CN205608822U - Active attendance machine system based on webpage is reported and submitted - Google Patents

Abstract

The utility model discloses an active attendance machine system based on webpage is reported and submitted, this system include an attendance group of planes and long -range internet of things platform. An attendance group of planes comprises through the wireless LAN connection a plurality of attendance machine. The attendance machine comprises last case lid, lower box, fingerprint sensor, infrared sensor, steering wheel, WRTnode controller, status indicator lamp and switch. The utility model discloses at first differentiate the true identity by the attendance personnel through fingerprint sensor, take notes its information of turning out for work, then it is whether on duty by the attendance personnel through steering engine driving's infrared sensor initiative discernment in a time quantum. After the attendance, each attendance machine sends to attendance owner machine with the attendance data through wireless LAN from the WRTnode controller of machine, and attendance owner machine is handled and statistical analysis the attendance data, and with passing to long -range internet of things platform in the statistical analysis result, managers only need visit long -range internet of things platform through the webpage can understand the attendance result.

Description

The active telltale system reported and submitted based on webpage

Technical field

This utility model relates to automated office equipment, particularly relates to a kind of active telltale system reported and submitted based on webpage.

Background technology

At present, Shang Ge enterprises and institutions of society carry out record by attendance recorder to the attendance of employee.Using most common two ways now is IC-card attendance recorder and fingerprint recognition for attendance checking machine.IC-card attendance recorder is because it cannot be guaranteed that IC-card is the most consistent with checked-in person person, therefore use is fewer and feweri.Along with the development of fingerprint identification technology, fingerprint recognition for attendance checking machine is currently used more attendance recorder.

But above two work attendance mode is merely able to confirm that checked-in person person turns out for work, and but cannot ensure in checked-in person person is operationally the most on duty.And various attendance recorders the most on the market are all without this function, if work attendance function continues work attendance on one's own initiative to several checked-in person persons, not only can improve the work efficiency of checked-in person person, also can bring huge economic benefit to enterprise.

Summary of the invention

Technical problem to be solved in the utility model is for above-mentioned the deficiencies in the prior art, and a kind of active telltale system reported and submitted based on webpage is provided, this active attendance recorder first passes through fingerprint sensor and differentiates the true identity of checked-in person person, record its attendance information, the most on duty by the pyroelectric infrared sensor initiative recognition checked-in person person of servo driving the most in a period of time.After work attendance terminates, attendance data is sent to attendance recorder main frame by WLAN from the WRTnode controller of machine by each attendance recorder, attendance data is carried out processing and statistical analysis by attendance recorder main frame, statistic analysis result uploads to remote internet of things platform, and management personnel have only to i.e. can be appreciated that checking-in result by web page access remote internet of things platform.

In order to realize above-mentioned technical characteristic, the purpose of this utility model is achieved in that a kind of active telltale system reported and submitted based on webpage, it is characterised in that: this system includes a work attendance group of planes and remote internet of things platform；A described work attendance group of planes is connected and composed by WLAN by multiple attendance recorders.

Described attendance recorder includes upper box lid, upper box lid is arranged on lower box by bolt, fingerprint sensor and status indicator lamp are installed on the top board of described upper box lid, on the side plate on the described lower box left side, steering wheel is installed, steering wheel support is installed on the output shaft of described steering wheel, steering wheel support is provided with pyroelectric infrared sensor；WRTnode base plate is installed on the side plate on the right of described lower box inside, WRTnode base plate is provided with WRTnode core board；The top of described lower box is provided with power interface and on and off switch, described power interface external 5V DC source.

Described remote internet of things platform uses Yeelink platform of internet of things.

Described fingerprint sensor uses FPM10A fingerprint sensor, and pyroelectric infrared sensor uses HC-SR501 pyroelectric sensor, and steering wheel uses DF15RSMG180 degree digital rudder controller, and status indicator lamp uses RGB display lamp.

