CN211598536U - Be used for slope engineering geological survey probing anti-toppling device - Google Patents

Abstract

The utility model belongs to the technical field of drilling and anti-toppling, in particular to a drilling and anti-toppling device for the geological exploration of side slope engineering, which aims at the problem that the prior drilling machine is easy to topple, but some drilling machines with better stability are difficult to transport due to a larger base, and bring difficulty to construction, the following proposal is provided, which comprises a base and the drilling machine arranged at the top of the base, wherein the top of the base is fixedly provided with a motor and a shell, two first slideways are respectively arranged at two sides of the base, two second slideways are respectively arranged at the other two sides of the base, four first slide bars and four second slide bars are respectively arranged in the four first slideways and the four second slideways in a sliding way, and the bottoms of the four first slide bars and the four second slide bars are respectively and fixedly connected with a support leg, the utility model discloses a slidable first slide bar and a second slide bar are arranged, so that the drilling machine is difficult to topple and improve the, and the transportation is convenient, and the use is convenient.

Description

Be used for slope engineering geological survey probing anti-toppling device

Technical Field

The utility model relates to a technical field is prevented empting in the probing especially relates to a device is prevented empting in probing for side slope engineering geological survey.

Background

In order to meet the requirements of engineering, some soil needs to be excavated, a side slope needs to be set to a certain angle in order to prevent landslide and needs to be further reinforced, so that later-stage engineering construction is facilitated, the scheme is called as side slope engineering, geological exploration needs to be carried out before the side slope engineering is worked to determine subsequent engineering, and a drilling rig needs to be used when the soil quality is explored;

however, when drilling, the drilling machine is easy to topple due to vibration or geographic unevenness, and the like, but some drilling machines with larger bases and better stability are difficult to transport due to the larger bases, so that difficulty is brought to construction.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the drilling machine and empting easily, but the drilling machine that some individual steadiness are better is again because great base is difficult to the transportation, has brought the shortcoming of difficulty for the construction, and the slope engineering geology reconnaissance drilling anti-overturning device that is used for that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a drilling anti-overturning device for side slope engineering geological survey, including base and the drilling rig of setting at the base top, the top fixed mounting of base has motor and casing, and two first slides have all been seted up to the both sides of base, and two second slides have all begun in the other both sides of base, and slidable mounting has four first slide bars and four second slide bars respectively in four first slides and four second slides, and the equal fixedly connected with stabilizer blade in bottom of four first slide bars and four second slide bars, the motor cooperatees with four first slide bars and four second slide bars respectively.

Preferably, the top of base begins to have first rotatory hole, first rotary rod is installed to first rotatory downthehole rotation, the one end of first rotary rod extends to the casing and first bevel gear of fixedly connected with, the welding has the rotation axis on the output shaft of motor, the one end of rotation axis extends to the casing and second bevel gear of fixedly connected with, first bevel gear meshes with second bevel gear mutually, set up the rotatory hole of second that communicates with first rotatory hole in the base, and the other end of first bevel gear extends to the second rotatory downthehole and fixedly connected with third bevel gear, first rotary rod drives the rotation of third bevel gear.

Preferably, two second rotary rods are installed in the second rotary hole in a rotating mode, one ends, close to each other, of the two second rotary rods are fixedly connected with fourth bevel gears, the two fourth bevel gears are meshed with the third bevel gears, one ends, far away from each other, of the two second rotary rods are fixedly connected with fifth bevel gears, and the second rotary rods drive the fifth bevel gears to rotate.

Preferably, thread grooves are formed in one ends of the four first sliding rods, sliding channels are formed in the four first sliding rods, first threaded rods are connected to the inner portions of the four thread grooves in a threaded mode, one ends of the four first threaded rods extend into the second rotating holes and are fixedly connected with sixth bevel gears, the four sixth bevel gears are meshed with the two fifth bevel gears in a pairwise mode, one ends of the four first threaded rods are fixedly connected with rectangular rods, one ends of the four rectangular rods are fixedly connected with transmission rods, sliding blocks are arranged in the four sliding channels in a sliding mode, channels are formed in the four sliding blocks, the other ends of the four transmission rods penetrate through the sliding channels and extend into the channels, and are fixedly connected with seventh bevel gears, the four seventh bevel gears are matched with the four channels respectively, and the threaded rods are driven to slide in the first sliding channels.

