CN212110673U - Rock soil sampling tube - Google Patents

Abstract

The utility model provides a ground sampling tube belongs to civil engineering technical field. The sampling tube includes the body that passes through the tip by two bent plates and links to each other and form, form two breachs inside and outside the body that link up between two bent plates, be provided with a movable bent plate in two breachs respectively, a complete body structure can be pieced together to two movable bent plates and body three, it is provided with a stopper to fix respectively on the inner wall of two movable bent plates, the spacing guide slot that has the opening in one side of the pivot in the stopper, the guide block is inserted and is established and sliding connection is in two spacing guide slots, form a sample chamber between the adjacent guide block. The utility model has the advantages of can improve sample precision.

Description

Rock soil sampling tube

Technical Field

The utility model belongs to the technical field of civil engineering, a ground sampling tube is related to.

Background

Rock sampling plays an important role in formulation of construction schemes, construction quality and the like, and corresponding rock investigation operation is required before civil construction.

The current ground sampler all sets up the sample cell through the thief rod outer wall inserting in the ground, through obtaining the corresponding soil sample after extracting the thief rod, and the problem that exists like this is: when the sampling rod is upwards taken out, the soil sample in the sampling groove is not the soil sample at the position corresponding to the sampling groove when the sampling rod is inserted, but the soil sample in a certain height above the position is greatly discounted in accuracy.

In summary, the rock soil sampling machine in the prior art can only roughly detect the conditions of soils at different depths, and can perform better judgment under the condition that the soil qualities at different depths have larger differences, and in fact, in many cases, the soil qualities at different positions in a certain depth are not greatly different, so that the existing means cannot accurately sample.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a ground sampling tube to the above-mentioned problem that prior art exists, the utility model aims to solve the technical problem how to improve the precision of sample.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a ground sampling tube, a serial communication port, the sampling tube includes and is link to each other the body that forms through the tip by two bent plates, forms two and link up the inside and outside breach of body, two between two bent plates be provided with a movable bent plate in the breach respectively, and a complete body structure can be pieced together to two movable bent plates and body three, and the fixed stopper that is provided with respectively on the inner wall of two movable bent plates, the spacing guide slot that has the opening in the stopper towards pivot one side, the guide block is inserted and is established and sliding connection in two spacing guide slots, forms a sample chamber between the adjacent guide block.

Drawings

Fig. 1 is a structural view of the present sampler (the striking mechanism is omitted).

Fig. 2 is a sectional view of the sampling tube in a state where the opening is closed.

Fig. 3 is a sectional view of the sampling tube in an open state.

Fig. 4 is an enlarged view of a portion a in fig. 1.

Fig. 5 is an enlarged view of a portion B in fig. 1.

In the figure, 11, ground piles; 12. a sliding table; 13. a mounting seat; 14. a drive motor; 15. a rotating shaft; 16. a drill bit; 2. a sampling tube; 21. a body; 22. a movable curved plate; 31. a guide block; 32. a limiting block; 33. a limiting guide groove; 34. a pressure lever; 35. a mounting ring; 36. a push block; 37. a sampling cavity; 41. a slider; 42. a screw; 43. pressing the arm; 44. a driven gear; 45. a stepping motor; 46. a drive gear; 51. a sleeve; 52. a helical groove.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the sampler comprises a ground pile 1, a sliding table 12 connected to the ground pile 1 in a sliding manner, a sampling tube 2, a mounting seat 13 longitudinally connected to the sliding table 12 in a sliding manner, and a striking mechanism capable of acting on the sliding table 12 longitudinally; a driving motor 14 is arranged on the mounting seat 13, a rotating shaft 15 inserted in the sampling tube 2 is fixedly arranged on an output shaft of the driving motor 14, the lower end of the rotating shaft 15 extends out of the lower end of the sampling tube 2, and a drill bit 16 is fixedly arranged at the lower end of the rotating shaft 15;

the sampling tube 2 comprises a body 21 formed by connecting two bent plates through end parts, two gaps penetrating the inside and the outside of the body 21 are formed between the two bent plates, a movable bent plate 22 is arranged in each gap, the two movable bent plates 22 and the body 21 can be spliced into a complete tube body structure, and a plurality of translation mechanisms capable of pushing the two bent plates to be far away from the rotating shaft 15 when the rotating shaft 15 moves downwards are arranged between the two movable bent plates 22 and the rotating shaft 15; the body 21 is connected to the mounting base 13;

the translation mechanism comprises a circular guide block 31 fixed on the inner wall of the body 21, the inner walls of the two movable curved plates 22 are respectively and fixedly provided with a limiting block 32, a limiting guide groove 33 with an opening facing one side of the rotating shaft 15 is formed in the limiting block 32, the guide block 31 is inserted and connected in the two limiting guide grooves 33 in a sliding manner, and a through hole allowing the rotating shaft 15 to pass through is formed in the circle center of the guide block 31; a pressure lever 34 is hinged on the inner wall of the movable curved plate 22, a mounting ring 35 is sleeved outside the rotating shaft 15, the inner end of the pressure lever 34 is hinged on the mounting ring 35, an acute angle is formed between the pressure lever 34 and the axis of the rotating shaft 15, and a push block 36 positioned above the mounting ring 35 is fixedly arranged on the rotating lever; a sampling cavity 37 is formed between adjacent guide blocks 31.

