CN204462116U - Mine water inrush on-line monitoring intelligent early-warning system - Google Patents

Abstract

A kind of mine water inrush on-line monitoring intelligent early-warning system, there is Workstation host, acousto-optic prior-warning device, transmitter, integrated intelligent water quality sensor monitoring case, described monitoring case has cylindrical shell, multiple water quality sensor, be located at the screen pack at cylindrical shell two ends, be installed on being horizontally set and extending to the upper stabilier at screen pack place, cylindrical shell two ends and lower stabilier in cylindrical shell, be installed on and extend to many rows split stabilier at screen pack place, cylindrical shell two ends in longitudinal arrangement in cylindrical shell, upper stabilier and lower stabilier and many row's split stabiliers are all distributed with multiple pod apertures, many rows split stabilier is between upper stabilier and lower stabilier, often arrange split stabilier and all there is left section of plate and right section of plate and this left section of plate and right section of plate separated and the cavity that is communicated with between the upper stabilier of cylindrical shell and lower stabilier.Quick detection to water quality when it not only effectively solves detecting water by pilot hole under mine, and advanced early warning can also be made to the gushing water situation occurred.

Description

Mine water inrush on-line monitoring intelligent early-warning system

Technical field

The utility model relates to a kind of water quality detection source of early warning, particularly a kind of mine water inrush on-line monitoring intelligent early-warning system, and it can in field widespread uses such as ore district hydrogeologic, engineering geology, environmental geology and Tunnel Engineering.

Background technology

At present, known water quality detection source of early warning (early-warning apparatus) has two classes, wherein the water quality detection source of early warning of a class is made up of devices such as analyzer, digestion device, special agent, special color comparison tube and cooling (test tube) framves, when detecting water quality, step needs first to obtain water sample, then in water sample, reagent is added, carry out as requested clearing up and cooling, finally carry out measuring and reading in detector, in whole measuring process, there is such Railway Project: one is operating process relative complex, needs professional and technical personnel to operate; Two is need to complete most of operating process in laboratory or operating room, and Measuring Time is longer, cannot carry out Quick; Three is measure different ion in water quality to need to add different reagent, operates relatively loaded down with trivial details.And another kind of water quality detection source of early warning is large-scale water quality detection workbench, it identifies Workstation host fast by Identification of Water Source in Mines, water purification machine (or ultrapure water machine), magnetic stirrer, system works platform, chemical test water platform, corresponding chemical reagent and water source identify that workstation software forms fast, when detecting water quality, first need by water sampling out, then take in laboratory, the ion measured as required adds corresponding reagent, be put into as requested on system works platform or chemical test water platform and carry out ion detection and reading, in whole measuring process, there is these problems: one is operating process more complicated, must be come by the experimental study person of specialty, two is need water sample to deliver to laboratory, and all operations process must complete in laboratory, and detection time is longer, cannot realize Quick, early warning, three when being tests, and testing different ions needs to add different reagent, and need to get on operation at corresponding worktable, and test process is relatively loaded down with trivial details, very high to operator quality requirement.CN202994773U discloses a kind of water quality monitoring terminal and water quality monitoring system, and water quality monitoring terminal wherein comprises: be placed in collection site, gathers the water quality sensor of the water quality data of water body to be monitored; Water quality data is carried out to the central processing unit of data processing; Wireless transceiver water quality data after process being sent to monitoring center by wireless network, by monitoring center water quality data is analyzed and show; To the feed circuit that central processing unit is powered.CN203037285U discloses oneplant hydrology-water quality remote supervision system, comprising: hydrology sensor; Water quality sensor; Data acquisition unit, is connected with hydrology sensor and water quality sensor, receives the measurement data of each sensor; Solar electric power supply system, is connected with data acquisition unit and hydrology sensor, water quality sensor; Antenna, is connected with data acquisition unit; First wireless communication networks, is connected with antenna; Server, is connected with the first wireless communication networks, after receiving the measurement data of data acquisition unit collection, sends in the mode of mail or note; Second wireless communication networks, is connected with server; Terminal device, is connected with the second wireless communication networks, and receiving package contains mail or the note of measurement data, obtains the hydrology-water quality information that water body is current.CN203772850U discloses oneplant Tilapia mossambica cultivation water Monitoring and forecasting system in real-time integrating device, it is characterized in that: it comprises sampling pump, water-supply-pipe, detect groove, water quality sensor, multi-parameter water quality automatic analyzer, signal converter, data server, wireless transport module.The utility model can detect dissolved oxygen DO in water body, temperature, pH, ammonia nitrogen, nitrite nitrogen, total phosphorus plasma concentration step by step, data enter data server, data server by accurate record water quality sensor and the sampling of multi-parameter water quality automatic analyzer, detection time difference data that both detect are integrated, obtain whole factor parameter of some water body of a certain sampling time; The data of collection and the Tilapia mossambica breeding water body factor safe range preset are compared, by result with being wirelessly transmitted to user mobile phone terminal by the comparison algorithm of prepackage by server.

