CN204881613U - Wireless deviational survey device that possesses step up function angular surveying and acceleration measurement - Google Patents

Abstract

The utility model provides a wireless deviational survey device that possesses step up function angular surveying and acceleration measurement, singlechip data process system and angle sensor including panel computer, wireless transceiver module, accuracy of measurement. Link together through USB with one of them wireless transceiver module based on windows operating system's panel computer, another wireless transceiver module, accuracy of measurement's singlechip data process system and angle sensor are integrated inside accuracy of measurement to connect through flexible wire rope and capstan winch, the operator through the operating condition of control probe, and measures requirement according to the degree of depth according to measurement demand, controls through the capstan winch and accomplishes actual measurement. The utility model discloses can accurate effective monitoring landslide area and the lateral displacement of the body of cutting the earth that is wide open deeply, can reduce again and measure the cost and improve measurement of efficiency, convenient to carry with oneself simultaneously will be in the time of will solving traditional operation cost, hard, with high costs and adjust the problem that the precision is hanged down.

Description

Possesses the wireless inclination measurement device of boost function measurement of angle and acceleration analysis

Technical field

The utility model relates to engineering survey field, particularly space physics and geographic physical field, particularly relate in the lateral shift of monitoring landslide area and dark wide open excavator body, specifically a kind of wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis.

Background technology

Tiltmeter is a kind of in situ detection instrument measuring boring lateral shift, it can be applied to traffic, metallurgy, coal, water conservancy and hydropower department and urban construction department rock-soil engineering in-situ to detect, especially in displacement detecting, there is irreplaceable superiority and practicality in the depth side of side slope, ground, earth and rockfill dam and underground chamber.At present, what the tiltmeter on market mostly adopted is that polycore cable is connected with inclino-probe, this connected mode has been data communication effect on the one hand, play support and connection effect on the other hand, but this connected mode is in long-term measurement with when using, polycore cable can fracture, and then increases testing cost.Polycore cable is heavier and gain in weight along with fathoming and also increase the weight of thereupon in addition, and then makes operation more inconvenient.

Utility model content

The utility model is intended at least solve the technical matters existed in prior art, especially innovatively proposes a kind of wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis.

In order to realize above-mentioned purpose of the present utility model, the utility model provides a kind of wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, and it comprises: capstan winch, steel wire, measuring sonde, intelligent terminal;

Described capstan winch position is fixed, described steel wire one ends wound capstan winch, and the steel wire other end connects on the measurement probe;

Described measuring sonde comprises: angular transducer unit, single-chip microcomputer, the first wireless transmitter, digital accelerometer unit and antenna;

Described angular transducer cellular installation at measuring sonde bottom, angular transducer cell signal transmitting terminal connects single-chip microcomputer signals collecting end, angular transducer unit controls end connects single-chip microcomputer signal output part, digital accelerometer unit controls end connects single-chip microcomputer digital acceleration signal control end, described single-chip microcomputer signal transmitting and receiving end connects the first wireless transmitter, first wireless transmitter and the second wireless transmitter carry out signal and are connected, and the second wireless transmitter is arranged on intelligent terminal;

Described digital accelerometer unit comprises: the 16 resistance, the 17 resistance, the tenth electric capacity, the 11 electric capacity;

3.3V power end connects the tenth electric capacity first end, described tenth electric capacity first end also connects the 11 electric capacity first end, described tenth electric capacity second end and the 11 electric capacity second end ground connection, described tenth electric capacity first end also connects the 16 resistance first end, described 16 resistance first end also connects the 17 resistance first end, described 16 resistance second end connects digital accelerometer serial data input, described 17 resistance second end connects described digital accelerometer serial communication clock end, described digital accelerometer serial communication input end connects Single-chip Controlling signal end, 3.3V power end connects digital accelerometer power input, described digital accelerometer interrupts 1 end and connects singlechip interruption 1 end, described digital accelerometer interrupts 2 ends and connects singlechip interruption 2 end.