Be connected with two sets of supporting component between mount pad 13 and the slip table 12, supporting component includes two slider 41 of sliding connection on slip table 12, threaded connection is screw rod 42 and two pressure arms 43 on slider 41, the one end of pressure arm 43 articulates on slider 41, the other end of pressure arm 43 articulates on mount pad 13, two pressure arm 43 symmetric distribution are in the both sides of mount pad 13, two opposite screw thread sections of direction have on the screw rod 42, two screw thread section distributions cooperate with two slider 41, the both ends of screw rod 42 are passed through the bearing and are rotated the connection on slip table 12, the fixed driven gear 44 that is provided with of one end of screw rod 42, be provided with step motor 45 on the slip table 12, the fixed drive gear 46 that is provided with of output shaft yarn of step motor 45, drive gear 46 meshes two driven gear 44 simultaneously.

The outer wall of the upper end of the body 21 is provided with a plurality of spiral convex ribs, the mounting seat 13 is fixedly provided with a sleeve 51, the inner wall of the sleeve 51 is provided with a spiral groove 52 matched with the convex ribs, and the upper end of the body 21 is inserted in the sleeve 51. The upper end of the body 21 is rotatably connected to the sliding table 12 through a bearing, and the lower end of the sampling tube 2 is sealed.

The sampling steps are as follows: after the ground pile 1 is fixed, the driving motor 14 is started, meanwhile, the sliding table 12 is pushed downwards to move downwards through the striking mechanism, at the moment, the body 21 and the two movable curved plates 22 form a tubular structure with a smooth outer wall, the rotating shaft 15 drives the drill bit 16 to rotate, the striking mechanism drives the sampling tube 2 to slowly move downwards, after the sampling depth is reached, the driving motor 14 is stopped, the stepping motor 45 is controlled, the mounting seat 13 moves downwards relative to the sliding table 12, in the process that the mounting seat 13 moves downwards, the rotating shaft 15 moves downwards, the sleeve 51 drives the body 21 to rotate for a certain time and two circles, in the process that the rotating shaft 15 moves downwards, the push block 36 presses the mounting ring 35 downwards, the press rod 34 is expanded, the movable curved plates 22 are pushed to move for a certain distance in the direction away from the rotating shaft 15, therefore, four 'cutting edges' are formed on the sampling tube 2, and are formed by the rotating tracks of the side edges of the movable curved plates 22 away, there is the certain distance to form between the side of activity bent plate 22 and the side of body 21 promptly, and opened sample chamber 37, can scrape the ground in the sample chamber 37 outside at the rotatory in-process of sampling tube 2 and take a sample in chamber 37, after accomplishing the sample, reverse drive step motor 45, make mount pad 13 shift up, the bull stick shifts up, sampling tube 2 counter-rotation and the opening of closed sample chamber 37, afterwards vertically take out on sampling tube 2 to the soil layer can, it can to realize on slip table 12 through hitting the reverse effect of mechanism to take out sampling tube 2.

It can be seen that the scheme has the following significant characteristics:

during the sample, sampling tube 2 is at rotatory in-process, and the opening of sample chamber 37 is crescent, can the rotatory resistance of greatly reduced sampling tube 2, and the soil sample is through layer upon layer the mode of being peeled off get into sample chamber 37.

The guide structure composed of the guide block 31 and the limiting block 32 can limit the moving dimension of the movable curved plate 22, and in the process that the movable curved plate 22 moves towards the outside, the adjacent sampling cavity 37 is still in an isolation state, so that the mutual channeling of soil samples cannot be caused.

The sampler can sample the outer side of the downward detection position to obtain a soil sample at an accurate position.

Adopt 2 three fens structures of sampling tube for the first time, can not lead to soil to get into sample chamber 37 when making the lower probe, and opening or closing of sample chamber 37 can be controlled at will, and the aperture also can be controlled, and the requirement of the volume of sampling can be controlled according to the aperture of sample chamber 37 open-ended promptly.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (1)

1. The utility model provides a ground sampling tube, a serial communication port, sampling tube (2) include body (21) that are formed by two bent plates through the tip links to each other, form two and link up the inside and outside breach of body (21) between two bent plates, two be provided with a movable bent plate (22) in the breach respectively, a complete body structure can be pieced together to two movable bent plates (22) and body (21) three, link to each other through a plurality of guide structure between two movable bent plates, guide structure is including fixing stopper (32) on the inner wall of two movable bent plates (22) respectively, have spacing guide slot (33) of opening orientation pivot (15) one side in stopper (32), guide block (31) are inserted and are established and sliding connection in two spacing guide slot (33), form a sample chamber (37) between adjacent guide block (31).

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