CN112046410A - Prevent spilling hourglass intelligent AI equipment based on dregs car - Google Patents

Abstract

The invention relates to the technical field of intelligent AI equipment, and discloses an anti-leakage intelligent AI equipment based on a muck truck, which is arranged on a conveying hopper of a muck truck body and used for monitoring materials in the conveying hopper. Through set up buffer on the fortune hopper at the dregs car, can reduce the influence of dregs car in-process mechanical shock and road surface vibrations to shooting device shooting quality, accept the shooting device cover in the box, can play effective guard action to shooting device, avoid shooting the device because of receiving external environment influence to damage, the dirty device of scraping that sets up on the chamber door simultaneously can strike off the dirt on the light-passing board to guarantee the normal shooting of shooting device.

Description

Prevent spilling hourglass intelligent AI equipment based on dregs car

Technical Field

The invention relates to the technical field of intelligent AI equipment, in particular to a leakage-proof intelligent AI equipment based on a muck truck.

Background

Artificial Intelligence (AI) is a field of computer science that emphasizes creating intelligent machines that work and react like humans. Deep learning is a subset of AI, which is in fact a broader definition. Artificial Intelligence (AI) is a branch of computer science, aiming at creating intelligent machines, which has now become an important component of the technical industry, and the research related to artificial intelligence is usually very specialized and exclusive.

In recent years, AI monitoring technology is popularized and applied to the slag car to a certain extent, so that the phenomenon of material leakage of the slag car in the process of transporting materials can be effectively prevented, and the pollution to the surrounding road environment is avoided. The AI monitoring technology mainly comprises a camera device, an AI image recognition system and a background terminal system. The camera device shoots the material quantity state of materials in the car body hopper, the AI image recognition system carries out AI recognition on shot material quantity state images or videos, and the background terminal monitors the result of the AI recognition.

And current intelligent AI supervisory equipment's on dregs camera device when the dregs car is driven, easily receives the influence from the mechanical shock of dregs car self and road surface vibrations, can't guarantee to shoot the quality, shoots the safeguard measure of device on the dregs car simultaneously and also not enough, easily receives external environment influence and damages.

Disclosure of Invention

The invention provides anti-leakage intelligent AI equipment based on a muck truck, aiming at solving the technical problems that a camera device of the existing intelligent AI monitoring equipment on muck is easily influenced by mechanical vibration and road vibration when the muck truck runs, so that the shooting quality is poor, and meanwhile, the camera device on the muck truck is easily damaged due to the influence of the external environment.

The invention is realized by adopting the following technical scheme: 1. the intelligent AI equipment is characterized by comprising a camera device for shooting the state of materials carried in the conveying hopper, wherein a box body is covered outside the camera device, a box door is arranged on the box body, a light-transmitting plate corresponding to the camera device is embedded on the box door, and a dirt scraping device for scraping dirt on the light-transmitting plate is arranged on the box door; the bottom of the box body is supported at a feeding port of the conveying hopper through a buffer device;

the buffer device comprises a support plate for supporting the box body, the middle part of the plate body of the support plate is downwards sunken to form a sunken part after being staggered with two ends of the support plate, two support rods are vertically arranged at two sides of the bottom of the sunken part, support plates vertical to the corresponding support rods are arranged on opposite sides of the two support rods in a sliding mode, and one end, far away from the corresponding support rod, of each support plate is arranged at the top of the hopper wall of the conveying hopper, located at two sides of the feeding port; and two sides of the bottom of the carrier plate are supported at the tops of the corresponding supporting plates through elastic components.

As a further improvement of the above solution, the dirt scraping device includes a scraping bar in sliding contact with an outer side of the light-transmitting plate, and a driving assembly for driving the scraping bar to reciprocate in an arc direction on the light-transmitting plate, and the driving assembly is accommodated in an accommodating chamber provided in the door.

As a further improvement of the above scheme, the driving assembly comprises a swing rod, a rotating shaft, a motor, a rotating rod and a connecting rod, wherein one end of the rotating shaft is vertically fixed in the cavity wall of the accommodating cavity, the middle part of a rod body of the swing rod is rotatably inserted with the other end of the rotating shaft, and a strip body of the scraping strip is installed at one end of the swing rod; the output shaft of the motor is vertically and fixedly connected with one end of the rotating rod, the other end of the rotating rod is rotatably connected with one end of the connecting rod, and the other end of the connecting rod is rotatably connected with the other end of the oscillating rod.

As a further improvement of the above solution, the length of the connecting rod is greater than the length of the rotating rod.