Above technology is for the quick detection to water quality when how to make mine water inrush on-line monitoring intelligent early-warning system effectively can not only solve detecting water by pilot hole under mine, and advanced early warning can also be made to the gushing water situation occurred, do not provide concrete guidance program.

Summary of the invention

Technical problem to be solved in the utility model is, a kind of mine water inrush on-line monitoring intelligent early-warning system is provided, quick detection to water quality when it effectively can not only solve detecting water by pilot hole under mine, and advanced early warning can also be made to the gushing water situation occurred; It is easy to use, simple to operate, and testing result is accurate.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is as follows:

A kind of mine water inrush on-line monitoring intelligent early-warning system, there is Workstation host, acousto-optic prior-warning device, transmitter, its technical scheme is that described mine water inrush on-line monitoring intelligent early-warning system also has the integrated intelligent water quality sensor monitoring case gathering water sample in the trench drain of coal mine roadway, integrated intelligent water quality sensor monitoring case has cylindrical shell, be installed on the multiple water quality sensors on cylindrical shell, be located at the screen pack at cylindrical shell two ends respectively, be fixedly installed in being horizontally set and extending to the upper stabilier at screen pack place, cylindrical shell two ends and lower stabilier in cylindrical shell, be fixedly installed in and extend to many rows split stabilier at screen pack place, cylindrical shell two ends in longitudinal arrangement in cylindrical shell, upper stabilier and lower stabilier and many row's split stabiliers are all distributed with multiple pod apertures (water flow hole), many rows split stabilier, between upper stabilier and lower stabilier, is often arranged split stabilier and is all had left section of plate and right section of plate and this left section of plate and right section of plate separated and the cavity that is communicated with between the upper stabilier of cylindrical shell and lower stabilier, the outer wall top of cylindrical shell is distributed with multiple sensor mounting hole along its length, and each water quality sensor is installed in a sensor mounting hole corresponding with it, and the probe of each water quality sensor falls into the cavity be positioned at above stabilier of cylindrical shell.

In technique scheme, described cylindrical shell is preferably in cylindrical.Above-mentioned split stabilier of often arranging is all preferably horizontally set.The internal diameter of above-mentioned cylindrical shell is preferably 200mm, and its length is preferably 1000 ~ 1100mm, and the diameter of each pod apertures is preferably 15 ~ 20mm.The quantity of above-mentioned split stabilier can be three rows, distance between two stabiliers neighbouring arbitrarily in the assembly that upper stabilier, three row's split stabiliers, lower stabilier are formed is preferably equal, and the separated distance of often arranging left section of plate and right section of plate in split stabilier is preferably all 1/6 of the internal diameter of cylindrical shell.

In technique scheme, described cylindrical shell is preferably in cylindrical.The quantity of above-mentioned split stabilier can be three rows, its left section of plate of split stabilier of top and right section of plate downward-sloping (bending) 5o ~ 10o in three row's split stabiliers, in three row's split stabiliers, its left section of plate of split stabilier of lowermost end and right section of plate are inclined upwardly (bending) 5o ~ 10o, split stabilier in the middle of in three row's split stabiliers is horizontally set, and the separated distance of often arranging left section of plate and right section of plate in split stabilier is all 1/6 of the internal diameter of cylindrical shell.

