JP3243847U - Soil sampler for testing during solidification work - Google Patents

Abstract

An object of the present invention is to provide a soil sampler for inspection in solidification construction, which is capable of simultaneously sampling soil samples at different depths. SOLUTION: A soil sampler includes a casing 1, a boring rod 2, a servo motor 3, and a sampling mechanism 4, the casing is provided with a sampling hole and a first slide groove, and the casing is provided with a sampling hole and a first slide groove. penetrates the side wall of the casing, and two first slide grooves are provided facing each other on both the upper and lower sides of the sampling hole, and the sampling mechanism includes a stopper plate and a sampling section, and the right side wall of the stopper plate is A first slider is fixedly connected to the left side wall of the sampling section and is slidably fitted into the first slide groove at both the upper and lower ends of the stopper plate. a second position limiting plate, a sampling cavity, and a sampling funnel. [Selection diagram] Figure 1

Description

The present invention relates to the field of road/bridge construction equipment, and specifically relates to a soil sampler for testing during solidification work.

The conventional inspection method in consolidation work is usually to use the core boring method, where a hole is drilled into the soil with a boring rod. They are susceptible to contamination due to mixing, which can affect research results. Conventional towers for geological exploration and sampling were fixed structures, making it difficult to accommodate adjustment work.

Chinese patent CN218454738U discloses a soil boring sampler for geological exploration, which includes a casing through which a boring rod passes, a connecting handle is engaged with the upper end of the boring rod, and an auxiliary ring is provided at the lower end. a rectangular parallelepiped tubular structure with elastic belts provided on both sides of the center and rectangular holes provided on both sides; and an extension plate symmetrically provided on the inner wall of the opening on both sides of the center of the casing, the extension plate and an extension plate that is slidably connected to each other and has a magnetic adsorption plate provided on the casing side.

However, with the above structure, it is difficult to simultaneously sample road paving materials at different depths, and the work efficiency is low.

In order to solve the above problems, a soil sampler for inspection in solidification construction is provided, and due to the sampling hole and sampling mechanism, it is difficult to sample road paving materials at different depths at the same time, and the sampling efficiency is low. Solve problems.

In order to solve the problems of the prior art, the present invention provides a soil sampler for testing in consolidation works, including a casing, a boring rod, a servo motor, and a sampling mechanism. The casing is provided with fixed teeth, a sampling hole, and a first slide groove, the casing extends in the vertical direction, and a through hole for passing a boring rod is provided in the center of the casing, and the sampling hole is formed in the casing. Two first slide grooves are provided on the outside of the casing to face each other on the upper and lower sides of the sampling hole, and the first slide grooves are installed horizontally around the outer wall of the casing, The number of holes is at least two, the fixed teeth are installed at the bottom of the casing, the number of fixed teeth is at least three, and the boring rod is provided at the bottom of the boring rod, and the boring rod is inserted into the soil. The servo motor is mounted above the casing, the motor shaft is fixedly connected to the top of the boring rod, and the servo motor is bolted to a mounting plate mounted above the boring rod. The sampling mechanism includes a stopper plate and a sampling section, the right side wall of the stopper plate is fixedly connected to the left side wall of the sampling section, and the inner wall of the stopper plate has an arc shape that tightly contacts the outer wall of the casing. , a first slider that slidably fits into a first slide groove is provided at both the upper and lower ends of the stopper plate, and a first position limiting plate is provided on the left side of the stopper plate, and a first position limiting plate is provided at the left side of the stopper plate. A first fixing plate is provided on the top of the restriction plate, and the sampling part is provided with a second slider, a second position restriction plate, a sampling cavity, and a sampling funnel, and the inner wall of the sampling part is The second slider is in the shape of an arc that closely contacts the outer wall of the casing, and the second slider is provided at both the upper and lower ends of the sampling section, and is slidably fitted into the first slide groove. A second fixing plate is provided on the right side of the second position limiting plate, a sampling cavity communicating with the sampling hole is provided in the sampling part, and a sampling funnel is provided below the sampling cavity. , the number of sampling mechanisms is the same as the number of sampling holes.

