CN210774812U - Portable earth's surface sampling analysis device for mining exploration - Google Patents

Abstract

The utility model discloses a portable earth's surface sampling analysis device for mining exploration belongs to sampling equipment technical field. The sampling analysis device comprises a sample sampling mechanism, wherein the sample sampling mechanism comprises a sampling cylinder, a motor and a vertical fixed rod, the sampling cylinder is longitudinally arranged, the top of the sampling cylinder is detachably connected with the bottom of the vertical fixed rod, a sample release mechanism for quickly removing a sample in the sampling cylinder is arranged in the sampling cylinder, a first spiral blade is arranged on the outer wall of the sampling cylinder, a second spiral blade is arranged on the outer wall of the vertical fixed rod, the sample sampling mechanism further comprises a punching piece and a rotating tooth, and the punching piece and the rotating tooth are detachably connected with the bottom of the sampling cylinder; the utility model discloses a set up motor, sampler barrel, the combined action of punching and vertical dead lever, punch at the top of the earth layer, through the cooperation of motor, sampler barrel, rotatory tooth and vertical dead lever, realize taking a sample to the top of the earth layer of appointed degree of depth.

Description

Portable earth's surface sampling analysis device for mining exploration

Technical Field

The utility model relates to a sampling equipment technical field, concretely relates to portable earth's surface sampling analysis device for mining exploration.

Background

Ore refers to a mineral aggregate from which useful components can be extracted or which itself has some property that can be utilized, mining exploration is to determine the thickness of different strata by various means, samples of rocks and soil in different strata are taken, and the physicochemical properties of the rocks and the ores in the soil are obtained by analysis, which is a very necessary means for mineral exploration, exploitation and utilization and research on hydrological and geological structures of a mineral site;

in the prior art, the exploration method for the earth surface ores mainly comprises two modes of pit exploration and groove exploration, when the two modes are adopted to carry out geological exploration within the range of 1-2m from the earth surface, the soil layer is generally dug in a large area, a large amount of manpower and financial resources are consumed, the manual speed is low, the soil layer is not generally adopted, the sampling of surface minerals is often performed by drilling, however, the large drilling devices in the prior art are not suitable for operation in high mountain environments due to their large size, and the transportation of the large drilling devices to high mountain areas requires a lot of financial resources, therefore, when the sampling is carried out in the general high mountain environment, a small drilling device is selected, but the small drilling device in the prior art is difficult to go deep into the soil layer 1-2m away from the earth surface for sampling, therefore, the portable earth surface sampling and analyzing device for mining exploration with strong practicability has great practical value.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the problem among the prior art, provide a portable mining exploration land used surface sample analytical equipment, can conveniently stretch into below the earth's surface to the soil layer sample of subsurface, convenient and practical.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a portable earth surface sampling and analyzing device for mining exploration, which comprises a containing device, wherein the containing device is used for storing a sampling and analyzing instrument and a sample sampling mechanism;

the sample sampling mechanism comprises a sampling cylinder, a motor and a vertical fixing rod, the sampling cylinder is arranged along the longitudinal direction, the top of the sampling cylinder is detachably connected with the bottom of the vertical fixing rod, a sample releasing mechanism for removing the sample in the sampling cylinder is arranged in the sampling cylinder, the outer wall of the sampling cylinder is provided with a first spiral blade, the outer wall of the vertical fixing rod is provided with a second spiral blade, the first spiral blade and the second spiral blade are spliced together to form a spiral blade component from the bottom of the sampling cylinder to the top of the vertical fixing rod, the top of the vertical fixing rod is provided with a rectangular groove extending downwards, a motor fixing frame for fixing the motor is fixed in the rectangular groove, the motor is longitudinally arranged in the motor fixing frame, the output shaft of the motor is connected with the bottom surface of the rectangular groove through a bearing, and the motor is electrically connected with the storage battery through a controller arranged at the top of the motor fixing frame; the sample sampling mechanism further comprises a punching piece and a rotating tooth, and the punching piece and the rotating tooth can be detachably connected with the bottom of the sampling cylinder.

