CN220789319U - Road roller rolling speed monitoring system based on edge calculation - Google Patents

Abstract

The utility model relates to the technical field of roadbed construction quality monitoring, and particularly discloses a road roller rolling speed monitoring system based on edge calculation, wherein the monitoring system comprises a communication module, a data acquisition module arranged on the road roller and a monitoring module for displaying data; the communication module is connected with the monitoring module and the data acquisition module and is used for transmitting the data in the data acquisition module to the monitoring module; the data acquisition module comprises edge computing equipment arranged in a cab of the road roller, an induction patch arranged at the edge of one end face of the roller of the road roller, and a patch sensor arranged on a fixed bracket beside the roller; when the sensing patch rotates to the position of the patch sensor, the patch sensor senses the sensing patch and counts; the edge computing equipment is connected with the patch sensor and the communication module and is used for calculating the counting times of the patch sensor and the running speed of the roller. The utility model can remotely monitor the actual rolling speed of the road roller in real time.

Description

Road roller rolling speed monitoring system based on edge calculation

Technical Field

The utility model relates to the technical field of roadbed construction quality monitoring, in particular to a road roller rolling speed monitoring system based on edge calculation.

Background

The rolling speed of the roller is one of the important factors for determining the compacting effect of the roller. The rolling speed is too high, so that the flatness and compactness of the rolled layer are not up to the standard, and the construction quality of the roadbed and the roadbed layer is affected.

Generally, because the construction mileage of the highway is longer, the difficulty in supervising the construction process of the highway is greater, and supervision holes exist; during construction, since the road roller is not loaded with the real-time speed measuring device, and since the road roller is in a moving state, it is difficult to fix the wired transmission line.

In this case, the state of the road roller is difficult to collect in real time, and manual filling is required after the fact. When an operator changes the rolling speed of the road roller illegally for personal reasons, the operator is difficult to find, and a certain influence is generated on the construction quality.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a road roller rolling speed monitoring system based on edge calculation, which can remotely monitor the actual rolling speed of the road roller in real time.

In order to achieve the above purpose, the utility model is realized by adopting the following technical scheme:

a road roller rolling speed monitoring system based on edge calculation comprises a monitoring module, a communication module and a data acquisition module arranged on the road roller; the communication module is connected with the monitoring module and the data acquisition module and is used for transmitting the data in the data acquisition module to the monitoring module;

the data acquisition module comprises a speed sensor and edge computing equipment arranged in a cab of the road roller, the speed sensor comprises an induction patch and a patch sensor, the induction patch is arranged at the edge of one end face of the roller of the road roller, and the patch sensor is arranged on a fixed support beside the roller; when the induction patch rotates to the position of the patch inductor along with the roller, the patch inductor senses the induction patch and counts;

the edge computing device comprises a data processing circuit, wherein the data processing circuit is connected with the patch sensor and is used for calculating the counting times of the patch sensor and the running speed of the roller;

the communication module comprises a vehicle-mounted antenna, a communication base station and an antenna positioned at a construction management place, the monitoring module comprises monitoring equipment for displaying data, and the monitoring equipment is positioned at the construction management place; the data processing circuit establishes communication connection with the monitoring equipment through the vehicle-mounted antenna after passing through the communication base station and the antenna switching.

Further, the edge computing device further comprises an alarm module, wherein the alarm module is connected with the data processing circuit and is used for acquiring the speed information of the roller and judging whether the speed exceeds the range or not;

the alarm module establishes communication connection with the monitoring equipment through the vehicle-mounted antenna after passing through the communication base station and the antenna switching, and is used for reporting state information to the monitoring equipment periodically; the monitoring module further comprises an alarm signal receiving end connected with the monitoring equipment;

when the actual running speed of the roller does not accord with the set speed, the alarm module reports alarm information to the monitoring equipment, and the monitoring equipment sends an alarm signal to the alarm signal receiving end; when the edge computing device is destroyed, the alarm module interrupts updating the state information, and the monitoring device sends an alarm signal to the alarm signal receiving end 8.

Furthermore, the edge computing equipment further comprises an alarm module, and the alarm module establishes communication connection with the monitoring equipment after passing through the communication base station and the antenna switching through the vehicle-mounted antenna; the alarm module alarms when the actual running speed of the road roller does not match the set speed or the edge computing device is damaged.

Further, the induction patch is detachably connected with the roller of the road roller in a magnetic attraction mode.

Further, the patch inductor is detachably connected with the fixed support in a magnetic attraction mode.

Further, the vehicle-mounted antenna is arranged at the top of the cab of the road roller.

Further, the communication base station is a 4G base station.

