CN213690698U - Concrete intelligent scheduling delivery system - Google Patents

Abstract

The utility model discloses a concrete intelligent scheduling delivery system, which comprises a remote terminal, a cloud platform and a gateway, wherein a first control box, a first RFID card reader and a first wagon balance are arranged at the entrance and exit of a mixing station, and a first controller, a first wireless communication module, a first positioning module and a first power supply module are arranged in the first control box; the mixer truck is provided with a second controller, a second wireless communication module, a second power supply module, a second positioning module, an image acquisition unit, a voice module, a loudspeaker, a display screen, an active electronic tag, a positive and negative rotation sensor and an oil level sensor; a second control box, a second RFID card reader and a second wagon balance are arranged at the entrance and exit of the construction site, and a third controller, a third wireless communication module, a third positioning module and a third power supply module are arranged in the second control box; the utility model discloses can realize intelligent allotment, improve vehicle utilization and work efficiency, practice thrift the cost, reduce the bad action on the way of the transportation.

Description

Concrete intelligent scheduling delivery system

Technical Field

The utility model relates to an intelligence conveying system technical field specifically is a concrete intelligent dispatching delivery system.

Background

With the rapid development of urbanization, new rural construction and the like and the construction of public facilities such as freeways and the like which are continuously and rapidly developed, the demand of concrete is increasingly expanding at present, and cement concrete is widely used in the fields for construction.

When utilizing cement concrete to construct, at first need be produced at fixed cement mixing plant that has a certain scale earlier, then transport to appointed construction site through the concrete transportation trucd mixer and unload, the mode of this kind of production transportation concrete can avoid producing great dust near the construction site, is favorable to keeping the air quality near the construction site, can eliminate partial building noise simultaneously.

However, since cement concrete has the characteristic of rapidly solidifying in a static state, cement in a mixing tank on a concrete transport vehicle must be kept in a mixing state all the time during transportation to ensure that the cement concrete therein is not solidified, and the concrete is generally realized by enabling the mixing tank to rotate continuously during transportation. That is, the transfer of cement concrete produced by a concrete mixing plant from the plant to the construction site is accomplished by rotating the drum in a certain direction at all times.

At present, in order to facilitate loading and unloading of the concrete transportation mixer truck and maintain that cement concrete is always in a non-setting state, when the cement transportation mixer truck transports cement, the mixing tank continuously rotates clockwise (or anticlockwise) slowly towards the same direction to ensure that the cement is in a moving state and is not set, and the effect of anticlockwise (or clockwise) rotation of the corresponding mixing tank is to facilitate pouring out the cement concrete from the mixing tank.

In the prior art, the concrete transport vehicle has the following problems in the aspects of scheduling and distribution:

1. the intelligent degree is low, a uniform dispatching and distribution system is not provided, and the dispatching is carried out only by a hand-written form and a telephone communication mode, for example, the time for the mixer truck to get in and out of a plant or get in and out of a construction site is uncertain, the distance from the mixer truck to the construction site and the running time are not clear, the transportation condition and the carrying amount of the mixing are not clear, and the information of vehicles being distributed at each construction site is not clear; the phenomena of material breakage and vehicle pressing are easily caused by the situations of ambiguity of various information, delay of information sharing and the like, the allocation efficiency is low, and the distribution cost is high;

2. some mixer truck drivers have the condition of selling materials or stealing oil privately in the transportation process, so that economic loss is easily caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a concrete intelligent dispatching delivery system.

