Detachable road construction intelligence reflection of light undershirt
Technical Field
The utility model belongs to the technical field of road engineering, especially, relate to a detachable intelligent reflection of light undershirt.
Background
As is well known, the road construction site has complex environment and complex personnel, and has the problems of low mechanical intelligence degree, difficult labor management, difficult construction supervision, difficult investigation and sampling, difficult safety control and the like. Along with the rapid development of technologies such as the Internet of things, the Beidou positioning, the cloud computing, the mobile internet and big data, a set of scientific and effective supervisory system is established by advanced technical means, so that the monitoring is more intelligent, the danger early warning is more timely, the prevention and control are carried out from a plurality of layers, and the realization that the comprehensive and overall supervision of a construction site becomes the inevitable choice of a construction unit. Moreover, a large amount of field data can be obtained by utilizing the advanced technology, data support is provided for analysis and decision making, and the method has great practical value and popularization value.
Today, as intelligent devices become more popular, large-scale cluster servers, as small as a common test pencil, have opened an intelligent journey. However, as road construction operators who fight at the front, how can their reflective vests accompany and protect each day intelligently follow the social progress?
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a have self-adaptation light warning safeguard function, and simple structure, carry light novel detachable intelligent reflection of light undershirt.
In order to achieve the above purpose, the technical solution of the utility model is that:
the utility model provides a self-adaptive light warning and protection function, which comprises a reflective vest main body, and a controller, a fluorescence module, an interface module, a positioning module, a communication module, a storage module, a fixer, a power module and a button module which are arranged on the reflective vest main body;
the controller is arranged on the inner side of the upper part of the reflective vest main body and consists of an MCU module, a driving circuit and a control box, the MCU module and the driving circuit are both positioned in the control box, the controller is connected with the interface module, the positioning module, the communication module, the power supply module, the storage module and the key module through integrated circuits on a circuit board, and the controller is connected with the fluorescent module through a lead;
the fluorescent module is arranged on the outer side of the lower part of the reflective vest main body and is connected with the reflective vest main body through a plurality of the fasteners; the fluorescent module is provided with a light sensing sensor, and when the light intensity is within a set threshold value, the fluorescent module automatically sends out LED light warning to increase the safe visual distance of a wearer.
According to a preferable mode in the embodiment, the interface module is a TTL interface circuit, and is fixed in the controller and used for extending and adding the sensor. Furthermore, a detachable audio and video module is connected to the interface module, a honeycomb-shaped small hole is formed in the audio and video module and used for receiving sound and externally transmitting sound, and the audio and video module is used for voice broadcasting, abnormal reminding, voice communication and image shooting.
According to a preferable mode in the embodiment, the positioning module is fixed in the controller and used for acquiring real-time longitude and latitude information.
According to a preferable mode in the embodiment, the communication module is fixed in the controller and used for being connected with the storage module through a circuit and performing information interaction, the information receiving and sending of the communication module are controlled by the controller, and the communication module is communicated with the cloud platform through a 2G or 4G network.
According to a preferred mode of the embodiment, the storage module is fixed in the controller and used for locally storing data; the power module is fixed in the controller and used for providing electric energy.
According to the preferable mode of the embodiment, the fixer forms an angle of 90 degrees with the reflective vest main body and is used for fixing the controller and the fluorescent module, and a lead is arranged in the fixer and is used for communicating the fluorescent module with the controller.
According to the preferred mode in the embodiment, the key module is installed outside the controller and used for SOS one-key help seeking.
According to the preferred mode of the embodiment, the power supply module is provided with a wireless charging module and a USB charging interface; the reflecting vest main body is also provided with an electromagnetic shielding device for blocking radiation waves.
Compared with the prior art, the utility model concrete beneficial effect is:
(1) through being provided with fluorescence module for intelligence reflection of light undershirt not only has initiative safeguard function, can also provide night illumination, initiative luminous warning, increases the safe visible distance of wearer.
(2) Through being provided with fixer, interface module for intelligence reflection of light undershirt demountable assembly, and can carry out the function extension according to practitioner's actual demand.
(3) The intelligent road construction system is provided with the communication module, the positioning module and the audio and video module, so that a manager can be helped to monitor the positions of road construction personnel, field images and working environment in real time, find abnormal conditions in time and conduct remote guidance.
Drawings
The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic diagram of a circuit structure of a detachable intelligent reflective vest for road construction;
fig. 2 is the utility model relates to a structural schematic diagram is looked just to detachable road construction intelligence reflection of light undershirt.
In the figure: the vest comprises a light-reflecting vest body 1, a key module 2, an interface module 3, a communication module 4, a positioning module 5, a storage module 6, a controller 7, a power module 8, a fluorescent module 9, a fixer 10 and an audio/video module 11.
Detailed Description
For the convenience of understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, and the description of the embodiments is not intended to limit the present invention.
Referring to fig. 1 and 2, a novel detachable intelligent reflective vest with adaptive light warning and protection functions, simple structure and portability is provided, which comprises a reflective vest main body 1, a controller 7, a fluorescent module 9, an interface module 3, a positioning module 5, a communication module 4, a storage module 6, a fixer 10, a power module 8 and a key module 2.
