CN217380531U - Novel geological survey probing device - Google Patents

Abstract

A novel geological exploration drilling device relates to the technical field of geological exploration; the two guide rods are fixedly connected to the part, located on the outer side of the electric telescopic rod, of the top wall of the base; the guide plate is movably sleeved on the guide rod; the upper end and the lower end of the driven shaft are respectively and rotatably connected to the bottom wall of the guide plate and the top wall of the motor box through bearings; the driven gear is fixedly sleeved on the driven shaft; the second drilling motors are fixedly connected below the distance adjusting mechanisms; can enlarge the scope of probing, can carry out the probing sample in a flexible way in the scope, reduce drilling rig's dismouting, improve work efficiency.

Description

Novel geological survey probing device

Technical Field

The utility model relates to a geological survey technical field, concretely relates to novel geological survey probing device.

Background

The geological exploration can be understood as geological work in a broad sense, and is the investigation and research work on geological conditions such as rocks, stratum structures, mineral products, underground water, landforms and the like in a certain area by applying geological exploration methods such as mapping, geophysical exploration, geochemical prospecting, drilling, pit exploration, sampling test, geological remote sensing and the like according to the needs of economic construction, national defense construction and scientific and technical development.

Geological survey drilling equipment among the prior art, the region of often probing is fixed, leads to when changing the region of probing, need dismantle again and install drilling equipment, complex operation, work efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a reasonable in design's neotype geological survey probing device, can enlarge the scope of probing, can carry out the probing sample in a flexible way in the scope, reduce probing device's dismouting, improve work efficiency.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the electric telescopic rod comprises an electric telescopic rod, a base, a motor box, a supporting plate and an electric cabinet; the base is arranged in a bilateral symmetry manner, the top walls of the base are fixedly connected with electric telescopic rods, and the upper ends of the electric telescopic rods are fixedly connected to the bottom walls of the supporting plates; semicircular through holes are symmetrically formed in the left and right parts of the supporting plate, which are positioned on the inner side of the electric telescopic rod; a motor box is fixedly connected to the part, located between the semicircular through holes, of the top wall of the supporting plate, and a box door is movably arranged in the front side opening of the motor box through a hinge; the front side wall of the left base is fixedly connected with an electric cabinet; the electric telescopic rod is connected with the electric cabinet through a lead; it also includes:

the two guide rods are fixedly connected to the part, located on the outer side of the electric telescopic rod, of the top wall of the base;

the guide plate is movably sleeved on the guide rod;

the upper end and the lower end of the driven shaft are respectively and rotatably connected to the bottom wall of the guide plate and the top wall of the motor box through bearings;

the driven gear is fixedly sleeved on the driven shaft;

the two distance adjusting mechanisms are symmetrically arranged on the bottom wall of the driven gear in a left-right mode;

two drilling motors are arranged and are fixedly connected below the distance adjusting mechanism; the second drilling motor is connected with the electric cabinet through a wire;

the drilling motor is fixedly connected to the top wall of the supporting plate and positioned in the motor box, and the output end of the drilling motor penetrates through the supporting plate and then extends below the supporting plate; the first drilling motor is connected with the electric cabinet through a wire;

the drilling mechanisms are three, the middle drilling mechanism is fixedly connected with the output end of the first drilling motor, and the left and right drilling mechanisms are fixedly connected with the output end of the second drilling motor;

the rotating motor is fixedly connected to the part, located on the left side of the semicircular through hole, of the top wall of the supporting plate; the rotating motor is connected with the electric cabinet through a wire;

the driving shaft is fixedly connected to the output end of the rotating motor, and the upper end of the driving shaft is rotatably arranged in the bottom wall of the guide plate through a bearing;

the driving gear is sleeved and fixed on the driving shaft and is meshed with the driven gear.

Preferably, the distance adjustment mechanism includes:

the slide rails are arranged on the bottom wall of the driven gear in a bilateral symmetry manner;

the sliding block is arranged on the sliding rail in a sliding mode, and the second drilling motor is fixedly arranged on the bottom wall of the sliding block;

and the fastening bolt is rotatably arranged in the bottom wall of the sliding block.

Preferably, the drilling mechanism comprises:

the drilling device comprises three drilling rods, a drilling motor and a drilling motor, wherein the three drilling rods are fixedly arranged at the output ends of the first drilling motor and the second drilling motor respectively, and three material leaking holes are formed in the drilling rods;

the drill bit, the drill bit is three, and its all fixed connection is in the lower extreme of drilling rod.

