CN112698006A - Environment ecological land used geological survey device based on big data - Google Patents

Abstract

The invention discloses a geological survey device for environment ecology based on big data, which comprises a base, wherein a supporting shell is arranged on the base, a height lifting device is arranged on the supporting shell, the connecting end of the height lifting device is connected with a sampling and leveling device which is used for carrying out auxiliary sampling and leveling on soil during geological survey, the geological survey device for environment ecology based on big data can collect soil sampled and beaten out by surveying through the height lifting device arranged on the base and the sampling and leveling device arranged at the connecting end of the height lifting device, after the survey is finished, a soil collecting device can be rotated and inverted, a leveling pipe communicated with one end of a material collecting pipe moves along the inside of a hole, then the soil is poured into the hole, and the effect of compacting and filling the hole is realized, further preventing the phenomenon of water and soil loss.

Description

Environment ecological land used geological survey device based on big data

Technical Field

The invention relates to the technical field of geological exploration for environmental ecology, in particular to a geological exploration device for environmental ecology based on big data.

Background

Ecological geology is the science of studying the relationship between human-based organisms and the geological environment. The concept of "ecological geology" better embodies the interaction between the earth's rockwell, water, biosphere and the atmosphere.

At present, in order to ensure environmental ecology, soil in different environments needs to be surveyed, in the process of geological survey, groove exploration is a commonly used survey technology in geological survey, in the practical application process of the technology, mechanical equipment glass earth surface needs to be used, phenomena such as stability reduction of earth surface side slopes, poor earth pressure balance and the like occur, collapse and quality disasters such as debris flow occur frequently, and after drilling and pit exploration engineering are finished, leveling construction is not timely carried out on drilled holes, so that the probability of water and soil loss is increased, and therefore the environmental ecology geological survey device based on big data is provided.

Disclosure of Invention

The invention aims to provide a geological survey device for environmental ecology based on big data, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a geological survey device for environmental ecology based on big data, includes the base, be equipped with the support shell on the base, and be equipped with high elevating gear on the support shell, high elevating gear link is connected with carries out the sampling of assisting the sampling and carries out the sampling device of filling and level up to soil when surveying the geology.

Preferably, the height lifting device comprises a driving motor fixedly connected to the top end of the supporting shell, the output end of the driving motor penetrates through the top end of the supporting shell and is fixedly connected with a driving screw rod, and the driving screw rod is rotatably connected to the inside of the supporting shell through a bearing;

the movable block is rotatably sleeved on the outer side of the driving screw rod and penetrates through the supporting shell in a sliding mode, the sampling and leveling device is connected with the movable block, and the lifting device is arranged so that the effect of adjusting the height of the sampling and leveling device is achieved.

Preferably, the sampling and leveling device comprises a supporting shaft which is rotatably connected with the outer side of the moving block through a bearing seat, the moving block is provided with a rotating member which drives the supporting angle of the supporting shaft, one end of the supporting shaft, which is far away from the moving block, is fixedly connected with a connecting block, and the outer side of the connecting block is fixedly connected with an aggregate shell;

the one end of the shell that gathers materials is equipped with the drilling piece that carries out the drilling sampling to soil, and the shell other end that gathers materials is equipped with the piece of filling up that fills up to soil, fills up the device through the sampling that is equipped with to play and to sample the effect that can fill up hole department after soil.

Preferably, the drilling piece includes the passage with the shell intercommunication that gathers materials, the bottom intercommunication of passage has the inlet pipe, be equipped with the transport piece of carrying out the transport to soil between inlet pipe and the passage, through the drilling piece that is equipped with to play the effect of sampling to soil.

