CN202522263U - Grouting pressurized water monitoring system - Google Patents
Grouting pressurized water monitoring system Download PDFInfo
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- CN202522263U CN202522263U CN2012201021694U CN201220102169U CN202522263U CN 202522263 U CN202522263 U CN 202522263U CN 2012201021694 U CN2012201021694 U CN 2012201021694U CN 201220102169 U CN201220102169 U CN 201220102169U CN 202522263 U CN202522263 U CN 202522263U
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Abstract
The utility model discloses a grouting pressurized water monitoring system. The grouting pressurized water monitoring system comprises a sensor unit (1), a central processing unit (2), an input unit and a display output unit (4) and further comprises a network interface unit (5) which is used for outputting grouting pressurized water monitoring result data, wherein the network interface unit (5) is connected with the central processing unit (2), and the network interface unit (5) is a wireless network interface module. The grouting pressurized water monitoring system has a communication function and has advantages of rich interfaces, simple and compact structure, low cost, high automaticity, operational convenience and high detection precision.
Description
Technical field
The utility model relates to the grouting packer permeability test apparatus field in the engineering construction, refers in particular to the grouting setting-out monitoring system that realizes grouting packer permeability test monitoring usefulness on the ground in a kind of water power (dam, dyke, reservoir, power station), traffic (highway, railway, tunnel, bridge, harbour, airport), building (underground, people's air defense), the mining engineering constructions such as (recover the oil, mine).
Background technology
Along with the exploitation of water resources, desirable dam site is fewer and feweri, and the dam of on the ground of complicacy, building is more and more, and at aspects such as dam or rock mass reinforcings, the general working measure that adopts is cementation process.Along with electronic science and technology and development of computer, grouting setting-out monitor is introduced in the grouting field gradually.But grouting automatic recorder ubiquity is in the market operated problems such as not easy (can only pass through the Keyboard Control cursor operations), no communication function, external interface is simple, the data derivation is inconvenient, overall performance is not high.
The utility model content
The technical matters that the utility model will solve is the shortcoming to above-mentioned prior art, provide a kind of possess communication function, rich interface, simple and compact for structure, with low cost, automaticity is high, easy and simple to handle, grouting setting-out monitoring system that accuracy of detection is high.
In order to solve the problems of the technologies described above; The technical scheme that the utility model adopts is: a kind of grouting setting-out monitoring system; Comprise sensor unit, CPU, input block and demonstration output unit; Said grouting setting-out monitoring system also comprises the NIU that is used to export grouting setting-out monitoring result data, and said NIU links to each other with CPU.
Further improvement as technique scheme:
Said NIU is a wireless network interface modules.
It also comprises the data print unit that is used to print grouting setting-out monitoring result data, and said data print unit links to each other with CPU.
Comprise the timed print control module that is used to control said data print unit timed print in the said CPU, said timed print control module links to each other with the data print unit.
It also comprises the data storage cell that is used to store grouting setting-out monitoring parameter and grouting setting-out monitoring result data, and said data storage cell links to each other with CPU.
It also comprises the data export interface that is used for the grouting setting-out monitoring result data of storage are exported to External memory equipment, and said data export interface links to each other with CPU, data storage cell respectively.
Said input block comprises touch screen module.
Said demonstration output unit is many pictures display module.
Said sensor unit comprises the pressure gauge that is used to detect grouting setting-out pressure, the flowmeter that is used to detect the densitometer of grouting setting-out density and is used to detect grouting setting-out flow.
The utlity model has following advantage:
1, the utility model comprises NIU; After the output signal of sensor unit transfers to CPU through data acquisition module; CPU can be handled the setting-out monitoring result data that obtain being in the milk to input information through showing output unit output or passing through NIU output; Can realize communication function, be applicable to on-site data monitoring, have rich interface, advantage that accuracy of detection is high, simple to operation, simple and compact for structure; The NIU of the utility model further can be wireless network interface modules, thus the scene need not the wiring get final product networking, be particularly suitable for execute-in-place.
