CN112738369A

CN112738369A - Artificial intelligence system

Info

Publication number: CN112738369A
Application number: CN202011548503.4A
Authority: CN
Inventors: 周叶伟
Original assignee: Lishui Zhuona Architectural Design Co ltd
Current assignee: Lishui Zhuona Architectural Design Co ltd
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-04-30

Abstract

The invention discloses an artificial intelligence system, which comprises a base, a pillar, a shield plate, a collecting box, a plastic bag removing device, a camera module, a cleaning device, a power device and a tearing device, wherein the camera module is arranged on the base; the tearing device comprises a circular ring plate arranged on the camera module, two control rod pieces penetrating through the camera module and connected to the circular ring plate, a third spring arranged on the control rod pieces, a second rod piece arranged in the middle of the control rod pieces, a control ball arranged at the top end of the control rod pieces and a stirring head; the camera module is prevented from being waterproofed by the shielding plate, so that rainwater is prevented from falling on the camera module to influence the monitoring effect; the cleaning device is arranged, so that dust is prevented from being on the camera module, and the monitoring clarity is improved; the garbage bag clearing device is arranged, the camera module is prevented from being blocked in monitoring, and the monitoring effect is improved.

Description

Artificial intelligence system

Technical Field

The invention belongs to the technical field of artificial intelligence, and particularly relates to an artificial intelligence system.

Background

The artificial intelligence system should have all the functions that a general-purpose operating system has, and include speech recognition, machine vision, actuator systems, and cognitive behavioral systems. Specifically, the following subsystems (but not limited to) are included: subsystems such as a file system, process management, interprocess communication, memory management, network communication, a security mechanism, a driver, a user interface, a voice recognition system, a machine vision system, an actuator system, a cognitive system and the like;

the monitoring camera of the existing artificial intelligence system on the visual monitoring is most widely applied, but the existing camera needs to be cleaned and maintained regularly, the monitoring effect is not good because of the excessive dust, the monitoring effect of the camera in the places with much dust and many objects such as plastic bags is very weak, the camera lens is easily blocked by the plastic bag and cannot be monitored, and the monitoring effect and the accuracy are reduced because the camera lens is blocked by the dust.

In order to overcome the defects of the prior art, the invention provides the artificial intelligence system which can improve the monitoring effect and prevent objects from blocking the camera module

In order to achieve the purpose, the invention adopts the following technical scheme: an artificial intelligence system comprises a base, a pillar arranged on the base, a shield plate arranged above the pillar, a collecting box arranged above the base, plastic bag clearing devices arranged on two sides of the collecting box, a camera module arranged above the collecting box, a cleaning device arranged between the camera module and the shield plate, a power device arranged on the camera module, and a tearing device arranged on the camera module; the tearing device comprises a circular ring plate arranged on the camera module, two control rod pieces penetrating through the camera module and connected to the circular ring plate, a third spring arranged on the control rod pieces, a second rod piece arranged in the middle of the control rod pieces, a control ball arranged at the top end of the control rod pieces and a stirring head; the camera module is provided with a boss, and the boss is provided with a plurality of first air holes and two spiral holes; the cleaning device is provided with a cavity and a second air hole; the spiral hole is matched with the second rod piece; the plastic bag cleaning device comprises a limiting piece, a cleaning plate connected with the limiting piece and a soft hole arranged on the cleaning plate; the soft hole is matched with the control ball; the second air hole is superposed with the first air hole; when the device runs, the power device drives the cleaning device to enable air in the cavity to be blown out of the second air holes and then blown out of the first air holes, the power device also drives the circular ring plate, the circular ring plate is provided with a control rod piece to be pushed out, the second rod piece is matched with the spiral hole to enable the control rod piece to rotate, the control rod piece drives the cleaning plate when pushed out, then the cleaning plate is abutted against the limiting piece, the control rod piece is continuously pushed out, the control ball passes through the soft hole, then the power device does not drive the circular ring plate, the circular ring plate resets under the action of a third spring, the control ball drives the cleaning plate to reset, then the control ball penetrates through the soft hole after reaching a certain position, the cleaning plate is not driven any more, and the cleaning plate resets; the air is blown out from the first air vents, dust on the camera module can be blown away, the camera module can keep a clearer monitoring state, the monitoring picture is not unclear due to the influence of the dust, the monitoring accuracy and authority are improved, when a plastic bag blocks the camera module, the control rod piece is pushed out, the plastic bag on the camera module can be pushed away, the control rod piece rotates to drive the stirring head to rotate, the stirring head can stir the plastic bag to crush the plastic bag, then the control rod piece resets, a small amount of plastic bag adheres to the cleaning plate or the stirring head, the plastic bag on the stirring head can be removed when the control ball passes through the cleaning plate and returns to the back of the cleaning plate, the adhered plastic bag is prevented from influencing the shooting effect of the camera module, the plastic bag on the cleaning plate can be pushed out when the cleaning plate resets, and the plastic bag adhering to the cleaning plate is prevented from influencing the shooting of the camera module, the condition that important monitoring information is missed due to the fact that the camera module cannot monitor due to an accident situation is avoided, and the picture definition of shooting and monitoring of the camera module and the monitoring stability are improved.

