CN219495700U

CN219495700U - Quick deep sampling device that soil detection used

Info

Publication number: CN219495700U
Application number: CN202320312213.2U
Authority: CN
Inventors: 李运建; 褚荣峰; 宋立鑫; 罗敏
Original assignee: Hebei Dingtai Testing Technology Service Co ltd
Current assignee: Hebei Dingtai Testing Technology Service Co ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-08-08
Anticipated expiration: 2033-02-24

Abstract

The utility model relates to the technical field of soil detection, in particular to a rapid deep sampling device for soil detection; the device comprises a moving vehicle, a lifting guide rail hinged to the front end of the moving vehicle, a sliding seat arranged on the lifting guide rail in a lifting manner, a rotary driving part arranged on the sliding seat, a sampling box arranged below the rotary driving part, a sampling tube communicated with the sampling box, and an auger rotating shaft arranged in the sampling tube and driven by the rotary driving part. According to the lifting guide rail, the lifting guide rail is installed in a multi-section structure folding mode, can be unfolded according to requirements, and can also be stored, so that the mobile vehicle can be moved and conveyed conveniently; the auger rotating shaft is driven to rotate by the rotary driving part, wherein the lifting adjusting part is used for adjusting the rotary driving part to lift on the sliding rail, so that soil sampling with different depths is carried out by the auger rotating shaft; thereby more laborsaving and the sampling depth is convenient for adjust.

Description

Quick deep sampling device that soil detection used

Technical Field

The utility model relates to the technical field of soil detection, in particular to a rapid deep sampling device for soil detection.

Background

According to patent grant publication number CN212391240U, a sampler for soil detection is disclosed, which comprises a cylinder, the inner wall upper end of drum is provided with round thread groove, the inside of drum is provided with a montant, a row of semicircle groove has been seted up to the side surface lower extreme symmetry of montant, the upper surface indent of montant has a circular shrinkage pool, the inside of circular shrinkage pool is provided with a round pole one, the lower fixed surface of montant is connected with a conical head, the inner wall of circular shrinkage pool is provided with the screw thread, the side surface of round pole one also is provided with the screw thread, drills the drum underground through the handle on the rotation drum earlier, can help the drum to bore underground through being provided with helical groove on the side surface of drum like this, at this moment through the handle on the rotatory montant, the lower extreme of montant is followed the drum and is gone out, at this moment through rotatory round pole one, makes round pole one down move, extrudees from semicircle inslot with the semicircle groove with the thin barrel sampler through the decurrent of round pole one.

But among the prior art, the soil sampler needs the manpower to take a sample, and when taking a sample like the harder district of soil property, the degree of depth that the manpower often can take a sample is limited to comparatively laborious to can not reach the sampling depth requirement, and the efficiency of taking a sample is lower.

Disclosure of Invention

The utility model aims to provide a rapid deep sampling device for soil detection, which solves the problems that the conventional sampling device for soil detection is subjected to geological conditions in use and is laborious and low in efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a rapid deep sampling device for soil detection, which comprises a moving vehicle, a lifting guide rail, a sliding seat, a rotary driving part, a sampling box, a sampling pipe and an auger rotating shaft, wherein the lifting guide rail is hinged at the front end of the moving vehicle;

the sampling tube extends into the sampling box, and a sampling port is formed in the side wall of the sampling tube;

the lifting guide rail comprises a lower folding guide rail, a middle folding guide rail hinged to the upper end of the lower folding guide rail and an upper folding guide rail hinged to the upper end of the middle folding guide rail.

Further, a crawler wheel is arranged at the bottom of the mobile vehicle.

Still further, the lower extreme of lower folding guide rail is installed through rotatory articulated seat and articulated shaft the front end of locomotive to through setting up the regulation pneumatic cylinder on the locomotive the deflection angle of lower folding guide rail.

Still further, a first folding hinging seat is arranged at the upper end of the lower folding guide rail, and the lower end of the middle folding guide rail is hinged with the first folding hinging seat through a hinging shaft;

the side wall of the bottom of the middle folding guide rail is fixed with a vertical plate with a preformed hole, and meanwhile, the side wall of the upper end of the lower folding guide rail is provided with a hydraulic cylinder positioned below the vertical plate, wherein the uppermost end of an anti-deflection telescopic rod of the hydraulic cylinder can be inserted into the preformed hole of the vertical plate so as to limit the middle folding guide rail;

the upper end of the middle folding guide rail is provided with a second folding hinge seat, and the upper folding guide rail is also installed in the second folding hinge seat through a hinge shaft and locked through a hydraulic cylinder.

Still further, the lifting guide rail is I-steel structure to set up the rack on its lateral wall, wherein the slide is spacing on the lifting guide rail, wherein install on the slide and drive the lift adjustment portion of slide lift, wherein the lift adjustment portion include hydraulic motor and with the meshing gear of rack adaptation.

Still further, the rotation driving part is a hydraulic motor for driving the auger spindle.