2, the utility model further comprises the data print unit, can print the grouting setting-out monitoring result data that comprise data, curve form through the data print unit, can satisfy the demand of user's field print; The utility model CPU further comprises the timed print control module, thereby can realize the automatic time typing data through the timed print control module, and operation is convenient automatically, can satisfy the demand that the user prints automatically.
3, the utility model further comprises data storage cell, can store grouting setting-out monitoring parameter and grouting setting-out monitoring result data, solves the requirement of data recording high capacity storage, the data exchange capability of enhanced system.
4, the utility model further comprises the data export interface; Can the grouting setting-out monitoring result data of storage be exported to External memory equipment; Therefore can derive grouting setting-out monitoring result data through External memory equipments such as USB flash disks; Grouting setting-out monitoring result data are transferred to exterior PC so that data are carried out more deep processing, accomplishes follow-up data compilation and the setting-out raw data of being in the milk transfer printing etc.
5, the input block of the utility model further comprises touch screen module; Flexible configuration realizes the basic data configuration to the output result as required; For example according to user's different needs configuration material, grout coordinate ratio, grouting equipment etc., have flexible operation, advantage easy to use.
6, the demonstration output unit of the utility model further is many pictures display module, can show a plurality of operations or monitoring result data simultaneously, contains much information, and uses convenient directly perceived.
7, the grouting information acquisition unit of the utility model further comprises pressure gauge, densitometer and flowmeter; Can monitor grouting process such as bore flushing, simple and easy setting-out, one-point method setting-out, five-spot setting-out, grouting in the filling process, record, CPU can generate the data preparation that detects like chart or curves such as P-Q (pressure-flow) curve, P-V curve, density data curves automatically.
Description of drawings
Fig. 1 is the framed structure synoptic diagram of the utility model embodiment.
Fig. 2 is the circuit theory synoptic diagram of the utility model embodiment sensor interface unit.
Fig. 3 is the utility model embodiment touch screen module and the circuit theory synoptic diagram that shows output unit.
Fig. 4 is the circuit theory synoptic diagram of the utility model embodiment serial port module.
Fig. 5 is the circuit theory synoptic diagram of the utility model embodiment data storage cell.
Fig. 6 is the circuit theory synoptic diagram of the utility model embodiment usb interface module from USB interface.
Fig. 7 is the circuit theory synoptic diagram of the utility model embodiment usb interface module master USB interface.
Fig. 8 downloads the circuit theory synoptic diagram of debugging unit for the utility model embodiment.
Marginal data: 1, sensor unit; 10, data acquisition module; 101, sensor interface unit; 102, Signal Spacing unit; 103, AD converting unit; 2, CPU; 21, timed print control module; 22, internal memory and program storage unit (PSU); 3, touch screen module; 4, show output unit; 5, NIU; 6, data print unit; 7, data storage cell; 8, data export interface; 9, download debugging unit.
Embodiment
As shown in Figure 1; The grouting setting-out monitoring system of the utility model embodiment comprises sensor unit 1, CPU 2, input block and demonstration output unit 4; Grouting setting-out monitoring system also comprises the NIU 5 that is used to export grouting setting-out monitoring result data, and NIU 5 links to each other with CPU 2.CPU 2 is gathered grouting packer permeability test data through sensor unit 1; Can carry out monitoring record to bore flushing, simple and easy setting-out, one-point method setting-out, five-spot setting-out, grouting etc. in the filling process; And the data preparation of gathering generated like data or curves such as P-Q (pressure-flow) curve, P-V curve, density data curves according to configuration parameter automatically; And through showing output unit 4 outputs or passing through NIU 5 outputs; Can realize the data communication function of building-site, be applicable to on-site data monitoring, have rich interface, advantage that accuracy of detection is high, simple to operation, simple and compact for structure.
