CN211947824U - Auxiliary feeding system of paver - Google Patents

Abstract

The utility model provides a paver assists feed system, include: the video acquisition assembly is installed on the paver and used for acquiring image information, the display device is in communication connection with the video acquisition assembly through the communication connection assembly, and the display device is a mobile terminal or a display installed on a material transporting vehicle. The utility model provides a paver auxiliary feed system can learn the condition of clout in the hopper on the one hand, can ensure the continuous work of paver, improve work efficiency; on the other hand, when the material is not enough in the material receiving hopper and the paving material needs to be filled, the position relation between the material transporting vehicle for filling the paving material and the material receiving hopper can be known, the paving material filling efficiency is improved, the paving material filling safety is ensured, and the construction efficiency of the paver is improved.

Description

Auxiliary feeding system of paver

Technical Field

The utility model relates to a road construction field particularly, relates to a paver assists feed system.

Background

When the paver paves a pavement, materials to be paved are generally transported to a paving position through a special truck, then the tail of the truck is aligned with a hopper of the paver and slowly rises a truck box body, and the material dumping process is completed. Therefore, in the traditional paving road construction, a special person needs to command and pour materials aiming at the skip car. However, the environment of the paver in the construction process is noisy (the noise of the machine body is large), and the information communication between a driver and a commander is often not timely or accurate in the unloading process of a truck, so that the vehicle is easily collided or other accidents are easily caused to influence the paving progress.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least improving one of the technical problems existing in the prior art.

In view of this, the utility model provides a paver auxiliary feed system, include: the video acquisition assembly is installed on the paver, the video acquisition assembly is used for acquiring image information of a preset area in front of a material receiving hopper and the material receiving hopper of the paver, the display device is in communication connection with the video acquisition assembly through the communication connection assembly, the display device is used for displaying the image information acquired by the video acquisition assembly, and the display device is a mobile terminal or a display installed on a material transporting vehicle.

The utility model provides a paver auxiliary feed system, in the course of the work, can gather the paver through the video acquisition subassembly and connect hopper department and connect the image information in the hopper the place ahead and predetermine the region, can send the image information who gathers to the display device through the communication coupling assembling, can show image information through the display device, can learn the condition of clout in the hopper on the one hand through observing the image information that the video acquisition subassembly gathered, can ensure the continuous work of paver, improve work efficiency; on the other hand is not enough receiving the material in the hopper, when needing to fill the material that paves, can learn the position relation between the transport vechicle that is used for filling the material that paves and the receiving hopper, be convenient for instruct the transport vechicle to be close to the receiving hopper, be convenient for learn the condition of filling of the material that paves, can in time discover to fill up the material that fills and fill up the receiving hopper and reach the anticipated standard, be convenient for control the stopping of the action of packing, the transport vechicle that can avoid filling the material that paves collides with the paver, can ensure that the material that the transport vechicle supplied with accurately puts in the receiving hopper, the efficiency of paving material filling has been improved, the security of paving material filling has been ensured, the.

Specifically, the front preset area is an area within a preset distance in front of the receiving hopper, and the value of the preset distance in front of the receiving hopper is 5 to 30m, preferably 10 to 20 m.

Specifically, the number of the display devices may be one or more, and when the number of the display devices is one, the display devices may be selectively loaded on a material transporting vehicle for transporting the paving material according to actual needs. When the display devices are multiple, the display devices can be loaded on the spreading machine and the material conveying vehicle for conveying the spreading materials at the same time. In particular, the display device may be loaded within a cab of a paving machine and/or a cart for transporting paving material.

Specifically, display device is mobile terminal or installs the display on the dumper, further provides display device's pattern, and the display device's of being convenient for installation and carrying are convenient for the driver to observe display device simultaneously, can be based on the image information of display device demonstration to connecing fill in the hopper material that paves. Further, the mobile terminal may be a smart phone or a tablet computer.

In addition, according to the utility model provides an auxiliary feeding system of paver among the above-mentioned technical scheme can also have following additional technical characteristics:

in the above technical solution, further, the video capture assembly includes: a camera; the mounting bracket is arranged on the paver, and the camera is arranged on the mounting frame.

