CN114194504A - LED display transportation and storage system and use method thereof - Google Patents

Abstract

The invention belongs to the field of LED displays, and particularly relates to an LED display transportation and storage system and a using method thereof. The method is carried out by matching with an LED display transportation and storage system, the LED display transportation and storage system comprises a case, a case cavity is formed in the case, cleaning and blowing shock absorption structures are symmetrically arranged on the case, bottom clamping and shock absorption mechanisms are symmetrically arranged on the case, fire protection mechanisms are symmetrically arranged on the case, and a sealing cover and a self-locking mechanism are arranged at the upper part of the case. The LED display transportation and storage system with the excellent shock absorption effect, the stable clamping mechanism and the certain protection against fire and the use method thereof are designed.

Description

LED display transportation and storage system and use method thereof

Technical Field

The invention belongs to the field of LED displays, and particularly relates to an LED display transportation and storage system and a using method thereof.

Background

With the development of the LED technology in recent years, LED display screens are more and more widely used. The large-scale LED display screen is usually formed by splicing a plurality of LED display screen modules, so that the LED display screen modules and the frame unit are convenient to transport and install.

One of the traditional transportation methods is to directly load the LED display screen module and fix the LED display screen module by using a rope, or place a transportation support in the middle of the vehicle, incline the LED display screen module and fix the LED display screen module by relying on the support and then using the rope, and the fixing procedure is complicated and the loading and unloading efficiency is low. Especially, the LED display screen module of outdoor use leads to the rope to become flexible and take place colliding with or damaging of LED display screen module easily under the complicated condition of road conditions in the transportation. Therefore, the following problems are involved in the transportation process:

1. in the transportation process, vibration and even serious shaking cannot be avoided due to reasons such as carrying or road conditions.

2. Due to the structural characteristics of the LED display screen, a corresponding stable clamping structure with a certain automation needs to be provided.

3. During transport and storage, there is a possible fire risk and therefore certain protection mechanisms need to be considered.

In conclusion, the LED display transportation and storage system with the excellent shock absorption effect, the stable clamping mechanism and the certain protection against fire and the use method thereof are designed.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an LED display transportation and storage system and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme: an LED display transportation and storage system and a using method thereof are matched with the LED display transportation and storage system, the LED display transportation and storage system comprises a case, a case cavity is arranged in the case, cleaning sliding chutes are symmetrically arranged on the case, cleaning main sliding blocks capable of sliding back and forth are arranged in each cleaning sliding chute, cleaning sliding rods extending to the case cavity are fixedly arranged on each cleaning main sliding block, a cleaning rotating shaft capable of rotating freely is arranged on each cleaning sliding rod, a cleaning roller is fixedly arranged on each cleaning rotating shaft, a cleaning wiping layer is fixedly arranged on each cleaning roller, main sliding chutes communicated with the case cavity are symmetrically arranged on the case, a main sliding block capable of sliding back and forth is arranged in each main sliding chute, a main sliding block swinging groove is arranged on each main sliding block, a main sliding block rotating shaft is fixedly arranged on each main sliding block swinging groove, every be equipped with a plurality of pivoted swing slide bars in the main slider pivot, every swing slide bar spout has been seted up in the swing slide bar, every be equipped with a plurality of free sliding pivoted swing pivots in the swing slide bar spout, the symmetry is equipped with vice slider gliding body in the machine case chamber, every set up vice slider gliding chamber in the vice slider gliding body, every vice slider gliding chamber is equipped with the vice slider that can reciprocate to slide, every set firmly vice slide bar on the vice slider, every be equipped with free rotating's L rocker pivot on the vice slide bar, every L rocker pivot rather than being located the homonymy L rocker has set firmly the L rocker between the swing pivot.

Preferably, each cleaning roller is uniformly provided with a plurality of cleaning roller clamping grooves, each cleaning sliding rod is provided with a cleaning auxiliary sliding groove, each cleaning auxiliary sliding groove is internally provided with a cleaning auxiliary sliding block which can slide in a reciprocating manner and can drive a cleaning wiping layer to enter the cleaning roller clamping grooves, and a cleaning auxiliary spring is fixedly arranged between each cleaning auxiliary sliding block and the cleaning auxiliary sliding groove.

Preferably, each cleaning slide bar is symmetrically provided with a cleaning slide bar clamping groove along a geometric central line thereof, the machine case is provided with cleaning slide bar limiting sliding grooves symmetrically arranged on two sides of the geometric central line of each cleaning slide bar, each cleaning slide bar limiting sliding groove is internally provided with a cleaning slide bar clamping groove capable of being clamped and limited, and a cleaning slide bar limiting sliding block capable of sliding is arranged between each cleaning slide bar limiting sliding block and the cleaning slide bar limiting sliding groove.

Preferably, a cleaning air bag with high resilience is arranged in the cleaning sliding groove.

Preferably, the machine case is symmetrically provided with air injection cleaning sliding chutes along two sides of a geometric center line of the cleaning sliding rod, each air injection cleaning sliding chute is fixedly provided with an air injection cleaning sliding body, an air injection cleaning sliding cavity is formed in each air injection cleaning sliding body, each air injection cleaning sliding cavity is provided with an air injection cleaning inner sliding block capable of sliding in a reciprocating manner, each air injection cleaning inner sliding block is fixedly provided with an air injection cleaning sliding rod extending out of the air injection cleaning sliding body, each air injection cleaning sliding rod is fixedly provided with an air injection cleaning outer sliding block capable of sliding in the air injection cleaning sliding chute in a reciprocating manner, an air injection cleaning spring is fixedly arranged between each air injection cleaning outer sliding block and the air injection cleaning sliding chute, each air injection cleaning outer sliding block is provided with a two-way nozzle facing the machine case cavity, and each air injection cleaning outer sliding block, each air injection cleaning sliding rod and the air injection cleaning inner sliding block are fixedly provided with an air injection cleaning moving air channel communicated with the air injection cleaning sliding cavity and the two-way nozzle And a cleaning rotating shaft communicated with the air injection cleaning sliding cavity and the cleaning air bag inner cavity is fixedly arranged in each case.

