CN216594252U - Abandon sediment field geology reconnaissance sampling device for monitoring - Google Patents

Abstract

The utility model relates to a abandon sediment field sampling device for geological survey monitoring especially relates to the field of geological survey, and it includes portal frame, bores native subassembly and water intaking subassembly, still includes adjusting part, adjusting part sets up on the portal frame, bore native subassembly with the water intaking subassembly all sets up on the adjusting part, adjusting part can adjust bore native subassembly with the water intaking subassembly switches at the sample station. This application can simplify the operating procedure that sampling device bored soil and water intaking.

Description

Abandon sediment field geology reconnaissance sampling device for monitoring

Technical Field

The application relates to the field of geological survey, especially, relate to a abandon sediment field sampling device for geological survey monitoring.

Background

The geological survey of the abandoned dreg site refers to the investigation and research of geological conditions such as rocks, stratum structures, mineral products, groundwater and landforms and the like in the abandoned dreg site. A representative sampling station is selected from a slag abandoning field to carry out field test and collect rock and soil samples.

The utility model with application number 202021881584.5 discloses a sampling device for environmental monitoring, which comprises a portal frame, a soil drilling component and a water taking component, wherein the portal frame comprises a top beam and two supporting vertical rods, the soil drilling component comprises a moving member and a soil drilling member, the moving member comprises a protective cover shell, a motor mounting plate arranged in the protective cover shell in a sliding manner and an electric telescopic rod positioned at the top of the protective cover shell, and the driving end of the electric telescopic rod is connected with the motor mounting plate; the soil drilling part comprises a driving motor and a drill rod, the driving motor is arranged below the motor mounting plate, and the drill rod and an output shaft of the driving motor are coaxially arranged; the bottoms of two supporting vertical rods of the portal frame are connected with an air cylinder mounting plate through bolts; the water taking assembly comprises an air cylinder and a water taking groove, the air cylinder is installed above the air cylinder installation plate, and an air cylinder piston rod penetrates through the air cylinder installation plate and penetrates out of the air cylinder installation plate to be connected with the water taking groove.

During the use, operating personnel twists out the bolt, make the cylinder mounting panel dismantle from two support pole settings bottoms, later operating personnel will two support pole settings bottoms and ground butt, start driving motor and electric telescopic handle, electric telescopic handle drives the decline of motor mounting panel, the lifting slide block that the motor mounting panel left and right sides set up slides on fixed spout, driving motor drives the drilling rod and punches to the geology, sample the geology earth of the different degree of depth afterwards, if when will taking a sample to the inside water of geology, after punching, fix the cylinder mounting panel on supporting the clamp plate, start telescopic cylinder, drive the decline of water intaking groove, until stretching into the water source department of sample, the water intaking groove takes a sample to water.

In the related art described above, the inventors considered that, when water is taken after soil drilling, the detached cylinder attachment plate needs to be remounted and fixed to take water, and the operation steps are complicated.

SUMMERY OF THE UTILITY MODEL

In order to simplify the operating procedure that sampling device bored soil and water intaking, this application provides a abandon sediment field sampling device for geological survey monitoring.

The application provides a abandon sediment field geology reconnaissance sampling device for monitoring adopts following technical scheme:

the utility model provides a abandon sediment field geology reconnaissance sampling device for monitoring, includes portal frame, bores native subassembly and water intaking subassembly, still includes adjusting part, adjusting part sets up on the portal frame, bore native subassembly with the water intaking subassembly all sets up on the adjusting part, adjusting part is used for adjusting bore native subassembly or the water intaking subassembly switches at the sampling station.

Through adopting above-mentioned technical scheme, when needs bore soil to abandon slag yard ground, operating personnel adjusts adjusting part for bore soil component and be located sample station department, later adjust and bore soil component and bore soil to ground, when needs take out the water in the drilling, operating personnel adjusts adjusting part, makes the water intaking subassembly be located sample station department, later adjusts the water intaking subassembly and takes a sample to the water in the drilling. The adjusting part of design can adjust and bore native subassembly and water intaking subassembly and switch at the sample station, easy operation to simplify the operating procedure that sampling device bored native and water intaking.