In the present embodiment; Sensor unit 1 links to each other with CPU 2 through data acquisition module 10; Input block, demonstration output unit 4 link to each other with CPU 2 respectively, and the same power modules of employing such as sensor unit 1, data acquisition module 10, CPU 2, input block and demonstration output unit 4 are supplied power.Sensor unit 1 comprises the pressure gauge that is used to detect grouting setting-out pressure, the flowmeter that is used to detect the densitometer of grouting setting-out density and is used to detect grouting setting-out flow.Data acquisition module 10 comprises sensor interface unit 101, Signal Spacing unit 102 and AD converting unit 103; The input end of sensor interface unit 101 links to each other with pressure gauge, densitometer and flowmeter respectively; The output terminal of sensor interface unit 101 links to each other with AD converting unit 103 through Signal Spacing unit 102, and 103 of AD converting units link to each other with CPU 2.As shown in Figure 2, sensor interface unit 101 adopts the UART chip in the present embodiment, and the UART chip is the serial interface of a Transistor-Transistor Logic level, and the UART chip links to each other with pressure gauge, densitometer and flowmeter respectively through AD converting unit 103; Signal Spacing unit 102 is an optocoupler Signal Spacing module; AD converting unit 103 is an analog-to-digital conversion circuit module.
In the present embodiment; CPU 2 adopts 32 special-purpose S3C2440 flush bonding processors; The S3C2440 flush bonding processor is as desirable industrial device; Its strong calculation and processing ability can easily be tackled the job requirements of various complicacies, and traditional relatively grouting setting-out monitoring system has just improved also horn of plenty more of 4 times, interface aspect processor host frequency.And the S3C2440 flush bonding processor is supported (SuSE) Linux OS; Bottom most software is realized based on (SuSE) Linux OS in the present embodiment, because the (SuSE) Linux OS degree of ripeness is high, makes the stability of total system improve greatly; And can support mouse action, easy to use, ease for use good.CPU 2 is maincenters of total system; Accomplish other each several part circuit control through external pin, each road sensing data that data acquisition module 10 is collected converts to handle according to the requirement in the grouting process to be needed content displayed to be presented to show on the output unit 4 the most at last.The CPU 2 of present embodiment has self-checking function, can be automatically each setup parameter of present embodiment grouting setting-out monitoring system be carried out automatic gauging, like parameter error prompting automatically, prevents staff's misoperation.CPU 2 comprises internal memory and the program storage unit (PSU) 22 that is used to realize internal memory and program code memory function.
In the present embodiment, input block comprises touch screen module 3.As shown in Figure 3, TSXM, TSXP, TSYM, TSYP port are the signal port of touch screen module 3.The built-in input method of present embodiment (SuSE) Linux OS is supported the phonetic transcriptions of Chinese characters input, and optional input modes such as numeral, English, special symbol, last subscript adopt international standards to encode, and solve the input problem of special unit and Chinese character item.Chinese character item, the self-defined combinatorial input of unit, in input, associative operation is all realized through touch screen module 3, and is easy to operate.The flexible configuration realization is to output result's basic data configuration as required through touch screen module 3, and for example the different needs according to the user disposes material, grout coordinate ratio, grouting equipment etc.In addition, CPU 2 is provided with usb interface module, and input block also comprises keyboard or the mouse that is inserted in usb interface module.Show that output unit 4 is the LCD display with supporting 10.4 cun 24 color depth of touch screen module 3.Show that output unit 4 links to each other with the S3C2440 flush bonding processor through display interface, display interface is as shown in Figure 3 in the present embodiment, and VD0~VD23 port is the data-interface that links to each other with LCD, the display image of control LCD display.I2CSDA links to each other with CPU 2 with the I2CSCL port, is used for obtaining video data from CPU 2.In the present embodiment, show that output unit 4 be many pictures display module, show through (SuSE) Linux OS control and export a plurality of operation screens, clear display, contain much information.Testing result data such as the amount that need monitor in the setting-out process of on LCD display, will being in the milk such as real-time flow, real-time pressure, real-time water cement ratio are output as the user provides operating basis.The user can accomplish the input indication to grouting setting-out registering instrument through touch screen module 3 or through the external mouse of USB interface.
