47 through a torsion spring is rotatably installed on the rear end wall of the vibration cavity 47, levers 53 which are respectively provided with a first sliding groove 50 and a second sliding groove 55 are fixedly connected to the upper side and the lower side of the lever rotating shaft 52, a short rod 49 which is slidably connected with the first sliding groove 50 through a first sliding block 51 is slidably arranged on the rear end wall of the vibration cavity 47, a long rod 56 which is positioned on the lower side of the short rod 49 and is slidably connected with the second sliding groove 55 through a second sliding block 54 is slidably arranged on the rear end wall of the vibration cavity 47, a sponge plate 43 which is fixedly connected with the long rod 56 is fixedly installed in the placement cavity 40, and the heat, when the short rod 49 slides outwards, the lever 53 rotates around the lever rotating shaft 52, the first sliding block 51 slides in the first sliding groove 50, and the second sliding block 54 slides in the second sliding groove 55, so that the long rod 56 is driven to slide towards the placing cavity 40.

Beneficially, the vibration assembly comprises a disk rotating shaft 44 rotatably installed on the rear end wall of the vibration cavity 47, a rotating disk 45 is fixedly installed on the disk rotating shaft 44, six rotating telescopic grooves 59 are formed in the rotating disk 45 at equal angles, a rotating telescopic block 58 connected with the rotating telescopic grooves 59 through a rotating telescopic spring 60 is slidably installed in each rotating telescopic groove 59, the vibration cavity 47 is close to the side end wall of the placement cavity 40 and is provided with a vibration groove 67, a vibration rack 66 connected with the vibration groove 67 through a vibration spring 62 is slidably installed in each vibration groove 67, a ratchet 63 is fixedly installed on the disk rotating shaft 44, a hollow shaft 65 is rotatably installed on the side end wall of the front side of the vibration cavity 47, an outer wheel 64 matched with the ratchet 63 is fixedly installed on the hollow shaft 65, and the outer side of the outer wheel 64 can be meshed with the vibration rack 66, the outer wheel 64 is internally hinged with two pawls 75 connected with the outer wheel 64 through a pawl spring 76, the vibration cavity 47 is far away from the side end wall of the placing cavity 40 and is rotatably provided with a transmission shaft 61, the heat dissipation rotating shaft 48 and the transmission shaft 61 are connected through a set of belt pulleys, the disc rotating shaft 44 and the transmission shaft 61 are in transmission through a set of bevel gear pair, when the rotating disc 45 rotates, the rotating telescopic block 58 slides outwards due to the centrifugal force, so that the short rod 49 is pushed to slide towards the side far away from the placing cavity 40, when the vibration rack 66 slides downwards, the outer wheel 64 drives the ratchet 63 to rotate, and when the vibration rack 66 slides upwards, the outer wheel 64 does not drive the ratchet 63 to rotate.

In the initial state, when the cover plate 39 is in the open state, the bottom damping block 12 is located at the uppermost side, the bottom damping spring 57 is in the normal tension state, the side damping block 19 is located at the side away from the bottom damping block 12, the side damping spring 18 is in the normal tension state, the corner damping block 23 is located at the uppermost side, the damping expansion spring 20 is in the normal tension state, the top sliding rod 34 is located at the rightmost side, the top spring 37 is in the normal tension state, the top lifting block 31 and the top damping block 32 are located at the uppermost side, the top damping spring 30 is in the normal tension state, the wedge spring 38 is in the tension state, the wedge 35 is located at the side close to the bottom damping block 12, the outer lifting block 11, the second limiting block 74 is located at the lowest side, the vibration rack 66 is located in the middle of the vibration groove 67, the vibration spring 62 is in a normal stretching state, the rotary telescopic block 58 is located in the rotary telescopic groove 59, and the rotary telescopic spring 60 is in a normal stretching state.

