CN112188166A - Virtual anchor picture monitoring and processing equipment based on artificial intelligence - Google Patents

Abstract

The invention relates to the technical field of monitoring processing equipment and discloses virtual anchor picture monitoring processing equipment based on artificial intelligence. According to the invention, the electric fan rotates to drive the rotating rod to rotate to extrude the extrusion blocks in the two communicating holes, the extrusion blocks drive the functional blocks to downwards extrude the two linkage blocks, the linkage blocks are extruded to deform the movable springs in the movable grooves, the two linkage blocks drive the movable blocks to downwards move in the main body, when the two ends of the rotating rod are separated from the communicating holes, the movable springs lose extrusion recovery deformation to drive the movable blocks to upwards move in the main body again, and the movable blocks repeatedly move in such a way, so that the air flow speed in the main body is accelerated, the heat dissipation effect in the main body is improved, and the problem that precise electrical components in the monitoring and processing device are damaged due to low heat dissipation effect is solved.

Description

Virtual anchor picture monitoring and processing equipment based on artificial intelligence

Technical Field

The invention relates to the technical field of monitoring processing equipment, in particular to virtual anchor picture monitoring processing equipment based on artificial intelligence.

Background

The monitor is an important component of the closed circuit monitoring system, is a display part of the monitoring system, is a terminal device of the monitoring system, serves as the 'eyes' of monitoring personnel, and plays a key role in post investigation.

The heat dissipation effect of current virtual anchor picture monitoring and processing equipment based on artificial intelligence is not good, is using unable quick effectual to its inside cooling processing that dispels the heat, can cause the damage to its inside accurate electrical components, greatly reduced the device's life, and the filter screen is blockked up to the dust that just silts up on the filter screen after long-time, leads to the radiating effect to reduce. To this end, we propose a virtual anchor picture monitoring processing device based on artificial intelligence.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides virtual anchor picture monitoring and processing equipment based on artificial intelligence, and solves the problems that the existing virtual anchor picture monitoring and processing equipment based on artificial intelligence has poor heat dissipation effect, cannot be used for quickly and effectively performing heat dissipation and cooling treatment on the inside of the equipment, can damage the internal precise electrical components of the equipment, and greatly prolongs the service life of the equipment.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a virtual anchor picture monitoring and processing device based on artificial intelligence comprises a main body and a monitoring and processing device, wherein the monitoring and processing device is arranged in the main body, four supporting legs are fixedly arranged on the lower wall surface of the main body, a fixed block is fixedly arranged on the bottom surface of the main body, a placing groove is formed in the fixed block, the monitoring and processing device is movably clamped in the placing groove, a movable block is movably clamped in the main body corresponding to the upper part of the monitoring and processing device, movable grooves are symmetrically formed in the left side wall surface and the right side wall surface of the main body, linkage blocks movably clamped with the corresponding movable grooves are fixedly arranged at the left end and the right end of the movable block, a functional hole is formed in the upper wall surface of the movable block corresponding to the position of the monitoring and processing device, an electric fan is fixedly arranged in the position of the functional hole corresponding to the upper wall surface of the main body, extrusion grooves are, two the inside in extrusion groove all is provided with the function block that can move about from top to bottom, the intercommunicating pore has all been seted up to the inside left and right sides lateral wall face of main part, the extrusion groove upwards extends the inside hollow region who communicates the intercommunicating pore, electric fan's below is provided with the rotary rod that can rotate.

Preferably, the linkage blocks extend towards one ends far away from each other to reach the inner parts of the corresponding movable grooves, movable springs are fixedly mounted on the bottom surfaces of the inner parts of the movable grooves, and the linkage blocks are located at the lower wall surface of one end of the inner parts of the movable grooves and fixedly connected with the tops of the movable springs.

Preferably, the movable block is a block with an arc-shaped cross section, and the functional hole is a circular through hole with a wide upper part and a narrow lower part.

Preferably, the functional block extends downwards to reach the interior of the movable groove and is in contact with the upper wall surface of the linkage block, a squeezing block is fixedly mounted on the upper wall surface of the functional block, and the squeezing block extends upwards to reach the interior of the communication hole.

Preferably, a linkage rod is fixedly mounted at a rotating shaft of the fan blade on the electric fan, a linkage hole is formed in the position, corresponding to the linkage rod, of the rotating rod, the linkage rod extends downwards to reach the inside of the linkage hole, and the outer wall surface of the linkage rod is fixedly connected with the inner wall surface of the linkage hole.