Preferably, the punching piece and the rotating tooth are detachably connected with the bottom of the sampling cylinder in a threaded connection mode.

Preferably, the sample release mechanism includes piston, piston connecting rod and the spacing bolt that is used for fixed piston connecting rod position, the inner wall sliding connection of piston and sampler barrel, piston connecting rod establishes in the inside of sampler barrel along the horizontal direction, and piston connecting rod's one end and the top fixed connection of piston, and piston connecting rod's the other end is worn out along the opening of vertical seting up on by the sampler barrel, spacing bolt sets up along the direction that is used for piston connecting rod perpendicularly, the jack has been seted up on the sampler barrel, set up the recess corresponding with the jack on the piston connecting rod, spacing bolt penetrates in the sampler barrel by the jack to peg graft with the recess.

Preferably, the diameter of the connecting end of the punching piece and the diameter of the connecting end of the rotating tooth are both larger than the diameter of the sampling cylinder.

Preferably, the accommodating device is an accommodating box, the accommodating box comprises a box body and a box cover, the box body is hinged to the box cover, a rechargeable storage battery is fixedly mounted on the box cover, a partition plate is arranged in the box body along the width direction of the box body, and the partition plate divides the box body into an analysis chamber for placing a sampling analysis instrument and a device chamber for storing a sample sampling mechanism.

Preferably, the vertical fixing rods comprise a first vertical fixing rod and a plurality of second vertical fixing rods, the first vertical fixing rod is located at the top of the vertical fixing rods, the first vertical connecting rod, the second vertical fixing rod and the two adjacent second vertical fixing rods are connected through threads, the first vertical fixing rod and the second vertical fixing rods are sequentially connected through threads and are used for changing the length of the vertical fixing rods, and the second vertical fixing rod and the first vertical fixing rod which are arranged at the bottommost part of the vertical fixing rod can be connected with the top threads of the sampling cylinder through threads.

Preferably, the vertical fixing rod is provided with scale marks along the vertical direction.

Preferably, a handle is arranged at the top end of the motor fixing frame.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model can collect the surface sample 1-2m below the surface layer by arranging the motor, the sampling cylinder, the punching piece, the rotary tooth and the vertical fixing rod, and the first vertical fixing rod and the second vertical fixing rod are arranged to collect the collecting depth of the sample according to the requirement, and the first vertical fixing rod and the second vertical fixing rod are connected by screw thread, thus solving the problem that the vertical fixing rod is too long and is not easy to carry, after the height of the vertical fixing rod is adjusted, the punching piece is arranged at the bottom of the sampling cylinder, the controller connected with the motor is opened, the motor rotates to drive the vertical fixing rod and the sampling cylinder to rotate together, and further drives the punching piece to rotate, the punching piece punches the surface layer above the appointed sampling height, and by arranging the first spiral blade and the second spiral blade, the part of will perforating is brought the top of the earth layer under the drive of blade at the abandonment sample that the hole inscribe was cut off, the degree of accuracy of sample has not only been guaranteed, the unobstructed of passageway in the hole has also been guaranteed simultaneously, prevent that abandonment sample from blockking up the passageway, when being close sample target depth, close the motor, wholly shift up sampling mechanism, dismantle the part of perforating, install the bottom at the sampling tube with rotatory tooth, the starter motor controller, rotatory tooth rotates under the drive of motor, be convenient for make inside the sampling tube stretches into rock stratum (soil), rotatory tooth is when rotating, can make in rock stratum (soil) embedding sampling tube, accomplish the sample, the sample can persist in the sampling tube, this kind of sampling device simple structure, small, therefore, the clothes hanger is strong in practicability, and convenient for carry.

2. The utility model discloses, through setting up piston, piston connecting rod and spacing bolt, use spacing bolt before taking a sample, fix the position of piston connecting rod, stretch into the sample sampling mechanism who installs the rotatory tooth and take a sample in the hole of target soil layer, when the rotatory tooth rotates, the sample imbeds in the sampler barrel; after the sample, more than carrying the sampling mechanism that will have rotatory tooth and drawing the earth's surface, spacing bolt under the dismantlement, with foot or hand power press the piston connecting rod, the piston connecting rod drives the piston downstream, can make the quick shifting out of the sample in the embedding sampling tube, convenient and practical.