In this technical scheme, the constitution of video acquisition subassembly is further provided, and the video acquisition subassembly has included the camera and has been used for installing the support of camera, through the setting of installing support for there is certain difference in height between camera and the paver, makes the shooting field of vision of camera wider, and the camera of being convenient for accurately gathers the image information who connects hopper department, has improved the efficiency of construction of paver.

In any of the above technical solutions, further, the mounting bracket is located between the top of the receiving hopper and the ceiling of the spreading machine, and the mounting bracket is located on the longitudinal center line of the spreading machine.

In the technical scheme, the arrangement position of the mounting bracket is further defined, and the mounting bracket is positioned between the top of the receiving hopper and the ceiling of the spreading machine. On one hand, the top of the receiving hopper and the paver do not have a part for shielding camera shooting, so that the camera can conveniently acquire image information at the receiving hopper; on the other hand makes camera overall arrangement position higher relatively, can reduce the probability of damaging the camera when the material that paves is filled, prevents that the camera from inefficacy because of the material collision that paves.

In the technical scheme, the layout position of the mounting bracket is further provided, the mounting bracket is positioned on the longitudinal central line of the paver, and the camera mounted on the mounting bracket can have the best shooting visual angle, so that the camera can accurately shoot image information at the hopper receiving position.

In any of the above technical solutions, further, the video capture assembly further includes a driving component, the camera is rotatably mounted on the mounting bracket, and the driving component is used for driving the camera to rotate relative to the mounting bracket; and/or the camera is a zoom camera.

In this technical scheme, the video acquisition subassembly has further included drive disk assembly, and the camera that can drive the video acquisition subassembly through drive disk assembly's setting rotates, has expanded the angle that obtains of camera image information, can ensure that the camera is accurate shoots and connect the hopper and connect the image information in the hopper the place ahead and predetermine the region. Furthermore, the camera is a zoom camera, and through selection of the zoom camera, image information in the receiving hopper and the preset area in front of the receiving hopper can be acquired in a zooming mode, so that the condition in the preset area in front of the receiving hopper and the receiving hopper can be observed conveniently from an integral angle, and zooming and amplifying shooting are performed on dark visual lines or large dust positions in the image information acquisition process, and accurate and stable acquisition of the image information is ensured.

In any of the above technical solutions, further, the driving part is a motor, the motor is disposed on the mounting bracket, and an output shaft of the motor is connected to the camera.

In this technical scheme, drive unit can be the motor, and the output shaft through the motor rotates and to drive the camera and rotate, and the setting of the drive unit of being convenient for can control the turned angle of camera through control driving motor's opening time simultaneously, ensures accurate, the stable acquisition of image information.

In any of the above technical solutions, further, the mounting bracket includes: the mounting seat is arranged on the paver; the camera is connected to one end of the connecting rod, and the other end of the connecting rod is hinged to the mounting seat.

In this technical scheme, further provide the structure of installing support, the installing support includes the mount pad and articulates in the connecting rod of mount pad, articulates in the mount pad through the connecting rod and makes the camera adjustable for the angle of paver, is convenient for make the camera acquire the video information who connects hopper department.

In any of the above technical solutions, further, the video capture assembly further includes: the dust cover is arranged on the camera and positioned at the top of the image acquisition end of the camera.

In this technical scheme, the video acquisition subassembly has further included the dust cover, through the setting of dust cover, can reduce the probability that the image acquisition end of dust shielding camera, reduces the maintenance and the maintenance frequency of camera, improves camera life.

Specifically, drive assembly can be the motor, and the output shaft of motor is connected in the camera, opens the motor and can drive the camera and rotate.

In any of the above technical solutions, further, the display device includes an instruction input module, and the instruction input module of the display device can send a control instruction to the video capture assembly to adjust the shooting angle and the focal length of the camera.

In the technical scheme, the display device further comprises an instruction input module, the camera can be controlled to rotate or zoom through the instruction input module, and accurate and stable acquisition of image information can be ensured.