Preferably, the stopper plate is further provided with an observation glass, a mounting groove, and a fixing plate, a mounting groove for arranging the observation glass is formed in the center of the stopper plate, and the fixing plate and the stopper plate are are removably connected by bolts, two fixing plates are provided facing each other on both sides of the mounting groove, the inner wall of the observation glass has an arc shape that closely fits the outer wall of the casing, and the fixing plate is attached to the outer wall of the stopper plate. It is set in.

Preferably, a support mechanism is further provided, the support mechanism includes a support rod and a first connection shaft, the support rod is provided with a second support shaft and a pin plate, and the pin plate includes a connection ring. is provided, a first connecting shaft is provided at the top of the support rod, a second connecting shaft is provided at the bottom of the support rod, and the pin plate is rotatable to the second connecting shaft via the connecting ring. A through hole is provided in the center of the pin plate for passing the pin through, and the number of support mechanisms is at least three.

Preferably, the casing is further provided with a mounting groove, the mounting groove is provided on the outer wall of the casing for placing the support rod, and the inner wall on both sides of the mounting groove is provided with second slide grooves. is provided along the height direction of the casing, and the first connecting shaft of the support rod is rotatably and slidably fitted into the slide groove.

Preferably, the casing further includes a footplate, a support block, and a magnetic attraction part, the footplate being hingedly connected to the bottom of the casing, and the footplate being hingedly connected to the bottom of the casing. A support block is provided to support the support block, a magnetic adsorption part is provided above the support block, the magnetic adsorption part and the outer wall of the casing are fixedly connected, and the foot plate is made of processed metal material. The number of blocks and magnetic attraction parts is at least one.

Preferably, a connection mechanism is further provided, the connection mechanism including a first connection rod and a second connection rod, the first connection rod being hinged to the mounting plate, the first connection rod having a A third sliding groove is provided, the second connecting rod is hingedly connected to the top of the casing, and the second connecting rod is provided with a third slider that slidably fits into the third sliding groove. and the number of connection mechanisms is at least two.

Compared with the prior art, the beneficial effects of the present invention are as follows.

1. According to the present invention, the sampling hole and the sampling part allow the operator to simultaneously sample soil samples at different depths, thereby improving the efficiency of sampling by the device.

2. According to the present invention, the soil sample inside the casing can be observed through the sampling hole using the observation glass, and the state and depth of the soil sample can be observed, thereby improving sampling accuracy.

3. According to the present invention, the mounting groove and the second sliding groove facilitate quick storage of the support rod, thereby facilitating storage of the device.

It is a schematic perspective view of a soil sampler for inspection during solidification work. It is a perspective structural schematic diagram of the casing of the soil sampler for inspection in solidification work. It is a perspective structural schematic diagram of the sampling mechanism of the soil sampler for inspection in solidification work. It is a perspective structural schematic diagram of the sampling mechanism of the soil sampler for inspection in solidification work. FIG. 2 is a schematic perspective structural diagram of a boring rod, a servo motor, and a connection mechanism of a soil sampler for inspection during solidification work. FIG. 2 is a schematic perspective view of the structure of a soil sampler for inspection during solidification work when its support mechanism and footboard are opened.

In order to further understand the features, technical means, and specific objectives and functions of the present invention, the present invention will be described in more detail in conjunction with drawings and specific embodiments.

