CN216484042U

CN216484042U - Portable sampling device for geological mineral exploration

Info

Publication number: CN216484042U
Application number: CN202122523472.3U
Authority: CN
Inventors: 王一点; 魏刚; 马有为
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-20
Filing date: 2021-10-20
Publication date: 2022-05-10
Anticipated expiration: 2031-10-20

Abstract

The utility model discloses a portable sampling device for geological mineral exploration, which comprises: the drill bit, and the drill bit can bore the ore and get, drill bit one end threaded connection has the sampler barrel, and the sampler barrel can take a sample to the ore, sampler barrel one end is provided with the connecting rod, and the connecting rod can increase the working depth of sampler barrel. This sampling device is used in geological mineral exploration of portable, can drive breach and locating piece production dislocation when the screw thread ring thread is gliding, make things convenient for and can carry out fast assembly between connecting rod and the sampler barrel, the movable block can drive the propelling movement frame when sliding and remove, can promote the inside mineral products sample of sampler barrel when promoting the frame and removing, the inside mineral products sample can be taken out fast after making things convenient for the sampler barrel to take out, the steel ball can reset through spring self elasticity when the block groove slides to the steel ball side, can carry out the block through the block groove after the steel ball resets and connect, it can fix when not using to make things convenient for the pushing frame.

Description

Portable sampling device for geological mineral exploration

Technical Field

The utility model relates to the technical field of geological mineral exploration equipment, in particular to a portable sampling device for geological mineral exploration.

Background

The geological exploration is an investigation and research activity of surveying and exploring geology by various means and methods, determining a proper bearing stratum, determining a foundation type according to the foundation bearing capacity of the bearing stratum and calculating basic parameters. The sampling device for the mineral exploration has certain defects in use, such as discovery of industrially significant mineral deposits in mineral general exploration, provision of mineral reserves and geological data required by mine construction design for finding out the quality and quantity of the mineral products and technical conditions of mining and utilization, and investigation and research on geological conditions such as rocks, stratums, structures, mineral products, hydrology, landforms and the like in a certain area;

the utility model provides a portable sampling device for geological mineral exploration, which comprises a sampling tube, a connecting plate, a sleeve, a driving motor, a fixed hoop, a handle, a wheel frame, an auxiliary guide wheel, an anti-skidding sleeve, an adjustable sampling frame structure, a portable moving frame structure and a rotary convex tooth, wherein the connecting plate is welded on the upper part of the inner side of the sampling tube; the sleeve is arranged on the middle upper side of the sampling tube and welded at the upper end of the connecting plate; the driving motor is arranged on the upper part of the sampling tube, and an output shaft on the lower side of the sampling tube is in key connection with the connecting plate. The arrangement of the handle is favorable for carrying the device; the slot is formed in the lower portion of the right side of the rectangular insertion frame, so that drilling and taking of deeper parts are facilitated, and further extraction of samples of the deeper parts is facilitated; the arrangement of the silica gel protective sleeve on the lantern ring is beneficial to conveniently playing a role of protecting the rotating convex teeth when in use, thereby preventing the rotating convex teeth from damaging a user when in transportation;

this prior art solution also presents the following problems when in use:

1. the assembly is inconvenient;

2. the soil is inconvenient to sample;

3. the pushing frame is inconvenient to fix;

improvements are needed to address the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides the following technical scheme: the utility model aims to provide a portable sampling device for geological mineral exploration, which solves the problems that the portable sampling device for geological mineral exploration in the market has many defects, is inconvenient to assemble, is inconvenient to sample soil and is inconvenient to fix a pushing frame in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: a portable sampling device for geological mineral exploration, comprising:

the sampling device comprises a drill bit, a sampling cylinder and a connecting rod, wherein the drill bit can drill ores, one end of the drill bit is in threaded connection with the sampling cylinder, the sampling cylinder can sample the ores, and the connecting rod can increase the working depth of the sampling cylinder;

the fixed block is fixedly connected to one end of the connecting rod, a positioning block is connected to the side face of the fixed block, a connecting frame is connected to the end of the sampling cylinder, and a connecting cylinder is connected to the side face of the connecting frame;

the fixing groove is formed in the end portion of the connecting cylinder, a threaded ring is connected to the side face of the connecting cylinder, and a notch is formed in the side face of the threaded ring and the side face of the fixing groove.