Preferably, each of the L-shaped swing frames is provided with an adsorption sliding cavity, each of the adsorption sliding cavities is internally provided with an adsorption sliding block capable of sliding back and forth, each of the adsorption sliding blocks is fixedly provided with an adsorption sliding rod extending out of the L-shaped swing frame, each of the adsorption sliding rods is fixedly provided with an adsorption base plate, each of the adsorption base plates is fixedly provided with an adsorption sucker, each of the adsorption suckers is internally provided with an adsorption sucker cavity, each of the L-shaped swing frames is provided with an adsorption hydraulic cavity provided with hydraulic oil, each of the L-shaped swing frames is provided with an adsorption control sliding chute communicated with the adsorption hydraulic cavity, each of the adsorption control sliding chutes is internally provided with an adsorption control sliding block capable of sliding back and forth to extrude the hydraulic oil in the adsorption hydraulic cavity and the hydraulic oil in the adsorption control sliding chute into the adsorption sliding cavity, and an adsorption control spring is fixedly arranged between each of the adsorption control sliding block and the adsorption control sliding chute, and an adsorption hydraulic channel for communicating the adsorption hydraulic cavity with the adsorption sliding cavity is formed in each L-shaped swing frame.

Preferably, each L-shaped swing frame is provided with a receiving connecting slide block chute, each receiving connecting slide block chute is provided with a receiving connecting slide block capable of sliding in a reciprocating manner, a receiving connecting slide block spring is fixedly arranged between each receiving connecting slide block and the receiving connecting slide block chute, each receiving connecting slide block is provided with a free-rotating receiving rotating shaft, each receiving rotating shaft is fixedly provided with a receiving frame, each receiving frame is provided with a receiving chute, a receiving sliding plate capable of sliding in a reciprocating manner is arranged in each receiving chute, and a receiving spring is fixedly arranged between each receiving sliding plate and each receiving chute.

Preferably, a carbon dioxide air bag filled with carbon dioxide and capable of being extruded by the auxiliary sliding block is arranged in the auxiliary sliding block sliding cavity, a heated cavity is formed in the case, a heated bag filled with easily vaporized materials is arranged in each heated cavity, a heated sliding block capable of sliding in a reciprocating mode is arranged in each heated cavity, a puncture sliding groove is fixedly formed between the air bag frame and the heated cavity, a heated sliding rod capable of sliding in the puncture sliding groove in a reciprocating mode is fixedly arranged on each heated sliding block, a puncture needle capable of puncturing the carbon dioxide air bag is fixedly arranged on each heated sliding rod, and an auxiliary sliding rod air passage capable of being used for connecting and disconnecting the auxiliary sliding block sliding cavity and the case cavity is formed in each auxiliary sliding rod air passage.

Preferably, the case is provided with a detachable sealing cover for facilitating the placement and removal of a display, the sealing cover is fixedly provided with a sealing cover handle, the sealing cover is provided with a sealing cover sliding groove, a sealing cover sliding block capable of sliding in a reciprocating manner is arranged in the sealing cover sliding groove, a sealing cover spring is fixedly arranged between the sealing cover sliding block and the sealing cover sliding groove, the sealing cover sliding block is symmetrically provided with a plurality of sealing cover sliding block clamping grooves, the sealing cover sliding block is fixedly provided with a sealing cover sliding block rubber layer capable of fastening the display, the case is symmetrically provided with sealing cover triggering sliding grooves with the number being consistent with that of the sealing cover sliding block clamping grooves, each sealing cover triggering sliding groove is internally provided with a sealing cover triggering sliding block capable of sliding in a reciprocating manner and capable of being extruded back to the sealing cover triggering sliding groove by the sealing cover, a sealing cover triggering spring is fixedly arranged between each sealing cover triggering sliding block and the sealing cover triggering sliding groove, and the case is symmetrically provided with sealing cover stabilizing sliding grooves with the number being consistent with that of the sealing cover sliding block clamping grooves, every but be equipped with reciprocating sliding in the spout is stabilized to the closing cap and can block in the closing cap slider stable sliding block of closing cap slider draw-in groove, every closing cap stable sliding block with closing cap stable sliding has set firmly closing cap stabilizing spring between the spout, the quick-witted case is seted up and is communicateed the closing cap trigger spout with the closing cap of spout is stabilized to the closing cap is said and is linked.

Has the advantages that:

the invention provides an LED display transportation and storage system and a using method thereof through improvement, and compared with the prior art, the LED display transportation and storage system has the following improvements and advantages:

1. through the mutual matching of the cleaning roller, the cleaning wiping layer, the cleaning sliding rod, the cleaning sliding groove, the cleaning main sliding block, the cleaning air bag, the two-way nozzle, the cleaning wiping layer, the air injection cleaning air moving channel, the air injection cleaning sliding rod, the cleaning roller clamping groove and the air injection cleaning air fixing channel, the shock absorption can be realized, and the air injection cleaning in a larger range can also be realized.

2. Through the mutual matching of the cleaning roller clamping groove, the cleaning auxiliary sliding block, the cleaning auxiliary spring and the cleaning auxiliary sliding groove, the automatic cleaning of the cleaning wiping layer to a certain degree can be realized.

3. The potential serious damage caused by the vibration exceeding the design limit is prevented through the mutual matching of the cleaning slide bar clamping groove, the cleaning slide bar limiting sliding groove, the cleaning slide bar limiting spring and the cleaning slide bar limiting sliding block.

4. Through the mutual cooperation of the adsorption sucker, the adsorption sucker cavity, the adsorption sliding rod, the adsorption bottom plate, the adsorption sliding block, the adsorption control sliding groove, the adsorption control spring, the adsorption hydraulic cavity and the adsorption hydraulic channel, reasonable adsorption clamping can be realized.

5. The auxiliary power assisting effect in the process of putting in and taking out the display can be realized through mutual matching of the L swing frame, the bearing sliding plate, the bearing frame, the bearing sliding groove, the bearing spring, the bearing rotating shaft, the bearing connecting sliding block sliding groove and the bearing connecting sliding block spring, and a certain damping effect can be provided.

6. Through the cooperation of the carbon dioxide air bag, the puncture needle, the heated bag and the auxiliary mechanisms thereof, possible fire protection and certain shock absorption effect can be realized.

7. Through the mutual matching of the sealing cover connecting channel, the sealing cover triggering sliding groove, the sealing cover triggering spring, the sealing cover triggering sliding block, the sealing cover sliding block clamping groove, the sealing cover stabilizing sliding block, the sealing cover stabilizing spring and the sealing cover stabilizing sliding groove, the effect that the clamping stability of the sealing cover sliding block rubber layer and the sealing cover sliding block can be strengthened by locking the sealing cover by the self weight of the sealing cover can be realized.

