CN212642593U - Submersible multifunctional automatic digital exploration machine - Google Patents

Abstract

The utility model discloses a multi-functional automatic digital exploration machine of dive formula, including leading just the device, it has calliper subassembly and slewer to lead just device upper portion welding, install the centre gripping hydro-cylinder in the calliper subassembly, buffer spring is cup jointed on centre gripping hydro-cylinder piston top, the centre gripping hydro-cylinder promotes centre gripping pincers fork drilling rod. The drilling machine device is leveled by adjusting the balance oil cylinder, the balance of the device is effectively kept, the working efficiency is improved, the verticality of a probe rod probe and a drill rod and drilling tool is ensured, the protection device is not damaged, the service life is prolonged, when hard layers such as cobbles and stones need rotary drilling, the drill rod and the drilling tool are replaced, the drill rod and the drilling tool are put into the drilling tool in a probe rod mode, the clamping oil cylinder is retracted at the moment, the vertical oil cylinder is lifted to the top, the hollow oil cylinder is started to press the clamp block downwards, the drill rod is clamped, the driving motor is started, the vertical oil cylinder falls at a low speed, the falling footage speed is accelerated, the hydraulic gauge descends, the cobbles and the stone layers can be considered to pass.

Description

Submersible multifunctional automatic digital exploration machine

Technical Field

The utility model belongs to the technical field of the stratum probing under water, concretely relates to multi-functional automatic digital exploration machine of dive formula.

Background

At present, in the aspect of offshore or river underwater exploration and sampling at home, construction is carried out only by utilizing a barge on a shallow seabed or a shallow lake and lifting a platform to set a casing, and once the construction is carried out on the seabed with the water depth of more than 30 meters and the casing setting construction in the deep lake, normal construction can not be ensured due to the action of water flow and the like; and because of the shortage of equipment in the fields of domestic underwater ultra-deep engineering investigation and static sounding, particularly when the underwater stratum meets a hard covering layer and a gravel layer, the existing static sounding equipment cannot penetrate the layer.

Therefore, a novel underwater drilling device capable of penetrating through hard rock, soil and gravel layers is urgently needed, and the existing device can hardly meet the hard rock, soil and gravel layers.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional automatic digital exploration machine of dive formula to solve the solution method that meets hard rock, soil, ovum gravel layer that proposes in the above-mentioned background art, current multi-functional automatic digital exploration machine of dive formula is in the use, because there is hard rock, soil, ovum gravel layer general equipment probe under water can also can't pierce through and the device inclines easily under water, thereby solves the problem that can't pierce through hard layer and can't keep balance.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a multi-functional automatic digital exploration machine of dive formula, is including leading just the device, lead just device upper portion welding has calliper subassembly and slewer, install the centre gripping hydro-cylinder in the calliper subassembly, buffer spring is cup jointed on centre gripping hydro-cylinder piston top, the centre gripping hydro-cylinder promotes centre gripping jaw fork drilling rod.

The upper portion of the slewing device is provided with a hollow oil cylinder, the hollow oil cylinder is sleeved with a clamp block, a spring is arranged at the top of the clamp block for resetting, the slewing device is provided with a hydraulic motor, the axis of the hydraulic motor is rotatably connected with a bevel gear, the bevel gear is meshed with a large bevel gear, the large bevel gear is sleeved with a vertical shaft, and the large bevel gear drives the vertical shaft to rotate.

Preferably, the outer wall of the guide device is sleeved with a rope pressing disc, the outer wall of the rope pressing disc is inserted with a bolt, the outer wall of the rope pressing disc is inserted with a guide arm through a set bolt, the inner wall of the guide arm is welded with a rotating shaft, the inner wall of the guide arm is rotationally connected with a pulley through a rotating shaft, the outer wall of the guide arm is rotationally connected with a hinge, the outer wall of the guide arm is rotationally connected with an opening body through a set hinge, the bottom of the guide device is sleeved with a protective cover pipe, the bottom of the protective cover pipe is welded with a balance oil cylinder, the center of the bottom of the device is provided with a sleeve with a rack, gears are arranged on two sides of the rack sleeve, the gears are meshed with the racks, the gear racks are driven by a motor, a motor driving device is arranged on the base, the bottom of the rack sleeve is fixedly connected with a balance weight through a arranged base, and a drill rod is sleeved on the inner wall of the guide device.