Drawings

Fig. 1 is a schematic structural view of a containing device of the present invention;

FIG. 2 is a schematic structural diagram of the present invention in state I;

FIG. 3 is a schematic structural diagram of the present invention in state II;

FIG. 4 is a schematic cross-sectional view of the present invention at state II;

fig. 5 is a schematic structural view of the first vertical fixing rod of the present invention;

fig. 6 is a schematic structural view of the second vertical fixing rod of the present invention.

Description of reference numerals:

1. the device comprises a sample sampling mechanism, 1-1 parts of a sampling cylinder, 1-11 parts of an inner sleeve, 1-12 parts of an outer sleeve, 1-13 parts of a horizontal connecting rod, 1-2 parts of a motor, 1-3 parts of a vertical fixing rod, 2 parts of a first blade, 2-1 parts of a second blade, 3 parts of a rectangular groove, 4 parts of a motor fixing frame, 5 parts of a controller, 6 parts of a punching piece, 7 parts of a rotating tooth, 8 parts of a box body, 9 parts of a box cover, 10 parts of a partition board, 11 parts of a handle and 12 parts of a storage battery.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying fig. 1-6, but it should be understood that the scope of the present invention is not limited by the following detailed description. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

As shown in fig. 2-4, the present invention provides a portable earth surface sampling and analyzing device for mining exploration, which comprises a receiving device for storing a sampling and analyzing instrument and a sampling mechanism 1;

the sample sampling mechanism 1 comprises a sampling cylinder 1-1, a motor 1-2 and a vertical fixing rod 1-3, wherein the sampling cylinder 1-1 is longitudinally arranged, the top of the sampling cylinder 1-1 is detachably connected with the bottom of the vertical fixing rod 1-3, a sample releasing mechanism for moving out a sample in the sampling cylinder is arranged in the sampling cylinder 1-1, a first spiral blade 2 is arranged on the outer wall of the sampling cylinder 1-1, a second spiral blade 2-1 is arranged on the outer wall of the vertical fixing rod 1-3, the first spiral blade 2 and the second spiral blade 2-1 are jointly spliced into a spiral blade assembly from the bottom of the sampling cylinder 1-1 to the top of the vertical fixing rod 1-3, a rectangular groove 3 is arranged at the top of the vertical fixing rod 1-3, and a motor fixing frame 4 is fixed in the rectangular groove 3, the motor 1-2 is longitudinally arranged in a motor fixing frame 4, an output shaft of the motor 1-2 is connected with the bottom surface of the rectangular groove 3 through a bearing, and the motor 1-2 is electrically connected with the storage battery 12 through a controller 5 arranged at the top of the motor fixing frame 4; the sample sampling mechanism 1 further comprises a punching piece 6 and a rotating tooth 7, and both the punching piece 6 and the rotating tooth 7 can be detachably connected with the bottom of the sampling cylinder 1-1.