Further, a second groove is formed in the stirring head; the plastic bag cleaning device also comprises a first rod piece, a limiting piece connected with the first rod piece and a second spring arranged on the first rod piece; the cleaning plate is arranged on the first rod piece in a sliding manner; the camera module is also provided with a first groove; the circular ring plate is matched with the first groove; the periphery of the soft hole is made of a material which can be compressed and deformed; one of the two spiral holes is left-handed and the other is right-handed; the power device drives the circular ring plate to slide on the first groove, the circular ring plate is provided with a control rod piece to move, the control rod piece can rotate when moving in the spiral hole, the cleaning plate is abutted against the limiting piece under the action of the second spring, then the control ball is contacted with the soft hole, as the soft hole is made of a material capable of compressing and deforming, the control ball passes through the soft hole and reaches the outer side of the soft hole, then the third spring drives the circular ring plate to reset, the circular ring plate is provided with the control rod piece to reset, the control rod piece drives the control ball, the control ball drives the cleaning plate, the cleaning plate compresses the second spring, when the cleaning plate is subjected to large elasticity, the soft hole can be separated from the control ball, namely the control ball passes through the soft hole and reaches the inner side of the cleaning plate, and then the cleaning plate is quickly reset under the action of the second spring; the two spiral holes have different rotation directions, so that the rotation directions of the control rod piece are different when the control rod piece moves inside, the plastic bag is stirred and stirred in two different directions by the stirring head, the plastic bag is pulled towards two sides and can be torn, the plastic bag which blocks the central position of the camera module can be quickly cleaned, the camera module recovers a monitoring function, then the plastic bag can be clamped by the second groove on the stirring head during stirring, the plastic bag is prevented from slipping with the stirring head during stirring, the speed and the effect of stirring and tearing are influenced, the cleaning plate is quickly reset by the second spring, the cleaning plate is stopped by the limiting piece, the plastic bag which is adhered on the cleaning plate can better leave the cleaning plate under the action of inertia, and the edge of the monitoring range of the camera module is not blocked by the plastic bag, the monitoring effect is improved.

Furthermore, a baffle and a notch are also arranged on the camera module; the boss is provided with an inclined guide plate at the position below the first air hole; the position of the guide plate blocks the two first air holes at the extreme edge; the cleaning device also comprises a cleaning box connected with the shielding plate, a push plate arranged in the cavity in a sliding manner, and a first control block connected with the push plate; the power device drives the first control block, the first control block pushes the push plate to extrude the air in the cavity to blow out at the second air vent, the air is blown out at the first air vent along the second air vent, the first air vents at two sides are blown to the inner circle side of the boss under the action of the guide plate, and the three first air vents in the middle are blown to the camera module; the air can blow the dust on the boss down to the collecting box along the boss, so that the condition that the dust is blown by natural wind too much to fly around the camera module to cause inaccurate shot content is avoided, and the monitoring effect of the camera module is improved again.