In any one of the above technical solutions, further, the communication connection component is a WIFI connection component or a local area network connection component.

In this technical scheme, further provided communication connection subassembly's concrete form, communication connection subassembly is WIFI connection subassembly or local area network connection subassembly, has sufficient data transmission ability and ageing on the one hand, and on the other hand is convenient for display device and video acquisition subassembly and establishes communication connection fast, improves image information transmission's efficiency.

In any one of the above technical solutions, further, the communication connection component includes: the first wireless communication module is arranged on the paver; a second wireless communication module configured for the first wireless communication module to communicate.

In this technical scheme, further provide communication connection subassembly's constitution, the video acquisition subassembly sets up on the paver, the video acquisition subassembly is connected in first wireless communication module, second wireless communication module loads on the dumper that is used for transporting the material that paves, when the dumper is close to the paver, establish communication connection between first wireless communication module and the second wireless communication module, make the image information that the video acquisition subassembly was gathered carry the dumper on, the dumper can fill the material that paves to the receiving hopper of paver based on the image information who acquires, can avoid the dumper to bump with the paver when filling the material, and can ensure the accuracy of the material that paves and fill.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of an auxiliary feeding system of a paver according to an embodiment of the present invention;

fig. 2 is a block diagram of an auxiliary feeding system of a paver according to an embodiment of the present invention;

fig. 3 is a schematic flow chart of an application method of the auxiliary feeding system of the paver according to an embodiment of the present invention.

Wherein, the corresponding relation between the reference numbers and the part names in fig. 1 is as follows:

100 paver, 200 dumper, 2 paver body, 4 connect the hopper, 6 video acquisition subassemblies, 8 communication coupling assembling, 12 display device, 602 camera, 604 installing support, 802 first wireless communication module, 804 second wireless communication module.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A paver auxiliary feed system provided in accordance with some embodiments of the present invention is described below with reference to fig. 1-3.

Example one

As shown in fig. 1 and 2, one embodiment of the present invention provides a paver auxiliary feed system, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

The utility model provides a paver auxiliary feed system, in the course of the work, can gather paver 100 through video acquisition assembly 6 connect hopper 4 department and connect the image information in the 4 the place ahead of hopper to predetermine the region, can send the image information who gathers to display device 12 through communication coupling assembling 8, can show image information through display device 12, can learn the condition of clout in the hopper 4 on the one hand through observing the image information that video acquisition assembly 6 gathered, can ensure the continuous work of paver 100, improve work efficiency; on the other hand, when the material is not enough in the receiving hopper 4 and the paving material needs to be loaded, the position relation between the material transporting vehicle 200 for loading the paving material and the receiving hopper 4 can be known, the material transporting vehicle 200 is convenient to command to be close to the receiving hopper 4, the loading condition of the paving material is convenient to know, the situation that the loading material reaches the expected standard or the receiving hopper 4 is filled can be timely found, the stopping of the filling action is convenient to control, the collision between the material transporting vehicle 200 for loading the paving material and the paving machine 100 can be avoided, the paving material supplied by the material transporting vehicle 200 can be accurately put in the receiving hopper 4, the paving material loading efficiency is improved, the paving material loading safety is ensured, and the construction efficiency of the paving machine 100 is improved.

Specifically, the front preset area is an area within a preset distance in front of the material receiving hopper 4, and the value of the preset distance in front of the material receiving hopper 4 is 5-30 m.

Specifically, the number of the display devices 12 may be one or more, and when the number of the display devices 12 is one, the display devices may be selectively loaded on the material transporting vehicle 200 for transporting the paving material according to actual needs. Where display devices 12 are multiple, they may be loaded onto paving machine 100 and a cart 200 for transporting paving material at the same time. In particular, the display device 12 may be loaded within a cab of the paving machine 100 and/or the truck 200 for transporting paving material.

Specifically, display device 12 is mobile terminal or installs the display on dumper 200, further provides the style of display device 12, and the installation and carrying of display device 12 are convenient for, and the driver of being convenient for simultaneously observes display device 12, can be based on the image information that display device 12 shows to fill in the material that paves to receiving hopper 4. Further, the mobile terminal may be a smart phone or a tablet computer.

