CN214463886U - Geological drilling rig for geological survey of coal mine - Google Patents

Abstract

The utility model discloses a coal mine geological drilling device for geological survey, which comprises a supporting plate, wherein the upper surface of the supporting plate is welded with a first U-shaped plate, the upper surface of the first U-shaped plate is provided with a hydraulic cylinder, the inside of the first U-shaped plate is provided with a motor, the output shaft of the hydraulic cylinder penetrates through the lower surface of the first U-shaped plate and is welded at the top of the motor, the output shaft of the motor is welded with a square shell, a through hole is arranged in the probe rod, a first fixed block is pulled, the first fixed block pulls a fourth rod to move and simultaneously stretches a first spring, the probe rod is put in the square shell, after the through hole and the fourth rod are positioned at the same horizontal plane, the first fixed block is loosened, the first spring drives the first fixed block to reset, the first fixed block drives the fourth rod to reset, the fourth rod is positioned in the through hole, and further the probe rod is limited, thereby facilitating the installation and the disassembly and reducing the time cost of workers to a certain extent.

Description

Geological drilling rig for geological survey of coal mine

Technical Field

The utility model relates to a geological survey technical field specifically is a geological survey is with colliery geological drilling rig.

Background

The task of geological surveying is to measure geological maps, and hence also geological maps or geological maps. The geological measurement work is an important means for collecting all geological data and dynamic supervision and management of reserves in a working area. In the geological measurement, all geologic bodies exposed on the earth surface are reflected on a plane diagram, and geological characteristics such as stratums, structures, rocks, mineral products and the like in a systematic research area provide basic geological data for general survey for finding minerals, hydrology, engineering geology, seismic geology and the like. During the geological survey task, the soil on the earth surface needs to be collected and detected, and during the coal mining, the geological condition needs to be known by using tools deep underground.

The existing coal mine geological drilling device needs to be frequently replaced due to abrasion of the probe rod when in use, when the probe rod is replaced, a large number of tools need to be used for dismounting, the operation amount of operators is increased, the replacement time is prolonged, when the probe rod is taken out from the underground, a large amount of soil is stained on the probe rod, when the probe rod is cleaned by the operators, a large amount of water is needed to be used for scouring, a large amount of waste is caused to the water, and therefore the coal mine geological drilling device for geological measurement is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a geology is colliery geological drilling rig for geological survey to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a coal mine geological drilling device for geological measurement comprises a supporting plate, wherein a first U-shaped plate is welded on the upper surface of the supporting plate, a hydraulic cylinder is installed on the upper surface of the first U-shaped plate, a motor is arranged inside the first U-shaped plate, an output shaft of the hydraulic cylinder penetrates through the lower surface of the first U-shaped plate and is welded on the top of the motor, a square shell is welded on the output shaft of the motor, fourth rods are slidably connected to two sides of the outer side wall of the square shell, a first fixing block is welded at one end of each fourth rod, a first spring is welded on one side, adjacent to the fourth rods, of the first fixing block and the outer side of the fourth rods and positioned outside the fourth rods, a probe rod is arranged inside the square shell, a through hole is formed inside the probe rod, the outer side walls of the two fourth rods are slidably connected inside the through hole, and two second U-shaped plates are welded on the lower surface of the supporting plate, the inside wall of the second U-shaped plate is rotatably connected with a second rod body through a bearing, a scraper is welded on the outer side wall of the second rod body, and a second handle is welded on the inner side wall of the second U-shaped plate and one end of the second rod body penetrates through the inner side wall of the second U-shaped plate.

As further preferable in the present technical solution: the inner side wall of the supporting plate is in threaded connection with four threaded cones, and a first handle is welded at the top of each threaded cone.

As further preferable in the present technical solution: the lower surface of the supporting plate is provided with four mutually symmetrical wheels.

As further preferable in the present technical solution: the upper surface welding of backup pad has two L type poles, two the welding of the lateral wall one side of L type pole has the first body of rod.