Optionally, the adjusting assembly comprises a gear ring, a sun gear, two planet gears and a planet carrier, the gear ring is fixedly arranged below the top beam of the portal frame, the sun gear and the two planet gears are both arranged in the gear ring, the axes of the sun gear and the two planet gears are parallel to the axis of the gear ring, the sun gear is arranged at the center of the gear ring, the sun gear is coaxially provided with a first rotating shaft, the first rotating shaft is rotatably arranged on the top beam of the portal frame, the first rotating shaft penetrates through the top beam of the portal frame, a penetrating part is provided with an adjusting piece, the two planet gears are both meshed with the sun gear, the two planet gears are both meshed with the inner side wall of the gear ring, the two ends of the planet carrier are respectively rotatably connected with the rotating shaft of one planet gear, and the planet carrier is arranged above the planet gears, and the movable sleeve is established in the middle of the planet carrier on the first rotating shaft, just be equipped with spacing portion on the first rotating shaft, spacing portion is used for the restriction the planet carrier is followed first rotating shaft length direction removes, bore native subassembly consolidation one the planetary gear below, the water intaking subassembly consolidation is in another the planetary gear below.

Through adopting above-mentioned technical scheme, when needs bore soil, operating personnel adjusts the regulating part, make the regulating part drive sun gear and rotate, sun gear drives two planetary gear and rotates, when boring soil subassembly and rotating the sample station, operating personnel stops adjusting the regulating part, later operating personnel adjusts and bores soil subassembly and bores soil, when boring soil later need the water intaking, operating personnel adjusts the regulating part, make the water intaking subassembly rotate to the sample station, later operating personnel adjusts the water intaking subassembly and gets water. The adjusting part of design drives sun gear and two planetary gear through the adjusting part and rotates to the station of boring native subassembly and water intaking subassembly is switched, simplifies the operating procedure that sampling device bored native and water intaking.

Optionally, the adjusting part includes the carousel, the coaxial second pivot that is equipped with of carousel, the second pivot rotates to set up portal frame back timber below, carousel lower surface week side interval has set firmly and has bored native subassembly and water intaking subassembly, just the center of boring native subassembly center and water intaking subassembly equals to the distance of second pivot.

Through adopting above-mentioned technical scheme, when needs switch bore native subassembly or water intaking subassembly, operating personnel rotates the carousel, when boring native subassembly or water intaking subassembly and being located the sample station, the stall carousel. The carousel of design switches the station of boring native subassembly and water intaking subassembly through rotating the carousel, easy operation.

Optionally, the adjusting part is set as a driving motor, the driving motor is arranged on the portal frame top beam, and an output shaft of the driving motor is coaxial with the first rotating shaft.

Through adopting above-mentioned technical scheme, when needs switch bore soil subassembly or water intaking subassembly, operating personnel opens driving motor, and driving motor drives sun gear and rotates, and sun gear drives two planetary gear and rotates, when boring soil subassembly or water intaking subassembly and be located the sample station, stops driving motor. The designed driving motor improves the automation of switching the soil drilling assembly and the water taking assembly.

Optionally, two support pole setting structures of portal frame are the same, all include fixed sleeve, movable rod and mounting, fixed sleeve sets up portal frame back timber both ends, just fixed sleeve sets up along vertical direction, the movable rod cup joints fixed sleeve keeps away from the one end of portal frame crossbeam, the movable rod can be followed fixed sleeve's length direction removes, the mounting be used for with the movable rod is fixed on the fixed sleeve.

Through adopting above-mentioned technical scheme, operating personnel adjusts the length that two movable rods cup jointed in fixed sleeve according to the roughness on sample ground, later adjusts the mounting and fixes the movable rod on fixed sleeve. The fixed sleeve, the movable rod and the fixing piece of design are through adjusting the length of movable rod to and the cooperation fixing piece is fixed with the movable rod, make the portal frame can be suitable for the ground of different roughness, and application scope is wide.

Optionally, the fixing piece is a bolt, a first through hole is formed in the lower portion of the fixing sleeve, the movable rod is provided with a plurality of second through holes at intervals along the length direction of the movable rod, and the bolt can be inserted into the first through hole and the second through holes simultaneously.

Through adopting above-mentioned technical scheme, when sample ground unevenness, operating personnel adjusts the length of movable rod for two movable rod lengths and ground adaptation, when the second through-hole aligns with first through-hole, operating personnel insert the bolt in first through-hole and the second through-hole. The bolt of design can insert simultaneously in first through-hole and the second through-hole for can effectively fix movable rod and fixed sleeve, simple structure, practicality.

Optionally, one end of the movable rod, which is far away from the fixed sleeve, is provided with a supporting flat plate.

Through adopting above-mentioned technical scheme, the support of design is dull and stereotyped, helps increasing the area of movable rod and ground contact for portal frame more stable support is subaerial.

Optionally, a plurality of protrusions are arranged on one side of the support flat plate, which is far away from the movable rod, at intervals.

