CN112304680A - Geological exploration equipment capable of automatically collecting soil samples - Google Patents
Geological exploration equipment capable of automatically collecting soil samples Download PDFInfo
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- CN112304680A CN112304680A CN202011263416.4A CN202011263416A CN112304680A CN 112304680 A CN112304680 A CN 112304680A CN 202011263416 A CN202011263416 A CN 202011263416A CN 112304680 A CN112304680 A CN 112304680A
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- cavity
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/04—Devices for withdrawing samples in the solid state, e.g. by cutting
- G01N1/08—Devices for withdrawing samples in the solid state, e.g. by cutting involving an extracting tool, e.g. core bit
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/286—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q involving mechanical work, e.g. chopping, disintegrating, compacting, homogenising
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- General Physics & Mathematics (AREA)
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Abstract
The invention discloses geological exploration equipment for automatically collecting soil samples, which comprises a machine body, wherein a motor cavity is arranged in the machine body, a motor electromagnet is fixedly connected to the left wall of the motor cavity and can be controlled manually, a main motor is connected in the motor cavity in a sliding manner and can be moved to the right when being started, and a motor spring is fixedly connected between the right end of the main motor and the right wall of the motor cavity. Manpower loss is greatly reduced, and the practicability of the device is improved.
Description
Technical Field
The invention relates to the field of geological exploration equipment, in particular to geological exploration equipment capable of automatically collecting soil samples.
Background
Many people in nature have not explored the field, but nature ghost axe the myth, and many natural environment are not suitable for people to enter, such as cave and other narrow places, so this has caused very big difficulty to relevant worker's research, and this equipment has effectively solved this problem.
Disclosure of Invention
The object of the present invention is to provide a geological exploration apparatus with automatic collection of soil samples, which overcomes the above mentioned drawbacks of the prior art.
The technical scheme adopted by the invention for solving the technical problems is as follows: according to the geological exploration equipment for automatically collecting the soil sample, which comprises a machine body, wherein a motor cavity is arranged in the machine body, a motor electromagnet is fixedly connected to the left wall of the motor cavity and can be controlled manually, a main motor is connected in the motor cavity in a sliding manner and can move rightwards when being started, a motor spring is fixedly connected between the right end of the main motor and the right wall of the motor cavity, a traveling connection cavity is arranged on the right side of the motor cavity, a moving connection cavity is arranged on the right side of the traveling connection cavity, a motor shaft penetrating through the right wall of the motor cavity and the traveling connection cavity and extending into the moving connection cavity is connected to the right end of the main motor in a power mode, a first motor wheel positioned in the traveling connection cavity is fixedly connected to the motor shaft, and a second motor wheel is fixedly connected to the right end of the motor shaft, the utility model discloses a soil sample collecting device, including the hookup chamber of marcing, first motor wheel, lower extreme can the meshing be connected with first walking wheel, first walking wheel lower extreme fixedly connected with runs through hookup chamber diapire of marcing and stretches into the connecting axle of marcing of the internal cone pulley of marcing, the connecting axle lower extreme fixedly connected with second of marcing is advanced, the fuselage lower extreme is equipped with the removal frame chamber that the opening is decurrent, fixedly connected with can control on the removal frame chamber roof the collection rod cover of total motor reversal, sliding connection has the removal frame in the removal frame chamber, it is equipped with on the hookup chamber right side of marcing and is used for controlling the mobile device that the removal frame reciprocated, it is equipped with and is used for making to advance hookup chamber downside the device of marcing that the fuselage was marcing, be equipped with the collection device that is.
Further, the advancing device comprises a third advancing wheel connected to the lower end of the second advancing wheel in a meshed mode, air pipes with symmetrical front and back positions are arranged on the front side and the back side of the advancing cone wheel cavity, the front end of the third advancing wheel is fixedly connected with a front wall of the advancing cone wheel cavity and is rotatably connected to the front side, the front end of the third advancing wheel penetrates through a rear wall of the advancing cone wheel cavity, the rear end of the third advancing wheel penetrates through a left-right symmetrical advancing shaft connected to the rear side of the advancing cone wheel cavity, the front and back crawler wheels are fixedly connected to the advancing shaft, the left and right crawler wheels are symmetrical, and a crawler belt with symmetrical front and back positions is connected between the crawler wheels in a chained mode.
