CN117664641B - Deep gold ore stepped type ore finding equipment and method - Google Patents

Abstract

The invention discloses deep gold mine stepped type ore finding equipment and a method, wherein the deep gold mine stepped type ore finding equipment comprises a supporting mechanism and a stepped ore finding mechanism, the supporting mechanism comprises two independent transverse linear brackets, a detection supporting plate is transversely arranged between the two transverse linear brackets, a vertical upright rod is arranged at the side of the top of the detection supporting plate surface, a U-shaped connecting gasket is arranged in the middle of the side wall of the vertical upright rod, and a plurality of independent fastening screws are arranged on the surface of the U-shaped connecting gasket; the invention relates to deep gold mine stepped ore finding equipment and a method thereof, wherein: through adopting the cooperation structure of horizontal linear support, square layer board and vertical pole setting, realize stirring the upset according to the regional region of stirring the regulation horizontal regulation support of practical application aspect, accomplish preliminary stirring upset state, extend based on corresponding linear tooth way and upper and lower slip loop bar body again, realized that the rubber pad supports and places.

Description

Deep gold ore stepped type ore finding equipment and method

Technical Field

The invention relates to the technical field of gold ore detection, in particular to deep gold ore stepped ore finding equipment and method.

Background

The gold mine is located in a steep geographical position, so that the gold mine is difficult and complex in a subsequent mining link.

The Chinese patent with the application number of CN202123439057.6 discloses a mining device for searching for hidden polymetallic ores in a shallow coverage area, wherein the mining device for searching for hidden polymetallic ores in the shallow coverage area is recorded, and comprises a mining box, wherein the periphery of the bottom end surface of the mining box is connected with a supporting component, the mining device is arranged on the side wall of the bottom of the mining box, and the left side wall of the mining box is connected with a push-pull handle. The novel device has the advantages that the novel structure is simple, the structure is clear and easy to understand, the whole device is supported through the supporting component, the buffer supporting effect is achieved, the device is suitable for mining areas with complex terrains, in the moving process of the device, the ore detection is carried out through the rotating detection plate and the detection head, the detection effect is good, the efficiency is high, and the practicability is strong; the rotating plate and the detection head on the bottom end face of the rotating plate eccentrically rotate, so that the detection area is large, the effect is good, and the detection plate and the detection head can also rotate; when the detecting head detects ore, the alarm lamp flashes to remind, the audible and visual alarm corresponding to the detecting head gives out an alarm, the ore point can be directly judged through the corresponding detecting head and the audible and visual alarm, the detecting accuracy is high, and the functionality is strong; the direction of detection referred to in the above patent documents is such that many metals cannot accurately detect the gold position.

Further search finds that the application number is: the Chinese patent document of CN202010025296.8 discloses a method for searching ores of Carlin type gold deposit, which comprises the steps of field screening, indoor screening, identifying rare earth geochemical indexes and carbon and oxygen isotope geochemical indexes, establishing a system of the geochemical indexes for searching ores, drawing an anomaly graph to guide the searching of ores, and the like: the method can be used for rapidly guiding the ore finding prediction of the Carlin type gold deposit, improving the ore finding efficiency, judging the ore forming fluid migration path of the Carlin type gold deposit, indicating the ore finding direction, has high popularization and application value, solves the problems of long period, high investment and large risk of the existing investigation technology, realizes the economic and high efficiency of the potential evaluation and the ore right decision of the Carlin type gold deposit, is one of important paths for realizing the green investigation, and solves the ecological environment problem possibly caused in the implementation process of the traditional investigation technology, but the ore finding method in the patent document has the following defects: 1) In the traditional technology, when gold minerals are detected, analysis induction is not performed on geological layers of the gold minerals, so that the detection of the positions of the gold minerals is inconvenient, the detected pressure is increased, and in addition, the deep detection of the earth surface in the aspect of earth surface detection of gold is not accurate enough.

2) The stage of searching and detecting the traditional gold substances cannot deeply realize downward detection displacement for the detected soil layer during scanning of the tunnel geological layer, so that the later stage is unfavorable for manual free and flexible scanning and detection during scanning and detecting of gold ores, and is unfavorable for stepwise mining.

