CN220469819U - Mineral geological sampling driller - Google Patents

Abstract

The utility model discloses a mineral geological sampling driller, which relates to the technical field of mineral equipment and comprises a supporting plate, wherein connecting holes are formed in the top of the supporting plate near four corners, clamping components are fixedly connected to the top of the supporting plate near the connecting holes, supporting rods are movably connected to the inside of the connecting holes, one ends of the clamping components are movably connected to the bottoms of the supporting rods, clamping grooves are formed in one sides of the supporting rods, the clamping components are movably connected with the clamping grooves, buffer components are inserted into the bottoms of the supporting rods, supporting components are fixedly connected to the bottoms of the buffer components, motors are movably connected to the top of the supporting plate, cross bars are fixedly connected to two sides of the motors, handles are fixedly connected to the opposite sides of the cross bars, and mounting grooves are formed in the top of the supporting plate. By adopting the structure, the utility model improves the convenience of operating the drilling depth of the drill, and improves the use stability and service life of the drill.

Description

Mineral geological sampling driller

Technical Field

The utility model belongs to the technical field of mineral equipment, and particularly relates to a mineral geological sampling drill.

Background

The geological engineering is the pilot engineering field serving national economy construction by taking geological investigation, general investigation and exploration of mineral resources, engineering problems related to geological structures and geological background of major engineering as main objects, and taking geology, geophysics and geochemistry technology, mathematical geology method, remote sensing technology, testing technology, computer technology and the like as means. When prospecting mineral geology, need carry out drilling reconnaissance to it, sample driller device among the prior art is convenient equipment and carries, when prospecting in the open air, has improved work efficiency greatly.

For example, chinese patent with publication number CN218324761U discloses a mineral geological sampling drill, through setting up first fixed establishment, second fixed establishment and stop gear, demolish the drilling machine after, can design parts such as backup pad, stand into folding structure, on realizing convenient storage and portable's basis, avoided the part to dismantle the back and appearing losing the problem, and the dismouting process need not to use external instrument can realize the dismouting.

Although this patent has reached sample driller's portable and convenient dismouting's purpose, but this patent is structural to have the problem, for example installs at the mounting hole through the drilling machine, stable installation under stop gear's effect, the stand is installed through the fixed orifices to the backup pad simultaneously, the stand is stable not to be removed under the effect of eccentric plate and bracing piece for the job stabilization of drilling machine, but the working height of drilling machine is unadjustable, has caused inconvenience to drilling job practice, and the drilling machine adopts coniform drill bit simultaneously, needs to bore earlier then reuse equipment adopts, causes the operation inconvenient.

Disclosure of Invention

In view of the problems mentioned in the background art, it is an object of the present utility model to provide a mineral geological sampling drill which solves the problems of inconvenience in drilling work caused by unadjustable working height of the drill and inconvenience in sampling work operation caused by a conical bit of the drill.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a mineral product geology sampling drill, includes the backup pad, the connecting hole has been seted up near the four corners in backup pad top, the backup pad top is close to connecting hole fixedly connected with screens subassembly, inside swing joint of connecting hole has the bracing piece, screens subassembly one end swing joint is in the bottom of bracing piece, the draw-in groove has been seted up to bracing piece one side, screens subassembly and draw-in groove swing joint, peg graft there is buffer assembly bottom the bracing piece, buffer assembly bottom fixedly connected with supporting component, backup pad top swing joint has the motor, motor both sides fixedly connected with horizontal pole, horizontal pole opposite side fixedly connected with handle, the mounting groove has been seted up at the backup pad top, the drive assembly is installed to the motor tip, drive assembly rotates to be connected inside the mounting hole, drive assembly one end fixedly connected with rotation post, rotation post outer wall fixedly connected with helical blade, the sampling groove has been seted up to rotation post bottom, inside grafting of sampling tube.

As the preferable technical scheme, clamping component includes fixed block, spout and slip subassembly, fixed block fixed connection is at the top of backup pad, the spout is seted up in one side of fixed block, slip subassembly sliding connection is inside the spout, slip subassembly one end fixed connection is inboard at the spout, slip subassembly one end and support column swing joint.