Compared with the prior art, the utility model has the following technical effects:

according to the road roller rolling speed monitoring system based on edge calculation, the data acquisition of the actual running speed of the road roller by the data acquisition module is realized through the cooperation of the sensing patch, the patch sensor and the edge calculation equipment; the data transmission between the data acquisition module and the monitoring module is realized through the matching of the vehicle-mounted antenna, the communication base station and the antenna; through the cooperation of supervisory equipment and alarm signal receiving terminal, realized the long-range real-time supervision of monitoring module to the actual rolling speed of road roller gyro wheel to can in time remind when the pinch roller rolling speed is unusual.

When the road roller runs, the induction patch rotates along with the roller, and when the induction patch rotates to the position of the patch sensor, the patch sensor senses the induction patch and counts and transmits data to the edge computing equipment, and a data processing circuit in the edge computing equipment can calculate the actual running speed of the roller of the current road roller according to the interval time of the two inductions and the circumference of the known roller; the data processed by the edge computing equipment is transmitted to a monitoring device at a construction management place for display through a vehicle-mounted antenna;

when the actual running speed of the roller is inconsistent with the set speed or the edge computing equipment is damaged, an alarm module of the edge computing equipment alarms, and the monitoring equipment sends an alarm signal to the alarm signal receiving end so as to remind a relevant responsible person of the alarm signal receiving end;

in conclusion, the utility model realizes the remote real-time monitoring of the actual rolling speed of the road roller, and can remind relevant responsible persons of the receiving end of the alarm signal when the actual running speed of the roller does not accord with the set speed or the edge computing equipment is damaged; the possibility of poor flatness of the rolled layer caused by abnormal rolling speed of the road roller is effectively reduced.

Drawings

FIG. 1 is a block diagram showing the overall construction of a system for monitoring the rolling speed of a road roller based on edge calculation according to an embodiment of the utility model;

fig. 2 is a schematic diagram of an application scenario of a road roller rolling speed monitoring system based on edge calculation according to an embodiment of the present utility model;

reference numerals illustrate: 1. sensing a patch; 2. a patch sensor; 3. an edge computing device; 4. a vehicle-mounted antenna; 5. a communication base station; 6. an antenna; 7. monitoring equipment; 8. and an alarm signal receiving end.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the utility model may be practiced otherwise than in the order illustrated or described in the embodiments. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The details of the present utility model are explained in further detail below with reference to fig. 1-2.

Referring to fig. 1 and 2, the monitoring system comprises a monitoring module, a communication module and a data acquisition module arranged on the road roller; the communication module is connected with the monitoring module and the data acquisition module and is used for transmitting the data in the data acquisition module to the monitoring module.

The data acquisition module comprises a speed sensor and edge computing equipment 3, the speed sensor comprises an induction patch 1 and a patch sensor 2, the induction patch 1 is arranged at the edge of one end face of the roller, the patch sensor 2 is arranged on a fixed support beside the roller, and the induction patch 1 and the patch sensor 2 are both adhered with magnets and are detachably connected with the roller and the fixed support in a magnetic attraction manner; when the sensing patch 1 rotates to the position of the patch sensor 2 along with the roller, the patch sensor 2 senses the sensing patch 1 and counts.

The edge computing device 3 is arranged in a cab of the road roller, and the edge computing device 3 comprises a data processing circuit and an alarm module, wherein the data processing circuit is connected with the patch sensor 2 through an RS485 data line and is used for calculating the counting times of the patch sensor 2 and the running speed of the roller.

The communication module comprises a vehicle-mounted antenna 4, a communication base station 5 and an antenna 6 positioned at a construction management place, the monitoring module comprises monitoring equipment 7 for displaying data, and the monitoring equipment 7 is positioned at the construction management place; the vehicle-mounted antenna 4 is arranged at the top of the cab of the road roller and is connected with a data processing circuit and an alarm module of the edge computing equipment 3, the communication base station 5 is a 4G base station, and the data processing circuit and the alarm module are connected with the monitoring equipment 7 in a communication mode after being switched through the communication base station 5 and the antenna 6 through the vehicle-mounted antenna 4.

The alarm module is communicated with the data processing circuit through a USB bus or a 485 bus and is used for acquiring the speed information of the road roller and judging whether the speed exceeds the range; and the alarm module reports status information to the monitoring device 7 periodically via the communication module.

The monitoring module further comprises an alarm signal receiving end 8 connected with the monitoring equipment 7, when the actual running speed of the roller is not consistent with the set speed or the edge computing equipment 3 is damaged, the alarm module of the edge computing equipment 3 reports alarm information to the monitoring equipment 7 for alarm, and then the monitoring equipment 7 sends an alarm signal to the alarm signal receiving end 8 to remind relevant responsible persons of the alarm signal receiving end 8. When the edge computing device 3 is destroyed, the alarm module interrupts updating the state information, and the monitoring device 7 actively transmits an alarm signal to the alarm signal receiving end 8 so as to remind relevant responsible persons of the alarm signal receiving end 8.