Integrated intelligent water quality sensor monitoring case of the present utility model gathers water sample in the trench drain of coal mine roadway, and image data is converted to digital signal by transmitter, Workstation host is transferred to by communication bus, (by prefabricated software) carries out timely data analysis to detected water sample, and in the display screen display result of Workstation host, and make corresponding early warning (early warning judgement), early warning is transferred to acousto-optic prior-warning device (system is by 220V ac power supply) simultaneously, can monitor out rapidly in spy water process according to testing result, whether front exists permeable possibility, early warning system on-line monitoring of the present utility model, easy to use, simple to operate, convenient, testing result is accurate, early warning is timely.

Compared with existing water quality testing meter, the utility model beneficial effect provides water quality detection result fast, in time, accurately, easy and simple to handle, and can make For Pre-estimation Geological in time, and its accuracy of detection improves more than 15%.

In sum, the quick detection to water quality when the utility model not only effectively solves detecting water by pilot hole under mine, and advanced early warning can also be made to the gushing water situation occurred.It is easy to use, simple to operate, and testing result is accurate.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation (stereographic map) that in the integrated intelligent water quality sensor monitoring case of the utility model first embodiment, upper stabilier and lower stabilier, three arrange split stabiliers.

Fig. 3 is the structural representation (vertical view) of the integrated intelligent water quality sensor monitoring case of the utility model first embodiment.

Fig. 4 is the cut-open view along A-A line in Fig. 3.

Fig. 5 is the cut-open view (amplifying) along B-B line in Fig. 3.

The structural representation that Fig. 6 is the integrated intelligent water quality sensor monitoring case middle cylinder body of the utility model second embodiment, upper stabilier is connected with lower stabilier, three row's split stabiliers.

Embodiment

Embodiment 1: as Fig. 1, Fig. 2, Fig. 3, Fig. 4, shown in Fig. 5, mine water inrush on-line monitoring intelligent early-warning system of the present utility model (first embodiment) has Workstation host 1, acousto-optic prior-warning device 3, transmitter 4, it is characterized in that described colliery intelligent online monitoring early warning system also has the integrated intelligent water quality sensor monitoring case 2 gathering water sample in the trench drain of coal mine roadway, integrated intelligent water quality sensor monitoring case has cylindrical shell 201, be installed on the multiple water quality sensors 202 on cylindrical shell, be located at the screen pack 203 at cylindrical shell two ends respectively, be fixedly installed in being horizontally set and extending to the upper stabilier 205 at screen pack place, cylindrical shell two ends and lower stabilier 207 in cylindrical shell, be fixedly installed in and extend to many rows split stabilier 206 at screen pack place, cylindrical shell two ends in longitudinal arrangement in cylindrical shell.The structure of screen pack 203 is originally as prior art.The internal diameter of cylindrical shell 201 can be 200mm, and its length can be that 1000 ~ 1100mm(selects 1100mm, and along the length direction of cylindrical shell, the screen pack at cylindrical shell two ends can respectively account for 50mm).Upper stabilier 205 and lower stabilier 207 and many row's split stabiliers 206 are all distributed with multiple pod apertures (water flow hole) 204, and the diameter of each pod apertures 204 can be that 15 ~ 20mm(selects 20mm).Many rows split stabilier 206, between upper stabilier 205 and lower stabilier 207, is often arranged split stabilier 206 and is all had left section of plate and right section of plate and this left section of plate and right section of plate separated and the cavity that is communicated with between the upper stabilier of cylindrical shell and lower stabilier.The outer wall top of cylindrical shell 201 is distributed with multiple sensor mounting hole 208 along its length, each water quality sensor 202 is installed in a sensor mounting hole 208 corresponding with it, and the probe of each water quality sensor 202 falls into the cavity (be positioned at and gather water sample) be positioned at above stabilier of cylindrical shell.Above-mentioned cylindrical shell 201 is in cylindrical.Above-mentioned often row split stabilier 206 is all in horizontally set.The quantity of split stabilier 201 is three rows, distance between two stabiliers neighbouring arbitrarily in the assembly that upper stabilier, three row's split stabiliers, lower stabilier are formed is equal, and the separated distance of often arranging left section of plate and right section of plate in split stabilier is all 1/6 of the internal diameter of cylindrical shell 201.The signal output part (joint) of multiple water quality sensor 202 is connected with the signal input part of transmitter 4 respectively, the signal output part of transmitter 4 is connected by the signal input part of communication bus 5 with Workstation host 1, and the signal output part of Workstation host 1 is connected with acousto-optic prior-warning device 3.Above-mentioned cylindrical shell 201, upper stabilier 205, lower stabilier 207, many row's split stabiliers 206 all can be made up of engineering plastics or other material.