Disclosure of Invention

The invention aims to provide deep gold mine stepped ore finding equipment and method for solving the problems of the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: deep gold mine ladder type prospecting equipment: comprises a supporting mechanism and a ladder ore finding mechanism; the supporting mechanism comprises: the supporting mechanism comprises two independent transverse linear brackets, a detection supporting plate is transversely arranged between the two transverse linear brackets, a vertical upright rod is arranged on the side of the top of the detection supporting plate surface, a U-shaped connecting gasket is arranged in the middle of the side wall of the vertical upright rod, a plurality of independent fastening screws are arranged on the surface of the U-shaped connecting gasket, a circular opening is formed in the middle of each fastening screw, a tightening nut is vertically arranged in the middle of each circular opening, a connecting rod is arranged at one end of each tightening nut, and an upper sliding sleeve rod and a lower sliding sleeve rod are arranged in the middle of the rod body of each connecting rod; the middle part of upper and lower slip loop bar is vertical installs the regulation pole, the body of rod surface mounting of regulation pole has linear tooth way, the bottom of upper and lower slip loop bar articulates there is concave frame, the damping roller is transversely installed to the middle part of concave frame, the rubber pad is installed to the bottom of damping roller.

As a preferred embodiment of the present invention: the ladder ore finding mechanism comprises a placing supporting plate arranged in the middle of the side wall of a vertical upright rod, a square bearing plate for lifting is arranged at the top end of the placing supporting plate, an L-shaped adjusting base used for limiting is arranged above the surface of the square bearing plate, a placing plate is arranged at the top end of the L-shaped adjusting base, a detector installation vertical plate is vertically arranged at the top of the surface of the placing plate, and a data receiver is arranged at the top end of the detector installation vertical plate; the metal detection seat is installed to the one end of horizontal linear support, the surface of metal detection seat is equipped with fastening roller bearing, the bottom of metal detection seat is equipped with electric telescopic handle, electric hydraulic cylinder is installed to electric telescopic handle's avris, electric hydraulic cylinder's bottom is equipped with the connecting rod, the surface cover of connecting rod is equipped with annular detector.

As a preferred embodiment of the present invention: the end head of the connecting rod is provided with a detection probe, the bottom of the detection probe is provided with a U-shaped detection seat, and the surface of the placing plate is provided with a detection mechanism; the detection mechanism comprises a square supporting plate arranged on the side face of a square bearing plate, a soil layer sensor is arranged in the middle of the plate face of the square supporting plate, receiving and transmitting probes are arranged on the periphery of the soil layer sensor, motor assembly brackets are arranged on the two sides of the receiving and transmitting probes, a driver is arranged in the middle of the end head of the motor assembly brackets in a linkage mode, and a stepping motor is arranged at one end of the driver; the detector is installed to the bottom of receiving and dispatching probe, and the regulation holder is installed to the one end of detector, the middle part of regulation holder is equipped with the gripping head.

As a preferred embodiment of the present invention: the device comprises a data receiver, wherein an adjusting mechanism is arranged in the middle of the top end of the data receiver, the adjusting mechanism comprises a linear connecting rod arranged at the front end of the data receiver, a damping roller is arranged at the rear end of a rod body of the linear connecting rod, an inclined connecting rod is arranged at one axial end of the damping roller, and the bottom of the inclined connecting rod is in damping rotation with the top surface of a placing supporting plate; the analysis mechanism is installed to the rear end of placing the layer board, analysis mechanism is including installing the analysis case that sets up on placing the layer board surface, the regulation backing plate is installed to the bottom half of analysis case, adjust the top avris of backing plate and install the regulation riser, adjust the top avris of riser and install the regulation base, the top middle part of adjusting the base is equipped with the transmission shaft, the one end of transmission shaft is equipped with the connection vaulting pole.

As a preferred embodiment of the present invention: the surface of the damping roller is provided with a driving roller, the top of the damper is provided with a stress bracket, one end of the driving roller is in elevation angle change with the limit detection direction, the front end of the stress bracket is provided with a connecting roller, and the top end of the connecting stay bar is provided with a multi-layer adjusting mechanism; the multi-layer adjusting mechanism comprises an adjusting bracket arranged at the top end of a connecting stay bar, a hydraulic cylinder is arranged at the top end of the adjusting bracket, the output end of a cylinder body of the hydraulic cylinder is arranged at the bottom of the adjusting bracket in an extending mode, and an inclined hinging mechanism is arranged on the side of the top end of the hydraulic cylinder.

