CN116025269B

CN116025269B - Drilling equipment for geological investigation of solid mineral products

Info

Publication number: CN116025269B
Application number: CN202310322617.4A
Authority: CN
Inventors: 杜显彪; 徐然; 李鹏飞; 朱宁
Original assignee: Shandong Lunan Geological Engineering Survey Institute of Second Geological Brigade of Shandong Geological Survey Bureau
Current assignee: Shandong Lunan Geological Engineering Survey Institute of Second Geological Brigade of Shandong Geological Survey Bureau
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-07-04
Anticipated expiration: 2043-03-30
Also published as: CN116025269A

Abstract

The invention relates to the technical field of geological exploration, in particular to drilling equipment for geological exploration of solid mineral products, which comprises a working platform and further comprises the following components: the fixed-point sampling assembly comprises a drill rod, a rotary table is arranged on the end face of the drill rod, a drill bit is arranged on the end face of the rotary table, an outer cylinder is arranged on the surface of the rotary table in a sliding sleeve joint mode, the rotary table is arranged in a sealing sliding contact mode, lubricating grease is smeared between the rotary table and the outer cylinder, a spiral knife is arranged on the outer surface of the outer cylinder, a knife edge is arranged at the end portion of the outer cylinder, a lifting notch is arranged on one side of the drill rod, a lifting guide rod is arranged at a position, corresponding to the lifting notch, of the inner side of the outer cylinder, and the lifting guide rod is movably inserted and arranged in the lifting notch; lifting plate is installed to one side of biax bi-directional motor, slidable mounting has spacing slide bar between lifting plate and the work platform, and the top fixed mounting of spacing slide bar has the mounting panel, and the cylinder is installed to one side of mounting panel, and the side slidable mounting of lifting plate has the slide.

Description

Drilling equipment for geological investigation of solid mineral products

Technical Field

The invention relates to the technical field of geological exploration, in particular to drilling equipment for solid mineral geological exploration.

Background

Geological mineral exploration is based on advanced geological science theory, and based on occupying a large amount of field geological observation and collecting and arranging related geological data, reliable geological mineral information data is obtained by adopting comprehensive geological means and methods such as geological measurement, physical exploration, pit drilling engineering and the like; the method comprises the steps of finding out mineral reserves, mineral quality, mining and selecting smelting conditions and economic evaluation of mineral deposit technology, thereby providing basis for mine design and construction.

A mineral geological survey device disclosed in chinese patent publication No. CN114086951a, the device comprises a bracket and a sampling unit, the sampling unit comprises a drill body, a first block, a drill bit and a pull rod; the invention is realized by that when the drill body reaches a proper depth; controlling the drill body and the drill bit to prevent the drill body and the drill bit from rotating; at the moment, the pull rod is pulled to enable the drill bit to move upwards in the first block, and the device is suitable for geology with large water content, large viscosity and softness of mineral products; at the moment, a sample can enter the drill body by rotating the drill body or downwards moving the drill body, and then the sampling unit is taken out from the soil; sampling of mineral geological samples is completed; the mode makes drilling and sampling integration, and the sampling unit can take a sample at specific degree of depth in the in-process of taking a sample, can not take place the problem that the sample was polluted by other degree of depth soil.

However, in the geological exploration device in the prior art, sampling is continuously carried out in the drilling process of the drill bit, so that samples of different geological layers are doped together, and soil information of the different geological layers is difficult to identify in the sample analysis process; summarizing: the prior art geological sampling exploration apparatus cannot achieve the effect of sampling the material of a particular geological layer.

Disclosure of Invention

The invention aims to provide drilling equipment for solid mineral geological exploration, which solves the problems in the background technology.