Embodiment 2: as Fig. 1, shown in Fig. 6, mine water inrush on-line monitoring intelligent early-warning system of the present utility model (second embodiment) has Workstation host 1, acousto-optic prior-warning device 3, transmitter 4, it is characterized in that described colliery intelligent online monitoring early warning system also has the integrated intelligent water quality sensor monitoring case 2 gathering water sample in the trench drain of coal mine roadway, integrated intelligent water quality sensor monitoring case has cylindrical shell 201, be installed on the multiple water quality sensors 202 on cylindrical shell, be located at the screen pack 203 at cylindrical shell two ends respectively, be fixedly installed in being horizontally set and extending to the upper stabilier 205 at screen pack place, cylindrical shell two ends and lower stabilier 207 in cylindrical shell, be fixedly installed in and extend to many rows split stabilier 206 at screen pack place, cylindrical shell two ends in longitudinal arrangement in cylindrical shell.The internal diameter of cylindrical shell 201 can be 200mm, and its length can be that 1000 ~ 1100mm(selects 1000mm, and along the length direction of cylindrical shell, the screen pack at cylindrical shell two ends can respectively account for 50mm).Upper stabilier 205 and lower stabilier 207 and many row's split stabiliers 206 are all distributed with multiple pod apertures (water flow hole) 204, and the diameter of each pod apertures 204 can be that 15 ~ 20mm(selects 15mm).Many rows split stabilier 206, between upper stabilier 205 and lower stabilier 207, is often arranged split stabilier 206 and is all had left section of plate and right section of plate and this left section of plate and right section of plate separated and the cavity that is communicated with between the upper stabilier of cylindrical shell and lower stabilier.The outer wall top of cylindrical shell 201 is distributed with multiple sensor mounting hole 208 along its length, each water quality sensor 202 is installed in a sensor mounting hole 208 corresponding with it, and the probe of each water quality sensor 202 falls into the cavity (be positioned at and gather water sample) be positioned at above stabilier of cylindrical shell.Above-mentioned cylindrical shell 201 is in cylindrical, the quantity of split stabilier 206 is three rows, its left section of plate of split stabilier of top and right section of plate downward-sloping (bending) 5o ~ 10o(selection 5o in three row's split stabiliers), in three row's split stabiliers, its left section of plate of split stabilier of lowermost end and right section of plate are inclined upwardly (bending) 5o ~ 10o(selection 5o), split stabilier in the middle of in three row's split stabiliers is horizontally set, and the separated distance of often arranging left section of plate and right section of plate in split stabilier is all 1/6 of the internal diameter of cylindrical shell 201.Suitable arrange angle because three row's split stabiliers have selected, compared with existing water quality testing meter, the accuracy of detection of the present embodiment improves more than 25%, and such testing result is more accurate.Inclination (bending) angle of certain above-mentioned split stabilier also can select 8o or 10o.

Operation steps of the present utility model is: when using detecting water by pilot hole under mine, integrated intelligent water quality sensor monitoring case is fixed in drift dewatering ditch, by intellectual analysis case (transmitter, acousto-optic prior-warning device) be fixed on monitoring case above wall on, connect 220V AC power, and be connected by communication bus with Workstation host, open Workstation host and Data Management Analysis software, the data that integrated intelligent water quality sensor monitoring case can be detected every 1 minute are transferred to Workstation host by transmitter and communication bus, if the water of the normal coal measure strata of now water quality monitoring result, station data process software can store in time to data, and prompt for the water of coal measure strata, if now detect the possibility of Ordovician karst water or goaf water, Workstation host can send early warning, and starts acousto-optic prior-warning device, and station data process software stores data, and shows the dangerous water quality prompting such as Ordovician karst water or goaf water.If now do not find the possibility of Ordovician karst water gushing water, main frame can with normal frequency alarm, and screen can show the prompting of corresponding water quality; If now detect the possibility of Ordovician karst water, main frame can send buzzing alarm with very fast frequency, and screen can demonstrate the dangerous water quality prompting such as Ordovician karst water, and down-hole relevant staff should quit work immediately, and gathers water sample and prepare to withdraw.