When the LCD display screen works, the LCD display screen is placed on the bottom shock absorption block 12, the cover plate 39 is closed, the second limit block 74 slides upwards under the action of the second limit spring 73 to be matched with the second limit groove 72, so that the outer lifting block 11 is driven to slide upwards, the wedge block 35 slides towards the side far away from the bottom shock absorption block 12 under the action of the wedge spring 38, the side shock absorption block 19 and the bottom shock absorption block 12 descend under the action of the gravity of the display screen, the bottom shock absorption spring 57 is compressed, the bottom fixed block 42 is inserted into the T-shaped sliding groove 14, the anode magnet on the upper side of the bottom fixed block 42 adsorbs the cathode magnet of the bottom telescopic rod 16, the bottom telescopic rod 16 and the side shock absorption block 19 slide towards the side close to the bottom shock absorption block 12 and fix the left side and the right side of the LCD display screen, the side shock absorption spring 18 is compressed, the first limit block 27 is matched with the L-shaped sliding groove 36 to push, thereby driving the top damping block 32 to slide downwards to be matched with the bottom damping block 12 to fix the display screen, the top damping spring 30 is stretched, the positive magnet at the lower side of the cover plate 39 is repelled with the positive magnet at the upper side of the corner damping block 23, and the corner damping block 23 slides downwards to fix the liquid crystal display screen; in the transportation process, if the box body 10 deflects, the balance ball 13 rolls left and right, so that the balance block 69 is driven to slide left and right, the balance block 69 on one side sliding outwards pushes the balance lifting block 68 to slide upwards, so that the balance plate 70 is driven to slide upwards to push the side damping block 19 to slide upwards, the balance return spring 33 is stretched, the balance spring 41 is compressed, the balance block 69 on the other side slides towards the side close to the balance ball 13 under the action of the balance spring 41, and the side damping block 19 presses the balance plate 70 downwards to keep the display screen balanced; when the vehicle bumps, the vibration rack 66 vibrates up and down, the outer wheel 64 drives the ratchet wheel 63 to rotate when the vibration rack 66 slides downwards, the outer wheel 64 does not drive the ratchet wheel 63 to rotate when the vibration rack 66 slides upwards, the outer wheel 64 drives the ratchet wheel 63 to rotate and drives the disk rotating shaft 44 to rotate, thereby driving the rotating disk 45 to rotate, the rotating expansion block 58 slides outwards due to the centrifugal force, thereby pushing the short rod 49 to slide away from the placing cavity 40, when the short rod 49 slides outwards, the lever 53 rotates around the lever rotating shaft 52, the first slide block 51 slides in the first slide slot 50, the second slide block 54 slides in the second slide slot 55, thereby driving the long rod 56 to slide towards the placing cavity 40, thereby driving the sponge plate 43 to slide towards the display screen to clamp the front and the back sides of the display screen, simultaneously driving the transmission shaft 61 to rotate by the disc rotating shaft 44, thereby driving the heat-dissipating rotating shaft 48 to rotate, and driving the heat-dissipating fan blades 46 to rotate to dissipate heat in the placing cavity 40; when the cover plate 39 is opened, the top spring 37 and the top damping spring 30 act on the top sliding rod 34 to slide rightwards, the top damping block 32 slides upwards to reset, the cover plate 39 pushes the second limiting block 74 to slide downwards, so that the outer lifting block 11 is driven to slide downwards, the wedge block 35 is driven to slide towards the side close to the gravity lifting cavity 15, the corner damping block 23 slides upwards under the action of the damping telescopic spring 20 to take out the display screen, the bottom damping block 12 slides upwards under the action of the bottom damping spring 57 to reset, and the side damping block 19 slides outwards under the action of the side damping spring 18 to reset.

The beneficial effects are that: the device simple structure, high durability and convenient operation, the device is when fortune liquid crystal display, place the display screen on the bottom snubber block, cover the apron back, both sides snubber block inwards slides and presss from both sides tight display screen edge, upside snubber block lapse and the fixed display screen of bottom snubber block cooperation simultaneously, the balancing piece removes when the box takes place the slope in the transportation and keeps the display screen balanced, both sides snubber block inwards slides around the vibrations drive about the snubber block when the vehicle jolts, protect the display screen, the heat dissipation flabellum rotates the heat dissipation simultaneously, prevent to damage the display screen because the high temperature is wrapped up completely and lead to the high temperature in the box and the display screen, plastic foam need not be used, the environmental protection.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a conveyer for liquid crystal display, includes the box, its characterized in that: a placing cavity with the upper side communicated with the outside through a cover plate rotating cavity is arranged in the box body, a cover plate assembly is arranged in the cover plate rotating cavity, the lower side of the placing cavity is communicated with a gravity lifting cavity, a fixing assembly is arranged in the gravity lifting cavity, the lower side of the gravity lifting cavity is provided with a balance cavity with the left side and the right side communicated with the gravity lifting cavity, a balance assembly is arranged in the balance cavity, vibration cavities which are communicated through vents and the upper side of which contains vents are symmetrically arranged on the front side and the rear side of the placing cavity, a vibration assembly is arranged in the vibration cavities, the fixing assembly comprises a bottom damping block which is arranged in the gravity lifting cavity in a vertical sliding mode and is connected with the lower end wall of the gravity lifting cavity through a bottom damping spring and contains sponge on the upper side, a T-shaped sliding groove is arranged in the bottom damping block, a bottom fixing block which can be matched, bilateral symmetry slides in T type sliding tray and is equipped with and is close to bottom fixed block side fixed mounting has negative pole magnet's bottom telescopic link, the bottom telescopic link is kept away from bottom snubber block side fixed mounting have with the bottom snubber block passes through the side damping spring and connects and be close to the bottom snubber block side contains the side snubber block of sponge, side snubber block upside is equipped with the shock attenuation flexible groove, slide in the shock attenuation flexible groove be equipped with the shock attenuation flexible groove passes through the shock attenuation flexible spring coupling's shock attenuation telescopic link, shock attenuation telescopic link upside fixed mounting has and is close to the bottom snubber block side contains the angle snubber block of sponge, angle snubber block upside fixed mounting has anodal magnet.