Preferably, the bottom welding of leading positive arm has the support, the inner wall swing joint of pincers piece has the probe rod, the top of pincers piece has the calliper subassembly through the probe rod joint that sets up, the inner wall joint of calliper subassembly has the centre gripping hydro-cylinder.

Preferably, the top of the rack sleeve is welded with a gap bridge pulley through a set base, and two ends of the top of the rack sleeve, which are far away from the gap bridge pulley, are welded with guide pulleys.

Preferably, the outer wall of the clamping oil cylinder is welded with a buffer spring, the clamping oil cylinder is welded with a clamping block through the arranged buffer spring, the middle of the device is provided with a probe rod caliper rotating device, the rotating device is welded on the upper part of a piston of the guide device, and the rotating device is pressurized and lifted by the guide device.

Preferably, the top of the caliper assembly is provided with a furling opening.

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

1. whether the balance device is internally provided with a balance detector through observing the drilling device or not, if the balance detector displays that the balance device is unbalanced, the balance detector can be lifted away from the water bottom and lightly impacts the underwater mud bottom to cause balance, the balance device cannot be balanced after multiple impacts, the balance cylinder can be adjusted to be leveled, the balance of the device is effectively maintained, the working efficiency can be improved, the device can be protected from being damaged, and the service life of the device is prolonged.

2. When a probe meets hard layers such as gravel and cobbles and the like, rotary drilling is needed, the probe is pulled up by a lifting winch, a drill pipe changing drill is put into the drill in a downward probe mode, the clamping oil cylinder is retracted at the moment, the drawing opening is concentric, the drill is put into a hole, the vertical oil cylinder is lifted to the top, the hollow oil cylinder is started to press a clamp block downwards, the drill pipe is clamped, the driving motor is started, the vertical oil cylinder falls at a low speed, the hydraulic oil meter is displayed normally, when the pressure is too high, the hydraulic meter rises, the drill is lifted slightly and swept slowly, the pressure is mastered, when the footage speed is increased, the hydraulic meter descends, the gravel and cobbles layer can be considered to be passed, the problem that the gravel and the cobbles are.

Drawings

FIG. 1 is a schematic structural view of an underwater drilling rig according to the present invention;

FIG. 2 is a schematic structural view of the clamping fork assembly of the present invention;

FIG. 3 is a schematic structural view of a swing mechanism of a drilling rig according to the present invention;

FIG. 4 is a schematic view of the structure of the hoisting pulley block of the present invention;

FIG. 5 is a schematic view of the base leveling cylinder, the additional counterweight support tube and the cylinder protection cover tube of the present invention;

FIG. 6 is a schematic structural view of the guiding device of the present invention;

fig. 7 is a structural schematic diagram of the special drill rod catcher of the present invention.

In the figure: 1. a pilot device; 2. a caliper assembly; 3. a rack bushing; 4. a turning device; 5. Balancing weight; 6. a large bevel gear; 7. a hydraulic motor; 8. a hollow oil cylinder; 9. a bevel gear; 1-1, a clamping block; 1-2, clamping an oil cylinder; 1-3, a buffer spring; 1-4, folding the opening; 14. a drill stem; 3-1, a clamp block; l-1, a guide pulley; l-2, a gap bridge pulley; 5-1, balancing the oil cylinder; d-1, a pilot arm; d-2, a pulley; d-3, pressing a rope disc; d-4, an opening-closing body; 5-2, protecting the cover tube.

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.

Referring to fig. 1-7, the present invention provides a technical solution: a submersible multifunctional automatic digital exploration machine comprises a guide device 1, wherein a caliper assembly 2 and a rotating device 4 are welded on the upper portion of the guide device 1, a clamping cylinder 1-2 is installed in the caliper assembly 2, a piston top of the clamping cylinder 1-2 is sleeved with a buffer spring 1-3, and the clamping cylinder 1-2 pushes a clamping jaw fork drill rod 14.