As further preferable in the present technical solution: the inside wall of first U template is seted up the spout of two mutual symmetries, the inside sliding connection of spout has the slider, two the welding of the adjacent one side of slider has the lantern ring, the lateral wall of motor is located to the inside cover of lantern ring.

As further preferable in the present technical solution: the upper surface welding of backup pad has the box, the top of box articulates through the hinge has the lid.

As further preferable in the present technical solution: the rear surface welding of second U template has T type pole, the lateral wall sliding connection of T type pole has the second fixed block, the outside welding that second fixed block and one side that the second U template is adjacent and be located T type pole has the second spring.

As further preferable in the present technical solution: the bottom welding of second fixed block has the third body of rod, the blind hole has evenly been seted up to lateral wall one side of second handle, the lateral wall sliding connection of the third body of rod is in the inside of blind hole.

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

firstly, a through hole is formed in the probe rod, a first fixing block is pulled, the first fixing block pulls a fourth rod body to move and simultaneously stretches a first spring, the probe rod is placed in a square shell, the through hole and the fourth rod body are located in the same horizontal plane, the first fixing block is loosened, the first spring drives the first fixing block to reset, the first fixing block drives the fourth rod body to reset, the fourth rod body is located in the through hole, and the probe rod is limited, so that the installation and the disassembly are convenient, and the time cost of workers is reduced to a certain extent;

and secondly, the second handle is rotated, the second handle drives the second rod body to rotate, the second rod body drives the scraper to rotate, the scraper is tightly attached to the outer side wall of the probe rod until the scraper is tightly attached to the outer side wall of the probe rod, and when the probe rod is moved upwards to be taken out, the scraper can scrape the soil adhered to the outer side wall of the probe rod, so that the waste of water resources is reduced.

Drawings

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

fig. 2 is a schematic side view of a second U-shaped board of the present invention;

fig. 3 is a schematic diagram of the internal structure of the square housing of the present invention.

In the figure: 1. a support plate; 2. a threaded cone; 3. a first handle; 4. a wheel; 5. a box body; 6. a second handle; 7. blind holes; 8. a cover body; 9. a first U-shaped plate; 10. a chute; 11. a slider; 12. a collar; 13. a motor; 14. a hydraulic cylinder; 15. a square housing; 16. a probe rod; 17. an L-shaped rod; 18. a first rod body; 19. a first fixed block; 20. a first spring; 21. a second U-shaped plate; 22. a second rod body; 23. a squeegee; 24. a second spring; 25. a second fixed block; 26. a T-shaped rod; 27. a third rod body; 28. a through hole; 29. and a fourth rod body.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

Examples

Referring to fig. 1-3, the present invention provides a technical solution: a coal mine geological drilling device for geological survey comprises a supporting plate 1, wherein a first U-shaped plate 9 is welded on the upper surface of the supporting plate 1, a hydraulic cylinder 14 is installed on the upper surface of the first U-shaped plate 9, a motor 13 is arranged inside the first U-shaped plate 9, an output shaft of the hydraulic cylinder 14 penetrates through the lower surface of the first U-shaped plate 9 and is welded on the top of the motor 13, a square shell 15 is welded on the output shaft of the motor 13, fourth rods 29 are slidably connected to two sides of the outer side wall of the square shell 15, a first fixing block 19 is welded at one end of each fourth rod 29, a first spring 20 is welded on one side of each first fixing block 19, which is adjacent to the corresponding fourth rod 29, and is positioned outside the corresponding fourth rod 29, a probe 16 is arranged inside the square shell 15, a through hole 28 is formed inside the probe 16, outer side walls of the two fourth rods 29 are slidably connected inside the through hole 28, and two second U-shaped plates 21 are welded on the lower surface of the supporting plate 1, the inside wall of second U template 21 passes through the bearing and rotates and be connected with the second body of rod 22, and the welding of the lateral wall of the second body of rod 22 has scraper blade 23, and the one end of the second body of rod 22 runs through the inside wall of second U template 21 and welds and have second handle 6.

