CN116321985B

CN116321985B - Multimedia screen with cooling structure

Info

Publication number: CN116321985B
Application number: CN202310361914.XA
Authority: CN
Inventors: 缪燕宁; 黄瑞娟; 汪宏伟; 徐东成; 梁荣桂
Original assignee: Jiangyin Furen High Tech Co Ltd
Current assignee: Jiangyin Furen High Tech Co Ltd
Priority date: 2023-04-07
Filing date: 2023-04-07
Publication date: 2024-02-27
Anticipated expiration: 2043-04-07
Also published as: CN116321985A

Abstract

The invention discloses a multimedia screen with a cooling structure, which belongs to the technical field of filling devices, and particularly relates to a multimedia screen with a cooling structure, comprising filling equipment, a battery, a water cooling heat dissipation unit, a screen cooling structure and a screen cooling structure, wherein the filling equipment is arranged beside a parking space and used for filling a new energy automobile, the battery is arranged at the inner bottom end of the filling equipment and used for supplying power to the internal device of the filling equipment, the water cooling heat dissipation unit is arranged in the middle of the inner part of the filling equipment and can circularly drive water cooling and can dissipate heat of cooling liquid after absorbing heat, the multimedia screen is arranged at the inner upper end of the filling equipment and can select and control the filling operation, and the screen cooling structure is arranged at the rear end of the multimedia screen and connected with the water cooling heat dissipation unit for dissipating heat of the multimedia screen.

Description

Multimedia screen with cooling structure

Technical Field

The invention relates to the technical field of filling devices, in particular to a multimedia screen with a cooling structure.

Background

When the existing multimedia screen of the filling device is used, the multimedia screen can generate heat due to the fact that the multimedia screen needs to be projected with a light source, the multimedia screen is required to be cooled for normal operation of the multimedia screen, normal use of the multimedia screen is guaranteed, short circuits of lines are prevented, and due to the fact that the filling device is placed in different areas, some filling devices are placed outdoors, sunlight outside the air irradiates the multimedia screen, the heat generated by the multimedia screen is far higher than the heat generated by projection of the multimedia screen, if a common cooling structure is adopted, heat dissipation under different environments cannot be adapted, and therefore the multimedia screen with the cooling structure is provided.

Disclosure of Invention

The present invention has been made in view of the above and/or problems occurring in the prior art of a multimedia screen with a cooling structure.

Therefore, the invention aims to provide a multimedia screen with a cooling structure, which can accelerate the flow of cooling liquid through the design of the screen cooling structure and the water flow accelerating device, so that the cooling liquid can take away more heat in the multimedia screen, and further the heat dissipation degree of the multimedia screen can be adjusted, and the existing problems can be solved.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a multimedia screen with cooling structure, comprising:

the filling equipment is arranged beside the parking space and is used for filling the new energy automobile;

the battery is arranged at the inner bottom end of the filling equipment and is used for supplying power to the inner device of the filling equipment;

the water cooling heat dissipation unit is arranged in the middle of the inside of the filling equipment, can circularly drive water cooling, and can dissipate heat of cooling liquid after heat absorption;

the multimedia screen is arranged at the upper end of the interior of the filling equipment and can select and control filling operation;

the screen cooling structure is arranged at the rear end of the multimedia screen, is connected with the water cooling heat sink unit and is used for radiating heat of the multimedia screen;

the water flow accelerating device is arranged at two ends of the inner wall of the filling equipment, is connected between the screen cooling structure and the water cooling heat dissipation unit, and can accelerate the flow rate of cooling liquid.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the filling device comprises:

the box body can be used for placing the device inside;

the radiator unit brackets are arranged on two sides of the middle of the inner wall of the box body and can be used for installing the water-cooling radiator unit;

the multimedia screen supports are arranged on two sides of the upper end of the inner wall of the box body and can support and place the multimedia screen;