Further, the moving device comprises a moving bevel gear which is positioned in the moving connecting cavity, can be engaged and connected with the right end of the second motor wheel and is symmetrical up and down, a piston cavity is arranged on the upper side of the moving connecting cavity, the right side of the piston cavity is communicated with an air pipe, the right side of the air pipe is fixedly connected with an air pump, a piston is connected in the piston cavity in a sliding manner, a piston spring is fixedly connected between the lower end of the piston and the bottom wall of the piston cavity, the lower end of the piston is rotatably connected with a moving spline housing which penetrates through the bottom wall of the piston cavity, extends into the moving connecting cavity and is fixedly connected onto the moving bevel gear, a moving belt cavity is arranged in the moving frame, and a moving spline shaft which penetrates through the bottom wall of the moving connecting cavity, penetrates through the top wall of the moving belt, the movable spline shaft is connected with the movable connection cavity bottom wall in a sliding mode, the movable spline shaft is connected with the movable belt cavity top wall in a rotating mode, the movable spline shaft is fixedly connected with movable belt wheels which are symmetrically arranged in the movable belt cavity in a left-right mode, the movable belt wheels are connected with the movable belt, the movable connection cavity right side is provided with a movable threaded cavity and a right side, the movable belt wheels are fixedly connected with lower ends of the movable belt wheels in a rotating mode, the movable belt cavity bottom wall is connected with the movable belt shaft, the upper ends of the movable belt cavity bottom wall penetrate through the movable belt cavity top wall and the movable belt shaft, the movable belt shaft is connected with the movable belt cavity top wall in a rotating mode, and when the movable belt shaft rotates forwards, the movable belt shaft can drive the movable frame to move downwards.
Further, the collecting device comprises a crushing motor arranged in the moving frame, a collecting frame cavity with a downward opening is arranged on the right side of the crushing motor, a matching rod sleeve extending out of the moving frame is fixedly connected on the left side of the crushing motor, a matching rod which is positioned in the moving frame cavity and can extend out of the machine body is connected in the matching rod sleeve in a sliding manner, a matching spring is fixedly connected between the matching rod and the inner top wall of the matching rod sleeve, a crushing motor shaft extending out of the moving frame is connected at the lower end of the crushing motor in a power connection manner, a crushing cutter is fixedly connected on the crushing motor shaft, the crushing motor shaft can drive the crushing cutter to move downwards to crush soil, a collecting rod sleeve is connected in the collecting frame cavity in a sliding manner, a collecting frame is connected in the collecting rod sleeve in a sliding manner, and a collecting spring is fixedly connected between the upper end of the collecting frame, the collecting frame can be matched with the matching rod, soil can be collected at the upper end of the collecting frame, a thread block cavity is arranged at the right side of the collecting frame cavity, a thread sleeve cavity is arranged at the right side of the thread block cavity, the right side of the thread sleeve cavity is communicated with a reverse cavity, a collecting connecting rod penetrating through the right wall of the collecting frame cavity and extending into the thread block cavity is fixedly connected at the right end of the collecting rod sleeve, a thread block slidably connected in the thread block cavity is fixedly connected at the right end of the collecting connecting rod, the thread block is in threaded connection with a reverse shaft, the left end of the thread block is rotatably connected on the left wall of the thread block cavity, the right end of the thread block penetrates through the right wall of the thread block cavity and the thread sleeve cavity and extends into the reverse cavity, an air pump trigger block capable of controlling the air pump is fixedly connected on the top wall of the thread block cavity, and a rope, the rope that runs through in the rope cover chamber roof and fixed connection in remove the roof of frame chamber, reversal axle right-hand member with fixedly connected with reversal spring between the chamber right side wall reverses, remove the frame and move down can the rope drives the rope cover chamber rotates to drive the screw thread piece removes.
The invention has the beneficial effects that: the geological exploration equipment capable of automatically collecting the soil sample provided by the invention can realize the collection of the soil sample in places where manual work is inconvenient to enter, such as caves or narrow places, can realize the functions of automatically crushing the soil and collecting the soil sample, has a simple structure, is convenient to operate, realizes full-automatic operation, is matched with each other without mutual influence, greatly reduces the manpower loss, and improves the practicability of the device.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
FIG. 1 is a schematic diagram of the overall configuration of a geological exploration apparatus of the present invention that automatically collects soil samples;
FIG. 2 is a schematic view of the structure in the direction A-A in FIG. 1;
FIG. 3 is a schematic view of the structure in the direction B-B in FIG. 1;
fig. 4 is an enlarged view at C in fig. 1.
