CN218512059U

CN218512059U - Soil sampling device for geological exploration of hydraulic ring

Info

Publication number: CN218512059U
Application number: CN202222030180.0U
Authority: CN
Inventors: 李志峰; 杨钟; 孙立新; 孙东宇; 周杨
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-03
Filing date: 2022-08-03
Publication date: 2023-02-21
Anticipated expiration: 2032-08-03

Abstract

The utility model discloses a soil sampling device is used in geological exploration of hydraulic ring geology, its technical scheme is: including the bottom plate, two backup pads of bottom plate top fixedly connected with, the bottom plate top is equipped with complementary unit, and complementary unit includes the movable plate, and the movable plate slides and establishes in two backup pads inboardly, and the movable plate bottom is equipped with the shell, and the shell bottom outside is equipped with the sampler barrel, and the shell is run through on the sampler barrel top and is connected at shell top inner wall, the beneficial effects of the utility model are that: the screw thread piece just can make two threaded rods remove downwards when rotating to make the sampler barrel remove downwards, also can make the sampler barrel remove downwards controlling two pneumatic cylinder work simultaneously, cooperate through both and just so do not need to make the sampler barrel remove to earth through the mode that the manual work pressed when taking a sample to earth, just so can reduce the contact time of manual work and device when taking a sample, can reduce artificial intensity of labour simultaneously, and can also increase the efficiency of sample.

Description

Soil sampling device for geological exploration of hydraulic ring

Technical Field

The utility model relates to a geological exploration field, concretely relates to earth sampling device is used in geological exploration of hydraulic ring.

Background

The hydraulic engineering ring geology is a general term of hydrogeology, engineering geology and environmental geology, wherein the engineering geology needs to explore the geology before construction, the geological exploration refers to exploring and detecting the geology through various means and methods to determine a proper bearing stratum, a foundation type is determined according to the foundation bearing capacity of the bearing stratum, and the investigation and research activities of foundation parameters are calculated;

need take a sample to earth when prospecting geology, just so need use earth sampling device, present earth sampling device discovery need artifically press sampling device down when using makes the sampler barrel enter into earth, will make artifical intensity of labour grow like this when taking a sample, the efficiency of sample is slower moreover, consequently needs improve.

Therefore, the invention is necessary to invent the soil sampling device for geological exploration of the hydraulic ring.

Disclosure of Invention

Therefore, the utility model provides a hydraulic ring is earth sampling device for geological exploration through the design of complementary unit to solve the problem among the background art.

In order to achieve the above object, the present invention provides the following technical solutions: the soil sampling device for geological exploration of the hydraulic ring comprises a bottom plate, wherein two supporting plates are fixedly connected to the top of the bottom plate, and an auxiliary mechanism is arranged at the top of the bottom plate;

the utility model discloses a sample device, including two backup pads, movable plate, pivot one, two threaded rods, auxiliary mechanism, sample barrel, shell, and drive assembly, the movable plate slides and establishes in two backup pads inboardly, the movable plate bottom is equipped with the shell, the shell bottom outside is equipped with the sampling tube, the sampling tube top runs through the shell and is connected at shell top inner wall, shell one side fixedly connected with motor one, motor output shaft fixedly connected with pivot one, the pivot one extends to inside the shell, be equipped with drive assembly one and both drive connection through drive assembly one between pivot one and the sampling tube, cavity one has been seted up to movable plate inside, two threaded rods of shell top fixedly connected with, two the threaded rod top all runs through the cavity and extends to the movable plate top outside in the lump, two threaded rods outside all overlaps and is equipped with the thread piece, the thread piece passes through threaded connection, two thread pieces all inlays and establishes at the movable plate inner wall, movable plate top fixedly connected with motor two, two output shaft fixedly connected with pivot two, two bottoms of pivot are connected in cavity bottoms, two are in the pivot two are in the cavity, the drive assembly is crossed drive assembly drive connection with pivot two, the sample bottom is cut tooth.