Referring to FIGS. 1 to 5, a soil sampler for testing in solidification work includes a casing 1, a boring rod 2, a servo motor 3, and a sampling mechanism 4. The casing 1 includes fixed teeth 11, A sampling hole 12 and a first slide groove 13 are provided, the casing 1 extends in the vertical direction, and a through hole for passing the boring rod 2 is provided in the center of the casing 1. Two first slide grooves 13 are provided on the outside of the casing 1 to face each other on both upper and lower sides of the sampling hole 12, passing through the side wall, and the first slide grooves 13 extend horizontally around the outer wall of the casing 1. installed, the number of sampling holes 12 is at least two, the fixed teeth 11 are installed at the bottom of the casing 1, the number of fixed teeth 11 is at least three, and the boring rod 2 has a bottom of the boring rod 2. A servo motor 3 is installed above the casing 1, and a motor shaft is fixedly connected to the top of the boring rod 2. 3 is attached with bolts to a mounting plate 31 installed above the boring rod 2, and the sampling mechanism 4 includes a stopper plate 41 and a sampling section 42, and the right side wall of the stopper plate 41 is attached to the left side of the sampling section 42. The stopper plate 41 is fixedly connected to the wall, and the inner wall of the stopper plate 41 has an arcuate shape that closely contacts the outer wall of the casing 1. At both upper and lower ends of the stopper plate 41, there are grooves that are slidably fitted into the first slide grooves 13. A first position limiting plate 412 is provided on the left side of the stopper plate 41, a first fixing plate 4121 is provided on the top of the first position limiting plate 412, and a first position limiting plate 412 is provided on the top of the first position limiting plate 412. is provided with a second slider 421, a second position limiting plate 422, a sampling cavity 423, and a sampling funnel 424, and the inner wall of the sampling part 42 has an arc shape that closely contacts the outer wall of the casing 1, The second slider 421 is provided at both the upper and lower ends of the sampling section 42 and is slidably fitted into the first slide groove 13, and the second position limiting plate 422 is provided at the right side of the sampling section 42 and A second fixing plate 4221 is provided on the second position limiting plate 422, a sampling cavity 423 communicating with the sampling hole 12 is provided in the sampling section 42, and a sampling funnel 424 is provided below the sampling cavity 423. The number of sampling mechanisms 4 is the same as the number of sampling holes 12.

The operator needs to insert the fixed teeth 11 into the road paving material below the casing 1 and fix the casing 1 to the road paving material via the fixed teeth 11. A cavity is provided in the center of the casing 1 for passing the boring rod 2, and a conical portion 21 is provided at the bottom of the boring rod 2 to facilitate insertion of the boring rod 2 into the road paving material below. ing. The top of the boring rod 2 is fixedly connected to the motor shaft of a servo motor 3, and the servo motor 3 is attached to a mounting plate 31 with bolts. is equipped with a handle for easy grip by the operator. The casing 1 is provided with a sampling hole 12 passing through its side wall, and first slide grooves 13 are provided in the outer wall of the casing 1 at both upper and lower ends of the sampling hole 12. The stopper plate 41 and the sampling section 42 are provided with a first slider 411 and a second slider 421, respectively, which are slidably fitted into the first slide groove 13. In order to prevent the stopper plate 41 and the sampling part 42 from coming off from between the first slide grooves 13, a first restriction plate 412 is provided on the left side of the stopper plate 41, and a second restriction plate 412 is provided on the right side of the sampling part 42. A position restriction plate 422 is provided respectively. The first position limiting plate 412 is provided with a first fixing plate 4121, the second position limiting plate 422 is provided with a second fixing plate 4221, and the first fixing plate 4121 and the second fixing plate 4221 are provided. is provided with a through hole for passing the pin shaft, and by fixing the stopper plate 41 and the sampling section 42 with the pin shaft, the stopper plate 41 and the sampling section 42 can be prevented from sliding with respect to the first slide groove 13 during operation of the device. prevent. A sampling cavity 423 communicating with the sampling hole 12 is provided in the sampling part 42, and a sampling funnel 424 is provided below the sampling cavity 423, and a connecting flange is provided at the bottom of the funnel. removably attach the container. When an operator samples the road paving material excavated by the boring rod 2, he/she simply slides the sampling part 42 to the position of the corresponding sampling hole 12 and rotates the boring rod 2, and the road paving material is sampled. It passes through the sampling hole 12 and enters the container below the sampling section 42 . There are a plurality of sampling holes 12 and sampling mechanisms 4, and the worker can collect road paving materials at different depths using the plurality of sampling holes 12 and sampling mechanisms 4, which improves the efficiency of collecting road paving materials. can be improved.

Referring to FIGS. 3 and 4, the stopper plate 41 is further provided with an observation glass 413, a mounting groove 414, and a fixing plate, and a mounting plate for arranging the observation glass 413 is provided in the center of the stopper plate 41. A groove 414 is opened, the fixing plate and the stopper plate 41 are removably connected with bolts, the two fixing plates are provided facing each other on both sides of the mounting groove 414, and the inner wall of the observation glass 413 The stopper plate 41 has an arcuate shape that closely contacts the outer wall, and the fixing plate is provided on the outer wall of the stopper plate 41.