In the embodiment, whether the balance device of the drilling device is internally provided with the balance detector is observed, if the balance detector displays that the balance detector is unbalanced, the balance detector can be lifted away from the water bottom and lightly impacts the underwater mud bottom to cause balance, the balance detector cannot be balanced after multiple impacts, the balance oil cylinder 5-1 can be adjusted to be leveled, the balance of the device is effectively kept, the working efficiency can be improved, the device can be protected from being damaged, and the service life of the device is prolonged.

The upper part of the slewing device 4 is provided with a hollow oil cylinder 8, the hollow oil cylinder 8 is sleeved with a clamp block 3-1, the top of the clamp block 3-1 is provided with a spring for resetting, the slewing device 4 is provided with a hydraulic motor 7, the axis of the hydraulic motor 7 is rotatably connected with a bevel gear 9, the bevel gear 9 is meshed with a large bevel gear 6, the large bevel gear 6 is sleeved with a vertical shaft, and the large bevel gear 6 drives the vertical shaft to rotate.

In the embodiment, when a probe needs rotary drilling when encountering gravel and other hard layers, the probe is pulled up by a lifting winch, a drill 14 for replacing a drill rod is put into the drill according to a lower probe rod mode, the clamping oil cylinder 1-2 is retracted at the moment, the drawing opening 1-4 is concentric, the drill is put into a hole, the vertical oil cylinder is lifted to the top, the hollow oil cylinder 8 is started to press the clamp block 3-1 downwards, the drill rod 14 is clamped, the driving motor is started, the vertical oil cylinder falls at a low speed, the hydraulic oil gauge is displayed normally, when the pressure is too high, the hydraulic gauge is lifted slightly, the drill is swept at a low speed, the pressure is mastered, when the footage speed is accelerated, the hydraulic gauge descends, the gravel layer can be considered to be passed, the problem that gravel is difficult to attack is solved, and the working efficiency is effectively.

Specifically, the outer wall of a guide device 1 is sleeved with a rope pressing disc d-3, the outer wall of the rope pressing disc d-3 is inserted with a bolt, the outer wall of the rope pressing disc d-3 is inserted with a guide arm d-1 through the arranged bolt, the inner wall of the guide arm d-1 is welded with a rotating shaft, the inner wall of the guide arm d-1 is rotatably connected with a pulley d-2 through the arranged rotating shaft, the outer wall of the guide arm d-1 is rotatably connected with a hinge, the outer wall of the guide arm d-1 is rotatably connected with an opening body d-4 through the arranged hinge, the bottom of the guide device 1 is sleeved with a protective cover pipe 5-2, the bottom of the protective cover pipe 5-2 is welded with a balance oil cylinder 5-1, the center of the bottom of the device is provided with a sleeve pipe 3 with a rack, gears are arranged on two sides of the sleeve pipe 3, the gears are meshed with the, the motor driving device is installed on the base, the bottom of the rack sleeve 3 is fixedly connected with a balance weight 5 through the arranged base, and the inner wall of the guide device 1 is sleeved with a drill rod 14.

In the embodiment, the rotating device 4 is arranged on the big bevel gear 6, and a drill rod 14 can pass through the rotating device 4, so that the use is convenient.

Specifically, a support is welded at the bottom of the guide arm d-1, a probe rod is movably connected to the inner wall of the clamp block 3-1, a clamp assembly 2 is clamped at the top of the clamp block 3-1 through the arranged probe rod, and a clamping oil cylinder 1-2 is clamped to the inner wall of the clamp assembly 2.

In this embodiment, the counterweight 5 is mounted to the guide device 1 via a base, and the counterweight 5 may be weighted.

Specifically, a gap bridge pulley L-2 is welded on the top of the rack sleeve 3 through a base, and guide pulleys L-1 are welded on two ends, far away from the gap bridge pulley L-2, of the top of the rack sleeve 3.