The utility model aims at realizing through the following technical scheme: a concrete intelligent scheduling and delivery system comprises a mixing station, a mixing truck and a construction site, and further comprises a remote terminal 1, a cloud platform 2 and a gateway 3, wherein a first control box, a first RFID card reader 4 and a first wagon balance 5 are arranged at the inlet and outlet of the mixing station, a first controller 6, a first wireless communication module 7, a first positioning module 8 and a first power supply module 9 are arranged in the first control box, the first controller 6 is electrically connected with the first positioning module 8, the first power supply module 9, the first RFID card reader 4 and the first wagon balance 5 respectively, the first controller 6 is in wireless communication connection with the cloud platform 2 through the first wireless communication module 7 and the gateway 3 in sequence, and the cloud platform 2 is in wireless communication connection with the remote terminal 1; the mixer truck is provided with a second controller 10, a second wireless communication module 11, a second power supply module 12, a second positioning module 13, an image acquisition unit 14, a voice module 15, a loudspeaker 16, a display screen 17, an active electronic tag 18, a forward and reverse rotation sensor 19 and an oil level sensor 20, wherein the second controller 10, the second power supply module 12, the second positioning module 13, the image acquisition unit 14, the display screen 17, the active electronic tag 18, the forward and reverse rotation sensor 19 and the oil level sensor 20 are electrically connected, the second controller 10 is electrically connected with the loudspeaker 16 through the voice module 15, the second controller 10 is in wireless communication connection with the cloud platform 2 sequentially through the second wireless communication module 11 and the gateway 3; the construction site entrance and exit are provided with a second control box, a second RFID card reader 21 and a second wagon balance 22, a third controller 23, a third wireless communication module 24, a third positioning module 25 and a third power supply module 26 are arranged in the second control box, the third controller 23 is electrically connected with the third positioning module 25, the third power supply module 26, the second RFID card reader 21 and the second wagon balance 22 respectively, and the third controller 23 is in wireless communication connection with the cloud platform 2 sequentially through the third wireless communication module 24 and the gateway 3.

In a preferred embodiment, the image acquisition unit 14 comprises a camera electrically connected to the second controller 10.

In a preferred embodiment, the first positioning module 8, the second positioning module 13, and the third positioning module 25 are all GPS chips or beidou chips.

In a preferred embodiment, the gateway 3 is one of ethernet, 4G and 5G.

In a preferred embodiment, the first wireless communication module 7, the second wireless communication module 11, and the third wireless communication module 24 are each one of LoRa, NB-IoT, WiFi, ZigBee, and BLE.

In a preferred embodiment, the remote terminal 1 is a computer.

The utility model has the advantages that:

1. reasonably allocating resources and improving the utilization rate of vehicles

The utility model discloses can be according to the rational planning route in location of mixing plant and construction site to whether the real-time location through the trucd mixer detects its skew route and traveles, simultaneously in actual business, the scheduling personnel can in time arrange the task of vehicle according to the position condition of vehicle, has improved the utilization ratio of vehicle. Along with the concrete market competition is fierce day by day, the customer is more and more high to transit time and continuity requirement, the utility model discloses can satisfy customer's different demands. The scheduling personnel can monitor the vehicle use condition of each construction site and the running condition of each vehicle visually and simply at the remote terminal, so that the vehicles are arranged in time and reasonably scheduled, the vehicles are ready in the factory for more time, and the task requirements of more construction sites are met.

2. Intelligent scheduling and working efficiency improvement

The dispatcher passes through the utility model discloses with transportation requirement, timely the sending of task for the driver to realize "real-time scheduling". The single-vehicle transportation efficiency can be improved to a certain extent, and the related transportation cost is saved; the dispatching personnel can easily and freely control production and allocate vehicles, and the phenomena of vehicle pressing and material breaking are avoided to the maximum extent.

3. The quality of the concrete is ensured

The time of waiting to unload is shortened through reasonable dispatch vehicle, has reduced the time of concrete on the trucd mixer for the product is more guaranteed. The data are stored in a database, and scientific data can be provided for the internal quality control department to analyze quality problems.

4. Reduce oil consumption and save cost

The time for using the concrete on the mixer truck in optimized dispatching is shortened, the truck is fully utilized, meanwhile, the oil quantity change is analyzed, the oil consumption is monitored, the abnormal oil quantity loss is avoided, and the expenditure of fuel oil and the like can be reduced.

5. Enhance fleet management and restrict bad behavior of drivers

Through the comprehensive utilization of the forward and reverse rotation sensor, the positioning module and the oil level pipe sensor, an intelligent monitoring means is provided for fleet management, so that vehicle loss is reduced, related expenses of enterprises are avoided, and effective management measures are provided for fleet management.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a system framework diagram of an intelligent concrete dispatching and distributing system according to an embodiment of the present invention.