NIU 5 is a wireless network interface modules; The peripheral circuit of S3C2440 flush bonding processor comprises serial port module; The S3C2440 flush bonding processor links to each other with NIU 5 through serial port module, realizes on-the-spot wireless network data transmission through NIU 5.Serial port module is used for external serial equipment, and is as shown in Figure 4, and serial port module mainly is made up of serial port chip SP3232EEN (U4) and serial interface module COM1, and U4 links to each other with the S3C2440 flush bonding processor, and COM1 links to each other with U4.
Present embodiment grouting setting-out monitoring system also comprises the data print unit 6 that is used to print grouting setting-out information; Data print unit 6 links to each other with CPU 2; Through data print unit 6 manually print data, curve, satisfy the demand of user's field print.In the present embodiment, data print unit 6 is the USB printer, and data print unit 6 links to each other with the S3C2440 flush bonding processor through usb interface module.Because the S3C2440 flush bonding processor adopts (SuSE) Linux OS, so the hardware device tenability is stronger, the main flow USB printer on can the support the market.In addition; Comprise the timed print control module 21 that is used for timing controlled data print unit 6 in the CPU 2, timed print control module 21 links to each other with data print unit 6, and timed print control module 21 realizes based on the software of flush bonding processor inside in the present embodiment; Also can adopt in addition based on the hardware of timer and realize; Can the automatic time typing data through timed print control module 21, operation is convenient automatically, can satisfy the demand that the user prints automatically.
Present embodiment also comprises the data storage cell 7 that is used to store grouting setting-out monitoring information and setup parameter, and data storage cell 7 links to each other with CPU 2.In the present embodiment, data storage cell 7 is the flash memory storage chip in the built-in present embodiment, can solve the requirement of data recording high capacity storage, the data exchange capability of enhanced system.As shown in Figure 5; Data storage cell 7 is realized based on SD card memory module CON7 in the present embodiment; The data that the permanent preservation of SD card user sets and collector is gathered that is used for external 4G even 8G; Fully satisfy user's storage demand, FPDP SDDATA0~SDDATA3, control port SDCMD and the clock port SDCLK of SD card memory module CON7 link to each other with the S3C2440 flush bonding processor respectively.
Present embodiment comprises that also the grouting setting-out monitoring information that is used for storage exports to the data export interface 8 that exterior storage is provided with, and data export interface 8 links to each other with CPU 2, data storage cell 7 respectively.Like Fig. 6 and shown in Figure 7; Data export interface 8 is to realize based on usb interface module in the present embodiment; Usb interface module comprises from USB interface (USB_DEVICE) and two USB interfaces of main USB interface (USB_HOST); Wherein USB_DEVICE is used for external mouse, mobile USB memory device etc., and USB_HOST external data print unit 6 is accomplished the various data printouts in the grouting setting-out process.Data export interface 8 can be supported the USB flash disk of 8G; Can derive data through the memory devices such as USB flash disk of outside; Monitoring Data is transferred to exterior PC so that data are carried out more deep processing, and that accomplishes follow-up data compilation and grouting setting-out raw data transfers printing etc.
Present embodiment also comprises downloads debugging unit 9.Download debugging unit 9 and be used for system when manufacturing, programming system code and system debug.As shown in Figure 8; Downloading debugging unit 9 realizes based on the JTAG chip; The JTAG chip links to each other with download debugging interface nTRST, TDI, TMS, the TCK of S3C2440 flush bonding processor; Download that debugging unit 9 can debugging interface is burned to be debugged to internal memory and program storage unit (PSU) 22 and to program through downloading the program of finishing writing, can accomplish initialization working procedure in the CPU 2 through download debugging unit 9.
