CN220794676U - Sampling device for molybdenum ore exploitation detection - Google Patents

Abstract

The utility model discloses a sampling device for molybdenum ore exploitation detection, which comprises an operation head, wherein a first electric push rod is fixedly arranged in the operation head, a first telescopic arm is arranged below the first electric push rod, a connecting block is fixedly arranged at the lower end of the first telescopic arm, a motor is fixedly arranged in the connecting block, an output shaft is arranged below the motor, the other end of the output shaft is connected with a drill bit below the connecting block, and a spring is fixedly connected with a first protective cover at the other end of the spring. The first protective cover of the sampling device for molybdenum ore exploitation detection forms an elastic telescopic structure through the spring, the fixing plate and the drill bit, so that the first protective cover can be attached to the inner wall of a drilled hole to be supported under the action of the spring, the second protective cover and the third protective cover of the device respectively form a vertical lifting structure with the first protective cover through the second telescopic arm under the action of the miniature electric push rod, the length of the protective cover in the hole is increased, and the supportability of the protective cover on four walls of the hole is increased.

Description

Sampling device for molybdenum ore exploitation detection

Technical Field

The utility model relates to the technical field of molybdenum ore exploitation, in particular to a sampling device for molybdenum ore exploitation detection.

Background

Molybdenum is a metal element found later, and is extracted from molybdenite by swedish chemists for 1792 years. The metal molybdenum has the advantages of high strength, high melting point, corrosion resistance, wear resistance, and the like, so that the metal molybdenum is widely used in industry. In the process of molybdenum ore mining, the molybdenum ore at the required mining site needs to be detected, and then a sampling device is used for sampling and detecting the molybdenum ore.

And the sampling device is in the use, through the drill bit to surveying the ground and bore a hole in the hole later to the molybdenum ore sampling, and current sampling device is in the use, the condition that the drilling position probably takes place the local subsidence to cause the damage to the probe easily, and the drill bit is inconvenient in the drilling in-process to the great condition of groundwater. For this purpose, a sampling device for molybdenum ore mining detection is proposed to solve the above problems.

Disclosure of Invention

The utility model aims to provide a sampling device for molybdenum ore exploitation detection, which solves the problems that the existing sampling device provided in the background art is likely to partially collapse in the drilling position in the use process, so that the detection head is easy to damage, and the drill bit is inconvenient to deal with the situation of large underground water burst in the drilling process.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the sampling device for molybdenum ore exploitation detection comprises an operation head, wherein a first electric push rod is fixedly arranged in the operation head, a first telescopic arm is arranged below the first electric push rod, a connecting block is fixedly arranged at the lower end of the first telescopic arm, a motor is fixedly arranged in the connecting block, an output shaft is arranged below the motor, the other end of the output shaft is connected with a drill bit below the connecting block, two groups of fixing plates are respectively arranged on the lower end face of the operation head, springs are respectively arranged on the outer sides of the two groups of fixing plates, and the springs are fixedly connected with a first protective cover at the other end of the springs;

the first protective cover is fixedly provided with a miniature electric push rod on the inner wall above, the miniature electric push rod is provided with a second telescopic arm below, the first protective cover is internally provided with a second protective cover, the other end of the second telescopic arm is connected with a third protective cover in the second protective cover, the upper end surface of the third protective cover is fixedly provided with a baffle, and the inside of the second protective cover is respectively provided with a baffle rod above and below;

the inner wall of the first protective cover is fixedly provided with two groups of water pumping ports close to the lower side, connecting pipes are screwed above the water pumping ports, the two groups of connecting pipes on the first protective cover are respectively connected with the same group of Y-shaped shunt pipes at the other end, the Y-shaped shunt pipes are connected with water pumping pipes at the other end, and the other ends of the water pumping pipes are connected with a water pumping pump outside an operation head.

Preferably, the connecting block forms a vertical lifting structure with the operating head through the first telescopic arm under the drive of the first electric push rod, and the drill bit forms a rotating structure with the connecting block through the output shaft under the action of the motor.

Preferably, the first protective cover and the drill bit form an elastic telescopic structure through a spring, a fixing plate.

Preferably, the second protective cover and the third protective cover respectively form a vertical lifting structure with the first protective cover through the second telescopic arms under the action of the miniature electric push rod.

Preferably, the outer wall of the connecting pipe and the inner wall of the water pumping port are provided with matched threads, and the water pumping port forms a pumping structure with underground water inflow through the connecting pipe, the Y-shaped shunt pipe and the water pumping pipe under the driving of the water pumping pump.

