CN213625532U - Foundation detection device - Google Patents

Abstract

The utility model relates to the technical field of engineering quality detection equipment, and discloses a foundation detection device, which comprises a sample storage pipe, wherein the sample storage pipe is a circular pipeline, the interior of the sample storage pipe is hollow, and a movable sampling pipe is arranged inside the sample storage pipe, in the utility model, after a sample is taken out by the sampling pipe, the sampling pipe can move towards the interior of the sample storage pipe through the driving of a driving column, at the moment, a sealing plate can be pulled out of the interior of a sampling groove through a shifting block, at the moment, the sealing plate can be overturned through a hinge, at the moment, the sampling pipe inside the sample storage pipe can be leaked, at the moment, an earth sample inside the sampling pipe can be taken out of the sample storage pipe, and an elastic cushion is arranged on the sealing plate, when the sealing plate is overturned and closed with the interior of the sampling groove, at the moment, the elastic cushion can be extruded by the sealing plate and the inner wall surface of the sampling groove, so that the, thereby reach the effect that makes things convenient for the sample, improve work efficiency.

Description

Foundation detection device

Technical Field

The utility model relates to an engineering quality check out test set technical field especially relates to a foundation detection device.

Background

Before the construction, whether foundation accords with the construction foundation at first, so need collect the detection to the soil on the foundation in advance, in the detection to the foundation, the soil that the most needs to detect is the soil that is located the ground, need collect the detection to the soil on the foundation through detection device in advance to avoid appearing because of the condition that soil factor influences building safety. And the sampling device that current ground detection device used is when using, with the sampler deep-going underground sampling back, the sample all can be full of the sampling chamber, if the sampling chamber is darker, its inside sample will be difficult for taking out, brings the trouble for the staff, leads to having reduced work efficiency, for this reason, we provide a ground detection device.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model discloses solve the technical problem that above-mentioned prior art exists, provide a foundation detection device.

(II) technical scheme

In order to achieve the above object, the utility model discloses a following technical scheme, a foundation detection device, including storing up the appearance pipe, its characterized in that: the sampling tube is movably arranged inside the sample storage tube, a fixed block is arranged inside the sampling tube, an auger stem is fixedly mounted on the left wall surface of the fixed block, the left end of the auger stem is in a taper shape, spiral grooves which are arranged at equal intervals are formed in the outer wall surface of the auger stem, two mirror-symmetrical connecting blocks are fixedly mounted on the inner wall surface of the sampling tube, pull blocks are respectively and fixedly mounted on the rear wall surfaces of the two connecting blocks, a limiting block is fixedly mounted on the right end of the sampling tube, a driving column is fixedly mounted on the right end of the limiting block, the right end of the driving column is in driving connection with external driving equipment, a cleaning block is arranged inside the sample storage tube, a spring is arranged on the outer wall surface of the driving column, a sampling groove is formed in the outer wall surface of the sample storage tube, and a sealing plate is movably connected to, the front side wall surface and the rear side wall surface of the sealing plate are respectively and fixedly provided with an elastic pad, and the outer wall surface of the sealing plate is fixedly provided with a shifting block.

Preferably, the upper side wall surface and the lower side wall surface of the fixing block are respectively fixedly connected with the inner wall surface of the sampling tube.

Preferably, the outer wall surface of the cleaning block is movably attached to the inner wall surface of the sample storage tube, and the right end of the driving column penetrates through the cleaning block and the sample storage tube.

Preferably, the left end of the spring is fixedly connected with the right end of the cleaning block, and the right end of the spring is fixedly connected with the left end of the interior of the sample storage tube.

Preferably, the sealing plate is movably attached to the inner wall surface of the sampling groove through a hinge, and one side wall surface of each elastic cushion, which deviates from each other, is movably attached to the front side wall surface and the rear side wall surface of the inner part of the sampling groove respectively.

Advantageous effects

The utility model provides a foundation detection device. The method has the following beneficial effects:

(1) this foundation basis detection device, the sampling tube is after having got the sample, the sampling tube will be to storing up the inside removal of sample tube through the drive that drives the post, at this moment alright with pull out sample groove inside with the closing plate through the shifting block, at this moment the closing plate will overturn through the hinge, at this moment store up the inside sampling tube of sample tube and will spill, at this moment again from storing up in the sample tube take out the inside earth sample of sample tube can, and install the cushion on the closing plate, when the closing plate upset was closed with sample groove inside, at this moment the cushion just can be extruded by closing plate and sample groove internal face, the closing plate alright closely laminate with the elasticity and the sample groove inside through the cushion like this, thereby reach convenient sample, the effect of work efficiency is improved.