The beneficial effect of technique scheme is: carry out collaborative work by the corresponding circuit chip of Single-chip Controlling, Measurement accuracy angle of inclination, and find vertical angle accurately.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, also comprises DC boosting converting unit, and described DC boosting converting unit control end connects single-chip microcomputer DC boosting control end.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, also comprises synchronous boost unit, and described synchronous boost cell signal end connects single-chip microcomputer boosting rectifier control end,

Described synchronous boost unit comprises: the first electric capacity, the second electric capacity, the 3rd electric capacity, the first inductance, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, synchronous pressure-boosting converter;

5V power end connects the first electric capacity first end, described first electric capacity second end ground connection, described first electric capacity first end also connects the first inductance first end and the first resistance first end respectively, described first resistance second end connects the second resistance first end and synchronous pressure-boosting converter boost conversion output terminal respectively, described first resistance first end also connects described synchronous pressure-boosting converter power protection pattern end, described second resistance second end connects described synchronous pressure-boosting converter earth terminal, described synchronous pressure-boosting converter voltage output end connects the 3rd resistance first end and the 3rd electric capacity first end respectively, described 3rd electric capacity second end ground connection, described 3rd resistance second end connects described synchronous pressure-boosting converter feedback end and the 4th resistance first end respectively, described 4th resistance second end connects the 5th resistance first end, described 5th resistance second end ground connection, described synchronous pressure-boosting converter controls stage supply voltage end and connects the second electric capacity first end, described second electric capacity second end connects described synchronous pressure-boosting converter earth terminal.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, also comprises field effect transistor unit, the first field effect transistor, the second field effect transistor, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance, gauge tap;

Described single-chip microcomputer first power control terminal connects the 6th resistance first end, described 6th resistance second end connects described single-chip microcomputer second source control end and gauge tap first contact respectively, described 6th resistance second end connects the 8th resistance first end, described 8th resistance second end connects the first field effect transistor drain electrode, described first fet gate connects described single-chip microcomputer first power control terminal and the 9th resistance first end, described 9th resistance second end ground connection, described 8th resistance second end ground connection, described gauge tap second contact connects the first field effect transistor source electrode and the second fet gate respectively, described second fet gate also connects the 7th resistance first end, described 7th resistance second end connects the second field effect transistor drain electrode and battery-end respectively, described second field effect transistor source electrode connects 3V power output end.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described angular transducer unit comprises: angular transducer and the tenth resistance;

Described angular transducer sequential clock end connects described single-chip microcomputer sequential clock reference edge, described angle sensor data output terminal connects the tenth resistance first end, described tenth resistance second end connects single-chip data input reference edge, and described angular transducer power end connects 5V power supply.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described DC boost converter unit comprises: the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the second inductance, boost converter, the 11 resistance, the 12 resistance, the 13 resistance, the 14 resistance, the first diode;

4th electric capacity first end ground connection, described 4th electric capacity second end connects the 5th electric capacity first end and the second inductance first end respectively, described 5th electric capacity second end ground connection, described second inductance second end connects boost converter switch end, described boost converter input end connects 3.3V power end, described boost converter Enable Pin connects Single-chip Controlling signal end, described boost converter switch end also connects the first diode cathode, described first diode cathode connects the 8th electric capacity first end and the 9th electric capacity first end respectively, described 8th electric capacity second end and the 9th electric capacity second end ground connection respectively, described first diode cathode also connects the 12 resistance first end, described 12 resistance second end connects described boost converter feedback end and the 13 resistance first end respectively, described 13 resistance second end connects the 14 resistance first end, described 14 resistance second end ground connection, described boost converter signal compensation end connects the 11 resistance first end, described 11 resistance second end connects the 7th electric capacity first end, described 7th electric capacity second end ground connection.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described capstan winch comprises: the first pulley, the second pulley first support column and the second support column;

First pulley is fixed on the first support column top, is fixed on the surface level of wall bottom described first support column, and described second pulley is fixed on the second support column top, is fixed on the surface level of wall and the angle of vertical plane bottom described second support column.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described second wireless transmitter is connected by USB interface with intelligent terminal.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described wireless base station apparatus top arranges antenna, for increasing signal intensity.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described steel wire adopts stone dead wire.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

Adopt the data transfer mode of radio communication, and testing software is arranged on panel computer, make operation more convenient.Upgrading single-chip data disposal system and angular transducer, make measuring accuracy greatly improve, and realize intellectualized operation.Provide the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis that a whole set of is complete, have error little, adjustable accuracy is high, operative intelligence, high reliability, and then has saved measurement cost, improves work efficiency simultaneously.