As a preferred embodiment of the present invention: the inclined hinging mechanism comprises a control cabinet arranged on the ground, a trapezoid support is arranged in the middle of the top end of the control cabinet, and a control console is arranged on the surface of the top end of the trapezoid support; the intelligent control cabinet is characterized in that an inclined connecting support is arranged on the side of the top end of the control cabinet, a linear guide support is arranged at one end of the inclined connecting support, sensing probes are arranged on the side of the two sides of the top of the linear guide support, an adjusting rail is arranged at the bottom of each sensing probe, and a traction side plate is arranged at the bottom of each adjusting rail.

As a preferred embodiment of the present invention: one end of the plate surface of the traction side plate is provided with a multi-section adjusting vertical rod, and the surface of the multi-section adjusting vertical rod is provided with a concave slot; the detection mechanism is installed still to data receiver's front end, detection mechanism is including installing the control box that sets up at data receiver front end, the positive surface laminating lid of box of control box is equipped with the protection casing, square fluting has been seted up at the cover body top middle part of protection casing, the bottom mid-mounting of control box has the connection pole setting, the laminating bottom plate is installed to the body of rod bottom end of connecting the pole setting, the toper cover is installed to the plate body bottom of laminating bottom plate, the perceptron is installed respectively to the top surface both sides side of toper cover.

The deep gold mine stepped ore finding method comprises the steps of the deep gold mine stepped ore finding equipment, wherein the step of the deep gold mine stepped ore finding equipment comprises the following steps of S1: positioning and detecting gold ores; s2: collecting and recycling samples to obtain gold mine soil; s3: the acquisition equipment is used for deep metal perception detection.

As a preferred embodiment of the present invention: s1 specifically comprises the following steps: the first step: and (5) narrowing the gold mine detection search range: digging steps according to different heights; the concrete ladder prospecting mode is as follows: according to the mining hole area for mining, mining is carried out by changing the geological layer near the mining surrounding rock of the mining hole; the mineral components, chemical components and physical properties of the surrounding rock of the ore body are changed under the action of hydrothermal solution, namely the surrounding rock is changed, and the specific gold ore position is found based on the area of the step corrosion layer.

As a preferred embodiment of the present invention: s2 specifically comprises the following steps: gold ore positioning and screening firstly penetrates into the bottom of a geological layer through a drilling head according to different soil layer levels, sampling is carried out to obtain a concrete bolt, and materials in sampled concrete bolt soil are layered; s3, deep metal sensing detection is performed through the acquisition equipment.

Compared with the prior art, the invention has the beneficial effects that: 1) Through horizontal linear support, square layer board and the vertical pole setting of adoption, stir the upset in order to stir the regional realization that promotes the regulation support according to the region in the function, stir the upset state after, utilize linear tooth way and upper and lower slip loop bar body to extend, accomplish the shock attenuation and the ground promotion tension support of rubber pad connection region, played and shared various top and detected the subassembly structure.

2) Through adopting place layer board, connecting rod control connecting rod flexible back number of times metal detection seat back and forth movement, combine U to detect the scope that the seat expanded metal gold ore surveyed, utilize electric telescopic handle to draw the flexible back of combining electric hydraulic cylinder here, will play gold ore detection purpose structure and soil contact scanning underground pre-buried gold ore position, the unified propelling movement of connecting roller and the linear connecting rod that is equipped with in addition for with connecting roller axial region realization linking.

3) The data receiver and the square bearing plate are uniformly distributed, and then the weight of the area for suspending the main components is supported, the cone cover and the perceptrons at two sides of the upper part are adopted to sense the state, so that the axial support of the driving roller is achieved, the square slotting and the control box body are mainly used for protecting components for sensing analysis by placing the components in the slots, and the installed perceptrons are analyzed to obtain the position of the geological bottom layer containing the gold soil layer.

Drawings

FIG. 1 is a schematic view of a supporting mechanism according to the present invention.

Fig. 2 is a schematic view of the linear guide bracket structure of the present invention.

Fig. 3 is a schematic diagram of a console according to the present invention.

Fig. 4 is a schematic structural diagram of a U-shaped detection seat according to the present invention.

FIG. 5 is a schematic diagram of the structure of the detecting mechanism of the present invention.

FIG. 6 is a schematic diagram of a step prospecting mechanism according to the present invention.

Fig. 7 is a schematic structural view of the detection mechanism of the present invention.