Preferably, fixed block and locating piece structure as an organic whole, and be sliding connection between fixed block and the fixed slot to be sliding connection between locating piece and the breach, the pulling connecting rod can drive fixed block, locating piece and fixed slot, breach and dock, promotes the connecting rod and can make fixed block, locating piece and fixed slot, breach slide when fixed block, locating piece and fixed slot, breach dock.

Preferably, the connecting frame is further provided with a collection groove, a moving groove, a pushing frame, a moving block and a pushing block;

the collection groove is formed at the bottom of the connecting frame, a moving groove is formed in the side face, close to the connecting frame, of the sampling tube, and a pushing frame is embedded in the collection groove;

the moving block is connected to the side face of the pushing frame, the pushing frame can push mineral samples in the sampling barrel when moving, and the side face of the moving block is connected with the pushing block.

Preferably, the pushing frame, the moving block and the pushing block are of an integrated structure, the moving block is connected with the moving groove in a sliding mode, the pushing block can be pulled to drive the moving block to move, the moving block can slide through the moving groove when moving, and the pushing frame can be driven to move when sliding.

Preferably, a clamping groove is formed in the side surface of the moving block, and an extrusion groove, a spring and steel balls are further formed in the moving groove;

the extrusion groove is formed in the side face of the moving groove, the moving block can slide through the moving groove when moving, the moving block can extrude the steel balls when the moving block slides to the side face of the steel balls, and a spring is connected inside the extrusion groove;

and the steel ball is connected to the end part of the spring.

Preferably, a telescopic structure is formed between the steel ball and the extrusion groove through the steel ball, a clamping structure is formed between the steel ball and the clamping groove, the steel ball can be extruded by the spring when being extruded, the moving block can drive the clamping groove to slide to the side face of the steel ball when the steel ball is extruded to the inside of the extrusion groove, the steel ball can reset through the self elasticity of the spring when the clamping groove slides to the side face of the steel ball, and the steel ball can be clamped and connected through the clamping groove after being reset.

Compared with the prior art, the utility model has the beneficial effects that: this sampling device is used in geological mineral exploration of portable, can drive breach and locating piece production dislocation when the screw thread ring thread is gliding, make things convenient for and can carry out fast assembly between connecting rod and the sampler barrel, the movable block can drive the propelling movement frame when sliding and remove, can promote the inside mineral products sample of sampler barrel when promoting the frame and removing, the inside mineral products sample can be taken out fast after making things convenient for the sampler barrel to take out, the steel ball can reset through spring self elasticity when the block groove slides to the steel ball side, can carry out the block through the block groove after the steel ball resets and connect, it can fix when not using to make things convenient for the pushing frame.

1. The connecting rod can be pulled to drive the fixing block, the positioning block and the fixing groove and the notch to be butted, when the fixing block, the positioning block and the fixing groove and the notch are butted, the connecting rod is pushed to enable the fixing block, the positioning block and the fixing groove and the notch to slide, when the fixing block and the positioning block slide into the fixing groove and the notch, the threaded ring can be rotated to perform threaded sliding through the connecting cylinder, when the threaded ring slides to the side surface of the positioning block, the threaded ring can extrude and fix the positioning block, the notch and the positioning block can be driven to be dislocated while the threaded ring slides in a threaded manner, and rapid assembly can be conveniently performed between the connecting rod and the sampling cylinder;

2. the pushing block can be pulled to drive the moving block to move, the moving block can slide through the moving groove when moving, the moving block can drive the pushing frame to move when sliding, the mineral sample in the sampling cylinder can be pushed when the pushing frame moves, and the mineral sample in the sampling cylinder can be conveniently and quickly taken out after sampling;

3. the pulling promotes the piece and can drive the movable block and remove, can slide through the shifting chute when the movable block removes, the movable block can extrude the steel ball when the movable block slides to the steel ball side, the steel ball can extrude the spring when receiving the extrusion, the movable block can drive the side that the block groove slided to the steel ball when the steel ball extrudeed extrusion inslot portion, the steel ball can reset through spring self elasticity when the block groove slides to the steel ball side, can carry out the block through the block groove after the steel ball resets and connect, make things convenient for the pushing frame to fix when not using.