WRTnode controller is formed after described WRTnode base plate and the combination of WRTnode core board, the input port of described WRTnode controller is connected with fingerprint sensor and pyroelectric infrared sensor, the delivery outlet of WRTnode controller is connected with steering wheel and status indicator lamp, and the power interface of WRTnode controller is connected with on and off switch and external power source interface.

This utility model has the advantages that:

This utility model uses above-mentioned design, this can overcome the deficiency of existing fingerprint recognition for attendance checking mode based on the active telltale system that webpage is reported and submitted, the active telltale system reported and submitted based on webpage can be by the true identity of fingerprint sensor confirmation checked-in person person, then by the pyroelectric infrared sensor initiative recognition checked-in person person of servo driving operationally in the most on duty, and support several employees are carried out simultaneously work attendance.This attendance recorder is powerful, easy to use, safeguards simple.

Accompanying drawing explanation

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.

Fig. 1 is system structure schematic diagram of the present utility model.

Fig. 2 is overall structure schematic diagram of the present utility model.

Fig. 3 is internal structure schematic diagram of the present utility model.

Fig. 4 is operation principle schematic diagram of the present utility model.

In figure: a work attendance group of planes 100, attendance recorder 200, remote internet of things platform 300, upper box lid 201, fingerprint sensor 202, steering wheel support 203, pyroelectric infrared sensor 204, status indicator lamp 205, lower box 206, on and off switch 207, power interface 208, WRTnode base plate 209, WRTnode core board 210, steering wheel 211, bolt 212.

Detailed description of the invention

Below in conjunction with the accompanying drawings embodiment of the present utility model is described further.

As it is shown in figure 1, a kind of active telltale system reported and submitted based on webpage, this system includes a work attendance group of planes 100 and remote internet of things platform 300.

Further, a described work attendance group of planes 100 is connected and composed by WLAN by several attendance recorders 200.

As Figure 2-3, described attendance recorder 200 is made up of upper box lid 201, lower box 206, fingerprint sensor 202, pyroelectric infrared sensor 204, steering wheel 211, WRTnode controller, status indicator lamp 205 and on and off switch 207.

Further, described upper box lid 201 is arranged on lower box 206 by bolt 212；Fingerprint sensor 202, status indicator lamp 205 are arranged on the top board of upper box lid 201；Pyroelectric infrared sensor 204 is connected to steering wheel 211 output shaft by steering wheel support 203, and steering wheel 211 is arranged on the side plate on lower box 206 left side.

Further, described WRTnode core board 210 is arranged on WRTnode base plate 209, and WRTnode base plate 209 is arranged on the side plate on the right of lower box 206；Power interface 208, on and off switch 207 are arranged on lower box 206 side plate in front, and power interface 208 connects outside 5v DC source.

Further, described remote internet of things platform 300 uses Yeelink platform of internet of things.

Further, described fingerprint sensor 202 uses FPM10A fingerprint sensor, pyroelectric infrared sensor 204 uses HC-SR501 pyroelectric sensor, steering wheel 211 uses DF15RSMG180 degree digital rudder controller, WRTnode controller uses the combination of WRTnode core board 210 and WRTnode base plate 209, and status indicator lamp 205 uses RGB display lamp.

Further, described WRTnode controller carries OpenWRT open source operating system, can build WLAN, some attendance recorders 200 are interconnected to constitute a work attendance group of planes 100 by WLAN, and attendance recorder 200 main frame is connected with remote internet of things platform 300 by the Internet.

As shown in Figure 4, the input port of described WRTnode controller is connected with fingerprint sensor 202 and pyroelectric infrared sensor 204, the delivery outlet of WRTnode controller is connected with steering wheel 211 and status indicator lamp 205, and the power interface of WRTnode controller is connected with on and off switch 207 and external power source interface 208.