Preferably, the conveying piece comprises a first guide rod rotatably connected inside the material guide pipe, one end of the first guide rod, which is positioned outside the material guide pipe, is fixedly connected with a first bevel gear, the outer side of the first bevel gear is in meshing connection with a second bevel gear, and one side of the second bevel gear is fixedly connected with a rotating shaft;

the outer side of the rotating shaft is rotatably sleeved with a connecting plate through a bearing, the bottom end of the connecting plate is fixedly connected with a moving sleeve, the moving sleeve is sleeved outside the material guide pipe, and a driving piece for driving the position of the moving sleeve is arranged outside the material guide pipe;

one end of the rotating shaft, which is far away from the second helical gear, is fixedly connected with a rotating motor, the rotating motor is fixedly connected with a connecting plate through a support, a third helical gear is fixedly sleeved on the outer side of the rotating shaft, a fourth helical gear is meshed and connected with the outer side of the third helical gear, the bottom end of the fourth helical gear is fixedly connected with a rotating shaft, the rotating shaft penetrates through the connecting plate, and the rotating shaft is rotatably connected with the connecting plate through a bearing;

the feeding pipe is provided with a sliding chute, a movable sealing piece is arranged at the sliding chute, one end of the rotating shaft, which is positioned in the feeding pipe, is fixedly connected with a fifth helical gear, the outer side of the fifth helical gear is connected with a sixth helical gear in a meshed manner, a positioning shaft is fixedly penetrated in the sixth helical gear, the positioning shaft is rotatably connected in the feeding pipe through a support, and two ends of the positioning shaft are respectively and fixedly connected with a second guide rod and a third guide rod;

the spiral blades are fixedly connected to the outer sides of the first guide rod, the second guide rod and the third guide rod, and conveying pieces are arranged, so that the effect of conveying soil is achieved.

Preferably, the driving piece includes first fixed plate and the second fixed plate of fixed connection in the passage outside respectively, two slide bars of fixedly connected with between first fixed plate and the second fixed plate, it cup joints in two slide bar outsides to remove the cover slip, the threaded rod is run through to the inside of removing the cover bottom, and threaded rod and removal cover threaded connection, the both ends of threaded rod are rotated through bearing frame and first fixed plate and second fixed plate respectively and are connected, be equipped with on the first fixed plate and carry out driven drive arrangement to the threaded rod, through the driving piece that is equipped with to play and carry out driven effect to removing the cover.

Preferably, the movable sealing element comprises a positioning block which is sleeved outside the rotating shaft in a rotating mode through a bearing, the positioning block is connected to the sliding groove in a sliding mode, two rubber belts are fixedly connected to two ends of the positioning block respectively and are in sliding clamping connection to the sliding groove, and the sliding groove is sealed through the movable sealing element.

Preferably, fill and level up the piece and include with the flat pipe of filling up of the shell intercommunication that gathers materials, the one end of filling up flat pipe is equipped with the discharging pipe, and the equidistance is equipped with a plurality of discharge gate on the discharging pipe, the discharging pipe is inside and is located a plurality of discharge gate department and is equipped with sealed piece, the discharging pipe is kept away from the inside fixedly connected with electric putter who fills up flat pipe one end, and electric putter output and sealed piece fixed connection, through the flat piece of filling up that is equipped with to play the effect of filling up the hole.

Preferably, the rotating part comprises a positioning motor fixedly connected to the moving block, a rotating gear is fixedly connected to the output end of the positioning motor, a rotating gear is meshed and connected to the outer side of the rotating gear, the rotating gear is fixedly sleeved on the outer side of the supporting shaft, and the supporting shaft is driven through the rotating part.

Compared with the prior art, the invention has the beneficial effects that:

when the soil collecting device is used, the height lifting device is arranged on the base, the sampling and leveling device is arranged at the connecting end of the height lifting device, the sampling and leveling device can collect soil sampled and surveyed during geological survey, after the survey is finished, the soil collecting device can be rotated and inverted, the leveling pipe communicated with one end of the material collecting pipe moves along the inside of the hole, then the soil is poured into the hole, the hole is compacted and filled, and the phenomenon of water and soil loss is further prevented.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of the overall structure of the present invention;

FIG. 3 is a schematic diagram of a moving block structure according to the present invention;

FIG. 4 is a schematic view of the internal structure of the aggregate shell of the present invention;

FIG. 5 is a schematic view of a driving member according to the present invention;

FIG. 6 is a schematic view of the sealing block structure of the present invention;

FIG. 7 is an enlarged view of area A of FIG. 4 according to the present invention.