(2) When the ground foundation detection device is used, when the detection device needs to detect the ground, the interior of the ground can be sampled through the sampling device on the detection device, when an external driving device drives the driving column to rotate, the auger stem is driven by the sampling tube to rotate, the auger stem can drill and sample the ground, when the sampling tube drills into the interior of the ground, the sampling tube can rotationally cut soil when rotating, so that the soil enters the interior of the sampling tube, the pulling block is arranged in the sampling tube, when the pulling block rotates along with the sampling tube, the soil enters the interior of the sampling tube, the pulling block can also cut into the soil, when the sampling tube moves towards the interior of the sample storage tube, the pulling block can fix the soil in the interior of the sampling tube to be blocked, so that the soil sample in the interior of the sampling tube is prevented from falling off when sampling, thereby achieving the effect of convenient sampling.

(3) The foundation detection device has the advantages that after the sampling pipe enters the foundation along with the rotation of the auger stem, the sampling pipe can carry back soil samples into the sample storage pipe, when the sampling pipe moves towards the inside of the sample storage pipe, the limiting block can contact with the cleaning block along with the movement of the sampling pipe, the limiting block can extrude the cleaning block, when the sampling pipe moves to a proper position in the sample storage pipe, the soil samples are taken out, the sampling pipe moves leftwards, the cleaning block also moves leftwards along with the limiting block under the elasticity of the spring, when residual soil samples are adhered to the inner wall surface of the sample storage pipe, the cleaning block can be adhered to the inner wall surface of the sample storage pipe, so that the cleaning block can push and clean residual samples on the inner wall surface of the sample storage pipe when moving, and when the cleaning block moves to the left end of the sample storage pipe, the residue in the sample storage tube can be pushed out of the sample storage tube, so that the effect of automatically cleaning the residue in the sample storage tube is achieved.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is a partial schematic view of the sampling tank of the present invention;

fig. 3 is a schematic view of a local cleaning block of the present invention.

Illustration of the drawings:

1. a sample storage tube; 2. a sampling tube; 3. a fixed block; 4. a auger stem; 5. a helical groove; 6. connecting blocks; 7. pulling the block; 8. a limiting block; 9. cleaning the block; 10. driving the column; 11. a spring; 12. a sampling groove; 13. A hinge; 14. a sealing plate; 15. an elastic pad; 16. and (5) shifting blocks.

Detailed Description

The technical solution of the present invention is further described in detail by the following embodiments with reference to the accompanying drawings.

Example (b): a foundation detection device is shown in figures 1-3 and comprises a sample storage pipe 1, wherein the sample storage pipe 1 is a circular pipeline, the interior of the sample storage pipe 1 is hollow, a movable sampling pipe 2 is arranged in the sample storage pipe 1, the sampling pipe 2 is in a semicircular pipe shape, the interior of the sampling pipe 2 is hollow, a fixed block 3 is arranged in the sampling pipe 2, the fixed block 3 is in a rectangular block shape, the upper side wall surface and the lower side wall surface of the fixed block 3 are respectively fixedly connected with the inner wall surface of the sampling pipe 2, a spiral drill rod 4 is fixedly arranged on the left wall surface of the fixed block 3, the spiral drill rod 4 is in a circular rod shape, the left end of the spiral drill rod 4 is in a pointed cone shape, spiral grooves 5 which are arranged at equal intervals are formed in the outer wall surface of the spiral drill rod 4, two connecting blocks 6 which are in mirror symmetry are fixedly arranged on the inner wall surface of the sampling pipe 2, the rear wall surfaces of the two connecting blocks 6 are respectively fixedly provided with a pulling block 7, the pulling block 7 is in an arc groove shape, the right end of the sampling tube 2 is fixedly provided with a limiting block 8, the limiting block 8 is in a circular block shape, the right end of the limiting block 8 is fixedly provided with a driving column 10, the driving column 10 is in a circular column shape, the right end of the driving column 10 is in driving connection with an external driving device, the sample storage tube 1 is internally provided with a cleaning block 9, the cleaning block 9 is in a circular block shape, the outer wall surface of the cleaning block 9 is movably attached to the inner wall surface of the sample storage tube 1, the right end of the driving column 10 penetrates through the cleaning block 9 and the sample storage tube 1, the outer wall surface of the driving column 10 is provided with a spring 11, the left end of the spring 11 is fixedly connected with the right end of the cleaning block 9, the right end of the spring 11 is fixedly connected with the inner left end of the sample storage tube 1, the outer wall surface of the sample storage tube 1, the sealing plate 14 is arc plate-shaped, and both sides wall is fixed mounting cushion 15 respectively around the sealing plate 14, and cushion 15 is the rectangle pad form, and sealing plate 14 passes through hinge 13 and sample groove 12 internal face activity laminating, and two side wall that cushion 15 deviates from each other are laminated with the inside front and back both sides wall activity of sample groove 12 respectively, and sealing plate 14's outer wall fixed mounting has shifting block 16, and shifting block 16 is rectangular block shape.