the water cooling pipe support is arranged at two ends of the inner wall of the box body and can fix the water cooling connecting pipeline.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the water cooling heat dissipation unit comprises:

the water cooling unit is arranged between the two groups of heat dissipation unit brackets, can be used for placing and dissipating heat of the cooling liquid and circularly conveying the cooling liquid;

the main water outlet pipe is connected with the output end of the water cooling unit, and the other end of the main water outlet pipe is connected with the input end of the water flow accelerating device;

the main water inlet pipe is arranged at the input end of the water cooling unit, and the other end of the main water inlet pipe is connected with the output end of the water flow accelerating device.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the screen cooling structure includes:

the heat conducting fin is connected to the rear end of the multimedia screen and can absorb heat of the multimedia screen;

the double-channel water cooling component is arranged in the heat conducting fin and can perform water cooling and heat dissipation on the surface of the heat conducting fin;

the adjusting component is arranged at the input end of the double-channel water cooling component and can be used for adjusting the channel of the double-channel water cooling component;

and the adjusting motor is arranged at the rear end of the inside of the box body, and the output end of the adjusting motor is connected with the outer wall of the belt pulley through belt transmission.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the double-channel water cooling assembly comprises:

the water cooling pipe is arranged inside the heat conducting fin and is formed by concentric pipes and a torrent pipe;

a concentric tube disposed inside the water-cooled tube;

and the laser tube is arranged outside the concentric tubes and is arranged in a heart shape.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the adjustment assembly includes:

the steel sleeve is rotationally connected with the belt pulley on the outer wall, and the inner wall is provided with internal threads which are in threaded connection with the external thread blocks;

the limiting cylinder is arranged at the left end of the steel sleeve, and a limiting groove is formed in the inner wall of the limiting cylinder;

the blocking piece is connected to the left end of the outer wall of the external thread block, is connected in the limiting groove in a sliding manner, and can be driven by the steel sleeve, so that the left end of the outer wall is in close contact with the inner pipeline of the concentric connecting pipeline;

and one end of the concentric connecting pipeline is connected with the limiting cylinder, and the other end of the concentric connecting pipeline is connected with the input end of the water cooling pipe.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the water flow accelerating device comprises:

the accelerating assembly is arranged at two ends of the inner wall of the box body and is two groups, the left end of the bottom of the accelerating assembly on the left side is connected with the main water inlet pipe, the top of the accelerating assembly is connected with the right side port of the steel sleeve, the left end of the bottom of the accelerating assembly on the right side is connected with the main water outlet pipe, and the top of the accelerating assembly is connected with the output end of the water cooling pipe.

As a preferred embodiment of the multimedia screen with cooling structure according to the present invention, the following is adopted: the acceleration assembly includes:

mounting plates arranged at two ends of the inner wall of the box body;

the sealing transparent cylinder is arranged on the inner wall of the mounting plate and can store condensate inside;

the water wheel is rotationally connected in the sealing transparent cylinder and can rotate condensate of the sealing transparent cylinder.

a placing plate arranged at the rear end of the inner wall of the box body;

the front end of the accelerating gear is connected with the rear end of the water wheel, and the rear end of the accelerating gear is rotationally connected with the two sides of the front end of the placing plate and is arranged into two groups;

the first follow-up gear is rotationally connected to two sides of the front end of the placement plate, and the right end of the outer wall is meshed with the left end of the outer wall of the accelerating gear;

the second follow-up gears are rotatably connected to two sides of the front end of the placement plate, the right end of the outer wall is meshed with the left end of the outer wall of the first follow-up gears, and the two groups of the second follow-up gears are arranged;

the driving gear is rotationally connected to the center of the front end of the placement plate, the right end of the outer wall is meshed with the left end of the outer wall of the right second follow-up gear, and the left end of the outer wall is meshed with the right end of the outer wall of the left second follow-up gear;

and the driving motor is arranged at the center of the rear end of the placing plate, and the output end of the driving motor is connected with the driving gear.

