CN108761562A - A kind of down-hole positioning device of mine exploration real-time Transmission - Google Patents

Abstract

The invention discloses a kind of down-hole positioning devices of mine exploration real-time Transmission, including bunch plate and mounting plate, the lower end of the bunch plate is equipped with rotary shaft, and the lower end of rotary shaft is fixed with protective frame, the inside left of the protective frame is provided with gas management case, and gas import is inlaid on the left of gas management case, the inner right side of the gas management case is mounted with infrared gas senor.The down-hole positioning device of the mine exploration real-time Transmission is provided with bunch plate, it can utilize rotary shaft to be formed with protective frame and relatively rotate, when protective frame is placed under mine by connecting line, since protective frame can not temporarily be fixed under mine, it is influenced by mine apparatus for lower wind, it can be made to be rotated in bunch plate lower end, infrared gas senor can be thus driven constantly to be contacted with the gas around protective frame with humidity sensor, to obtain different data, keep last testing result more accurate.

Description

A kind of down-hole positioning device of mine exploration real-time Transmission

Technical field

The present invention relates to mines to survey positioning device technical field, specially a kind of underground of mine exploration real-time Transmission Positioning device.

Background technology

Geologic anomaly under mine, if detected in advance not in time, not only causes mining system layout not conform to even if small scale Reason, the wasting of resources also directly affect the lasting exploitation of high-productivity faces and effective prevention of mine water disaster, jeopardize what is more Entire mine and miner's safety, once problem occurs, loss is huge, so being surveyed in time to underground after drilling, to well Depth, humidity is detected and is analyzed in gas density and well in well, ensure the safety of underground with this.

Mine exploration in the market is merely able to be detected the depth of mine with down-hole positioning device, and will detect dress When storing is gone down, detection device is easy the borehole wall and collides, and depth detecting instrument is caused to deviate, the testing result of influence depth, And the device can not simultaneously in well gas density and gas humidity be detected, after depth detection is complete, need individually it is right To in well gas density and gas humidity be detected, the result for substantially reducing working efficiency in this way, while detecting need by Device pull-out, which is analyzed, can just obtain a result, for this purpose, it is proposed that a kind of underground location dress of mine exploration real-time Transmission It sets.

Invention content

The purpose of the present invention is to provide a kind of down-hole positioning devices of mine exploration real-time Transmission, to solve the above-mentioned back of the body What is proposed in scape technology is merely able to be detected the depth of mine, and when putting down detection device, and detection device is easy It goes the borehole wall to collide, depth detecting instrument is caused to deviate, the testing result of influence depth, and the device can not be simultaneously in well Gas density and gas humidity be detected, after depth detection is complete, need individually to in well gas density and gas it is wet Degree is detected, and substantially reduces working efficiency in this way, while the result detected needs to pull out to be analyzed by device just obtain As a result the problem of.

To achieve the above object, the present invention provides the following technical solutions：A kind of underground of mine exploration real-time Transmission is fixed Position device, including bunch plate and mounting plate, the lower end of the bunch plate are equipped with rotary shaft, and the lower end of rotary shaft be fixed with it is anti- Frame is protected, the inside left of the protective frame is provided with gas management case, and gas import is inlaid on the left of gas management case, institute The inner right side for stating gas management case is mounted with infrared gas senor, and is connected with partition board on the right side of gas management case, described Spring is installed on the right side of partition board, and is fixed with fixed plate on the right side of spring, depth detection is provided on the right side of the fixed plate The inner right side of instrument, the protective frame is inlaid with gas humidity detection case, and is connected with gas on the right side of gas humidity detection case The inside left of import, the gas humidity detection case is mounted with humidity sensor, and the frontal left of the protective frame is equipped with Shaft, and pipe is fixed on the right side of shaft, the mounting plate is set to the left side upper and lower side of protective frame, and the inside of mounting plate It is inlaid with bolt.

Preferably, to be fixedly connected between the bunch plate and rotary shaft, and bunch plate passes through rotary shaft and protective frame structure At rotational structure.