Preferably, the fixed slot, two have all been seted up to the left and right sides inner wall on the standing groove the fixed slot all upwards communicates the last wall that corresponds the fixed block, two the equal fixed mounting in inside of fixed slot has the spliced pole, two the inside symmetry of fixed slot is provided with can pivoted connecting block, two all offer on the connecting block be used for with the connecting hole of spliced pole activity joint, two the connecting block is kept away from the equal fixed mounting of one end that corresponds the fixed slot and is had the elasticity piece.

Preferably, the elastic block is a block with an arc-shaped cross section and elasticity.

Preferably, four the supporting leg is the mirror image setting, and four the equal fixed mounting of lower wall of supporting leg has the non slipping spur, four the non slipping spur is the rectangle piece that the wall is coarse down, wall fixed mounting has the induction system who is used for controlling electric fan rotation on the inside of main part.

Preferably, the filter screen two is located the place ahead of filter screen one, the louvre is located the last wall fixed mounting between filter screen one and the filter screen two and has the rope, the outer wall of rubber ball and the lower extreme fixed connection of rope.

Preferably, the two communication holes are both grooves with arc-shaped sections, the two communication holes are mirror images, and the shape and the size of the rotating rod are matched with the shape and the size of the inside of the communication holes.

(III) advantageous effects

Compared with the prior art, the invention provides virtual anchor picture monitoring and processing equipment based on artificial intelligence, which has the following beneficial effects:

1. this processing apparatus is kept watch on to virtual anchor picture based on artificial intelligence, through setting up the movable block, when using, electric fan is rotatory to drive the extrusion piece of two intercommunicating pore interiors of the rotatory extrusion of rotary rod, the extrusion piece drives two linkage pieces of function block downward extrusion, the linkage piece receives the extrusion and makes the movable spring of activity inslot portion take place to deform, two linkage pieces drive the inside downstream of movable block in the main part, movable spring loses the extrusion when rotary rod both ends break away from with the intercommunicating pore and resumes deformation and drive the inside rebound of movable block at the main part again, so repeatedly move, the inside air flow velocity of main part has been accelerated, the inside radiating effect of main part has been improved, avoided because the radiating effect is low to lead to the impaired problem of the inside accurate electrical components of monitoring processing apparatus, the service life of the device has been improved.

2. This processing apparatus is kept watch on to virtual anchor picture based on artificial intelligence, through setting up the rubber ball, because the movable block has reciprocated the flow velocity of the inside air of main part with higher speed in the main part inside, flow gas when discharging through the louvre after accelerating, because the velocity of flow is fast, can drive the rubber ball and make a round trip to collide between filter screen one and filter screen two, reached with filter screen one and filter screen two on the effect that the dust of siltation shakes, avoided using the back dust for a long time to block up filter screen one and filter screen two, lead to the unable quick exhaust problem of the inside high-temperature gas of main part, further improvement the life of this equipment.

3. This processing apparatus is kept watch on to virtual anchor picture based on artificial intelligence through setting up the function hole, because the function hole is narrow through-hole under wide, the produced mobile air current of electric fan when the movable block reciprocates, can rush to the processing apparatus of keeping watch on with higher speed through the narrow tube effect in function hole, cools down the outer wall of keeping watch on processing apparatus, has improved the device when using and has monitored processing apparatus's cooling effect.

4. This processing apparatus is kept watch on to virtual anchor picture based on artificial intelligence, through setting up two elastic blocks, when using because it has elastic block fixed mounting inside the standing groove to keep watch on processing apparatus through two extrusion, when receiving the collision, produced most impact when two elastic blocks can lift off the collision, to the produced influence of keeping watch on processing apparatus when reducing the collision, the life who keeps watch on processing apparatus has been improved greatly, and the connecting block can be rotatory in the inside of fixed slot, can upwards mention the inside rotation that drives the connecting block at the fixed slot with keeping watch on processing apparatus when needs are overhauld, reach the effect of dismantling to keeping watch on processing apparatus fast.

5. This processing apparatus is kept watch on to virtual anchor picture based on artificial intelligence through setting up filter screen one, because filter screen one is the active carbon filter screen, can adsorb the purification treatment to the inside air with the discharge main part of entering main part in the use, avoids harmful gas to discharge, causes the problem of influence to staff's health, has improved the security when the device uses.