Furthermore, the cleaning device also comprises two first springs arranged in the cavity, two racks arranged on the inner wall of the cavity, a first gear meshed with the racks, a first rotating shaft connected with the first gear, and fan blades arranged on the first rotating shaft; when the push plate is pushed by the first control block, the push plate drives the rack, the rack drives the first gear to rotate, and the first gear drives the first rotating shaft to rotate the fan blades; the rotatory wind that blows out of flabellum can make the air in the cavity not be in the quiescent condition and blow out in second venthole department, but make the air in the cavity drive certain state of fooling, increase kinetic energy and blow out in second venthole department, make the kinetic energy of the air that first venthole department blown on the camera module increase, better blow off the dust on the camera module and in the boss, make the camera module also can be cleared up rapidly even the dust has appeared when the control, can not miss any important information when making the shooting, improve the effect of control.

Furthermore, the power device comprises a first fixing plate arranged on the base, a motor arranged on the first fixing plate, a second rotating shaft connected with the motor, a first helical gear connected with the second rotating shaft, a second gear connected with the second rotating shaft, a third gear meshed with the second gear, a second fixing plate arranged on the base, a third rotating shaft connected with the second fixing plate, a cam connected with the third rotating shaft and a second helical gear connected with the third rotating shaft; a sleeve is arranged on the third gear, and a second control block is arranged on the sleeve; the second bevel gear is meshed with the first bevel gear; the third gear is connected with the camera module; the second control block and the first control block are positioned on the same excircle line on the camera module; the motor drives the second rotating shaft to rotate, the second rotating shaft drives the second gear to rotate, the second gear drives the third gear, the third gear drives the second control block to move, the second control block can be in contact with the first control block to enable the first control block to move, the first control block pushes the push plate, the push plate can reset under the action of the first spring after the second control block is not in contact with the first control block, the second rotating shaft also drives the first helical gear to rotate, the first helical gear drives the second helical gear, the second helical gear drives the third rotating shaft, the third rotating shaft drives the cam, the circular plate can be continuously pushed by the rotation of the cam, and when the position of the cam does not push the circular plate, the circular plate can reset under the action of the third spring; the number of times that the design through the cam can be better control promotes the ring board, just set up the cam of two distal ends in the place that complicated dust is many, just set up the cam of single distal end in the place that the dust is normal, can make the effect of camera module control can not receive the volume influence of dust, guaranteed overall motion's stability, simple structure and compactness have guaranteed the effect of control

In conclusion, the plastic bag near the camera module can be better and faster stirred to be torn by arranging the second groove, so that the monitoring effect is improved; the fan blades are arranged, so that dust on the camera module can be better cleaned, the cleaning speed is increased, and the accuracy of monitoring of the camera module is improved; the cleaning plate is arranged, the torn plastic bag is pushed away and cleaned, the camera module cannot be blocked during monitoring, and the monitoring degree is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a first schematic structural diagram of a power plant according to the present invention;

fig. 3 is a schematic structural view of a camera module according to the present invention;

FIG. 4 is a schematic structural diagram of a control rod according to the present invention;

FIG. 5 is a schematic view of the cleaning box according to the present invention;

FIG. 6 is a schematic view of the interior of the cleaning tank of the present invention;

FIG. 7 is an enlarged view of A of FIG. 1 in accordance with the present invention;

FIG. 8 is an enlarged view of B of FIG. 4 in accordance with the present invention;

FIG. 9 is a schematic view of a third gear of the present invention;

FIG. 10 is a second schematic structural view of a power plant according to the present invention;