Preferably, all rotate in four passageways and install the fluted disc, all seted up the screw thread opening on four fluted discs, and four fluted discs mesh with four seventh bevel gears mutually respectively, and the outside of four second slide bars all is provided with the screw thread, and four second slide bars are respectively threaded installation in four screw thread openings, and the screw thread opening passes through the screw thread in the second slide outside the second slide bar and drives the second slide bar and slide in the second slide.

Compared with the prior art, the utility model has the advantages of:

(1) according to the scheme, the fifth bevel gear is matched with the sixth bevel gear, and the threaded rod is matched with the first slide rod, so that the first slide rod can be driven to slide through the threaded rod through transmission of the sixth bevel gear;

(2) according to the scheme, the seventh bevel gear is matched with the fluted disc, and the threaded through hole is matched with the second slide bar, so that the seventh bevel gear rotates to drive the second slide bar to slide;

the utility model discloses a setting can gliding first slide bar and second slide bar for the drilling rig is difficult to empty and has improved the steadiness, and convenient transportation, convenient to use.

Drawings

Fig. 1 is a schematic view of the appearance structure of the anti-toppling device for the geological survey and drilling of the side slope engineering provided by the utility model;

fig. 2 is a schematic view of the overlooking structure of the anti-toppling device for the geological survey and drilling of the side slope engineering provided by the utility model;

FIG. 3 is a schematic side view of the base of the anti-toppling device for the geological survey of slope engineering;

fig. 4 is an enlarged schematic structural view of a point a in fig. 3 of the device for preventing the side slope engineering geological exploration and drilling from falling, which is provided by the utility model;

FIG. 5 is a schematic structural view showing the connection between the second slide bar and the slide block of the anti-toppling device for the geological survey of slope engineering;

fig. 6 is the utility model provides a structural schematic that fluted disc and seventh bevel gear are connected that is used for side slope engineering geological survey probing anti-toppling device.

In the figure: the drilling machine comprises a base 1, a drilling machine 2, a motor 3, a shell 4, a first sliding rod 5, a second sliding rod 6, a supporting foot 7, a first rotating rod 8, a first bevel gear 9, a rotating shaft 10, a second bevel gear 11, a third bevel gear 12, a second rotating rod 13, a fourth bevel gear 14, a fifth bevel gear 15, a first threaded rod 16, a sixth bevel gear 17, a rectangular rod 18, a driving rod 19, a sliding block 20, a seventh bevel gear 21, a fluted disc 22 and a threaded through hole 23.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-6, a drilling anti-toppling device for slope engineering geological exploration, including base 1 and the drilling machine 2 of setting at the base top, the top fixed mounting of base 1 has motor 3 and casing 4, and two first slides have all been seted up to the both sides of base 1, two second slides have all begun in the other both sides of base 1, slidable mounting has four first slide bars 5 and four second slide bars 6 respectively in four first slides and four second slides, and the equal fixedly connected with stabilizer blade 7 in bottom of four first slide bars 5 and four second slide bars 6, motor 3 cooperatees with four first slide bars 5 and four second slide bars 6 respectively.

In this embodiment, the top of base 1 begins to have first rotatory hole, first rotary rod 8 is installed to first rotatory downthehole internal rotation, the one end of first rotary rod 8 extends to in the casing 4 and the first bevel gear 9 of fixedly connected with, the welding has rotation axis 10 on the output shaft of motor 3, the one end of rotation axis 10 extends to in the casing 4 and fixedly connected with second bevel gear 11, first bevel gear 9 meshes with second bevel gear 11 mutually, set up the second rotatory hole of putting through with first rotatory hole in the base 1, and the other end of first bevel gear 9 extends to in the second rotatory hole and fixedly connected with third bevel gear 12, first rotary rod 8 drives third bevel gear 12 and rotates.

In this embodiment, two second rotary rods 13 are installed in the second rotary hole, two second rotary rods 13 are close to each other and are fixedly connected with fourth bevel gears 14 at one ends, two fourth bevel gears 14 are engaged with third bevel gears 12, two second rotary rods 13 are far away from each other and are fixedly connected with fifth bevel gears 15 at one ends, and second rotary rods 13 drive fifth bevel gears 15 to rotate.