6. This processing apparatus is kept watch on to virtual anchor picture based on artificial intelligence through setting up the non slipping spur, because the lower wall face of non slipping spur is crude form, has improved the frictional force on four supporting legs and ground when using, has avoided the main part to appear rocking the problem of slipping when using, has improved the device's stability.

Drawings

FIG. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a top view of the overall structure of the present invention;

FIG. 3 is a rear cross-sectional view of the overall structure of the present invention;

FIG. 4 is a partially disassembled view of the present invention;

FIG. 5 is a plan view of the movable block of the present invention;

FIG. 6 is an enlarged view of the invention at A in FIG. 1.

In the figure: 1 main part, 2 supporting legs, 3 fixed blocks, 4 standing grooves, 5 fixed grooves, 6 connecting columns, 7 connecting blocks, 8 elastic blocks, 9 connecting holes, 10 monitoring processing equipment, 11 movable grooves, 12 movable springs, 13 movable blocks, 14 linkage blocks, 15 functional holes, 16 electric fans, 17 linkage rods, 18 rotating rods, 19 linkage holes, 20 extrusion grooves, 21 functional blocks, 22 extrusion blocks, 23 communicating holes, 24 heat dissipation holes, 25 filter screens I, 26 filter screens II, 27 ropes, 28 rubber balls, 29 sensing devices and 30 anti-skidding blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a virtual anchor picture monitoring and processing device based on artificial intelligence, comprising a main body 1 and a monitoring and processing device 10, wherein the main body 1 is a rectangular box with a hollow interior, the monitoring and processing device 10 is arranged in the main body 1, the monitoring and processing device 10 is a prior art, which is not discussed herein, four supporting legs 2 are fixedly arranged on the lower wall surface of the main body 1, the four supporting legs 2 are rectangular blocks, a fixed block 3 is fixedly arranged on the bottom surface of the interior of the main body 1, the fixed block 3 is a rectangular block, a placement groove 4 is arranged on the fixed block 3, the placement groove 4 is a rectangular groove, the shape and size of the placement groove 4 are matched with the shape and size of the monitoring and processing device 10, the monitoring and processing device 10 is movably clamped in the placement groove 4, a movable block 13 is movably clamped in the main body 1 above the monitoring and corresponding to the monitoring and processing device 10, and movable grooves 11 are symmetrically arranged on, two movable grooves 11 are rectangular grooves, the left and right ends of a movable block 13 are fixedly provided with linkage blocks 14 which are movably clamped with the corresponding movable grooves 11, the two linkage blocks 14 are rectangular blocks, the shape and the size of the linkage blocks 14 are matched with the shape and the size of the inner part of the movable grooves 11, the upper wall surface of the movable block 13 is provided with a functional hole 15 corresponding to the position of the monitoring and processing device 10, the upper wall surface of the main body 1 is fixedly provided with an electric fan 16 corresponding to the position of the functional hole 15, the electric fan 16 is the prior art, the discussion is omitted, the upper wall surfaces of the inner parts of the two movable grooves 11 are provided with extrusion grooves 20, the extrusion grooves 20 are rectangular grooves, the functional blocks 21 which can move up and down are arranged in the two extrusion grooves 20, the functional blocks 21 are rectangular blocks, the shape and the size of the functional blocks 21 are matched with the shape and the size of the inner part of the extrusion grooves 20, the left and right side walls of the inner part of the main body, the extrusion groove 20 extends upwards to be communicated with the hollow area inside the communication hole 23, the rotary rod 18 capable of rotating is arranged below the electric fan 16, the rotary rod 18 is a rectangular rod, the left end and the right end of the rotary rod 18 are both arc-shaped, when the electric fan is used, the electric fan 16 rotates to drive the rotary rod 18 to rotate and extrude the extrusion blocks 22 inside the two communication holes 23, the extrusion blocks 22 drive the function block 21 to extrude the two linkage blocks 14 downwards, the linkage blocks 14 are extruded to deform the movable spring 12 inside the movable groove 11, the two linkage blocks 14 drive the movable block 13 to move downwards inside the main body 1, when the two ends of the rotary rod 18 are separated from the communication holes 23, the movable spring 12 loses extrusion recovery deformation to drive the movable block 13 to move upwards again inside the main body 1, the repeated movement is carried out, the air flow speed inside the main body 1 is accelerated, and the heat dissipation effect inside the main, the problem that precise electrical components inside the monitoring and processing device 10 are damaged due to low heat dissipation effect is avoided, and the service life of the device is prolonged.

