CN213600385U - Stratum sample collector for exploration and development - Google Patents

Abstract

The utility model discloses a stratum sample collector for in exploration and development, include: sampling device is connected with the adjustment disk on the sampling device, and fixedly connected with pivot is link up in the centre of adjustment disk, and the bottom lateral wall fixedly connected with connection structure of pivot, the connection structure in-connection has the telescopic link, and the output of telescopic link is connected with the drive structure, and the drive structure in-connection has the motor, and the output of motor extends the drive structure and is connected with the sample post, the equal fixedly connected with supporting legs in sampling device both sides outer wall bottom, the utility model has the advantages of it is following: apply certain power to the counter weight piece, make connection structure rotate through the pivot to this changes the orientation angle of sampling post, after adjusting the angle that needs, aligns locating hole and activity groove, then loosens the bolt, pegs graft into the locating hole through the spring with the bolt, accomplishes the location with this, realizes carrying out the function adjusted to the orientation angle of sampling post, rotates the screw thread post with this and pushes out the gyro wheel from accomodating the groove.

Description

Stratum sample collector for exploration and development

Technical Field

The utility model relates to a sample collection correlation technique field, concretely relates to stratum sample collector for in exploration and development.

Background

Geological exploration refers to exploration of soil quality of the land and content of some elements in the soil, corresponding construction can be effectively carried out according to the property of the land by exploring the land, so that the utilization rate of the land is increased, the geological exploration is required in the existing civil engineering, and the best mode of geological exploration is to directly sample the land so as to collect deep soil quality or carry out some exploration type engineering construction.

Present sampling device most all uses motor and hollow filling or screw rod to cooperate and changes the hole, and this kind of device not only self structure is comparatively simple, and because self volume reason, leads to it to carry inconveniently, and can only carry out perpendicular operation, and it is poor to use the flexibility.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that, present sampling device mostly uses motor and hollow filling or screw rod to cooperate and changes the hole, and this kind of device not only self structure is comparatively simple, and because self volume reason, leads to it to carry inconvenient, and can only carry out perpendicular function, and it is poor to use the flexibility, provides a stratum sample collector who is arranged in the exploration and development for this reason.

The utility model provides a technical scheme that technical problem adopted is: a formation sample collector for use in exploration development, comprising: sampling device, the last regulating disk that is connected with of sampling device, the fixedly connected with pivot is link up in the centre of regulating disk, the bottom lateral wall fixedly connected with connection structure of pivot, the connection structure in-connection has the telescopic link, the output of telescopic link is connected with drive structure, the drive structure in-connection has the motor, the output of motor extends drive structure and is connected with the sample post, the equal fixedly connected with supporting legs in sampling device both sides outer wall bottom.

As an optimal technical solution of the utility model: the sampling device comprises two vertical plates, the rotating shaft is rotatably connected to the side walls of two opposite sides of the vertical plates through two ends, the adjusting disc is fixedly connected to two ends close to the rotating shaft, positioning holes are uniformly formed in the adjusting disc, movable grooves are formed in the vertical plates, and the side wall of the top of the rotating shaft is fixedly connected with a balance weight piece.

As an optimal technical solution of the utility model: the adjustable lifting device is characterized in that two vertical plates are provided with a movable groove, each movable groove is movably connected with a bolt, the movable groove corresponds to the positioning hole, one end of each bolt, far away from the adjusting disc, is fixedly connected with a rear baffle, and a spring is fixedly connected between the rear baffle of each bolt and the outer wall of each vertical plate.

As an optimal technical solution of the utility model: the connecting structure comprises a butt joint box, an inner groove is formed in the middle of the inside of the butt joint box, screw rods are in threaded connection with the two side walls of the butt joint box, which are far away from each other, one ends of the screw rods, which are located in the inner groove, are connected with clamping plates in a rotating mode, the clamping plates are of arc-shaped structures, one side wall of each clamping plate is fixedly connected with a cushion layer, the top end of each telescopic rod extends into the inner groove and is located between the two clamping plates, and each telescopic rod is of a multi-.

As an optimal technical solution of the utility model: the drive structure includes the transfer box, it has the mounting groove to establish in the middle of the transfer box is inside, the bottom lateral wall dismantlement in the mounting groove is connected with the motor, the output of motor extends mounting groove and fixedly connected with linkage plate, the top lateral wall of connection at the sample post is dismantled to the linkage plate, the sample post is hollow structure and bottom opening border comparatively sharp-pointed.

As an optimal technical solution of the utility model: the supporting legs includes the fagging, the supporting legs is established there are two, every the supporting legs is two fagging and containing box and constitutes, two fagging fixed connection is in the both sides border department of erectting the board outer wall bottom, containing box fixed connection is between two erectting boards, the groove of accomodating has been established in the middle of the containing box is inside, it has the gyro wheel to establish in the groove of accomodating, the top lateral wall threaded connection of containing box has the screw thread post, the screw thread post is located the one end rotation of accomodating the inslot and connects in the middle of the top lateral wall of gyro wheel.