Fig. 8 is a schematic structural view of the tilt hinge mechanism of the present invention.

Fig. 9 is a schematic structural view of a multi-layer adjustment mechanism according to the present invention.

Fig. 10 is a schematic view of the structure of the cone cover of the present invention.

Fig. 11 is a schematic structural view of a ladder stand of the present invention.

In the figure: 1. a support mechanism; 11. a transverse linear support; 12. detecting a supporting plate; 13. a vertical upright rod; 14. u-shaped connecting gaskets; 15. a fastening screw; 16. tightening a nut; 17. a connecting rod; 18. a sliding sleeve rod up and down; 19. an adjusting rod; 191. a linear tooth path; 192. a concave frame; 193. and a rubber pad.

2. A step ore finding mechanism; 21. placing a supporting plate; 22. square bearing plate; 23. an L-shaped adjusting base; 24. a placement plate; 25. a detector mounting riser; 26. a data receiver; 27. a metal detection seat; 28. fastening a roller; 29. an electric telescopic rod; 291. an electro-hydraulic cylinder; 292. a connecting rod; 293. a ring detector; 294. a detection probe; 295. u-shaped detection seat.

3. A detection mechanism; 31. square pallet; 32. a soil layer sensor; 33. a receiving and transmitting probe; 34. a motor assembly bracket; 35. a driver; 36. a stepping motor; 37. a detector; 38. adjusting the clamping seat; 39. a clamping head.

4. An adjusting mechanism; 41. a linear link; 42. a damper; 43. and (5) tilting the connecting rod.

5. An analysis mechanism; 51. an analysis box; 52. an adjusting backing plate; 53. adjusting the vertical plate; 54. adjusting the base; 55. a transmission shaft; 56. connecting a stay bar; 57. driving a roller; 58. a stress bracket; 59. and the roller is connected.

6. A multi-layer adjustment mechanism; 61. adjusting the bracket; 62. and a hydraulic cylinder.

7. A tilt hinge mechanism; 71. a control cabinet; 72. a trapezoidal support; 73. a console; 74. a tilting connection bracket; 75. a linear guide bracket; 76. a sensing probe; 77. adjusting the track; 78. pulling the side plates; 79. a multi-section adjusting vertical rod; 791. and (5) grooving in a concave mode.

8. A detection mechanism; 81. a control box; 82. a protective cover; 83. square slotting; 84. connecting the vertical rods; 85. attaching a bottom plate; 86. a conical cover; 87. a sensor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: a deep gold mine stepped ore finding device comprises a supporting mechanism 1 and a stepped ore finding mechanism 2; support mechanism 1: the supporting mechanism 1 comprises two independent transverse linear brackets 11, a detection supporting plate 12 is transversely arranged between the two transverse linear brackets 11, a vertical upright rod 13 is arranged on the side of the top of the plate surface of the detection supporting plate 12, a U-shaped connecting gasket 14 is arranged in the middle of the side wall of the vertical upright rod 13, a plurality of independent fastening screws 15 are arranged on the surface of the U-shaped connecting gasket 14, a circular opening is formed in the middle of each fastening screw 15, a tightening nut 16 is vertically arranged in the middle of each circular opening, a connecting rod 17 is arranged at one end of each tightening nut 16, and an upper sliding sleeve rod 18 and a lower sliding sleeve rod 18 are arranged in the middle of the rod body of the connecting rod 17; the middle part of the upper and lower sliding sleeve rod 18 is vertically provided with an adjusting rod 19, the surface of a rod body of the adjusting rod 19 is provided with a linear tooth path 191, the bottom of the upper and lower sliding sleeve rod 18 is hinged with a concave frame 192, the middle part of the concave frame 192 is transversely provided with a damping roller, and the bottom of the damping roller is provided with a rubber pad 193.

In this embodiment: the ladder ore finding mechanism 2 comprises a placing supporting plate 21 arranged in the middle of the side wall of the vertical upright rod 13, a square bearing plate 22 for lifting is arranged at the top end of the placing supporting plate 21, an L-shaped adjusting base 23 for limiting is arranged above the surface of the square bearing plate 22, a placing plate 24 is arranged at the top end of the L-shaped adjusting base 23, a detector mounting vertical plate 25 is vertically arranged at the top of the surface of the placing plate 24, and a data receiver 26 is arranged at the top end of the detector mounting vertical plate 25; the metal detection seat 27 is installed to the one end of horizontal linear support 11, and the surface of metal detection seat 27 is equipped with fastening roller 28, and the bottom of metal detection seat 27 is equipped with electric telescopic handle 29, and electric hydraulic cylinder 291 is installed to electric telescopic handle 29's avris, and electric hydraulic cylinder 291's bottom is equipped with connecting rod 292, and the surface cover of connecting rod 292 is equipped with annular detector 293.