Preferably, the infrared gas senor is in opposed configuration about the center line of protective frame with humidity sensor, and Infrared gas senor and humidity sensor are in respectively parallel construction with gas import and gas feed.

Preferably, the fixed plate is symmetrical about the centerline axis of protective frame, and fixed plate is made up of spring and partition board Elastic extension structure.

Preferably, the pipe is symmetrical about the centerline axis of protective frame, and pipe is made up of shaft and protective frame and turns Dynamic structure.

Preferably, to be threadedly coupled between the mounting plate and bolt, and it is to be fixedly connected between mounting plate and protective frame.

Compared with prior art, the beneficial effects of the invention are as follows：The down-hole positioning device of the mine exploration real-time Transmission It is provided with bunch plate, rotary shaft and protective frame can be utilized to be formed and relatively rotated, when being placed into protective frame by connecting line When under mine, since protective frame can not temporarily be fixed under mine, is influenced by mine apparatus for lower wind, it can be made in bunch plate Lower end rotates, can thus drive infrared gas senor and humidity sensor constantly with the gas around protective frame into Row contact, to obtain different data, keeps last testing result more accurate, infrared gas senor and humidity sensor The gas density and humidity of mine gas can be detected in the both sides of protective frame, the device is made not only to be carried out in underground Positioning, while the gas of underground can be detected, and testing result is transferred to mine up in time, two fixed plates Depth detecting instrument can be positioned, be prevented in protective frame moving process, depth detecting instrument shifts and influences mine Depth detection as a result, and fixed plate stretched on partition board using spring, to play the work of bradyseism to depth detecting instrument With avoiding protective frame from causing depth detecting instrument to damage with wall collisions, embody the flexibility of the device, pipe can be along shaft It is rotated on the outer wall of protective frame, when protective frame and borehole wall touching, pipe makes sliding-modes between protective frame and the borehole wall change For rolling mode, reduce the frictional force between protective frame and the borehole wall, prevents protective frame and wall friction power is excessive leads to protective frame It is stuck in inside the borehole wall, after to underground location and detection, protective frame is fixed on underground by mounting plate using bolt, makes protection Frame no longer underground rotates, and keeps in one position, to carry out stable positioning to device, prevents protective frame shaking from causing fixed Position data movement and causing can't detect collapsing for mine, and using infrared gas senor with humidity sensor to the same position It sets and is measured in real time, to ensure the safety of underground.

Description of the drawings

Fig. 1 is schematic structural view of the invention；

Fig. 2 is protective frame left view structural representation of the present invention；

Fig. 3 is information transmission process structural schematic diagram of the present invention.

In figure：1, bunch plate, 2, rotary shaft, 3, protective frame, 4, gas management case, 5, gas import, 6, infrared gas passes Sensor, 7, partition board, 8, spring, 9, fixed plate, 10, depth detecting instrument, 11, gas humidity detection case, 12, gas feed, 13, wet Spend sensor, 14, shaft, 15, pipe, 16, mounting plate, 17, bolt.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