Drawings

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

FIG. 2 is a schematic cross-sectional front view of the present invention;

FIG. 3 is a schematic side sectional view of the connector of the present invention;

FIG. 4 is a schematic diagram of a cross-sectional side view of a sampling tube according to the present invention;

FIG. 5 is an enlarged view of part A of the present invention.

In the figure: 1. a drill bit; 2. a sampling tube; 3. a connecting rod; 4. a fixed block; 5. positioning blocks; 6. a connecting frame; 7. a connecting cylinder; 8. fixing grooves; 9. a threaded ring; 10. a notch; 11. a collection groove; 12. a moving groove; 13. a pushing frame; 14. a moving block; 15. a pushing block; 16. a clamping groove; 17. extruding a groove; 18. a spring; 19. and (5) steel balls.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a portable sampling device for geological mineral exploration, comprising:

the ore sampler comprises a drill bit 1, wherein the drill bit 1 can drill ore, one end of the drill bit 1 is in threaded connection with a sampling cylinder 2, the sampling cylinder 2 can sample the ore, one end of the sampling cylinder 2 is provided with a connecting rod 3, and the connecting rod 3 can increase the working depth of the sampling cylinder 2;

fixed block 4, fixed connection is in the one end of connecting

rod

3, and 4 side connections of fixed block have locating piece 5, and the end connection of sampling cylinder 2 has

link

6, and 6 side connections of link 7, fixed slot 8 set up the tip at

link

7, and 7 side connections of link 9 have screw thread ring 9, and screw thread ring 9 is seted up jaggedly 10 with the side of fixed slot 8.

Fixed block 4 and locating piece 5 structure as an organic whole, and be sliding connection between fixed block 4 and the fixed slot 8 to be sliding connection between locating piece 5 and the breach 10.

Referring to fig. 2, 3 can know, pulling connecting rod 3 can drive fixed block 4, locating piece 5 and fixed slot 8, breach 10 docks, when fixed block 4, locating piece 5 and fixed slot 8, promote connecting rod 3 and can make fixed block 4 when breach 10 docks, locating piece 5 and fixed slot 8, breach 10 slides, when fixed block 4 and locating piece 5 slide to fixed slot 8 and breach 10 inside, it can carry out the screw thread slip through connecting cylinder 7 to rotate threaded ring 9, threaded ring 9 can extrude locating piece 5 fixed when threaded ring 9 screw thread slip 5 sides of locating piece, can drive breach 10 and locating piece 5 production dislocation when threaded ring 9 screw thread slip.

The connecting frame 6 is further provided with a collection groove 11, a moving groove 12, a pushing frame 13, a moving block 14 and a pushing block 15, the collection groove 11 is formed in the bottom of the connecting frame 6, the moving groove 12 is formed in the side face, close to the connecting frame 6, of the sampling barrel 2, the pushing frame 13 is embedded in the collection groove 11, the moving block 14 is connected to the side face of the pushing frame 13, and the pushing block 15 is connected to the side face of the moving block 14.

The pushing frame 13, the moving block 14 and the pushing block 15 are integrated, and the moving block 14 is connected with the moving groove 12 in a sliding manner.

Referring to fig. 2, 4 and 5, it can be known that the moving block 14 can be driven to move by pulling the pushing block 15, the moving block 14 can slide through the moving groove 12 when moving, the pushing frame 13 can be driven to move by the moving block 14 when sliding, and the mineral sample inside the sampling tube 2 can be pushed by the pushing frame 13 when moving.

The side of the moving block 14 is provided with an engaging groove 16, the moving groove 12 is further provided with a squeezing groove 17, a spring 18 and a steel ball 19, the squeezing groove 17 is arranged on the side of the moving groove 12, the spring 18 is connected inside the squeezing groove 17, and the steel ball 19 is connected at the end of the spring 18.

The steel ball 19 and the extrusion groove 17 form a telescopic structure through the steel ball 19, and the steel ball 19 and the clamping groove 16 form a clamping structure.