Feature of the present utility model is, the water quality judging to visit water can be detected in time when water prospection of mine, and make the possibility whether having gushing water, timely monitoring, quick detection, easy and simple to handle, operation interface is friendly, compared with existing water quality testing meter, the accuracy of detection of above each embodiment all improves more than 15%.Under it is applicable to mine very much, geological personnel operation uses.

Claims (6)

1. a mine water inrush on-line monitoring intelligent early-warning system, there is Workstation host (1), acousto-optic prior-warning device (3), transmitter (4), it is characterized in that described mine water inrush on-line monitoring intelligent early-warning system also has integrated intelligent water quality sensor monitoring case (2) gathering water sample in the trench drain of coal mine roadway, integrated intelligent water quality sensor monitoring case has cylindrical shell (201), be installed on the multiple water quality sensors (202) on cylindrical shell, be located at the screen pack (203) at cylindrical shell two ends respectively, be fixedly installed in being horizontally set and extending to the upper stabilier at screen pack place, cylindrical shell two ends and lower stabilier (205 in cylindrical shell, 207), be fixedly installed in and extend to many rows split stabilier (206) at screen pack place, cylindrical shell two ends in longitudinal arrangement in cylindrical shell, upper stabilier and lower stabilier (205,207) and many row'ss split stabilier (206) are all distributed with multiple pod apertures (204), many rows split stabilier (206) is positioned between stabilier and lower stabilier (205,207), often arranges split stabilier (206) and all has left section of plate and right section of plate and this left section of plate and right section of plate separated and the cavity that is communicated with between the upper stabilier of cylindrical shell and lower stabilier, the outer wall top of cylindrical shell (201) is distributed with multiple sensor mounting hole (208) along its length, each water quality sensor (202) is installed on a sensor mounting hole (208) corresponding with it, and the probe of each water quality sensor (202) falls into the cavity be positioned at above stabilier of cylindrical shell.

2. mine water inrush on-line monitoring intelligent early-warning system according to claim 1, is characterized in that above-mentioned cylindrical shell (201) is in cylindrical.

3. mine water inrush on-line monitoring intelligent early-warning system according to claim 1, is characterized in that above-mentioned often row split stabilier (206) all in horizontally set.

4. mine water inrush on-line monitoring intelligent early-warning system according to claim 2, it is characterized in that the internal diameter of above-mentioned cylindrical shell (201) is 200mm, its length is 1000 ~ 1100mm, and the diameter of each pod apertures (204) is 15 ~ 20mm.

5. mine water inrush on-line monitoring intelligent early-warning system according to claim 1, it is characterized in that above-mentioned cylindrical shell (201) is in cylindrical, above-mentioned often row's split stabilier (206) is all in horizontally set, the quantity of split stabilier (206) is three rows, distance between two stabiliers neighbouring arbitrarily in the assembly that upper stabilier, three row's split stabiliers, lower stabilier are formed is equal, and the separated distance of often arranging left section of plate and right section of plate in split stabilier is all 1/6 of the internal diameter of cylindrical shell (201).

6. mine water inrush on-line monitoring intelligent early-warning system according to claim 1, it is characterized in that above-mentioned cylindrical shell (201) is in cylindrical, the quantity of split stabilier (206) is three rows, its left section of plate of split stabilier of top and the right section of downward-sloping 5o ~ 10o of plate in three row's split stabiliers, in three row's split stabiliers, its left section of plate of split stabilier of lowermost end and right section of plate are inclined upwardly 5o ~ 10o, split stabilier in the middle of in three row's split stabiliers is horizontally set, the separated distance of often arranging left section of plate and right section of plate in split stabilier is all 1/6 of the internal diameter of cylindrical shell (201).