Compared with the prior art, the utility model has the beneficial effects that: the first protective cover of the sampling device for molybdenum ore exploitation detection comprises an elastic telescopic structure through a spring, a fixing plate and a drill bit, so that the first protective cover can be attached to the inner wall of a drilled hole to be supported under the action of the spring.

Drawings

FIG. 1 is a schematic diagram of a sampling device for molybdenum ore exploitation detection according to the present utility model;

FIG. 2 is a schematic diagram of the working structure of a second protective cover and a third protective cover of the sampling device for molybdenum ore exploitation detection;

FIG. 3 is a schematic diagram showing a side view of a pumping assembly of a sampling device for molybdenum ore mining detection according to the present utility model;

FIG. 4 is a schematic top view of a telescopic assembly of a first protective cover of a sampling device for molybdenum ore mining detection according to the present utility model;

fig. 5 is a schematic diagram of a top view structure of a pumping assembly of a sampling device for molybdenum ore mining detection according to the present utility model.

In the figure: 1. the device comprises an operation head, 2, a first electric push rod, 3, a first telescopic arm, 4, a connecting block, 5, a motor, 6, a drill bit, 7, a fixed plate, 8, a spring, 9, a first protective cover, 10, a miniature electric push rod, 11, a second telescopic arm, 12, a second protective cover, 13, a third protective cover, 14, a water pumping port, 15, a connecting pipe, 16, a Y-shaped shunt tube, 17 and a water pumping pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a molybdenum ore exploitation surveys and uses sampling device, includes operation head 1, and operation head 1 is equipped with first electric putter 2 in inside fixed, and the below of first electric putter 2 is equipped with first flexible arm 3, and first flexible arm 3 is fixed in the lower extreme and is equipped with connecting block 4, and connecting block 4 internal fixation is equipped with motor 5, and motor 5 is equipped with the output shaft in the below, and the other end of output shaft connects drill bit 6 in the below of connecting block 4.

Further, the connecting block 4 forms a vertical lifting structure with the operating head 1 through the first telescopic arm 3 under the driving of the first electric push rod 2, and the drill bit 6 forms a rotating structure with the connecting block 4 through the output shaft under the action of the motor 5, so that the drill bit 6 can normally perform drilling work under the action of the first electric push rod 2 and the motor 5.

The operation head 1 is provided with two groups of fixing plates 7 at the lower end face respectively, and the two groups of fixing plates 7 are provided with springs 8 at the outer sides respectively, and the springs 8 are fixedly connected with a first protective cover 9 at the other end.

Further, the first protection cover 9 forms an elastic telescopic structure with the drill bit 6 through the spring 8 and the fixing plate 7, so that the position of the first protection cover 9 is adjusted according to the size of a hole drilled by the drill bit 6, and the first protection cover 9 can be guaranteed to be attached to the inner wall of the hole to support the drill bit.

The first protection casing 9 is fixed in the top inner wall and is equipped with miniature electric putter 10, and miniature electric putter 10 is equipped with second telescopic boom 11 in the below, and first protection casing 9 has placed second protection casing 12 in the inside, and the other end of second telescopic boom 11 is connected third protection casing 13 in second protection casing 12, and third protection casing 13 is equipped with the baffle in the up end is fixed, and the inside of second protection casing 12 is equipped with the shelves pole respectively in the upper and lower side.

Further, the second protection cover 12 and the third protection cover 13 respectively form a vertical lifting structure with the first protection cover 9 through the second telescopic arm 11 under the action of the miniature electric push rod 10, so that the second protection cover 12 and the third protection cover 13 are pushed to extend under the action of the miniature electric push rod 10, the length of the protection covers in the holes is increased, and the supporting force of the protection covers to the holes is further increased.

Two groups of water pumping ports 14 are fixedly arranged on the inner wall of the first protective cover 9 near the lower side, connecting pipes 15 are screwed above the water pumping ports 14, the two groups of connecting pipes 15 on the first protective cover 9 are respectively connected with the same group of Y-shaped shunt pipes 16 at the other end, the Y-shaped shunt pipes 16 are connected with a water pumping pipe 17 at the other end, and the other end of the water pumping pipe 17 is connected with a water pumping pump outside the operating head 1.

Further, the outer wall of the connecting pipe 15 and the inner wall of the water pumping port 14 are provided with matched threads, so that the connecting pipe 15 is conveniently installed on the water pumping port 14, the water pumping port 14 forms a suction structure with underground water by the connecting pipe 15, the Y-shaped shunt pipe 16 and the water pumping pipe 17 under the driving of the water pumping pump, and when the situation that the underground water is large in the drilling and sampling process occurs, the underground water is timely pumped by the water pumping port 14, so that the influence of excessive water flow on the detection device is avoided.