In this embodiment, threaded grooves are formed in one ends of the four first slide bars 5, sliding channels are formed in the four first slide bars 5, first threaded rods 16 are connected to the four threaded grooves through threads, one ends of the four first threaded rods 16 extend into the second rotary hole and are fixedly connected with sixth bevel gears 17, the four sixth bevel gears 17 are meshed with the two fifth bevel gears 15 in a pairwise mode, one end of each first threaded rod 16 is fixedly connected with one end of a rectangular rod 18, the other end of each rectangular rod 18 is fixedly connected with one end of a transmission rod 19, sliding blocks 20 are installed in the four sliding channels in a sliding mode, channels are formed in the four sliding blocks 20, the other ends of the four transmission rods 19 extend into the channels through the sliding channels and are fixedly connected with seventh bevel gears 21, the four seventh bevel gears 21 are matched with the four channels respectively, and the threaded rods 18 drive the first slide bars 5 to slide in the first sliding channels.

In this embodiment, the fluted discs 22 are rotatably installed in the four channels, the threaded openings 23 are formed in the four fluted discs 22, the four fluted discs 22 are respectively meshed with the four seventh bevel gears 21, the outer sides of the four second slide bars 6 are provided with threads, the four second slide bars 6 are respectively installed in the four threaded openings 23 through threads, and the threaded openings 23 drive the second slide bars 16 to slide in the second slide way through the threads on the outer sides of the second slide bars 16.

Example two

Referring to fig. 1-6, a drilling anti-toppling device for side slope engineering geological exploration, including base 1 and the drilling machine 2 of setting at the base top, there are motor 3 and casing 4 at the top of base 1 through bolt fixed mounting, and two first slides have all been seted up to the both sides of base 1, two second slides have all begun in the other both sides of base 1, slidable mounting has four first slide bars 5 and four second slide bars 6 respectively in four first slides and the four second slides, and the bottom of four first slide bars 5 and four second slide bars 6 all is through welded fixed connection with stabilizer blade 7, motor 3 cooperatees with four first slide bars 5 and four second slide bars 6 respectively.

In this embodiment, the top of base 1 begins to have first rotatory hole, first rotary rod 8 is installed to the internal rotation of first rotatory downthehole, the one end of first rotary rod 8 extends to in the casing 4 and through the first bevel gear 9 of welded fastening connection, the welding has rotation axis 10 on the output shaft of motor 3, the one end of rotation axis 10 extends to in the casing 4 and through welded fastening connection second bevel gear 11, first bevel gear 9 meshes with second bevel gear 11 mutually, the second rotatory hole of putting through with first rotatory hole is seted up in the base 1, and the other end of first bevel gear 9 extends to in the second rotatory hole and through welded fastening connection with third bevel gear 12, first rotary rod 8 drives third bevel gear 12 and rotates.

In this embodiment, two second rotary rods 13 are installed in the second rotary hole, one end of each of the two second rotary rods 13 close to each other is connected with a fourth bevel gear 14 through welding, the two fourth bevel gears 14 are engaged with a third bevel gear 12, one end of each of the two second rotary rods 13 far away from each other is connected with a fifth bevel gear 15 through welding, and the second rotary rods 13 drive the fifth bevel gear 15 to rotate.

In the embodiment, one end of each of the four first sliding bars 5 is provided with a thread groove, each of the four first sliding bars 5 is provided with a sliding track, each of the four thread grooves is connected with a first threaded rod 16 in a threaded manner, one end of each of the four first threaded rods 16 extends into the second rotary hole and is fixedly connected with a sixth bevel gear 17 by welding, each of the four sixth bevel gears 17 is meshed with the two fifth bevel gears 15 in a group of two by two, one end of each of the four first threaded rods 16 is fixedly connected with one end of a rectangular rod 18 by welding, the other end of each of the four rectangular rods 18 is fixedly connected with one end of a transmission rod 19 by welding, each of the four sliding tracks is internally and slidably provided with a slider 20, each of the four sliders 20 is provided with a channel, the other end of each of the four transmission rods 19 extends into the channel through the sliding track and is fixedly connected with a seventh bevel gear 21, the threaded rod 18 drives the first slide bar 5 to slide in the first slideway.

In this embodiment, the fluted discs 22 are rotatably installed in the four channels, the threaded openings 23 are formed in the four fluted discs 22, the four fluted discs 22 are respectively meshed with the four seventh bevel gears 21, the outer sides of the four second slide bars 6 are provided with threads, the four second slide bars 6 are respectively installed in the four threaded openings 23 through threads, and the threaded openings 23 drive the second slide bars 16 to slide in the second slide way through the threads on the outer sides of the second slide bars 16.