The adopted metal detection seat 27 and the specific fastening roller 28 finish shrinkage and turnover when the rod body of the electric telescopic rod 29 stretches.

In this embodiment: the end of the connecting rod 292 is provided with a detection probe 294, the bottom of the detection probe 294 is provided with a U-shaped detection seat 295, and the surface of the placement plate 24 is provided with a detection mechanism 3; the detection mechanism 3 comprises a square supporting plate 31 arranged on the side surface of the square bearing plate 22, a soil layer sensor 32 is arranged in the middle of the plate surface of the square supporting plate 31, transceiving probes 33 are arranged around the soil layer sensor 32, motor assembly brackets 34 are arranged on two sides of the transceiving probes 33, a driver 35 is arranged in linkage with the middle of the end head of the motor assembly brackets 34, and a stepping motor 36 is arranged at one end of the driver 35; the detector 37 is installed to the bottom of receiving and dispatching probe 33, and regulation holder 38 is installed to the one end of detector 37, and the middle part of regulation holder 38 is equipped with the gripping head 39.

The soil layer sensor 32 and the transceiver probe 33 are adopted to detect, and are used for transmitting the spectrum geological material of the metal in the soil layer.

In this embodiment: the middle part of the top end of the data receiver 26 is provided with an adjusting mechanism 4, the adjusting mechanism 4 comprises a linear connecting rod 41 arranged at the front end position of the data receiver 26, the rear end of a rod body of the linear connecting rod 41 is provided with a damper 42, one axial end of the damper 42 is provided with an inclined connecting rod 43, and the bottom of the inclined connecting rod 43 is in damping rotation with the top surface of the placing support plate 21; the analysis mechanism 5 is installed to the rear end of placing the layer board 21, and analysis mechanism 5 is including installing the analysis case 51 that sets up on placing the layer board 21 surface, and regulation backing plate 52 is installed to the bottom half of analysis case 51, and regulation riser 53 is installed to the top avris of regulation backing plate 52, and regulation pedestal 54 is installed to the top avris of regulation riser 53, and the top middle part of regulation pedestal 54 is equipped with transmission shaft 55, and the one end of transmission shaft 55 is equipped with connection stay 56.

The analysis box 51 and the adjusting base plate 52 are adopted to conveniently support the adjusting vertical plate 53 up and down, and the transmission shaft 55 and the connecting stay rod 56 are adjusted after the rod body is overturned.

In this embodiment: the surface of the damper 42 is provided with a driving roller 57, the top of the damper 42 is provided with a stress bracket 58, one end of the driving roller 57 is in elevation angle conversion with the limit detection direction of the damper 42, the front end of the stress bracket 58 is provided with a connecting roller 59, and the top end of the connecting stay bar 56 is provided with a multi-layer adjusting mechanism 6; the multilayer regulating mechanism 6 comprises a regulating bracket 61 arranged at the top end of the connecting stay bar 56, a hydraulic cylinder 62 is arranged at the top end of the regulating bracket 61, the output end of the cylinder body of the hydraulic cylinder 62 and the bottom of the regulating bracket 61 are arranged in an extending mode, and an inclined hinging mechanism 7 is arranged on the side of the top end of the hydraulic cylinder 62.

The hydraulic cylinder 62 and the tilt hinge mechanism 7 are provided to extend vertically.

In this embodiment: the inclined hinging mechanism 7 comprises a control cabinet 71 arranged on the ground, a trapezoid support 72 is arranged in the middle of the top end of the control cabinet 71, and a control console 73 is arranged on the top end surface of the trapezoid support 72; the top side of switch board 71 is equipped with slope linking bridge 74, and linear guide support 75 is installed to the one end of slope linking bridge 74, and the top both sides side of linear guide support 75 all is equipped with perception probe 76, and the bottom of perception probe 76 is equipped with regulation track 77, and traction curb plate 78 is installed to the bottom of regulation track 77.