In this embodiment, specifically: the inner side wall of the supporting plate 1 is in threaded connection with four threaded cones 2, and a first handle 3 is welded at the top of each threaded cone 2; the first handle 3 is rotated to insert the thread taper 2 deep into the ground, and the device is fixed.

In this embodiment, specifically: the lower surface of the supporting plate 1 is provided with four mutually symmetrical wheels 4; the device is convenient to move through the wheels 4.

In this embodiment, specifically: the upper surface of the supporting plate 1 is welded with two L-shaped rods 17, and one side of the outer side walls of the two L-shaped rods 17 is welded with a first rod body 18; by pushing the first lever 18, the device is pushed conveniently.

In this embodiment, specifically: the inner side wall of the first U-shaped plate 9 is provided with two symmetrical sliding grooves 10, sliding blocks 11 are connected inside the sliding grooves 10 in a sliding mode, one side, adjacent to the two sliding blocks 11, of each sliding block is welded with a lantern ring 12, and the inner portion of each lantern ring 12 is sleeved on the outer side wall of a motor 13; through the mutual cooperation of spout 10 and slider 11, and then carry on spacingly to motor 13, prevent that pneumatic cylinder 14 from rocking shakiness when promoting motor 13 to remove and then influencing geological exploration.

In this embodiment, specifically: the upper surface of the supporting plate 1 is welded with a box body 5, and the top of the box body 5 is hinged with a cover body 8 through a hinge; other exploration tools are convenient to place by arranging the box body 5.

In this embodiment, specifically: a T-shaped rod 26 is welded on the rear surface of the second U-shaped plate 21, a second fixing block 25 is connected to the outer side wall of the T-shaped rod 26 in a sliding mode, and a second spring 24 is welded on one side, adjacent to the second U-shaped plate 21, of the second fixing block 25 and located outside the T-shaped rod 26; through pulling second fixed block 25, second fixed block 25 drives tensile second spring 24 in the time of the third body of rod 27 removal, when second handle 6 rotates to required position, loosens second fixed block 25, and second spring 24 drives second fixed block 25 and resets to fix second handle 6 through the third body of rod 27, prevent that second handle 6 from rotating.

In this embodiment, specifically: the bottom of the second fixing block 25 is welded with a third rod body 27, blind holes 7 are uniformly formed in one side of the outer side wall of the second handle 6, and the outer side wall of the third rod body 27 is connected to the insides of the blind holes 7 in a sliding mode; through setting up blind hole 7, it is spacing to the third body of rod 27, and then increase the area of contact of the third body of rod 27 with second handle 6, further prevent that second handle 6 from rotating.

In this embodiment: motor 13 is model YN60 and hydraulic cylinder 14 is model CJT 140.

In this embodiment: a switch group for controlling the starting and the closing of the motor 13 and the hydraulic cylinder 14 is installed on one side of the supporting plate 1, and the switch group is connected with an external commercial power to supply power to the motor 13 and the hydraulic cylinder 14.