Compared with the prior art:

the cooling fan is arranged in the water cooling heat dissipation unit to dissipate heat of the cooling liquid after heat absorption, the water tank arranged at the rear end of the water cooling heat dissipation unit can store the cooling liquid, and the water pump is arranged in the water tank to enable the cooling liquid to circularly operate;

the temperature sensor is arranged in the multimedia screen, and when the temperature is too high, the screen cooling structure and the water flow accelerating device can be driven to drive, so that the flow speed of cooling liquid can be accelerated, and the multimedia screen can be rapidly cooled;

through the design of the two-channel water cooling component and the adjusting component of the screen cooling structure, when the heat is too high, the adjusting component is driven to enable the cooling liquid to enter the laser pipe for accelerating the flow, so that the cooling liquid can take away more heat in the multimedia screen through accelerating the flow of the cooling liquid, the heat dissipation degree of the multimedia screen can be adjusted, and various environments can be conveniently adapted;

through the acceleration component design of rivers accelerating device, when the temperature is too high, rotate the inside water wheel of acceleration component through starting accelerating gear for the speed of coolant liquid, and then increase the heat dissipation to the multimedia screen.

Drawings

FIG. 1 is a schematic diagram of an overall front view structure provided by the present invention;

FIG. 2 is a schematic diagram of the internal structure of the filling device according to the present invention;

FIG. 3 is a schematic diagram of a connection structure of a water-cooled heat sink unit according to the present invention;

FIG. 4 is a schematic diagram of a rear view of a screen cooling structure according to the present invention;

FIG. 5 is a schematic diagram of a connection structure of a screen cooling structure according to the present invention;

FIG. 6 is a schematic diagram of a cross-sectional structure of a dual-channel water cooling module according to the present invention;

FIG. 7 is a schematic diagram of a disassembly structure of an adjusting assembly according to the present invention;

fig. 8 is a schematic diagram of a connection structure of a water flow accelerating device provided by the invention.

In the figure: the filling device 1, the box 11, the radiator support 12, the multimedia screen support 13, the water cooling pipe support 14, the battery 2, the water cooling radiator 3, the water cooling unit 31, the total water outlet pipe 32, the total water inlet pipe 33, the multimedia screen 4, the screen cooling structure 5, the heat conducting fin 51, the double-channel water cooling component 52, the water cooling pipe 521, the concentric pipe 522, the torrent pipe 523, the adjusting component 53, the steel sleeve 531, the rotating cylinder 532, the limiting cylinder 533, the limiting groove 534, the belt pulley 535, the external thread block 536, the blocking piece 537, the concentric connecting pipe 538, the adjusting motor 54, the water flow accelerating device 6, the accelerating component 61, the mounting plate 611, the sealing transparent cylinder 612, the water wheel 613, the accelerating gear 62, the placing plate 63, the first following gear 64, the second following gear 65, the driving gear 66 and the driving motor 67.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The invention provides a multimedia screen with a cooling structure, which has the advantages that the cooling liquid can take away more heat in the multimedia screen 4 by accelerating the flow of the cooling liquid, so that the heat dissipation degree of the multimedia screen 4 can be adjusted, and the multimedia screen is convenient to adapt to various environments, and referring to figures 1-8, the multimedia screen comprises filling equipment 1, a battery 2, a water cooling heat dissipation unit 3, the multimedia screen 4, a screen cooling structure 5 and a water flow accelerating device 6;

filling equipment 1, it sets up with the parking stall by, and annotates new energy automobile, filling equipment 1 includes: the device comprises a box body 11, a heat radiation unit support 12, a multimedia screen support 13 and a water cooling pipe support 14, wherein the box body 11 is internally provided with the heat radiation unit support 12, the heat radiation unit support 12 is arranged on two sides in the middle of the inner wall of the box body 11 and can be used for installing the water cooling unit 3, the multimedia screen support 13 is arranged on two sides of the upper end of the inner wall of the box body 11 and can be used for supporting and placing the multimedia screen 4, and the water cooling pipe support 14 is arranged at two ends of the inner wall of the box body 11 and can be used for fixing a water cooling connecting pipeline.