The monitoring device 7 in this embodiment is specifically a client computer, and may be a desktop computer or a tablet computer on which a common (association, hua Shuo, etc.) win7/win10/win11 system is installed; the alarm signal receiving end 8 is specifically a tablet computer or a mobile phone. And the utility model adopts MT7688N industrial control DTU gateway as gateway of the edge computing device 3.

In this way, the cooperation of the sensing patch 1, the patch sensor 2 and the edge computing equipment 3 realizes the data acquisition of the actual running speed of the roller by the data acquisition module; the matching of the vehicle-mounted antenna 4, the communication base station 5 and the antenna 6 realizes the data transmission between the data acquisition module and the monitoring module; the cooperation of monitoring facilities 7 and alarm signal receiving terminal 8 has realized the long-range real-time supervision of monitoring module to the actual rolling speed of road roller gyro wheel to can in time remind when the pinch roller rolling speed is unusual.

The utility model relates to a road roller rolling speed monitoring system based on edge calculation, which comprises the following implementation principles: when the road roller runs, the induction patch 1 rotates along with the roller, and when the induction patch 1 rotates to the position of the patch sensor 2, the patch sensor 2 senses the induction patch 1 and counts and transmits data to the edge computing equipment 3, and a data processing circuit in the edge computing equipment 3 can calculate the actual running speed of the roller of the current road roller according to the interval time of the two sensing and the circumference of the known roller; the data processed by the edge computing device 3 is transmitted to a monitoring device 7 at a construction management place for display through an on-board antenna 4;

when the actual running speed of the roller is not consistent with the set speed or the edge computing equipment 3 is damaged, an alarm module of the edge computing equipment 3 alarms, and the monitoring equipment 7 sends an alarm signal to the alarm signal receiving end 8 so as to remind a relevant responsible person of the alarm signal receiving end 8;

in summary, the utility model realizes the remote real-time monitoring of the actual rolling speed of the road roller, and can remind relevant responsible persons of the alarm signal receiving end 8 when the actual running speed of the roller does not accord with the set speed or the edge computing equipment 3 is damaged; the possibility of poor flatness of the rolled layer caused by abnormal rolling speed of the road roller is effectively reduced.

Claims (6)

1. The utility model provides a road roller rolling speed monitoring system based on edge calculation which characterized in that: the system comprises a monitoring module, a communication module and a data acquisition module arranged on the road roller; the communication module is connected with the monitoring module and the data acquisition module and is used for transmitting the data in the data acquisition module to the monitoring module;

the data acquisition module comprises a speed sensor and edge computing equipment (3) arranged in a cab of the road roller, the speed sensor comprises an induction patch (1) and a patch sensor (2), the induction patch (1) is arranged at the edge of one end face of the roller, and the patch sensor (2) is arranged on a fixed support beside the roller; when the induction patch (1) rotates to the position of the patch sensor (2) along with the roller, the patch sensor (2) senses the induction patch (1) and counts;

the edge computing device (3) comprises a data processing circuit, wherein the data processing circuit is connected with the patch sensor (2) and is used for computing the counting times of the patch sensor (2) and the running speed of the roller;

the communication module comprises a vehicle-mounted antenna (4), a communication base station (5) and an antenna (6) positioned at a construction management place, the monitoring module comprises monitoring equipment (7) for displaying data, and the monitoring equipment (7) is positioned at the construction management place; the data processing circuit establishes communication connection with the monitoring equipment (7) after being switched through the communication base station (5) and the antenna (6) through the vehicle-mounted antenna (4).

2. A roller compaction speed monitoring system based on edge calculation according to claim 1, wherein the edge calculation device (3) further comprises an alarm module, which is connected with the data processing circuit and is used for acquiring the speed information of the roller and judging whether the speed is out of range;

the alarm module establishes communication connection with the monitoring equipment (7) through the vehicle-mounted antenna (4) after being switched through the communication base station (5) and the antenna (6), and is used for reporting state information to the monitoring equipment (7) periodically; the monitoring module further comprises an alarm signal receiving end (8) connected with the monitoring equipment (7);

when the actual running speed of the roller is not consistent with the set speed, the alarm module reports alarm information to the monitoring equipment (7), and the monitoring equipment (7) sends an alarm signal to the alarm signal receiving end (8); when the edge computing equipment (3) is damaged, the alarm module interrupts updating state information, and the monitoring equipment (7) sends an alarm signal to the alarm signal receiving end (8).

3. A roller compaction speed monitoring system based on edge calculation according to claim 1, characterized in that the sensing patch (1) is detachably connected to the roller by magnetic attraction.

4. A roller compaction speed monitoring system based on edge calculation according to claim 1, characterized in that the patch sensor (2) is detachably connected to the fixed support by means of magnetic attraction.

5. A system for monitoring the rolling speed of a road roller based on edge calculation according to claim 1, characterized in that said vehicle-mounted antenna (4) is arranged on top of the driving cab of the road roller.

6. A road roller rolling speed monitoring system based on edge calculation according to claim 1, characterized in that the communication base station (5) is a 4G base station.