Preferably, the electric telescopic handle is located and is equipped with buffer spring between layer board and electric telescopic handle's the stiff end, and buffer spring's last lower extreme is inconsistent with the diapire of layer board and the roof of electric telescopic handle stiff end respectively and is set up.

Preferably, the bottom wall of the base is fixedly connected with a non-slip mat.

Preferably, the top ends of the guide rods are fixedly connected with baffle plates.

Compared with the prior art, the beneficial effects of the utility model are that: a novel geological survey probing device, can enlarge the scope of probing, can carry out the probing sample in a flexible way at the within range, reduce probing device's dismouting, improve work efficiency, the utility model has the advantages of set up rationally, the practicality is high.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic structural view of the connection relationship between the middle semi-circular through hole and the supporting plate of the present invention.

Description of the reference numerals:

the device comprises a distance adjusting mechanism 1, a sliding block 1-1, a sliding rail 1-2, a fastening bolt 1-3, a drilling mechanism 2, a drill rod 2-1, a material leaking hole 2-2, a drill bit 2-3, a buffer spring 3, an electric telescopic rod 4, a non-slip mat 5, a base 6, a semicircular through hole 7, a guide rod 8, a rotating motor 9, a driving gear 10, a driving shaft 11, a baffle plate 12, a driven gear 13, a driven shaft 14, a first drilling motor 15, a motor box 16, a supporting plate 17, a second drilling motor 18, a box door 19, an electric control box 20 and a guide plate 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment: the electric telescopic rod comprises an electric telescopic rod 4, a base 6, a motor box 16, a supporting plate 17 and an electric cabinet 20; the bases 6 are arranged in a bilateral symmetry manner, the top walls of the bases 6 are all riveted with the electric telescopic rods 4 through bolts, and the upper ends of the electric telescopic rods 4 are all riveted on the bottom walls of the supporting plates 17 through bolts; semicircular through holes 7 are symmetrically formed in the part, located on the inner side of the electric telescopic rod 4, of the supporting plate 17 left and right; a motor box 16 is welded on the part, positioned between the semicircular through holes 7, of the top wall of the supporting plate 17, and a box door 19 is movably hinged in the front side opening of the motor box 16 through a hinge; the electric cabinet 20 is riveted on the front side wall of the left base 6 through bolts; the electric telescopic rod 4 is connected with the electric cabinet 20 through a wire; it also includes:

two guide rods 8 are welded on the top wall of the base 6 and positioned at the outer side of the electric telescopic rod 4;

the guide plate 21, the said guide plate 21 is fitted over the guide lever 8 movably;

the upper end and the lower end of the driven shaft 14 are respectively and rotatably connected into the bottom wall of the guide plate 21 and the top wall of the motor box 16 through bearings;

the driven gear 13 is sleeved on the driven shaft 14 and fixed through a positioning pin;

the number of the distance adjusting mechanisms 1 is two, and the two distance adjusting mechanisms 1 are symmetrically arranged on the bottom wall of the driven gear 13 in a left-right mode;

two drilling motors 18, wherein the two drilling motors 18 are fixed below the distance adjusting mechanism 1 through bolts and brackets; the second drilling motor 18 is connected with the electric cabinet 20 through a wire;

the drilling motor 15I is fixed on the top wall of the supporting plate 17 at the part inside the motor box 16 through bolts and brackets, and the output end of the drilling motor 15I penetrates through the supporting plate 17 and then extends below the supporting plate 17; the first drilling motor 15 is connected with the electric cabinet 20 through a wire;

the drilling mechanisms 2 are three, the middle drilling mechanism 2 is fixedly connected with the output end of the first drilling motor 15, and the drilling mechanisms 2 on the left and right sides are fixedly connected with the output end of the second drilling motor 18;

the rotating motor 9 is fixed on the top wall of the supporting plate 17 through a bolt and a bracket, and the rotating motor 9 is positioned on the left part of the semicircular through hole 7 on the left side; the rotating motor 9 is connected with the electric cabinet 20 through a wire;

the driving shaft 11 is connected to the output end of the rotating motor 9 through a coupler, and the upper end of the driving shaft 11 is rotatably arranged in the bottom wall of the guide plate 21 through a bearing;

the driving gear 10 is sleeved on the driving shaft 11 and fixed by a positioning pin, and the driving gear 10 is meshed with the driven gear 13.

