CN210714684U - Rock core sample storage device for exploration for geotechnical engineering - Google Patents

Abstract

The utility model discloses a rock core sample storage device for geotechnical engineering exploration, which comprises a rectangular base, wherein a circular box body is arranged on the upper wall surface of the rectangular base, a circular through hole is formed in the upper wall surface of the circular box body, a supporting structure is arranged on the upper wall surface of the rectangular base, and a sampling structure is arranged on the supporting structure; the support structure mainly comprises: the device comprises a pair of supporting plates, a pair of first screw frames and a bearing plate; a pair of backup pad is settled in the rectangle base upper wall left and right sides, and it is corresponding to be located circular box position, the utility model relates to a ground rock core sample technical field is convenient for carry out reasonable rock core sample with the ground through sampling mechanism, reduces artifical manual operation to the in-process plays reasonable support during the sample, reduces artifical manual support, and this device is convenient for with the reasonable placing of ground sample.

Description

Rock core sample storage device for exploration for geotechnical engineering

Technical Field

The utility model relates to a ground rock core sampling technical field specifically is a rock core sample storage device is used in geotechnical engineering with exploration.

Background

Rock and soil (rock and soil) is a general term for any kind of rock and soil that make up the earth's crust from an engineering construction point of view. Rock and soil can be subdivided into five major categories of hard (hard rock), sub-hard (soft rock), weakly bonded, loosely unbonded, and with specific compositions, structures, states, and properties. The first two categories are called rock and the last three categories are called soil, which are collectively called rock and soil by Chinese custom.

When engineering exploration, need carry out the sample detection to the ground and look over the ground condition, because the ground when taking a sample, need carry out reasonable sample to the inside rock core of ground to when taking a sample, the ground that has the sample is heavier, also needs to place the sample of ground sample rationally simultaneously, prevents to receive the loss at the ground sample in the transportation, in view of this, study to above-mentioned problem, design this device.

Disclosure of Invention

The utility model provides a not enough to prior art, the utility model provides a rock core sample storage device is used in geotechnical engineering with exploration has solved current when engineering exploration, need carry out the sample detection to the ground and look over the ground condition, because when the ground takes a sample, needs carry out reasonable sample to the inside rock core of ground to when taking a sample, the ground that has the sample is heavier, also needs to place the sample of ground sample is reasonable simultaneously.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the sampling device comprises a rectangular base, wherein a circular box body is arranged on the upper wall surface of the rectangular base, a circular through hole is formed in the upper wall surface of the circular box body, a supporting structure is arranged on the upper wall surface of the rectangular base, and a sampling structure is arranged on the supporting structure;

the support structure mainly comprises: the device comprises a pair of supporting plates, a pair of first screw frames and a bearing plate;

the pair of supporting plates are arranged on the left side and the right side of the upper wall surface of the rectangular base and correspond to the round box body in position, first strip-shaped grooves are formed in the side wall surfaces of the pair of supporting plates, the pair of first lead screw frames are arranged inside the pair of first strip-shaped grooves respectively, first lead screws are arranged on the pair of first lead screw frames and extend out of the first strip-shaped grooves, a first lead screw pair is sleeved on each first lead screw, a support is arranged on the pair of side wall surfaces of the first lead screw pair, a round groove is formed in each side wall surface of the support, a bearing is arranged in each round groove, a support is arranged on each bearing, and the bearing plate is arranged on the pair of supports.

Preferably, the sampling structure comprises: the second screw rod frame, the stepping motor, the drill cylinder and the servo motor;

the upper wall surface of the bearing plate is provided with a second strip-shaped groove, the second lead screw frame is arranged inside the strip-shaped groove, a second lead screw is arranged on the second lead screw frame, a second lead screw pair is arranged on the second lead screw, a support frame is arranged on the second lead screw pair, the servo motor is arranged on the support frame, a first connecting rod is arranged on the driving end of the servo motor, the drill cylinder is arranged on the first connecting rod, the stepping motor is arranged inside the second strip-shaped groove, and the driving end of the stepping motor is connected with the second lead screw.

Preferably, stand columns are installed at four corners of the lower wall surface of the rectangular base, and each stand column is provided with a roller on the lower wall surface.

Preferably, each first lead screw is sleeved with an annular handle, and the annular handle is sleeved with a rubber mat.

Preferably, the servo motor and the stepping motor are both provided with a fixing frame.