Detailed Description
The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
With reference to fig. 1-4, the geological exploration equipment for automatically collecting soil samples includes a machine body 11, a motor cavity 13 is arranged in the machine body 11, a motor electromagnet 12 is fixedly connected to the left wall of the motor cavity 13, the motor electromagnet 12 can be controlled manually, a main motor 14 is slidably connected to the motor cavity 13, the motor electromagnet 12 can move the main motor 14 to the right when being started, a motor spring 16 is fixedly connected between the right end of the main motor 14 and the right wall of the motor cavity 13, a traveling connection cavity 17 is arranged on the right side of the motor cavity 13, a moving connection cavity 26 is arranged on the right side of the traveling connection cavity 17, a motor shaft 15 penetrating through the right wall of the motor cavity 13 and the traveling connection cavity 17 and extending into the moving connection cavity 26 is dynamically connected to the right end of the main motor 14, a first motor wheel 19 located in the traveling connection cavity 17 is fixedly connected to the motor shaft 15, the right end of the motor shaft 15 is fixedly connected with a second motor wheel 25, the lower side of the advancing connecting cavity 17 is provided with an advancing bevel wheel cavity 24, the lower end of the first motor wheel 19 can be connected with a first advancing wheel 18 in a meshing manner, the lower end of the first advancing wheel 18 is fixedly connected with an advancing connecting shaft 20 which penetrates through the bottom wall of the advancing connecting cavity 17 and extends into the advancing bevel wheel cavity 24, the lower end of the advancing connecting shaft 20 is fixedly connected with a second advancing wheel 21, the lower end of the machine body 11 is provided with a moving frame cavity 33 with a downward opening, the top wall of the moving frame cavity 33 is fixedly connected with a collecting rod sleeve 64 which can control the reverse rotation of the total motor 14, the moving frame cavity 33 is internally and slidably connected with a moving frame 34, the right side of the advancing connecting cavity 17 is provided with a moving device 102 which is used for controlling the moving frame 34 to move up and down, the lower side of the, a collecting device 103 for collecting soil samples is arranged in the movable frame 34.
Advantageously, the travelling device 101 comprises a third travelling wheel 22 engaged with the lower end of the second travelling wheel 21, air pipes 29 with symmetrical front and back positions are arranged on the front and back sides of the travelling cone wheel cavity 24, a travelling shaft 23 with symmetrical left and right positions and a front end penetrating through the front wall of the travelling cone wheel cavity 24 and rotatably connected to the front wall of the front crawler cavity 59 and a back end penetrating through the back wall of the travelling cone wheel cavity 24 and rotatably connected to the back wall of the back crawler cavity 59 is fixedly connected to the third travelling wheel 22, crawler wheels 58 with symmetrical front and back positions and symmetrical left and right positions are fixedly connected to the travelling shaft 23, and a crawler belt 57 with symmetrical front and back positions is linked between the crawler wheels 58.
Beneficially, the moving device 102 includes a moving bevel gear 27 located in the moving coupling cavity 26 and capable of being engaged with the right end of the second motor wheel 25 and being symmetrical in the up-down position, a piston cavity 30 is disposed on the upper side of the moving coupling cavity 26, an air pipe 29 is communicated with the right side of the piston cavity 30, an air pump 28 is fixedly connected to the right side of the air pipe 29, a piston 60 is slidably connected in the piston cavity 30, a piston spring 61 is fixedly connected between the lower end of the piston 60 and the bottom wall of the piston cavity 30, a moving spline housing 31 penetrating through the bottom wall of the piston cavity 30 and extending into the moving coupling cavity 26 and fixedly connected to the moving bevel gear 27 is rotatably connected to the lower end of the piston 60, a moving belt cavity 35 is disposed in the moving frame 34, a moving spline shaft 32 penetrating through the bottom wall of the moving coupling cavity 26 and penetrating through the moving belt cavity 35 and rotatably connected to the bottom wall of the moving belt cavity, the movable spline shaft 32 is connected with the bottom wall of the movable connecting cavity 26 in a sliding way, the movable spline shaft 32 is connected with the top wall of the movable belt cavity 35 in a rotating way, the movable spline shaft 32 is fixedly connected with movable belt pulleys 36 which are positioned in the movable belt cavity 35 and are symmetrical in left and right positions, a movable belt 37 is connected between the movable belt pulleys 36, a movable threaded cavity 39 communicated with the upper side of the movable frame cavity 33 is arranged on the right side of the movable connecting cavity 26, a movable belt shaft 38 is fixedly connected to the right side of the movable belt pulley 36, the lower end of the movable belt shaft is rotatably connected to the bottom wall of the movable belt cavity 35, the upper end of the movable belt shaft penetrates through the top wall of the movable belt cavity 35 and is in threaded connection with the movable threaded cavity 39, the movable belt shaft 38 is rotatably connected with the top wall of the movable belt cavity 35, when the moving belt shaft 38 rotates forward, the moving belt shaft 38 drives the moving frame 34 to move downward.