The ground gold mine is detected by the detection state of the sensing probe 76 after being supported by the inclined connecting bracket 74 and the linear guide bracket 75.

In this embodiment: one end of the plate surface of the traction side plate 78 is provided with a multi-section type adjusting vertical rod 79, and the surface of the multi-section type adjusting vertical rod 79 is provided with a concave slot 791; the detection mechanism 8 is still installed to the front end of data receiver 26, and detection mechanism 8 is including installing the control box 81 that sets up at data receiver 26 front end, and the positive surface laminating lid of box of control box 81 is equipped with protection casing 82, and square fluting 83 has been seted up at the cover body top middle part of protection casing 82, and the bottom mid-mounting of control box 81 has a connection pole setting 84, the laminating bottom plate 85 is installed to the body of rod bottom end of connecting pole setting 84, and conical cover 86 is installed to the plate bottom of laminating bottom plate 85, and perceptron 87 is installed respectively to the top surface both sides side of conical cover 86.

The protection cover 82 and the square slot 83 are arranged and then are pulled and supported by a rod body structure of the connecting vertical rod 84.

The deep gold ore stepped prospecting method comprises the following steps of: s1: gold ore positioning detection: s1 specifically comprises the following steps: the first step: and (5) narrowing the gold mine detection search range: digging steps according to different heights; the geological structure with obvious soil layer is explored, and the step mining mode of the soil layer at the bottom layer is to excavate tunnels according to the mining hole areas to enable the soil layer to display perfect slots, and the mining hole geological layer is changed to be close to surrounding rock for mining; the mineral components, chemical components and physical properties of the surrounding rock of the ore body are changed under the action of hydrothermal solution, namely the surrounding rock is changed, and the specific gold ore position is found based on the area of the step corrosion layer.

In this embodiment: s2: collecting and recycling samples to obtain gold mine soil; s2 specifically comprises the following steps: gold ore positioning and screening firstly penetrates into the bottom of a geological layer through a drilling head according to different soil layer levels, sampling is carried out to obtain a concrete bolt, and materials in sampled concrete bolt soil are layered; the mine geology method is a method for predicting the possible extension and expansion area of gold ore by carrying out detailed geology study on the found gold ore. The mine geology method provides important basis for finding new gold ores by analyzing the characteristics of the geological structure, rock property, ore formation rule and the like of the gold ores and combining the data of geological geochemical exploration, geophysical exploration and the like.

In this embodiment: s3: the acquisition equipment is used for deep metal sensing detection; s3, deep metal sensing detection is performed through the acquisition equipment.