The technical scheme of the invention is as follows: drilling equipment for geological investigation of solid mineral products, which comprises a working platform and further comprises:

the fixed-point sampling assembly comprises a drill rod, a rotary table is arranged on the end face of the drill rod, a drill bit is arranged on the end face of the rotary table, an outer cylinder is arranged on the surface of the rotary table in a sliding sleeve joint mode, the rotary table is arranged in a sealing sliding contact mode, lubricating grease is smeared between the rotary table and the outer cylinder, a spiral knife is arranged on the outer surface of the outer cylinder, a knife edge is arranged at the end portion of the outer cylinder, a lifting notch is arranged on one side of the drill rod, a lifting guide rod is arranged at a position, corresponding to the lifting notch, of the inner side of the outer cylinder, and the lifting guide rod is movably inserted and arranged in the lifting notch;

the driving lifting assembly comprises a double-shaft bidirectional motor arranged on one side of the drill rod, a lifting plate is arranged on one side of the double-shaft bidirectional motor, a limiting sliding rod is slidably arranged between the lifting plate and the working platform, a mounting plate is fixedly arranged at the top of the limiting sliding rod, a cylinder is arranged on one side of the mounting plate, the output end of the cylinder is connected with the lifting plate, a sliding plate is slidably arranged on the side edge of the lifting plate, and the sliding plate is fixedly arranged on the surface of the working platform.

Further technical scheme still includes:

the linkage cleaning assembly comprises a synchronous rod arranged on one side of the lifting plate, a double-layer spring plate is arranged on the end face of the synchronous rod, the double-layer spring plate comprises a first piston plate connected to one side of the synchronous rod, a spring is connected to one side of the first piston plate, a second piston plate is connected to one side of the spring, the second piston plate is slidably arranged on the outer side of the synchronous rod, a pumping tank is sleeved on the surface of the double-layer spring plate, a one-way valve is connected to the pumping tank, a bucket is connected to one side of the one-way valve, a pressure valve is connected to the pumping tank, a temporary water tank is connected to one side of the pressure valve, a spray head is arranged on the surface of the temporary water tank, and the orientation of the spray head is aligned with the fixed-point sampling assembly.

Further technical scheme still includes:

the double-shaft cooling assembly comprises a guide groove arranged on the surface of one side output end of the double-shaft bidirectional motor, a swing rod is arranged in the guide groove in a sliding and limiting mode, a hairbrush is fixedly arranged on the surface of the swing rod, a mesh cover is arranged on one side of the lifting plate in a buckled mode, and the double-shaft cooling assembly further comprises an air ventilation hole arranged on the corresponding portion of the lifting plate and corresponding to the mesh cover, and the air ventilation hole corresponds to the position of the double-shaft bidirectional motor.

Further technical scheme still includes:

the linkage height measurement assembly comprises a limit groove arranged on the inner side of the sliding plate, the lifting plate is slidably mounted in the limit groove, a pointer is fixedly mounted on one side of the lifting plate, and a scale plate is arranged at the position, corresponding to the pointer, of the side edge of the sliding plate.

Further technical scheme still includes:

the outer barrel cleaning assembly comprises a sleeve plate arranged on one side of the working platform, a through hole is formed in the middle of the sleeve plate, a sponge brush is fixedly arranged in the middle of the through hole, the diameter of the sponge brush is smaller than that of the outer barrel, and the diameter of the through hole is larger than that of the outer barrel.

Further technical scheme still includes:

the stabilizing assembly comprises a supporting rod arranged on one side of the working platform, and a bearing block is fixedly arranged on one side of the supporting rod.

According to a further technical scheme, the peripheries of the one-way valve and the pressure valve are communicated through a hose.