Through adopting above-mentioned technical scheme, the arch of design can strengthen the ground power of grabbing of supporting flat board to ground, helps portal frame more stable support subaerial.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the designed adjusting assembly can adjust the soil drilling assembly and the water taking assembly to be switched at a sampling station, and the operation is simple, so that the operation steps of soil drilling and water taking of the sampling device are simplified;

2. the designed adjusting component drives the sun gear and the two planetary gears to rotate through the adjusting component, so that stations of the soil drilling component and the water taking component are switched, and the operation steps of soil drilling and water taking of the sampling device are simplified;

3. the fixed sleeve, the movable rod and the fixing piece of design are through adjusting the length of movable rod to and the cooperation fixing piece is fixed with the movable rod, make the portal frame can be suitable for the ground of different roughness, and application scope is wide.

Drawings

Fig. 1 is a schematic overall structure diagram of a sampling device for geological survey monitoring of a spoil area according to embodiment 1 of the present application.

Fig. 2 is a schematic overall structure diagram of a sampling device for geological survey monitoring of a spoil area according to embodiment 2 of the present application.

Description of reference numerals: 1. a gantry; 11. supporting the upright stanchion; 111. fixing the sleeve; 1111. a first through hole; 112. a movable rod; 1121. a second through hole; 1122. supporting the flat plate; 1123. a protrusion; 113. a fixing member; 1131. a bolt; 12. a handle; 2. drilling an earth component; 21. a moving member; 211. a protective housing; 212. a slide bar; 213. a motor mounting plate; 214. an electric telescopic rod; 22. drilling a soil piece; 221. a drive motor; 222. drilling a rod; 3. a water intake assembly; 31. a cylinder; 32. taking a water tank; 4. an adjustment assembly; 41. a gear ring; 411. a vertical plate; 42. a sun gear; 421. a first rotating shaft; 43. a planetary gear; 44. a planet carrier; 441. a third through hole; 45. a turntable; 451. a second rotating shaft; 5. an adjustment member; 51. a drive motor; 6. a limiting part; 61. a limiting disc.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

Example 1

The embodiment 1 of the application discloses a abandon sediment field sampling device for geological survey monitoring. Referring to fig. 1, abandon sediment farm geology reconnaissance sampling device for monitoring and include portal frame 1, adjusting part 4, bore native subassembly 2 and water intaking subassembly 3, the welding of portal frame 1 back timber has handle 12, and adjusting part 4 sets up on portal frame 1 back timber, bores native subassembly 2 and water intaking subassembly 3 and all sets up on adjusting part 4.

Referring to fig. 1, the adjusting assembly 4 includes a gear ring 41, a sun gear 42, two planetary gears 43 and a planet carrier 44, two risers 411 are welded on the outer side wall of the gear ring 41, the two risers 411 are located on the same diameter of the gear ring 41, one ends of the two risers 411 far away from the gear ring 41 are welded with a top beam of the portal frame 1, and the top beam of the portal frame 1 is located in the middle of the gear ring 41; the sun gear 42 is sleeved in the gear ring 41, the sun gear 42 and the gear ring 41 are coaxially arranged, the sun gear 42 is coaxially welded with a first rotating shaft 421, the first rotating shaft 421 is arranged along the height direction of the portal frame 1, the first rotating shaft 421 penetrates through the top beam of the portal frame 1, a part of the first rotating shaft 421 penetrates out to be connected with an adjusting part 5, the adjusting part 5 is used for rotating the sun gear 42, in the embodiment, the adjusting part 5 adopts a driving motor 51, in other embodiments, the adjusting part 5 can be a hydraulic motor, the driving motor 51 is fixed on the upper surface of the top beam of the portal frame 1 through a bolt, an output shaft of the driving motor 51 is arranged along the height direction of the portal frame 1, and an output shaft of the driving motor 51 is coaxially welded with the first rotating shaft 421; the two planetary gears 43 are arranged between the gear ring 41 and the sun gear 42, the two planetary gears 43 are meshed with the inner wall insections of the gear ring 41 and the sun gear 42, and the symmetry axis of the two planetary gears 43 is a first rotating shaft 421; third through holes 441 are formed in two ends of the planet carrier 44, the rotating shafts of the two planetary gears 43 are movably inserted into the third through holes 441 at the end portions of the planet carrier 44, the middle portion of the planet carrier 44 is movably sleeved on the first rotating shaft 421, a limiting portion 6 is arranged on the first rotating shaft 421, the limiting portion 6 is used for limiting the planet carrier 44 to move downwards along the length direction of the first rotating shaft 421, in the embodiment, the limiting portion 6 is a limiting disc 61, the limiting disc 61 is coaxially welded on the first rotating shaft 421, balls are movably embedded on the upper surface of the limiting disc 61 at intervals, the balls are abutted to the planet carrier 44, the balls are not shown in the figure, and the planet carrier 44 is located above the limiting disc 61.