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

As shown in fig. 1-10, an artificial intelligence system comprises a base 1, a pillar 11 arranged on the base 1, a shield 2 arranged above the pillar 11, a collecting box 5 arranged above the base 1, plastic bag removing devices 6 arranged at two sides of the collecting box 5, a camera module 3 arranged above the collecting box 5, a cleaning device 4 arranged between the camera module 3 and the shield 2, a power device 7 arranged on the camera module 3, and a tearing device 8 arranged on the camera module 3; the camera module 3 comprises a camera, a temperature sensor, an illumination sensor, a pyroelectric infrared sensor, a humidity sensor, a video decoder and an image preprocessor, wherein the camera is used for capturing images, the temperature sensor is used for capturing temperature information, the illumination sensor is used for capturing an illumination environment, the humidity sensor is used for capturing a humidity environment, the pyroelectric infrared sensor is used for capturing organisms generating heat energy in the environment, acquired images and environment signals which are not subjected to compression processing are transmitted to a circuit board, the images and the environment signals are subjected to compression processing and corresponding storage of an SD card through a chip in the camera, the stored information is transmitted to the video decoder through signals, the analog signals are subjected to anti-aliasing filtering preprocessing, analog-digital conversion and separation of brightness/chroma and horizontal/vertical synchronous signals through the video decoder, the method comprises the steps of converting an analog video signal into a digital parallel signal format, and then transmitting the digital parallel signal format to an image preprocessor, wherein the image preprocessor is used for converting an original image from RGB into codes of a shutter 2 of a YUV cavity 42; the image acquisition module is used for reading video stream data in the camera module 3, controlling the read image data to be used as a transmission protocol by the zigbee router and the zigbee coordinator through the control module, and transmitting the image data to the display module for display after being converted by the embedded gateway; the method is characterized in that: the tearing device 8 comprises a circular ring plate 81 arranged on the camera module 3, two control rod members 82 penetrating through the camera module 3 and connected to the circular ring plate 81, a third spring 83 arranged on the control rod members 82, a second rod member 84 arranged in the middle of the control rod members 82, a control ball 85 arranged at the top end of the control rod members 82 and a stirring head 86; the camera module 3 is provided with a boss 32, and the boss 32 is provided with a plurality of first air holes 33 and two spiral holes 36; the cleaning device 4 is provided with a cavity 42 and a second air hole 45; the helical hole 36 cooperates with the second rod 84; the plastic bag cleaning device 6 comprises a limiting member 63, a cleaning plate 64 connected to the limiting member 63, and a soft hole 65 arranged on the cleaning plate 64; the soft hole 65 cooperates with a control ball 85; the second vent hole 45 is overlapped with the first vent hole 33; when the device operates, the power device 7 drives the cleaning device 4 to blow air in the cavity 42 out of the second air holes 45, then the air is blown out of the first air holes 33, the power device 7 also drives the circular ring plate 81, the circular ring plate 81 drives the control rod 82 to push out, the second rod 84 is matched with the spiral hole 36 to enable the control rod 82 to rotate, the control rod 82 drives the cleaning plate 64 when pushed out, then the cleaning plate 64 is abutted against the limiting part 63, the control rod 82 is continuously pushed out, the control ball 85 passes through the soft hole 65, then the power device 7 does not drive the circular ring plate 81, the circular ring plate 81 resets under the action of the third spring 83, the control ball 85 drives the cleaning plate 64 to reset, then the control ball 85 passes through the soft hole 65 after reaching a certain position, the control ball 85 does not drive the cleaning plate 64 any more, and the cleaning plate 64 resets; the air is blown out from the first air holes 33, dust on the camera module 3 can be blown away, the camera module 3 can be kept in a clearer monitoring state, the monitoring picture is not unclear due to the influence of the dust, the monitoring accuracy and authority are improved, when a plastic bag blocks the camera module 3, the control rod member 82 is pushed out, the plastic bag on the camera module 3 can be pushed open, the control rod member 82 rotates to drive the stirring head 86 to rotate, the stirring head 86 can stir the plastic bag to be broken, then the control rod member 82 is reset, a small amount of plastic bag adheres to the cleaning plate 64 or the stirring head 86, the plastic bag on the stirring head 86 can be removed when the control ball 85 passes through the cleaning plate 64 and returns to the rear side of the cleaning plate 64, the influence of the shooting effect of the camera module 3 by the adhered plastic bag is avoided, the plastic bag on the cleaning plate 64 can be pushed out when the cleaning plate 64 is reset, the phenomenon that the plastic bag is adhered to the cleaning plate 64 to affect the shooting of the camera module 3 is avoided, the phenomenon that important monitoring information is missed due to the fact that the camera module 3 cannot monitor due to an accident situation is avoided, and the picture definition of the shooting and monitoring of the camera module 3 and the monitoring stability are improved.