As the preferable technical scheme, the sliding component comprises a first spring, a sliding block and a clamping block, one end of the first spring is fixedly connected to one side of the sliding groove, the other end of the first spring is fixedly connected to one side of the sliding block, the sliding block is slidably connected to the inside of the sliding groove, the clamping block is fixedly connected to one side of the sliding block, and the clamping block is movably connected with the supporting column.

As the preferred technical scheme, buffer unit includes fixed column, circular slot and second spring, fixed column one end fixed connection is at the top of supporting component, the top at the fixed column is seted up to the circular slot, second spring one end fixed connection is in the bottom of circular slot, the inside at the circular slot is pegged graft to the one end of bracing piece, second spring and bracing piece swing joint.

As the preferred technical scheme, the supporting component includes support frame, supporting groove and conical block, support frame fixed connection is in the bottom of fixed column, the bottom at the support frame is seted up to the supporting groove, conical block one end is pegged graft in the inside of supporting groove.

As the preferable technical scheme, the transmission assembly comprises a rotating shaft, a limiting block and a limiting assembly, wherein the rotating shaft is arranged at the end part of the motor, the limiting block is fixedly connected to two sides of the rotating shaft, and the rotating shaft and the limiting block are inserted into the limiting assembly.

As the preferred technical scheme, spacing subassembly includes drive post, drive slot and spacing groove, the drive slot is seted up at the top of drive post, the drive slot runs through the drive post, the limit slot is seted up in driven both sides, the drive post passes through drive slot one end fixed connection at the pivot outer wall, the drive post passes through the other end grafting of drive slot at the one end outer wall of rotation post, the stopper is pegged graft in the inside of limit slot.

In summary, the utility model has the following advantages:

first, press the handle for the backup pad produces the slip through connecting hole and bracing piece, make the motor drive rotation post and helical blade deeply bore to the underground, reached the purpose that the drilling ware stably worked and can go deep underground, through screens subassembly and support swing joint, when the fixture block is located the bracing piece top, make the backup pad can stabilize at the bracing piece top, when reaching the established degree of depth, the fixture block just peg graft in the draw-in groove of support, make the backup pad just can stably hover, the purpose that the drilling ware is convenient and practical has been reached, through the effect of supporting subassembly, at support frame and taper piece, the drilling ware can be stable stand the ground that waits to take a sample, this structure has improved the convenience of operating the drilling ware drilling depth, stability that the drilling ware was used has been improved simultaneously;

second, thereby drive assembly through the motor and thereby make the rotation post drive rotatory blade downwards drilling, the sampling tube has been inserted in the sampling slot that the rotation post was seted up, make the drilling ware can be convenient sample in the drilling, the purpose that has reached promotion sampling operation efficiency, drive assembly through the motor, under the effect of spacing groove and stopper, the transmission efficiency of motor promotes, the purpose that has reached promotion sampling work efficiency, through buffer unit, drive backup pad and bracing piece vibration through the vibration drive of motor during operation, under the effect of second spring, the vibration is buffered, the effect of promoting the drilling ware buffer capacity has been reached, the life of drilling ware has been promoted simultaneously.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic view of the bottom construction of the present utility model;

FIG. 3 is a schematic view of the transmission assembly of the present utility model;

FIG. 4 is a schematic view of a cushioning assembly according to the present utility model;

FIG. 5 is a schematic view of the structure of a sampling tube according to the present utility model.

Reference numerals: 1. the device comprises a supporting plate, 11, a mounting hole, 12, a connecting hole, 2, a clamping component, 21, a fixed block, 22, a sliding groove, 23, a sliding component, 231, a first spring, 232, a sliding block, 233, a clamping block, 3, a supporting rod, 31, a clamping groove, 4, a buffer component, 41, a fixed column, 42, a circular groove, 43, a second spring, 5, a supporting component, 51, a supporting frame, 52, a supporting groove, 53, a conical block, 6, a motor, 7, a cross rod, 71, a handle, 8, a transmission component, 81, a rotating shaft, 82, a limiting block, 83, a limiting component, 831, a transmission column, 832, a transmission groove, 833, a limiting groove, 9, a rotating column, 91, a sampling groove, 92, a spiral blade, 93 and a sampling tube.