Referring to fig. 1, the earth drilling assembly 2 comprises a moving member 21 and an earth drilling member 22, wherein the moving member 21 comprises a protective cover 211, a sliding rod 212, a motor mounting plate 213 and an electric telescopic rod 214, and the protective cover 211 is welded with the lower surface of a planetary gear 43 through a vertical column; two sliding rods 212 are arranged, the two sliding rods 212 are arranged along the length direction of the protective cover 211, the two sliding rods 212 are welded on two opposite inner side walls of the protective cover 211, and two sides of the motor mounting plate 213 are movably sleeved on the two sliding rods 212; the electric telescopic rod 214 is welded on the top wall of the inner cavity of the protective cover 211, the driving direction of the electric telescopic rod 214 is arranged along the length direction of the protective cover 211, and one end of the electric telescopic rod 214, which is far away from the top wall of the protective cover 211, is welded with the upper surface of the motor mounting plate 213; the earth drilling member 22 comprises a driving motor 221 and a drill rod 222, wherein the driving motor 221 is welded on the lower surface of the motor mounting plate 213; the drill rod 222 is arranged along the length direction of the protective cover 211, and the drill rod 222 is coaxially welded with the output shaft of the driving motor 221.

The water taking assembly 3 comprises a protective cover 211, a cylinder 31 and a water taking groove 32, and the other protective cover 211 is welded with the lower surface of the other planetary gear 43 through an upright post; the cylinder 31 is welded on the top wall of the inner cavity of the protective cover 211, and the driving direction of the cylinder 31 is arranged along the length direction of the protective cover 211; the top of the water taking tank 32 is open and faces the top wall of the protective cover 211, and the inner bottom wall of the water taking tank 32 is welded with one end, away from the sleeve of the cylinder 31, of the piston rod of the cylinder 31.

Referring to fig. 1, two supporting upright rods 11 of a portal frame 1 have the same structure and respectively comprise a fixed sleeve 111, a movable rod 112 and a fixed part 113, the two fixed sleeves 111 are welded at two ends of a top beam of the portal frame 1, the two fixed sleeves 111 are arranged along the vertical direction, and the fixed sleeves 111 are provided with first through holes 1111; the movable rod 112 is movably inserted into one end of the fixed sleeve 111 far away from the top beam of the portal frame 1, the movable rod 112 can move along the length direction of the fixed sleeve 111, and the movable rod 112 is provided with a plurality of second through holes 1121 at intervals along the length direction of the movable rod; the fixing member 113 is used to fix the movable rod 112 on the fixing sleeve 111, in this embodiment, the fixing member 113 employs a latch 1131, and the latch 1131 can be inserted into the first through hole 1111 and the second through hole 1121 simultaneously.

Referring to fig. 1, a support plate 1122 is welded to one end of the movable rod 112 away from the fixed sleeve 111, and a plurality of protrusions 1123 are welded to one side of the support plate 1122 away from the movable rod 112 at intervals.

The implementation principle of the sampling device for the geological survey and monitoring of the abandoned slag site in the embodiment 1 of the application is as follows: when needs are when abandoning sediment field geological survey sample, operating personnel adjust the length with two movable rods 112 of portal frame 1, make the support that portal frame 1 can be stable subaerial, then operating personnel opens regulating part 5, regulating part 5 drives sun gear 42 and rotates, sun gear 42 drives two planetary gear 43 and rotates, thereby make the brill soil subassembly 2 and the water intaking subassembly 3 that are located two planetary gear 43 below rotate along with it, when boring soil subassembly 2 and rotating to the sample station, stop regulating part 5, afterwards, operating personnel adjusts and bores soil to ground by brill soil subassembly 2, when needs are to the water sample in the drilling, operating personnel continues to open regulating part 5, make water intaking subassembly 3 rotate to sample station department, stop water intaking regulating part 5 this moment, afterwards, operating personnel adjusts water intaking subassembly 3 and carries out.

Example 2

The embodiment 2 of the application discloses a abandon sediment field sampling device for geological survey monitoring. The difference between the embodiment and embodiment 1 is that, referring to fig. 2, the adjusting assembly 4 includes a rotating disc 45, the rotating disc 45 is coaxially inserted with a second rotating shaft 451, the second rotating shaft 451 is rotatably inserted on the top beam of the gantry 1, the rotating disc 45 is located below the top beam of the gantry 1, the soil drilling assembly 2 and the water taking assembly 3 are both fixed on the periphery of the lower surface of the rotating disc 45, and the soil drilling assembly 2 and the water taking assembly 3 are concentrically arranged.