In the figure: 1-a base; 2-a support shell; 3-driving a motor; 4-driving the screw rod; 5-moving block; 6-a height lifting device; 7-a sampling and filling device; 8-supporting the shaft; 9-a rotating member; 10-connecting blocks; 11-aggregate shell; 12-a drilling member; 13-a filler; 14-a material guide pipe; 15-feed pipe; 16-a transport; 17-a first guide bar; 18-a first bevel gear; 19-a second bevel gear; 20-a rotating shaft; 21-a connecting plate; 22-moving the sleeve; 23-a drive member; 24-a rotating motor; 25-a third helical gear; 26-a fourth bevel gear; 27-a rotating shaft; 28-a chute; 29-moving the seal; 30-a fifth bevel gear; 31-a sixth bevel gear; 32-positioning the shaft; 33-a second guide bar; 34-a third guide bar; 35-helical leaves; 36-a first fixing plate; 37-a second fixing plate; 38-a slide bar; 39-threaded rod; 40-positioning blocks; 41-rubber belt; 42-a leveling tube; 43-a discharge pipe; 44-a sealing block; 45-electric push rod; 46-a positioning motor; 47-a rotating gear; 48-rotating gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an ecological land used for environment surveys device based on big data, includes base 1, for the convenience of the holistic removal of equipment, sets up a plurality of universal wheel in base 1 bottom, and threaded connection fixing bolt can play simultaneously on base 1 makes base 1 carry out the effect fixed for ground, be equipped with support shell 2 on base 1, and be equipped with high elevating gear 6 on the support shell 2, high elevating gear 6 link is connected with carries out the auxiliary sampling and fills up the sampling device 7 of leveling up to soil when surveying geology.

The height lifting device 6 comprises a driving motor 3 fixedly connected to the top end of the supporting shell 2, the output end of the driving motor 3 penetrates through the top end of the supporting shell 2 and is fixedly connected with a driving screw rod 4, and the driving screw rod 4 is rotatably connected to the inside of the supporting shell 2 through a bearing;

the outer side of the driving screw rod 4 is rotatably sleeved with a moving block 5, the moving block 5 penetrates through the supporting shell 2 in a sliding mode, the sampling leveling device 7 is connected with the moving block 5 and runs through the driving motor 3, the driving screw rod 4 is further enabled to rotate inside the supporting shell 2, the driving force of the moving block 5 is provided while the driving screw rod 4 rotates, and the moving block 5 vertically moves up and down along the direction of the supporting shell 2 under the limiting effect of the supporting shell 2;

the sampling and leveling device 7 comprises a supporting shaft 8 which is rotatably connected with the outer side of a moving block 5 through a bearing seat, a rotating piece 9 which drives the supporting angle of the supporting shaft 8 is arranged on the moving block 5, the rotating piece 9 comprises a positioning motor 46 which is fixedly connected to the moving block 5, the output end of the positioning motor 46 is fixedly connected with a rotating gear 47, the outer side of the rotating gear 47 is meshed with a rotating gear 48, the rotating gear 48 is fixedly sleeved on the outer side of the supporting shaft 8 and runs through the positioning motor 46, the rotating gear 47 further drives the rotating gear 48 to rotate, and the supporting shaft 8 rotates relative to the moving block 5 when the rotating gear 48 rotates;

one end of the supporting shaft 8, which is far away from the moving block 5, is fixedly connected with a connecting block 10, the outer side of the connecting block 10 is fixedly connected with an aggregate shell 11, and two ends of the aggregate shell 11 are funnel-shaped, so that soil can conveniently enter and flow out;

a drilling part 12 for drilling and sampling soil is arranged at one end of the aggregate shell 11, the drilling part 12 comprises a material guide pipe 14 communicated with the aggregate shell 11, a feeding pipe 15 is communicated with the bottom end of the material guide pipe 14, the bottom end of the feeding pipe 15 is in a hollow conical shape and can play a role in guiding in the soil, a conveying part 16 for conveying the soil is arranged between the feeding pipe 15 and the material guide pipe 14, the conveying part 16 comprises a first guide rod 17 rotatably connected inside the material guide pipe 14, one end, located on the outer side of the material guide pipe 14, of the first guide rod 17 is fixedly connected with a first bevel gear 18, a second bevel gear 19 is meshed and connected with the outer side of the first bevel gear 18, and a rotating shaft 20 is fixedly connected to one side of the second bevel gear 19;