In the figure:

1. a remote terminal; 2. a cloud platform; 3. a gateway; 4. a first RFID card reader; 5. a first wagon balance; 6. A first controller; 7. a first wireless communication module; 8. a first positioning module; 9. a first power supply module; 10. A second controller; 11. a second wireless communication module; 12. a second power supply module; 13. a second positioning module; 14. an image acquisition unit; 15. a voice module; 16. a speaker; 17. a display screen; 18. an active electronic tag; 19. a positive and negative rotation sensor; 20. an oil level sensor; 21. a second RFID card reader; 22. a second wagon balance; 23. a third controller; 24. a third wireless communication module; 25. a third positioning module; 26. and a third power supply module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The invention will be further described with reference to the drawings and specific examples.

As shown in fig. 1, an embodiment of the utility model provides a concrete intelligent scheduling delivery system, including the mixing station, the trucd mixer, the construction site, remote terminal 1, cloud platform 2, gateway 3, mixing station access & exit department is equipped with first control box, first RFID card reader 4, first weighbridge 5, be equipped with first controller 6 in the first control box, first wireless communication module 7, first locating module 8, first power module 9, first controller 6 respectively with first locating module 8, first power module 9, first RFID card reader 4, first weighbridge 5 electric connection, first controller 6 loops through first wireless communication module 7, gateway 3 and cloud platform 2 wireless communication connection, cloud platform 2 and remote terminal 1 wireless communication connection; the mixer truck is provided with a second controller 10, a second wireless communication module 11, a second power supply module 12, a second positioning module 13, an image acquisition unit 14, a voice module 15, a loudspeaker 16, a display screen 17, an active electronic tag 18, a forward and reverse rotation sensor 19 and an oil level sensor 20, wherein the second controller 10 is positioned in a driving cab of the mixer truck, the active electronic tag 18 is positioned at the head of the mixer truck, the forward and reverse rotation sensor 18 is positioned on the mixer truck and is used for detecting rotation parameters of a mixing drum of the mixer truck, the oil level sensor 20 is positioned on the mixer truck and is used for monitoring the oil level of an oil tank of the mixer truck, the second controller 10 is respectively electrically connected with the second power supply module 12, the second positioning module 13, the image acquisition unit 14, the display screen 17, the active electronic tag 18, the forward and reverse rotation sensor 19 and the oil level sensor 20, the second controller 10 is electrically connected with the loudspeaker 16 through the voice, The gateway 3 is in wireless communication connection with the cloud platform 2; a second control box, a second RFID card reader 21 and a second wagon balance 22 are arranged at the entrance and exit of the construction site, a third controller 23, a third wireless communication module 24, a third positioning module 25 and a third power supply module 26 are arranged in the second control box, the third controller 23 is electrically connected with the third positioning module 25, the third power supply module 26, the second RFID card reader 21 and the second wagon balance 22 respectively, and the third controller 23 is in wireless communication connection with the cloud platform 2 through the third wireless communication module 24 and the gateway 3 in sequence;

in the embodiment of the present invention, the remote terminal 1 may adopt a computer, for example, a computer system of a mixing plant allocation center, so as to obtain transportation information of each mixing truck through the cloud platform 2 at any time, and issue each information to the mixing truck through the cloud platform 2 for allocation, and the remote terminal 1 and the cloud platform 2 are both in the prior art and are not described herein again; the first controller 6, the second controller 10, and the third controller 23 may all adopt the prior art, such as a single chip microcomputer, and are not described herein again.

The concrete transportation mixer truck, namely after the mixer truck loads cement concrete from a mixing station, when leaving a factory, the mixer truck is weighed by a first wagon balance 5 to obtain a loading amount, and relevant information of the mixer truck is identified by a first RFID card reader 4, wherein the information is prestored in an active electronic tag 18 of the mixer truck, and the information comprises relevant parameter information of the mixer truck, personal information of a driver of the mixer truck and the like; the first controller 6 collects the collected loading amount information, the factory time of the mixer truck and relevant parameters, automatically generates an invoice number, and sends the invoice number to the cloud platform 2 through the first wireless communication module and the gateway; the remote terminal 1 may obtain the train number information through the cloud platform 2.