And a battery 2 provided at an inner bottom end of the filling apparatus 1 and for supplying power to the internal devices of the filling apparatus 1.

The water cooling unit 3, it sets up in the middle of the inside of filling equipment 1, and can circulate the drive to the water cooling to can dispel the heat to the coolant liquid after the heat absorption, be equipped with radiator fan through the inside of water cooling unit 3 and can dispel the heat to the coolant liquid after the heat absorption, can store the coolant liquid through the water tank that the water cooling unit 3 rear end set up, and the inside water pump that is equipped with of water tank, can make the coolant liquid circulate the operation, water cooling unit 3 includes: the water cooling unit 31, the total outlet pipe 32 and the total inlet pipe 33, the water cooling unit 31 is installed between two groups of heat dissipation unit brackets 12, cooling liquid can be placed and dissipated, the cooling liquid is circularly conveyed, the total outlet pipe 32 is connected to the output end of the water cooling unit 31, the other end of the total outlet pipe 32 is connected to the input end of the water flow accelerating device 6, the total inlet pipe 33 is arranged at the input end of the water cooling unit 31, and the other end of the total inlet pipe 33 is connected to the output end of the water flow accelerating device 6.

The multimedia screen 4 is arranged at the upper end of the inside of the filling equipment 1, can select and control filling operation, is internally provided with a temperature sensor, and can drive the screen cooling structure 5 and the water flow accelerating device 6 to drive when the temperature is too high, so that the flow rate of cooling liquid can be accelerated, and the multimedia screen 4 can be rapidly cooled;

the screen cooling structure 5, it sets up the rear end at multi-media screen 4, and be connected with water cooling heat dissipation unit 3, dispel the heat to multi-media screen 4, through the design of the binary channels water-cooling component 52 and the adjusting part 53 of screen cooling structure 5, can be when the heat is too high, through driving adjusting part 53, make the coolant liquid get into in the shock tube 523, flow with higher speed, thereby flow through accelerating the coolant liquid, make the coolant liquid can take away the inside more heat of multi-media screen 4, and then can adjust the heat dissipation degree of multi-media screen 4, the convenient adaptation all kinds of environment, screen cooling structure 5 includes: the heat conducting fin 51, the double-channel water cooling component 52, the water cooling pipe 521, the concentric pipe 522, the torrent pipe 523, the adjusting component 53, the steel sleeve 531, the rotating cylinder 532, the limiting cylinder 533, the limiting groove 534, the belt pulley 535, the external thread block 536, the blocking piece 537, the concentric connecting pipe 538 and the adjusting motor 54, the heat conducting fin 51 is connected at the rear end of the multimedia screen 4 and can absorb the heat of the multimedia screen 4, the double-channel water cooling component 52 is arranged inside the heat conducting fin 51 and can conduct water cooling heat dissipation on the surface of the heat conducting fin 51, the cooling liquid can flow in an accelerating way and can be prevented from flowing back through the design of the double-channel water cooling component 52, the adjusting component 53 is arranged at the input end of the double-channel water cooling component 52 and can conduct channel adjustment on the double-channel water cooling component 52, the adjusting motor 54 is arranged at the rear end inside the box 11, the output end is connected with the outer wall of the adjusting component 53 through belt transmission, the water cooling pipe 521 is arranged in the heat conducting fin 51 and is formed by combining a concentric pipe 522 and a shock pipe 523, the concentric pipe 522 is arranged in the water cooling pipe 521, the shock pipe 523 is arranged on the outer side of the concentric pipe 522 and is arranged in a heart shape, the principle is a Telas conduit, a steel sleeve 532, the outer wall of the steel sleeve is rotationally connected with a belt pulley 535, the inner wall is provided with internal threads and is in threaded connection with an external thread block 536, a limiting cylinder 533 is arranged at the left end of the steel sleeve 532, the inner wall is provided with a limiting groove 534, a blocking piece 536 is connected at the left end of the outer wall of the external thread block 536 and is in sliding connection with the inside of the limiting groove 534, the blocking piece can be driven by the steel sleeve 532, the left end of the outer wall is in close contact with an inner pipeline of the concentric connecting pipeline 538, one end of the concentric connecting pipeline 538 is connected with the limiting cylinder 533, and the other end of the concentric connecting pipeline 538 is connected with the input end of the water cooling pipe 521, through the rotation of the adjusting motor 54, the belt pulley 535 and the rotating cylinder 532 are driven to rotate, so that the rotating cylinder 532 drives the external thread block 536 to move to the left end in the limiting cylinder 533, and then the blocking piece 536 is propped against the inner pipeline of the concentric connecting pipeline 538, so that the cooling liquid cannot enter the inside of the shock tube 523, the normal cooling effect is realized, and when the heat dissipation needs to be accelerated, the operation is opposite, and the cooling liquid enters the inside of the shock tube 523.