The front wall surface of the main body 1 is provided with a heat dissipation hole 24, the heat dissipation hole 24 is a rectangular through hole, a first filter screen 25 is fixedly arranged inside the heat dissipation hole 24, the first filter screen 25 is an activated carbon filter screen, a second filter screen 26 is fixedly arranged inside the heat dissipation hole 24, the second filter screen 26 is the prior art, which is not discussed herein, a movable rubber ball 28 is arranged inside the heat dissipation hole 24, the rubber ball 28 is a circular rubber ball, the flowing speed of air inside the main body 1 is accelerated due to the up-and-down movement of the movable block 13 inside the main body 1, when the flowing gas is discharged through the heat dissipation hole 24 after the acceleration, the rubber ball 28 is driven to collide back and forth between the first filter screen 25 and the second filter screen 26 due to the fast flow speed, the effect of shaking off dust deposited on the first filter screen 25 and the second filter screen 26 is achieved, the problem that the high-temperature gas inside the main body 1 cannot be discharged fast due, the service life of the device is further prolonged.

Two linkage blocks 14 extend towards the ends far away from each other to reach the inside of the corresponding movable groove 11, a movable spring 12 is fixedly installed on the bottom surface inside the movable groove 11, the movable spring 12 is the prior art, the discussion is omitted here, the number of the movable springs 12 is installed according to the actual size of the movable groove 11, and the lower wall surface of one end, located inside the movable groove 11, of the linkage block 14 is fixedly connected with the top of the movable spring 12.

The movable block 13 is a block with an arc-shaped cross section, the functional hole 15 is a circular through hole with a wide top and a narrow bottom, and the functional hole 15 is a through hole with a wide top and a narrow bottom, so that flowing air flow generated by the electric fan 16 can rush to the monitoring and processing device 10 at an accelerated speed through the narrow tube effect of the functional hole 15 when the movable block 13 moves up and down, the outer wall surface of the monitoring and processing device 10 is cooled, and the cooling effect of the device on the monitoring and processing device 10 in use is improved.

The function block 21 extends downwards to reach the inside of the movable groove 11 to be in contact with the upper wall surface of the linkage block 14, the extrusion block 22 is fixedly installed on the upper wall surface of the function block 21, the extrusion block 22 is a block with a sector-shaped section, the extrusion block 22 extends upwards to reach the inside of the communication hole 23, and when the rotating rod 18 rotates, the rotating rod 18 can downwards extrude the communication hole 23.

A linkage rod 17 is fixedly installed at a rotating shaft of a fan blade on the electric fan 16, the linkage rod 17 is a cylindrical block, a linkage hole 19 is formed in the position, corresponding to the linkage rod 17, of the rotating rod 18, the linkage hole 19 is a circular through hole, the shape and size of the inside of the linkage hole 19 are matched with the shape and size of the linkage rod 17, the linkage rod 17 extends downwards to reach the inside of the linkage hole 19, and the outer wall surface of the linkage rod 17 is fixedly connected with the inner wall surface of the linkage hole 19.

Fixed slot 5 has all been seted up to the left and right sides inner wall on standing groove 4, fixed slot 5 is the groove of rectangle, two fixed slots 5 all upwards communicate the last wall that corresponds fixed block 3, the equal fixed mounting in inside of two fixed slots 5 has spliced pole 6, spliced pole 6 is columniform pole, the inside symmetry of two fixed slots 5 is provided with can pivoted connecting block 7, connecting block 7 is the piece of rectangle, and two connecting blocks 7 are located the inside one end of fixed slot 5 and are the arcwall face, all offer the connecting hole 9 that is used for with 6 movable joint of spliced pole on two connecting blocks 7, connecting hole 9 is the circular shape through-hole, and the inside shape size of connecting hole 9 agrees with the shape size of spliced pole 6, two connecting blocks 7 keep away from the equal fixed mounting in one end that corresponds fixed slot 5 and.

Elastic block 8 is the arc elastic piece that has for the cross section, when using because it has elastic block 8 fixed mounting inside standing groove 4 to monitor processing apparatus 10 through two extrusion, when receiving the collision, produced most impact when two elastic block 8 can lift off the collision, reduce the produced influence to monitoring processing apparatus 10 when colliding, the life who monitors processing apparatus 10 has been improved greatly, and connecting block 7 can be rotatory in the inside of fixed slot 5, can upwards mention drive connecting block 7 upwards rotatory in the inside of fixed slot 5 with monitoring processing apparatus 10 when needs are overhauld, reach the effect of dismantling monitoring processing apparatus 10 fast.