Detailed Description

Example 1

Referring to fig. 1 to 5, the mineral geological sampling drill according to this embodiment includes a support plate 1, a connecting hole 12 is formed near four corners at the top of the support plate 1, a clamping component 2 is fixedly connected to the top of the support plate 1 near the connecting hole 12, a support rod 3 is movably connected to the inside of the connecting hole 12, one end of the clamping component 2 is movably connected to the bottom of the support rod 3, a clamping groove 31 is formed in one side of the support rod 3, the clamping component 2 is movably connected with the clamping groove 31, a buffer component 4 is inserted into the bottom of the support rod 3, a support component 5 is fixedly connected to the bottom of the buffer component 4, a motor 6 is movably connected to the top of the support plate 1, cross bars 7 are fixedly connected to two sides of the motor 6, a handle 71 is fixedly connected to the opposite sides of the cross bars 7, a mounting groove is formed in the top of the support plate 1, a transmission component 8 is mounted at the end of the motor 6, the transmission component 8 is rotatably connected to the inside of the mounting hole 11, one end of the transmission component 8 is fixedly connected with a rotary column 9, a screw blade 92 is fixedly connected to the outer wall of the rotary column 9, a sampling tube 91 is fixedly connected to the bottom of the rotary column 9, a sampling tube 91 is inserted into the sampling groove 91;

through the screens subassembly 2 at the top of sliding support board 1 for backup pad 1 and bracing piece 3 normally slide under the effect of connecting hole 12, through motor 6 both sides fixed connection's horizontal pole 7, press fixed connection's handle 71 between two horizontal poles 7, make motor 6 progressively work to underground, when drilling reaches the established degree of depth, the draw-in groove 31 of bracing piece 3 one side is just pegged graft to the one end of screens subassembly 2, the purpose that the driller can downwards stable drilling and can stably hover has been reached, the convenience and the practicality of driller operation have been improved, drive assembly 8 through motor 6, thereby make rotation post 9 drive screw blade downwards drilling, the inside grafting of sampling groove 91 that rotation post 9 was seted up has sampling tube 93, both can stop work after reaching the established degree of depth, then dismantle the drilling, take out sampling tube 93, obtain the sample, the practicality of driller and the convenience of sampling have been improved to this structure.

Example 2

Referring to fig. 1, the clamping component 2 includes a fixed block 21, a chute 22 and a sliding component 23, wherein the fixed block 21 is fixedly connected to the top of the supporting plate 1, the chute 22 is arranged on one side of the fixed block 21, the sliding component 23 is slidably connected inside the chute 22, one end of the sliding component 23 is fixedly connected to the inner side of the chute 22, and one end of the sliding component 23 is movably connected with the supporting column; the sliding assembly 23 slides in the sliding groove 22 formed in the fixed block 21, one end of the sliding assembly 23 is fixedly connected to one side of the sliding groove 22, and one end of the assembly is movably connected with the supporting rod 3 and the clamping groove 31, so that the purpose that the supporting rod 3 can hover is achieved.

Referring to fig. 1, the sliding assembly 23 includes a first spring 231, a slider 232, and a clamping block 233, wherein one end of the first spring 231 is fixedly connected to one side of the chute 22, the other end of the first spring 231 is fixedly connected to one side of the slider 232, the slider 232 is slidably connected to the inside of the chute 22, the clamping block 233 is fixedly connected to one side of the slider 232, and the clamping block 233 is movably connected with the support column; through fixture block 233 and bracing piece 3 and draw-in groove 31 swing joint, support and remove for fixture block 233 is under the effect of slider 232 and first spring 231, convenient the removal draw-in groove 31, removes slider 232, then fixture block 233 shifts out draw-in groove 31, has reached the convenient mesh of pegging graft of fixture block 233 and draw-in groove 31.