As a further improvement of the above solution, when the scraper bar moves to the farthest position away from the motor, an included angle formed between the rotating rod and the connecting rod is an acute angle; and when the scraping strip moves to the nearest part away from the motor, an included angle formed between the rotating rod and the connecting rod is a straight angle.

As a further improvement of the above scheme, vertical plates are arranged on both sides of the top of the carrier plate, two clamping plates for clamping and fixing the box body are oppositely arranged between the two vertical plates, screw rods are inserted in the two vertical plates in a threaded manner, and one end of each screw rod is rotatably connected with the plate surface of the corresponding clamping plate; the adjacent vertical plates are connected with the clamping plates through second telescopic rods.

As a further improvement of the above scheme, a joining block is fixed at the bottom of the box body, a convex surface matched with the concave part is arranged in the middle of the bottom end of the joining block, and two sides of the bottom of the joining block are fixed on the corresponding plate surface of the carrier plate in an overlapping manner.

As a further improvement of the above scheme, a limit groove is formed in the support rod along the extension direction of the rod body of the support rod, and a limit block in sliding fit with the limit groove is fixed at one end, close to the limit groove, of the support plate.

As a further improvement of the above scheme, the elastic component comprises a first telescopic rod and a spring sleeved outside the first telescopic rod, two ends of the first telescopic rod are respectively fixed at the bottom of the corresponding support plate and the top of the corresponding support plate, and two ends of the spring are respectively abutted against the bottom of the corresponding support plate and the top of the corresponding support plate.

As a further improvement of the above solution, the elastic component includes a plurality of elastic balls fixed between the carrier plate and the support plate.

The invention has the beneficial effects that:

according to the intelligent AI device based on the dreg vehicle leakage prevention, the buffer device is arranged on the conveying hopper of the dreg vehicle, so that the influence of mechanical vibration and road vibration on the shooting quality of the shooting device in the running process of the dreg vehicle can be reduced, the shooting device is covered and contained in the box body, the effective protection effect on the shooting device can be achieved, the damage of the shooting device due to the influence of the external environment is avoided, and meanwhile, the dirt scraping device arranged on the box door can scrape dirt on the light-transmitting plate, so that the normal shooting of the shooting device is ensured.

Through the elastic component in the buffer device, the vibration energy can be converted and absorbed so as to ensure the stability of the shooting environment of the camera device and reduce the interference of the vibration on the shooting of the camera device. Especially, when the wheels of the muck truck roll on stones or other bulges to cause the car body to incline and generate large fluctuation, the limit blocks on the support plates on the corresponding sides in the buffer device can slide relative to the limit grooves on the corresponding support rods, so that the camera device in the box body keeps a relative stable state.

Through riser, splint, screw rod, the gag lever post two that set up on the support plate, can improve the dismouting efficiency of box on linking up the piece, but the installation of the box of the different specifications of adaptation on linking up the piece is more steady, convenient and fast simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of a muck truck leakage-prevention-based intelligent AI device installed on a muck truck according to embodiment 1 of the present invention;

FIG. 2 is a schematic structural diagram of a side view cross section of the intelligent anti-leakage AI device based on the muck truck of FIG. 1 installed on a material conveying hopper;

FIG. 3 is a schematic structural view of the dirt scraping device in the door of FIG. 2 in a dirt scraping state;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic structural view of the dirt scraping device in the door of FIG. 3 in another dirt scraping state;

fig. 6 is an enlarged schematic view of the structure at B in fig. 5.

Description of the main symbols:

1. a material conveying hopper; 2. a feeding port; 3. a camera device; 4. a box body; 5. a carrier plate; 6. a recessed portion; 7. a joining block; 8. a support plate; 9. a support bar; 10. a first telescopic rod; 11. a spring; 12. a limiting block; 13. a limiting groove; 14. a box door; 15. a light-transmitting plate; 16. an accommodating chamber; 17. scraping the strips; 18. a swing rod; 19. a rotating shaft; 20. a motor; 21. a rotating rod; 22. a connecting rod; 23. a vertical plate; 24. a splint; 25. a screw; 26. and a second telescopic rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

Please refer to fig. 1 to 6, the intelligent AI device for preventing leakage of the slag car is disposed on the material transporting hopper 1 of the slag car body, and is used for monitoring the material in the material transporting hopper 1. The AI equipment can monitor the material quantity of the materials loaded in the material conveying hopper 1 at any time so as to prevent the materials in the material conveying hopper 1 from leaking.