In the transportation process of the mixer truck, the forward and reverse rotation sensor 19 feeds back the operation parameters of the mixing drum to the second controller 10 in real time for detecting whether the mixing drum is in a normal operation state, and the installation and use of the forward and reverse rotation sensor 19 on the mixer truck are the prior art known by the ordinary skilled person in the art, and are not described again herein; the second positioning module 13 is used for positioning the mixer truck in real time and checking whether the mixer truck deviates from the route; the fuel level sensor 20 is used for feeding back the remaining fuel amount of the fuel tank to the second controller 10 in real time, and the installation of the fuel level sensor 20 is known to those skilled in the art and will not be described herein; the image acquisition unit is arranged in a cab of the mixer truck and is used for acquiring video information in the cab and facilitating later-stage calling and recording; the second controller 10 uploads the collected mixing drum operation parameters, the real-time position of the mixing truck, the oil level of the oil tank, the video information and the like to the cloud platform through the second wireless communication module and the gateway, and the remote terminal can obtain the information through the cloud platform; the remote terminal can judge whether the mixing drum runs abnormally or not by observing the running parameters of the mixing drum, and can know the stop information of the mixing truck through the real-time positioning of the mixing truck, so that whether the mixing truck has a behavior of selling materials privately or not can be judged through the running parameters of the mixing drum and the real-time positioning of the mixing truck, for example, when the abnormal running of the mixing drum is found, the running condition of the mixing truck is the same as that of unloading, and meanwhile, the mixing truck stays in one position for too long time, a person can be dispatched to find out the specific condition, so that the behavior of selling materials privately is prevented; meanwhile, based on the oil level sensor and the positioning module, whether the phenomenon of oil selling or fuel oil waste exists or not can be judged, for example, when the stirring truck stays in one position for too long time, the oil level continuously drops, and a person can be sent to find out whether the phenomenon of oil selling or fuel oil waste exists or not; the phenomenon of fuel waste refers to that after a driver arrives at a designated place, the driver does not go to a rest room according to the specification, but opens an air conditioner in the vehicle for rest, if the vehicle idles for about 6 hours, the vehicle can consume about 40 yuan of fuel, and if the phenomenon exists for a long time, serious fuel waste can be caused.

The display 17 on the mixer truck is used for receiving the blending information issued by the remote terminal, and a driver can carry out distribution according to instructions; meanwhile, the second controller 10 may send text information sent by the remote terminal to the voice module 15, and the voice module synthesizes the received text into a voice signal and outputs the voice signal to the speaker for playing, where the voice module may adopt the existing technology, such as a SYN6288 chip; through adopting voice module and speaker, can convert text message into voice broadcast, can improve the driving safety of this trucd mixer.

After the mixer truck arrives at a construction site, the mixer truck is weighed again through the second wagon balance 22, relevant information of the mixer truck is identified through the second RFID card reader 21, the third controller 23 uploads acquired parameter information and arrival time to the cloud platform through the third wireless communication module and the gateway, the remote terminal obtains the distribution information through the cloud platform, and the concrete distribution is completed at the time.

In a specific embodiment, the image capturing unit 14 includes a camera electrically connected to the second controller 10.

In a specific embodiment, the first positioning module 8, the second positioning module 13, and the third positioning module 25 are all GPS chips or beidou chips.

In a specific embodiment, the gateway 3 is one of ethernet, 4G and 5G.

In a specific embodiment, the first wireless communication module 7, the second wireless communication module 11, and the third wireless communication module 24 are all one of LoRa, NB-IoT, WiFi, ZigBee, and BLE.

To sum up, the utility model discloses intelligent dispatching delivery system has following several beneficial effect:

1. reasonably allocating resources and improving the utilization rate of vehicles

The utility model discloses can be according to the rational planning route in location of mixing plant and construction site to whether the real-time location through the trucd mixer detects its skew route and traveles, simultaneously in actual business, the scheduling personnel can in time arrange the task of vehicle according to the position condition of vehicle, has improved the utilization ratio of vehicle. Along with the concrete market competition is fierce day by day, the customer is more and more high to transit time and continuity requirement, the utility model discloses can satisfy customer's different demands. The scheduling personnel can monitor the vehicle use condition of each construction site and the running condition of each vehicle visually and simply at the remote terminal, so that the vehicles are arranged in time and reasonably scheduled, the vehicles are ready in the factory for more time, and the task requirements of more construction sites are met.