Drawings

FIG. 1 is a flow chart of the design;

FIG. 2 is a front cross-sectional view of the present design;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken at B-B of FIG. 2;

FIG. 5 is a cross-sectional view taken at C-C of FIG. 2;

FIG. 6 is an enlarged view of a portion of FIG. 2 at D;

FIG. 7 is an enlarged view of a portion of FIG. 2 at E;

FIG. 8 is an enlarged view of a portion of FIG. 2 at F;

FIG. 9 is an enlarged view of a portion of FIG. 2 at G;

fig. 10 is a partial enlarged view of fig. 2 at H.

In the figure, a chassis 10, a chassis cavity 11, a cover connecting channel 12, a cover triggering sliding slot 13, a cover triggering spring 14, a cover triggering sliding block 15, a cover 16, a cover handle 17, a cover sliding slot 18, a cover spring 19, a cover sliding block 20, a cover sliding block rubber layer 21, a cover sliding block clamping slot 22, a cover stabilizing sliding block 23, a cover stabilizing spring 24, a cover stabilizing sliding slot 25, a swing sliding rod 26, a swing sliding rod sliding slot 27, a swing rotating shaft 28, a main sliding block rotating shaft 29, a main sliding block 30, a main sliding block swinging slot 31, an L swinging frame 32, an L swinging frame rotating shaft 33, a main spring 34, a main sliding slot 35, an auxiliary sliding rod 36, an auxiliary sliding rod air channel 37, an air bag frame cavity 38, an air bag frame 39, a carbon dioxide air bag 40, an auxiliary sliding block cavity 41, an auxiliary sliding block 42, an auxiliary sliding block sliding body 43, an adsorption suction cup 44, an adsorption cup cavity 45, an air injection cleaning sliding rod 46, an air injection cleaning sliding cavity 47, an air injection cleaning sliding body 48, a, An air injection cleaning outer slide block 49, an air injection cleaning slide groove 50, an air injection cleaning spring 51, an air injection cleaning air moving channel 52, a two-way nozzle 53, an air injection cleaning inner slide block 54, an air injection cleaning fixed air channel 55, a cleaning rotating shaft 56, a cleaning roller clamping groove 57, a cleaning roller 58, a cleaning wiping layer 59, a cleaning slide rod clamping groove 60, a cleaning slide rod 61, a cleaning slide groove 62, a cleaning main slide block 63, a cleaning air bag 64, a cleaning slide rod limiting slide groove 65, a cleaning slide rod limiting spring 66, a cleaning slide rod limiting slide block 68, a cleaning auxiliary slide groove 69, a cleaning auxiliary spring 70, a cleaning auxiliary slide block 71, an adsorption hydraulic cavity 72, an adsorption hydraulic channel 73, an adsorption slide block 74, an adsorption slide cavity 75, an adsorption slide rod 76, an adsorption bottom plate 77, an adsorption control slide block 78, an adsorption control slide groove 79, an adsorption control spring 80, a receiving slide plate 81, a receiving frame 82, a receiving slide groove 83, a receiving spring 84, a receiving rotating shaft 85, The device comprises a receiving connecting slide block 86, a receiving connecting slide block sliding groove 87, a receiving connecting slide block spring 88, a puncture needle 89, a puncture sliding groove 90, a heated cavity 93, a heated bag 94, a heated slide block 95 and a heated slide rod 96.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 2, an LED display transportation and storage system and a method for using the same are provided, the method is performed in cooperation with an LED display transportation and storage system, the LED display transportation and storage system includes a chassis 10, a chassis cavity 11 is formed in the chassis 10, cleaning chutes 62 are symmetrically formed in the chassis 10, a cleaning main slider 63 capable of sliding back and forth is disposed in each cleaning chute 62, a cleaning slider 61 extending into the chassis cavity 11 is fixedly disposed on each cleaning main slider 63, a cleaning rotating shaft 56 capable of rotating freely is disposed on each cleaning slider 61, a cleaning roller 58 is fixedly disposed on each cleaning rotating shaft 56, a cleaning layer 59 is fixedly disposed on each cleaning roller 58, main chutes 35 communicated with the chassis cavity 11 are symmetrically disposed on the chassis 10, main sliders 30 capable of sliding back and forth are disposed in each main chute 35, main slider swinging grooves 31 are formed in each main slider 30, main slider rotating shafts 29 are fixedly disposed on each main slider swinging groove 31, each main sliding block rotating shaft 29 is provided with a plurality of rotating swinging sliding rods 26, each swinging sliding rod 26 is internally provided with a swinging sliding rod chute 27, each swinging sliding rod chute 27 is internally provided with a plurality of swinging rotating shafts 28 capable of freely sliding and rotating, the cabinet cavity 11 is symmetrically provided with an auxiliary sliding block sliding body 43, each auxiliary sliding block sliding body 43 is internally provided with an auxiliary sliding block sliding cavity 41, each auxiliary sliding block sliding cavity 41 is provided with an auxiliary sliding block 42 capable of sliding in a reciprocating manner, each auxiliary sliding block 42 is fixedly provided with an auxiliary sliding rod 36, each auxiliary sliding rod 36 is provided with an L swinging frame rotating shaft 33 capable of freely rotating, and an L swinging frame 32 is fixedly arranged between each L swinging frame rotating shaft 33 and the swinging rotating shaft 28 positioned on the same side.

As shown in fig. 2, 6 and 7, each cleaning roller 58 is uniformly provided with a plurality of cleaning roller slots 57, each cleaning sliding rod 61 is provided with a cleaning auxiliary sliding groove 69, each cleaning auxiliary sliding groove 69 is internally provided with a cleaning auxiliary sliding block 71 which can slide back and forth and can drive the cleaning wiping layer 59 to enter the cleaning roller slots 57, and a cleaning auxiliary spring 70 is fixedly arranged between each cleaning auxiliary sliding block 71 and the cleaning auxiliary sliding groove 69.

As shown in fig. 2, 6 and 7, each cleaning slide bar 61 is symmetrically provided with a cleaning slide bar slot 60 along a geometric central line thereof, the chassis 10 is symmetrically provided with cleaning slide bar limiting sliding slots 65 at two sides of the geometric central line of each cleaning slide bar 61, a cleaning slide bar limiting sliding block 68 capable of being clamped into the cleaning slide bar slot 60 and limiting the sliding of the cleaning slide bar 61 is arranged in each cleaning slide bar limiting sliding slot 65, and a cleaning slide bar limiting spring 66 is fixedly arranged between each cleaning slide bar limiting sliding block 68 and the cleaning slide bar limiting sliding slot 65.