Example two

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

Further, the video capture assembly 6 includes: a camera 602; a mounting bracket 604, the mounting bracket 604 being disposed on the paving machine 100, and the camera 602 being disposed on the mounting bracket.

In this embodiment, the composition of the video collecting assembly 6 is further provided, the video collecting assembly 6 includes a camera 602 and a bracket for mounting the camera 602, and a certain height difference exists between the camera 602 and the paver 100 through the mounting bracket 604, so that the shooting view of the camera 602 is wider, the camera 602 can accurately collect image information at the hopper 4, and the construction efficiency of the paver 100 is improved.

EXAMPLE III

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

Further, the video capture assembly 6 includes: a camera 602; a mounting bracket 604, the mounting bracket 604 being disposed on the paving machine 100, and the camera 602 being disposed on the mounting bracket.

Further, the mounting bracket 604 is located between the top of the receiving hopper 4 and the ceiling of the paving machine 100, and the mounting bracket 604 is located on the longitudinal center line of the paving machine 100.

In this embodiment, the location of the mounting bracket 604 is further specified, the mounting bracket 604 being located between the top of the hopper 4 and the ceiling of the paver 100. On one hand, no camera-blocking part exists between the top of the receiving hopper 4 and the paver 100, so that the camera 602 can conveniently acquire image information at the receiving hopper 4; on the other hand, the layout position of the camera 602 is relatively high, the probability of damaging the camera 602 during paving material filling can be reduced, and the camera 602 is prevented from losing effectiveness due to paving material collision.

In this embodiment, a layout position of the mounting bracket 604 is further provided, and the mounting bracket 604 is located on a longitudinal center line of the paving machine 100, so that the camera 602 mounted on the mounting bracket 604 has an optimal shooting view angle, and the camera 602 can accurately shoot image information at the receiving hopper 4.

Example four

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

Further, the video capture assembly 6 includes: a camera 602; a mounting bracket 604, the mounting bracket 604 being disposed on the paving machine 100, and the camera 602 being disposed on the mounting bracket.

Further, the video capture assembly 6 further includes a driving component, the camera 602 is rotatably mounted on the mounting bracket 604, and the driving component is configured to drive the camera 602 to rotate relative to the mounting bracket 604; and/or, camera 602 is a zoom camera.

In this embodiment, the video capture assembly 6 further includes a driving component, and the camera 602 of the video capture assembly 6 can be driven to rotate by the driving component, so that the obtaining angle of the image information of the camera 602 is expanded, and the camera 602 can be ensured to accurately shoot the image information of the receiving hopper 4 and the image information in the preset area in front of the receiving hopper 4. Furthermore, the camera 602 is a zoom camera, and through selection of the zoom camera 602, image information in the receiving hopper 4 and the preset area in front of the receiving hopper 4 can be acquired in a zooming mode, so that on one hand, observation of the conditions in the preset area in front of the receiving hopper 4 and the receiving hopper 4 from an overall angle is facilitated, on the other hand, zooming and amplifying shooting are also facilitated at a dark or dust position in the image information acquisition process, and accurate and stable acquisition of the image information is ensured.

Specifically, drive assembly can be the motor, and the output shaft of motor is connected in camera 602, and it can drive camera 602 and rotate to open the motor.

Further, the display device 12 includes an instruction input module, and the instruction input module of the display device 12 can send a control instruction to the video capture assembly 6 to adjust the shooting angle and the focal length of the camera 602.

In this embodiment, the display device 12 further includes an instruction input module, and the camera 602 can be controlled to rotate or zoom through the instruction input module, so as to ensure accurate and stable acquisition of image information.

Further, the driving component is a motor, the motor is disposed on the mounting bracket 604, and an output shaft of the motor is connected to the camera 602.

In this technical scheme, drive unit can be the motor, and the output shaft through the motor rotates and to drive the camera and rotate, and the setting of the drive unit of being convenient for can control the turned angle of camera through control driving motor's opening time simultaneously, ensures accurate, the stable acquisition of image information.