Referring to fig. 4, the buffer assembly 4 includes a fixed column 41, a circular groove 42, and a second spring 43, wherein one end of the fixed column 41 is fixedly connected to the top of the support assembly 5, the circular groove 42 is formed at the top of the fixed column 41, one end of the second spring 43 is fixedly connected to the bottom of the circular groove 42, one end of the support rod 3 is inserted into the circular groove 42, and the second spring 43 is movably connected with the support rod 3; one end of the supporting rod 3 is inserted into a round groove 42 formed in the top of the fixed column 41, and under the action of a second spring 43, the vibration of the motor 6 is buffered by the second spring 43, so that the purpose of improving the buffering capacity of the drill is achieved.

Example 3

Referring to fig. 2, the supporting assembly 5 includes a supporting frame 51, a supporting groove 52 and a conical block 53, wherein the supporting frame 51 is fixedly connected to the bottom of the fixed column 41, the supporting groove 52 is formed at the bottom of the supporting frame 51, and one end of the conical block 53 is inserted into the supporting groove 52; the conical block 53 is inserted into the supporting groove 52 at the bottom of the supporting frame 51, and one end of the conical block 53 contacts the ground, so that the drill can stably stand on the ground, and the purpose of stable work of the drill is achieved.

Referring to fig. 3, the transmission assembly 8 includes a rotating shaft 81, a limiting block 82 and a limiting assembly 83, the rotating shaft 81 is mounted at the end of the motor 6, the limiting block 82 is fixedly connected to two sides of the rotating shaft 81, and the rotating shaft 81 and the limiting block 82 are both inserted into the limiting assembly 83; one end of the rotating shaft 81 is arranged at the end part of the motor 6, the other end of the rotating shaft is inserted into the limiting assembly 83, and the transmission efficiency of the motor 6 is improved under the action of the limiting assembly 83.

Referring to fig. 3, the limiting component 83 includes a driving post 831, a driving groove 832 and a limiting groove 833, the driving groove 832 is formed at the top of the driving post 831, the driving groove 832 penetrates through the driving post 831, the limiting groove 833 is formed at two sides of the driving, one end of the driving post 831 through the driving groove 832 is inserted into the outer wall of the rotating shaft 81, the driving post 831 is fixedly connected to the outer wall of one end of the rotating post 9 through the other end of the driving groove 832, and the limiting block 82 is inserted into the limiting groove 833; through the transmission groove 832 of rotation post 9 one end fixed connection at transmission post 831 for motor 6 drives transmission post 831 and rotates simultaneously rotation post 9 and helical blade 92 follow-up rotation, has reached the purpose of the stable drilling of perforator.

The use principle and the advantages are that: by stably standing the supporting component 5 on the ground, one end of a conical block 53 in a supporting groove 52 at the bottom of the supporting frame 51 contacts the ground, so that a drilled hole can be stably standing on the ground, by moving a sliding block 232 in the sliding component 23, the sliding block 232 slides in a sliding groove 22 formed in a fixed block 21 of the clamping component 2, the sliding block 232 moves to drive a first spring 231 to compress, meanwhile, a clamping block 233 moves out of the top of the supporting rod 3, the supporting plate 1 slides with the supporting rod 3 through a connecting hole 12, the purpose of stably downwards drilling the drilled hole is achieved, the supporting rod 3 is inserted into the buffer component 4, vibration of the motor 6 is buffered under the action of a second spring 43 in a circular groove 42 formed in the fixed column 41, the effect of improving the buffer capacity of the drilled hole is achieved, the motor 6 drives the transmission component 8 to rotate, the tip at motor 6 is installed to pivot 81 one end, the other end of pivot 81 is pegged graft inside drive slot 832 of drive post 831, stopper 82 is pegged graft inside the spacing groove 833 of spacing subassembly 83, the purpose of improving motor 6 transmission efficiency has been reached, fix the bottom at drive post 831 through rotating post 9, rotate post 9 and helical blade 92 and follow drive subassembly 8 and rotate the drilling downwards under drive subassembly 8's effect, through motor 6 both sides fixed connection's horizontal pole 7, with horizontal pole 7 fixed connection's handle 71 push down, when reaching the established degree of depth, fixture block 233 of screens subassembly 2 just pegging graft in the draw-in groove 31 of bracing piece 3, backup pad 1 hovers, then demolish equipment, take out sampling tube 93 from the sampling slot 91 of rotating post 9, then accomplish the sample work, this structure has improved the practicality of perforator and the convenience of taking a sample.