As shown in fig. 2, 6 and 7, a cleaning air bag 64 with high resilience is provided in the cleaning chute 62.

As shown in fig. 2, 4, 5, 8, 9, and 10, the cabinet 10 is symmetrically provided with air injection cleaning sliding chutes 50 along two sides of a geometric center line of the cleaning sliding rod 61, each air injection cleaning sliding chute 50 is fixedly provided with an air injection cleaning sliding body 48, each air injection cleaning sliding body 48 is internally provided with an air injection cleaning sliding cavity 47, each air injection cleaning sliding cavity 47 is provided with an air injection cleaning inner sliding block 54 capable of sliding reciprocally, each air injection cleaning inner sliding block 54 is fixedly provided with an air injection cleaning sliding rod 46 extending out of the air injection cleaning sliding body 48, each air injection cleaning sliding rod 46 is fixedly provided with an air injection cleaning outer sliding block 49 capable of sliding reciprocally in the air injection cleaning sliding chute 50, an air injection cleaning spring 51 is fixedly arranged between each air injection cleaning outer sliding block 49 and the air injection cleaning sliding chute 50, each air injection cleaning outer sliding block 49 is provided with a bidirectional nozzle 53 facing the cabinet cavity 11, each air injection cleaning outer sliding block 49, each air injection cleaning sliding rod 46 and air injection cleaning inner sliding block 54 are fixedly provided with an air injection cleaning movable nozzle 53 communicating the air injection cleaning sliding cavity 47 and the bidirectional nozzle 53 The air duct 52, a cleaning rotating shaft 56 communicating the air injection cleaning slide chamber 47 and the inner chamber of the cleaning air bag 64 is fixedly arranged in each case 10.

As shown in fig. 2, 4, 5, 8, 9, and 10, each L swing frame 32 is provided with an adsorption sliding cavity 75, each adsorption sliding cavity 75 is provided with an adsorption sliding block 74 capable of sliding back and forth, each adsorption sliding block 74 is fixedly provided with an adsorption sliding rod 76 extending out of the L swing frame 32, each adsorption sliding rod 76 is fixedly provided with an adsorption bottom plate 77, each adsorption bottom plate 77 is fixedly provided with an adsorption suction cup 44, each adsorption cup 44 is internally provided with an adsorption cup cavity 45, each L swing frame 32 is provided with an adsorption hydraulic cavity 72 provided with hydraulic oil, each L swing frame 32 is provided with an adsorption control sliding chute 79 communicated with the adsorption hydraulic cavity 72, each adsorption control sliding chute 79 is internally provided with an adsorption control sliding block 78 capable of sliding back and forth to press the hydraulic cavity 72 and the adsorption control sliding chute 79 into the adsorption sliding cavity 75, an adsorption control spring 80 is fixedly arranged between each adsorption control sliding block 78 and the adsorption control sliding chute 79, an adsorption hydraulic channel 73 communicating the adsorption hydraulic cavity 72 with the adsorption sliding cavity 75 is formed in each L-shaped swing frame 32.

As shown in fig. 2, 4, 5, 8, 9, and 10, each L-shaped swing frame 32 is provided with a receiving connecting slider sliding groove 87, each receiving connecting slider sliding groove 87 is provided with a receiving connecting slider 86 capable of sliding back and forth, a receiving connecting slider spring 88 is fixedly arranged between each receiving connecting slider 86 and the receiving connecting slider sliding groove 87, each receiving connecting slider 86 is provided with a freely rotating receiving rotating shaft 85, each receiving rotating shaft 85 is fixedly provided with a receiving frame 82, each receiving frame 82 is provided with a receiving sliding groove 83, a receiving sliding plate 81 capable of sliding back and forth is arranged in the receiving sliding groove 83, and a receiving spring 84 is fixedly arranged between the receiving sliding plate 81 and each receiving sliding groove 83.

As shown in fig. 2, 4, 5, 8, 9, and 10, a carbon dioxide airbag 40 filled with carbon dioxide and capable of being squeezed by the auxiliary slider 42 is disposed in the auxiliary slider sliding cavity 41, a heated cavity 93 is disposed on the chassis 10, a heated bag 94 filled with easily vaporized material is disposed in each heated cavity 93, a heated slider 95 capable of sliding back and forth is disposed in each heated cavity 93, a puncturing chute 90 is fixedly disposed between the airbag frame 39 and the heated cavity 93, a heated slider 96 capable of sliding back and forth in the puncturing chute 90 is fixedly disposed on each heated slider 95, a puncturing needle 89 capable of puncturing the carbon dioxide airbag 40 is fixedly disposed on each heated slider 96, and an auxiliary slider air passage 37 capable of opening and closing the auxiliary slider sliding cavity 41 and the chassis cavity 11 is disposed in each auxiliary slider air passage 37.

As shown in fig. 2 and 3, a case 10 is provided with a detachable cover 16 for facilitating the display to be placed in and taken out, a cover handle 17 is fixedly arranged on the cover 16, a cover sliding slot 18 is formed on the cover 16, a cover sliding block 20 capable of sliding back and forth is arranged in the cover sliding slot 18, a cover spring 19 is fixedly arranged between the cover sliding block 20 and the cover sliding slot 18, a plurality of cover sliding block slots 22 are symmetrically formed on the cover sliding block 20, a cover sliding block rubber layer 21 capable of fastening the display is fixedly arranged on the cover sliding block 20, cover triggering sliding slots 13 with the same number as the cover sliding block slots 22 are symmetrically formed on the case 10, a cover triggering sliding block 15 capable of sliding back and forth and pressed by the cover 16 to the cover triggering sliding slot 13 is arranged in each cover triggering sliding slot 13, a cover triggering spring 14 is fixedly arranged between each cover triggering sliding block 15 and the cover triggering sliding slot 13, a plurality of cover stabilizing sliding slots 25 with the same number as the cover sliding block slots 22 are symmetrically formed on the case 10, a sealing cover stabilizing sliding block 23 which can slide back and forth and can be clamped into a sealing cover sliding block clamping groove 22 is arranged in each sealing cover stabilizing sliding groove 25, a sealing cover stabilizing spring 24 is fixedly arranged between each sealing cover stabilizing sliding block 23 and the sealing cover stabilizing sliding groove 25, and the case 10 is provided with a sealing cover connecting channel 12 which can be communicated with the sealing cover triggering sliding groove 13 and the sealing cover stabilizing sliding groove 25.