2. Intelligent scheduling and working efficiency improvement

The dispatcher passes through the utility model discloses with transportation requirement, timely the sending of task for the driver to realize "real-time scheduling". The single-vehicle transportation efficiency can be improved to a certain extent, and the related transportation cost is saved; the dispatching personnel can easily and freely control production and allocate vehicles, and the phenomena of vehicle pressing and material breaking are avoided to the maximum extent.

3. The quality of the concrete is ensured

The time of waiting to unload is shortened through reasonable dispatch vehicle, has reduced the time of concrete on the trucd mixer for the product is more guaranteed. The data are stored in a database, and scientific data can be provided for the internal quality control department to analyze quality problems.

4. Reduce oil consumption and save cost

The time for using the concrete on the mixer truck in optimized dispatching is shortened, the truck is fully utilized, meanwhile, the oil quantity change is analyzed, the oil consumption is monitored, the abnormal oil quantity loss is avoided, and the expenditure of fuel oil and the like can be reduced.

5. Enhance fleet management and restrict bad behavior of drivers

Through the comprehensive utilization of the forward and reverse rotation sensor, the positioning module and the oil level pipe sensor, an intelligent monitoring means is provided for fleet management, so that vehicle loss is reduced, related expenses of enterprises are avoided, and effective management measures are provided for fleet management.

Finally, it should be noted that: the above-mentioned embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a concrete intelligent scheduling delivery system, includes mixing plant, trucd mixer, construction site, its characterized in that: the system is characterized by further comprising a remote terminal (1), a cloud platform (2) and a gateway (3), wherein a first control box, a first RFID card reader (4) and a first wagon balance (5) are arranged at the entrance and exit of the mixing plant, a first controller (6), a first wireless communication module (7), a first positioning module (8) and a first power supply module (9) are arranged in the first control box, the first controller (6) is electrically connected with the first positioning module (8), the first power supply module (9), the first RFID card reader (4) and the first wagon balance (5) respectively, the first controller (6) is in wireless communication connection with the cloud platform (2) through the first wireless communication module (7) and the gateway (3), and the cloud platform (2) is in wireless communication connection with the remote terminal (1); the stirring truck is provided with a second controller (10), a second wireless communication module (11), a second power supply module (12), a second positioning module (13), an image acquisition unit (14), a voice module (15), a loudspeaker (16), a display screen (17), an active electronic tag (18) arranged on the head of the stirring truck, a forward and reverse rotation sensor (19) arranged on the stirring truck and used for detecting rotation parameters of a stirring drum of the stirring truck, and an oil level sensor (20) arranged on the stirring truck and used for monitoring the oil level of an oil tank of the stirring truck, wherein the second controller (10) is electrically connected with the second power supply module (12), the second positioning module (13), the image acquisition unit (14), the display screen (17), the active electronic tag (18), the forward and reverse rotation sensor (19) and the oil level sensor (20) respectively, the second controller (10) is electrically connected with the loudspeaker (16) through the voice module (15), and the second controller (10) is in wireless communication connection with the cloud platform (2) through the second wireless communication module (11) and the gateway (3) in sequence; the construction site entrance and exit are provided with a second control box, a second RFID card reader (21) and a second wagon balance (22), a third controller (23), a third wireless communication module (24), a third positioning module (25) and a third power supply module (26) are arranged in the second control box, the third controller (23) is electrically connected with the third positioning module (25), the third power supply module (26), the second RFID card reader (21) and the second wagon balance (22) respectively, and the third controller (23) is in wireless communication connection with the cloud platform (2) sequentially through the third wireless communication module (24) and the gateway (3).

2. The intelligent concrete dispatching and distributing system of claim 1, wherein: the image acquisition unit (14) comprises a camera electrically connected with the second controller (10).

3. The intelligent concrete dispatching and distributing system of claim 1, wherein: the first positioning module (8), the second positioning module (13) and the third positioning module (25) are all GPS chips or Beidou chips.

4. The intelligent concrete dispatching and distributing system of claim 1, wherein: the gateway (3) is one of Ethernet, 4G and 5G.

5. The intelligent concrete dispatching and distributing system of claim 1, wherein: the first wireless communication module (7), the second wireless communication module (11) and the third wireless communication module (24) are all one of LoRa, NB-IoT, WiFi, ZigBee and BLE.

6. The intelligent concrete dispatching and distributing system of claim 1, wherein: the remote terminal (1) is a computer.

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