The invention provides a drilling device for geological investigation of solid mineral products through improvement, which has the following improvement and advantages compared with the prior art:

the device provides a corresponding solution to the technical defects of the geological exploration assembly in the prior art, and specifically comprises the following advantages:

the method comprises the following steps: aiming at the problem that the exploration device in the prior art cannot realize the effect of fixed-point sampling, the device designs a fixed-point sampling assembly; when the dual-shaft bidirectional motor is used, the outer cylinder is firstly abutted against the surface of the sampling ground through the lifting component, and then the dual-shaft bidirectional motor is started, so that the dual-shaft bidirectional motor can drive the drill rod to rotate; because the surface of the drill rod is provided with the lifting notch, the lifting component is started again at the moment, so that the turntable and the drill bit on the end surface of the drill rod are lowered; because the lifting guide rod is installed in the lifting notch in a sliding and inserting way, the outer barrel can rotate along with the drill rod, meanwhile, the drill bit is continuously lowered to be combined with the knife edge, the drill bit and the outer barrel are combined into a whole, holes are drilled downwards, and soil materials cannot enter the outer barrel;

when the drilling part reaches the sampling depth, the double-shaft bidirectional motor is temporarily turned off, and the lifting part is started, so that the drill bit is lifted and separated from the knife edge, and a sampling area is formed between the drill bit and the knife edge; the double-shaft bidirectional motor is controlled to continuously rotate, and soil is collected to a sampling area of the outer cylinder by utilizing the precession action of the spiral knife on the surface of the outer cylinder, so that the collection effect is realized; the device realizes that the loose soil nearby is collected to the lower side of the outer cylinder; after that, lifting the drilling and collecting part of the device, when discharging, taking out the collecting barrel by a worker, placing the collecting barrel at the opening below the outer barrel, enabling one side of the collecting barrel to prop against the edge of the bottom end of the outer barrel, starting the lifting part, extruding the materials in the sampling area into the collecting barrel through the downward-moving drill bit, and discharging the materials in the sampling area, thereby realizing the effects of fixed-point sampling and automatic discharging;

and two,: the linkage cleaning component of the device utilizes the lifting effect of the device, and the linkage cleaning component can clean the drilling part; when the lifting plate descends, the synchronous rod pushes the double-layer spring plate at the bottom to move downwards, so that negative pressure is formed on the upper side of the pumping tank, and the flow direction of the one-way valve is the water bucket flow direction of the pumping tank; under the action of the one-way valve, water flow in the water barrel is pumped out to the upper side of the water pumping tank, and the spray head does not drain water outwards due to the characteristic of the pressure valve; on the contrary, when the drilling part rises to the inside of the outer barrel cleaning assembly, the synchronous rod moves upwards, the double-layer spring plate can continuously extrude water flow on the upper side of the pumping tank, and when the pressure of the water flow reaches the pressure value of the pressure valve, the water flow is discharged along with the spray head, so that linkage cleaning of the drilling part is realized. The figure shows a detailed structure of a double layer spring plate; the synchronous rod is directly connected with a first piston plate of the double-layer spring plate and is in sliding connection with a second piston plate, and the first piston plate and the second piston plate are connected by a spring; when the synchronizing rod moves downwards, the first piston plate pulls the second piston plate to move downwards, so that negative pressure is generated on the upper side of the pumping tank; when the synchronous rod moves up to a preset cleaning position of the drilling part, the first piston plate upwards presses the second piston plate and presses the water flow on the upper side of the pumping tank, and the water flow can further press the pressure valve;

and thirdly,: the double-shaft cooling assembly of the device utilizes the effect of bidirectional rotation of the double-shaft bidirectional motor, when the output end on the upper side of the double-shaft bidirectional motor rotates, the swinging rod of the hairbrush can reversely slide upwards in the guide groove due to the rotation effect of the output end, so that the hairbrush is in contact with the mesh enclosure, and the cleaning effect of the mesh enclosure is realized; meanwhile, the fan blades can be arranged at the output end of the double-shaft bidirectional motor, and the hairbrushes can clean the net cover continuously, so that the air flow blown to the surface of the double-shaft bidirectional motor is always clean and dry, and is always downwards directed to the double-shaft double-wire motor, so that dust raised at the drilling part can not pollute the double-shaft bidirectional motor; the temperature of the double-shaft bidirectional motor is reduced, so that the double-shaft bidirectional motor can be used as another embodiment of the invention;

fourth, it is: the linkage height measurement assembly of the device utilizes the effect of height change of the lifting plate, and the drilling height of the drill bit is measured in real time by utilizing the pointer arranged on one side of the lifting plate; the calculated value of the scale value on the surface of the scale plate=the actual depth of the outer cylinder-the height of the lifting guide rod in the lifting notch;

fifth, it is: the bottom of the working platform of the device is provided with the loading component, so that the device cannot easily generate the problem of side turning in the process of the work amount.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a partial perspective view of a fixed point sampling assembly according to the present invention;