In this embodiment, when the motor 3 is started, the output shaft of the motor 3 drives the rotating shaft 10 to rotate, the rotating shaft 10 drives the first bevel gear 9 to rotate, the first bevel gear 9 drives the second bevel gear 11 to rotate, the second bevel gear 11 drives the first rotating rod 8 to rotate, the first rotating rod 8 drives the third bevel gear 12 to rotate, the third bevel gear 12 drives the fourth bevel gear 14 to rotate, the fourth bevel gear 14 drives the second rotating rod 13 to rotate, the second rotating rod 13 drives the fifth bevel gear 15 to rotate, the fifth bevel gear 15 drives the sixth bevel gear 17 to rotate, the sixth bevel gear 17 drives the threaded rod 16 to rotate, the threaded rod 16 drives the first sliding rod 5 to slide outwards in the first slideway through the threaded groove, meanwhile, the threaded rod 16 drives the rectangular rod 18 to rotate, the rectangular rod 18 drives the transmission rod 19 to rotate, the transmission rod 19 drives the seventh bevel gear 21 to rotate, the seventh bevel gear 21 drives the fluted, fluted disc 22 drives screw thread opening 23 synchronous revolution, screw thread opening 23 drives second slide bar 6 and slides in the second slide through the outer survey screw thread of second slide bar 6, simultaneously because first slide bar is also sliding, make slider 20 slide in the slide, expand the back until first slide bar 5 and second slide bar 6 all slide, support on ground through stabilizer blade 7, very big increase lifting surface, the steadiness has been improved, prevent to dig the in-process and empty, when needs transportation, make motor 3 antiport can make first slide bar 5 and second slide bar 6 withdraw, the convenient transportation of area has been reduced.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims (5)

1. Be used for side slope engineering geological survey probing anti-toppling device, including base and the drilling rig of setting at the base top, its characterized in that, the top fixed mounting of base has motor and casing, and two first slides have all been seted up to the both sides of base, and two second slides have all begun in the other both sides of base, and slidable mounting has four first slide bars and four second slide bars respectively in four first slides and four second slides, and the equal fixedly connected with stabilizer blade in bottom of four first slide bars and four second slide bars, the motor cooperatees with four first slide bars and four second slide bars respectively.

2. The anti-toppling device for side slope engineering geological exploration drilling according to claim 1, wherein a first rotating hole is formed in the top of the base, a first rotating rod is rotatably mounted in the first rotating hole, one end of the first rotating rod extends into the shell and is fixedly connected with a first bevel gear, a rotating shaft is welded on an output shaft of the motor, one end of the rotating shaft extends into the shell and is fixedly connected with a second bevel gear, the first bevel gear is meshed with the second bevel gear, a second rotating hole communicated with the first rotating hole is formed in the base, and the other end of the first bevel gear extends into the second rotating hole and is fixedly connected with a third bevel gear.

3. The anti-toppling device for side slope engineering geological exploration drilling according to claim 2, wherein two second rotating rods are rotatably mounted in the second rotating hole, one ends of the two second rotating rods, which are close to each other, are fixedly connected with fourth bevel gears, the two fourth bevel gears are respectively meshed with the third bevel gears, and one ends of the two second rotating rods, which are far from each other, are fixedly connected with fifth bevel gears.

4. The anti-toppling device for the geological survey, drilling and the like of the side slope engineering according to claim 1, wherein one end of each of the four first sliding bars is provided with a thread groove, and the sliding channel has all been seted up on four first slide bars, equal threaded connection has first threaded rod in four thread grooves, the one end of four first threaded rods all extends to in the second swivelling joint hole and fixedly connected with sixth bevel gear, two double-phase a set of respectively with two meshing of fifth bevel gear of four sixth bevel gears, the one end of the equal fixedly connected with rectangular pole of one end of four first threaded rods, the one end of the equal fixedly connected with transfer line of the other end of four rectangular poles, equal slidable mounting has the slider in four sliding channels, the passageway has all been seted up on four sliders, the other end of four transfer lines all runs through the sliding channel and extends to in the passageway and fixedly connected with seventh bevel gear, four seventh bevel gear cooperate with four passageways respectively.

5. The anti-toppling device for the geological exploration and drilling of the side slope engineering as claimed in claim 4, wherein the four channels are rotatably provided with fluted discs, the four fluted discs are provided with threaded through holes, the four fluted discs are respectively meshed with the four seventh bevel gears, the outer sides of the four second slide bars are provided with threads, and the four second slide bars are respectively and threadedly mounted in the four threaded through holes.

Images