Four supporting legs 2 are the mirror image setting, and the equal fixed mounting of the lower wall of four supporting legs 2 has non slipping spur 30, four non slipping spur 30 are the rectangular block that the wall is crude form down, wall fixed mounting has the induction system 29 that is used for controlling the electric fan 16 rotation on the inside of main part 1, induction system 29 is prior art, do not discuss here, because non slipping spur 30's lower wall is crude form, the frictional force on four supporting legs 2 and ground has been improved when using, main part 1 has been avoided appearing rocking the problem of slipping when using, the stability of the device has been improved.

Filter screen two 26 is located the place ahead of filter screen one 25, last wall fixed mounting that louvre 24 is located between filter screen one 25 and filter screen two 26 has rope 27, rope 27 is prior art, do not discuss here, the outer wall of rubber ball 28 and the lower extreme fixed connection of rope 27, because filter screen one 25 is the active carbon filter screen, can adsorb the purification treatment to the air that gets into 1 inside and the main part 1 of discharging in the use, avoid harmful gas to discharge, cause the problem of influence to staff's healthy, the security when having improved the device and using.

The two communication holes 23 are both arc-shaped grooves, the two communication holes 23 are mirror images, the shape and size of the rotating rod 18 are matched with the inner shape and size of the communication holes 23, and when the rotating rod 18 rotates, two ends of the rotating rod 18 cannot be in contact with one side wall surface of the two communication holes 23 far away from each other.

Principle of operation

When the device is used, the electric fan 16 rotates to drive the rotating rod 18 to rotate to extrude the extruding block 22 in the two communicating holes 23, the extruding block 22 drives the function block 21 to extrude the two linkage blocks 14 downwards, the linkage blocks 14 are extruded to enable the movable spring 12 in the movable groove 11 to deform, the two linkage blocks 14 drive the movable block 13 to move downwards in the main body 1, when the two ends of the rotating rod 18 are separated from the communicating holes 23, the movable spring 12 loses extrusion recovery deformation to drive the movable block 13 to move upwards in the main body 1 again, the repeated movement is realized, the air flowing speed in the main body 1 is accelerated, the heat dissipation effect in the main body 1 is improved, the problem that the precise electrical components in the monitoring and processing device 10 are damaged due to low heat dissipation effect is avoided, and the service life of the device is prolonged.

Because the movable block 13 has reciprocated inside the main part 1 and has accelerated the flow speed of the inside air of main part 1, after accelerating, the gas that flows when discharging through louvre 24, because the velocity of flow is fast, can drive rubber ball 28 and make a round trip to collide between filter screen one 25 and filter screen two 26, the effect of shaking off the dust of silting on filter screen one 25 and filter screen two 26 has been reached, the dust has been avoided blockking up filter screen one 25 and filter screen two 26 after long-time the use, lead to the unable quick exhaust problem of the inside high-temperature gas of main part 1, further improvement the life of this equipment.

Because the functional hole 15 is a through hole with a wide top and a narrow bottom, when the movable block 13 moves up and down, the flowing air flow generated by the electric fan 16 will quickly impact the monitoring processing device 10 through the narrow tube effect of the functional hole 15 to cool the outer wall surface of the monitoring processing device 10, thereby improving the cooling effect of the device on the monitoring processing device 10 when in use.

Because the monitoring processing device 10 has elastic block 8 fixed mounting inside standing groove 4 through the extrusion two when using, when receiving the collision, produced most impact when two elastic blocks 8 can lift off the collision, reduce the influence to monitoring processing device 10 produced when colliding, the life of monitoring processing device 10 has been improved greatly, and connecting block 7 can be rotatory in the inside of fixed slot 5, can upwards mention monitoring processing device 10 when needs are overhauld and drive connecting block 7 upwards rotatory in the inside of fixed slot 5, reach the effect of dismantling monitoring processing device 10 fast.

Because filter screen 25 is the active carbon filter screen, can adsorb the purification treatment to the air that gets into inside 1 main part of main part and discharge 1 inside in the use, avoid harmful gas to discharge, cause the problem of influence to staff's health, the security when having improved the device and using.