Specifically, the plastic bag cleaning device comprises a stirring head 86, a second groove 87, a plastic bag cleaning device 6, a first rod 61, a limiting piece 63, a second spring 62, a cleaning plate 64, a first groove 31, a circular ring plate 81, a soft hole 65 and a spiral hole 36; a second groove 87 is formed in the stirring head 86; the plastic bag removing device 6 further comprises a first rod 61, a limiting member 63 connected to the first rod 61, and a second spring 62 arranged on the first rod 61; the cleaning plate 64 is arranged on the first rod piece 61 in a sliding manner; the camera module 3 is also provided with a first groove 31; the circular plate 81 is matched with the first groove 31; around the soft hole 65 is a material that can be compressed and deformed; the two helical holes 36 are one left-handed and the other right-handed; wherein, the circular ring plate 81 is slidably connected to the first groove 31, the control rod 82 is rotatably connected to the circular ring plate 81, the second rod 84 is fixedly connected to the control rod 82, the control ball 85 is fixedly connected to the control rod 82, the stirring head 86 is fixedly connected to the control rod 82, the limiting member 63 is fixedly connected to the first rod 61, the cleaning plate 64 is slidably connected to the first rod 61, and the soft hole 65 is arranged on the cleaning plate 64; the power device 7 drives the circular ring plate 81 to slide on the first groove 31, the circular ring plate 81 drives the control rod 82 to move, the control rod 82 rotates when moving in the spiral hole 36, the cleaning plate 64 abuts against the limiting piece 63 under the action of the second spring 62, then the control ball 85 contacts the soft hole 65, as the soft hole 65 is made of a material capable of compressing and deforming, the control ball 85 penetrates through the soft hole 65 and reaches the outer side of the soft hole 65, then the third spring 83 drives the circular ring plate 81 to reset, the circular ring plate 81 drives the control rod 82 to reset, the control rod 82 drives the control ball 85, the control ball 85 drives the cleaning plate 64, the cleaning plate 64 compresses the second spring 62, when the cleaning plate 64 is subjected to large elastic force, the soft hole 65 can be separated from the control ball 85, namely the control ball 85 penetrates through the soft hole 65 and reaches the inner side of the cleaning plate 64, and then the cleaning plate 64 quickly resets under the action of the second spring 62; the two spiral holes 36 have different rotation directions, so that the control rod 82 has different rotation directions when moving inside, the plastic bag is stirred and pulled in two different directions by the stirring head 86, the plastic bag is pulled towards two sides and can be torn, the plastic bag blocking the central position of the camera module 3 can be quickly cleaned, the camera module 3 recovers the monitoring function, then the second groove 87 on the stirring head 86 can clamp the plastic bag during stirring, the plastic bag is prevented from slipping with the stirring head 86 during stirring to influence the speed and the effect of stirring and tearing, the second spring 62 enables the cleaning plate 64 to be quickly reset, the cleaning plate 64 is blocked and stopped by the limiting piece 63, the plastic bag adhered on the cleaning plate 64 can better leave the cleaning plate 64 under the action of inertia, the edge of the monitoring range of the camera module 3 is not blocked by a plastic bag, so that the monitoring effect is improved.