EXAMPLE five

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

Further, the video capture assembly 6 includes: a camera 602; a mounting bracket 604, the mounting bracket 604 being disposed on the paving machine 100, and the camera 602 being disposed on the mounting bracket.

Further, the mounting bracket 604 includes: the mounting seat is arranged on the paver 100; the connecting rod, camera 602 connect in the one end of connecting rod, and the other end of connecting rod articulates in the mount pad.

In this embodiment, a structure of the mounting bracket 604 is further provided, where the mounting bracket 604 includes a mounting seat and a connecting rod hinged to the mounting seat, and the connecting rod is hinged to the mounting seat, so that an angle of the camera 602 relative to the paving machine 100 is adjustable, and it is convenient for the camera 602 to obtain video information at the receiving hopper 4.

Further, the video capture assembly 6 further comprises: and the dust cover is arranged on the camera 602 and is positioned at the top of the image acquisition end of the camera 602.

In this embodiment, the video capture assembly 6 further includes a dust cover, and the arrangement of the dust cover can reduce the probability that the dust shields the image capture end of the camera 602, reduce the maintenance frequency of the camera 602, and improve the service life of the camera.

EXAMPLE six

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

Further, the communication connection component 8 is a WIFI connection component or a local area network connection component.

In this embodiment, further provide the concrete form of communication connection subassembly 8, communication connection subassembly 8 is WIFI connection subassembly or local area network connection subassembly, has sufficient data transmission ability and ageing on the one hand, and on the other hand is convenient for display device 12 and video acquisition subassembly 6 to establish communication connection fast, improves image information transmission's efficiency.

EXAMPLE seven

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, including: video acquisition component 6, communication connection component 8 and display device 12.

Wherein, video acquisition assembly 6 is installed on paver 100, and video acquisition assembly 6 is used for gathering the hopper 4 that connects of paver 100 and the image information who connects 4 the place ahead of hopper and predetermine the region, and display device 12 establishes communication connection with video acquisition assembly 6 through communication coupling assembling 8, and display device 12 is used for showing the image information that video acquisition assembly 6 gathered, and display device 12 is mobile terminal or installs the display on dumper 200.

Further, the communication connection component 8 includes: a first wireless communication module 802 disposed on the paving machine 100; a second wireless communication module 804, the second wireless communication module 804 configured for communication with the first wireless communication module 802.

In this technical scheme, further provide the constitution of communication connection subassembly 8, video acquisition subassembly 6 sets up on paver 100, video acquisition subassembly 6 is connected in first wireless communication module 802, second wireless communication module 804 loads on the dumper 200 that is used for transporting the material that paves, when the dumper 200 is close to paver 100, establish communication connection between first wireless communication module 802 and the second wireless communication module 804, make the image information that video acquisition subassembly 6 gathered carry on the dumper 200, the dumper 200 can be based on the image information who obtains and fill the material that paves in the hopper 4 that receives of paver 100, can avoid the dumper 200 to collide with paver 100 when the material that paves, and can ensure the accurate of material that paves to fill.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

As shown in fig. 1 and 2, an embodiment of the present invention provides an auxiliary feeding system for a paver, where the paver 100 mainly includes: paver body 2 and connect hopper 4, paver auxiliary feed system mainly includes video acquisition subassembly 6, communication coupling assembling 8 and display device 12.

Video acquisition subassembly 6 mainly contains on-vehicle camera 602 and installing support 604, and video acquisition subassembly 6 carries on paver body 2, when paver 100 is ready to begin to pave, the transport vechicle 200 driver slowly retreats towards the receiving hopper 4 the place ahead of paver 100 through control vehicle, after the vehicle got into paver 100 wireless communication coverage area (like 20m), the second wireless communication module 804 that transport vechicle 200 was on-vehicle with set up the automatic connection of establishing of first wireless communication module 802 on paver body 2, gather the video data of receiving hopper 4 with the camera 602 of paver 100 front end and send transport vechicle 200 driver in real time to this moment, the driver observes the relative position of transport vechicle 200 and paver 100 through on-vehicle display device, in time adjusts the direction until just to the vertical central line of paver 100, and lean on paver 100 and hold together. Then, according to the situation of the rest spread materials in the receiving hopper 4 of the paver 100 in the image, the lifting height of the rear carriage of the material transporting vehicle 200 is adjusted until the material is unloaded and the vehicle is driven away from the paver 100, and the subsequent material transporting vehicle 200 operates according to the same method.