FIG. 3 is a schematic perspective view of a driving lift assembly according to the present invention;

FIG. 4 is a schematic perspective view of a ganged cleaning assembly of the present invention;

FIG. 5 is a schematic view of a partial perspective view of a dual-shaft cooling assembly of the present invention;

FIG. 6 is a schematic perspective view of the ganged altimeter assembly of the present invention;

FIG. 7 is a schematic perspective view of the outer barrel cleaning assembly of the present invention;

fig. 8 is a schematic plan view of a double layer spring plate of the present invention.

Reference numerals illustrate:

1. a working platform; 2. a fixed point sampling assembly; 3. driving the lifting assembly; 4. a linkage cleaning assembly; 5. a dual-shaft cooling assembly; 6. a linkage height measurement assembly; 7. a drill rod; 10. a turntable; 11. a drill bit; 12. an outer cylinder; 13. a spiral knife; 14. a knife edge; 15. lifting the notch; 16. lifting guide rods; 18. a biaxial bidirectional motor; 19. a lifting plate; 20. a limit slide bar; 21. a mounting plate; 22. a cylinder; 23. a slide plate; 24. a synchronizing lever; 25. a double layer spring plate; 26. a one-way valve; 27. a water bucket; 28. a pressure valve; 29. a temporary water tank; 30. a spray head; 31. a guide groove; 32. a brush; 33. a mesh enclosure; 34. ventilation holes; 35. a pointer; 36. a scale plate; 37. a sleeve plate; 38. a sponge brush; 39. a bearing block; 40. a brace rod; 2501. a first piston plate; 2502. a second piston plate; 2503. and (3) a spring.

Detailed Description

The following detailed description of the present invention clearly and fully describes the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments 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.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are based on directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element to be referred to must have a specific direction, be constructed and operated in the specific direction, and thus should not be construed as limiting the present invention; the terms "first," "second," "third," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "coupled," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally coupled, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Embodiment one: the invention provides drilling equipment for geological investigation of solid mineral products by improving the drilling equipment, which comprises the following technical scheme:

as shown in fig. 1 to 3, a drilling device for geological investigation of solid mineral products comprises a working platform 1 and further comprises: the fixed-point sampling assembly 2 realizes the effect of fixed-point sampling by the fixed-point sampling assembly 2; the fixed-point sampling assembly 2 comprises a drill rod 7, a rotary table 10 is arranged on the end face of the drill rod 7, a drill bit 11 is arranged on the end face of the rotary table 10, an outer barrel 12 is arranged on the surface of the rotary table 10 in a sliding sleeve joint mode, the rotary table 10 and the outer barrel 12 are in sealing sliding contact, lubricating grease is smeared between the rotary table 10 and the outer barrel 12, a spiral cutter 13 is arranged on the outer surface of the outer barrel 12, a cutter edge 14 is arranged at the end of the outer barrel 12, a lifting notch 15 is arranged on one side of the drill rod 7, a lifting guide rod 16 is arranged at a position, corresponding to the lifting notch 15, of the inner side of the outer barrel 12, and the lifting guide rod 16 is movably inserted and installed in the lifting notch 15; the lifting assembly 3 is driven, the lifting assembly 3 comprises a double-shaft bidirectional motor 18 arranged on one side of the drill rod 7, a lifting plate 19 is arranged on one side of the double-shaft bidirectional motor 18, a limiting slide rod 20 is slidably arranged between the lifting plate 19 and the working platform 1, a mounting plate 21 is fixedly arranged at the top of the limiting slide rod 20, a cylinder 22 is arranged on one side of the mounting plate 21, the output end of the cylinder 22 is connected with the lifting plate 19, a sliding plate 23 is slidably arranged on the side edge of the lifting plate 19, and the sliding plate 23 is fixedly arranged on the surface of the working platform 1.

