CN218381747U - Geotechnical sampling device for hydraulic engineering detection - Google Patents

Abstract

The utility model discloses a geotechnical sampling device is used in hydraulic engineering detection belongs to hydraulic engineering technical field, include: the top and one side of the bottom plate are respectively provided with a rock-soil sampling mechanism and a multifunctional mechanism for hydraulic engineering detection; rock soil sampling mechanism installs four connecting cylinders and the activity at the bottom plate top including being the rectangle array and pegs graft at the inboard connecting rod of connecting cylinder, and is connected with the connecting plate between the top of four connecting rods, the middle part activity of bottom plate is pegged graft and is had the sampling cylinder, the screw rod is installed at the top of sampling cylinder, and the screw rod spiro union is at the middle part of connecting plate, two anchor bars are installed to the bottom symmetry of connecting plate, the bottom of anchor bar is the toper structure, and the anchor bar activity is pegged graft in the corresponding side of bottom plate. This hydraulic engineering detects uses ground sampling device drills and gets the process and stabilize more in order to ensure that the sample is effectual, and can avoid dust to make things convenient for the mobile device when making dirty the user.

Description

Geotechnical sampling device for hydraulic engineering detection

Technical Field

The utility model belongs to the technical field of hydraulic engineering, especially, geotechnical sampling device is used in hydraulic engineering detection.

Background

In order to ensure that the safety of hydraulic engineering construction needs to carry out various engineering detections, wherein including geotechnical sampling detection, geotechnical sampling mechanism adopts artifical the brill to get when carrying out the geotechnical sampling, if brill get the process unit not stable enough and will lead to equipment to take place skew, will lead to the unsatisfactory perhaps damage equipment of sample effect like this, therefore just need carry out the improvement that corresponds and avoid above-mentioned problem.

For example, a rock soil sampling device for hydraulic engineering detection with the application number of CN202220652442.4 of Chinese utility model has similar problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic engineering detects uses ground sampling device to solve the problem that provides in the background art.

The technical scheme is as follows: the utility model provides a hydraulic engineering detects uses ground sampling device, includes:

the top and one side of the bottom plate are respectively provided with a rock-soil sampling mechanism and a multifunctional mechanism for hydraulic engineering detection;

rock soil sampling mechanism installs four connecting cylinders and the activity at the bottom plate top including being the rectangle array and pegs graft at the inboard connecting rod of connecting cylinder, and is connected with the connecting plate between the top of four connecting rods, the middle part activity of bottom plate is pegged graft and is had the sampling cylinder, the screw rod is installed at the top of sampling cylinder, and the screw rod spiro union is at the middle part of connecting plate, two anchor bars are installed to the bottom symmetry of connecting plate, the bottom of anchor bar is the toper structure, and the anchor bar activity is pegged graft in the corresponding side of bottom plate.

In a further embodiment, the multifunctional mechanism comprises a baffle connected between the corresponding sides of the bottom plate and the connecting plate, four rollers are mounted on one side, far away from the bottom plate, of the baffle in a rectangular array, and a pull rope is connected to the top of the baffle.

In a further embodiment, the top and bottom of the baffle are flush with the top of the web and the top of the floor, respectively.

In a further embodiment, a holding piece is mounted at the top of the screw rod, and the holding piece is of a circular structure.

In a further embodiment, one side of the connecting plate is provided with a storage box, the top of the storage box is connected with a top cover through a hinge, and a lock catch is arranged between the top cover and the storage box for fixing.

In a further embodiment, two handles are symmetrically connected to the top of the connecting plate, and the corners of the handles are circular arc structures.

The utility model discloses a technological effect and advantage: according to the geotechnical sampling device for hydraulic engineering detection, in the process that the sampling cylinder descends to drill, the connecting plate ensures the stability of the sampling cylinder through the matching of the connecting rods and the connecting cylinder, and the reinforcing rods are drilled into the rock before sampling, so that the stability of the bottom plate can be improved, and the drilling process is more stable to ensure good sampling effect;

the baffle can prevent dust from splashing on the body of a user in the drilling process, and the device can be laid down and driven to move through the roller and the pull rope after the drilling process is finished, so that the device can be moved conveniently while the user is prevented from being polluted by the dust;

this hydraulic engineering detects uses ground sampling device drills and gets the process and stabilize more in order to ensure that the sample is effectual, and can avoid dust to make things convenient for the mobile device when making dirty the user.

Drawings

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

FIG. 2 is a cross-sectional view taken along the line a-a of FIG. 1 according to the present invention;

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

In the figure: 1. a base plate; 2. a rock-soil sampling mechanism; 3. a connecting cylinder; 4. a connecting rod; 5. a connecting plate; 6. a screw; 7. a sampling tube; 8. a reinforcing rod; 9. a grip; 10. a multifunctional mechanism; 11. a baffle plate; 12. a roller; 13. pulling a rope; 14. a grip; 15. a storage box.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