The utility model discloses a theory of operation: when the detection device is used for detecting a foundation, the interior of the foundation can be sampled through the sampling device on the detection device, when an external driving device drives the driving column 10 to rotate, the auger stem 4 is driven by the sampling tube 2 to rotate, the auger stem 4 can drill and sample the ground, when the sampling tube 2 drills into the foundation, the sampling tube 2 rotates to cut soil into the sampling tube 2, the pulling block 7 is arranged in the sampling tube 2, when the pulling block 7 rotates along with the sampling tube 2, the pulling block 7 also cuts into the soil when the soil enters the sampling tube 2, when the sampling tube 2 moves towards the interior of the sample storage tube 1, the pulling block 7 fixes the soil in the sampling tube 2, so that the soil sample in the sampling tube 2 is prevented from falling off during sampling, thereby achieving the effect of convenient sampling.

When the sampling tube 2 enters the ground along with the rotation of the auger stem 4, the sampling tube 2 can carry the soil sample back into the sample storage tube 1, when the sampling tube 2 moves towards the interior of the sample storage tube 1, the limiting block 8 can contact with the cleaning block 9 along with the movement of the sampling tube 2, the limiting block 8 can extrude the cleaning block 9, when the sampling tube 2 moves to a proper position in the sample storage tube 1, the soil sample is taken out, at the moment, the sampling tube 2 moves leftwards, at the moment, the cleaning block 9 can move leftwards along with the limiting block 8 under the elasticity of the spring 11, at the moment, when the inner wall surface of the sample storage tube 1 is adhered with the residual soil sample, at the moment, the cleaning block 9 can be adhered with the inner wall surface of the sample storage tube 1, so that the cleaning block 9 can push and clean the residual sample on the inner wall surface of the sample storage tube 1 when moving, and when the cleaning block 9 moves to the left end of the sample storage tube 1, the residue inside the sample storage tube 1 can be pushed out of the sample storage tube, so that the effect of automatically cleaning the residue inside the sample storage tube 1 is achieved.

Sampling tube 2 is after taking the sample, sampling tube 2 will be to storing up the inside removal of sample tube 1 through the drive that drives post 10, at this moment alright with sealed plate 14 pull out sample groove 12 inside through shifting block 16, at this moment sealed plate 14 will overturn through hinge 13, at this moment store up sample tube 1 inside sampling tube 2 will spill, at this moment again from storing up sample tube 1 in with the inside earth sample of sampling tube 2 take out can, and install cushion 15 on the sealed plate 14, when sealed plate 14 upset and sample groove 12 are inside closed, at this moment cushion 15 just can be extruded by sealed plate 14 and sample groove 12 internal face, sealed plate 14 alright closely laminate with sample groove 12 inside through the elasticity of cushion 15 like this, thereby reach convenient sample, improve work efficiency's effect.

The basic principles and main features of the present invention, i.e. the advantages of the present invention, have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a foundation detection device, includes storage appearance pipe (1), its characterized in that: the sample storage tube is characterized in that a movable sampling tube (2) is arranged inside the sample storage tube (1), a fixed block (3) is arranged inside the sampling tube (2), an auger stem (4) is fixedly mounted on the left wall surface of the fixed block (3), the left end of the auger stem (4) is a sharp taper shape, spiral grooves (5) which are arranged at equal intervals are formed in the outer wall surface of the auger stem (4), two connecting blocks (6) which are in mirror symmetry are fixedly mounted on the inner wall surface of the sampling tube (2), pull blocks (7) are respectively fixedly mounted on the rear wall surface of the two connecting blocks (6), a limiting block (8) is fixedly mounted on the right end of the sampling tube (2), a driving column (10) is fixedly mounted on the right end of the limiting block (8), the right end of the driving column (10) is in driving connection with external driving equipment, a cleaning block (9) is arranged inside the sample storage, the outer wall surface of drive post (10) is provided with spring (11), sample groove (12) have been seted up to the outer wall surface of storage appearance pipe (1), the outer wall surface of storage appearance pipe (1) has closing plate (14) through hinge (13) swing joint, both sides wall surface fixed mounting respectively has cushion (15) around closing plate (14), the outer wall surface fixed mounting of closing plate (14) has shifting block (16).

2. A foundation detection arrangement according to claim 1, wherein: the upper side wall surface and the lower side wall surface of the fixed block (3) are respectively fixedly connected with the inner wall surface of the sampling tube (2).

3. A foundation detection arrangement according to claim 1, wherein: the outer wall surface of the cleaning block (9) is movably attached to the inner wall surface of the sample storage tube (1), and the right end of the driving column (10) penetrates through the cleaning block (9) and the sample storage tube (1).

4. A foundation detection arrangement according to claim 1, wherein: the left end of the spring (11) is fixedly connected with the right end of the cleaning block (9), and the right end of the spring (11) is fixedly connected with the left end of the interior of the sample storage tube (1).

5. A foundation detection arrangement according to claim 1, wherein: the sealing plate (14) is movably attached to the inner wall surface of the sampling groove (12) through a hinge (13), and two side wall surfaces, deviating from each other, of the elastic pads (15) are movably attached to the front side wall surface and the rear side wall surface of the inner portion of the sampling groove (12) respectively.

Images