Initial position: the L-shaped swing frame 32 is inclined to both sides by the receiving spring 84 and the receiving link slider spring 88. The carbon dioxide bladder 40 stores a flame retardant gas such as carbon dioxide. A liquid susceptible to thermal vaporization is present within the heat-receiving capsule 94. Hydraulic oil is stored in the cap trigger sliding groove 13 and the cap stabilizing sliding groove 25. The adsorption slide chamber 75 and the adsorption hydraulic chamber 72 store appropriate amounts of hydraulic oil. The cover sealing stable slide block 23 is clamped in the cover sealing slide block clamping groove 22 under the action of hydraulic oil in the period that the cover sealing trigger slide block 15 can be used. The cleaning bladder 64 is naturally filled with gas.

The LED display transportation and storage system comprises the following specific use steps:

the first step is as follows: and opening the cover. The cover handle 17 is taken by hand, and the cover 16 is driven to move upwards by the cover handle 17. During the upward movement of the closure 16, the compression of the closure trigger slider 15 is gradually released (relative displacement of the closure slider 20 and the closure 16 is achieved due to the presence of the closure spring 19). The cover triggering slide block 15 extends out under the action of the cover triggering spring 14, and then absorbs the hydraulic oil originally in the cover stabilizing slide groove 25 into the cover triggering slide groove 13, so that the hydraulic oil in the cover stabilizing slide groove 25 is reduced, namely the force applied by the cover stabilizing slide block 23 in the cover stabilizing slide groove 25 is reduced, and the cover stabilizing slide block 23 gradually retracts into the cover stabilizing slide groove 25 under the action of the cover stabilizing spring 24, and the unlocking of the multi-cover slide block clamping groove 22 is realized. Eventually complete opening of the closure 16 is achieved.

The second step is that: and putting the display into the box and cleaning two side surfaces of the display. The display is placed in the cabinet cavity 11. In this process, due to the symmetrical arrangement of the cleaning devices (cleaning air bag 64, cleaning chute 62, cleaning main slider 63, cleaning wiping layer 59, cleaning roller 58, cleaning spindle 56, cleaning slide 61), the display will be substantially centered in the cabinet chamber 11 (when the display is tilted too much, the cleaning wiping layer 59 will abut against the outer surface of the display, the cleaning wiping layer 59 will pass through the cleaning roller 58, the cleaning roller 58 will pass through the cleaning spindle 56 for the purpose of transmitting the force to the cleaning slide 61, the cleaning slide 61 will have a tendency to move the cleaning main slider 63 to cause a possible sliding movement in the cleaning chute 62, during which tendency the cleaning air bag 64 inevitably exerts a certain damping, which will then be transmitted in a relatively gentle manner to the outer surface of the display through the cleaning spindle 56, the cleaning roller 58 and the cleaning wiping layer 59 by the cleaning main slider 63 and the cleaning slide 61, no direct impact resistance is created because of the presence of the cleaning wipe layer 59. When the cleaning air bag 64 is inclined by a larger amount, the air is blown to clean the outer surface of the display, and the specific steps are detailed in the fifth step and are not described in detail herein). As the display progresses further, the cleaning wipe layer 59 abuts the outer surface of the display. And the cleaning wiping layer 59 and the cleaning roller 58 are moved to rotate, so that the cleaning wiping layer 59 cleans the outer surface of the display. Meanwhile, as the cleaning roller 58 drives the cleaning wiping layer 59 to rotate, the cleaning auxiliary sliding block 71 periodically pops out of the cleaning auxiliary sliding groove 69 to be clamped into the cleaning roller clamping groove 57 under the action of the cleaning auxiliary spring 70, and periodically slides out of the cleaning roller clamping groove 57 due to the end shape of the cleaning auxiliary sliding block and retracts into the cleaning auxiliary sliding groove 69. In the process, the cleaning wiping layer 59 realizes the function of periodical shaking cleaning under the cooperation of the cleaning auxiliary slide block 71 and the cleaning roller clamping groove 57.

The third step: and (5) sucking and clamping by using a sucking disc. As the monitor is further advanced, the bottom of the monitor gradually abuts against the receiving slide 81 and the receiving frame 82. Due to the presence of the receiving spring 84, the receiving link slider spring 88 and the carbon dioxide bladder 40, the receiving slide 81 and the receiving frame 82, and the secondary slide bar 36 and the L-shaped swing frame 32 are in a sprung, uninflated state. When the weight of the display is continuously applied to the receiving slide plate 81 and the receiving frame 82, the auxiliary slide rod 36 gradually presses the carbon dioxide gas bag 40, the receiving connecting slide block 86 gradually presses the receiving connecting slide block spring 88, and meanwhile, the receiving connecting slide block 86 and the auxiliary slide rod 36 gradually receive the reaction force of the receiving connecting slide block spring 88 and the carbon dioxide gas bag 40, and the reaction force is transmitted to the display through the receiving slide plate 81 and the receiving frame 82, so that the force for taking the display is reduced, and the impact and vibration caused by possible unstable taking of the display due to the fact that the display goes deep into the case cavity 11 are reduced. As the weight of the display is continuously applied to the receiving slide 81 and the receiving rack 82, the following state is finally achieved. The receiving slide 81 overcomes the resistance of the receiving spring 84, and the receiving slide 81 retracts into the receiving frame 82. The female connection slider 86 retracts into the female connection slider chute 87 against the resistance of the female connection slider spring 88. The secondary slide bar 36 is retracted into the secondary slide block slide cavity 41 by the secondary slide block 42 squeezing the carbon dioxide bladder 40. The L-shaped swing frame 32 rotates about the L-shaped swing frame rotation shaft 33, the swing rotation shaft 28 performs a sliding motion in the swing slide 26 in the swing slide sliding groove 27, and the swing slide 26 may perform a rotating motion about the main slide rotation shaft 29 in the main slide swinging groove 31 of the main slide 30. The auxiliary sliding rod 36 drives the L swing frame 32 to displace to a certain extent through the L swing frame rotating shaft 33, the L swing frame 32 drives the swing sliding rod 26 to displace to a certain extent through the swing rotating shaft 28, and the swing sliding rod 26 drives the main sliding block 30 to overcome the resistance of the main spring 34 through the main sliding block rotating shaft 29 to perform a certain possible sliding motion. Along with the gradual rotation of the L swing frame 32, the L swing frame 32 gradually approaches to a vertical state, the adsorption control slider 78 slides towards the adsorption control sliding groove 79 by overcoming the resistance of the adsorption control spring 80 under the action of the gravity of the adsorption control slider 78, and presses the hydraulic oil in the adsorption control sliding groove 79 and the adsorption hydraulic cavity 72 to enter the adsorption sliding cavity 75 through the adsorption hydraulic channel 73, the hydraulic oil moves the adsorption slider 74 to slide outwards, the adsorption slider 74 drives the adsorption sliding rod 76 to slide out, the adsorption sliding rod 76 drives the adsorption bottom plate 77 to slide out, and the adsorption bottom plate 77 drives the adsorption sucker 44 to eject out. When the display is completely placed in the case cavity 11 of the case 10, the carbon dioxide air bag 40 is pressed to the limit position by the auxiliary sliding block 42, and a part of the case 10 enters the air bag frame cavity 38 of the air bag frame 39 and blocks the opening of the puncture chute 90.