the outer side of the rotating shaft 20 is rotatably sleeved with a connecting plate 21 through a bearing, the bottom end of the connecting plate 21 is fixedly connected with a movable sleeve 22, the movable sleeve 22 is sleeved on the outer side of the material guide 14, the outer side of the material guide 14 is provided with a driving piece 23 for driving the position of the movable sleeve 22, the driving piece 23 comprises a first fixing plate 36 and a second fixing plate 37 which are respectively fixedly connected on the outer side of the material guide 14, two sliding rods 38 are fixedly connected between the first fixing plate 36 and the second fixing plate 37, the movable sleeve 22 is slidably sleeved on the outer sides of the two sliding rods 38, a threaded rod 39 penetrates through the inner part of the bottom end of the movable sleeve 22, the threaded rod 39 is in threaded connection with the movable sleeve 22, two ends of the threaded rod 39 are respectively rotatably connected with the first fixing plate 36 and the second fixing plate 37 through bearing seats, the first fixing plate, the driving device is a device which drives the threaded rod 39 to rotate by a motor through gear engagement, or any driving mode which can realize the rotation of the threaded rod 39 in the prior art;

one end of the rotating shaft 20, which is far away from the second bevel gear 19, is fixedly connected with a rotating motor 24, the rotating motor 24 is fixedly connected with the connecting plate 21 through a bracket, a third bevel gear 25 is fixedly sleeved on the outer side of the rotating shaft 20, a fourth bevel gear 26 is meshed and connected with the outer side of the third bevel gear 25, the bottom end of the fourth bevel gear 26 is fixedly connected with a rotating shaft 27, the rotating shaft 27 penetrates through the connecting plate 21, and the rotating shaft 27 is rotatably connected with the connecting plate 21 through a bearing;

the material guide pipe 14 is provided with a chute 28, the chute 28 is provided with a movable sealing element 29, the movable sealing element 29 comprises a positioning block 40 which is rotatably sleeved outside a rotating shaft 27 through a bearing, the positioning block 40 is slidably connected to the chute 28, two ends of the positioning block 40 are respectively and fixedly connected with rubber belts 41, the two rubber belts 41 are respectively and slidably clamped to the chute 28, the two rubber belts 41 at two ends have elasticity, the elastic sliding connection is always kept at the chute 28 under the limit of the chute 18, the closing of the chute 28 is ensured, one end of the rotating shaft 27 inside the material guide pipe 14 is fixedly connected with a fifth helical gear 30, the outer side of the fifth helical gear 30 is engaged and connected with a sixth helical gear 31, a positioning shaft 32 is fixedly penetrated through the inside of the sixth helical gear 31, and the positioning shaft 32 is rotatably connected inside the material guide pipe 14 through a support, a second guide rod 33 and a third guide rod 34 are fixedly connected to two ends of the positioning shaft 32 respectively;

the outer sides of the first guide rod 17, the second guide rod 33 and the third guide rod 34 are fixedly connected with spiral blades 35;

when soil is sampled, the feeding pipe 15 and the ground form an angle perpendicular to each other, and the second helical gear 19 and the first helical gear 18 are in a meshed connection state, at this time, the rotating motor 24 is operated to further rotate the rotating shaft 20 relative to the connecting plate 21, and the rotating shaft 20 drives the second helical gear 19 and the third helical gear 25 to synchronously rotate while rotating, further rotates the first helical gear 18, and drives the helical blade 35 inside the first helical gear 17 to rotate through the first guide rod 17, so as to realize the effect of hole-turning transmission on soil, and the third helical gear 25 rotates to synchronously drive the fourth helical gear 26 to rotate, and the fourth helical gear 26 rotates while driving the fifth helical gear 30 to rotate through the rotating shaft 27, and the fifth helical gear 30 rotates to drive the sixth helical gear 31 to synchronously rotate, further, the positioning shaft 32 drives the second guide rod 33 and the third guide rod 34 to rotate, so that the spiral blades 35 rotate inside the material guiding pipe 14 to convey the soil into the material collecting shell 11.