In order to the work efficiency improving operator reduces to measure cost, the utility model patent proposes to adopt the mode of radio communication to realize the data communication with measuring sonde, and adopt the stone dead wire of 1mm to support measuring sonde when support and connection, even if fathom increase like this, relatively little relative to the weight and volume change of cable stone dead wire, operator's practical operation is more convenient

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is systematic schematic diagram of the present utility model;

Fig. 2 is structural representation of the present utility model;

Fig. 3 is circuit diagram of the present utility model;

Fig. 4 is synchronous boost element circuit schematic diagram of the present utility model;

Fig. 5 is field effect transistor element circuit schematic diagram of the present utility model;

Fig. 6 is angular transducer element circuit schematic diagram of the present utility model;

Fig. 7 is DC boosting conversion unit circuit schematic diagram of the present utility model;

Fig. 8 is digital accelerometer element circuit schematic diagram of the present utility model.

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " longitudinal direction ", " transverse direction ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, unless otherwise prescribed and limit, it should be noted that, term " installation ", " being connected ", " connection " should be interpreted broadly, such as, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

Possess a wireless inclination measurement device for boost function measurement of angle and acceleration analysis, comprise the single-chip data disposal system based on the panel computer of Windows operating system, radio receiving transmitting module (two), measuring sonde and angular transducer.Single-chip data disposal system and one of them radio receiving transmitting module of described angular transducer, measuring sonde are integrated in measuring sonde, the radio receiving transmitting module that the data that measuring sonde is measured send to USB to connect by the radio receiving transmitting module of measuring sonde, and the data of measurement are carried out data display in the Survey Software based on Windows operating system panel computer, realize the Long-distance Control to measuring sonde by Survey Software simultaneously.

The described panel computer based on Windows operating system, that exploitation is based on the Survey Software under Windows operating system, and panel computer Survey Software is installed on based on Windows operating system, panel computer carrys out relevant operating conditions, has made operation and carry more convenient;

Described radio receiving transmitting module (two), one is connected to panel computer by USB, and another one is integrated in measuring sonde, and realizes the data communication between Survey Software and measuring sonde by two radio receiving transmitting modules;

The single-chip data disposal system of described measuring sonde, that the SCM Based data handling system of exploitation has been come angle sensor data process, and sending the data of process to Survey Software by radio receiving transmitting module, its single-chip data disposal system is by 2 joints No. 7 dry cell power supplies;

A kind of wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis as shown in Figure 1, Survey Software is arranged on based on panel computer under Windows operating system, and USB radio receiving transmitting module is by the USB interface of panel computer, be connected with panel computer, by the interface operation of Survey Software, relevant instruction information is sent by the decoding of USB radio receiving transmitting module, and by with the radio receiving transmitting module communications reception in measuring sonde to decoded information, and passed to single-chip data disposal system, single-chip data disposal system is by carrying out analytical calculation process to the decoded information transmitted, simultaneously according to the information control angle working sensor of process, the work making angular transducer carry out being correlated with and measurement, and the data feedback of measurement is returned Survey Software, realize the intellectual remote controlling possessing the wireless inclination measurement device of boost function measurement of angle and acceleration analysis.

As shown in Figure 2, based on the panel computer under Windows operating system, that exploitation is based on the tiltmeter Survey Software under Windows operating system, and Survey Software is arranged on panel computer, by operating the carrying out of Survey Software on panel computer, come work and the measurement task of measuring sonde, made operation like this and carry more convenient.