Preferably, the distance adjustment mechanism 1 further includes:

the sliding rails 1-2 are riveted on the bottom wall of the driven gear 13 in a bilateral symmetry mode through bolts;

the drilling machine comprises a sliding block 1-1, a sliding block 1-1 is arranged on a sliding rail 1-2 in a sliding mode, and a second drilling motor 18 is fixed to the bottom wall of the sliding block 1-1 through bolts and a support;

the fastening bolt 1-3 is rotatably arranged in the bottom wall of the sliding block 1-1, and the fastening bolt 1-3 is rotatably arranged in the bottom wall of the sliding block 1-1.

As a preferred solution, furthermore, said drilling means 2 comprises:

the drilling device comprises three drill rods 2-1, wherein the three drill rods 2-1 are fixedly arranged at the output ends of a first drilling motor 15 and a second drilling motor 18 through couplers respectively, and three material leakage holes 2-2 are formed in each drill rod 2-1;

the drilling machine comprises three drilling heads 2-3, and the three drilling heads 2-3 are all riveted at the lower end of a drilling rod 2-1 through bolts.

Preferably, the electric telescopic rod 4 is sleeved with the buffer spring 3 between the supporting plate 17 and the fixed end of the electric telescopic rod 4, and the upper end and the lower end of the buffer spring 3 are respectively abutted to the bottom wall of the supporting plate 17 and the top wall of the fixed end of the electric telescopic rod 4.

Preferably, the bottom wall of the base 6 is fixed with the non-slip mat 5 by gluing.

Preferably, the guide bars 8 are welded at the top ends thereof with the baffle plates 12, so that the guide plates 21 are prevented from moving beyond the range of the guide bars 8.

The working principle of the specific embodiment is as follows: when the novel geological exploration drilling device is used, the device is carried to a target area, the electric telescopic rod 4 is opened, the electric telescopic rod 4 drives the supporting plate 17 to move downwards, the supporting plate 17 drives the motor box 16 and the driven shaft 14 to move downwards, the driven shaft 14 drives the guide plate 21 to move downwards along the guide rod 8, and the buffer spring 3 contracts under the pressure action of the supporting plate 17 to play a role in buffering and damping; the supporting plate 17 drives the middle drilling mechanism 2 to move downwards, the driven shaft 14 drives the driven gear 13 to move downwards, the driven gear 13 drives the left and right drilling mechanisms 2 to move downwards, the first drilling motor 15 and the second drilling motor 18 are turned on through the electric cabinet 20, the first drilling motor 15 and the second drilling motor 18 drive the drill pipe 2-1 below the first drilling motor 15 and the second drilling motor 18 to rotate respectively, the drill pipe 2-1 drives the drill bit 2-3 to rotate, the drill bit 2-3 rotates and is inserted into soil, part of soil enters the material leaking hole 2-2, after the soil moves downwards to a proper depth, the first drilling motor 15 and the second drilling motor 18 are closed, the electric telescopic rod 4 is reversely opened, the electric telescopic rod 4 drives the supporting plate 17 to move upwards, thereby the drilling mechanism 2 is moved out of the soil, the soil is taken out from the material leaking hole 2-2 and is used as sample soil for convenient analysis and research; when the drilling position needs to be changed, the fastening bolts 1-3 are unscrewed, the fastening bolts 1-3 are manually pushed to move left and right along the slide rails 1-2, when the drilling position is moved to a proper position in the left and right direction, the fastening bolts 1-3 are screwed down to fix the slide blocks 1-1, the rotating motor 9 is turned on, the rotating motor 9 drives the driving shaft 11 to rotate, the driving shaft 11 drives the driving gear 10 to rotate, the driving gear 10 drives the driven gear 13 to rotate along the driven shaft 14, the driven gear 13 drives the slide blocks 1-1 and the slide rails 1-2 to rotate, and when the second drilling motor 18 is driven by the slide blocks 1-1 to rotate above a target position, the rotating motor 9 is turned off, and then the electric telescopic rod 4 is turned on to perform normal drilling work, so that the drilling position is more flexible and the drilling is more convenient.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the anti-skid pad 5 is arranged, so that the anti-skid effect can be realized, and the stability of the device is improved; the buffer spring 3 is arranged to play a role in buffering and damping;

2. by arranging the distance adjusting mechanism 1, the rotating motor 9, the driving gear 10, the driving shaft 11, the driven gear 13 and the driven shaft 14, the position change of the second drilling motor 18 can be flexibly realized, geological exploration drilling work at different positions can be conveniently carried out, and the disassembly work of the device is reduced;