- 3 are please referred to Fig.1, the present invention provides a kind of technical solution：A kind of underground location dress of mine exploration real-time Transmission It sets, including bunch plate 1, rotary shaft 2, protective frame 3, gas management case 4, gas import 5, infrared gas senor 6, partition board 7, bullet Spring 8, fixed plate 9, depth detecting instrument 10, gas humidity detection case 11, gas feed 12, humidity sensor 13, shaft 14, pipe 15, the lower end of mounting plate 16 and bolt 17, bunch plate 1 is equipped with rotary shaft 2, and the lower end of rotary shaft 2 is fixed with protective frame 3, To be fixedly connected between bunch plate 1 and rotary shaft 2, and bunch plate 1 constitutes rotational structure, bunch by rotary shaft 2 and protective frame 3 Plate 1 can utilize rotary shaft 2 to be formed with protective frame 3 and relatively rotate, when protective frame 3 is placed under mine by connecting line, It since protective frame 3 can not temporarily be fixed under mine, is influenced by mine apparatus for lower wind, it can be made to turn in 1 lower end of bunch plate It moves up, infrared gas senor 6 and humidity sensor 13 can thus be driven constantly to be carried out with the gas around protective frame 3 Contact, to obtain different data, keeps last testing result more accurate, the inside left of protective frame 3 is provided with gas Detection case 4, and the left side of gas management case 4 is inlaid with gas import 5, the inner right side of gas management case 4 is mounted with infrared watt This sensor 6, and the right side of gas management case 4 is connected with partition board 7, infrared gas senor 6 is with humidity sensor 13 about anti- Protect frame 3 center line be in opposed configuration, and infrared gas senor 6 and humidity sensor 13 respectively with gas import 5 and gas Import 12 is in parallel construction, and infrared gas senor 6 can be in the both sides of protective frame 3 to mine gas with humidity sensor 13 Gas density and humidity be detected, so that the device is not only positioned in underground, while can be carried out to the gas of underground Detection, and testing result is transferred to mine up in time, the right side of partition board 7 is equipped with spring 8, and the right side of spring 8 is solid Surely there is fixed plate 9, fixed plate 9 is symmetrical about the centerline axis of protective frame 3, and fixed plate 9 constitutes bullet by spring 8 and partition board 7 Property stretching structure, two fixed plates 9 can position depth detecting instrument 10, prevent in 3 moving process of protective frame, depth Detector 10 shift and influence mine depth detection as a result, and fixed plate 9 stretched on partition board 7 using spring 8, To play the role of bradyseism to depth detecting instrument 10, avoid protective frame 3 and wall collisions that depth detecting instrument 10 is caused to damage, body The right side of the now flexibility of the device, fixed plate 9 is provided with depth detecting instrument 10, and the inner right side of protective frame 3 is inlaid with gas Humidity Detection case 11, and the right side of gas humidity detection case 11 is connected with gas feed 12, the inside of gas humidity detection case 11 Left side is mounted with humidity sensor 13, and the frontal left of protective frame 3 is equipped with shaft 14, and the right side of shaft 14 is fixed with pipe 15, pipe 15 is symmetrical about the centerline axis of protective frame 3, and pipe 15 constitutes rotational structure, circle by shaft 14 and protective frame 3 Pipe 15 can be rotated along shaft 14 on the outer wall of protective frame 3, and when protective frame 3 and borehole wall touching, pipe 15 makes protective frame 3 Sliding-modes are changed into rolling mode between the borehole wall, reduce the frictional force between protective frame 3 and the borehole wall, prevent protective frame 3 with Wall friction power is excessive to cause protective frame 3 to be stuck in inside the borehole wall, and mounting plate 16 is set to the left side upper and lower side of protective frame 3, and pacifies The inside of loading board 16 is inlaid with bolt 17, to be threadedly coupled between mounting plate 16 and bolt 17, and mounting plate 16 and protective frame 3 it Between to be fixedly connected, after to underground location and detection, protective frame 3 is fixed on underground by mounting plate 16 using bolt 17, So that the no longer underground of protective frame 3 is rotated, keeps in one position, to carry out device stable positioning, preventing protective frame 3 from shaking It is dynamic to cause location data to change and lead to can't detect collapsing for mine, and utilize infrared gas senor 6 and humidity sensor 13 pairs of same positions are measured in real time, to ensure the safety of underground.

