CN207439345U - One kind is based on Big Dipper system harbour high-precision deformation monitoring system - Google Patents

Abstract

The utility model discloses one kind based on Big Dipper system harbour high-precision deformation monitoring system, including big-dipper satellite constellation, the first Beidou receiver group, the second Beidou receiver group, interface module, data transfer components, data handling component, display module, storage assembly and alarm assemblies, first Beidou receiver group is fixed on the surface and top of monitored building, and the second Beidou receiver group is fixed on the surrounding of monitored building.By setting the first Beidou receiver group, the second Beidou receiver group, USB interface, transmitter, microprocessor, display, memory, voice guard and visual alarm, while realizing satellite high-precision, round-the-clock, low error monitoring, timely data can also be handled, so as to fulfill the unmanned monitoring system of automation, alarm can also be made in time, improve the security and reliability of detecting system.

Description

One kind is based on Big Dipper system harbour high-precision deformation monitoring system

Technical field

The utility model is related to DEFORMATION MONITORING SYSTEM technical field, more particularly to a kind of high based on Big Dipper system harbour Precision DEFORMATION MONITORING SYSTEM.

Background technology

With the process of reform and opening-up economic construction and urbanization, on all kinds of building quantity that China is built every year are continuous Rise, building the more is built the more high, and span is increasing, have a collection of high-rise building every year and super-huge building put into operation and It comes into operation, the situation of high speed development is presented in the construction of Super High and super-huge building.Meanwhile old dilapidated house quantity increases Add, it is necessary that existing building, which continue to monitor, finds early and takes corresponding safeguard measure, to protect resident's person peace Entirely, property loss is reduced.In order to prevent the generation of various accidents, country has also put into effect the various specifications for building safety monitoring And policy.For existing foundation pit deformation monitoring data mainly using conventional Geodetic surveying method by manually gathering, monitoring data are even Right error is big, and data reliability is easily affected, and adds early warning difficulty, additionally, due to using static data processing mode, The state of this deformation dynamics system of foundation pit can not be timely and intuitively reacted, existing technology is difficult to solve problem above.

The content of the invention

The technical problems to be solved in the utility model overcomes existing foundation pit deformation monitoring data mainly using routine Geodetic surveying method is by manually gathering, and monitoring data accidental error is big, and data reliability is easily affected, and adds early warning hardly possible Degree additionally, due to static data processing mode is used, can not timely and intuitively react the state of this deformation dynamics system of foundation pit The problem of, it provides a kind of based on Big Dipper system harbour high-precision deformation monitoring system.

In order to solve the above-mentioned technical problem, the utility model provides following technical solution：

The utility model provides a kind of Big Dipper system harbour high-precision deformation that is based on and monitors system, including big-dipper satellite star Seat, the first Beidou receiver group, the second Beidou receiver group, interface module, data transfer components, data handling component, display Component, storage assembly and alarm assemblies, the first Beidou receiver group are fixed on the surface and top of monitored building, The second Beidou receiver group is fixed on the surrounding of monitored building, and the interface module includes being fixed on first Big Dipper Unit and the USB interface on the second Beidou receiver group surface are received, the data transfer components include and the described first north Bucket receives the data line and transmitter that unit is connected with the second Beidou receiver group output terminal, the data processing Component includes the microprocessor being connected with the transmitter output terminal, and the display module includes and the output end of microprocessor The display of connection, the storage assembly include the memory being electrically connected with the microprocessor, and the alarm assemblies include The voice guard and visual alarm being connected with the output end of microprocessor.

As a kind of optimal technical scheme of the utility model, the horizontal plane where the second Beidou receiver group is set There is base station.

As a kind of optimal technical scheme of the utility model, the transmission line is USB data line.

As a kind of optimal technical scheme of the utility model, the first Beidou receiver group and second Big Dipper connect Unit is received to be electrically connected by the data line with the transmitter.

As a kind of optimal technical scheme of the utility model, the first Beidou receiver group and second Big Dipper connect Receive the model GNSS CSCEC-HC-5 of unit.

As a kind of optimal technical scheme of the utility model, the model S3C4510B of the microprocessor.

The advantageous effect that the utility model is reached is：By setting the first Beidou receiver group, the second Beidou receiver Group, USB interface, transmitter, microprocessor, display, memory, voice guard and visual alarm, realize satellite In high precision, while round-the-clock, low error monitoring, timely data can also be handled, so as to fulfill nobody is automated Monitoring system, moreover it is possible to make alarm in time, improve the security and reliability of detecting system.The utility model design is closed Reason, simple in structure, safe and reliable, easy to use, practicability is high, has good value for applications.

Description of the drawings

Attached drawing is used to provide a further understanding of the present invention, and a part for constitution instruction, with this practicality New embodiment for explaining the utility model, does not form the limitation to the utility model together.In the accompanying drawings：

Fig. 1 is the overall system diagram of the utility model；

Fig. 2 is the specific system block diagram of the utility model；

In figure：1st, big-dipper satellite constellation；2nd, the first Beidou receiver group；3rd, the second Beidou receiver group；4th, interface module； 5th, data transfer components；6th, data handling component；7th, display module；8th, storage assembly；9th, alarm assemblies；10th, USB interface；11、 Data line；12nd, transmitter；13rd, microprocessor；14th, display；15th, memory；16th, voice guard；17th, light report Alert device.

Specific embodiment

The preferred embodiment of the utility model is illustrated below in conjunction with attached drawing, it should be understood that described herein excellent Embodiment is selected to be only used for describing and explaining the present invention, is not used to limit the utility model.