Beneficially, the collecting device 103 includes a crushing motor 51 disposed in the moving frame 34, a collecting frame cavity 50 with a downward opening is disposed on the right side of the crushing motor 51, a matching rod sleeve 53 extending out of the moving frame 34 is fixedly connected to the left side of the crushing motor 51, a matching rod 55 located in the moving frame cavity 33 and capable of extending out of the machine body 11 is slidably connected to the matching rod sleeve 53, a matching spring 54 is fixedly connected between the matching rod 55 and the inner top wall of the matching rod sleeve 53, a crushing motor shaft 52 extending out of the moving frame 34 is dynamically connected to the lower end of the crushing motor 51, a crushing cutter 62 is fixedly connected to the crushing motor shaft 52, the crushing cutter 62 can be driven by the crushing motor shaft 52 to move down to crush soil, a collecting rod sleeve 64 is slidably connected to the collecting frame cavity 50, and a collecting frame 56 is slidably connected to the collecting rod sleeve 64, the collection frame 56 and the collection rod sleeve 64 are fixedly connected with a collection spring 65, the collection frame 56 can be matched with the matching rod 55 and can collect soil at the upper end of the collection frame 56, the right side of the collection frame cavity 50 is provided with a thread block cavity 46, the right side of the thread block cavity 46 is provided with a thread sleeve cavity 43, the right side of the thread sleeve cavity 43 is communicated with a reverse cavity 40, the right end of the collection rod sleeve 64 is fixedly connected with a collection connecting rod 49 which penetrates through the right wall of the collection frame cavity 50 and extends into the thread block cavity 46, the right end of the collection connecting rod 49 is fixedly connected with a thread block 48 which is slidably connected into the thread block cavity 46, the thread block 48 is in threaded connection with a reverse shaft 42, the left end of the thread block cavity 46 is rotatably connected onto the left wall of the thread block cavity 46, and the right end of the thread block cavity 46 and the thread sleeve cavity 43 extends into the reverse cavity 40, fixedly connected with can control on the screw piece chamber 46 roof the air pump trigger block 47 of air pump 28, fixedly connected with is located on the reversal axle 42 the rope cover chamber 44 in the rope cover chamber 43, twine on the rope cover chamber 44 and run through rope cover chamber 43 roof and fixed connection in move the rope 45 of putting up the roof in the chamber 33, reversal axle 42 right-hand member with fixedly connected with reversal spring 41 between the chamber 40 right side wall reverses, it can be that the rope 45 drives to move down to move the frame 34 the rope cover chamber 44 rotates, thereby drives screw piece 48 removes.