The utility model has the advantages of it is following: apply certain power to the counterweight plate, make connection structure rotate through the pivot, change the orientation angle of sampling post with this, after adjusting the angle that needs, aim at locating hole and movable groove, then loosen the bolt, peg graft into the locating hole through the spring, with this completion location, realize the function of adjusting the orientation angle of sampling post, rotate the screw thread post with this and push out the gyro wheel from accomodating the groove, through the relative force that gyro wheel and ground produced, can make the inclined strut board leave ground, with this remove the transport to the sampling device through the gyro wheel, increase the convenience that the sampling device removed, all have threaded connection's characteristic through rotatory screw rod, drive the splint and remove, thereby loosen the centre gripping to the telescopic link, so that change the telescopic link, increase the flexibility performance of using.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the side plate of the present invention in a partial sectional structure.

Fig. 3 is a schematic view of the interior of the connection structure according to the present invention.

Fig. 4 is a schematic diagram of the internal structure of the driving structure of the present invention.

Fig. 5 is a schematic view of the internal structure of the supporting leg of the present invention.

Description of reference numerals: 1. a sampling device; 11. a vertical plate; 111. a bolt; 112. a movable groove; 113. a spring; 12. an adjusting disk; 13. a rotating shaft; 14. a weight plate; 15. a connecting structure; 151. a butt-joint box; 152. an inner tank; 153. a telescopic rod; 154. a screw; 155. a splint; 156. a cushion layer; 16. a drive structure; 161. a transfer box; 162. mounting grooves; 163. a motor; 164. a connector tile; 17. positioning holes; 2. a sampling column; 3. supporting legs; 31. a diagonal bracing plate; 32. a storage box; 33. a threaded post; 34. a receiving groove; 35. and a roller.

Detailed Description

The technical solution of the present invention will be clearly and completely described with reference to the accompanying drawings. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-5, a formation sample collector for exploration and development includes: sampling device 1, be connected with adjustment disk 12 on the sampling device 1, fixedly connected with pivot 13 is link up to the centre of adjustment disk 12, the bottom lateral wall fixedly connected with connection structure 15 of pivot 13, connection structure 15 in-connection has telescopic link 153, the output of telescopic link 153 is connected with drive structure 16, drive structure 16 in-connection has motor 163, the output of motor 163 extends drive structure 16 and is connected with sample post 2, the equal fixedly connected with supporting legs 3 in sampling device 1 both sides outer wall bottom.

Two vertical plates 11 are respectively provided with a movable groove 112, a bolt 111 is movably connected in each movable groove 112, the movable groove 112 corresponds to the positioning hole 17, one end of the bolt 111 far away from the adjusting disc 12 is fixedly connected with a rear baffle, a spring 113 is fixedly connected between the rear baffle of the bolt 111 and the outer wall of the vertical plate 11, the supporting leg 3 comprises two inclined supporting plates 31, two supporting legs 3 are arranged, each supporting leg 3 consists of two inclined supporting plates 31 and a containing box 32, the two inclined supporting plates 31 are fixedly connected at the two side edges of the bottom end of the outer wall of the vertical plate 11, the containing box 32 is fixedly connected between the two vertical plates 11, a containing groove 34 is arranged in the middle of the inside of the containing box 32, a roller 35 is arranged in the containing groove 34, the roller 35 can make the inclined supporting plate 31 leave the ground through the relative acting force generated by the roller 35 and the ground, so that the sampling device, the top side wall of the containing box 32 is connected with a threaded column 33 by screw thread, one end of the threaded column 33 positioned in the containing groove 34 is rotatably connected in the middle of the top side wall of the roller 35, the connecting structure 15 comprises a butt-joint box 151, an inner groove 152 is formed in the middle of the inside of the butt-joint box 151, screw rods 154 are respectively connected in the two side walls of the butt-joint box 151 far away from each other by screw thread, the clamping plates 155 are driven to move by rotating the screw rods 154 and have the characteristic of screw thread connection, thereby loosening the clamping of the telescopic rod 153 to replace the telescopic rod 153 and increasing the application flexibility, one end of the screw rod 154 positioned in the inner groove 152 is rotatably connected with a clamping plate 155, the clamping plate 155 is of an arc structure, one side wall of the clamping plate 155 is fixedly connected with a cushion layer 156, the top end of the telescopic rod 153 extends into the inner groove 152 and is positioned between the two clamping plates, pivot 13 rotates through both ends and connects on the both sides lateral wall that erects board 11 is relative, adjusting disk 12 fixed connection is on the both ends that are close to pivot 13, even locating hole 17 has been seted up on adjusting disk 12, align locating hole 17 with activity groove 112, then loosen bolt 111, peg graft into in locating hole 17 with bolt 111 through spring 113, fix a position with this completion, activity groove 112 has been seted up on erecting board 11, the top lateral wall fixedly connected with counterweight plate 14 of pivot 13, drive structure 16 includes adapter box 161, set up mounting groove 162 in the middle of adapter box 161 is inside, it is connected with motor 163 to dismantle the lateral wall in mounting groove 162 inner bottom, mounting groove 162 and fixedly connected with link plate 164 are extended to motor 163's output, link plate 164 dismantles the top lateral wall of connecting at sampling column 2, sampling column 2 is hollow structure and bottom opening border comparatively sharp-pointed.