Working principle: aiming at the problem that the exploration device in the prior art cannot realize the effect of fixed-point sampling, the device designs a fixed-point sampling assembly 2; when the dual-shaft bidirectional motor is used, the outer barrel 12 is firstly abutted against the surface of the sampling ground through the lifting component, then the dual-shaft bidirectional motor 18 is started, and the dual-shaft bidirectional motor 18 can drive the drill rod 7 to rotate; because the surface of the drill rod 7 is provided with the lifting notch 15, at the moment, the lifting component is started again, so that the rotary table 10 and the drill bit 11 on the end surface of the drill rod 7 are lowered; because the lifting guide rod 16 is slidably inserted and installed in the lifting notch 15, the outer barrel 12 can rotate along with the drill rod 7, meanwhile, the drill bit 11 is continuously lowered to be combined with the knife edge 14, the drill bit 11 and the outer barrel 12 are combined into a whole, holes are drilled downwards, and soil materials cannot enter the inner part of the outer barrel 12; when the drilling part reaches the sampling depth, the biaxial bidirectional motor 18 is temporarily turned off, and the lifting part is started, so that the drill bit 11 is lifted and separated from the cutter edge 14, and a sampling area is formed between the drill bit 11 and the cutter edge 14; the double-shaft bidirectional motor 18 is controlled to continue to rotate, and soil is collected to a sampling area of the outer barrel 12 by utilizing the precession action of the spiral knife 13 on the surface of the outer barrel 12, so that the collection effect is realized; the outer cylinder 12 rotates and descends, so that soil is extruded into the outer cylinder 12 in a screwing mode, and a large friction force can be kept between the soil and the outer cylinder 12; on the other hand, the sampling depth of this application is darker, and the soil of this position department is comparatively moist, has further guaranteed the frictional force between urceolus 12 and the soil for follow-up urceolus 12 can not appear the condition that drops when promoting soil, thereby has guaranteed going on smoothly of sampling.

The device realizes that the loose soil nearby is collected to the lower side of the outer cylinder 12; after that, lifting the drilling and collecting part of the device, when discharging, taking out the collecting barrel by a worker, placing the collecting barrel at the opening below the outer barrel 12, enabling one side of the collecting barrel to prop against the edge of the bottom end of the outer barrel 12, providing supporting force for the outer barrel 12, starting the lifting part, extruding the materials in the sampling area to the inside of the collecting barrel through the downward-moving drill bit 11, and discharging the materials in the sampling area, thereby realizing the effects of fixed-point sampling and automatic discharging;

embodiment two: based on the first embodiment of the application, the second embodiment of the application provides another drilling device for solid mineral geological exploration. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone. A second embodiment of the present invention will be further described with reference to the drawings and embodiments.

As shown in fig. 1 to 8, a drilling apparatus for geological investigation of solid mineral products, further comprises:

the linkage cleaning component 4, the linkage cleaning component 4 includes the synchronizing bar 24 of installing in lifter plate 19 one side, double-deck spring board 25 is installed to the terminal surface of synchronizing bar 24, double-deck spring board 25 is including connecting the first piston board 2501 in synchronizing bar 24 one side, one side of first piston board 2501 is connected with spring 2503, one side of spring 2503 is connected with second piston board 2502, second piston board 2502 slidable mounting is in the outside of synchronizing bar 24, the pumping tank has been cup jointed on the surface of double-deck spring board 25, the position that the pumping tank is located double-deck spring board 25 upside has put through check valve 26, the one side of check valve 26 has put through the cask 27, the position that the pumping tank is located double-deck spring board 25 upside has put through pressure valve 28, one side of pressure valve 28 has put through interim water tank 29, the surface mounting of interim water tank 29 has shower nozzle 30, the position of shower nozzle 30 aims at fixed point sampling component 2.