In this embodiment, in order to solve the problems that the existing drilling device is bulky and is not suitable for operation in high mountain environments, and a large amount of financial resources are needed to transport a large drilling device to a high mountain area, and simultaneously, in order to solve the problem that a small drilling device is difficult to go deep into a soil layer 1-2m away from the ground surface for sampling, therefore, when a sample is collected, a sample collector carries a containing device containing an analytical instrument and a sample sampling mechanism 1, the containing device can be a backpack or a containing box, after a specified sampling point is reached, the sample collector takes out the sample sampling mechanism in the containing device for assembly, the top end of a sampling cylinder 1-1 is in threaded connection with the bottom end of a vertical fixing rod 1-3, and a punching piece 6 is connected to the bottom of the sampling cylinder 1-1 in a threaded connection manner, wherein the connecting direction of the top end of the sampling cylinder 1-1 and the threaded connection direction of the bottom end of the vertical fixing rod 1-3 and the threaded connection direction of the perforating piece 6 and the bottom of the sampling cylinder 1-1 are consistent with the rotating direction of the motor 1-2, a control switch of the controller 5 is turned on, the motor 1-2 rotates to drive the vertical fixing rod 1-3 to be in threaded connection with the sampling cylinder 1-1 to rotate, and further drive the perforating piece 6 to rotate, the perforating piece 6 rotates to perforate the surface layer above the target sampling depth, as the outer side walls of the vertical fixing rod 1-3 and the sampling cylinder 1-1 are respectively provided with the second spiral blade 2-1 and the first spiral blade 2, and the first spiral blade 2 and the second spiral blade 2-1 are both continuously arranged, therefore, in the process that the punching piece 6 moves downwards on the surface layer, the first spiral blade 2 and the second spiral blade 2-1 both cut the hole, the cut waste materials are brought to the surface layer along the first spiral blade 2 and the second spiral blade 2-1, a channel blocking the hole is placed, after the target depth of the sampling is approached, a switch of the controller 5 is closed, a user integrally lifts the sample sampling mechanism 1 to the surface layer of the surface, then the punching piece 6 is disassembled, the rotary teeth 7 are in threaded connection with the bottom of the sampling cylinder 1-1, after the connection, the sample sampling mechanism 1 provided with the rotary teeth 7 moves to the target sampling depth along the hole, a switch of the controller 5 is started, the motor 1-2 rotates to drive the rotary teeth 7 to rotate, and the sampling cylinder 1-1 moves downwards after the rotary teeth 7 rotate, soil or (rock) is embedded into a sampling cylinder 1-1, waste samples are brought to the surface layer along a first spiral blade 2 and a second spiral blade 2-1, after sampling is finished, a sampling mechanism 1 with a rotary tooth 7 is inclined to one side, the rock (soil layer) embedded into the sampling cylinder 1-1 is broken, the sampling mechanism 1 with the rotary tooth 7 is lifted upwards to finish sampling, after sampling is finished, the sampling cylinder 1-1, a vertical fixed rod 1-3 and the rotary tooth 7 are disassembled and stored in different areas, the occupied volume is small, the sampling device is convenient and practical, after sampling is finished, collected samples are subjected to preliminary sample analysis by using a sample analysis instrument placed in a containing device, for example (moisture, hardness and the like), the period that the collected samples need to be transported back to a laboratory for detection is reduced, is convenient and quick.

The perforating piece 6 and the rotary tooth 7 are detachably connected with the bottom of the sampling tube 1-1 in many ways, such as clamping or screwing, so that the perforating piece 6 and the rotary tooth 7 are detachably connected with the bottom of the sampling tube 1-1 in a threaded manner.

In order to facilitate that a sample embedded into the sampling cylinder 1-1 can be quickly moved out of the sampling cylinder 1-1, a sample releasing mechanism is arranged in the sampling cylinder 1-1, before sampling is carried out, a user inserts a limit bolt into the bottom of a piston connecting rod 1-12 to limit downward movement of a piston 1-11, then a rotary tooth 7 is connected to the sampling cylinder 1-1 in a threaded mode to carry out sampling, after sampling is finished, the user takes out the limit bolt fixed at the bottom of the piston connecting rod 1-12, forcibly treads the piston connecting rod 1-12 penetrating out of an opening, and the piston connecting rod 1-12 drives the piston 1-11 to move downwards under the action of external force to realize sample extraction of the sample embedded into the sampling cylinder 1-1, so that the sample releasing mechanism comprises the piston 1-11, the piston connecting rod 1-12 and the piston releasing mechanism, The sampling device comprises piston connecting rods 1-12 and limiting bolts used for fixing the positions of the piston connecting rods 1-12, wherein pistons 1-11 are connected with the inner wall of a sampling cylinder 1-1 in a sliding mode, the piston connecting rods 1-12 are arranged inside the sampling cylinder 1-1 in the horizontal direction, one ends of the piston connecting rods 1-12 are fixedly connected with the top of the pistons 1-11, the other ends of the piston connecting rods 1-12 penetrate through openings formed in the sampling cylinder 1-1 in the vertical direction, the limiting bolts are arranged in the direction perpendicular to the piston connecting rods 1-12, jacks are formed in the sampling cylinder 1-1, grooves corresponding to the jacks are formed in the piston connecting rods 1-12, and the limiting bolts penetrate into the sampling cylinder 1-1 through the jacks and are connected with the grooves in an inserting mode.