When the device is specifically used, firstly, a user needs to control the surface support of the traction side plate 78 according to the output structure in the inclined hinging mechanism 7 and then realize monitoring according to the table structure of the control console 73, at the moment, after the user reuses the extension control of the traction side plate 78, the user controls the extending displacement of the area of the adjusting track 77 by electrifying the pressing cylinder, realizes the inclined support according to the rod body structure of the multi-section adjusting vertical rod 79, at the moment, after the downward movement, the hydraulic cylinder 62 and the adjusting bracket 61 at the output end are moved downwards slowly after the extending and telescoping of the multi-layer adjusting mechanism 6, the guiding transmission shaft 55 is controlled according to the axial rotation of the transmission shaft 55 connected with the supporting rod 56 and the output end in the stage of realizing the extending, so that the positions of the transverse linear bracket 11 and the detection supporting plate 12 carrying the metal detection equipment are inclined and probed, at this time, the user performs fine adjustment of the extending forward movement of the output ends of the designated fastening roller 28 and the rod body of the electric telescopic rod 29 according to the supporting state of the plate surface on which the supporting plate 21 is placed, at this time, the annular detector 293 is extended and overturned, the corresponding scanning detection of the surface of the deep gold mine ladder is performed, the detected material is recovered, the user scans through the detection probe 294, the detection range of the U-shaped detection seat 295 and the detection area at the bottom on the detection link is improved, the analysis on the scanning area below the ground level is completed, in addition, the linear pushing and sliding of the adjusting rail 77 between the layers is performed, the linear pushing is performed downwards for the lower end area according to the linear pushing structure of the adjusting rail 77, then the transmission shaft 55 in the area between the lower end area is axially rotated, the adjusting pad 52 is subjected to the downward detection displacement, the linear extension of the connecting roller 59 and the specific linear connecting rod 41 is combined to control the axial rotation of the fastening screws 15 on two sides of the bottom to extend, the specific connecting rod 17 is extended and extended in a downward direction, the corresponding adjusting rod 19 and the concave frame 192 at the bottom and the bottom area of the rubber pad 193 are hinged, the clamping state is extended according to the rod body of the adjusting rod 19 in the preliminary hinging process, in addition, the buffer support is carried out on the rod body extending state of the linear clamp holder and the upper and lower sliding sleeve 18 and the rubber pad 193, in addition, the receiving is carried out on the specific position of the area where the supporting plate 21 and the data receiver 26 above are placed, the linear pushing is realized under the state of realizing the sensing through the corresponding extended analysis box 51, the limit of the stressed bracket 58 at the front end of the placing plate 24 is realized, the distributed support of the transmission shaft 55 at two sides is realized, the area structure sensing detection is carried out on the area structure of the corresponding receiving and transmitting probe 33 and the soil layer sensor 32 by a user based on the lifting state process of the square supporting plate 31, in the detection stage, the user controls the position of the adjusting clamp holder 38 at the front end to the position sensor 37 to the position of the automatic rotation of the self-rotation of the user again, and the rotation is carried out on the coordinate position of the rotating device 39 towards the lower clamping head; the multi-level detection of metal at this stage is to utilize the fastening screw 15 and electric telescopic rod 29 to stretch and stretch under the action and pull the U-shaped detection seat 295 to realize the pulling displacement, the area scanning perception that the user reuse U-shaped detection seat 295 and detection probe 294 at this moment detects and perceives the ground soil to reflect to the metal waveform signal, impels the concrete perception structure to receive or catch this kind of reflected signal comprising gold mine; at this time, the user re-uses the analysis and perception area, realizes the signal connection with the area of the surface of the jointing bottom plate 85 after the positioning and perception of the corresponding conical cover 86 and the two sensors 87 above, and the adopted groove position area induction state of the square groove 83 which connects the upright rod 84 and the top is correspondingly detected with the area of the jointing bottom plate 85 and the conical cover 86 below, so as to perceive the metal mineral analysis embedded in the soil bottom layer.

Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art may modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features thereof, and any modifications, equivalent substitutions, improvements and the like within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (1)

1. The deep gold ore stepped ore finding equipment comprises a supporting mechanism (1) and a stepped ore finding mechanism (2); the method is characterized in that: support mechanism (1): the supporting mechanism (1) comprises two independent transverse linear supports (11), a detection supporting plate (12) is transversely arranged between the two transverse linear supports (11), a vertical upright rod (13) is arranged on the side of the top of the plate surface of the detection supporting plate (12), a U-shaped connecting gasket (14) is arranged in the middle of the side wall of the vertical upright rod (13), a plurality of independent fastening screws (15) are arranged on the surface of the U-shaped connecting gasket (14), a circular opening is formed in the middle of each fastening screw (15), a tightening nut (16) is vertically arranged in the middle of each circular opening, a connecting rod (17) is arranged at one end of each tightening nut (16), and an upper sliding sleeve rod (18) and a lower sliding sleeve rod are arranged in the middle of the rod body of the connecting rod (17); an adjusting rod (19) is vertically arranged in the middle of the upper and lower sliding sleeve rod (18), a linear tooth path (191) is arranged on the surface of a rod body of the adjusting rod (19), a concave frame (192) is hinged to the bottom of the upper and lower sliding sleeve rod (18), a damping roller is transversely arranged in the middle of the concave frame (192), and a rubber pad (193) is arranged at the bottom of the damping roller;

The step ore finding mechanism (2): the device comprises a placing supporting plate (21) arranged in the middle of the side wall of a vertical upright (13), a square bearing plate (22) for lifting is arranged at the top end of the placing supporting plate (21), an L-shaped adjusting base (23) for limiting is arranged above the surface of the square bearing plate (22), a placing plate (24) is arranged at the top end of the L-shaped adjusting base (23), a detector installation vertical plate (25) is vertically arranged at the top of the surface of the placing plate (24), and a data receiver (26) is arranged at the top end of the detector installation vertical plate (25); a metal detection seat (27) is arranged at one end of the transverse linear support (11), a fastening roller (28) is arranged on the surface of the metal detection seat (27), an electric telescopic rod (29) is arranged at the bottom of the metal detection seat (27), an electric hydraulic cylinder (291) is arranged at the side of the electric telescopic rod (29), a connecting rod (292) is arranged at the bottom of the electric hydraulic cylinder (291), and an annular detector (293) is sleeved on the surface of the connecting rod (292);