Working principle: the linkage cleaning component 4 of the device utilizes the lifting effect of the device, and realizes cleaning of the drilling part in linkage; when the lifting plate 19 descends, the synchronous rod 24 pushes the double-layer spring plate 25 at the bottom to move downwards, so that negative pressure is formed on the upper side of the pumping tank, and the flow direction of the one-way valve 26 is that of the water bucket 27; under the action of the check valve 26, the water flow in the water bucket 27 is pumped out to the upper side of the pumping tank, and the spray head 30 is not discharged outwards due to the characteristic of the pressure valve 28; conversely, when the drilling component rises to the inside of the outer barrel cleaning component, the synchronous rod 24 moves upwards, the double-layer spring plate 25 continuously extrudes water flow on the upper side of the pumping tank, and when the pressure of the water flow reaches the pressure value of the pressure valve 28, the water flow is discharged along the spray head 30, so that linkage cleaning of the drilling component is realized. FIG. 8 shows a detailed construction of a double layer spring plate 25; the synchronizing rod 24 is directly connected with the first piston plate 2501 of the double-layer spring plate 25 and is in sliding connection with the second piston plate 2502, and the first piston plate 2501 and the second piston plate 2502 are connected by a spring 2503; when the synchronizing lever 24 moves down, the first piston plate 2501 pulls the second piston plate 2502 down so that the upper side of the pumping chamber generates negative pressure; when the synchronizing rod 24 is moved up to a predetermined cleaning position of the drilling member, the first piston plate 2501 presses the second piston plate 2502 upward and presses the water flow on the upper side of the pumping chamber, which further presses the pressure valve 28.

Further technical scheme, a drilling equipment for solid mineral geological survey still includes:

the double-shaft cooling assembly 5, the double-shaft cooling assembly 5 comprises a guide groove 31 arranged on the surface of one side output end of the double-shaft bidirectional motor 18, a swinging rod is arranged in the guide groove 31 in a sliding limiting mode, a hairbrush 32 is fixedly arranged on the surface of the swinging rod, a net cover 33 is buckled on one side of the lifting plate 19, the double-shaft cooling assembly 5 further comprises a ventilation hole 34 arranged on the lifting plate 19 and at the position corresponding to the net cover 33, and the ventilation hole 34 corresponds to the position of the double-shaft bidirectional motor 18.

Working principle: the double-shaft cooling assembly 5 of the device utilizes the effect of bidirectional rotation of the double-shaft bidirectional motor 18, when the output end on the upper side of the double-shaft bidirectional motor 18 rotates, due to the rotation effect of the output end, the swinging rod of the hairbrush 32 is arranged at the bottom of the guide groove 31, the hairbrush 32 is not contacted with the mesh enclosure 33, meanwhile, fan blades can be arranged at the output end of the double-shaft bidirectional motor 18, and the air flow blown to the surface of the double-shaft bidirectional motor 18 is always clean through the filtering effect of the mesh enclosure 33, and is always downwards directed to the double-shaft bidirectional motor 18, so that dust raised at the drilling part can not pollute the double-shaft bidirectional motor 18, and the double-shaft bidirectional motor 18 is cooled;

when more dust is attached to the mesh enclosure 33, the dual-shaft bidirectional motor 18 can be controlled to reversely run, at the moment, the brush 32 slides upwards along the inside of the guide groove 31 under the action of centrifugal force and is kept at the topmost end, so that the brush 32 is in contact with the mesh enclosure 33, the mesh enclosure 33 is brushed through the brush 32, and cleaning of dust on the surface of the mesh enclosure 33 can be realized by matching with the blasting effect generated by reverse rotation of fan blades; may be considered as another embodiment of the present invention.

the linkage height measurement assembly 6 comprises a limit groove arranged on the inner side of the sliding plate 23, the lifting plate 19 is slidably arranged in the limit groove, a pointer 35 is fixedly arranged on one side of the lifting plate 19, and a scale plate 36 is arranged on the side edge of the sliding plate 23 and at a position corresponding to the pointer 35.