The intelligent AI device for preventing leakage based on the slag car comprises a camera device 3 for shooting the state of the materials carried in the material conveying hopper 1, wherein the camera device 3 in the embodiment can be a video camera or a camera. The outer side of the camera device 3 is covered with a box body 4, the box body 4 is provided with a box door 14, and a transparent plate 15 corresponding to the position of the camera device 3 is embedded on the box door 14. By accommodating the camera device 3 in the box body 4, the camera device 3 can be effectively protected, and the damage of the camera device 3 caused by accidental impact of the external environment is avoided. The door 14 is provided with a dirt scraping device for scraping dirt on the light-transmitting plate 15. The bottom of the box body 4 is supported at the feeding port 2 of the material conveying hopper 1 through a buffer device.

The buffer device comprises a support plate 5 used for supporting the box body 4, the middle part of the plate body of the support plate 5 is downwards sunken to form a sunken part 6 after dislocation with two ends, two support rods 9 are oppositely vertically arranged on two sides of the bottom of the sunken part 6, one side of each of the two support rods 9, which is back to the back, is provided with a support plate 8 perpendicular to the corresponding support rod 9 in a sliding mode, and one end, away from the corresponding support rod 9, of each support plate 8 is arranged at the top of the hopper wall 1 of the hopper located on two sides of the. Both sides of the bottom of the carrier plate 5 are supported on top of the respective support plate 8 by a resilient member.

The dregs car can produce certain mechanical vibrations and receive the vibrations that come from the road surface when going, and when these vibrations can be transmitted to fortune hopper 1, support plate 5 can convert the absorption with this partial vibrations energy through its and backup pad 8 within a definite time elastic deformation of elastic component to guarantee camera device 3 and shoot the stability of environment, reduce the interference that vibrations caused to camera device 3's shooting. Especially, when the wheels roll to the stones or other protrusions during the driving process of the slag car, so that the car body is inclined to generate large fluctuation, the supporting plates 8 on the corresponding sides in the buffer device can slide relative to the corresponding supporting rods 9, so that the camera device 3 in the box body 4 is kept in a relatively stable state.

The dirt scraping device includes a scraping bar 17 which is in sliding contact with the outer side of the light-transmitting plate 15, and a driving component for driving the scraping bar 17 to reciprocate in an arc direction on the light-transmitting plate 15, and the driving component is accommodated in an accommodating cavity 16 arranged on the box door 14. The scraping strip 17 is strip-shaped and can be made of rubber material. The top of the receiving chamber 16 has an opening (not shown) through which the wiper strip 17 protrudes. Can drive through drive assembly and scrape scraping strip 17 and scrape the adnexed dirt in the light-passing board 15 outside to the definition when guaranteeing camera device 3 and shoot.

The driving component comprises a swing rod 18, a rotating shaft 19, a motor 20, a rotating rod 21 and a connecting rod 22, one end of the rotating shaft 19 is vertically fixed in the cavity wall of the accommodating cavity 16, and the middle part of a rod body of the swing rod 18 is rotatably inserted with the other end of the rotating shaft 19. The middle part of the rod body of the swing rod 18 is provided with a shaft hole for the other end of the rotating shaft 19 to pass through, and the swing rod 18 can rotate relative to the rotating shaft 19 through the shaft hole.

The body of the scraping strip 17 is arranged at one end of a swing rod 18. The scraping strip 17 is positioned on the outer wall of the swing rod 18 facing the light-transmitting plate 15, and the scraping strip 17 can move synchronously along with the swing rod 18 so as to clean the outer side of the light-transmitting plate 15.

An output shaft of the motor 20 is vertically and fixedly connected with one end of the rotating rod 21, the motor 20 is installed on the cavity wall of the accommodating cavity 16, the output shaft of the motor 20 is positioned below the rotating shaft 19, and the output shaft of the motor 20 and the rotating shaft 19 are staggered. The motor 20 may be a reduction motor.

The other end of the rotating rod 21 is rotatably connected with one end of a connecting rod 22, and the other end of the connecting rod 22 is rotatably connected with the other end of the swinging rod 18. The rotating rod 21 is rotatably connected with the connecting rod 22 through a pin shaft, and the connecting rod 22 is rotatably connected with the oscillating rod 18 through a pin shaft. In this embodiment, the length of the link 22 is greater than the length of the rotating rod 21.

When the scraper bar 17 moves to the farthest position from the motor 20, the included angle formed between the rotary rod 21 and the connecting rod 22 is an acute angle. When the scraper bar 17 moves to the nearest position from the motor 20, the included angle formed between the rotating rod 21 and the connecting rod 22 is a straight angle.