In the embodiment, the gap bridge pulley L-2 and the guide pulley L-1 are arranged on the upper part of the base and can be connected with a steel wire rope.

Specifically, the outer wall of the clamping oil cylinder 1-2 is welded with a buffer spring 1-3, the clamping oil cylinder 1-2 is welded with a clamping block 1-1 through the arranged buffer spring 1-3, the middle part of the device is welded on the upper part of a piston of the guide device 1 through an arranged probe rod caliper clamp rotating device 4, the rotating device 4 is welded on the upper part of the piston of the guide device 1, and the rotating device 4 is pressurized and lifted by the guide device 1.

In the embodiment, the pilot device 1 can drive the rotating device 4 to lift under pressure, and the buffer springs 1-3 are welded on the outer walls of the clamping oil cylinders 1-2.

The utility model discloses a theory of operation and use flow: the hoisting drill frame is arranged on a barge, a lifting platform and the front edge of a wharf at a proper position, a steel bedplate controlled by a drill frame base oil cylinder extends forwards, a drilling rig is placed on the drill frame base steel bedplate by a crane, an installed hoisting winch steel wire rope penetrates through a pulley d-2 group on the top plate of the drilling rig, whether the hydraulic oil pipe is firmly bound is checked, whether the hoisting winch steel wire rope is firmly bound is tested, whether the drilling rig is balanced is tested, a guiding device 1 is lifted to the top, a rotating device 4 with a proper length is installed, a hydraulic oil pump is started, whether each hydraulic pipeline is smooth is tested, gas is exhausted, the hoisting winch is tensioned after the hoisting winch is ready, the steel bedplate is recovered, the winch is slowly lowered to the bottom, whether a balance detector is arranged in the drilling rig or not is observed, if the balance is displayed, the hoisting winch can be lifted away from the bottom, the underwater bottom is lightly impacted to cause, the leveling of a balance oil cylinder 5-1 can be adjusted, a hydraulic oil pump is started, a hydraulic motor 7 is started, a rotary device 4 is pressed down to a proper depth, a lifting winch lifts a probe rod connected with a probe, two guide arms d-1 of a guide device 1 are clamped on a guide steel wire rope, a guide opening-closing body d-4 is opened, the probe rod is placed in the center, the opening-closing body d-4 is tightened, bolts of two heads of the guide arms d-1 are loosened, the diameter of the probe is larger than the central diameter of the guide arms d-1, the guide body is hung on the probe, the lifting winch is slowly lowered, the probe is lowered into a top closing opening 1-4 of the drilling device to the rotary device 4 under the guide action of the guide steel wire rope, the guide device 1 retracts a clamp block 3-1 at the moment, a clamping oil cylinder 1-2 is started, the clamping oil cylinder 1-2 extends to open a fork and is connected with a drill rod 14 special connector, the buffer spring 1-3 acts, if the crossing connection is not in place, the guiding device 1 starts to contract and descend until the position of a catcher, the buffer spring 1-3 pops out and crosses the connection in place, the guiding device 1 continues to work and descend, the probe is pressed down, the size of the position of a feeler lever catcher is determined, the guiding device 1 reaches the bottom position, the clamping oil cylinder 1-2 is recovered, the next cycle is continued, when the probe meets hard layers such as gravel and the like and needs to be drilled in a rotary mode, the probe is pulled up by a lifting winch, a drilling tool with a drill rod 14 replaced is put into the drilling tool according to the mode of lowering the feeler lever, the clamping oil cylinder 1-2 is withdrawn at the moment, a gathering port 1-4 is concentric, the drilling tool is put into a hole, the guiding device 1 rises to the top, the hollow oil cylinder 8 is started to press a clamp block 3-1, the drill rod 14 is clamped, the hydraulic motor 7 is started, the guiding, the drilling tool needs to be lifted lightly, the pressure is mastered by sweeping down slowly, when the footage speed is increased, the hydraulic pressure meter descends, the situation that a gravel layer passes can be considered, the lifting drill is clamped, the position size is recorded, the probe is replaced, previous construction is continued, and when core is taken from the weathered rock layer, an impact drilling tool can be selected for impact construction.