Radio receiving transmitting module one has two, one is arranged on panel computer by USB interface, another is integrated in measuring sonde, radio receiving transmitting module in measuring sonde because of measuring sonde be an opposing seal environment, for ensureing the transmission quality of signal, a joint object construction antenna need be drawn on measuring sonde top and ensure communication quality.In addition, radio receiving transmitting module realizes the data interconnection between Survey Software and single-chip data disposal system.

In measuring sonde, digital accelerometer is set, for measuring static weight acceleration in deviational survey process.

The single-chip data disposal system of measuring sonde, according to the relevant instruction information that Survey Software provides, by the data analysis process computing that angular transducer is measured, and according to the demand of reality by the information feed back of process in Survey Software.The single-chip data disposal system of measuring sonde selects 8 single chip computer AT MEGA128 of ATMEGA company as data processing centre (DPC), it is the pulse signal of 16kHz that single-chip microcomputer produces carrier frequency, exported by pulse-modulated signal output port, be added to the grid of IGBT by driving circuit, realize the normal work of the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis.Simultaneously according to actual process topology requirement, angular transducer and single-chip data disposal system are integrated, and select the micro-angular transducer of New Two Dimensional, this sensor bulk is little, structure is simple, low in energy consumption, highly sensitive, measurement range is large, resolution is 0.1arcsec, and can measure the angle variable quantity of two axis simultaneously, and precision is high and do not interfere with each other.In addition, the whole data processing centre (DPC) being integrated in radio receiving transmitting module, scm managing system and angular transducer, by 2 joints No. 7 dry cell power supplies, continuous working can reach more than 20 hours, only dry cell need be installed during use, real realization possesses the high-accuracy intelligent of the wireless inclination measurement device of boost function measurement of angle and acceleration analysis, facilitation, normal work.

As shown in Figure 2, the utility model is by wish row Survey Software on panel computer, by the interface operation of Survey Software, relevant instruction information is sent to USB radio receiving transmitting module, USB radio receiving transmitting module is decoded the information received, and communicate with the radio receiving transmitting module in measuring sonde, and the information of decoding is sent to the radio receiving transmitting module in measuring sonde, the information received is passed to single-chip data disposal system by the radio receiving transmitting module of measuring sonde, the command information passed over is carried out analytical calculation process by single-chip data disposal system, and the duty angular transducer of requirement control angle sensor needed for command information is measured in real time according to actual measurement instruction, and the Survey Software data of measurement fed back to by same path in panel computer, simultaneously by the interface operation of the Survey Software on panel computer, realize the intelligent operated from a distance possessing the wireless inclination measurement device of boost function measurement of angle and acceleration analysis.

It is little that the utility model has error, and adjustable accuracy is high, operative intelligence, high reliability, saved measurement cost simultaneously, improve work efficiency.And by thoroughly solving that traditional work is time-consuming, effort and the low problem of degree of regulation.The utility model is in engineering survey field, be widely used in traffic, metallurgy, coal, water conservancy and hydropower department and urban construction department rock-soil engineering in-situ to detect, especially in displacement detecting, there is irreplaceable superiority and practicality in the depth side of side slope, ground, earth and rockfill dam and underground chamber.

ADXL345 is connected to the P4 mouth of single-chip microcomputer; During access, SDI mouth is directed to P4 mouth, after having accessed, SDI salty time P1 mouth, the interrupt level of ADXL345, during initialization, change Low level effective into, 0X31 position 5INT_INVERT is set to 1, arranges three axle active interrupt 16g acceleration effective, by reading other position of interrupt source register INT_SOUCE and interrupting accordingly resetting.

