System for integrating vehicle-mounted mobile platform and logistics platform based on Internet of things
Technical Field
The invention discloses a system for integrating a vehicle-mounted mobile platform and a logistics platform based on the Internet of things, and belongs to the field of logistics management systems.
Background
Logistics Management (Logistics Management) refers to planning, organizing, commanding, coordinating, controlling and supervising Logistics activities according to the flowing rule of material data entities and applying the basic principle and scientific method of Management in the social production process, so that the Logistics activities are optimally coordinated and matched to reduce Logistics cost and improve Logistics efficiency and economic benefit. Modern logistics management is based on system theory, information theory and control theory.
However, in the prior art, automatic detection cannot be performed according to the number of the articles in the garage, the articles need to be checked manually, so that the articles are omitted to some extent, and the inventory cannot be checked correctly.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a system for integrating a vehicle-mounted mobile platform and a logistics platform based on the Internet of things, so as to solve the defects that in the prior art, automatic detection cannot be performed according to the number of objects in a garage, the objects need to be checked manually, the objects are omitted, and the inventory cannot be checked correctly.
In order to achieve the purpose, the invention is realized by the following technical scheme: a system for fusing a vehicle-mounted mobile platform and a logistics platform based on the Internet of things structurally comprises a vehicle head, two cameras, a detector, a garage, a protective shell, a communication terminal and a counting device, wherein the two cameras are arranged on the left side and the right side of the front surface of the vehicle head, the cameras are electrically connected with the vehicle head, the detector is arranged inside the vehicle head and is electrically connected with the vehicle head, the garage is arranged behind the vehicle head, the garage is connected with the vehicle head through electric welding, the protective shell is arranged on the outer surface of the garage, the protective shell and the garage are of an integrated structure, the communication terminal is arranged inside the garage, the counting device is arranged inside the garage and is connected with the garage through electric welding, the counting device consists of a conveying mechanism, a counting mechanism, a pulling mechanism, a sliding structure, a lifting structure, a transmission pulley block and a supporting structure, and the counting mechanism is arranged below the conveying mechanism, the lower surface of the left side of the conveying mechanism is arranged on the pulling mechanism, the sliding structure is arranged below the pulling mechanism and is in transmission connection with the sliding structure, the lifting structure is arranged below the sliding structure, the transmission pulley block is arranged on the right side of the lifting structure and is connected with the lifting structure through a rope, the supporting structure is arranged on the right side of the transmission pulley block, and the supporting structure is connected with the transmission pulley block through electric welding.
Further, the conveying mechanism comprises a shell, a movable plate, a conveying plate, roller shafts, buckling blocks, first iron blocks, second iron blocks and a first spring, wherein the movable plate is arranged on the upper surface of the shell, the movable plate is connected with the shell through the roller shafts, the conveying plate is arranged on the upper surface of the movable plate, the conveying plate is connected with the movable plate through electric welding, the buckling blocks are four and are uniformly arranged on the right side surface of the movable plate at equal intervals, the buckling blocks are connected with the movable plate through electric welding, the first iron blocks are arranged on the lower surface of the movable plate, the first iron blocks are connected with the movable plate through electric welding, the second iron blocks are arranged below the first iron blocks, one end of the first spring is connected with the first iron blocks through electric welding, and the other end of the first spring is connected with the second iron blocks through electric welding.
Furthermore, the counting mechanism is composed of an installation base, a counter, a switch button, an electric wire and a touch block, wherein the counter is arranged on the upper surface of the installation base, the counter is connected with the installation base through bolts, the switch button is arranged on the upper surface of the counter, the switch button is connected with the counter through a button groove, two electric wires are arranged, one end of each electric wire is electrically connected with the counter, the other end of each electric wire is electrically connected with a communication terminal, the touch block is arranged on the lower surface of the movable plate and located above the counter, and the touch block is electrically connected with the movable plate through electric welding.
Further, pulling mechanism comprises supporting seat, wane, cable loop, first rope, the supporting seat upper surface is located to the wane, the wane is connected through the hinge with the supporting seat, the cable loop is located fly leaf lower surface left side, the cable loop is connected through the electric welding with the fly leaf, first rope one end is connected and the other end is connected with wane left side winding with the cable loop winding.
Further, sliding construction comprises sliding plate, stopper, sliding block, second spring, second rope, third rope, first tight pulley, the left wall in the shell is located to the sliding plate, the sliding plate is connected through the electric welding with the shell, the lower right surface of sliding plate is located to the stopper, the stopper is connected through the electric welding with the sliding plate, the sliding block is located the sliding plate right surface and is located the stopper top, second spring one end is connected through the electric welding with the stopper and the other end is connected through the electric welding with the sliding block lower surface, second rope one end is connected with the sliding block winding and the other end passes the stopper and is connected with the elevation structure winding, third rope one end is connected with the sliding block winding and the other end dyes first tight pulley and is connected with the wane winding.