Referring to fig. 4 and 5, it can be known that the moving block 14 can be driven to move by pulling the pushing block 15, the moving block 14 can slide through the moving groove 12 when moving, the moving block 14 can extrude the steel ball 19 when the moving block 14 slides to the side of the steel ball 19, the steel ball 19 can be extruded by the spring 18 when being extruded, the moving block 14 can drive the clamping groove 16 to slide to the side of the steel ball 19 when the steel ball 19 is extruded inside the extruding groove 17, the steel ball 19 can be reset through the self-elastic force of the spring 18 when the clamping groove 16 slides to the side of the steel ball 19, and the steel ball 19 can be clamped and connected through the clamping groove 16 after being reset.

The working principle is as follows: when the portable sampling device for geological mineral exploration is used, the portable sampling device for geological mineral exploration needs to be simply known, when the portable sampling device is used, the connecting rod 3 can be pulled to drive the fixing block 4, the positioning block 5, the fixing groove 8 and the notch 10 to be in butt joint, when the fixing block 4, the positioning block 5, the fixing groove 8 and the notch 10 are in butt joint, the connecting rod 3 can be pushed to enable the fixing block 4, the positioning block 5, the fixing groove 8 and the notch 10 to slide, when the fixing block 4 and the positioning block 5 slide into the fixing groove 8 and the notch 10, the threaded ring 9 can be rotated to perform threaded sliding through the connecting cylinder 7, when the threaded ring 9 slides to the side surface of the positioning block 5, the threaded ring 9 can extrude and fix the positioning block 5, the notch 10 and the positioning block 5 can be driven to generate dislocation while the threaded sliding, and the connecting rod 3 and the sampling cylinder 2 can be rapidly assembled, those not described in detail in this specification are within the skill of the art.

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 various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims

1. A portable sampling device for geological mineral exploration, comprising:

the device comprises a drill bit (1), wherein one end of the drill bit (1) is in threaded connection with a sampling cylinder (2), and one end of the sampling cylinder (2) is provided with a connecting rod (3);

the sampling device comprises a fixed block (4) fixedly connected to one end of a connecting rod (3), a positioning block (5) is connected to the side face of the fixed block (4), a connecting frame (6) is connected to the end portion of the sampling cylinder (2), and a connecting cylinder (7) is connected to the side face of the connecting frame (6);

the fixing groove (8) is formed in the end portion of the connecting cylinder (7), a threaded ring (9) is connected to the side face of the connecting cylinder (7), and a notch (10) is formed in the side faces of the threaded ring (9) and the fixing groove (8).

2. A portable sampling device for geological mineral exploration, as defined in claim 1, wherein: the fixing block (4) and the positioning block (5) are of an integrated structure, the fixing block (4) is in sliding connection with the fixing groove (8), and the positioning block (5) is in sliding connection with the notch (10).

3. A portable sampling device for geological mineral exploration, as defined in claim 1, wherein: the connecting frame (6) is also provided with a collection groove (11), a moving groove (12), a pushing frame (13), a moving block (14) and a pushing block (15);

the collection groove (11) is formed in the bottom of the connecting frame (6), a moving groove (12) is formed in the side face, close to the connecting frame (6), of the sampling tube (2), and a pushing frame (13) is embedded in the collection groove (11);

the moving block (14) is connected to the side face of the pushing frame (13), and the side face of the moving block (14) is connected with a pushing block (15).

4. A portable sampling device for geological mineral exploration, as defined in claim 3, wherein: the pushing frame (13), the moving block (14) and the pushing block (15) are of an integral structure, and the moving block (14) is in sliding connection with the moving groove (12).

5. A portable sampling device for geological mineral exploration, as defined in claim 3, wherein: a clamping groove (16) is formed in the side surface of the moving block (14), and a squeezing groove (17), a spring (18) and a steel ball (19) are further formed in the moving groove (12);

the extrusion groove (17) is formed in the side face of the moving groove (12), and a spring (18) is connected inside the extrusion groove (17);

and the steel ball (19) is connected to the end part of the spring (18).

6. A portable sampling device for geological mineral exploration, as defined in claim 5, wherein: a telescopic structure is formed between the steel ball (19) and the extrusion groove (17) through the steel ball (19), and a clamping structure is formed between the steel ball (19) and the clamping groove (16).