The water flow accelerating device 6 is arranged at two ends of the inner wall of the filling device 1, is connected between the screen cooling structure 5 and the water cooling heat dissipation unit 3, and can accelerate the flow rate of cooling liquid, by the design of the accelerating component 61 of the water flow accelerating device 6, when the temperature is too high, the water wheel 613 in the accelerating component 61 is rotated by starting the accelerating gear 62, the rate of cooling liquid is accelerated, and then the heat dissipation to the multimedia screen 4 is increased, and the water flow accelerating device 6 comprises: the accelerating assembly 61, the mounting plate 611, the sealing transparent tube 612, the water wheel 613, the accelerating gear 62, the placing plate 63, the gear 62, the first following gear 64, the second following gear 65, the driving gear 66 and the driving motor 67, the accelerating assembly 61 is arranged at two ends of the inner wall of the box 11 and is arranged in two groups, the left end at the bottom of the left accelerating assembly 61 is connected with the total water inlet pipe 33, the top is connected with the right port of the steel sleeve 531, the left end at the bottom of the right accelerating assembly 61 is connected with the total water outlet pipe 32, the top is connected with the output end of the water cooling tube 521, the cooling liquid is contacted with the upper right end of the water wheel 613 through the accelerating assembly 61 at the left side, the water wheel 613 is enabled to rotate fast towards the output end, the cooling liquid is enabled to fast carry out the output end of the lower end, the right accelerating assembly 61 is arranged at the two ends of the inner wall of the box 11, the mounting plate 611 is arranged at the inner wall of the mounting plate 611, the sealing transparent tube 612 is arranged at the inner wall of the mounting plate 611, and the inside can store condensate, a water wheel 613 which is rotatably connected inside the sealing transparent cylinder 612 and can rotate condensate of the sealing transparent cylinder 612, a placement plate 63 which is provided at the rear end of the inner wall of the case 11, an acceleration gear 62 whose front end is connected at the rear end of the water wheel 613, rear ends are rotatably connected at both sides of the front end of the placement plate 63 and provided in two groups, a first follower gear 64 which is rotatably connected at both sides of the front end of the placement plate 63 and whose outer wall right end is engaged with the outer wall left end of the acceleration gear 62, a second follower gear 65 which is rotatably connected at both sides of the front end of the placement plate 63 and whose outer wall right end is engaged with the outer wall left end of the first follower gear 64 and provided in two groups, a driving gear 66 which is rotatably connected at the front end center of the placement plate 63 and whose outer wall right end is engaged with the outer wall left end of the right second follower gear 65, the outer wall left end meshes with the outer wall right-hand member of left second follow-up gear 65, and driving motor 67, and its setting is in the rear end center of placing board 63, and output connection driving gear 66, through driving motor 67's drive, makes the rotation direction of two sets of accelerating gear 62 opposite to make the rotation direction of two sets of water wheels 613 opposite, and can make water wheels 613 rotate towards the output port all the time, guarantees the filling direction of coolant liquid.