As shown in Figure 3, the utility model provides a kind of wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, and it comprises: capstan winch, steel wire, measuring sonde, intelligent terminal;

Described capstan winch position is fixed, described steel wire one ends wound capstan winch, and the steel wire other end connects on the measurement probe;

Described measuring sonde comprises: angular transducer unit, single-chip microcomputer, the first wireless transmitter, digital accelerometer unit and antenna;

Described angular transducer cellular installation at measuring sonde bottom, angular transducer cell signal transmitting terminal connects single-chip microcomputer signals collecting end, angular transducer unit controls end connects single-chip microcomputer signal output part, digital accelerometer unit controls end connects single-chip microcomputer digital acceleration signal control end, described single-chip microcomputer signal transmitting and receiving end connects the first wireless transmitter, first wireless transmitter and the second wireless transmitter carry out signal and are connected, and the second wireless transmitter is arranged on intelligent terminal;

As shown in Figure 8, described digital accelerometer unit comprises: the 16 resistance, the 17 resistance, the tenth electric capacity, the 11 electric capacity;

3.3V power end connects the tenth electric capacity first end, described tenth electric capacity first end also connects the 11 electric capacity first end, described tenth electric capacity second end and the 11 electric capacity second end ground connection, described tenth electric capacity first end also connects the 16 resistance first end, described 16 resistance first end also connects the 17 resistance first end, described 16 resistance second end connects digital accelerometer serial data input, described 17 resistance second end connects described digital accelerometer serial communication clock end, described digital accelerometer serial communication input end connects Single-chip Controlling signal end, 3.3V power end connects digital accelerometer power input, described digital accelerometer interrupts 1 end and connects singlechip interruption 1 end, described digital accelerometer interrupts 2 ends and connects singlechip interruption 2 end.Shown digital accelerometer is preferably ADXL345.

The beneficial effect of technique scheme is: carry out collaborative work by the corresponding circuit chip of Single-chip Controlling, Measurement accuracy angle of inclination, and find vertical angle accurately.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, also comprises DC boosting converting unit, and described DC boosting converting unit control end connects single-chip microcomputer DC boosting control end.

As shown in Figure 4, the described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, also comprises synchronous boost unit, and described synchronous boost cell signal end connects single-chip microcomputer boosting rectifier control end,

Described synchronous boost unit comprises: the first electric capacity, the second electric capacity, the 3rd electric capacity, the first inductance, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, synchronous pressure-boosting converter;

5V power end connects the first electric capacity first end, described first electric capacity second end ground connection, described first electric capacity first end also connects the first inductance first end and the first resistance first end respectively, described first resistance second end connects the second resistance first end and synchronous pressure-boosting converter boost conversion output terminal respectively, described first resistance first end also connects described synchronous pressure-boosting converter power protection pattern end, described second resistance second end connects described synchronous pressure-boosting converter earth terminal, described synchronous pressure-boosting converter voltage output end connects the 3rd resistance first end and the 3rd electric capacity first end respectively, described 3rd electric capacity second end ground connection, described 3rd resistance second end connects described synchronous pressure-boosting converter feedback end and the 4th resistance first end respectively, described 4th resistance second end connects the 5th resistance first end, described 5th resistance second end ground connection, described synchronous pressure-boosting converter controls stage supply voltage end and connects the second electric capacity first end, described second electric capacity second end connects described synchronous pressure-boosting converter earth terminal.Shown synchronous pressure-boosting converter is TPS61200DRC.

As shown in Figure 5, the described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, also comprise field effect transistor unit, the first field effect transistor, the second field effect transistor, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance, gauge tap; Described first field effect transistor is 1R7-25YL, and described second field effect transistor is ME4435, and described gauge tap is SW-SPDT.

Described single-chip microcomputer first power control terminal connects the 6th resistance first end, described 6th resistance second end connects described single-chip microcomputer second source control end and gauge tap first contact respectively, described 6th resistance second end connects the 8th resistance first end, described 8th resistance second end connects the first field effect transistor drain electrode, described first fet gate connects described single-chip microcomputer first power control terminal and the 9th resistance first end, described 9th resistance second end ground connection, described 8th resistance second end ground connection, described gauge tap second contact connects the first field effect transistor source electrode and the second fet gate respectively, described second fet gate also connects the 7th resistance first end, described 7th resistance second end connects the second field effect transistor drain electrode and battery-end respectively, described second field effect transistor source electrode connects 3V power output end.

As shown in Figure 6, the described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described angular transducer unit comprises: angular transducer and the tenth resistance; Described angular transducer is preferably SCA103T-D05.