Working principle: the linkage height measurement assembly 6 of the device utilizes the effect of height change of the lifting plate 19, and utilizes the pointer 35 arranged on one side of the lifting plate 19 to measure the drilling height of the drill bit 11 in real time; and the calculated value of the scale value on the surface of the scale plate 36 = the actual depth of the outer cylinder 12-the height of the lifting guide rod 16 inside the lifting notch 15, and the value is marked on the surface of the scale plate 36 by a pre-calculated preset value, so that the effect of real-time comparison is realized.

the outer barrel cleaning assembly comprises a sleeve plate 37 arranged on one side of the working platform 1, a through hole is formed in the middle of the sleeve plate 37, a sponge brush 38 is fixedly arranged in the middle of the through hole, the diameter of the sponge brush 38 is smaller than that of the outer barrel 12, and the diameter of the through hole is larger than that of the outer barrel 12.

The working principle is as follows; the component is matched with the linkage cleaning component 4 to realize the function; after the drilling position is sampled, the outer cylinder 12 on the surface of the drill bit 11 is driven by the lifting component to rotate upwards to the through hole position in the middle of the sleeve plate 37, and the sponge brush 38 is arranged in the through hole, so that a good cleaning effect can be realized on the outer cylinder 12 on the middle position by the sponge brush 38 under the assistance of the water spraying effect.

the stabilizing assembly comprises a supporting rod 40 arranged on one side of the working platform 1, and a bearing block 39 is fixedly arranged on one side of the supporting rod 40.

Working principle: the bottom of the working platform 1 of the device is provided with the loading component, so that the device cannot easily generate the problem of side turning in the process of the work amount.

According to a further technical scheme, the periphery of the one-way valve 26 and the periphery of the pressure valve 28 of the drilling equipment for solid mineral geological exploration are communicated through hoses, and the hoses are communicated between different valves and the water storage tank.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims

1. Drilling equipment for geological investigation of solid mineral products, comprising a working platform (1), characterized in that it further comprises:

fixed point sampling assembly (2), fixed point sampling assembly (2) includes drilling rod (7), carousel (10) are installed to the terminal surface of drilling rod (7), drill bit (11) are installed to the terminal surface of carousel (10), outer tube (12) are installed in the surface slip socket joint of carousel (10), sealed sliding contact installs between carousel (10) and outer tube (12), smear lubricating grease between carousel (10) and outer tube (12), the surface of outer tube (12) is provided with helical blade (13), the tip of outer tube (12) is provided with edge of a knife (14), one side of drilling rod (7) is provided with lift notch (15), the inboard of outer tube (12) is provided with lift guide arm (16) with the position that lift notch (15) corresponds, lift guide arm (16) movable grafting installs the inside at lift notch (15).

The lifting device comprises a driving lifting assembly (3), wherein the driving lifting assembly (3) comprises a double-shaft bidirectional motor (18) arranged on one side of a drill rod (7), a lifting plate (19) is arranged on one side of the double-shaft bidirectional motor (18), a limiting slide rod (20) is slidably arranged between the lifting plate (19) and a working platform (1), a mounting plate (21) is fixedly arranged at the top of the limiting slide rod (20), a cylinder (22) is arranged on one side of the mounting plate (21), the output end of the cylinder (22) is connected with the lifting plate (19), a sliding plate (23) is slidably arranged on the side edge of the lifting plate (19), and the sliding plate (23) is fixedly arranged on the surface of the working platform (1);

further comprises:

the linkage cleaning assembly (4), linkage cleaning assembly (4) includes a synchronizing rod (24) installed on one side of a lifting plate (19), a double-layer spring plate (25) is installed on the end face of the synchronizing rod (24), the double-layer spring plate (25) comprises a first piston plate (2501) connected on one side of the synchronizing rod (24), a spring (2503) is connected on one side of the first piston plate (2501), a second piston plate (2502) is connected on one side of the spring (2503), the second piston plate (2502) is slidably installed on the outer side of the synchronizing rod (24), a pumping tank is sleeved on the surface of the double-layer spring plate (25), a one-way valve (26) is connected on the part of the pumping tank, a water bucket (27) is connected on one side of the one-way valve (26), a temporary water tank (29) is connected on one side of the pressure valve (28), and a spray head (30) is installed on the surface of the temporary water tank (29), and the spray head (2) is aligned with the spray head assembly (30);

when the dual-shaft bidirectional motor is used, the outer barrel (12) is firstly abutted against the surface of the sampling ground through the lifting component, then the dual-shaft bidirectional motor (18) is started, and the dual-shaft bidirectional motor (18) can drive the drill rod (7) to rotate; because the surface of the drill rod (7) is provided with the lifting notch (15), the lifting component is started again at the moment, so that the rotary table (10) and the drill bit (11) on the end surface of the drill rod (7) are lowered; because the lifting guide rod (16) is installed in the lifting notch (15) in a sliding insertion manner, the outer barrel (12) outside can rotate along with the drill rod (7), meanwhile, the drill bit (11) is continuously lowered to be combined with the knife edge (14), the drill bit (11) and the outer barrel (12) are combined into a whole, holes are drilled downwards, and soil materials cannot enter the outer barrel (12); when the drilling component reaches the sampling depth, the biaxial bidirectional motor (18) is temporarily turned off, and the lifting component is started, so that the drill bit (11) is lifted and separated from the knife edge (14), and a sampling area is formed between the drill bit (11) and the knife edge (14); and the double-shaft bidirectional motor (18) is controlled to continue to rotate, and soil is collected to a sampling area of the outer barrel (12) by utilizing the precession action of the spiral knife (13) on the surface of the outer barrel (12), so that the collection effect is realized.

2. A drilling apparatus for geological exploration of solid mineral products, according to claim 1, further comprising:

biax cooling module (5), biax cooling module (5) are including setting up guide slot (31) on biax bi-directional motor (18) one side output surface, the inside slip spacing of guide slot (31) is installed the pendulum rod, the fixed surface of pendulum rod installs brush (32), screen panel (33) are installed to one side lock of lifter plate (19), biax cooling module (5) are still including setting up on lifter plate (19) with screen panel (33) corresponding position's ventilation opening (34), ventilation opening (34) correspond each other with biax bi-directional motor (18) position.

3. A drilling apparatus for geological exploration of solid mineral products, according to claim 1, further comprising:

the linkage height measurement assembly (6), linkage height measurement assembly (6) are including setting up at the inboard spacing groove of slide (23), lifter plate (19) slidable mounting is in the inside of spacing groove, one side fixed mounting of lifter plate (19) has pointer (35), the side of slide (23) is provided with scale plate (36) with the position that pointer (35) corresponds.

4. A drilling apparatus for geological exploration of solid mineral products, according to claim 3, further comprising:

the outer barrel cleaning assembly comprises a sleeve plate (37) arranged on one side of the working platform (1), a through hole is formed in the middle of the sleeve plate (37), a sponge brush (38) is fixedly arranged in the middle of the through hole, the diameter of the sponge brush (38) is smaller than that of the outer barrel (12), and the diameter of the through hole is larger than that of the outer barrel (12).

5. A drilling apparatus for geological exploration of solid mineral products, according to claim 1, further comprising:

the stabilizing assembly comprises a supporting rod (40) arranged on one side of the working platform (1), and a bearing block (39) is fixedly arranged on one side of the supporting rod (40).

6. A drilling apparatus for geological exploration of solid mineral products, according to claim 1, characterized in that: the periphery of the one-way valve (26) and the pressure valve (28) are communicated through a hose.