Preferably, the driving assembly comprises a bevel gear and a bevel gear ring, the bevel gear is fixedly connected to one end of the rotating shaft, the bevel gear ring is fixedly sleeved outside the sampling cylinder, and the bevel gear is located at the top of the bevel gear ring and meshed with the bevel gear ring.

Preferably, the driving assembly II comprises two first gears and a second gear, the two first gears are fixedly sleeved outside the two threaded blocks respectively, the second gear is fixedly sleeved outside the second rotating shaft, and the two first gears are located on two sides of the two second gears respectively and meshed with the second gear.

Preferably, the top of the movable plate is provided with a connecting plate and the connecting plate is fixedly connected with the inner sides of the two support plates, the connecting plate is fixedly connected with two hydraulic cylinders on the inner sides of the movable plate, the two hydraulic cylinders are respectively positioned on the outer sides of the two threaded rods, and the bottom plate is internally provided with a through groove and the through groove is positioned under the sampling cylinder.

Preferably, the linking plate is located two pneumatic cylinder both sides respectively with two gag lever posts of inboard fixedly connected with of bottom plate and two gag lever posts, two the gag lever post all runs through the movable plate and with movable plate sliding connection, the equal fixedly connected with limiting plate in shell both sides, two the gag lever post runs through two limiting plates respectively and with limiting plate sliding connection, two locating levers of shell top fixedly connected with, two the locating lever all runs through movable plate and two locating levers and is located both sides around the motor respectively, locating lever and movable plate sliding connection.

Preferably, the inner wall of the top of the sampling tube is fixedly connected with two electric cylinders, and the bottom ends of the electric cylinders are fixedly connected with a push plate and the push plate is connected with the sampling tube in a sliding manner.

Preferably, the four corners of the bottom plate are fixedly connected with supporting legs.

Preferably, the sampling tube is connected with the shell through a bearing, and the first rotating shaft is connected with the shell through a bearing.

Preferably, the threaded block is connected with the moving plate through a bearing.

Preferably, the second rotating shaft is connected with the moving plate through a bearing.

The beneficial effects of the utility model are that:

the utility model discloses a two work of motor drive pivot two rotations, just so can make two screw thread blocks rotate, because the screw thread block inlays to be established inside the movable plate, the screw thread block just can make two threaded rods move down when rotating like this, thereby make the sampler barrel move down, also can make the sampler barrel move down in two pneumatic cylinder work of control simultaneously, just do not need to make the sampler barrel move earth through the mode that the manual work was pressed when taking a sample to earth through both cooperatees like this, just can reduce the contact time of manual work and device when taking a sample like this, can reduce artificial intensity of labour simultaneously, and can also increase the efficiency of sample.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary and that other implementation drawings may be derived from the drawings provided to one of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used to cooperate with the contents disclosed in the specification for the people familiar with the art to understand and read, and are not used to limit the practical limit condition of the present invention, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the coverage range of the technical contents disclosed in the present invention without affecting the function and the achievable purpose of the present invention

Fig. 1 is a schematic view of the overall structure provided by the present invention;

fig. 2 is a front sectional view provided by the present invention;

fig. 3 is an enlarged view of a point a in fig. 2 according to the present invention;

fig. 4 is a rear perspective view provided by the present invention;

in the figure: the device comprises a base plate 1, a support plate 2, a moving plate 3, a shell 4, a sampling cylinder 5, a motor I6, a rotating shaft I7, a threaded rod 8, a threaded block 9, a motor II 10, a rotating shaft II 11, a rotary cutting tooth 12, a bevel gear 13, a bevel gear ring 14, a gear I15, a gear II 16, a connecting plate 17, a hydraulic cylinder 18, a limiting rod 19, a limiting plate 20, a positioning rod 21, an electric cylinder 22, a push plate 23 and a supporting leg 24.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Referring to the attached drawings 1-4, the soil sampling device for geological exploration of the hydraulic ring comprises a bottom plate 1, wherein two supporting plates 2 are fixedly connected to the top of the bottom plate 1, and an auxiliary mechanism is arranged at the top of the bottom plate 1;