The implementation principle of the sampling device for geological survey and monitoring of the abandoned dreg site in embodiment 2 of the application is different from that in embodiment 1 in that: the operator rotates through adjusting the carousel 45 and realizes boring native subassembly 2 and water intaking subassembly 3 and switch at the sample station.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a abandon sediment field geology reconnaissance sampling device for monitoring, includes portal frame (1), bores native subassembly (2) and water intaking subassembly (3), its characterized in that: still include adjusting part (4), adjusting part (4) set up on portal frame (1), bore native subassembly (2) with water intaking subassembly (3) all set up on adjusting part (4), adjusting part (4) are used for adjusting bore native subassembly (2) or water intaking subassembly (3) switch at the sample station.

2. The sampling device for geological survey and monitoring of the abandoned dreg site as claimed in claim 1, wherein: the adjusting component (4) comprises a gear ring (41), a sun gear (42), two planetary gears (43) and a planet carrier (44), the gear ring (41) is fixedly arranged below the top beam of the portal frame (1), the sun gear (42) and the two planetary gears (43) are arranged in the gear ring (41), the axes of the sun gear (42) and the two planetary gears (43) are arranged in parallel with the axis of the gear ring (41), the sun gear (42) is arranged at the center of the gear ring (41), the sun gear (42) is coaxially provided with a first rotating shaft (421), the first rotating shaft (421) is rotatably arranged on the top beam of the portal frame (1), the first rotating shaft (421) penetrates through the top beam of the portal frame (1), the penetrating part is provided with an adjusting piece (5), and the two planetary gears (43) are all meshed with the sun gear (42), two planetary gear (43) all with gear ring (41) inside wall insection meshing, planet carrier (44) both ends respectively with one the pivot of planetary gear (43) is rotated and is connected, planet carrier (44) are located planetary gear (43) top, just movable sleeve is established in the middle of planet carrier (44) on first pivot (421), just be equipped with spacing portion (6) on first pivot (421), spacing portion (6) are used for the restriction planet carrier (44) are followed first pivot (421) length direction removes, bore native subassembly (2) consolidation and be in one planetary gear (43) below, water intaking subassembly (3) consolidation is in another planetary gear (43) below.

3. The sampling device for geological survey and monitoring of the abandoned dreg site as claimed in claim 1, wherein: adjusting part (4) are including carousel (45), carousel (45) are coaxial to be equipped with second pivot (451), second pivot (451) rotate to be set up portal frame (1) back timber below, carousel (45) lower surface week side interval has set firmly and has bored native subassembly (2) and water intaking subassembly (3), just the center of boring native subassembly (2) center and water intaking subassembly (3) equals to the distance of second pivot.

4. The sampling device for geological survey and monitoring of the waste slag yard as claimed in claim 2, wherein: the adjusting part (5) is set into a driving motor (51), the driving motor (51) is arranged on the top beam of the portal frame (1), and an output shaft of the driving motor (51) is coaxially connected with the first rotating shaft (421).

5. The sampling device for geological survey and monitoring of the abandoned dreg site as claimed in claim 1, wherein: two support pole setting (11) of portal frame (1) the same structure, all include fixed sleeve (111), movable rod (112) and mounting (113), fixed sleeve (111) set up portal frame (1) back timber both ends, just fixed sleeve (111) set up along vertical direction, movable rod (112) cup joint fixed sleeve (111) is kept away from the one end of portal frame (1) crossbeam, movable rod (112) can be followed the length direction of fixed sleeve (111) removes, mounting (113) be used for with movable rod (112) are fixed on fixed sleeve (111).

6. The sampling device for geological survey and monitoring of the abandoned dreg site as claimed in claim 5, wherein: the fixing piece (113) is provided with a bolt (1131), a first through hole (1111) is formed in the lower portion of the fixing sleeve (111), the movable rod (112) is provided with a plurality of second through holes (1121) at intervals along the length direction of the movable rod, and the bolt (1131) can be inserted into the first through hole (1111) and the second through hole (1121) at the same time.

7. The sampling device for geological survey and monitoring of the abandoned dreg site as claimed in claim 5, wherein: and a support flat plate (1122) is arranged at one end, far away from the fixed sleeve (111), of the movable rod (112).

8. The sampling device for geological survey and monitoring of the spoil area of claim 7, wherein: a plurality of protrusions (1123) are arranged on one side, away from the movable rod (112), of the supporting flat plate (1122) at intervals.

Images