Specifically, the device comprises the camera module 3, a baffle 35, a notch 34, a boss 32, a first air hole 33, the cleaning device 4, a shield plate 2, a cleaning box 41, a push plate 43 and a first control block 44; the camera module 3 is also provided with a baffle 35 and a notch 34; the boss 32 is provided with an inclined guide plate at a position below the first vent hole 33; the position of the guide plate blocks the two first air holes 33 at the extreme edge; the cleaning device 4 further comprises a cleaning box 41 connected to the shielding plate 2, a push plate 43 slidably arranged in the cavity 42, and a first control block 44 connected to the push plate 43; the baffle 35 is fixedly connected to the boss 32, the cleaning box 41 is fixedly connected to the shield plate 2, the cleaning box 41 is fixedly connected to the camera module 3, the push plate 43 is slidably connected to the cavity 42, and the first control block 44 is fixedly connected to the push plate 43; the power device 7 drives the first control block 44, the first control block 44 pushes the push plate 43 to extrude the air in the cavity 42 at the second air hole 45 to blow out, the air is blown out at the first air hole 33 along the second air hole 45, the first air holes 33 at the two sides are blown to the inner circle side of the boss 32 under the action of the guide plate, and the three first air holes 33 in the middle are blown on the camera module 3; the air can blow dust on the boss 32 down to the collecting box 5 along the boss 32, so that the situation that the shot content is inaccurate due to the fact that the dust is blown to the position near the camera module 3 by too much natural wind and flies randomly is avoided, and the monitoring effect of the camera module 3 is improved again.

Specifically, the cleaning device comprises the cleaning device 4, a cavity 42, a first spring 46, a rack 47, a first gear 48, a first rotating shaft 49 and fan blades 491; the cleaning device 4 further comprises two first springs 46 arranged in the cavity 42, two racks 47 arranged on the inner wall of the cavity 42, a first gear 48 meshed with the racks 47, a first rotating shaft 49 connected to the first gear 48, and fan blades 491 arranged on the first rotating shaft 49; wherein, the first spring 46 is arranged between the inner side of the cavity 42 and the push plate 43, the rack 47 is fixedly connected with the cavity 42, the first rotating shaft 49 is fixedly connected with the first gear 48, and the fan blade 491 is fixedly connected with the first rotating shaft 49; when the push plate 43 is pushed by the first control block 44, the push plate 43 drives the rack 47, the rack 47 drives the first gear 48 to rotate, and the first gear 48 drives the first rotating shaft 49 to rotate the fan blade 491; the air blown out by the rotation of the fan blades 491 can not be blown out from the second air holes 45 in a static state, but the air in the cavity 42 drives a certain fool state, so that kinetic energy is increased to blow out from the second air holes 45, the kinetic energy of the air blown from the first air holes 33 to the camera module 3 is increased, dust on the camera module 3 and in the boss 32 is blown off well, the camera module 3 can be cleaned rapidly even if dust appears during monitoring, no important information is missed during shooting, and the monitoring effect is improved.