The fourth step: the cover is stuck. The cover handle 17 is taken by hand, and the cover handle 17 drives the cover 16 to be clamped back to the opening on the case 10. The sealing cover 16 extrudes the sealing cover trigger slide block 15 to retract the sealing cover trigger slide groove 13 against the resistance of the sealing cover trigger spring 14, the hydraulic oil in the sealing cover trigger slide groove 13 also enters the sealing cover stabilizing slide groove 25 through the sealing cover connecting channel 12, and then the sealing cover stabilizing slide block 23 is pushed to be clamped into the sealing cover slide block clamping groove 22 against the resistance of the sealing cover stabilizing spring 24. The locking of the cover slider 20 and the limiting of the cover 16 are achieved. The capping slider 20 may also drive the capping slider rubber layer 21 against the upper surface of the display due to the presence of the capping spring 19.

The fifth step: and (4) transporting and storing. The cabinet 10 with the display therein is truck shipped and stored. In the transportation process, when the vibration in the design range is met, the carbon dioxide air bag 40 drives the auxiliary slide bar 36 through the auxiliary slide block 42, the auxiliary slide bar 36 drives the L swing frame 32 through the L swing frame rotating shaft 33, meanwhile, the main spring 34 drives the main slide block rotating shaft 29 through the main slide block 30, the main slide block rotating shaft 29 is driven through the swing slide bar 26, and the swing slide bar 26 drives the swing rotating shaft 28 through the swing slide bar sliding groove 27 and then drives the L swing frame 32 to achieve the damping effect. The receiving connecting slide block spring 88 can also drive the receiving connecting slide block 86 to achieve a certain damping effect through the receiving rotating shaft 85 and the receiving frame 82. In the transportation process, when the display shell transversely shakes within a designed range, the cleaning wiping layer 59 abutted against the display shell drives the cleaning rotating shaft 56 to displace to a certain extent through the cleaning roller 58, the cleaning rotating shaft 56 drives the cleaning sliding rod 61 to displace to a certain extent, the cleaning sliding rod 61 drives the cleaning main sliding block 63 to slide to a certain extent in the cleaning sliding chute 62, along with the sliding of the cleaning main sliding block 63, the cleaning main sliding block 63 can extrude the cleaning air bag 64 at irregular periodic intervals and with irregular force, when the cleaning air bag 64 is extruded by the cleaning main sliding block 63, the gas in the cleaning air bag 64 enters the air injection cleaning sliding cavity 47 of the air injection cleaning sliding body 48 through the air injection cleaning fixed air passage 55, the gas is divided into two parts at the moment, one part pushes the air injection cleaning inner sliding block 54 to slide in the air injection cleaning sliding cavity 47 in the air injection cleaning sliding body 48, and the air injection cleaning inner sliding block 54 drives the air injection cleaning sliding rod 46 to slide, the air injection cleaning sliding rod 46 drives the air injection cleaning outer sliding block 49 to slide out in the air injection cleaning sliding groove 50 against the resistance of the air injection cleaning spring 51, and the other part enters the two-way nozzle 53 through the air injection cleaning air moving passage 52 to be sprayed out and blown on the outer surface of the display to realize the cleaning function. After the cleaning main sliding block 63 is pressed by contacting the cleaning air bag 64, the cleaning air bag 64 is recovered under the action of the restoring elastic force of the cleaning air bag 64, and air is sucked from the bidirectional nozzle 53 through the air injection cleaning fixed air passage 55, the air injection cleaning sliding cavity 47 and the air injection cleaning movable air passage 52; meanwhile, the outer air injection cleaning sliding block 49 moves the inner air injection cleaning sliding block 54 to slide through the air injection cleaning sliding rod 46 under the action of the elastic force of the air injection cleaning spring 51, and pushes the air in the air injection cleaning sliding cavity 47 back into the cleaning air bag 64 of the cleaning sliding groove 62 through the air injection cleaning fixed air passage 55, so that the cleaning air bag 64 is helped to recover. In the transportation process, when the display transversely shakes beyond the design range, except for the movement (in the process, most of impact force is absorbed), along with the gradual sliding of the cleaning slide bar 61 into the cleaning sliding groove 62, the cleaning slide bar clamping groove 60 is also gradually close to the cleaning slide bar limiting slide block 68, when the cleaning slide bar clamping groove 60 is communicated with the cleaning slide bar limiting slide groove 65, the cleaning slide bar limiting slide block 68 pops out along the cleaning slide bar limiting slide groove 65 under the action of the cleaning slide bar limiting spring 66 and is clamped into the cleaning slide bar clamping groove 60, the locking of the cleaning slide bar 61 is realized, and then the loss of the display caused by the transverse shaking beyond the design range is reduced. During transport and storage, and with the display in the cabinet cavity 11 of the cabinet 10, when a sudden high temperature exceeding the design range is encountered, the liquid in the heat receiving bag 94 vaporizes and expands. Then the heated sliding block 95 is pushed to slide in the heated cavity 93, and the heated sliding block 95 pushes the heated sliding rod 96 to drive the puncture needle 89 thereon to slide in the puncture chute 90, and finally puncture the carbon dioxide gas bag 40. The gas in the carbon dioxide air bag 40 overflows into the air bag frame cavity 38 of the air bag frame 39, the resistance of the carbon dioxide air bag 40 to the auxiliary slide block 42 is reduced to an extremely low level due to the overflow of the gas in the carbon dioxide air bag 40, the auxiliary slide block 42 is in contact with the upper part and the lower part of the auxiliary slide block slide cavity 41 of the auxiliary slide block slide body 43, the auxiliary slide rod 36 is also reduced to the lowest designed position, the auxiliary slide rod air passage 37 is communicated with the auxiliary slide block slide cavity 41 of the auxiliary slide block slide body 43 and the case cavity 11 of the case 10, the air bag frame cavity 38 of the air bag frame 39 is completely communicated with the auxiliary slide block slide cavity 41 of the auxiliary slide block slide body 43, the gas in the carbon dioxide air bag 40 also enters the auxiliary slide block slide cavity 41 of the auxiliary slide block slide body 43 and finally enters the case cavity 11 of the case 10 through the auxiliary slide rod air passage 37, and a flame-retardant environment is formed, so that the loss is reduced as much as possible. When no display is placed in the cabinet cavity 11 of the cabinet 10, the carbon dioxide air bag 40 is not squeezed and does not enter the air bag frame cavity 38 of the air bag frame 39 even if the liquid in the heat receiving bag 94 is vaporized and expanded because the L-shaped swing frame 32, the main spring 34, the auxiliary sliding rod 36 and the auxiliary sliding block 42 are not stressed. Then the heated sliding block 95 is pushed to slide in the heated cavity 93, the heated sliding block 95 pushes the heated sliding rod 96 to drive the puncture needle 89 thereon to slide to the limit position in the puncture chute 90, and the puncture needle 89 cannot puncture the carbon dioxide airbag 40.