Sequence of mechanical actions of the whole device: when the equipment is operated, the main motor 14 and the crushing motor 51 are started, at this time, the first motor wheel 19 and the first traveling wheel 18 are engaged and connected, so that the main motor 14 drives the motor shaft 15 to rotate, so that the first motor wheel 19 drives the first traveling wheel 18 to rotate, so that the traveling connecting shaft 20 drives the second traveling wheel 21 to rotate, so that the third traveling wheel 22 drives the traveling shaft 23 to rotate, so that the crawler wheel 58 drives the crawler belt 57 to rotate, so that the machine body 11 travels, when a trolley enters a place where manual entry is not possible, the motor electromagnet 12 is started, so that the main motor 14 is moved to the right, so that the first motor wheel 19 and the first traveling wheel 18 are disengaged and the second motor wheel 25 and the upper side traveling bevel gear 27 are engaged and connected, so that the machine body 11 stops traveling, so that the second motor wheel 25 rotates the moving bevel gear 27, so that the moving spline housing 31 rotates the moving spline shaft 32, so that the moving pulley 36 rotates the moving belt shaft 38, so that the moving belt shaft 38 moves downward, so that the moving frame 34 moves downward, so that the rope 45 pulls the rope housing chamber 44 to rotate, so that the rope housing chamber 44 rotates the reversing shaft 42, so that the thread block 48 moves rightward, and at the same time, the reversing spring 41 rotates to accumulate force, so that the collecting link rod 49 moves the collecting link 64 rightward, so that the moving frame 34 moves downward to the engaging rod 55 and the collecting frame 56 against the ground, at which point the moving frame 34 continues to move downward, so that the crushing motor shaft 52 drives the crushing cutter 62 to crush soil, and after the thread block 48 moves rightward to trigger the air pump trigger block 47, the air pump 28 sucks air, so that the piston 60 drives the moving spline housing 31 to move upwards, so that the upper moving bevel gear 27 and the second motor wheel 25 are disengaged, the lower moving bevel gear 27 and the second motor wheel 25 are engaged, so that the moving spline housing 31 rotates reversely, so that the moving pulley 36 drives the moving belt shaft 38 to rotate reversely, so that the moving frame 34 moves upwards, so that the reversing spring 41 releases force, so that the reversing shaft 42 is driven to rotate reversely, the rope 45 contracts, so that the screw block 48 moves leftwards, at this time, the collecting spring 65 and the fitting spring 54 are still in a compressed state, so that the collecting frame 56 and the fitting rod 55 collect the crushed soil sample, the moving frame 34 continues to move upwards, so that the collecting frame 56 and the fitting rod 55 collect the soil sample, the moving frame 34 thus triggers the motor control block 63, so that the motor electromagnet 12 moves the main motor 14 to the left and the main motor 14 rotates reversely, so that the first motor wheel 19 and the first traveling wheel 18 are engaged, so that the main body 11 moves out reversely to collect the soil sample.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.
Claims (4)
1. The utility model provides an automatic gather geological prospecting equipment of soil sample, includes the fuselage, its characterized in that: a motor cavity is arranged in the machine body, a motor electromagnet is fixedly connected to the left wall of the motor cavity and can be controlled manually, a main motor is connected in the motor cavity in a sliding mode and can move to the right when the motor electromagnet is started, a motor spring is fixedly connected between the right end of the main motor and the right wall of the motor cavity, an advancing connecting cavity is arranged on the right side of the motor cavity, a moving connecting cavity is arranged on the right side of the advancing connecting cavity, a motor shaft penetrates through the right wall of the motor cavity and the advancing connecting cavity and extends into the moving connecting cavity is connected to the power of the right end of the main motor, a first motor wheel positioned in the advancing connecting cavity is fixedly connected to the motor shaft, a second motor wheel is fixedly connected to the right end of the motor shaft, an advancing cone wheel cavity is arranged on the lower side of the advancing connecting cavity, and a first advancing wheel can be meshed and connected to the lower, first driving wheel lower extreme fixedly connected with runs through hookup chamber diapire of marcing and stretch into the connecting axle of marcing of cone pulley intracavity, the connecting axle lower extreme fixedly connected with second of marcing is advanced and is taken turns, the fuselage lower extreme is equipped with the downward removal frame chamber of opening, fixedly connected with can control on the removal frame chamber roof the collection rod cover of total motor reversal, it has the removal frame to remove frame intracavity sliding connection, it is equipped with and is used for control to advance hookup chamber right side remove the mobile device that the frame reciprocated, it is equipped with and is used for making to advance hookup chamber downside advance the device of marcing of fuselage, be equipped with the collection device who is used for gathering the soil sample in the removal frame.
2. Geological exploration equipment for the automatic collection of soil samples, according to claim 1, characterized in that: the travelling device comprises a third travelling wheel connected to the lower end of the second travelling wheel in a meshed mode, air pipes with symmetrical front and back positions are arranged on the front side and the back side of a travelling cone wheel cavity, the front end of the fixedly connected device on the third travelling wheel penetrates through the front wall of the travelling cone wheel cavity and is rotatably connected to the front side, the front end of the travelling cone wheel cavity penetrates through the front wall of the travelling cone wheel cavity, the back end of the travelling cone wheel cavity penetrates through the back wall of the travelling cone wheel cavity and is rotatably connected to the back side of a travelling shaft with symmetrical left and right positions on the back wall of the track cavity, crawler wheels with symmetrical front and back positions are fixedly connected to the travelling shaft, and a crawler with symmetrical front.