3. through setting up drilling mechanism 2, drilling motor 15 and No. two drilling motors 18, can once realize the geological survey drilling work in a plurality of regions, improve work efficiency.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. A novel geological exploration drilling device comprises an electric telescopic rod (4), a base (6), a motor box (16), a supporting plate (17) and an electric cabinet (20); the bases (6) are arranged in a bilateral symmetry mode, the top walls of the bases (6) are fixedly connected with electric telescopic rods (4), and the upper ends of the electric telescopic rods (4) are fixedly connected to the bottom walls of the supporting plates (17); semicircular through holes (7) are symmetrically formed in the left and right parts of the supporting plate (17) positioned on the inner side of the electric telescopic rod (4); a motor box (16) is fixedly connected to the part, positioned between the semicircular through holes (7), of the top wall of the supporting plate (17), and a box door (19) is movably arranged in the front side opening of the motor box (16) through a hinge; an electric cabinet (20) is fixedly connected to the front side wall of the left base (6); the electric telescopic rod (4) is connected with the electric cabinet (20) through a wire; the method is characterized in that: it also includes:

the number of the guide rods (8) is two, and the two guide rods (8) are fixedly connected to the part, located on the outer side of the electric telescopic rod (4), of the top wall of the base (6);

the guide plate (21), the said guide plate (21) is movably sleeved on the guide bar (8);

the upper end and the lower end of the driven shaft (14) are respectively and rotatably connected to the bottom wall of the guide plate (21) and the top wall of the motor box (16) through bearings;

the driven gear (13), the said driven gear (13) is fixed and set up on the driven shaft (14);

the two distance adjusting mechanisms (1) are arranged on the bottom wall of the driven gear (13) in a bilateral symmetry mode;

two drilling motors (18), wherein the two drilling motors (18) are fixedly connected below the distance adjusting mechanism (1); the second drilling motor (18) is connected with the electric control box (20) through a lead;

the drilling motor (15) is fixedly connected to the part, located inside the motor box (16), of the top wall of the supporting plate (17), and the output end of the drilling motor (15) penetrates through the supporting plate (17) and then extends below the supporting plate (17); the first drilling motor (15) is connected with the electric control box (20) through a wire;

the drilling mechanisms (2) are three, the middle drilling mechanism (2) is fixedly connected with the output end of the first drilling motor (15), and the left and right drilling mechanisms (2) are fixedly connected with the output end of the second drilling motor (18);

the rotating motor (9), the rotating motor (9) is fixedly connected to the part, located on the left side of the semicircular through hole (7), on the top wall of the supporting plate (17); the rotating motor (9) is connected with the electric cabinet (20) through a wire;

the driving shaft (11), the driving shaft (11) is fixedly connected to the output end of the rotating motor (9), and the upper end of the driving shaft (11) is rotatably arranged in the bottom wall of the guide plate (21) through a bearing;

the driving gear (10) is sleeved and fixed on the driving shaft (11) and meshed with the driven gear (13).

2. A novel geological survey drilling apparatus as defined in claim 1 wherein: the distance adjustment mechanism (1) includes:

the sliding rails (1-2) are arranged on the bottom wall of the driven gear (13) in a bilateral symmetry mode;

the sliding block (1-1), the sliding block (1-1) is arranged on the sliding rail (1-2) in a sliding mode, and the second drilling motor (18) is fixedly arranged on the bottom wall of the sliding block (1-1);

the fastening bolt (1-3), the fastening bolt (1-3) is rotatably arranged in the bottom wall of the sliding block (1-1).

3. A novel geological survey drilling apparatus according to claim 1, wherein: the drilling mechanism (2) comprises:

the drilling device comprises three drill rods (2-1), wherein the three drill rods (2-1) are respectively and fixedly arranged at the output ends of a first drilling motor (15) and a second drilling motor (18), and the drill rods (2-1) are respectively provided with three material leaking holes (2-2);

the drilling device comprises three drilling heads (2-3), and the three drilling heads (2-3) are fixedly connected to the lower end of a drilling rod (2-1).

4. A novel geological survey drilling apparatus as defined in claim 1 wherein: the electric telescopic rod (4) is provided with a buffer spring (3) in a sleeved mode between the fixed ends of the supporting plate (17) and the electric telescopic rod (4), and the upper end and the lower end of the buffer spring (3) are arranged in a mode of being in contact with the bottom wall of the supporting plate (17) and the top wall of the fixed end of the electric telescopic rod (4) respectively.

5. A novel geological survey drilling apparatus as defined in claim 1 wherein: the bottom wall of the base (6) is fixedly connected with an antiskid pad (5).

6. A novel geological survey drilling apparatus according to claim 1, wherein: the top ends of the guide rods (8) are fixedly connected with baffle plates (12).

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