In order to solve the problem that provides, the utility model provides a geotechnical sampling device is used in hydraulic engineering detection as shown in fig. 1 to 3, include: the rock-soil sampling device comprises a bottom plate 1, wherein a rock-soil sampling mechanism 2 for hydraulic engineering detection is installed at the top of the bottom plate 1, the rock-soil sampling mechanism 2 comprises four connecting cylinders 3 which are installed at the top of the bottom plate 1 in a rectangular array through bolts, and connecting rods 4 are movably inserted into the inner sides of the connecting cylinders 3;

the tops of the four connecting rods 4 are connected with a connecting plate 5 through screws, one side of the connecting plate 5 is provided with a storage box 15 through a plurality of bolts, the top of the storage box 15 is connected with a top cover through a hinge, and the top cover and the storage box 15 are fixed through a lock catch and can be used for storing sampled rock soil;

a sampling tube 7 is movably inserted in the middle of the bottom plate 1, a screw 6 is fixedly inserted in the top of the sampling tube 7, the screw 6 is in threaded connection with the middle of the connecting plate 5, a holding piece 9 is installed at the top of the screw 6, the holding piece 9 is of a circular structure, and the screw 6 is more conveniently screwed through the holding piece 9 to drive the sampling tube 7 to descend for drilling;

two anchor rods 8 are symmetrically installed at the bottom of the connecting plate 5 through threads, the bottom of each anchor rod 8 is of a conical structure, the anchor rods 8 are movably inserted into the corresponding sides of the bottom plate 1 in an inserting mode, the connecting plate 5 moves downwards to drive the anchor rods 8 to move downwards to drill into rock soil, the top of the connecting plate 5 is symmetrically connected with two handles 14 through screws, corners of the handles 14 are of circular arc structures, and the connecting plate 5 is pressed downwards through the handles 14 by means of force application.

In order to prevent dust from contaminating a user while facilitating the movement of the device, as shown in fig. 1 and 3, a multifunctional mechanism 10 is installed at one side of a base plate 1, and the multifunctional mechanism 10 includes a barrier 11 coupled between the base plate 1 and a corresponding side of a coupling plate 5 by a plurality of screws to shield dust;

the top and the bottom of baffle 11 flush with the top of connecting plate 5 and the top of bottom plate 1 respectively, and one side that bottom plate 1 was kept away from to baffle 11 is four gyro wheels 12 are installed to the rectangle array, and the top of baffle 11 bonds and has stay cord 13, can be through stay cord 13 and gyro wheel 12 convenient drive device removal when the device is fallen.

According to the working principle, the geotechnical sampling device for hydraulic engineering detection is erected as shown in figure 1, a handle 14 is held firstly, a connecting plate 5 is pressed downwards to drill a reinforcing rod 8 into the geotechnical, so that the stability of a bottom plate 1 can be improved, then a screw 6 is rotated to control a sampling cylinder 7 to descend for drilling, and the connecting plate 5 is matched with a plurality of connecting rods 4 and connecting cylinders 3 to ensure the stability of the sampling cylinder 7, so that the drilling process is more stable to ensure good sampling effect;

baffle 11 can avoid getting in-process dust and splash to the user and cause clothes dirty, and bores and get and can fall the device after finishing, drives the device through gyro wheel 12 and stay cord 13 and removes after falling.

It is noted that, herein, relational terms such as one and two are 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. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (6)

1. The utility model provides a hydraulic engineering detects uses ground sampling device, includes:

the device comprises a bottom plate (1), wherein a rock and soil sampling mechanism (2) and a multifunctional mechanism (10) for hydraulic engineering detection are respectively installed at the top and one side of the bottom plate (1);

the method is characterized in that: rock soil sampling mechanism (2) are including being four connecting cylinders (3) and the activity of rectangle array installation at bottom plate (1) top peg graft at connecting rod (4) of connecting cylinder (3) inboard, and are connected with connecting plate (5) between the top of four connecting rods (4), the middle part activity of bottom plate (1) is pegged graft and is had sampling cylinder (7), screw rod (6) are installed at the top of sampling cylinder (7), and screw rod (6) spiro union is at the middle part of connecting plate (5), two anchor strut (8) are installed to the bottom symmetry of connecting plate (5), the bottom of anchor strut (8) is the toper structure, and anchor strut (8) activity is pegged graft in the corresponding side of bottom plate (1).

2. The geotechnical sampling device for hydraulic engineering detection according to claim 1, wherein: multifunctional mechanism (10) are including connecting baffle (11) between bottom plate (1) and connecting plate (5) correspond the side, one side that bottom plate (1) were kept away from in baffle (11) is rectangular array and installs four gyro wheels (12), the top of baffle (11) is connected with stay cord (13).

3. The geotechnical sampling device for hydraulic engineering detection according to claim 2, characterized in that: the top and the bottom of the baffle (11) are respectively flush with the top of the connecting plate (5) and the top of the bottom plate (1).

4. The geotechnical sampling device for hydraulic engineering detection according to claim 1, wherein: the top of the screw rod (6) is provided with a holding piece (9), and the holding piece (9) is of a circular structure.

5. The geotechnical sampling device for hydraulic engineering detection according to claim 1, wherein: storing box (15) are installed to one side of connecting plate (5), there is the top cap at the top of storing box (15) through hinged joint, and installs the hasp between top cap and storing box (15) and fix.

6. The geotechnical sampling device for hydraulic engineering detection according to claim 1, wherein: the top of the connecting plate (5) is symmetrically connected with two handles (14), and the corners of the handles (14) are of circular arc structures.

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