A mounting groove 414 for fitting and mounting the observation glass 413 is formed in the center of the stopper plate 41, and two fixing plates are provided facing each other on both sides of the mounting groove 414, and the fixing plates are attached to the stopper plate. It is installed on the outer wall of 41. A stopper plate 41, an observation glass 413, and a fixed plate are installed in this order from the inside to the outside in the radial direction of the boring rod 2, and the observation glass 413 is provided between the mounting groove 414 and the fixed plate. The fixed plate and the stopper plate 41 are removably connected with bolts. This makes it easy to clean and replace the observation glass 413, and allows the operator to observe the condition of the road paving material inside the casing 1 through the observation glass 413. The inner wall of the observation glass 413 has an arcuate shape that closely contacts the outer wall of the casing 1 . This prevents the road paving material from remaining on the stopper plate 41 due to the inner wall of the viewing glass 413 and the inner wall of the stopper plate 41 not being aligned.

Referring to FIG. 6, a support mechanism 5 is further provided, and the support mechanism 5 includes a support rod 51 and a first connection shaft 52, and the support rod 51 includes a second support shaft 511 and a pin plate 512. is provided, the pin plate 512 is provided with a connecting ring 5121, a first connecting shaft 52 is provided at the top of the support rod 51, a second connecting shaft 511 is provided at the bottom of the support rod 51, and the pin plate 512 is rotatably connected to the second connecting shaft 511 via a connecting ring 5121, a through hole for passing the pin is provided in the center of the pin plate 512, and the number of supporting mechanisms 5 is at least three. be.

The support rod 51 is provided with a first connection shaft 52 at the top, is rotatably connected to the bottom edge of the casing 1 via the first connection shaft 52, and has a second connection at the bottom of the support rod 51. A shaft 511 is provided, and the pin plate 512 is hinged to the second connecting shaft 511 via a connecting ring 5121. When sampling soil using the device, the bottom of the support rod 51 is rotated in the direction away from the casing 1, the pin plate 512 is rotated, and the bottom of the pin plate 512 and the surface of the road paving material are connected. By adjusting the angle, the pin plate 512 is provided with a through hole for passing the pin, and by driving the pin into the road paving material through the pin plate 512, the stability of the casing 1 during work is improved. .

Referring to FIGS. 2 and 6, the casing 1 is further provided with a mounting groove 14, and the mounting groove 14 is provided on the outer wall of the casing 1 in order to place the support rod 51. A second slide groove 141 is provided in the inner wall on both sides of the casing 1 along the height direction of the casing 1, and the first connecting shaft 52 of the support rod 51 is rotatably and slidably fitted into the slide groove. match.

When it is no longer necessary to use the support rod 51, the first connection shaft 52 is slid along the second slide groove 141 in a direction away from the bottom of the casing 1, and the support rod 51 enters the mounting groove 14. The bottom of the support rod 51 is rotated in the direction toward the bottom of the casing 1 until the bottom of the support rod 51 approaches the bottom of the casing 1. If it is necessary to use the support rod 51, rotate the bottom of the support rod 51 in the direction away from the bottom of the casing 1 until the first connection shaft 52 slides into the bottom of the mounting groove 14. The first connecting shaft 52 is slid along the second slide groove 141 in a direction approaching the bottom of the casing 1. By accommodating the support rod 51 in the mounting groove 14, the device can be easily stored, quickly stored, and operated easily.

Referring to FIGS. 2 and 6, the casing 1 is further provided with a foot plate 15, a support block 16, and a magnetic attraction part 17, the foot plate 15 is hinge-connected to the bottom of the casing 1, and the foot plate 15 is hinged to the bottom of the casing 1. A support block 16 that supports the footboard 15 is provided below the hinge connection between the casing 1 and the casing 1, and a magnetic adsorption section 17 is provided above the support block 16, so that the magnetic adsorption section 17 and the outer wall of the casing 1 are fixed. The foot plate 15 is made of a processed metal material, and the number of the foot plate 15, the support block 16, and the magnetic attraction part 17 is at least one.