The driving assembly works in a specific manner that an output shaft of the motor 20 drives the rotating rod 21 to perform circular motion in a vertical plane, the rotating rod 21 drives the connecting rod 22 to perform synchronous motion and continuously push and pull the bottom end of the oscillating rod 18 through the connecting rod 22, so that the top end of the oscillating rod 18 with the scraping strip 17 performs arc-direction reciprocating swing on the outer side of the light-transmitting plate 15 around the rotating shaft 19, and the scraping strip 17 can quickly clean dirt attached to the outer side of the light-transmitting plate 15.

Vertical plates 23 are arranged on two sides of the top of the support plate 5, two clamping plates 24 used for clamping and fixing the box body 4 are oppositely arranged between the two vertical plates 23, screw rods 25 are inserted into the two vertical plates 23 in a threaded manner, screw holes (not shown) for the screw rods 25 to penetrate through are formed in the vertical plates 23, and the screw rods 25 are in threaded fit with the screw holes. One end of each screw 25 is rotatably connected to the plate surface of the corresponding clamping plate 24. In this embodiment, a shaft seat (not labeled) is installed on one side of the clamping plate 24 facing the screw 25, a bearing is installed in the shaft seat, and the end of the screw 25 is fastened and fixed with the inner ring of the bearing. The adjacent vertical plates 23 and the clamping plates 24 are connected through a second telescopic rod 26. When the screw 25 is screwed, the screw 25 and the screw hole on the vertical plate 23 are in mutual threaded action, so that the screw 25 can axially move along the vertical plate 23 under the limiting action of the second telescopic rod 26 to drive the clamping plate 24 to axially move synchronously.

The bottom of the box body 4 is fixed with a connecting block 7, the middle part of the bottom end of the connecting block 7 is provided with a convex surface (not marked) matched with the concave part 6, two sides of the bottom of the connecting block 7 are fixed on the corresponding plate surface of the support plate 5 in an overlapping way, and two ends of the connecting block 7 are fixed with the corresponding plate surface of the support plate 5 through screws. The connection between the box body 4 and the carrier plate 5 can be more stable through the connecting block 7.

The support rod 9 is provided with a limit groove 13 along the extending direction of the rod body, and one end of the support plate 8 close to the limit groove 13 is fixed with a limit block 12 which is in sliding fit with the limit groove 13. The cross sections of the limiting block 12 and the limiting groove 13 are both in a dovetail structure. The limiting block 12 is slidably clamped in the limiting groove 13.

The elastic component comprises a first telescopic rod 10 and a spring 11 sleeved outside the first telescopic rod 10, two ends of the first telescopic rod 10 are respectively fixed at the bottom of the corresponding support plate 5 and the top of the corresponding support plate 8, and two ends of the spring 11 are respectively abutted against the bottom of the corresponding support plate 5 and the top of the corresponding support plate 8. Through the elastic deformation of the spring 11, the kinetic energy of the vibration can be converted into the elastic potential energy so as to reduce the vibration to which the camera device 3 is subjected.

The working principle of the invention is that before use, the door 14 is opened to place the camera device 3 in the box body 4, and then the door 14 is closed. Place box 4 at the top that links up piece 7 to twist two screw rods 25 respectively soon, make two screw rods 25 respectively with the screw thread effect on the corresponding riser 23, make two screw rods 25 can drive two splint 24 respectively and move towards the both sides of box 4 along corresponding riser 23 axial motion under the limiting displacement of corresponding telescopic link two 26, in order to press from both sides fixedly to box 4.

When the vehicle-mounted running process of the muck, certain mechanical vibration can be generated and vibration from the road surface can be received, when the vibration can be transmitted to the material conveying hopper 1, the support plate 5 can convert and absorb the vibration energy through the elastic deformation of the spring 11 between the support plate and the support plate 8, so that the stability of the shooting environment of the camera device 3 is ensured, and the interference of the vibration on the shooting of the camera device 3 is reduced. Especially, when the wheels of the slag car roll on stones or other projections, so that the car body is inclined to generate large fluctuation, the limit blocks 12 on the corresponding support plates 8 in the buffer device can slide relative to the limit grooves 13 on the corresponding support rods 9, so that the camera device 3 in the box body 4 is kept in a relatively stable state.

Meanwhile, the output shaft of the motor 20 can drive the rotating rod 21 to do circular motion in the vertical plane, the rotating rod 21 drives the connecting rod 22 to do synchronous motion, and the connecting rod 22 continuously pushes and pulls the bottom end of the oscillating rod 18, so that the top end of the oscillating rod 18 with the scraping strip 17 swings around the rotating shaft 19 in an arc-direction reciprocating manner on the outer side of the light-transmitting plate 15, the quick cleaning of the scraping strip 17 to dirt attached to the outer side of the light-transmitting plate 15 is realized, and the shooting effect of the camera device 3 is ensured.