Specifically, the device comprises a power device 7, a first fixing plate 72, a motor 71, a second rotating shaft 73, a first bevel gear 74, a second gear 75, a third gear 76, a second fixing plate 781, a third rotating shaft 78, a cam 79, a second bevel gear 77, a sleeve 761 and a second control block 762; the power device 7 comprises a first fixing plate 72 arranged on the base 1, a motor 71 arranged on the first fixing plate 72, a second rotating shaft 73 connected to the motor 71, a first helical gear 74 connected to the second rotating shaft 73, a second gear 75 connected to the second rotating shaft 73, a third gear 76 meshed with the second gear 75, a second fixing plate 781 arranged on the base 1, a third rotating shaft 78 connected to the second fixing plate 781, a cam 79 connected to the third rotating shaft 78, and a second helical gear 77 connected to the third rotating shaft 78; a sleeve 761 is arranged on the third gear 76, and a second control block 762 is arranged on the sleeve 761; the second bevel gear 77 is meshed with the first bevel gear 74; the third gear 76 is connected to the camera module 3; the second control block 762 is on the same outer circumference of the camera module 3 as the first control block 44; the first fixing plate 72 is fixedly connected to the base 1, the motor 71 is fixedly connected to the first fixing plate 72, the second rotating shaft 73 is fixedly connected to the output end of the motor 71, the second rotating shaft 73 is rotatably connected to the first fixing plate 72, the first helical gear 74 is fixedly connected to the second rotating shaft 73, the second gear 75 is fixedly connected to the second rotating shaft 73, the third gear 76 is rotatably connected to the camera module 3, the second fixing plate 781 is fixedly connected to the base 1, the third rotating shaft 78 is rotatably connected to the third rotating shaft 78, the cam 79 is fixedly connected to the third rotating shaft 78, and the second helical gear 77 is fixedly connected to the third rotating shaft 78; the motor 71 drives the second rotating shaft 73 to rotate, the second rotating shaft 73 drives the second gear 75 to rotate, the second gear 75 drives the third gear 76, the third gear 76 drives the second control block 762 to move, the second control block 762 can be contacted with the first control block 44 to enable the first control block 44 to move, the first control block 44 pushes the push plate 43, the push plate 43 can reset under the action of the first spring 46 after the second control block 762 is not contacted with the first control block 44, the second rotating shaft 73 also drives the first bevel gear 74 to rotate, the first bevel gear 74 drives the second bevel gear 77, the second bevel gear 77 drives the third rotating shaft 78, the third rotating shaft 78 drives the cam 79, the cam 79 rotates to constantly push the annular plate 81, and when the position of the cam 79 does not push the annular plate 81, the annular plate 81 can reset under the action of the third spring 83; the design of the cam 79 can better control the pushing times of the circular plate 81, the cam 79 with double far ends is arranged at a place with much complex dust, the cam 79 with single far end is arranged at a place with normal dust, the monitoring effect of the camera module 3 can not be influenced by the dust, the stability of the whole motion is ensured, the structure is simple and compact, and the monitoring effect is ensured.

The specific working process is as follows: the motor 71 drives the second rotating shaft 73 to rotate, the second rotating shaft 73 drives the second gear 75 to rotate, the second gear 75 drives the third gear 76, the third gear 76 drives the second control block 762 to move, the second control block 762 can be contacted with the first control block 44 to enable the first control block 44 to move, the first control block 44 pushes the push plate 43, the push plate 43 can drive the rack 47, the rack 47 drives the first gear 48 to rotate, the first gear 48 drives the first rotating shaft 491 to enable the fan blades 491 to rotate, then air in the cavity 42 is extruded and blown out at the second air holes 45, the air is blown out at the first air holes 33 along the second air holes 45, the first air holes 33 at two sides are blown to the inner circle side of the boss 32 under the action of the guide plate, the three first air holes 33 in the middle are blown to the camera module 3, and the push plate 43 can reset under the action of the first spring 46 after the second control block 762 is not contacted with the first control block 44; the second shaft 73 also drives the first bevel gear 74 to rotate, the first bevel gear 74 drives the second bevel gear 77, the second bevel gear 77 drives the third shaft 78, the third shaft 78 drives the cam 79, the cam 79 continuously pushes the circular ring plate 81, the circular ring plate 81 slides on the first groove 31, the circular ring plate 81 drives the control rod 82 to move, the control rod 82 rotates when moving in the spiral hole 36, the cleaning plate 64 abuts against the limiting member 63 under the action of the second spring 62, then the control ball 85 contacts the soft hole 65, since the soft hole 65 is a compressible and deformable material, the control ball 85 passes through the soft hole 65 and reaches the outer side of the soft hole 65, then the third spring 83 drives the circular ring plate 81 to reset, the circular ring plate 81 drives the control rod 82 to reset, the control rod 82 drives the control ball 85, the control ball 85 drives the cleaning plate 64, the cleaning plate 64 compresses the second spring 62, when the elasticity applied to the cleaning plate 64 is large, the soft hole 65 can be separated from the control ball 85, that is, the control ball 85 passes through the soft hole 65 to reach the inner side of the cleaning plate 64, and the cleaning plate 64 is rapidly reset under the action of the second spring 62, and the circular plate 81 is reset under the action of the third spring 83 when the position of the cam 79 does not push the circular plate 81.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all 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.