And the other end of the aggregate shell 11 is provided with a filling member 13 for filling soil, the filling member 13 comprises a filling pipe 42 communicated with the aggregate shell 11, one end of the filling and leveling pipe 42 is provided with a discharge pipe 43, the discharge pipe 43 is in a circular truncated cone shape, further facilitating the leakage of soil, the end of the discharging pipe 43 away from the filling pipe 42 is made of steel material with higher hardness, which can realize the effect of compacting the soil at the hole, a plurality of discharge holes are equidistantly formed in the discharge pipe 43, sealing blocks 44 are arranged in the discharge pipe 43 and at the discharge holes, an electric push rod 45 is fixedly connected inside one end of the discharge pipe 43 far away from the filling pipe 42, and electric putter 45 output and seal block 44 fixed connection, and through electric putter 45's flexible, further make seal block 44 remove in discharge gate department relatively, realize the effect to the closure or the opening of discharge gate department.

The working principle is as follows: when geological exploration is carried out, the device is moved to a required position through the movement of the base 1, the feeding pipe 15 is perpendicular to the ground, at the moment, the second bevel gear 19 is meshed with the first bevel gear 18, the feeding pipe 15 and the spiral blades 35 in the material guiding pipe 14 are further rotated through the operation of the rotating motor 24, soil is collected into the aggregate shell 11, after sampling is finished, the moving block 5 moves upwards relative to the supporting shell 2, the aggregate shell 11 and the discharging pipe 43 are further perpendicular to the ground through the rotation of the supporting shaft 8, at the moment, the second bevel gear 19 is separated from the first bevel gear 18, at the same time, the spiral blades 35 in the material guiding pipe 14 move along the inside of the aggregate shell 11 under the driving of the rotating motor 24 and the driving device, so that the soil is pushed, and the soil leaks to the inside of the hole through the discharging port on the discharging shell, simultaneously, through the operation of the positive and negative commentaries on classics of driving motor 3 on the support shell 2, further make discharging pipe 43 bottom and the inside soil in hole reciprocate the compaction effect, and along with the increase of compaction height, discharging pipe 43 is located the inside position in hole and removes along ground department gradually, until the realization is filled up the effect of hole department.

In the present application, the circuit operates as a conventional circuit, and the circuits and control involved in the present invention are prior art, and are not described herein in detail.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (9)

1. The utility model provides a geological survey device for environmental ecology based on big data, includes base (1), its characterized in that: be equipped with on base (1) and support shell (2), and be equipped with high elevating gear (6) on supporting shell (2), high elevating gear (6) link is connected with carries out the sampling of assisting sampling and filling and level up device (7) to soil when surveying geology.

2. The big data-based geological survey device for environmental ecology according to claim 1, wherein: the height lifting device (6) comprises a driving motor (3) fixedly connected to the top end of the supporting shell (2), the output end of the driving motor (3) penetrates through the top end of the supporting shell (2) and is fixedly connected with a driving screw rod (4), and the driving screw rod (4) is rotatably connected inside the supporting shell (2) through a bearing;

the outer side of the driving screw rod (4) is rotatably sleeved with a moving block (5), the moving block (5) penetrates through the supporting shell (2) in a sliding mode, and the sampling leveling device (7) is connected with the moving block (5).

3. The big data-based geological survey device for environmental ecology according to claim 1, wherein: the sampling and leveling device (7) comprises a supporting shaft (8) which is rotatably connected with the outer side of the moving block (5) through a bearing seat, a rotating piece (9) which drives the supporting angle of the supporting shaft (8) is arranged on the moving block (5), a connecting block (10) is fixedly connected to one end, away from the moving block (5), of the supporting shaft (8), and an aggregate shell (11) is fixedly connected to the outer side of the connecting block (10);

the one end of the shell (11) that gathers materials is equipped with drilling spare (12) that carry out the drilling sampling to soil, and the shell (11) other end that gathers materials is equipped with fills and levels piece (13) that carry out the level and fill to soil.

4. The big data-based geological survey device for environmental ecology according to claim 3, wherein: drilling spare (12) include with gathering materials guide tube (14) of shell (11) intercommunication, the bottom intercommunication of guide tube (14) has inlet pipe (15), be equipped with between inlet pipe (15) and guide tube (14) and carry out the transport piece (16) that carry soil.