the auxiliary mechanism comprises a movable plate 3, the movable plate 3 is arranged inside two supporting plates 2 in a sliding mode, a shell 4 is arranged at the bottom of the movable plate 3, a sampling cylinder 5 is arranged on the outer side of the bottom of the shell 4, the top end of the sampling cylinder 5 penetrates through the shell 4 and is connected with the inner wall of the top of the shell 4, a motor I6 is fixedly connected to one side of the shell 4, an output shaft of the motor I6 is fixedly connected with a rotating shaft I7, one end of the rotating shaft I7 extends into the shell 4, a driving assembly I is arranged between the rotating shaft I7 and the sampling cylinder 5 and is in driving connection with the rotating shaft I and the sampling cylinder through the driving assembly I, a cavity I is formed in the movable plate 3, two threaded rods 8 are fixedly connected to the top of the shell 4, the top ends of the two threaded rods 8 penetrate through the cavity and extend to the outer side of the top of the movable plate 3, threaded blocks 9 are sleeved outside the two threaded rods 8, and are in threaded connection with the threaded blocks 9, the two thread blocks 9 are embedded in the inner wall of the movable plate 3, the top of the movable plate 3 is fixedly connected with a second motor 10, an output shaft of the second motor 10 is fixedly connected with a second rotating shaft 11, the bottom end of the second rotating shaft 11 is connected to the bottom of the first cavity, the second rotating shaft 11 is positioned inside the two thread blocks 9, a second driving assembly is arranged between the second rotating shaft 11 and the two thread blocks 9, the second thread blocks 9 are in driving connection with the second rotating shaft 11 through the driving assembly, the bottom of the sampling cylinder 5 is fixedly connected with rotary cutting teeth 12, the top of the movable plate 3 is provided with a connecting plate 17, the connecting plate 17 is fixedly connected with the inner sides of the two support plates 2, the connecting plate 17 and the inner side of the movable plate 3 are fixedly connected with two hydraulic cylinders 18, the two hydraulic cylinders 18 are respectively positioned outside the two threaded rods 8, a through groove is formed in the bottom plate 1, and the through groove is positioned right below the sampling cylinder 5;

in the embodiment, the motor II 10 works to drive the rotating shaft II 11 to rotate, so that the two thread blocks 9 can rotate, and the thread blocks 9 are embedded in the moving plate 3, so that the two threaded rods 8 can move downwards when the thread blocks 9 rotate, the sampling cylinder 5 can move downwards, the sampling cylinder 5 can also move downwards by controlling the two hydraulic cylinders 18 to work, and the sampling cylinder 5 does not need to move into soil in a manual pressing mode when the soil is sampled by matching the two hydraulic cylinders, so that the contact time between a worker and a device can be reduced during sampling, the labor intensity of the worker can be reduced, and the sampling efficiency can be increased;

wherein, in order to realize the purpose of transmission, this device adopts following technical scheme to realize: the first driving component comprises a bevel gear 13 and a bevel gear ring 14, the bevel gear 13 is fixedly connected to one end of a first rotating shaft 7, the bevel gear ring 14 is fixedly sleeved outside the sampling cylinder 5, the bevel gear 13 is positioned on the top of the bevel gear ring 14 and is meshed with the bevel gear ring 14, the second driving component comprises two first gears 15 and two second gears 16, the two first gears 15 are respectively fixedly sleeved outside the two thread blocks 9, the second gears 16 are fixedly sleeved outside the second rotating shaft 11, the two first gears 15 are respectively positioned on two sides of the two second gears 16 and are meshed with the second gears 16, the sampling cylinder 5 can be rotated through the design of the bevel gear 13 and the bevel gear ring 14, and the two thread blocks 9 can be rotated simultaneously through the design of the first gears 15 and the second gears 16;