Preferably, each support is sleeved with an annular gasket, and each annular gasket is inserted with a screw matched with the support.

The utility model has the advantages of the utility model provides a rock core sample storage device is used in geotechnical engineering exploration possesses following beneficial effect and is convenient for carry out reasonable rock core sample with the ground through sampling structure, reduces artifical manual operation to play reasonable support during the sample, reduce artifical manual support, and this device is convenient for rationally place the rock core sample.

Drawings

Fig. 1 is the utility model relates to a geotechnical engineering is with exploration rock core sample storage device's schematic structure.

Fig. 2 is geotechnical engineering is with exploration top view with rock core sample storage device.

Fig. 3 is the utility model discloses a geotechnical engineering is with bottom view of survey core sample storage device.

Figure 4 is geotechnical engineering is with rock core sample storage device's for exploration loading board side view.

In the figure: 1-a rectangular base; 2-round box body; 3-a support plate; 4-a first screw frame; 5-a bearing plate; 6-a first lead screw; 7-a first screw pair; 8-support; 9-a bearing; 10-a pillar; 11-a second screw frame; 12-a stepper motor; 13-a drill cylinder; 14-a servo motor; 15-a second lead screw; 16-a second lead screw pair; 17-a first connecting rod; 18-a roller; 19-a ring handle; 20-a fixing frame; 21-a ring gasket; 22-screws; 23-support frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a rock core sample storage device for exploration in geotechnical engineering.

Example (b): the circular through-hole of seting up on the circular box 2 on the rectangular base 1 is convenient for the ground sample and is placed, and bearing structure mainly includes: a pair of support plates 3, a pair of first screw frames 4, and a bearing plate 5;

the pair of supporting plates 3 are arranged on the left side and the right side of the upper wall surface of the rectangular base 1, the positions of the supporting plates located on the circular box body 2 are corresponding, first strip-shaped grooves are formed in the side wall surfaces of the pair of supporting plates 3, the pair of first lead screw frames 4 are respectively arranged inside the pair of first strip-shaped grooves, first lead screws 6 are arranged on the pair of first lead screw frames 4, the first lead screws 6 extend out of the first strip-shaped grooves, a first lead screw pair 7 is sleeved on each first lead screw 6, supports 8 are arranged on the side wall surfaces of the pair of first lead screw pairs 7, a circular groove is formed in the side wall surface of each support 8, a bearing 9 is arranged in each circular groove, a support column 10 is arranged on each bearing 9, and the bearing plate;

the working principle is obtained according to the above: backup pad 3 plays the supporting role, a first lead screw 6 for supporting on first lead screw frame 4, and first lead screw 6 stretches out first bar groove, be convenient for people to twist first lead screw 6, it goes up and down to drive loading board 5 on first lead screw 7 when first lead screw 6 is twisted, when clockwise rotation first lead screw 6, first lead screw 7 rises, when anticlockwise rotation first lead screw 6, first lead screw 7 descends, thereby realize that loading board 5 goes up and down, loading board 5 passes through the pillar 10 support on the bearing 9 simultaneously, pillar 10 can rotate on bearing 9, thereby loading board 5 can rotate the adjustment use angle.

The sampling structure includes: a second screw frame 11, a stepping motor 12, a drill barrel 13 and a servo motor 14;

the second bar-shaped groove has been seted up to the wall on the loading board 5, second lead screw frame 11 is settled inside the bar-shaped groove, install second lead screw 15 on the second lead screw frame 11, install the vice 16 of second lead screw on the second lead screw 15, install support frame 23 on the vice 16 of second lead screw, servo motor 14 settles on support frame 23, install head rod 17 on the 14 drive ends of servo motor, bore section of thick bamboo 13 settles on head rod 17, step motor 12 settles inside the second bar-shaped groove, and step motor 12 drive end is connected with second lead screw 15.

The working principle is obtained according to the above: the second lead screw frame 11 is arranged on the bearing plate 5, meanwhile, a second lead screw 15 on the second lead screw frame 11 is connected with a driving end of a stepping motor 12, when the driving end of the stepping motor 12 rotates along with a potential needle, the second lead screw 15 is driven to rotate clockwise, so that a second lead screw pair 16 is driven to move forwards, when the driving end of the stepping motor 12 rotates anticlockwise, the second lead screw 15 is driven to rotate anticlockwise, so that the second lead screw pair 16 moves backwards, the drilling cylinder 13 supported by a servo motor 14 and a first connecting rod 17 on the servo motor 14 moves forwards and backwards, the servo motor 14 works, the drilling cylinder 13 is driven to rotate, so that when the drilling cylinder 13 is lapped with rocks, the stepping motor 12 rotates clockwise to push the drilling cylinder 13 forwards, the servo motor 14 rotates, and rock sampling is facilitated.