Example one

The top of the caliper component 2 is provided with furling openings 1-4, the top of the clamping support caliper component 2 is provided with furling openings 1-4, and when the device works underwater, some devices need to be replaced, so that the set furling openings 1-4, when the probe rod is inserted into the furling openings 1-4, the arc shape of the furling openings 1-4 can be guided, and the probe rod can pass through the probe rod quickly and conveniently.

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 (6)

1. A submersible multifunctional automatic digital exploration machine comprises a guide device (1), and is characterized in that: a caliper assembly (2) and a rotating device (4) are welded at the upper part of the pilot device (1), a clamping oil cylinder (1-2) is installed in the caliper assembly (2), a piston top of the clamping oil cylinder (1-2) is sleeved with a buffer spring (1-3), and the clamping oil cylinder (1-2) pushes a clamping jaw fork drill rod (14);

the hydraulic lifting device is characterized in that a hollow oil cylinder (8) is installed on the upper portion of the slewing device (4), a clamp block (3-1) is sleeved on the hollow oil cylinder (8), a spring is arranged on the top of the clamp block (3-1) in a reset mode, a hydraulic motor (7) is installed on the slewing device (4), a bevel gear (9) is rotatably connected to the axis of the hydraulic motor (7), the bevel gear (9) is meshed with a big bevel gear (6), the big bevel gear (6) is sleeved with a vertical shaft, and the big bevel gear (6) drives the vertical shaft to rotate.

2. The submersible multi-function automated digital prospecting machine of claim 1, characterized in that: the outer wall of the guide device (1) is sleeved with a rope pressing disc (d-3), the outer wall of the rope pressing disc (d-3) is spliced with a bolt, the outer wall of the rope pressing disc (d-3) is spliced with a guide arm (d-1) through the arranged bolt, the inner wall of the guide arm (d-1) is welded with a rotating shaft, the inner wall of the guide arm (d-1) is rotatably connected with a pulley (d-2) through the arranged rotating shaft, the outer wall of the guide arm (d-1) is rotatably connected with a hinge, the outer wall of the guide arm (d-1) is rotatably connected with an opening body (d-4) through the arranged hinge, the bottom of the guide device (1) is sleeved with a protective cover pipe (5-2), and the bottom of the protective cover pipe (5-2) is welded with a balance oil cylinder (5-1), the device is characterized in that a rack sleeve (3) is mounted at the center of the bottom of the device, gears are mounted on two sides of the rack sleeve (3), the gears are meshed with racks, the racks and the gears are driven by a motor, a motor driving device is mounted on a base, a counterweight (5) is fixedly connected to the bottom of the rack sleeve (3) through the base, and a drill rod (14) is sleeved on the inner wall of the guide device (1).

3. The submersible multi-function automated digital prospecting machine of claim 2, characterized in that: the bottom of the guide arm (d-1) is welded with a support, the inner wall of the clamp block (3-1) is movably connected with a probe rod, the top of the clamp block (3-1) is connected with a clamp assembly (2) in a clamping mode through the probe rod, and the inner wall of the clamp assembly (2) is connected with a clamping oil cylinder (1-2) in a clamping mode.

4. The submersible multi-function automated digital prospecting machine of claim 2, characterized in that: the top of the rack sleeve (3) is welded with a gap bridge pulley (L-2) through a arranged base, and two ends of the top of the rack sleeve (3), which are far away from the gap bridge pulley (L-2), are welded with guide pulleys (L-1).

5. The submersible multi-function automated digital prospecting machine of claim 2, characterized in that: the outer wall of the clamping oil cylinder (1-2) is welded with a buffer spring (1-3), the clamping oil cylinder (1-2) is welded with a clamping block (1-1) through the arranged buffer spring (1-3), the middle of the device is welded on the upper portion of a piston of the guide device (1) through the arranged probe rod clamp rotating device (4), and the rotating device (4) is pressurized and lifted through the guide device (1).

6. The submersible multi-function automated digital prospecting machine of claim 1, characterized in that: the top of the caliper component (2) is provided with a furling opening (1-4).

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