5. The big-data-based geological survey device for environmental ecology according to claim 4, wherein: the conveying piece (16) comprises a first guide rod (17) rotatably connected inside the material guide pipe (14), one end, located on the outer side of the material guide pipe (14), of the first guide rod (17) is fixedly connected with a first bevel gear (18), the outer side of the first bevel gear (18) is in meshed connection with a second bevel gear (19), and one side of the second bevel gear (19) is fixedly connected with a rotating shaft (20);

a connecting plate (21) is rotatably sleeved on the outer side of the rotating shaft (20) through a bearing, a moving sleeve (22) is fixedly connected to the bottom end of the connecting plate (21), the moving sleeve (22) is sleeved on the outer side of the material guide pipe (14), and a driving piece (23) for driving the position of the moving sleeve (22) is arranged on the outer side of the material guide pipe (14);

one end, far away from the second helical gear (19), of the rotating shaft (20) is fixedly connected with a rotating motor (24), the rotating motor (24) is fixedly connected with the connecting plate (21) through a support, a third helical gear (25) is fixedly sleeved on the outer side of the rotating shaft (20), a fourth helical gear (26) is meshed and connected with the outer side of the third helical gear (25), a rotating shaft (27) is fixedly connected to the bottom end of the fourth helical gear (26), the rotating shaft (27) penetrates through the connecting plate (21), and the rotating shaft (27) is rotatably connected with the connecting plate (21) through a bearing;

a sliding groove (28) is formed in the material guide pipe (14), a movable sealing piece (29) is arranged at the sliding groove (28), a fifth helical gear (30) is fixedly connected to one end, located inside the material guide pipe (14), of the rotating shaft (27), a sixth helical gear (31) is connected to the outer side of the fifth helical gear (30) in a meshed mode, a positioning shaft (32) penetrates through the sixth helical gear (31) fixedly, the positioning shaft (32) is connected inside the material guide pipe (14) in a rotating mode through a support, and a second guide rod (33) and a third guide rod (34) are fixedly connected to two ends of the positioning shaft (32) respectively;

the outer sides of the first guide rod (17), the second guide rod (33) and the third guide rod (34) are fixedly connected with spiral blades (35).

6. The big-data-based geological survey device for environmental ecology according to claim 5, wherein: the driving piece (23) comprises a first fixing plate (36) and a second fixing plate (37) which are fixedly connected to the outer side of the material guide pipe (14) respectively, two sliding rods (38) are fixedly connected between the first fixing plate (36) and the second fixing plate (37), the moving sleeve (22) is sleeved on the outer sides of the two sliding rods (38) in a sliding mode, a threaded rod (39) penetrates through the inside of the bottom end of the moving sleeve (22), the threaded rod (39) is connected with the moving sleeve (22) in a threaded mode, two ends of the threaded rod (39) are rotatably connected with the first fixing plate (36) and the second fixing plate (37) through bearing seats respectively, and a driving device for driving the threaded rod (39) is arranged on the first fixing plate (36).

7. The big-data-based geological survey device for environmental ecology according to claim 5, wherein: the movable sealing element (29) comprises a positioning block (40) which is rotatably sleeved on the outer side of the rotating shaft (27) through a bearing, the positioning block (40) is connected to the sliding groove (28) in a sliding mode, two ends of the positioning block (40) are fixedly connected with rubber belts (41) respectively, and the two rubber belts (41) are connected to the sliding groove (28) in a sliding and clamping mode respectively.

8. The big data-based geological survey device for environmental ecology according to claim 3, wherein: fill level piece (13) including with the flat pipe (42) of filling out of shell (11) intercommunication that gathers materials, the one end of filling out flat pipe (42) is equipped with discharging pipe (43), and discharging pipe (43) equidistance is equipped with a plurality of discharge gate, discharging pipe (43) are inside and be located a plurality of discharge gate department and be equipped with sealed piece (44), the inside fixedly connected with electric putter (45) of filling out flat pipe (42) one end is kept away from in discharging pipe (43), and electric putter (45) output and sealed piece (44) fixed connection.

9. The big data-based geological survey device for environmental ecology according to claim 3, wherein: the rotating piece (9) comprises a positioning motor (46) fixedly connected to the moving block (5), a rotating gear (47) is fixedly connected to the output end of the positioning motor (46), a rotating gear (48) is meshed and connected to the outer side of the rotating gear (47), and the rotating gear (48) is fixedly sleeved on the outer side of the supporting shaft (8).

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