The end of the connecting rod (292) is provided with a detection probe (294), the bottom of the detection probe (294) is provided with a U-shaped detection seat (295), and the surface of the placement plate is provided with a detection mechanism; the detection mechanism (3) comprises a square supporting plate (31) arranged on the side face of a square bearing plate (22), a soil layer sensor (32) is arranged in the middle of the plate face of the square supporting plate (31), receiving and transmitting probes (33) are arranged around the soil layer sensor (32), motor assembly brackets (34) are arranged on the two sides of the receiving and transmitting probes (33), a driver (35) is arranged in linkage with the middle of the end head of the motor assembly brackets (34), and a stepping motor (36) is arranged at one end of the driver (35); a detector (37) is arranged at the bottom of the receiving and transmitting probe (33), an adjusting clamping seat (38) is arranged at one end of the detector (37), and a clamping head (39) is arranged in the middle of the adjusting clamping seat (38);

An adjusting mechanism (4) is arranged in the middle of the top end of the data receiver (26), the adjusting mechanism (4) comprises a linear connecting rod (41) arranged at the front end of the data receiver (26), a damper (42) is arranged at the rear end of a rod body of the linear connecting rod (41), an inclined connecting rod (43) is arranged at one axial end of the damper (42), and the bottom of the inclined connecting rod (43) is in damping rotation with the top surface of the placing support plate (21); the rear end of the placing support plate (21) is provided with an analysis mechanism (5), the analysis mechanism (5) comprises an analysis box (51) arranged on the surface of the placing support plate (21), the bottom of the box body of the analysis box (51) is provided with an adjusting base plate (52), the side of the top end of the adjusting base plate (52) is provided with an adjusting vertical plate (53), the side of the top end of the adjusting vertical plate (53) is provided with an adjusting base (54), the middle part of the top end of the adjusting base (54) is provided with a transmission shaft (55), and one end of the transmission shaft (55) is provided with a connecting stay bar (56);

the surface of the damper (42) is provided with a driving roller (57), the top of the damper (42) is provided with a stress bracket (58), one end of the driving roller (57) and the damper (42) are used for limiting and detecting the elevation angle change of the direction, the front end of the stress bracket (58) is provided with a connecting roller (59), and the top end of the connecting stay bar (56) is provided with a multi-layer adjusting mechanism (6); the multi-layer adjusting mechanism (6) comprises an adjusting bracket (61) arranged at the top end of a connecting stay bar (56), a hydraulic cylinder (62) is arranged at the top end of the adjusting bracket (61), the output end of the cylinder body of the hydraulic cylinder (62) and the bottom of the adjusting bracket (61) extend, and an inclined hinging mechanism (7) is arranged at the side of the top end of the hydraulic cylinder (62);

The inclined hinging mechanism (7) comprises a control cabinet (71) arranged on the ground, a trapezoid support (72) is arranged in the middle of the top end of the control cabinet (71), and a control console (73) is arranged on the surface of the top end of the trapezoid support (72); the intelligent control device is characterized in that an inclined connecting bracket (74) is arranged on the side of the top end of the control cabinet (71), a linear guide bracket (75) is arranged at one end of the inclined connecting bracket (74), sensing probes (76) are arranged on the side of the two sides of the top of the linear guide bracket (75), an adjusting rail (77) is arranged at the bottom of the sensing probes (76), and a traction side plate (78) is arranged at the bottom of the adjusting rail (77);

One end of the plate surface of the traction side plate (78) is provided with a multi-section adjusting vertical rod (79), and a concave slot (791) is formed in the surface of the multi-section adjusting vertical rod (79); detection mechanism (8) are still installed to the front end of data receiver (26), detection mechanism (8) are including installing control box (81) that sets up at data receiver (26) front end, the positive surface laminating lid of box of control box (81) is equipped with protection casing (82), square fluting (83) have been seted up at the cover body top middle part of protection casing (82), the bottom mid-mounting of control box (81) has connection pole setting (84), laminating bottom plate (85) are installed to the body of rod bottom end of connection pole setting (84), conical cover (86) are installed to the plate body bottom of laminating bottom plate (85), perceptron (87) are installed respectively to the top surface both sides side of conical cover (86).