The utility model provides a take cooling structure multi-media screen, can be used to refuel, hydrogenation, air entrainment, urea machine, charge stake etc. and is not limited to a specific filling equipment.

When the device is specifically used, a person skilled in the art places the filling device 1 in various scenes to use, when the temperature of the multimedia screen 4 is normal, the water cooling heat dissipation unit 3 drives cooling liquid to cool the multimedia screen 4, at this time, the screen cooling structure 5 and the water flow accelerating device 6 are not started, when the temperature of the multimedia screen 4 is abnormal, the water cooling heat dissipation unit 3 starts maximum power, at this time, the driving motor 67 is started, the driving motor 67 drives the two sets of water wheels 613 to rotate, the entry and the output of the cooling liquid are accelerated, the adjusting motor 54 is started, the adjusting motor 54 drives the belt pulley 535 and the rotating cylinder 532 to rotate, the rotating cylinder 532 drives the external thread block 536 to move towards the right end in the limiting cylinder 533, the blocking piece 536 is further separated from the inner pipeline of the concentric connection pipeline 538, the cooling liquid enters the laser pipe 523 to accelerate, so that the cooling liquid rapidly takes away the surface heat of the multimedia screen 4, and further achieves the effect of rapidly cooling the cooling and controlling the temperature of the multimedia screen 4.

Although the invention has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. A take cooling structure multimedia screen which characterized in that: comprising the following steps:

the filling equipment (1) is arranged beside the parking space and is used for filling the new energy automobile;

the battery (2) is arranged at the inner bottom end of the filling equipment (1) and is used for supplying power to the inner device of the filling equipment (1);

the water cooling heat dissipation unit (3) is arranged in the middle of the inside of the filling equipment (1), can circularly drive water cooling, and can dissipate heat of cooling liquid after heat absorption;

the multimedia screen (4) is arranged at the upper end of the inside of the filling equipment (1) and can select and control the filling operation;

the screen cooling structure (5) is arranged at the rear end of the multimedia screen (4) and is connected with the water cooling heat dissipation unit (3) to dissipate heat of the multimedia screen (4);

the water flow accelerating devices (6) are arranged at two ends of the inner wall of the filling equipment (1), are connected between the screen cooling structure (5) and the water cooling heat dissipation unit (3), and can accelerate the flow rate of cooling liquid;

the filling device (1) comprises:

a case (11) in which the device can be placed;

the radiator unit brackets (12) are arranged on two sides of the middle of the inner wall of the box body (11) and can be used for installing the water cooling radiator unit (3);

the multimedia screen supports (13) are arranged on two sides of the upper end of the inner wall of the box body (11) and can support and place the multimedia screen (4);

the water cooling pipe brackets (14) are arranged at two ends of the inner wall of the box body (11) and can fix the water cooling connecting pipeline;

the water cooling heat dissipation unit (3) comprises:

the water cooling unit (31) is arranged between the two groups of heat dissipation unit brackets (12) and can be used for placing and dissipating heat of the cooling liquid and circularly conveying the cooling liquid;

the total water outlet pipe (32) is connected with the output end of the water cooling unit (31), and the other end of the total water outlet pipe is connected with the input end of the water flow accelerating device (6);

the main water inlet pipe (33) is arranged at the input end of the water cooling unit (31), and the other end of the main water inlet pipe is connected with the output end of the water flow accelerating device (6);

the screen cooling structure (5) comprises:

a heat conductive sheet (51) which is connected to the rear end of the multimedia screen (4) and is capable of absorbing heat of the multimedia screen (4);

a two-channel water cooling component (52) which is arranged inside the heat conducting fin (51) and can perform water cooling and heat dissipation on the heat on the surface of the heat conducting fin (51);

the adjusting component (53) is arranged at the input end of the double-channel water cooling component (52) and can be used for adjusting the channel of the double-channel water cooling component (52);

and the adjusting motor (54) is arranged at the rear end of the inside of the box body (11), and the output end of the adjusting motor is connected with the outer wall of the belt pulley (535) through belt transmission.