When the road paving material to be sampled is relatively hard, it is difficult for an operator to insert the fixed teeth 11 into the road paving material using only manual force. A supporting block 16 is provided below the footboard 15 and is fixedly connected to the casing 1 to support the footboard 15 .A support block 16 is provided above the support block 16 and is fixedly connected to the casing 1 . A magnetic adsorption part 17 is provided, and the foot plate 15 is made of a processed metal material, and the magnetic adsorption part 17 attracts the foot plate 15 to quickly store the foot plate 15, making it easy to store the device. The foot plate 15 allows the operator to more easily insert the fixed teeth 11 into the road paving material, thereby saving labor and improving efficiency.

Referring to FIG. 5, a connecting mechanism 6 is further provided, the connecting mechanism 6 includes a first connecting rod 61 and a second connecting rod 62, the first connecting rod 61 being hingedly connected to the mounting plate 31. The first connecting rod 61 is provided with a third sliding groove 611, the second connecting rod 62 is hingedly connected to the top of the casing 1, and the second connecting rod 62 is provided with a third sliding groove 611. A third slider 621 is provided which slidably fits into 611, and the number of connection mechanisms 6 is at least two.

One end of the first connecting rod 61 is hinged to the mounting plate 31, one end of the second connecting rod 62 is hinged to the top of the casing 1, and the first connecting rod 61 and the second connecting rod 62 are They are slidably fitted via the third slide groove 611 and the third slider 621. The connecting mechanism 6 expands the movement range of the boring rod 2 within the casing 1, thereby expanding the operating range of the device.

Although the above examples merely illustrate one or more embodiments of the present invention, and the description thereof is relatively specific and detailed, it should not be understood as a limitation on the protection scope of the present invention. isn't it. Those skilled in the art may make some further modifications and improvements without departing from the concept of the present invention, all of which fall within the protection scope of the present invention. Therefore, the scope of protection of the present invention shall conform to the scope of the attached utility model registration claims.

1 Casing 11 Fixed tooth 12 Sampling hole 13 First slide groove 14 Mounting groove 141 Second slide groove 15 Foot plate 16 Support block 17 Magnetic attraction part 2 Boring rod 21 Conical part 3 Servo motor 31 Mounting plate 4 Sampling mechanism 41 Stopper plate 411 First slider 412 First position limiting plate 4121 First fixing plate 413 Observation glass 414 Mounting groove 415 Third fixing plate 42 Sampling section 421 Second slider 422 Second position limiting plate 4221 Second Fixed plate 423 Sampling cavity 424 Sampling funnel 5 Support mechanism 51 Support rod 511 Second connection shaft 512 Pin plate 5121 Connection ring 52 First connection shaft 6 Connection mechanism 61 First connection rod 611 Third slide groove 62 2 connection rod 621 3rd slider

Claims (6)