In order to ensure that the channel of the hole has a large enough diameter and facilitate the sampling mechanism 1 to enter and exit the hole, the diameter of the connecting end of the perforating piece 6 and the diameter of the connecting end of the rotating tooth 7 are both larger than the diameter of the sampling cylinder 1-1.

As shown in fig. 1, the housing of the containing device may be a backpack or a containing box, however, the user sets the containing device as a containing box because a partition is provided in the containing box to place the sampling analysis instrument and the sampling mechanism 1 for sampling in different regions, and a rechargeable battery 12 is provided in the containing box to solve the problem of using the motor 1-2 in the alpine region, so the containing device is a containing box including a box body 8 and a box cover 9, the box body 8 and the box cover 9 are hinged, the rechargeable battery 12 is fixedly mounted on the box cover 9, a partition 10 is provided in the box body 8 in the width direction of the box body 8, and the partition 10 partitions the box body 8 into an analysis chamber for placing the sampling analysis instrument and a device chamber for storing the sampling mechanism 1.

As shown in fig. 5-6, for the convenience of carrying the vertical fixing rods 1-3, the vertical fixing rods 1-3 are divided into a first vertical fixing rod 1-31 and a plurality of second vertical fixing rods 1-32, which are connected by screw connection, according to different sampling depths, the first vertical fixing rod 1-31 is selectively connected with the top of the sampling tube 1-1 by screw thread, or the first vertical fixing rod 1-31 is connected with the second vertical fixing rod 1-32 by screw thread and then connected with the top of the sampling tube 1-1 by screw thread, or the first vertical fixing rod 1-31 is connected with the plurality of second vertical fixing rods 1-32 by screw thread and then connected with the top of the sampling tube 1-1 by screw thread, so that the length of the vertical fixing rod 1-3 is changed, meanwhile, the portability is increased, and the carrying is convenient, so the vertical fixing rod 1-3 comprises a first vertical fixing rod 1-31 and a plurality of second vertical fixing rods 1-32, the first vertical fixing rods 1-31 are positioned at the tops of the vertical fixing rods 1-3, the first vertical connecting rods 1-31 are connected with a second vertical fixing rod 1-32 and two adjacent second vertical fixing rods 1-32 through threads, the first vertical fixing rods 1-31 are sequentially in threaded connection with the plurality of second vertical fixing rods 1-32 to change the length of the vertical fixing rods 1-3, and the second vertical fixing rods 1-32 and the first vertical fixing rods 1-31 arranged at the bottommost parts of the vertical fixing rods 1-3 can be in threaded connection with the tops of the sampling cylinders 1-1.

In order to facilitate the observation of the sampling depth, scale marks are arranged on the vertical fixing rods 1-3 along the vertical direction.

In order to facilitate holding the sampling mechanism 1, a handle 11 is arranged at the top end of the motor fixing frame 4.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A portable earth surface sampling and analyzing device for mining exploration, which is characterized by comprising a containing device, a sampling and analyzing instrument and a sample sampling mechanism (1) are stored in the containing device;