2. A multimedia screen with cooling structure according to claim 1, characterized in that said two-channel water cooling assembly (52) comprises:

a water cooling pipe (521) which is provided inside the heat conductive sheet (51) and is formed by combining a concentric pipe (522) and a torrent pipe (523);

a concentric tube (522) disposed inside the water-cooled tube (521);

and a laser tube (523) which is disposed outside the concentric tube (522) and is provided in a heart shape.

3. A multimedia screen with cooling structure according to claim 1, characterized in that said adjusting assembly (53) comprises:

a steel sleeve (532) with an outer wall rotationally connected with the belt pulley (535) and an inner wall provided with internal threads which are in threaded connection with the external thread blocks (536);

a limit cylinder (533) which is arranged at the left end of the steel sleeve (532) and the inner wall of which is provided with a limit groove (534);

the blocking piece (536) is connected to the left end of the outer wall of the external thread block (536), is slidably connected to the inside of the limiting groove (534), and can be driven by the steel sleeve (532) to enable the left end of the outer wall to be in close contact with the inner pipeline of the concentric connecting pipeline (538);

and one end of the concentric connection pipeline (538) is connected with the limit cylinder (533), and the other end of the concentric connection pipeline is connected with the input end of the water cooling pipe (521).

4. A multimedia screen with cooling structure according to claim 1, characterized in that said water flow acceleration device (6) comprises:

the accelerating assembly (61) is arranged at two ends of the inner wall of the box body (11) and is two groups, the left end of the bottom of the left accelerating assembly (61) is connected with the main water inlet pipe (33), the top of the accelerating assembly is connected with the right side port of the steel sleeve (531), the left end of the bottom of the right accelerating assembly (61) is connected with the main water outlet pipe (32), and the top of the accelerating assembly is connected with the output end of the water cooling pipe (521).

5. A multimedia screen with cooling structure according to claim 4, characterized in that said acceleration assembly (61) comprises:

mounting plates (611) provided at both ends of the inner wall of the case (11);

a sealed transparent tube (612) which is provided on the inner wall of the mounting plate (611) and in which condensate can be stored;

and a water wheel (613) which is rotatably connected to the inside of the sealed transparent cylinder (612) and is capable of rotating the condensate of the sealed transparent cylinder (612).

6. A multimedia screen with cooling structure according to claim 4, characterized in that said water flow acceleration device (6) comprises:

and a placement plate (63) provided at the rear end of the inner wall of the case (11).

7. A multimedia screen with cooling structure according to claim 6, characterized in that said water flow acceleration device (6) comprises:

the front end of the accelerating gear (62) is connected with the rear end of the water wheel (613), and the rear end of the accelerating gear is rotatably connected with the two sides of the front end of the placing plate (63) and is provided with two groups;

the first follow-up gears (64) are rotatably connected to two sides of the front end of the placement plate (63), and the right end of the outer wall is meshed with the left end of the outer wall of the acceleration gear (62);

the second follow-up gears (65) are rotatably connected to the two sides of the front end of the placement plate (63), and the right end of the outer wall is meshed with the left end of the outer wall of the first follow-up gears (64) and are arranged in two groups;

a drive gear (66) which is rotatably connected to the center of the front end of the placement plate (63) and the right end of which is engaged with the left end of the outer wall of the right-side second follower gear (65) and the left end of which is engaged with the right end of the outer wall of the left-side second follower gear (65);

and a driving motor (67) which is arranged at the center of the rear end of the placement plate (63), and the output end of which is connected with a driving gear (66).