Claims (7)

1. Mineral geological sampling drill, comprising a support plate (1), characterized in that: connecting holes (12) are formed in the tops of the supporting plates (1) close to four corners, clamping components (2) are fixedly connected to the tops of the supporting plates (1) close to the connecting holes (12), supporting rods (3) are movably connected to the tops of the connecting holes (12), one ends of the clamping components (2) are movably connected to the bottoms of the supporting rods (3), clamping grooves (31) are formed in one sides of the supporting rods (3), the clamping components (2) are movably connected with the clamping grooves (31), buffer components (4) are inserted into the bottoms of the supporting rods (3), supporting components (5) are fixedly connected to the bottoms of the buffer components (4), motors (6) are fixedly connected to cross rods (7) on two sides of the motors, handles (71) are fixedly connected to the opposite sides of the cross rods (7), mounting grooves are formed in the tops of the supporting plates (1), transmission components (8) are rotatably connected to the interiors of the mounting holes (11), one ends of the transmission components (8) are fixedly connected with driving columns (9), screw columns (9) are rotatably arranged on the outer walls of the screw columns (9), a sampling tube (93) is inserted into the sampling groove (91).

2. A mineral geological sampling drill according to claim 1, characterized in that: the clamping assembly (2) comprises a fixed block (21), a sliding groove (22) and a sliding assembly (23), wherein the fixed block (21) is fixedly connected to the top of the supporting plate (1), the sliding groove (22) is formed in one side of the fixed block (21), the sliding assembly (23) is slidably connected to the inside of the sliding groove (22), one end of the sliding assembly (23) is fixedly connected to the inner side of the sliding groove (22), and one end of the sliding assembly (23) is movably connected with the supporting column.

3. A mineral geological sampling drill according to claim 2, characterized in that: the sliding assembly (23) comprises a first spring (231), a sliding block (232) and a clamping block (233), one end of the first spring (231) is fixedly connected to one side of the sliding groove (22), the other end of the first spring (231) is fixedly connected to one side of the sliding block (232), the sliding block (232) is slidably connected to the inside of the sliding groove (22), the clamping block (233) is fixedly connected to one side of the sliding block (232), and the clamping block (233) is movably connected with the supporting column.

4. A mineral geological sampling drill according to claim 1, characterized in that: the buffer assembly (4) comprises a fixed column (41), a round groove (42) and a second spring (43), one end of the fixed column (41) is fixedly connected to the top of the support assembly (5), the round groove (42) is formed in the top of the fixed column (41), one end of the second spring (43) is fixedly connected to the bottom of the round groove (42), one end of the support rod (3) is inserted into the round groove (42), and the second spring (43) is movably connected with the support rod (3).

5. A mineral geological sampling drill according to claim 4, characterized in that: the support assembly (5) comprises a support frame (51), a support groove (52) and a conical block (53), wherein the support frame (51) is fixedly connected to the bottom of the fixed column (41), the support groove (52) is formed in the bottom of the support frame (51), and one end of the conical block (53) is inserted into the support groove (52).

6. A mineral geological sampling drill according to claim 1, characterized in that: the transmission assembly (8) comprises a rotating shaft (81), a limiting block (82) and a limiting assembly (83), wherein the rotating shaft (81) is arranged at the end part of the motor (6), the limiting block (82) is fixedly connected to two sides of the rotating shaft (81), and the rotating shaft (81) and the limiting block (82) are inserted into the limiting assembly (83).

7. A mineral geological sampling drill according to claim 6, characterized in that: spacing subassembly (83) include drive post (831), drive groove (832) and spacing groove (833), the top at drive post (831) is seted up in drive groove (832), drive groove (832) runs through drive post (831), limit groove (833) are seted up in driven both sides, drive post (831) are pegged graft in pivot (81) outer wall through drive groove (832) one end, drive post (831) are at the one end outer wall of rotating post (9) through the other end fixed connection of drive groove (832), stopper (82) are pegged graft in the inside of limit groove (833).