Further, elevation structure comprises dead lever, spacing buckle, activity lagging, third spring, the dead lever upper end is located to spacing buckle, spacing buckle is connected through the electric welding with the dead lever, activity lagging middle part is equipped with the round hole the same with the dead lever diameter, activity lagging is connected with the dead lever registrate, the third spring is equipped with two, the third spring is located activity lagging lower surface left and right sides, the third spring is connected through the electric welding with activity lagging.
Furthermore, the transmission pulley block comprises a fixed plate, a fixed pulley, a first shaft rod, a winding reel, a second shaft rod, a conveyor belt, a second fixed pulley, a fourth rope and a fifth rope, wherein the fixed pulley is arranged on the surface of the fixed plate, the first shaft rod is arranged on the front surface of the fixed pulley, the first shaft rod is connected with the fixed pulley through electric welding, the winding reel is arranged on the surface of the fixed plate and positioned above the fixed pulley, the second shaft rod is arranged on the front surface of the winding reel and connected through electric welding, the conveyor belt is connected with the first shaft rod and the second shaft rod in a sleeved mode, one end of the fourth rope is connected with the movable sleeve plate in a wound mode, the other end of the fourth rope is connected with the support structure in a wound mode, the other end of the fifth rope is connected with the winding reel in a wound mode, and the other end of the fifth rope is connected with the support structure in a wound mode.
Furthermore, the supporting structure comprises a movable supporting plate, two fixing blocks and a closing plate, wherein the two fixing blocks are arranged on the left side surface of the movable supporting plate, the fixing blocks are connected with the movable supporting plate through electric welding, the closing plate is arranged on the upper surface of the movable supporting plate, and the closing plate is connected with the movable supporting plate through electric welding.
Advantageous effects
The invention relates to a system for fusing a vehicle-mounted mobile platform and a logistics platform based on the Internet of things, wherein a counting device transmits data into the system through a communication terminal for real-time data updating, an article is placed on a transmission mechanism, the transmission mechanism moves downwards under the action of an article gravity movable plate, a first spring is in a compressed state, a touch block is downwards contacted with a switch button along with the movable plate, a counter is started for counting, the counting data are transmitted to the communication terminal through electric wires, a rocker plate moves upwards along with a left side plate of the rocker plate under the action of a first rope, a third rope connected with the other end of the rocker plate moves downwards, a sliding block moves downwards under the action of the third rope and a second spring, a second rope connected with one end of the sliding block is in a relaxed state along with the sliding block, a movable sleeve plate connected with the other end of the sliding block moves downwards under the interaction of the second rope and the third spring, a fourth rope connected with the other end of the movable sleeve plate is in a tensioned state along with the movement of the movable sleeve plate, the fixed pulley rotates clockwise under the action of pulling of the fourth rope, the conveyor belt drives the second shaft lever and the winding reel to rotate under the action of rotation of the fixed pulley, the fifth rope is wound under the rotation of the winding reel, and the movable support plate moves leftwards under the mutual pulling of the fifth rope and the fourth rope; on the contrary, the counting device is restored to the initial state under the interaction of the first spring, the second spring and the third spring.
According to the system for fusing the vehicle-mounted mobile platform and the logistics platform based on the Internet of things, the counting device is arranged, so that the stock quantity of articles can be automatically counted and transmitted to the system conveniently, the data can be updated in real time, the problem that the data on the system is not checked really due to the fact that articles are lost in the manual or transportation process is avoided, the automation and the accuracy of data checking are effectively enhanced, and the optimization and the data accuracy of the system for fusing the vehicle-mounted mobile platform and the logistics platform based on the Internet of things are improved.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a system for integrating a vehicle-mounted mobile platform and a logistics platform based on the internet of things.
Fig. 2 is a schematic structural diagram of a counting device according to the present invention.
Fig. 3 is a detailed structural diagram of a counting device according to the present invention.
Fig. 4 is a schematic diagram of the counting device according to the present invention.