A soil sampler for inspection in solidification work, including a casing (1), a boring rod (2), a servo motor (3), and a sampling mechanism (4), the casing (1) having fixed teeth ( 11), a sampling hole (12), and a first slide groove (13),
The casing (1) extends vertically, a through hole is provided in the center of the casing (1) for passing the boring rod (2), and a sampling hole (12) passes through the side wall of the casing (1). Two first slide grooves (13) are provided on the outside of the casing (1) to face each other on both sides above and below the sampling hole (12), and the first slide grooves (13) are arranged around the outer wall of the casing (1). are installed in the horizontal direction, the number of sampling holes (12) is at least two, the fixed teeth (11) are installed at the bottom of the casing (1), the number of fixed teeth (11) is at least three, ,
The boring rod (2) is provided with a cone (21) provided at the bottom of the boring rod (2) for inserting the boring rod (2) into the soil,
The servo motor (3) is installed above the casing (1), the motor shaft is fixedly connected to the top of the boring rod (2), and the servo motor (3) is installed above the boring rod (2). It is attached to the attached mounting plate (31) with bolts,
The sampling mechanism (4) includes a stopper plate (41) and a sampling section (42), the right side wall of the stopper plate (41) is fixedly connected to the left side wall of the sampling section (42), and the stopper plate (41) is fixedly connected to the left side wall of the sampling section (42). The inner wall of the stopper plate (41) has an arcuate shape that closely contacts the outer wall of the casing (1), and a first slider is provided at both upper and lower ends of the stopper plate (41) to slidably fit into the first slide groove (13). (411), a first position limiting plate (412) is provided on the left side of the stopper plate (41), and a first fixing plate (4121) is provided on the top of the first position limiting plate (412). is established,
The sampling section (42) is provided with a second slider (421), a second position limiting plate (422), a sampling cavity (423), and a sampling funnel (424). The inner wall of the casing (1) has an arcuate inner wall that closely contacts the outer wall of the casing (1), and the second slider (421) is provided at both the upper and lower ends of the sampling section (42) and is slidable in the first slide groove (13). The second position limiting plate (422) is provided on the right side of the sampling part (42), the second position limiting plate (422) is provided with a second fixing plate (4221), and the second position limiting plate (422) is fitted with the sampling part (422). A sampling cavity (423) communicating with the sampling hole (12) is provided in the part (42), a sampling funnel (424) is provided below the sampling cavity (423), and the sampling mechanism (4) the same number of sampling holes (12);
A soil sampler for testing during solidification work. The stopper plate (41) is further provided with an observation glass (413), a mounting groove (414), and a fixing plate,
A mounting groove (414) for arranging the observation glass (413) is formed in the center of the stopper plate (41), and the fixed plate and the stopper plate (41) are removably connected with bolts, and the two fixed The plates are provided facing each other on both sides of the mounting groove (414), the inner wall of the observation glass (413) has an arc shape that closely contacts the outer wall of the casing (1), and the fixing plate is provided on the outer wall of the stopper plate (41). is provided in
The soil sampler for inspection in solidification work according to claim 1. A support mechanism (5) is further provided;
The support mechanism (5) includes a support rod (51) and a first connection shaft (52), and the support rod (51) is provided with a second support shaft (511) and a pin plate (512). The pin plate (512) is provided with a connecting ring (5121), the first connecting shaft (52) is provided on the top of the support rod (51), and the second connecting shaft (511) is provided on the top of the support rod (51). 51), the pin plate (512) is rotatably connected to the second connecting shaft (511) via a connecting ring (5121), and a pin is passed through the center of the pin plate (512). a through hole is provided for the support mechanism (5) and the number of support mechanisms (5) is at least three;
The soil sampler for inspection in solidification work according to claim 1. The casing (1) is further provided with a mounting groove (14),
The mounting groove (14) is provided on the outer wall of the casing (1) for mounting the support rod (51), and the inner wall on both sides of the mounting groove (14) is provided with second slide grooves (141). is provided along the height direction of the casing (1), and the first connecting shaft (52) of the support rod (51) is rotatably and slidably fitted into the slide groove.
The soil sampler for inspection in solidification work according to claim 3. The casing (1) is further provided with a foot plate (15), a support block (16), and a magnetic attraction part (17),
The foot plate (15) is hingedly connected to the bottom of the casing (1), and a support block (16) for supporting the foot plate (15) is provided below the hinge connection between the foot plate (15) and the casing (1). A magnetic attraction part (17) is provided above the support block (16), the magnetic attraction part (17) and the outer wall of the casing (1) are fixedly connected, and the foot plate (15) is made of a metal material. The number of the footplate (15), the support block (16) and the magnetic adsorption part (17) is at least one.
The soil sampler for inspection in solidification work according to claim 1. A connection mechanism (6) is further provided;
The connection mechanism (6) includes a first connection rod (61) and a second connection rod (62), the first connection rod (61) being hinged to the mounting plate (31), and the first connection rod (61) being hinged to the mounting plate (31). The connecting rod (61) is provided with a third sliding groove (611), the second connecting rod (62) is hinged to the top of the casing (1), and the second connecting rod (62) is provided with a third sliding groove (611). , a third slider (621) slidably fitted into the third slide groove (611) is provided, and the number of connection mechanisms (6) is at least two;
The soil sampler for inspection in solidification work according to claim 1.