And a sixth step: the lid is opened and the display is taken. The cover handle 17 is taken by hand, and the cover 16 is driven to move upwards by the cover handle 17. During the upward movement of the closure 16, the compression of the closure trigger slider 15 is gradually released (relative displacement of the closure slider 20 and the closure 16 is achieved due to the presence of the closure spring 19). The cover triggering slide block 15 extends out under the action of the cover triggering spring 14, and then absorbs the hydraulic oil originally in the cover stabilizing slide groove 25 into the cover triggering slide groove 13, so that the hydraulic oil in the cover stabilizing slide groove 25 is reduced, namely the force applied by the cover stabilizing slide block 23 in the cover stabilizing slide groove 25 is reduced, and the cover stabilizing slide block 23 gradually retracts into the cover stabilizing slide groove 25 under the action of the cover stabilizing spring 24, and the unlocking of the multi-cover slide block clamping groove 22 is realized. Eventually complete opening of the closure 16 is achieved. Since the carbon dioxide bladder 40, the main spring 34, the receiving link slider spring 88 and the receiving spring 84 are all in a compressed state, the carbon dioxide bladder 40, the main spring 34, the receiving link slider spring 88 and the receiving spring 84 provide an upward resultant force to the display during the taking process to facilitate the taking.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. An LED display transportation and storage system and a using method thereof are matched, the method is carried out by matching with the LED display transportation and storage system, the LED display transportation and storage system comprises a case (10), a case cavity (11) is formed in the case (10), cleaning sliding grooves (62) are symmetrically formed in the case (10), a cleaning main sliding block (63) capable of sliding in a reciprocating manner is arranged in each cleaning sliding groove (62), a cleaning sliding rod (61) extending to the case cavity (11) is fixedly arranged on each cleaning main sliding block (63), a cleaning rotating shaft (56) capable of rotating freely is arranged on each cleaning sliding rod (61), a cleaning roller (58) is fixedly arranged on each cleaning rotating shaft (56), a cleaning wiping layer (59) is fixedly arranged on each cleaning roller (58), main sliding grooves (35) communicated with the case cavity (11) are symmetrically formed in the case (10), each main sliding groove (35) is internally provided with a main sliding block (30) capable of sliding in a reciprocating manner, each main sliding block (30) is provided with a main sliding block swinging groove (31), each main sliding block swinging groove (31) is fixedly provided with a main sliding block rotating shaft (29), each main sliding block rotating shaft (29) is provided with a plurality of rotating swinging sliding rods (26), each swinging sliding rod (26) is internally provided with a swinging sliding rod sliding groove (27), each swinging sliding rod sliding groove (27) is internally provided with a plurality of swinging rotating shafts (28) capable of sliding and rotating freely, each machine box cavity (11) is symmetrically provided with an auxiliary sliding block sliding body (43), each auxiliary sliding block sliding body (43) is internally provided with an auxiliary sliding block sliding cavity (41), each auxiliary sliding block sliding cavity (41) is provided with an auxiliary sliding block (42) capable of sliding in a reciprocating manner, each auxiliary sliding block (42) is fixedly provided with an auxiliary sliding rod (36), each auxiliary sliding rod (36) is provided with an L-shaped swinging frame rotating shaft (33) capable of rotating freely, an L-shaped swing frame (32) is fixedly arranged between each L-shaped swing frame rotating shaft (33) and the swing rotating shaft (28) which is positioned on the same side.

2. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: each cleaning roller (58) is uniformly provided with a plurality of cleaning roller clamping grooves (57), each cleaning sliding rod (61) is provided with a cleaning auxiliary sliding groove (69), each cleaning auxiliary sliding groove (69) is internally provided with a cleaning auxiliary sliding block (71) which can slide in a reciprocating manner and can drive a cleaning wiping layer (59) to enter the cleaning roller clamping groove (57), and a cleaning auxiliary spring (70) is fixedly arranged between each cleaning auxiliary sliding block (71) and the cleaning auxiliary sliding groove (69).

3. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: every clean slide bar (61) have seted up clean slide bar draw-in groove (60) along its geometric centre line symmetry, machine case (10) are every clean slide bar spacing spout (65) have been seted up to the geometric centre line bilateral symmetry of clean slide bar (61), every be equipped with in clean slide bar spacing spout (65) and can block in clean slide bar draw-in groove (60) and restriction clean slide bar draw-in groove (60) gliding clean slide bar spacing slider (68), every clean slide bar spacing slider (68) with clean slide bar spacing spring (66) have set firmly between slide bar spacing spout (65).

4. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: a cleaning air bag (64) with high resilience is arranged in the cleaning sliding groove (62).

5. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: the machine case (10) is symmetrically provided with air injection cleaning sliding grooves (50) along two sides of a geometric center line of the cleaning sliding rod (61), each air injection cleaning sliding groove (50) is fixedly provided with an air injection cleaning sliding body (48), an air injection cleaning sliding cavity (47) is formed in each air injection cleaning sliding body (48), each air injection cleaning sliding cavity (47) is provided with an air injection cleaning inner sliding block (54) capable of sliding in a reciprocating manner, each air injection cleaning inner sliding block (54) is fixedly provided with an air injection cleaning sliding rod (46) extending out of the air injection cleaning sliding body (48), each air injection cleaning sliding rod (46) is fixedly provided with an air injection cleaning outer sliding block (49) capable of sliding in the air injection cleaning sliding groove (50) in a reciprocating manner, an air injection cleaning spring (51) is fixedly arranged between each air injection cleaning outer sliding block (49) and the air injection cleaning sliding groove (50), and each air injection cleaning outer sliding block (49) is provided with a two-way nozzle (53) facing the machine case cavity (11), an air-jet cleaning air moving channel (52) communicated with the air-jet cleaning sliding cavity (47) and the two-way nozzle (53) is fixedly arranged in each air-jet cleaning outer sliding block (49), each air-jet cleaning sliding rod (46) and each air-jet cleaning inner sliding block (54), and a cleaning rotating shaft (56) communicated with the air-jet cleaning sliding cavity (47) and the inner cavity of the cleaning air bag (64) is fixedly arranged in each case (10).

6. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: every L rocker (32) has been seted up and has been adsorbed smooth chamber (75), every be equipped with in the smooth chamber of absorption (75) and can reciprocate gliding absorption slider (74), every be set firmly on absorption slider (74) and stretch out absorption slide bar (76) of L rocker (32), every be set firmly on absorption slide bar (76) and adsorb bottom plate (77), every be set firmly on absorption bottom plate (77) and adsorb sucking disc (44), every adsorb sucking disc chamber (45) has been seted up in sucking disc (44), every be seted up on L rocker (32) and be equipped with the absorption hydraulic pressure chamber (72) of hydraulic oil, every set up on L rocker (32) with absorption control spout (79) that adsorbs hydraulic pressure chamber (72) intercommunication, every be equipped with in absorption control spout (79) and can reciprocate gliding eager gram will adsorb hydraulic pressure chamber (72) with hydraulic oil extrusion gets into in absorption control spout (79 the absorption control of the smooth chamber (75) The adsorption control device comprises sliding blocks (78), an adsorption control spring (80) is fixedly arranged between each adsorption control sliding block (78) and the adsorption control sliding groove (79), and an adsorption hydraulic channel (73) communicated with the adsorption hydraulic cavity (72) and the adsorption sliding cavity (75) is formed in each L-shaped swinging frame (32).

7. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: each L-shaped swing frame (32) is provided with a bearing connecting slide block sliding groove (87), each bearing connecting slide block sliding groove (87) is provided with a bearing connecting slide block (86) capable of sliding in a reciprocating mode, each bearing connecting slide block (86) and a bearing connecting slide block spring (88) are fixedly arranged between the bearing connecting slide block sliding grooves (87), each bearing connecting slide block (86) is provided with a bearing rotating shaft (85) capable of rotating freely, each bearing rotating shaft (85) is fixedly provided with a bearing frame (82), each bearing frame (82) is provided with a bearing sliding groove (83), a bearing sliding plate (81) capable of sliding in a reciprocating mode is arranged in each bearing sliding groove (83), and each bearing sliding plate (81) and each bearing spring (84) are fixedly arranged between the bearing sliding grooves (83).

8. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: a carbon dioxide air bag (40) which can be extruded by the auxiliary sliding block (42) and is filled with carbon dioxide is arranged in the auxiliary sliding block sliding cavity (41), the machine case (10) is provided with heated cavities (93), each heated cavity (93) is internally provided with a heated bag (94) which is full of easy vaporization, each heated cavity (93) is internally provided with a heated sliding block (95) which can slide to and fro, a puncture sliding groove (90) is fixedly arranged between the air bag frame (39) and the heat receiving cavity (93), a heat receiving sliding rod (96) capable of sliding in the puncture sliding groove (90) in a reciprocating manner is fixedly arranged on each heat receiving sliding block (95), the heating slide bars (96) are fixedly provided with puncture needles (89) capable of puncturing the carbon dioxide air bags (40), and each auxiliary slide bar air passage (37) is internally provided with an auxiliary slide bar air passage (37) capable of switching on and off the auxiliary slide block sliding cavity (41) and the case cavity (11).

9. The LED display transportation and storage system and the use method thereof according to claim 1, wherein: a detachable sealing cover (16) facilitating the placement and removal of a display is arranged on the case (10), a sealing cover handle (17) is fixedly arranged on the sealing cover (16), a sealing cover sliding groove (18) is formed in the sealing cover (16), a sealing cover sliding block (20) capable of sliding in a reciprocating manner is arranged in the sealing cover sliding groove (18), a sealing cover spring (19) is fixedly arranged between the sealing cover sliding block (20) and the sealing cover sliding groove (18), a plurality of sealing cover sliding block clamping grooves (22) are symmetrically formed in the sealing cover sliding block (20), a sealing cover sliding block rubber layer (21) capable of fastening the display is fixedly arranged on the sealing cover sliding block (20), sealing cover triggering sliding grooves (13) with the number being identical to that of the sealing cover sliding block clamping grooves (22) are symmetrically formed in the case (10), and a sealing cover triggering sliding block (15) capable of sliding in a reciprocating manner and capable of being extruded back to the sealing cover triggering sliding groove (13) by the sealing cover (16) is arranged in each sealing cover triggering sliding groove (13), every closing cap triggers slider (15) with closing cap trigger spring (14) have set firmly between spout (13), quick-witted case (10) symmetry seted up quantity with spout (25) are stabilized to the closing cap that closing cap slider draw-in groove (22) is unanimous, every be equipped with in the spout (25) is stabilized to the closing cap and can block in reciprocating sliding and can block in slider (23) is stabilized to the closing cap of closing cap slider draw-in groove (22), every slider (23) is stabilized to the closing cap with closing cap stabilizing spring (24) have set firmly between spout (25) is stabilized to the closing cap, quick-witted case (10) have seted up and have communicateed closing cap trigger spout (13) with closing cap even way (12) of spout (25) are stabilized to the closing cap.

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