Example 2

The present embodiment 2 is different from the present embodiment 1 in that the elastic component of the present embodiment 2 includes a plurality of elastic balls (not shown) fixed between the carrier plate 5 and the supporting plate 8. The elastic ball can absorb vibration energy through elastic deformation of the elastic ball, and the shooting influence of vibration on the camera device 3 is reduced.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The intelligent AI equipment is characterized by comprising a camera device for shooting the state of materials carried in the conveying hopper, wherein a box body is covered outside the camera device, a box door is arranged on the box body, a light-transmitting plate corresponding to the camera device is embedded on the box door, and a dirt scraping device for scraping dirt on the light-transmitting plate is arranged on the box door; the bottom of the box body is supported at a feeding port of the conveying hopper through a buffer device;

the buffer device comprises a support plate for supporting the box body, the middle part of the plate body of the support plate is downwards sunken to form a sunken part after being staggered with two ends of the support plate, two support rods are vertically arranged at two sides of the bottom of the sunken part, support plates vertical to the corresponding support rods are arranged on opposite sides of the two support rods in a sliding mode, and one end, far away from the corresponding support rod, of each support plate is arranged at the top of the hopper wall of the conveying hopper, located at two sides of the feeding port; and two sides of the bottom of the carrier plate are supported at the tops of the corresponding supporting plates through elastic components.

2. The intelligent AI equipment of claim 1, wherein the dirt scraping device comprises a scraping bar in sliding contact with the outer side of the light-transmitting plate and a driving component for driving the scraping bar to perform reciprocating arc motion on the light-transmitting plate, and the driving component is accommodated in an accommodating cavity formed in the box door.

3. The intelligent AI device based on dregs car anti-spilling leakage of claim 2, wherein said driving component comprises a swing link, a rotating shaft, a motor, a rotating rod and a connecting rod, one end of said rotating shaft is vertically fixed in the cavity wall of said containing cavity, the middle part of the rod body of said swing link is rotatably inserted with the other end of said rotating shaft, the strip body of said scraping strip is installed at one end of said swing link; the output shaft of the motor is vertically and fixedly connected with one end of the rotating rod, the other end of the rotating rod is rotatably connected with one end of the connecting rod, and the other end of the connecting rod is rotatably connected with the other end of the oscillating rod.

4. The intelligent AI device based on dregs car anti-spillage, according to claim 3, wherein the length of the link is longer than the length of the turning bar.

5. The intelligent AI device based on dregs car anti-spilling leakage of claim 4, wherein when the scraper bar moves to the farthest position from the motor, the included angle formed between the rotating rod and the connecting rod is an acute angle; and when the scraping strip moves to the nearest part away from the motor, an included angle formed between the rotating rod and the connecting rod is a straight angle.

6. The intelligent AI device based on the slag car leakage prevention as claimed in claim 1, wherein, two vertical plates are arranged on both sides of the top of the carrier plate, two clamping plates for clamping and fixing the box body are oppositely arranged between the two vertical plates, a screw is threaded on each vertical plate, and one end of each screw is rotatably connected with the plate surface of the corresponding clamping plate; the adjacent vertical plates are connected with the clamping plates through second telescopic rods.

7. The intelligent AI device based on dregs car anti-spilling leakage of claim 1, wherein the bottom of the box body is fixed with a joining block, the middle part of the bottom end of the joining block is provided with a convex surface matched with the concave part, and the two sides of the bottom of the joining block are lapped and fixed on the corresponding plate surface of the carrier plate.

8. The intelligent AI device based on dregs car anti-spilling leakage of claim 1, wherein the supporting rod is provided with a limit groove along the extending direction of the rod body, and one end of the supporting plate close to the limit groove is fixed with a limit block which is in sliding fit with the limit groove.

9. The intelligent AI device based on dregs car anti-spilling leakage of claim 1, wherein said elastic component comprises a first telescopic rod and a spring sleeved outside said first telescopic rod, both ends of said first telescopic rod are fixed at the bottom of the corresponding said carrier plate and the top of the corresponding said support plate respectively, and both ends of said spring are abutted against the bottom of the corresponding said carrier plate and the top of the corresponding said support plate respectively.

10. The intelligent AI device as claimed in claim 1 wherein said resilient assembly includes a plurality of resilient balls secured between a carrier plate and said support plate.

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