The course of work of present embodiment is following: after system powered on, power module was that complete machine provides continual and steady power supply, and system is in holding state, and CPU 2 output signals make its display system standby picture to showing output unit 4.Simultaneously; The operational order that CPU 2 ceaselessly receives from the user through touch screen module 3; If the user has started grouting setting-out recording operation, CPU 2 comprises through the setup parameter information of data print unit 6 to user's print output system: grout hole number, design pressure, grouting material etc.; Collect the electric signal that sensor unit 1 is exported through data acquisition module 10 p.s. subsequently, signal comprises flow, pressure, density etc.Signal is after CPU 2 computings, handling; Flow, water cement ratio, pressure and P-Q (pressure-flow) curve, P-V curve, density data curve etc. are delivered to demonstration output unit 4 to be shown in real time; And every interval some minutes (set by the user interval time) is sent to data storage cell 7 storages with process data; Timed print control module 21 log-on data print units 6 print one group of data simultaneously; After the user passes through touch screen module 3 EOI recording operations; Data print unit 6 is printed the grouting form, comprises the consumption of pure filling time, integrated flow, each material correspondence etc., during program run; Internal memory and program storage unit (PSU) 22 provide essential program code of system's operation and random data storage; When the user need export to personal computer through movable storage device with the data in the data storage cell 7, the interface function that the usb interface module of CPU 2 then provides data to derive was responsible for the testing result data of storage in the data storage cell 7 are exported in the outside movable storage device (like USB flash disk).
The above only is the preferred implementation of the utility model, and the protection domain of the utility model also not only is confined to the foregoing description, and all technical schemes that belongs under the utility model thinking all belong to the protection domain of the utility model.Should be pointed out that for those skilled in the art in the some improvement and the retouching that do not break away under the utility model principle prerequisite, these improvement and retouching also should be regarded as the protection domain of the utility model.
Claims (9)
1. grouting setting-out monitoring system; Comprise sensor unit (1), CPU (2), input block and demonstration output unit (4); It is characterized in that: said grouting setting-out monitoring system also comprises the NIU (5) that is used to export grouting setting-out monitoring result data, and said NIU (5) links to each other with CPU (2).
2. grouting setting-out monitoring system according to claim 1 is characterized in that: said NIU (5) is a wireless network interface modules.
3. grouting setting-out monitoring system according to claim 2 is characterized in that: it also comprises the data print unit (6) that is used to print grouting setting-out monitoring result data, and said data print unit (6) links to each other with CPU (2).
4. grouting setting-out monitoring system according to claim 3; It is characterized in that: comprise the timed print control module (21) that is used to control said data print unit (6) timed print in the said CPU (2), said timed print control module (21) links to each other with data print unit (6).
5. grouting setting-out monitoring system according to claim 4; It is characterized in that: it also comprises the data storage cell (7) that is used to store grouting setting-out monitoring parameter and grouting setting-out monitoring result data, and said data storage cell (7) links to each other with CPU (2).
6. grouting setting-out monitoring system according to claim 5; It is characterized in that: it also comprises the data export interface (8) that is used for the grouting setting-out monitoring result data of storage are exported to External memory equipment, and said data export interface (8) links to each other with CPU (2), data storage cell (7) respectively.
7. grouting setting-out monitoring system according to claim 6 is characterized in that: said input block comprises touch screen module (3).
8. grouting setting-out monitoring system according to claim 7 is characterized in that: said demonstration output unit (4) is many pictures display module.
9. according to any described grouting setting-out monitoring system in the claim 1~8, it is characterized in that: said sensor unit (1) comprises the pressure gauge that is used to detect grouting setting-out pressure, the flowmeter that is used to detect the densitometer of grouting setting-out density and is used to detect grouting setting-out flow.
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CN2012201021694U CN202522263U (en) | 2012-03-19 | 2012-03-19 | Grouting pressurized water monitoring system |
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CN2012201021694U CN202522263U (en) | 2012-03-19 | 2012-03-19 | Grouting pressurized water monitoring system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110553965A (en) * | 2018-06-04 | 2019-12-10 | 中南大学 | pressurized water test detection method in grouting engineering |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110553965A (en) * | 2018-06-04 | 2019-12-10 | 中南大学 | pressurized water test detection method in grouting engineering |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121107 Termination date: 20180319 |
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CF01 | Termination of patent right due to non-payment of annual fee |