2. A transporting apparatus for a liquid crystal display panel, as recited in claim 1, wherein: the apron subassembly include with the apron rotates the chamber rear end wall and rotates the installation and pass through torsional spring connection's apron axis of rotation, fixed mounting has downside bilateral symmetry fixed mounting in the apron axis of rotation with the apron of the anodal magnet that the angle snubber block corresponds, be equipped with right side and downside and the communicating L type sliding tray in the external world in the apron, the horizontal slip in the L type sliding tray be equipped with the top slide bar that anodal magnet was installed through top spring coupling and downside to L type sliding tray left end wall, the top elevator that the upper and lower slip was equipped with upside fixed mounting and has anodal magnet in the L type sliding tray, top elevator downside fixed mounting have with the apron contains the top snubber block of sponge through top damping spring coupling and downside.

3. A transporting apparatus for a liquid crystal display panel, as recited in claim 2, wherein: the apron subassembly is still including being located the apron rotates the first spacing groove on chamber right side, first spacing inslot slip be equipped with first spacing groove is through first spacing spring coupling's first stopper, place the outer lift groove that the chamber outside was equipped with the intercommunication, gravity lift chamber left and right sides intercommunication be equipped with the voussoir sliding tray of outer lift groove intercommunication, slide in the voussoir sliding tray be equipped with the voussoir sliding tray passes through voussoir spring coupling's voussoir, outer lift inslot slides from top to bottom and is equipped with outer elevator, outer lift groove left side upper end with the apron rotates the chamber intercommunication, outer lift groove left side upper end fixed mounting have with outer lift groove passes through the second stopper of second spacing spring coupling, the apron downside be equipped with second stopper complex second spacing groove.

4. A transporting apparatus for a liquid crystal display panel, as recited in claim 1, wherein: the balance assembly comprises a bilateral symmetry sliding installation, a balance cavity is arranged in the balance cavity, the balance cavity is connected with the outer end wall of the balance cavity through a balance spring, a gravity lifting cavity is arranged in the balance cavity in the bilateral symmetry sliding installation, the balance lifting block is in sliding fit with the outer end wall of the balance cavity, the gravity lifting cavity is internally provided with a balance plate which is fixedly arranged on the upper side of the balance lifting block and is connected with the lower end wall of the gravity lifting cavity through a balance reset spring, and a balance ball is arranged between the balance blocks in a rolling mode in the balance cavity.

5. A transporting apparatus for a liquid crystal display panel, as recited in claim 1, wherein: the vibrations subassembly include with the vibrations chamber is kept away from place the chamber side end wall and rotate and install the heat dissipation axis of rotation, fixed mounting has the heat dissipation flabellum in the heat dissipation axis of rotation, vibrations chamber rear end wall rotate install with the lever axis of rotation that the vibrations chamber passes through torsional spring connection, both sides are equipped with the lever of first spout, second spout respectively about the fixedly connected with in the lever axis of rotation, vibrations chamber rear end wall slide be equipped with contain with first spout passes through first slider sliding connection's quarter butt, vibrations chamber rear end wall slide be equipped with be located the quarter butt downside and contain with the second spout passes through second slider sliding connection's stock, place intracavity fixed mounting have with stock fixed connection's sponge board.

6. A transporting apparatus for a liquid crystal display panel, as recited in claim 5, wherein: the vibration assembly comprises a disc rotating shaft rotatably installed on the rear end wall of the vibration cavity, a rotating disc is fixedly installed on the disc rotating shaft, six rotary telescopic grooves are formed in the rotating disc at equal angles, rotary telescopic blocks connected with the rotary telescopic grooves through rotary telescopic springs are arranged in the rotary telescopic grooves in a sliding mode, the vibration cavity is close to the side end wall of the placing cavity and is provided with a vibration groove, a vibration rack connected with the vibration groove through the vibration springs is arranged in the vibration groove in a sliding mode, a ratchet wheel is fixedly installed on the disc rotating shaft, a hollow shaft is rotatably installed on the front side end wall of the vibration cavity, a foreign wheel matched with the ratchet wheel is fixedly installed on the hollow shaft, the outer side of the foreign wheel can be meshed with the vibration rack, two pawls connected with the foreign wheel through pawl springs are hinged to the inner side of the foreign wheel, the vibration cavity is far away from the side end wall of the, the heat dissipation axis of rotation the transmission shaft is through a set of belt pulley connection, the disc axis of rotation the transmission shaft is through a set of bevel gear pair transmission.

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