Specifically, when the orientation angle of the sampling column 2 needs to be adjusted, the plug pin 111 is pulled out from the positioning hole 17, then a certain force is applied to the weight plate 14, the connecting structure 15 rotates along the rotating shaft 13, so as to change the orientation angle of the sampling column 2, after the required angle is adjusted, the positioning hole 17 is aligned with the movable groove 112, then the plug pin 111 is loosened, the plug pin 111 is inserted into the positioning hole 17 through the spring 113, so as to complete the positioning, the clamping plate 155 is driven to move through the characteristic that the screw rods 154 are all connected through threads, so as to loosen the clamping of the telescopic rod 153, so as to replace the telescopic rod 153, and increase the application flexibility, the driving structure 16 is detachably connected to the output end of the telescopic rod 153, the motor 163 is detachably connected to the mounting groove 162, the output end of the motor 163 is fixedly connected to the connecting plate 164 through the bottom side wall of the mounting groove 162, the motor 163 is detachably connected to the top side wall of the sampling column 2 through the connecting plate 164, when the sampling device 1 needs to be moved, the threaded column 33 is rotated to push the roller 35 out of the accommodating groove 34, the inclined supporting plate 31 can be separated from the ground through the relative acting force generated by the roller 35 and the ground, and therefore the sampling device 1 is moved and carried through the roller 35, and the convenience in moving the sampling device 1 is improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Other parts not described in detail in the present invention belong to the prior art, and are not described herein again.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. A formation sample collector for use in exploration and development, comprising: sampling device (1), be connected with adjustment disk (12) on sampling device (1), fixedly connected with pivot (13) is link up in the centre of adjustment disk (12), bottom lateral wall fixedly connected with connection structure (15) of pivot (13), connection structure (15) in-connection has telescopic link (153), the output of telescopic link (153) is connected with drive structure (16), drive structure (16) in-connection has motor (163), the output of motor (163) extends drive structure (16) and is connected with sample post (2), the equal fixedly connected with supporting legs (3) in sampling device (1) both sides outer wall bottom.

2. The stratum sample collector used in exploration and development according to claim 1, wherein the sampling device (1) comprises two vertical plates (11), the two vertical plates (11) are arranged, the rotating shaft (13) is rotatably connected to the side walls of two opposite sides of the vertical plates (11) through two ends, the adjusting disc (12) is fixedly connected to two ends close to the rotating shaft (13), the adjusting disc (12) is uniformly provided with positioning holes (17), the vertical plates (11) are provided with movable grooves (112), and the side wall of the top of the rotating shaft (13) is fixedly connected with a balance weight piece (14).

3. The stratum sample collector used in exploration and development according to claim 2, wherein a movable groove (112) is formed in each of the two vertical plates (11), a bolt (111) is movably connected in each movable groove (112), the movable groove (112) corresponds to the positioning hole (17), a rear baffle is fixedly connected to one end of the bolt (111) far away from the adjusting plate (12), and a spring (113) is fixedly connected between the rear baffle of the bolt (111) and the outer wall of the vertical plate (11).

4. The stratum sample collector used in exploration and development according to claim 1, wherein the connecting structure (15) comprises a butt-joint box (151), an inner groove (152) is formed in the middle of the interior of the butt-joint box (151), a screw rod (154) is connected to each of two side walls of the butt-joint box (151) far away from each other in a threaded manner, one end of the screw rod (154) located in the inner groove (152) is rotatably connected with a clamping plate (155), the clamping plate (155) is of an arc-shaped structure, a cushion layer (156) is fixedly connected to one side wall of the clamping plate (155), the top end of the telescopic rod (153) extends into the inner groove (152) and is located between the two clamping plates (155), and the telescopic rod (153) is of a multi-section arm structure.

5. A formation sample collector for exploration and development according to claim 1, wherein the driving structure (16) comprises an adapter box (161), a mounting groove (162) is arranged in the middle of the inside of the adapter box (161), a motor (163) is detachably connected to the inner bottom side wall of the mounting groove (162), the output end of the motor (163) extends out of the mounting groove (162) and is fixedly connected with a connecting plate (164), the connecting plate (164) is detachably connected to the top side wall of the sampling column (2), the sampling column (2) is of a hollow structure, and the edge of the bottom opening is relatively sharp.

6. A formation sample collector for use in exploration development according to claim 1, the supporting legs (3) comprise inclined supporting plates (31), two supporting legs (3) are arranged, each supporting leg (3) is composed of two inclined supporting plates (31) and a containing box (32), the two inclined supporting plates (31) are fixedly connected to the two side edges of the bottom end of the outer wall of the vertical plate (11), the containing box (32) is fixedly connected between the two vertical plates (11), a containing groove (34) is arranged in the middle of the inside of the containing box (32), a roller (35) is arranged in the containing groove (34), a threaded column (33) is connected with the side wall of the top of the containing box (32) in a threaded manner, one end of the threaded column (33) positioned in the accommodating groove (34) is rotatably connected to the middle of the side wall of the top end of the roller (35).

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