the sample sampling mechanism (1) comprises a sampling cylinder (1-1), a motor (1-2) and a vertical fixing rod (1-3), the sampling cylinder (1-1) is longitudinally arranged, the top of the sampling cylinder (1-1) is detachably connected with the bottom of the vertical fixing rod (1-3), a sample releasing mechanism for moving out a sample in the sampling cylinder is arranged in the sampling cylinder (1-1), a first spiral blade (2) is arranged on the outer wall of the sampling cylinder (1-1), a second spiral blade (2-1) is arranged on the outer wall of the vertical fixing rod (1-3), the first spiral blade (2) and the second spiral blade (2-1) are jointly spliced into a spiral blade assembly from the bottom of the sampling cylinder (1-1) to the top of the vertical fixing rod (1-3), the top of the vertical fixing rod (1-3) is provided with a rectangular groove (3), a motor fixing frame (4) is fixed in the rectangular groove (3), the motor (1-2) is longitudinally arranged in the motor fixing frame (4), an output shaft of the motor (1-2) is connected with the bottom surface of the rectangular groove (3) through a bearing, and the motor (1-2) is electrically connected with a storage battery (12) through a controller (5) arranged at the top of the motor fixing frame (4); the sample sampling mechanism (1) further comprises a punching piece (6) and a rotating tooth (7), and the punching piece (6) and the rotating tooth (7) can be detachably connected with the bottom of the sampling cylinder (1-1).

2. A portable earth surface sampling and analysis device for mining exploration, according to claim 1, characterized in that said perforating element (6) and said rotary tooth (7) are removably connected to the bottom of the sampling cylinder (1-1) by means of a screw connection.

3. A portable earth surface sampling and analyzing device for mining exploration according to claim 1, wherein the sample releasing mechanism comprises a piston (1-11), a piston connecting rod (1-12) and a limit bolt for fixing the position of the piston connecting rod (1-12), the piston (1-11) is connected with the inner wall of the sampling cylinder (1-1) in a sliding manner, the piston connecting rod (1-12) is arranged inside the sampling cylinder (1-1) along the horizontal direction, one end of the piston connecting rod (1-12) is fixedly connected with the top of the piston (1-11), the other end of the piston connecting rod (1-12) penetrates through an opening which is arranged on the sampling cylinder (1-1) along the vertical direction, the limit bolt is arranged along the direction which is vertically used for the piston connecting rod (1-12), the sampling cylinder (1-1) is provided with an insertion hole, the piston connecting rod (1-12) is provided with a groove corresponding to the insertion hole, and the limiting bolt penetrates into the sampling cylinder (1-1) through the insertion hole and is inserted into the groove.

4. A portable earth surface sampling and analysis device for mining exploration, according to claim 1, characterized in that the diameter of the connection end of the perforating element (6) and the diameter of the connection end of the rotary tooth (7) are both larger than the diameter of the sampling cylinder (1-1).

5. A portable earth surface sampling and analyzing device for mining exploration, according to claim 1, characterized in that the containing device is a containing box, the containing box comprises a box body (8) and a box cover (9), the box body (8) and the box cover (9) are hinged, a rechargeable storage battery (12) is fixedly installed on the box cover (9), a partition (10) is arranged in the box body (8) along the width direction of the box body (8), and the partition (10) divides the box body (8) into an analysis chamber for placing a sampling and analyzing instrument and a device chamber for storing a sample sampling mechanism (1).

6. The portable earth surface sampling and analyzing device for mining exploration, as recited in claim 1, wherein the vertical fixing rod (1-3) comprises a first vertical fixing rod (1-31) and a plurality of second vertical fixing rods (1-32), the first vertical fixing rod (1-31) is located at the top of the vertical fixing rod (1-3), the first vertical connecting rod (1-31) and one second vertical fixing rod (1-32) and two adjacent second vertical fixing rods (1-32) are connected through screw threads, the first vertical fixing rod (1-31) and the plurality of second vertical fixing rods (1-32) are sequentially connected through screw threads to change the length of the vertical fixing rod (1-3), and a second vertical fixing rod (1-32) at the bottommost part of the vertical fixing rods (1-3) and the first vertical fixing rod (1-31) can be connected with the sampling rod The top of the sample cylinder (1-1) is in threaded connection.

7. A portable earth surface sampling and analyzing device for mining exploration according to claim 1, characterized in that the vertical fixing rod (1-3) is provided with scale lines along the vertical direction.

8. A portable earth surface sampling and analyzing device for mining exploration, as claimed in claim 1, wherein a handle (11) is provided at the top end of said motor fixing frame (4).

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