Embodiment 1

As shown in Figs. 1-2, the utility model provides a kind of Big Dipper system harbour high-precision deformation that is based on and monitors system, including Big-dipper satellite constellation 1, the first Beidou receiver group 2, the second Beidou receiver group 3, interface module 4, data transfer components 5, number According to processing component 6, display module 7, storage assembly 8 and alarm assemblies 9, the first Beidou receiver group 2 is fixed on monitored build The surface and top built, the second Beidou receiver group 3 are fixed on the surrounding of monitored building, and interface module 4 includes being fixed on The usb 10 on 3 surface of the first Beidou receiver group 2 and the second Beidou receiver group, data transfer components 5 include and the first north Bucket receives data line 11 and the transmitter 12 that unit 2 is connected with 3 output terminal of the second Beidou receiver group, data processing group Part 6 includes the microprocessor 13 being connected with 12 output terminal of transmitter, and display module 7 includes what is be connected with 13 output terminal of microprocessor Display 14, storage assembly 8 include the memory 15 being electrically connected with microprocessor 13, and alarm assemblies 9 include and microprocessor The voice guard 16 and visual alarm 17 of 13 output terminals connection.

Horizontal plane where second Beidou receiver group 3 is provided with base station, adds the accuracy of system monitoring.

Transmission line 11 is USB data line, convenient for transferring data to microprocessor 13.

First Beidou receiver group 2 and the second Beidou receiver group 3 are electrically connected with transmitter 12 by data line 11 It connects, signal can be received convenient for converting the signal to microprocessor 13.

The model GNSS CSCEC-HC-5 of first Beidou receiver group 2 and the second Beidou receiver group 3 receive signal Accuracy is high, convenient for safeguarding.

The model S3C4510B of microprocessor 13, processing speed is fast, and low energy consumption.

During specific work, in use, big-dipper satellite constellation 1 is made of 24 satellites, 6 orbital planes are evenly distributed on On, on 10,000 2 thousand kilometers of high-altitude from the ground, orbited round the earth with 12 cycle when small, therefore the first Beidou receiver group 2 and second Beidou receiver group 3 can be in one day at any time, on the ground any point can observe 4 simultaneously Or more satellite, round-the-clock can be carried out continuously the Big Dipper high accuracy positioning measurement, and measure the data obtained pass through USB interface 10th, data line 11 and transmitter 12 are transferred to microprocessor 13, and microprocessor 13 handles data, analyzes, will As a result shown by display 14, while store the data to the inside of memory 15, if it find that first Big Dipper receives 2 and second Beidou receiver group of unit, 3 data variation is more than predetermined value, then microprocessor 13 connects voice guard 16 and light The power supply of alarm 17 sends warning to staff, not only increases the precision of measurement, and improves it and automate journey Degree.

The advantageous effect that the utility model is reached is：By setting the first Beidou receiver group, the second Beidou receiver Group, USB interface, transmitter, microprocessor, display, memory, voice guard and visual alarm, realize satellite In high precision, while round-the-clock, low error monitoring, timely data can also be handled, so as to fulfill nobody is automated Monitoring system, moreover it is possible to make alarm in time, improve the security and reliability of detecting system.

Finally it should be noted that：The above is only the preferred embodiment of the utility model only, is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it can still modify to the technical solution recorded in foregoing embodiments or to which part technical characteristic Carry out equivalent substitution.Within the spirit and principle of the utility model, any modifications, equivalent replacements and improvements are made, It should be included within the scope of protection of this utility model.

Claims (6)

1. one kind is based on Big Dipper system harbour high-precision deformation monitoring system, including big-dipper satellite constellation（1）, the first Beidou receiver Group（2）, the second Beidou receiver group（3）, interface module（4）, data transfer components（5）, data handling component（6）, display group Part（7）, storage assembly（8）And alarm assemblies（9）, which is characterized in that the first Beidou receiver group（2）It is fixed on and is supervised Survey the surface and top of building, the second Beidou receiver group（3）It is fixed on the surrounding of monitored building, the interface group Part（4）Including being fixed on the first Beidou receiver group（2）With the second Beidou receiver group（3）The USB interface on surface （10）, the data transfer components（5）Including with the first Beidou receiver group（2）With the second Beidou receiver group （3）The data line of output terminal connection（11）And transmitter（12）, the data handling component（6）Including with the pick-up Device（12）The microprocessor of output terminal connection（13）, the display module（7）Including with the microprocessor（13）Output terminal connects The display connect（14）, the storage assembly（8）Including with the microprocessor（13）The memory of electric connection（15）, it is described Alarm assemblies（9）Including with the microprocessor（13）The voice guard of output terminal connection（16）And visual alarm（17）.

It is 2. according to claim 1 a kind of based on Big Dipper system harbour high-precision deformation monitoring system, which is characterized in that described Second Beidou receiver group（3）The horizontal plane at place is provided with base station.

It is 3. according to claim 1 a kind of based on Big Dipper system harbour high-precision deformation monitoring system, which is characterized in that described Transmission line（11）For USB data line.

It is 4. according to claim 1 a kind of based on Big Dipper system harbour high-precision deformation monitoring system, which is characterized in that described First Beidou receiver group（2）With the second Beidou receiver group（3）With the transmitter（12）Pass through the data transmission Line（11）It is electrically connected.

It is 5. according to claim 1 a kind of based on Big Dipper system harbour high-precision deformation monitoring system, which is characterized in that described First Beidou receiver group（2）With the second Beidou receiver group（3）Model GNSS CSCEC-HC-5.

It is 6. according to claim 1 a kind of based on Big Dipper system harbour high-precision deformation monitoring system, which is characterized in that described Microprocessor（13）Model S3C4510B.