Described angular transducer sequential clock end connects described single-chip microcomputer sequential clock reference edge, described angle sensor data output terminal connects the tenth resistance first end, described tenth resistance second end connects single-chip data input reference edge, and described angular transducer power end connects 5V power supply.

As shown in Figure 7, the described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described DC boost converter unit comprises: the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the second inductance, boost converter, the 11 resistance, the 12 resistance, the 13 resistance, the 14 resistance, the first diode; Described DC boost converter is TPS61085DGK, diode is preferably PMEG2010AEH,

4th electric capacity first end ground connection, described 4th electric capacity second end connects the 5th electric capacity first end and the second inductance first end respectively, described 5th electric capacity second end ground connection, described second inductance second end connects boost converter switch end, described boost converter input end connects 3.3V power end, described boost converter Enable Pin connects Single-chip Controlling signal end, described boost converter switch end also connects the first diode cathode, described first diode cathode connects the 8th electric capacity first end and the 9th electric capacity first end respectively, described 8th electric capacity second end and the 9th electric capacity second end ground connection respectively, described first diode cathode also connects the 12 resistance first end, described 12 resistance second end connects described boost converter feedback end and the 13 resistance first end respectively, described 13 resistance second end connects the 14 resistance first end, described 14 resistance second end ground connection, described boost converter signal compensation end connects the 11 resistance first end, described 11 resistance second end connects the 7th electric capacity first end, described 7th electric capacity second end ground connection.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described capstan winch comprises: the first pulley, the second pulley first support column and the second support column;

First pulley is fixed on the first support column top, is fixed on the surface level of wall bottom described first support column, and described second pulley is fixed on the second support column top, is fixed on the surface level of wall and the angle of vertical plane bottom described second support column.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described second wireless transmitter is connected by USB interface with intelligent terminal.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described wireless base station apparatus top arranges antenna, for increasing signal intensity.

The described wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis, preferably, described steel wire adopts stone dead wire.

Described single-chip microcomputer is preferably IAP12LE5A62S2.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (10)

1. possess a wireless inclination measurement device for boost function measurement of angle and acceleration analysis, it is characterized in that, comprising: capstan winch, steel wire, measuring sonde, intelligent terminal;

Described capstan winch position is fixed, described steel wire one ends wound capstan winch, and the steel wire other end connects on the measurement probe;

Described measuring sonde comprises: angular transducer unit, single-chip microcomputer, the first wireless transmitter, digital accelerometer unit and antenna;

Described angular transducer cellular installation at measuring sonde bottom, angular transducer cell signal transmitting terminal connects single-chip microcomputer signals collecting end, angular transducer unit controls end connects single-chip microcomputer signal output part, digital accelerometer unit controls end connects single-chip microcomputer digital acceleration signal control end, described single-chip microcomputer signal transmitting and receiving end connects the first wireless transmitter, first wireless transmitter and the second wireless transmitter carry out signal and are connected, and the second wireless transmitter is arranged on intelligent terminal;

Described digital accelerometer unit comprises: the 16 resistance, the 17 resistance, the tenth electric capacity, the 11 electric capacity;

3.3V power end connects the tenth electric capacity first end, described tenth electric capacity first end also connects the 11 electric capacity first end, described tenth electric capacity second end and the 11 electric capacity second end ground connection, described tenth electric capacity first end also connects the 16 resistance first end, described 16 resistance first end also connects the 17 resistance first end, described 16 resistance second end connects digital accelerometer serial data input, described 17 resistance second end connects described digital accelerometer serial communication clock end, described digital accelerometer serial communication input end connects Single-chip Controlling signal end, 3.3V power end connects digital accelerometer power input, described digital accelerometer interrupts 1 end and connects singlechip interruption 1 end, described digital accelerometer interrupts 2 ends and connects singlechip interruption 2 end.

2. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, is characterized in that, also comprise DC boosting converting unit, and described DC boosting converting unit control end connects single-chip microcomputer DC boosting control end.

3. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, is characterized in that, also comprise synchronous boost unit, and described synchronous boost cell signal end connects single-chip microcomputer boosting rectifier control end,

Described synchronous boost unit comprises: the first electric capacity, the second electric capacity, the 3rd electric capacity, the first inductance, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, synchronous pressure-boosting converter;

5V power end connects the first electric capacity first end, described first electric capacity second end ground connection, described first electric capacity first end also connects the first inductance first end and the first resistance first end respectively, described first resistance second end connects the second resistance first end and synchronous pressure-boosting converter boost conversion output terminal respectively, described first resistance first end also connects described synchronous pressure-boosting converter power protection pattern end, described second resistance second end connects described synchronous pressure-boosting converter earth terminal, described synchronous pressure-boosting converter voltage output end connects the 3rd resistance first end and the 3rd electric capacity first end respectively, described 3rd electric capacity second end ground connection, described 3rd resistance second end connects described synchronous pressure-boosting converter feedback end and the 4th resistance first end respectively, described 4th resistance second end connects the 5th resistance first end, described 5th resistance second end ground connection, described synchronous pressure-boosting converter controls stage supply voltage end and connects the second electric capacity first end, described second electric capacity second end connects described synchronous pressure-boosting converter earth terminal.

4. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, it is characterized in that, also comprise field effect transistor unit, the first field effect transistor, the second field effect transistor, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance, gauge tap;

Described single-chip microcomputer first power control terminal connects the 6th resistance first end, described 6th resistance second end connects described single-chip microcomputer second source control end and gauge tap first contact respectively, described 6th resistance second end connects the 8th resistance first end, described 8th resistance second end connects the first field effect transistor drain electrode, described first fet gate connects described single-chip microcomputer first power control terminal and the 9th resistance first end, described 9th resistance second end ground connection, described 8th resistance second end ground connection, described gauge tap second contact connects the first field effect transistor source electrode and the second fet gate respectively, described second fet gate also connects the 7th resistance first end, described 7th resistance second end connects the second field effect transistor drain electrode and battery-end respectively, described second field effect transistor source electrode connects 3V power output end.

5. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, is characterized in that, described angular transducer unit comprises: angular transducer and the tenth resistance;

Described angular transducer sequential clock end connects described single-chip microcomputer sequential clock reference edge, described angle sensor data output terminal connects the tenth resistance first end, described tenth resistance second end connects single-chip data input reference edge, and described angular transducer power end connects 5V power supply.

6. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 2, it is characterized in that, described DC boost converter unit comprises: the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the second inductance, boost converter, the 11 resistance, the 12 resistance, the 13 resistance, the 14 resistance, the first diode;

4th electric capacity first end ground connection, described 4th electric capacity second end connects the 5th electric capacity first end and the second inductance first end respectively, described 5th electric capacity second end ground connection, described second inductance second end connects boost converter switch end, described boost converter input end connects 3.3V power end, described boost converter Enable Pin connects Single-chip Controlling signal end, described boost converter switch end also connects the first diode cathode, described first diode cathode connects the 8th electric capacity first end and the 9th electric capacity first end respectively, described 8th electric capacity second end and the 9th electric capacity second end ground connection respectively, described first diode cathode also connects the 12 resistance first end, described 12 resistance second end connects described boost converter feedback end and the 13 resistance first end respectively, described 13 resistance second end connects the 14 resistance first end, described 14 resistance second end ground connection, described boost converter signal compensation end connects the 11 resistance first end, described 11 resistance second end connects the 7th electric capacity first end, described 7th electric capacity second end ground connection.

7. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, it is characterized in that, described capstan winch comprises: the first pulley, the second pulley first support column and the second support column;

First pulley is fixed on the first support column top, is fixed on the surface level of wall bottom described first support column, and described second pulley is fixed on the second support column top, is fixed on the surface level of wall and the angle of vertical plane bottom described second support column.

8. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, is characterized in that, described second wireless transmitter is connected by USB interface with intelligent terminal.

9. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, is characterized in that, described first wireless transmitter top arranges antenna, for increasing signal intensity.

10. the wireless inclination measurement device possessing boost function measurement of angle and acceleration analysis according to claim 1, is characterized in that, described steel wire adopts stone dead wire.