Specifically, the reflective vest body 1 is a conventional road construction reflective vest.
In one embodiment, the controller 7 is mounted to the inner right side of the upper third of the reflective vest body 1. Controller 7 comprises STM32F103 microprocessor, drive circuit and rectangle control box, and STM32F103 microprocessor and drive circuit are located the rectangle control box, STM32F103 microprocessor passes through with interface module 3, orientation module 5, communication module 4, power module 8, storage module 5 and button module 2 drive circuit connects, is connected through the wire with fluorescence module 9 to carry out drive control to each module.
The fluorescent module 9 is arranged on the outer side of one third of the lower part of the main body of the reflective vest 1, and the fluorescent module 9 is connected with the main body of the reflective vest 1 through six fixtures 10. The fluorescent module 9 is provided with a light sensing sensor, and when the light intensity is 25-65% of a set value, the fluorescent module 9 automatically sends out LED light warning to increase the safe visual distance of a wearer. The set value can be acquired through the light induction sensor according to a scene. In this embodiment, the fluorescent module 9 is a red LED light bar with model number F5D5, power of 0.72W and waterproof rating IP67, and the light sensor is mainly used for detecting the intensity of ambient light and is a photoresistor with model number Risym-5506. The interface module 3 is a standard TTL interface circuit, and is fixed in the controller 7 (located in the rectangular control box, and other modules located in the controller 7 are all located in the rectangular control box in this embodiment) to add more sensors in an expanded manner. The interface module 3 is connected with a detachable audio and video module 11. The audio and video module 11 is used for voice broadcasting, exception reminding, voice interaction and image shooting, a honeycomb-shaped small hole is formed in the audio and video module 11 and used for receiving voice and externally transmitting voice, and in the embodiment, the audio and video module 11 selects a combination of a XM-JPR camera and a HO-402L speaker. .
The positioning module 5 is fixed in the controller 7 and used for acquiring real-time longitude and latitude information, and in the embodiment, a punctual atom 'GPS + Beidou' double positioning module ATK1218-BD is selected.
The communication module 4 is fixed in the controller 7, and is configured to be connected to the storage module 6 through a circuit and perform information interaction, and the information transceiving of the communication module is controlled by the controller 7, in this embodiment, the communication module 4 is a model 4G communication module, hua shi 909s-821, and performs real-time communication with a remote cloud platform through a 4G network.
The memory module 6 is fixed in the controller 7 and used for locally storing data, and in this embodiment, the memory module 6 is a memory card with a capacity of 32G.
The fixer 10 forms an angle of 90 degrees with the reflective vest main body 1 and is used for fixing the controller 7 and the fluorescent module 9, and a lead is arranged in the fixer 10 and is used for communicating the fluorescent module 9 with the controller 7. In this example, the fastener 10 is comprised of a button-like buckle, dupont thread, and a nail-like bayonet which passes through bayonet interconnection, and the button-like bayonet end is a female head, and the nail-like bayonet end is a male head.
The power module 8 is fixed in the controller 7, the power module 8 is a lithium battery, in this embodiment, the output voltage of the battery module 8 is 12V dc voltage, and the capacity is 2800 mAH.
The button module 2 install in the controller 7 outside, the button module 2 is used for the exception triggering, presses 3 seconds for a long time the button module 2, can trigger the SOS signal, simultaneously the controller 7 passes through communication module 4 sends the SOS signal to cloud platform as an optional mode, fluorescence module 9 has the highlight illumination function, and the light is less than the automatic start highlight illumination when 20% of setting value. And the power module 8 is provided with a wireless charging module and a USB charging interface. The reflecting vest main body 1 is also provided with an electromagnetic shielding device for blocking radiation waves. In this embodiment, the electromagnetic shielding device is composed of a radiation-proof cloth with a metal fiber content of 30%.
The utility model discloses can be used to carry out real-time supervision to road constructor position, scene image, operational environment, in time discover abnormal conditions to remote guidance is applicable to the construction operation of wading the way, and the utility model discloses need not change original reflection of light undershirt and can realize intelligent function, the original investment of abundant protection user. The construction personnel can establish communication contact with the cloud platform through the communication module and conduct on-site guidance, when abnormal conditions occur and help needs to be sought, the SOS signal can be triggered through the key module, and the SOS signal is sent to the cloud platform through the communication module 4. Meanwhile, constructors can acquire audio and video information of a construction site through the audio and video module to perform local storage or transmit the audio and video information to the cloud platform. The utility model discloses a fluorescence module 9 is equipped with light induction sensor, when light intensity between the 25% of setting value to 65% when light intensity when setting for the threshold value, fluorescence module 9 sends LED light warning automatically, increases the safe visible distance of wearer, and the automatic start highlight is convenient for the site operation when light is less than the 20% of setting value. The positioning module can acquire the position information of the constructors in real time.
The utility model discloses a concrete application way is many, and the above-mentioned is only the preferred embodiment of the utility model, should point out, to ordinary skilled person in this technical field, under the prerequisite that does not deviate from the utility model discloses the principle, can also make a plurality of improvements, and these improvements also should be regarded as the utility model discloses a scope of protection.