The communication connection assembly 8 is installed on the paver 100 and the material transporting vehicle 200, the communication connection assembly 8 mainly realizes video transmission between the paver 100 and the material transporting vehicle 200, and specifically, the front-end camera 602 of the paver 100 collects the visual screen image information of the material transporting vehicle 200 and the material receiving hopper 4 of the paver 100 and transmits the visual screen image information to the display device 12 arranged on the material transporting vehicle 200 in real time. The communication connection component 8 may include close range high bandwidth methods such as WiFi, radio, wireless bridge, etc. In order to achieve a better practical effect, the power of the communication connection component 8 needs to be controlled, and it is ensured that the video can be stably transmitted within a range of more than 10m, and the video is specifically adjusted according to practical conditions.

The display device 12 is installed in the cab of the material transporting vehicle 200, and may be a special vehicle-mounted monitor, or may be another intelligent terminal (such as a smart phone installed with a special App) with a video interface, where the intelligent terminal is installed with matched monitoring software, so that a driver of the material transporting vehicle 200 can conveniently watch the relative distance and position between the rear paver 100 and the material transporting vehicle 200, and can conveniently observe the excess material condition of the paver 100 and adjust the carriage lifting angle of the material transporting vehicle 200 in real time.

The embodiment effectively solves the problem that personnel do not need to be specially arranged to command the skip car when the paver 100 operates, reduces the configuration of constructors, simultaneously avoids the unsmooth and unexpected unloading caused by inconsistent information caused by a driver of the skip car 200 and a commander, achieves the purpose of safe and efficient construction, and is particularly suitable for the operation of the paver 100 in the field of unmanned driving.

As shown in fig. 3, this embodiment provides a method of applying an auxiliary feeding system of a paving machine, including:

step 702: judging whether the paver is ready, if so, executing step 704, and if not, repeating step 702;

step 704: the material transporting vehicle backs up to be close to the paver;

step 706: judging whether the material transporting vehicle enters the coverage range of the communication connection component, if so, executing step 708, and if not, repeating step 704;

step 708: the material transporting vehicle and the paver are in wireless data connection;

step 710: collecting image information at the receiving hopper and transmitting the image information to a display device in a cab of the material transporting vehicle;

step 712: a driver of the material transporting vehicle adjusts the lifting height of the material receiving hopper in real time according to the image information;

step 714: judging whether the material transporting vehicle finishes unloading, if so, executing step 716, and if not, repeating step 712;

step 716: the material transporting vehicle collects the material box and slowly moves forward to leave the paver.

When paver 100 is ready to begin paving, the driver of material transport vehicle 200 slowly backs towards 4 the place ahead of hopper that receives of paver 100 through the control vehicle, after the vehicle got into paver 100 wireless communication coverage area (as 20m), the on-vehicle second wireless communication module 804 of material transport vehicle 200 is in with the setting the automatic connection of establishing of first wireless communication module 802 on paver body 2, gather the camera 602 of paver 100 front end and receive hopper 4 video data and send to the driver of material transport vehicle 200 in real time this moment, the driver observes the relative position of material transport vehicle 200 and paver 100 through on-vehicle display device, and timely adjustment direction is until just to paver 100 vertical central line, and close up paver 100. Then, according to the situation of the rest spread materials in the receiving hopper 4 of the paver 100 in the image, the lifting height of the rear carriage of the material transporting vehicle 200 is adjusted until the material is unloaded and the vehicle is driven away from the paver 100, and the subsequent material transporting vehicle 200 operates according to the same method.