Working principle or structural principle, when in use, a worker pushes the device and then moves through the wheels 4 by pushing the first rod body 18, the first rod body 18 pushes the device, the hydraulic cylinder 14 and the motor 13 are started by using the switch group, the hydraulic cylinder 14 pushes the motor 13 to move downwards, the motor 13 drives the square shell 15 to rotate continuously, so that the probe 16 rotates continuously and moves downwards to the deep part of the ground, and geological exploration is facilitated, through arranging the through hole 28 in the probe 16, pulling the first fixing block 19, pulling the fourth rod body 29 by the first fixing block 19 to move, simultaneously stretching the first spring 20, putting the probe 16 into the square shell 15, enabling the through hole 28 and the fourth rod body 29 to be in the same horizontal plane, loosening the first fixing block 19, driving the first fixing block 20 to reset the first fixing block 19, driving the fourth rod body 29 to reset by the first fixing block 19, enabling the fourth rod body 29 to be in the through hole 28, and then carry on spacingly to probe 16, thereby easy to assemble and dismantlement, through pulling second fixed block 25, second fixed block 25 drives tensile second spring 24 when the third body of rod 27 removes, rotate second handle 6, second handle 6 drives the rotation of the second body of rod 22, the second body of rod 22 drives scraper blade 23 and rotates, until scraper blade 23 hugs closely in the lateral wall of probe 16, loosen second fixed block 25, second spring 24 drives second fixed block 25 and resets, and fix second handle 6 through the third body of rod 27, prevent that second handle 6 from rotating, when taking out probe 16 to the rebound this moment, scraper blade 23 can scrape the earth that glues at the lateral wall of probe 16 off.

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 colliery geological drilling equipment for geological survey, includes backup pad (1), its characterized in that: the upper surface welding of backup pad (1) has first U template (9), the last surface mounting of first U template (9) has pneumatic cylinder (14), the inside of first U template (9) is provided with motor (13), the output shaft of pneumatic cylinder (14) runs through the lower surface of first U template (9) and welds in the top of motor (13), the output shaft welding of motor (13) has square casing (15), the lateral wall both sides of square casing (15) all sliding connection have fourth body of rod (29), the one end welding of fourth body of rod (29) has first fixed block (19), the outer welding that first fixed block (19) and fourth body of rod (29) are adjacent one side and lie in fourth body of rod (29) has first spring (20), the inside of square casing (15) is provided with probe rod (16), through-hole (28) have been seted up to the inside of probe rod (16), two the lateral wall sliding connection of the fourth body of rod (29) is in the inside of through-hole (28), the lower surface welding of backup pad (1) has two second U templates (21), the inside wall of second U template (21) rotates through the bearing and is connected with the second body of rod (22), the outside wall welding of the second body of rod (22) has scraper blade (23), the one end of the second body of rod (22) runs through the inside wall and the welding of second U template (21) has second handle (6).

2. A coal mine geological drilling rig for geological survey according to claim 1, wherein: the inner side wall of the supporting plate (1) is in threaded connection with four threaded cones (2), and a first handle (3) is welded at the top of each threaded cone (2).

3. A coal mine geological drilling rig for geological survey according to claim 1, wherein: the lower surface of the supporting plate (1) is provided with four mutually symmetrical wheels (4).

4. A coal mine geological drilling rig for geological survey according to claim 1, wherein: the upper surface welding of backup pad (1) has two L type poles (17), two the welding of the lateral wall one side of L type pole (17) has first body of rod (18).

5. A coal mine geological drilling rig for geological survey according to claim 1, wherein: two mutually symmetrical chutes (10) are arranged on the inner side wall of the first U-shaped plate (9), a sliding block (11) and a sleeve ring (12) are welded on one side, adjacent to the sliding block (11), of each chute (10), and the outer side wall of the motor (13) is sleeved with the inner side wall of the sleeve ring (12).

6. A coal mine geological drilling rig for geological survey according to claim 1, wherein: the upper surface welding of backup pad (1) has box (5), the top of box (5) articulates through the hinge has lid (8).

7. A coal mine geological drilling rig for geological survey according to claim 1, wherein: the welding of the rear surface of second U template (21) has T type pole (26), the lateral wall sliding connection of T type pole (26) has second fixed block (25), the outside welding that second fixed block (25) and second U template (21) adjacent one side and be located T type pole (26) has second spring (24).

8. A coal mine geological drilling rig for geological survey according to claim 7, wherein: the bottom welding of second fixed block (25) has the third body of rod (27), blind hole (7) have evenly been seted up to lateral wall one side of second handle (6), the lateral wall sliding connection of the third body of rod (27) is in the inside of blind hole (7).

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