wherein, in order to realize the purpose of stable removal, this device adopts following technical scheme to realize: the connecting plate 17 and the inner side of the bottom plate 1 are fixedly connected with two limiting rods 19, the two limiting rods 19 are respectively located on two sides of two hydraulic cylinders 18, the two limiting rods 19 penetrate through the movable plate 3 and are connected with the movable plate 3 in a sliding mode, two limiting plates 20 are fixedly connected to two sides of the shell 4, the two limiting rods 19 penetrate through the two limiting plates 20 and are connected with the limiting plates 20 in a sliding mode, two positioning rods 21 are fixedly connected to the top of the shell 4, the two positioning rods 21 penetrate through the movable plate 3, the two positioning rods 21 are respectively located on the front side and the rear side of the motor, the positioning rods 21 are connected with the movable plate 3 in a sliding mode, and components such as the movable plate 3 and the shell 4 can stably move through the design of the limiting rods 19;

wherein, in order to realize the purpose of bulldozing, this device adopts following technical scheme to realize: the inner wall of the top of the sampling cylinder 5 is fixedly connected with two electric cylinders 22, the bottom ends of the two electric cylinders 22 are fixedly connected with push plates 23, the push plates 23 are connected with the sampling cylinder 5 in a sliding manner, and the push plates 23 can move downwards by controlling the two electric cylinders 22 to work, so that soil in the sampling cylinder 5 can be pushed out, and sampling work is completed;

wherein, in order to realize the purpose of supporting, this device adopts following technical scheme to realize: supporting legs 24 are fixedly connected to the four corners of the bottom plate 1, and the supporting legs 24 can support the device;

wherein, in order to realize the purpose of reducing the abrasion, the device adopts the following technical scheme: the sampling tube 5 is connected with the shell 4 through a bearing, the first rotating shaft 7 is connected with the shell 4 through a bearing, the thread block 9 is connected with the moving plate 3 through a bearing, and the second rotating shaft 11 is connected with the moving plate 3 through a bearing, so that abrasion can be reduced through bearing connection.

The utility model discloses a use as follows: when the device is used, the device is placed right above a sampling point, two existing balancing weights can be placed on the bottom plate 1 when sampling is needed, then the motor II 10 is controlled to work, the motor II 10 works to drive the rotating shaft II 11 to rotate, the rotating shaft II 11 rotates to drive the gear II 16 to rotate, the gear II 16 rotates to drive the gear I15 to rotate, the gear I15 rotates to drive the thread blocks 9 to rotate, the thread blocks 9 are embedded in the moving plate 3, so that the thread blocks 9 can enable the two threaded rods 8 to move downwards when rotating, the shell 4 and the sampling cylinder 5 move downwards, the motor II 10 works to control the two hydraulic cylinders 18, so that the moving plate 3 can move downwards, the sampling cylinder 5 moves downwards, the sampling cylinder 5 does not need to be moved into soil in a manual pressing mode when sampling soil through the cooperation of the two gears, the contact time between manpower and the device can be reduced when sampling, the labor intensity of the manpower can be reduced, and the sampling efficiency can be increased;

the sampling cylinder 5 is controlled to work when moving downwards, the motor I6 works to drive the rotating shaft I7 to rotate, the rotating shaft I7 rotates to drive the bevel gear 13 to rotate, the bevel gear 13 rotates to drive the bevel gear ring 14 to rotate, the bevel gear ring 14 rotates to drive the sampling cylinder 5 to rotate, so that the sampling cylinder 5 rotates and moves downwards, then the sampling cylinder 5 can stably enter soil through the design of the rotary cutting teeth 12 at the bottom of the sampling cylinder 5, the sampling cylinder 5 is filled with soil, the sampling cylinder 5 can move upwards by controlling the reverse rotation of the motor II 10 and the work of the hydraulic cylinder 18 after sampling is completed, so that the sampling cylinder 5 is moved out of the soil, soil receiving objects are placed at the bottom of the bottom plate 1 after the sampling cylinder is moved out, then the push plate 23 can move downwards by controlling the work of the two electric cylinders 22, and then the soil in the sampling cylinder 5 can be pushed out, and sampling work is completed.

The above is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of the claimed invention as far as possible.