Because the lower wall face of non slipping spur 30 is crude, improved the frictional force of four supporting legs 2 and ground when using, avoided main part 1 to appear rocking the problem of slipping when using, improved the device's stability.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a virtual anchor picture monitoring and processing equipment based on artificial intelligence, includes main part (1) and monitors processing apparatus (10), the inside of main part (1) is provided with monitors processing apparatus (10), the lower wall fixed mounting of main part (1) has four supporting legs (2), its characterized in that: the utility model discloses a monitoring device, including main part (1), fixed block (3) are fixed to the inside bottom surface of main part (1), standing groove (4) have been seted up on fixed block (3), keep watch on the inside of processing apparatus (10) activity joint in standing groove (4), the inside top activity joint that corresponds to keep watch on processing apparatus (10) of main part (1) has movable block (13), movable groove (11) have been seted up to the inside left and right sides wall symmetry of main part (1), the both ends of the left and right sides of movable block (13) are all fixed mounting have be used for with the linkage block (14) that correspond movable groove (11) activity joint, functional hole (15) have been seted up to the position that the wall corresponds to keep watch on processing apparatus (10) on movable block (13), the position fixed mounting that the last wall of main part (1) corresponds functional hole (15) has electric fan (16), two extrusion groove (20) have all been seted up to the wall on the inside, functional blocks (21) capable of moving up and down are arranged in the two extrusion grooves (20), communicating holes (23) are formed in the left side wall surface and the right side wall surface in the main body (1), the extrusion grooves (20) extend upwards to communicate with hollow areas in the communicating holes (23), and a rotating rod (18) capable of rotating is arranged below the electric fan (16);

the heat dissipation hole (24) is formed in the front wall of the main body (1), a first filter screen (25) is fixedly mounted inside the heat dissipation hole (24), a second filter screen (26) is fixedly mounted inside the heat dissipation hole (24), and a movable rubber ball (28) is arranged inside the heat dissipation hole (24).

2. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: two link block (14) extend to the inside that corresponds activity groove (11) towards the one end of keeping away from each other, the inside bottom surface fixed mounting of activity groove (11) has movable spring (12), link block (14) are located under the one end of the inside of activity groove (11) wall and the top fixed connection of movable spring (12).

3. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: the movable block (13) is a block with an arc-shaped cross section, and the functional hole (15) is a circular through hole with a wide upper part and a narrow lower part.

4. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: the functional block (21) extends downwards to reach the interior of the movable groove (11) and is in contact with the upper wall surface of the linkage block (14), the upper wall surface of the functional block (21) is fixedly provided with a squeezing block (22), and the squeezing block (22) extends upwards to reach the interior of the communication hole (23).

5. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: fan blade pivot department fixed mounting has linkage rod (17) on electric fan (16), linkage hole (19) have been seted up to the position that corresponds linkage rod (17) on rotary rod (18), linkage rod (17) downwardly extending reachs the inside in linkage hole (19), the outer wall of linkage rod (17) with the internal face fixed connection in linkage hole (19).

6. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: fixed slot (5), two have all been seted up to the left and right sides inner wall on standing groove (4) fixed slot (5) all upwards communicate the last wall that corresponds fixed block (3), two the equal fixed mounting in inside of fixed slot (5) has spliced pole (6), two the inside symmetry of fixed slot (5) is provided with can pivoted connecting block (7), two all offer connecting hole (9) that are used for with spliced pole (6) activity joint on connecting block (7), two the equal fixed mounting in one end that corresponds fixed slot (5) was kept away from to connecting block (7) has elastic block (8).

7. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: the elastic block (8) is an elastic block with an arc-shaped cross section.

8. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: four supporting leg (2) are the mirror image setting, and four the equal fixed mounting of lower wall face of supporting leg (2) has non slipping spur (30), four non slipping spur (30) are the rectangular block that the wall is crude down, wall fixed mounting has induction system (29) that are used for controlling electric fan (16) rotation on the inside of main part (1).

9. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: the filter screen II (26) is located in front of the filter screen I (25), the upper wall face, located between the filter screen I (25) and the filter screen II (26), of the heat dissipation hole (24) is fixedly provided with a rope (27), and the outer wall face of the rubber ball (28) is fixedly connected with the lower end of the rope (27).

10. The artificial intelligence based virtual anchor picture monitoring processing device according to claim 1, characterized by: the two communicating holes (23) are grooves with arc-shaped sections, the two communicating holes (23) are mirror images, and the shape and the size of the rotating rod (18) are matched with the shape and the size of the inside of the communicating holes (23).

Images