Still further, the auger spindle comprises a spindle and an auger delivery blade, and a standby auger is detachably arranged at the lower end of the auger spindle; and a standby sampling tube is detachably arranged at the lower end of the sampling tube.

Still further, a thread groove is axially formed in the lower end of the auger rotating shaft, and a connecting screw rod matched with the thread groove is axially arranged at the upper end of the standby auger; the lower end of the standby auger is also provided with a thread groove for other standby augers.

Still further, the lower end of the sampling tube is an internal thread port, and the upper end of the standby sampling tube is provided with an external thread port which is connected with the internal thread port in an adaptive manner; and the lower end of the standby sampling tube is provided with an internal thread port connected with other standby sampling tubes.

Compared with the prior art, the utility model has the beneficial technical effects that: according to the lifting guide rail, the lifting guide rail is installed in a multi-section structure folding mode, can be unfolded according to requirements, and can also be stored, so that the mobile vehicle can be moved and conveyed conveniently; the auger rotating shaft is driven to rotate by the rotary driving part, wherein the lifting adjusting part is used for adjusting the rotary driving part to lift on the sliding rail, so that soil sampling with different depths is carried out by the auger rotating shaft; thereby more laborsaving and the sampling depth is convenient for adjust.

Drawings

The utility model is further described with reference to the following description of the drawings.

FIG. 1 is a schematic diagram of a rapid deep sampling device for soil testing according to the present utility model;

FIG. 2 is a schematic diagram of an up-sampler of a rapid deep sampling device for soil detection according to the present utility model;

FIG. 3 is an enlarged schematic view of a partial connection of FIG. 2;

FIG. 4 is a schematic view of the up-and-down adjustment of the rapid deep sampling device for soil testing according to the present utility model;

FIG. 5 is a schematic view of deflection adjustment in a rapid deep sampling device for soil testing according to the present utility model.

Reference numerals illustrate: 1. a moving vehicle; 1a, crawler wheels; 1b, a rotary hinging seat; 1c, adjusting a hydraulic cylinder; 2. a lower folding guide rail; 2a, a first folding hinging seat; 3. a middle folding guide rail; 3a, a second folding hinging seat; 3b, a hinge shaft; 4. an upper folding guide rail; 5. a rotation driving part; 5a, a sliding seat; 6. a lifting adjusting part; 6a, a rack; 7. sampling box; 7a, a sampling port; 8. a screw spindle; 81. a thread groove; 81a, connecting screws; 8a, a standby auger; 9. a sampling tube; 9a, a standby sampling tube; 91. an internally threaded port; 91a, an externally threaded port; 10. a hydraulic cylinder; 10a, an anti-deflection telescopic rod.

Detailed Description

The embodiment discloses a rapid deep sampling device for soil detection, which comprises a moving vehicle 1, a lifting guide rail hinged at the front end of the moving vehicle 1, a sliding seat 5a installed on the lifting guide rail in a lifting manner, a rotary driving part 5 installed on the sliding seat 5a, a sampling box 7 arranged below the rotary driving part 5, a sampling tube 9 communicated with the sampling box 7, and an auger rotating shaft 8 arranged in the sampling tube 9 and driven by the rotary driving part 5;

as shown in fig. 1, a crawler wheel 1a is mounted at the bottom of the mobile vehicle 1, and when in use, the crawler wheel can be used on different road surfaces, so that the use and the movement range can be conveniently provided.

In this embodiment, as shown in fig. 1, the lifting rail includes a lower folding rail 2, a middle folding rail 3 hinged at the upper end of the lower folding rail 2, and an upper folding rail 4 hinged at the upper end of the middle folding rail 3;

namely, the lifting guide rail is arranged in a multi-section structure folding manner, can be unfolded according to requirements, and can also be stored, so that the moving vehicle 1 can be moved and conveyed conveniently;

wherein the lower end of the lower folding guide rail 2 is mounted at the front end of the mobile vehicle 1 through a rotary hinge seat 1b and a hinge shaft, and the deflection angle of the lower folding guide rail 2 is adjusted through an adjusting hydraulic cylinder 1c hinged on the mobile vehicle 1;

when the device is used, the lower folding guide rail 2 can be adjusted to be vertical to the ground by the adjusting hydraulic cylinder 1c because the road surface is uncertain and flat;

wherein specifically, as shown in fig. 1 and 4, a first folding hinge seat 2a is mounted at the upper end of the lower folding guide rail 2, and the lower end of the middle folding guide rail 3 is hinged with the first folding hinge seat 2a through a hinge shaft 3 b;

a vertical plate with a preformed hole is fixed on the bottom side wall of the middle folding guide rail 3, and a hydraulic cylinder 10 positioned below the vertical plate is arranged on the upper side wall of the lower folding guide rail 2, wherein the uppermost end of an anti-deflection telescopic rod 10a of the hydraulic cylinder 10 can be inserted into the preformed hole of the vertical plate so as to limit the middle folding guide rail 3; preventing it from deflecting; the guide rails formed by the lower folding guide rail 2, the middle folding guide rail 3 and the upper folding guide rail 4 can be ensured to be in a vertical direction.