In the figure: the system comprises a vehicle head-1, a camera-2, a detector-3, a garage-4, a protective shell-5, a communication terminal-6, a counting device-7, a transmission mechanism-71, a counting mechanism-72, a pulling mechanism-73, a sliding structure-74, a lifting structure-75, a transmission pulley block-76, a supporting structure-77, a shell-710, a movable plate-711, a conveying plate-712, a roller shaft-713, a buckling block-714, a first iron block-715, a second iron block-716, a first spring-717, a mounting base-720, a counter-721, a switch button-722, an electric wire-723, a triggering block-724, a supporting seat-730, a warping plate-731, a rope buckle-732, a first rope-733, a protective shell-5, a communication terminal-6, a counting device-7, a transmission mechanism-71, a counting mechanism-72, a pulling mechanism-73, a sliding mechanism-74, a lifting mechanism-75, a transmission mechanism-716, a first spring-717, a mounting base-720, a counter-721, a counter, a switch button-722, a supporting seat, a switch button-724, a supporting seat, a switch, the device comprises a sliding plate-740, a limiting block-741, a sliding block-742, a second spring-743, a second rope-744, a third rope-745, a first fixed wheel-746, a fixed rod-750, a limiting buckle-751, a movable sleeve plate-752, a third spring-753, a fixed plate-760, a fixed pulley-761, a first shaft lever-762, a winding reel-763, a second shaft lever-764, a transmission belt-765, a second fixed wheel-766, a fourth rope-767, a fifth rope-768, a movable supporting plate-770, a fixed block-771 and a closing plate-772.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1 to 4, the present invention provides a system for integrating a vehicle-mounted mobile platform and a logistics platform based on the internet of things, which comprises: the structure of the intelligent parking garage comprises a vehicle head 1, two cameras 2, a detector 3, a garage 4, a protective shell 5, a communication terminal 6 and a counting device 7, wherein the two cameras 2 are arranged on the left side and the right side of the front surface of the vehicle head 1, the cameras 2 are electrically connected with the vehicle head 1, the detector 3 is arranged inside the vehicle head 1, the detector 3 is electrically connected with the vehicle head 1, the garage 4 is arranged at the rear of the vehicle head 1, the garage 4 is connected with the vehicle head 1 through electric welding, the protective shell 5 is arranged on the outer surface of the garage 4, the protective shell 5 and the garage 4 are of an integrated structure, the communication terminal 6 is arranged inside the garage 4, the counting device 7 is arranged inside the garage 4 and is connected with the counting device through electric welding, and the counting device 7 is composed of a conveying mechanism 71, a counting mechanism 72, a pulling mechanism 73, a sliding structure 74, a lifting structure 75, a transmission pulley block 76 and a supporting structure 77, the counting mechanism 72 is arranged below the conveying mechanism 71, the pulling mechanism 73 is arranged on the lower surface of the left side of the conveying mechanism 71, the sliding structure 74 is arranged below the pulling mechanism 73 and is in transmission connection with the same, the lifting structure 75 is arranged below the sliding structure 74, the transmission pulley block 76 is arranged on the right side of the lifting structure 75 and is connected with the same through a rope, the supporting structure 77 is arranged on the right side of the transmission pulley block 76, the supporting structure 77 is connected with the transmission pulley block 76 through electric welding, the conveying mechanism 71 is composed of a shell 710, a movable plate 711, a conveying plate 712, a roller shaft 713, a buckling block 714, a first iron block 715, a second iron block 716 and a first spring 717, the movable plate 711 is arranged on the upper surface of the shell 710, the movable plate 711 is connected with the shell 710 through the roller shaft 713, the conveying plate 712 is arranged on the upper surface of the movable plate 711 is connected with the movable plate 711 through electric welding, the four buckling blocks 714 are uniformly and equidistantly arranged on the right side surface of the movable plate 711, the buckling blocks 714 are connected with the movable plate 711 through electric welding, the first iron block 715 is arranged on the lower surface of the movable plate 711, the first iron block 715 is connected with the movable plate 711 through electric welding, the second iron block 716 is arranged below the first iron block 715, one end of the first spring 717 is electrically welded with the first iron block 716, the other end of the first spring is electrically welded with the second iron block 716, the counting mechanism 72 is composed of a mounting base 720, a counter 721, a switch button 722, an electric wire 723 and a touch block 724, the counter 721 is arranged on the upper surface of the mounting base 720, the counter 721 is connected with the mounting base 720 through bolts, the switch button 722 is arranged on the upper surface of the counter 721, the switch button 722 is connected with the counter 721 through a button slot, and the electric wire 723 is provided with two wires, one end of the electric wire 723 is electrically connected with the counter 721, the other end of the electric wire 723 is electrically connected with the communication terminal 6, the contact block 724 is disposed on the lower surface of the movable plate 711 and located above the counter 721, the contact block 724 is electrically connected with the movable plate 711 by welding, the pulling mechanism 73 is composed of a support 730, a buckle 731, a rope buckle 732 and a first rope 733, the buckle 731 is disposed on the upper surface of the support 730, the buckle 731 is connected with the support 730 by a hinge, the rope buckle 732 is disposed on the left side of the lower surface of the movable plate 711, the rope buckle 732 is electrically connected with the movable plate 711, one end of the first rope 733 is connected