Working principle: in the use of the sampling device for molybdenum ore exploitation detection, a connecting pipe 15 is firstly spirally arranged on a water pumping port 14, a first electric push rod 2 and a motor 5 are started at the same time, the motor 5 drives a drill bit 6 to rotate at a high speed through an output shaft, the first electric push rod 2 drives the drill bit 6 to descend through a first telescopic arm 3, so that drilling work is carried out at a position required to be sampled through the drill bit 6, the first electric push rod 2 and the motor 5 can be suspended after a hole is initially formed, and a first protective cover 9 is pressed inwards at the same time, so that the outer wall of the first protective cover 9 is attached to the inner wall of the hole under the action of a spring 8; then the drill bit 6 can continue to drill holes, and simultaneously two groups of miniature electric push rods 10 can be started at the same time, the miniature electric push rods 10 drive a third protective cover 13 to descend through a second telescopic arm 11, when the third protective cover 13 descends to the lowest part of a second protective cover 12, the second protective cover 12 is driven to synchronously descend through a baffle plate and a baffle rod, so that the inner wall of a hole is supported through the three groups of protective covers, and the protection work of the drill bit 6 and components thereof is increased, so that the drill bit 6 and the components thereof can detect and sample between the protective covers; if the underground water burst is serious in the hole in the drilling process of the drill bit 6, the water flow is timely extracted through the water pumping port 14 under the driving of the water pumping pump, so that the influence on the drill bit assembly and the staff caused by excessive underground water burst is avoided, and the use process of the sampling device for the molybdenum ore exploitation detection is realized.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (5)

1. The utility model provides a molybdenum ore deposit exploitation surveys and uses sampling device, includes operation head (1), operation head (1) is equipped with first electric putter (2) in inside fixed, and the below of first electric putter (2) is equipped with first flexible arm (3), first flexible arm (3) are fixed in the lower extreme to be equipped with connecting block (4), and connecting block (4) internal fixation is equipped with motor (5), motor (5) are equipped with the output shaft in the below, and drill bit (6) are connected in the below of connecting block (4) to the other end of output shaft, its characterized in that: two groups of fixing plates (7) are respectively arranged on the lower end face of the operating head (1), springs (8) are respectively arranged on the outer sides of the two groups of fixing plates (7), and the springs (8) are fixedly connected with a first protective cover (9) at the other end;

the first protective cover (9) is fixedly provided with a miniature electric push rod (10) on the upper inner wall, the miniature electric push rod (10) is provided with a second telescopic arm (11) below, the first protective cover (9) is internally provided with a second protective cover (12), the other end of the second telescopic arm (11) is connected with a third protective cover (13) in the second protective cover (12), the third protective cover (13) is fixedly provided with a baffle on the upper end surface, and baffle rods are respectively arranged in the second protective cover (12) above and below;

the inner wall of the first protective cover (9) is fixedly provided with two groups of water pumping ports (14) close to the lower side, connecting pipes (15) are screwed above the water pumping ports (14), the two groups of connecting pipes (15) on the first protective cover (9) are respectively connected with the same group of Y-shaped shunt pipes (16) at the other end, the Y-shaped shunt pipes (16) are connected with a water pumping pipe (17) at the other end, and the other end of the water pumping pipe (17) is connected with a water pumping pump at the outside of the operation head (1).

2. The sampling device for molybdenum ore mining detection according to claim 1, wherein: the connecting block (4) forms a vertical lifting structure with the operating head (1) through the first telescopic arm (3) under the drive of the first electric push rod (2), and the drill bit (6) forms a rotating structure with the connecting block (4) through the output shaft under the action of the motor (5).

3. The sampling device for molybdenum ore mining detection according to claim 1, wherein: the first protective cover (9) and the drill bit (6) form an elastic telescopic structure through the spring (8), the fixing plate (7).

4. The sampling device for molybdenum ore mining detection according to claim 1, wherein: the second protective cover (12) and the third protective cover (13) respectively form a vertical lifting structure with the first protective cover (9) through the second telescopic arm (11) under the action of the miniature electric push rod (10).

5. The sampling device for molybdenum ore mining detection according to claim 1, wherein: the outer wall of the connecting pipe (15) and the inner wall of the water pumping port (14) are provided with matched threads, and the water pumping port (14) forms a pumping structure with underground water inflow through the connecting pipe (15), the Y-shaped shunt pipe (16), the water pumping pipe (17) and the water pumping pump under the driving of the water pumping pump.