3. Geological exploration equipment for the automatic collection of soil samples, according to claim 1, characterized in that: the moving device comprises a moving bevel gear which is positioned in the moving connecting cavity, can be engaged and connected with the right end of the second motor wheel and is symmetrical up and down, a piston cavity is arranged on the upper side of the moving connecting cavity, the right side of the piston cavity is communicated with an air pipe, the right side of the air pipe is fixedly connected with an air pump, a piston is connected in the piston cavity in a sliding way, a piston spring is fixedly connected between the lower end of the piston and the bottom wall of the piston cavity, the lower end of the piston is rotatably connected with a moving spline housing which penetrates through the bottom wall of the piston cavity, extends into the moving connecting cavity and is fixedly connected onto the moving bevel gear, a moving belt cavity is arranged in the moving frame, a moving spline shaft which penetrates through the bottom wall of the moving connecting cavity, penetrates through the top wall of the moving belt cavity and is rotatably connected onto the bottom wall of the moving, remove the integral key shaft with remove belt chamber roof and connect for rotating, the last fixedly connected with of removal integral key shaft is located remove the removal belt pulley of the bilateral symmetry of belt intracavity, the area is connected with the removal belt between the removal belt pulley, remove hookup chamber right side be equipped with communicate in remove the removal screw thread chamber of putting up the chamber upside, the right side fixedly connected with lower extreme rotate on the removal belt pulley connect in on the removal belt chamber diapire and the upper end run through remove belt chamber roof and threaded connection in remove the removal belt axle of screw thread intracavity, remove the belt axle with for rotating the connection between the removal belt chamber roof, work as when removing belt axle corotation, it can drive to remove the belt axle remove the frame and move down.
4. Geological exploration equipment for the automatic collection of soil samples, according to claim 1, characterized in that: the collecting device comprises a crushing motor arranged in the moving frame, the right side of the crushing motor is provided with a collecting frame cavity with a downward opening, the left side of the crushing motor is fixedly connected with a matching rod sleeve extending out of the moving frame, the matching rod sleeve is internally and slidably connected with a matching rod which is positioned in the moving frame cavity and can extend out of the machine body, a matching spring is fixedly connected between the matching rod and the inner top wall of the matching rod sleeve, the lower end of the crushing motor is in power connection with a crushing motor shaft extending out of the moving frame, the crushing motor shaft is fixedly connected with a crushing cutter, the crushing motor shaft can drive the crushing cutter to move downwards to crush soil, the collecting rod sleeve is slidably connected in the collecting frame cavity, the collecting frame is slidably connected in the collecting rod sleeve, and a collecting spring is fixedly connected between the upper end of the collecting frame and the inner top wall of the collecting, the collecting frame can be matched with the matching rod, soil can be collected at the upper end of the collecting frame, a thread block cavity is arranged at the right side of the collecting frame cavity, a thread sleeve cavity is arranged at the right side of the thread block cavity, the right side of the thread sleeve cavity is communicated with a reverse cavity, a collecting connecting rod penetrating through the right wall of the collecting frame cavity and extending into the thread block cavity is fixedly connected at the right end of the collecting rod sleeve, a thread block slidably connected in the thread block cavity is fixedly connected at the right end of the collecting connecting rod, the thread block is in threaded connection with a reverse shaft, the left end of the thread block is rotatably connected on the left wall of the thread block cavity, the right end of the thread block penetrates through the right wall of the thread block cavity and the thread sleeve cavity and extends into the reverse cavity, an air pump trigger block capable of controlling the air pump is fixedly connected on the top wall of the thread block cavity, and a rope, the rope that runs through in the rope cover chamber roof and fixed connection in remove the roof of frame chamber, reversal axle right-hand member with fixedly connected with reversal spring between the chamber right side wall reverses, remove the frame and move down can the rope drives the rope cover chamber rotates to drive the screw thread piece removes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202011263416.4A CN112304680A (en) | 2020-11-12 | 2020-11-12 | Geological exploration equipment capable of automatically collecting soil samples |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202011263416.4A CN112304680A (en) | 2020-11-12 | 2020-11-12 | Geological exploration equipment capable of automatically collecting soil samples |
Publications (1)
Publication Number | Publication Date |
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CN112304680A true CN112304680A (en) | 2021-02-02 |
Family
ID=74324940
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202011263416.4A Withdrawn CN112304680A (en) | 2020-11-12 | 2020-11-12 | Geological exploration equipment capable of automatically collecting soil samples |
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CN (1) | CN112304680A (en) |
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2020
- 2020-11-12 CN CN202011263416.4A patent/CN112304680A/en not_active Withdrawn
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Application publication date: 20210202 |
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