Claims

1. The utility model provides a soil sampling device for geological exploration of hydraulic ring geology, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is fixedly connected with two supporting plates (2), and the top of the bottom plate (1) is provided with an auxiliary mechanism;

the auxiliary mechanism comprises a movable plate (3), the movable plate (3) is arranged on the inner sides of two support plates (2) in a sliding mode, a shell (4) is arranged at the bottom of the movable plate (3), a sampling cylinder (5) is arranged on the outer side of the bottom of the shell (4), the top end of the sampling cylinder (5) penetrates through the shell (4) and is connected to the inner wall of the top of the shell (4), a first driving component (6) is fixedly connected to one side of the shell (4), a first output shaft of the first motor (6) is fixedly connected with a first rotating shaft (7), one end of the first rotating shaft (7) extends to the inner side of the shell (4), a first driving component is arranged between the first rotating shaft (7) and the sampling cylinder (5) and is in driving connection with the first driving component, a first cavity is formed in the movable plate (3), two threaded rods (8) are fixedly connected to the top of the shell (4), the top ends of the two threaded rods (8) penetrate through the first cavity and extend to the outer side of the top of the movable plate (3), two threaded rods (8) are sleeved with threaded blocks (9), a second motor (10) fixedly connected with a second output shaft (10), the utility model discloses a sampling tube, including pivot two (11), pivot two (11) are connected in cavity one bottom, pivot two (11) are located two screw thread blocks (9) inboardly, be equipped with drive assembly two between pivot two (11) and two screw thread blocks (9) and screw thread block (9) are connected through the drive assembly drive with pivot two (11), sampling tube (5) bottom fixed connection has rotary cutting tooth (12).

2. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: the driving assembly I comprises a bevel gear (13) and a bevel gear ring (14), the bevel gear (13) is fixedly connected to one end of the first rotating shaft (7), the bevel gear ring (14) is fixedly sleeved outside the sampling cylinder (5), and the bevel gear (13) is located at the top of the bevel gear ring (14) and meshed with the bevel gear ring (14).

3. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: the driving assembly II comprises a first gear (15) and a second gear (16), the first gear (15) is fixedly sleeved outside the two thread blocks (9) respectively, the second gear (16) is fixedly sleeved outside the rotating shaft II (11), and the first gear (15) is positioned on two sides of the second gear (16) respectively and is meshed with the second gear (16).

4. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: moving plate (3) top is equipped with linkage plate (17) and two backup pad (2) inboard fixed connection, linkage plate (17) and two pneumatic cylinders (18) of moving plate (3) inboard fixedly connected with, two pneumatic cylinder (18) are located two threaded rod (8) outsides respectively, logical groove and logical groove position under sampler barrel (5) have been seted up to bottom plate (1) inside.

5. The soil sampling device for hydraulic ring geological exploration according to claim 4, wherein: linking up board (17) and two gag lever posts (19) of bottom plate (1) inboard fixedly connected with and two gag lever posts (19) are located two pneumatic cylinders (18) both sides respectively, two gag lever post (19) all run through movable plate (3) and with movable plate (3) sliding connection, the equal fixedly connected with limiting plate (20) in shell (4) both sides, two gag lever post (19) run through respectively two limiting plates (20) and with limiting plate (20) sliding connection, two locating levers (21) of shell (4) top fixedly connected with, two locating lever (21) all run through movable plate (3) and two locating lever (21) and are located both sides around the motor respectively, locating lever (21) and movable plate (3) sliding connection.

6. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: sampling tube (5) top inner wall fixedly connected with two electronic jar (22), two electronic jar (22) equal fixedly connected with push pedal (23) in bottom and push pedal (23) and sampling tube (5) sliding connection.

7. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: the bottom plate (1) is provided with supporting legs (24) at four corners.

8. The soil sampling device for hydraulic ring geological exploration according to claim 1, which is characterized in that: the sampling tube (5) is connected with the shell (4) through a bearing, and the first rotating shaft (7) is connected with the shell (4) through a bearing.

9. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: the thread block (9) is connected with the moving plate (3) through a bearing.

10. The soil sampling device for geological exploration of the hydraulic ring as claimed in claim 1, wherein: the second rotating shaft (11) is connected with the moving plate (3) through a bearing.