Further, described active attendance recorder 200 first passes through fingerprint sensor 202 and differentiates checked-in person person's true identity, recording its attendance information, the pyroelectric infrared sensor 204 initiative recognition checked-in person person driven by steering wheel 211 the most in a period of time is the most on duty.After work attendance terminates, attendance data is sent to attendance recorder 200 main frame by WLAN from the WRTnode controller of machine by each attendance recorder 200, attendance data is carried out processing and statistical analysis by attendance recorder 200 main frame, statistic analysis result uploads to remote internet of things platform 300, and management personnel have only to i.e. can be appreciated that checking-in result by web page access remote internet of things platform 300.

Device concrete operation step of the present utility model is:

Before using native system, attendance recorder main frame necessarily be in normal operating condition, and now WLAN built by attendance recorder main frame, and status indicator lamp is amber light, represents that attendance recorder main frame is in holding state；Attendance recorder then attempts to connect to the WLAN of attendance recorder main frame from machine, and now status indicator lamp is amber light and flashes always, if being already connected in WLAN, then status indicator lamp no longer flashes, and shows that attendance recorder is in holding state from machine.

When checked-in person person starts work attendance, only finger need to be pressed against on fingerprint sensor, when fingerprint sensor has detected that finger presses, and send HONGGUANG and start to identify fingerprint, if finger print information coupling is correct, now status indicator lamp is green light, represent that attendance recorder is in checking-in state, in a period of time the most later, the pyroelectric infrared sensor of servo driving revolved turnback every 20 minutes, the most on duty to obtain checked-in person person.When checked-in person person presses finger or the working time arrives again, and attendance recorder stops work attendance.

After work attendance terminates, attendance data is sent to attendance recorder main frame by WLAN from the WRTnode controller of machine by each attendance recorder, attendance data is carried out processing and statistical analysis by attendance recorder main frame, statistic analysis result uploads to remote internet of things platform, and management personnel have only to i.e. can be appreciated that checking-in result by web page access remote internet of things platform.

Above-described embodiment is used for illustrating this utility model; rather than this utility model is limited; in spirit of the present utility model and scope of the claims, any modifications and changes that this utility model is made, both fall within protection domain of the present utility model.

Claims (4)

1. the active telltale system reported and submitted based on webpage, it is characterised in that: this system includes a work attendance group of planes (100) and remote internet of things platform (300)；A described work attendance group of planes (100) is connected and composed by WLAN by multiple attendance recorders (200)；

Described attendance recorder (200) includes upper box lid (201), upper box lid (201) is arranged on lower box (206) by bolt (212), fingerprint sensor (202) and status indicator lamp (205) are installed on the top board of described upper box lid (201), steering wheel (211) is installed on the side plate on described lower box (206) left side, steering wheel support (203) is installed on the output shaft of described steering wheel (211), steering wheel support (203) is provided with pyroelectric infrared sensor (204)；WRTnode base plate (209) is installed on the side plate on the right of described lower box (206) inside, WRTnode base plate (209) is provided with WRTnode core board (210)；The top of described lower box (206) is provided with power interface (208) and on and off switch (207), described power interface (208) external 5V DC source.

A kind of active telltale system reported and submitted based on webpage the most according to claim 1, it is characterised in that: described remote internet of things platform (300) uses Yeelink platform of internet of things.

A kind of active telltale system reported and submitted based on webpage the most according to claim 1, it is characterized in that: described fingerprint sensor (202) uses FPM10A fingerprint sensor, pyroelectric infrared sensor (204) uses HC-SR501 pyroelectric sensor, steering wheel (211) uses DF15RSMG180 degree digital rudder controller, and status indicator lamp (205) uses RGB display lamp.

A kind of active telltale system reported and submitted based on webpage the most according to claim 1, it is characterized in that: after described WRTnode base plate (209) and WRTnode core board (210) combination, form WRTnode controller, the input port of described WRTnode controller is connected with fingerprint sensor (202) and pyroelectric infrared sensor (204), the delivery outlet of WRTnode controller is connected with steering wheel (211) and status indicator lamp (205), and the power interface of WRTnode controller is connected with on and off switch (207) and external power source interface (208).