with the rope buckle 732 in a winding manner, the other end of the first rope 733 is connected with the left side of the buckle 731 in a winding manner, the sliding structure 74 is composed of a sliding block 740, limit blocks 741, 742, a second spring 743, a second rope 744, a third rope 745 and a first fixed wheel 746, the sliding block 740 is disposed on the left wall of the housing 710, the sliding plate 740 is electrically welded to the housing 710, the limiting block 741 is disposed on the lower right surface of the sliding plate 740, the limiting block 741 is electrically welded to the sliding plate 740, the sliding block 742 is disposed on the right surface of the sliding plate 740 and located above the limiting block 741, one end of the second spring 743 is electrically welded to the limiting block 741 and the other end of the second spring 743 is electrically welded to the lower surface of the sliding block 742, one end of the second rope 744 is wound around the sliding block 742 and the other end of the second rope passes through the limiting block 741 and is wound around the lifting structure 75, one end of the third rope 745 is wound around the sliding block 742 and the other end of the third rope is wound around the first fixed wheel 746 and is connected to the rocker 731, the lifting structure 75 is composed of a fixed rod 750, a limiting buckle 751, a movable sleeve 752 and a third spring 753, the limiting buckle is disposed on the upper end of the fixed rod 750, and the limiting buckle 751 is electrically welded to the fixed rod 750, the middle part of the movable sleeve plate 752 is provided with a circular hole with the same diameter as the fixed rod 750, the movable sleeve plate 752 is sleeved with the fixed rod 750, the number of the third springs 753 is two, the third springs 753 are arranged on the left and right sides of the lower surface of the movable sleeve plate 752, the third springs 753 are connected with the movable sleeve plate 752 through electric welding, the transmission pulley block 76 is composed of a fixed plate 760, a fixed pulley 761, a first shaft lever 762, a winding reel 763, a second shaft lever 764, a transmission belt 765, a second fixed pulley 766, a fourth rope 767 and a fifth rope 768, the fixed pulley 761 is arranged on the surface of the fixed plate 760, the first shaft lever 762 is arranged on the front surface of the fixed pulley 761, the first shaft lever 762 is connected with the fixed pulley 761 through electric welding, the winding reel 763 is arranged on the surface of the fixed plate 760 and above the fixed shaft lever 761, the second pulley 764 is arranged on the front surface of the winding reel 763 and connected through electric welding, the transmission belt 765 is connected with the first shaft rod 762 and the second shaft rod 764 in a sleeved mode, one end of the fourth rope 767 is connected with the movable sleeve plate 752 in a wound mode, the other end of the fourth rope is connected with the supporting structure 77 in a wound mode through the second fixed wheel 766 and the fixed pulley 761, one end of the fifth rope 768 is connected with the winding reel 763 in a wound mode, the other end of the fifth rope is connected with the supporting structure 77 in a wound mode, the supporting structure 77 is composed of a movable supporting plate 770, a fixed block 771 and a closed plate 772, the fixed block 771 is provided with two blocks and arranged on the left side surface of the movable supporting plate 770, the fixed block 771 is connected with the movable supporting plate 770 through electric welding, the closed plate 772 is arranged on the upper surface of the movable supporting plate 770, and the closed plate 772 is connected with the movable supporting plate 770 through electric welding.
The counting device that this patent was said mainly used makes things convenient for the commodity circulation platform to update stock data in real time, avoids appearing the data and misses the circumstances such as making the check unreal.
When the counting device 7 is used, data is transmitted into the system through the communication terminal 6, the data is updated in real time, an article is placed on the conveying mechanism 71, the conveying mechanism 71 is moved downwards by the article gravity movable plate 711, the first spring 717 is in a compressed state, the trigger block 724 is in contact with the switch button 722 along with the movable plate 711, the counter 721 is started to count, the counting data is transmitted to the communication terminal 6 through the electric wire 723, the warping plate 731 is moved upwards along with the left side plate thereof under the action of the first rope 733, the third rope 745 connected at the other end is moved downwards, the sliding block 742 is moved downwards under the action of the third rope 745 and the second spring 743, the second rope 744 connected at one end is in a relaxed state along with the first rope, the movable sleeve 752 connected at the other end is moved downwards under the interaction of the second rope 744 and the third spring 753, the fourth rope 767 connected at the other end of the movable sleeve 752 is in a tensioned state along with the movement of the movable sleeve 752, the fixed pulley 761 rotates clockwise under the action of pulling the fourth rope 767, the transmission belt 765 drives the second shaft 764 and the winding reel 763 to rotate under the action of rotating the fixed pulley 761, the fifth rope 768 winds up under the action of rotating the winding reel 763, and the movable support plate 770 moves leftwards under the action of pulling the fifth rope 768 and the fourth rope 767 mutually; on the contrary, the counting device 7 is restored to the initial state by the interaction of the first spring 717, the second spring 743 and the third spring 753.
The invention solves the problems that the prior art can not automatically detect according to the quantity of objects in a garage, the objects need to be checked manually, so that the objects are omitted, and the inventory can not be checked correctly.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.