As a preferred technical solution, furthermore, the four corners of the lower wall surface of the rectangular base 1 are all provided with the pillars 10, and the lower wall surface of each pillar 10 is provided with the roller 18.

As a preferred technical solution, furthermore, each first lead screw 6 is sleeved with an annular handle 19, and the annular handle 19 is sleeved with a rubber mat.

Preferably, the servo motor 14 and the stepping motor 12 are both provided with a fixing frame 20.

As a preferred technical scheme, furthermore, each support column 10 is sleeved with an annular gasket 21, and each annular gasket 21 is inserted with a screw 22 matched with the support 8; through the screw 22 on the annular gasket 21, the pillar 10 is convenient to fix to fixed loading board 5 position of use, when needs take a sample, loading board 5 level when needs place circular box 2 inside with the sample, swing loading board 5 lets bore a section of thick bamboo 13 downwards, and the sample of artifical taking only is placed the sample inside circular box 2.

It is noted that, herein, relational terms such as first and second, and the like may be 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 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. A rock core sample storage device for exploration in geotechnical engineering comprises a rectangular base (1) and is characterized in that a circular box body (2) is arranged on the upper wall surface of the rectangular base (1), a circular through hole is formed in the upper wall surface of the circular box body (2), a supporting structure is arranged on the upper wall surface of the rectangular base (1), and a sampling structure is arranged on the supporting structure;

the support structure mainly comprises: a pair of support plates (3), a pair of first screw frames (4) and a bearing plate (5);

the pair of supporting plates (3) are arranged at the left side and the right side of the upper wall surface of the rectangular base (1), and are positioned corresponding to the round box body (2), the side wall surfaces of the pair of supporting plates (3) are both provided with a first strip-shaped groove, the pair of first lead screw frames (4) are respectively arranged in the pair of first strip-shaped grooves, first lead screws (6) are respectively arranged on the pair of first lead screw frames (4), and a first lead screw (6) extends out through a first strip-shaped groove, a first lead screw pair (7) is sleeved on each first lead screw (6), a support (8) is installed on the side wall surface of each first lead screw pair (7), a circular groove is formed in the side wall surface of each support (8), a bearing (9) is installed in each circular groove, a support (10) is installed on each bearing (9), and the bearing plate (5) is arranged on the pair of supports (10).

2. The apparatus as claimed in claim 1, wherein the sampling structure comprises: a second screw rod frame (11), a stepping motor (12), a drill cylinder (13) and a servo motor (14);

the bearing plate (5) is provided with a second strip-shaped groove on the upper wall surface, the second lead screw frame (11) is arranged inside the strip-shaped groove, a second lead screw (15) is installed on the second lead screw frame (11), a second lead screw pair (16) is installed on the second lead screw (15), a support frame (23) is installed on the second lead screw pair (16), the servo motor (14) is arranged on the support frame (23), a first connecting rod (17) is installed on the driving end of the servo motor (14), the drill cylinder (13) is arranged on the first connecting rod (17), the stepping motor (12) is arranged inside the second strip-shaped groove, and the driving end of the stepping motor (12) is connected with the second lead screw (15).

3. The rock core sample storage device for exploration in geotechnical engineering according to claim 1, wherein stand columns are installed at four corners of a lower wall surface of the rectangular base (1), and rollers (18) are installed on the lower wall surface of each stand column.

4. The rock core sample storage device for exploration in geotechnical engineering according to claim 1, wherein each first lead screw (6) is sleeved with an annular handle (19), and each annular handle (19) is sleeved with a rubber mat.

5. The core sample storage device for exploration for geotechnical engineering according to claim 2, characterized in that a fixing frame (20) is mounted on each of the servo motor (14) and the stepping motor (12).

6. The rock core sample storage device for exploration in geotechnical engineering according to claim 1, wherein each pillar (10) is sleeved with a ring-shaped gasket (21), and each ring-shaped gasket (21) is inserted with a screw (22) matched with the support (8).

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