Operation principle：The down-hole positioning device of this kind of mine exploration real-time Transmission is fettered by connecting line first On bunch plate 1, protective frame 3 is slowly put into well, when protective frame 3 and borehole wall touching, pipe 15 can be along shaft 14 Rotated on the outer wall of protective frame 3, sliding-modes made between protective frame 3 and the borehole wall to be changed into rolling mode, reduce protective frame 3 with Frictional force between the borehole wall prevents protective frame 3 and wall friction power is excessive that protective frame 3 is caused to be stuck in inside the borehole wall, in contact In the process, fixed plate 9 is stretched using spring 8 on partition board 7, is played the role of bradyseism to depth detecting instrument 10, is avoided preventing Shield frame 3 causes depth detecting instrument 10 to damage with wall collisions, and after protective frame 3 enters underground, power is blown by wind, profit It is rotated in the lower end of bunch plate 1 with rotary shaft 2, to drive infrared gas senor 6 to be rotated with humidity sensor 13, is made Infrared gas senor 6 is constantly contacted with the gas around protective frame 3 with humidity sensor 13, different to detect Data make the device not only be positioned in underground, while can be detected to the gas of underground, infrared gas senor 6 The result detected is sent to information receiving terminal respectively with humidity sensor 13 and depth detecting instrument 10, is passing through Information Number It is analyzed and is counted according to analysis module, and last result is transferred to the data information display module on well, detection is completed Afterwards, protective frame 3 is fixed on by underground by mounting plate 16 and bolt 17, preventing protective frame 3 from continuing shaking causes location data to become It is dynamic and lead to can't detect collapsing for mine, and using infrared gas senor 6 and humidity sensor 13 to the same position into Row detection in real time, to ensure the safety of underground, completes the down-hole positioning device of entire mine exploration real-time Transmission like this Use process.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims (6)

1. a kind of down-hole positioning device of mine exploration real-time Transmission, including bunch plate (1) and mounting plate (16), feature exists In：The lower end of the bunch plate (1) is equipped with rotary shaft (2), and the lower end of rotary shaft (2) is fixed with protective frame (3), described anti- The inside left of shield frame (3) is provided with gas management case (4), and gas import (5) is inlaid on the left of gas management case (4), The inner right side of the gas management case (4) is mounted with infrared gas senor (6), and the right side connection of gas management case (4) There is partition board (7), spring (8) is installed, and be fixed with fixed plate (9) on the right side of spring (8) on the right side of the partition board (7), it is described Depth detecting instrument (10) is provided on the right side of fixed plate (9), the inner right side of the protective frame (3) is inlaid with gas humidity detection Case (11), and gas feed (12) is connected on the right side of gas humidity detection case (11), the gas humidity detection case (11) Inside left is mounted with humidity sensor (13), and the frontal left of the protective frame (3) is equipped with shaft (14), and shaft (14) Right side be fixed with pipe (15), the mounting plate (16) is set to the left side upper and lower side of protective frame (3), and mounting plate (16) Inside is inlaid with bolt (17).

2. a kind of down-hole positioning device of mine exploration real-time Transmission according to claim 1, it is characterised in that：It is described To be fixedly connected between bunch plate (1) and rotary shaft (2), and bunch plate (1) is made up of rotary shaft (2) and protective frame (3) and turns Dynamic structure.

3. a kind of down-hole positioning device of mine exploration real-time Transmission according to claim 1, it is characterised in that：It is described Infrared gas senor (6) is in opposed configuration about the center line of protective frame (3) with humidity sensor (13), and infrared gas passes Sensor (6) and humidity sensor (13) are in respectively parallel construction with gas import (5) and gas feed (12).

4. a kind of down-hole positioning device of mine exploration real-time Transmission according to claim 1, it is characterised in that：It is described Fixed plate (9) is symmetrical about the centerline axis of protective frame (3), and fixed plate (9) constitutes elasticity by spring (8) and partition board (7) Stretching structure.

5. a kind of down-hole positioning device of mine exploration real-time Transmission according to claim 1, it is characterised in that：It is described Pipe (15) is symmetrical about the centerline axis of protective frame (3), and pipe (15) is made up of shaft (14) and protective frame (3) and rotates Structure.

6. a kind of down-hole positioning device of mine exploration real-time Transmission according to claim 1, it is characterised in that：It is described To be threadedly coupled between mounting plate (16) and bolt (17), and it is to be fixedly connected between mounting plate (16) and protective frame (3).