Claims

1. An artificial intelligence system comprises a base (1), a pillar (11) arranged on the base (1), a shield plate (2) arranged above the pillar (11), a collecting box (5) arranged above the base (1), plastic bag clearing devices (6) arranged at two sides of the collecting box (5), a camera module (3) arranged above the collecting box (5), a cleaning device (4) arranged between the camera module (3) and the shield plate (2), a power device (7) arranged on the camera module (3), and a tearing device (8) arranged on the camera module (3); the tearing device (8) comprises a circular ring plate (81) arranged on the camera module (3), two control rod pieces (82) penetrating through the camera module (3) and connected to the circular ring plate (81), a third spring (83) arranged on the control rod pieces (82), a second rod piece (84) arranged in the middle of the control rod pieces (82), a control ball (85) arranged at the top end of the control rod pieces (82) and a stirring head (86); the camera module (3) is provided with a boss (32), and the boss (32) is provided with a plurality of first air holes (33) and two spiral holes (36); a cavity (42) and a second air hole (45) are arranged on the cleaning device (4); the spiral hole (36) is matched with the second rod piece (84); the plastic bag removing device (6) comprises a limiting piece (63), a cleaning plate (64) connected with the limiting piece (63), and a soft hole (65) arranged on the cleaning plate (64); the soft hole (65) is matched with the control ball (85); the second vent (45) coincides with the first vent (33).

2. An artificial intelligence system as claimed in claim 1, wherein: a second groove (87) is formed in the stirring head (86); the plastic bag removing device (6) further comprises a first rod piece (61), a limiting piece (63) connected to the first rod piece (61), and a second spring (62) arranged on the first rod piece (61); the cleaning plate (64) is arranged on the first rod piece (61) in a sliding manner; the camera module (3) is also provided with a first groove (31); the circular ring plate (81) is matched with the first groove (31); the soft hole (65) is surrounded by a material which can be compressed and deformed; the two helical holes (36) are left-handed and right-handed.

3. An artificial intelligence system as claimed in claim 1, wherein: the camera module (3) is also provided with a baffle (35) and a notch (34); the boss (32) is provided with an inclined guide plate at the position below the first air hole (33); the position of the guide plate blocks the two first air holes (33) at the outermost edge; the cleaning device (4) further comprises a cleaning box (41) connected to the shielding plate (2), a push plate (43) arranged in the cavity (42) in a sliding mode, and a first control block (44) connected to the push plate (43).

4. An artificial intelligence system as claimed in claim 2, wherein: the cleaning device (4) further comprises two first springs (46) arranged in the cavity (42), two racks (47) arranged on the inner wall of the cavity (42), a first gear (48) meshed with the racks (47), a first rotating shaft (49) connected to the first gear (48), and fan blades (491) arranged on the first rotating shaft (49).

5. An artificial intelligence system as claimed in claim 1, wherein: the power device (7) comprises a first fixing plate (72) arranged on the base (1), a motor (71) arranged on the first fixing plate (72), a second rotating shaft (73) connected with the motor (71), a first helical gear (74) connected with the second rotating shaft (73), a second gear (75) connected with the second rotating shaft (73), a third gear (76) meshed with the second gear (75), a second fixing plate (781) arranged on the base (1), a third rotating shaft (78) connected with the second fixing plate (781), a cam (79) connected with the third rotating shaft (78) and a second helical gear (77) connected with the third rotating shaft (78); a sleeve (761) is arranged on the third gear (76), and a second control block (762) is arranged on the sleeve (761); the second bevel gear (77) is meshed with the first bevel gear (74); the third gear (76) is connected to the camera module (3); the second control block (762) is on the same outer circular line on the camera module (3) as the first control block (44).