When the paver 100 is in construction, such as paving asphalt, stabilizing water, etc. After the paver 100 is ready, the driver of the truck 200 views through the on-board rear-view mirror and controls the vehicle to slowly back up to the vicinity of the paver 100. When the material transporting vehicle 200 enters the wireless communication coverage area (for example, 20m) of the paver 100, the vehicle-mounted wireless communication of the material transporting vehicle 200 is automatically connected with the paver 100, and simultaneously, the paver 100 sends the video image data acquired by the video acquisition system of the paver to the display device 12 in the cab of the material transporting vehicle 200, so that the image information acquired by the paver 100 is displayed in real time. The driver of the material transporting vehicle 200 timely adjusts the backward heading and the backward speed of the material transporting vehicle 200 through the distance of the rear video image until the material transporting vehicle 200 is aligned with the central line of the paver 100 and is close to the paver 100 (or the distance between the two vehicles is less than 50 CM). At this time, the receiving hopper 4 of the paver 100 is opened, the material transporting vehicle 200 controls the material transporting vehicle 200 to lift the material box according to the condition that the receiving hopper 4 of the paver 100 remains in the video, the material to be paved is slowly poured into the receiving hopper 4 of the paver 100, and the material box lifting is stopped until the receiving hopper 4 of the paver 100 is filled with the material to be paved. The driver of the material transporting vehicle 200 repeatedly operates through the video image transmitted by the paver 100 until the material box of the material transporting vehicle 200 is completely emptied, the driver controls the material box of the material transporting vehicle 200 to slowly put down and drive away from the paver 100 towards the front, when the distance is greater than the wireless communication coverage area (such as 20m) of the paver 100, the transmission of the view screen is stopped, and the next material transporting vehicle 200 enters the operation area at the moment, and the steps are repeated until the construction is completed.

The embodiment has the following beneficial effects:

1. unmanned intelligent material pouring is realized, and manual intervention and unsmooth communication are reduced;

2. the material pouring process is more efficient, and the construction efficiency is improved;

3. the practicability is strong.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A paving machine sub-feed system, comprising: video acquisition subassembly, communication coupling assembling and display device, the video acquisition unit mount is on the paver, the video acquisition subassembly is used for gathering the image information that the hopper was connect and hopper the place ahead preset region of paver, display device passes through communication coupling assembling with the communication connection is established to the video acquisition subassembly, display device is used for showing the image information that the video acquisition subassembly gathered, display device is mobile terminal or installs the display on the dumper.

2. The paving machine auxiliary feed system of claim 1, wherein the video capture assembly comprises:

a camera;

the mounting bracket is arranged on the paver, and the camera is arranged on the mounting bracket.

3. The paving machine auxiliary feed system of claim 2,

the mounting bracket is positioned between the top of the hopper and the ceiling of the paver; and/or the mounting bracket is positioned on the longitudinal center line of the paver.

4. The paving machine auxiliary feeding system of claim 2, wherein the video capture assembly further comprises a drive member, the camera is rotatably mounted on the mounting bracket, and the drive member is configured to drive the camera to rotate relative to the mounting bracket; and/or the camera is a zoom camera.

5. The paving machine auxiliary feeding system of claim 4, wherein the display device comprises a command input module, and a control command can be sent to the video acquisition assembly through the command input module of the display device to adjust the shooting angle and the focal length of the camera.

6. The paving machine auxiliary feed system of claim 4,

the driving part is a motor, the motor is arranged on the mounting bracket, and an output shaft of the motor is connected to the camera.

7. The paving machine auxiliary feed system of claim 2, wherein the mounting bracket comprises:

the mounting seat is arranged on the paver;

the camera is connected to one end of the connecting rod, and the other end of the connecting rod is hinged to the mounting seat.

8. The paving machine auxiliary feed system of claim 2, wherein the video capture assembly further comprises:

and the dust cover is arranged on the camera and positioned at the top of the image acquisition end of the camera.

9. Paving machine auxiliary feed system according to any of claims 1 to 8, characterized in that the communication connection assembly is a WIFI connection assembly or a local area network connection assembly.

10. The paving machine auxiliary feed system of any one of claims 1-8, wherein the communication connection assembly comprises:

the first wireless communication module is arranged on the paver;

a second wireless communication module configured for communication by the first wireless communication module.

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