The upper end of the middle folding guide rail 3 is provided with a second folding hinge seat 3a, and the upper folding guide rail 4 is also arranged in the second folding hinge seat 3a through a hinge shaft and is locked through a hydraulic cylinder (not shown).

In this embodiment, the lifting guide rail is in an i-steel structure (not shown), and a rack 6a is provided on a side wall of the lifting guide rail, wherein the sliding seat 5a is limited on the lifting guide rail, a lifting adjusting portion 6 for driving the sliding seat 5a to lift is installed on the sliding seat 5a, and the lifting adjusting portion 6 includes a hydraulic motor and a meshing gear adapted to the rack 6 a.

In this embodiment, the rotation driving part 5 is a hydraulic motor for driving the auger shaft 8.

As shown in fig. 2 and 3, the sampling tube 9 extends into the sampling box 7, and a sampling port 7a is formed on the side wall of the sampling tube;

in this embodiment, the auger rotating shaft 8 includes a rotating shaft and an auger conveying blade, and a spare auger 8a is detachably mounted at the lower end thereof; a standby sampling tube 9a is detachably mounted at the lower end of the sampling tube 9.

Specifically, a thread groove 81 is axially formed at the lower end of the auger rotating shaft 8, and a connecting screw 81a matched with the thread groove 81 is axially prefabricated at the upper end of the standby auger 8a; the lower end of the standby auger 8a is also provided with a thread groove 81 for other standby augers;

the lower end of the sampling tube 9 is provided with an internal thread port 91, and the upper end of the standby sampling tube 9a is provided with an external thread port 91a which is connected with the internal thread port 91 in an adaptive manner; an internal thread port 91 connected with other standby sampling pipes is arranged at the lower end of the standby sampling pipe 9 a;

when the soil sampler is used, the auger rotating shaft 8 is driven to rotate by the rotary driving part 5, wherein the rotary driving part 5 is regulated to lift on the sliding rail by the lifting regulating part 6, so that soil samples with different depths are sampled by the auger rotating shaft 8;

the soil sampling is conveyed upwards along with the auger blade on the auger rotating shaft 8, and finally enters the sampling box 7 for collection through a sampling port 7a formed in the top of the sampling tube 9.

In the description of the utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate describing the utility model, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model.

The foregoing embodiments are merely illustrative of the preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to which the present utility model pertains should fall within the scope of the utility model as defined in the appended claims without departing from the spirit of the utility model.

Claims

1. A quick deep sampling device that soil detection used, its characterized in that: the device comprises a moving vehicle, a lifting guide rail, a sliding seat, a rotary driving part, a sampling box, a sampling pipe and an auger rotating shaft, wherein the lifting guide rail is hinged to the front end of the moving vehicle;

2. The rapid deep sampling device for soil detection of claim 1, wherein: and crawler wheels are arranged at the bottom of the mobile vehicle.

3. The rapid deep sampling device for soil detection of claim 1, wherein: the lower end of the lower folding guide rail is arranged at the front end of the mobile vehicle through a rotary hinging seat and a hinging shaft, and the deflection angle of the lower folding guide rail is adjusted through an adjusting hydraulic cylinder arranged on the mobile vehicle.

4. A rapid depth sampling device for soil testing according to claim 3, wherein: the upper end of the lower folding guide rail is provided with a first folding hinge seat, and the lower end of the middle folding guide rail is hinged with the first folding hinge seat through a hinge shaft;

5. The rapid deep sampling device for soil detection of claim 1, wherein: the lifting guide rail is of an I-shaped steel structure, a rack is arranged on the side wall of the lifting guide rail, the sliding seat is limited on the lifting guide rail, a lifting adjusting part for driving the sliding seat to lift is arranged on the sliding seat, and the lifting adjusting part comprises a hydraulic motor and a meshing gear matched with the rack.

6. The rapid deep sampling device for soil testing according to claim 5, wherein: the rotary driving part is a hydraulic motor for driving the auger rotating shaft.

7. The rapid deep sampling device for soil testing according to claim 6, wherein: the auger rotating shaft comprises a rotating shaft and auger conveying blades, and a standby auger is detachably arranged at the lower end of the auger rotating shaft; and a standby sampling tube is detachably arranged at the lower end of the sampling tube.

8. The rapid deep sampling device for soil testing according to claim 7, wherein: a thread groove is formed in the lower end of the auger rotating shaft in the axial direction, and a connecting screw rod matched with the thread groove is arranged in the upper end of the standby auger in the axial direction; the lower end of the standby auger is also provided with a thread groove for other standby augers.

9. The rapid deep sampling device for soil testing according to claim 7, wherein: the lower end of the sampling tube is an internal thread port, and the upper end of the standby sampling tube is provided with an external thread port which is connected with the internal thread port in an adaptive manner; and the lower end of the standby sampling tube is provided with an internal thread port connected with other standby sampling tubes.