JPH0617567B2 - Device for preventing falling of collected samples in soil sampling - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a device for preventing falling of a collected sample in soil sampling.

(Prior Art) In a ground survey required for civil engineering construction, a soil sample is obtained by a soil sampling device. When the collected soil is sandy soil, the collected soil sample is likely to fall off. Therefore, various devices have been developed to prevent the fall off.

Conventional devices of this type are roughly classified into a basket core catcher and a rubber tube. The former is such that the catcher is closed when the sampler is pulled up, as disclosed in, for example, Japanese Utility Model Publication No. 59-23114. In the latter, the sample tube is temporarily pulled up and rotated, and the rubber tube is twisted and closed.

(Problems to be Solved by the Invention) However, among the above-mentioned conventional devices, the basket core catcher uses a warp of the spring to close the catcher, so that a soft leaf spring must be used, and the leaf spring has insufficient strength. Then the sample will fall off,
On the other hand, if the leaf spring is too hard, it will not bend and cannot serve as a lid, so the selection of the leaf spring is delicate and difficult, and the structure is complicated and prone to failure. Further, in the case of using a rubber tube, since the sampler has a multiple structure, the structure is complicated and the operation is troublesome, and the sample in the sample tube moves, which may deteriorate the quality of the sample. Have

The present invention has been made to solve the drawbacks of the conventional apparatus as described above, and by the idea of a new mechanism for forcibly inserting a leaf spring that prevents the sample from falling into the sample to be taken,
The present invention aims to provide a sample dropout prevention device for soil sampling, which has a simple structure and can prevent sample dropouts easily, and does not require temporary pulling up or rotation of the sampler to prevent dropouts and is easy to handle. Is.

(Means for Solving the Problems) Next, regarding the configuration of the present invention, first to
Referring to FIG. 3, according to the present invention, an annular hollow portion 4 having a required height is formed in a lower body of a sampling tube 1, and spring coils 6, 6 made of a shape memory alloy are formed in the hollow portion 4. The ring-shaped piston 5 that moves up and down by the expansion and contraction of the coil 6 is installed inside the ring-shaped piston 5 and
The protruding guide ports 10, 10 provided on the inner wall of the hollow portion 4.
Further, leaf springs 9 and 9 for preventing the sample from dropping are fixedly attached to the inside of the sampling tube 1.

(Operation) The operation of the device of the present invention will be described with reference to FIG. 4. The spring coils 6 and 6 made of a shape memory alloy in the double tube 3 of the sampling tube are usually ring-shaped in a stretched state. The piston 5 is suspended, and the leaf springs 9, 9 provided upright on the piston 5 are held in the hollow portion 4 of the double pipe 3. In collecting the sample, after the sampling tube 1 is penetrated into the ground, a current is applied to the spring coils 6 and 6 to heat them,
Contract 6 to its original state. The ring-shaped piston 5 moves upward due to the contracting force of the coils 6 and 6, and the leaf springs 9 and 9 project as shown in chain lines in FIGS.
The sample 10 is forcibly inserted into the sample in the sampling tube 1 to prevent the sample from falling off.

(Example) Hereinafter, the Example of this invention is described with reference to drawings.

In FIGS. 1 and 2, 1 is a sampling tube, and a cylindrical shoe 2 having a sharp edge portion is attached to the lower end thereof. At the lower part of the sampling tube 1, an annular hollow part 4 is formed in the body by a double tube 3 over a required height, and a ring-shaped piston 5 is vertically moved in the hollow part 4 inside the hollow part 4. It is freely furnished. In addition, spring coils 6 and 6 made of a plurality of shape memory alloys are provided at the upper part inside the hollow portion 4 with their upper ends fixed, and the lower ends of the spring coils 6 and 6 and the piston 5 are suspended. , 7 are connected.
In the normal state, the spring coils 6 and 6 are extended so that the piston 5 is located at the bottom of the hollow portion 4. Further, the spring coils 6 and 6 are connected with electric wires 8 and 8 for applying current to the spring coils 6 and 6 to heat them and contract the coils to the original state. Although not shown, the electric wires 8 and 8 may be inserted by providing a through hole in the body of the sampling tube 1. The shape memory alloy may be heated by directly passing a current through the metal, or indirectly by heating with a heater.

Further, a large number of leaf springs 9 and 9 are erected on the piston 5 at intervals in the circumferential direction, and a large number of projection guides are provided at an intermediate portion of the inner wall of the double pipe 3 at intervals in the circumferential direction. Mouth 10,1
0 is provided, and the tip end of each leaf spring 9 is engaged with the corresponding projecting guide port 10, and as the piston 5 rises, the leaf springs 9, 9 are centered in the sampling tube 1 from the projecting guide ports 10, 10. The part is projected as shown by the chain line in the figure. The leaf spring 9 is formed so as to bend in an arc shape in order to make it easy to rush into the sample, and the protrusion opening portion of the protrusion guide port 10 is tapered to make the leaf spring bend in an arc shape easily. It has a guide wall attached.

FIG. 3 shows a soil sampling device equipped with the above-described device of the present invention, in which the sampling tube 1 is attached to a sampler head 12 provided at the lower end of a boring rod 11. A piston rod 13 is fitted longitudinally through the sampler head, and the piston 1 closely fitted to the sampling tube 1 is fitted to the tip of this rod.
4 is attached. Inside the sampler head 12, there is provided a valve seat 15 surrounding the through hole of the piston rod 13 and a space portion communicating with the valve seat 15 to the outside. The space portion surrounds the piston rod 13 and is tightly connected to the rod 13. A valve body 17 that is in sliding contact with and is in close contact with the valve seat 15 by a spring 16 is mounted. The parts other than the device of the present invention described above are conventionally known techniques.

Explaining an example of use of the above-mentioned soil sampling device equipped with the device of the present invention, as shown in FIG. 4 (a), the leaf springs 9, 9 are stored in the hollow portion 4 of the double pipe 3. First, the sampling tube 1 is installed in the boring hole 18 in the ground.
Is grounded and the end face of the piston 14 is grounded. Next, as shown in FIG. 2B, the boring rod 11 is lowered while the piston 14 is pressed against the bottom of the boring hole 18, and the sampling tube 1 is penetrated into the ground. Then, in that state, if an electric current is passed through the spring coils 6 and 6 to make it contract,
As described above, the leaf springs 9 and 9 come out from the projecting guide ports 10 and 10 by the ring-shaped piston 5 that is raised by the contraction of the spring coils 6 and 6, and are forcedly inserted into the sample to be closed and hold the sample. become. If the sampling tube 1 is pulled up from the ground by the boring rod 11 in that state, the sample in the tube 1 is prevented from falling off by the leaf springs 9 and 9, and the sample can be collected in a good state.

(Effects of the Invention) As described above, the device of the present invention forms an annular hollow portion having a required height in the lower body of the sampling tube, and the spring coil made of a shape memory alloy and the expansion and contraction of the coil are formed in the hollow portion. Since a vertically moving ring-shaped piston is installed, and a leaf spring for preventing the sample from falling out is fixed to the ring-shaped piston, the leaf spring being projectable into the sampling tube from the projecting guide port provided on the inner wall of the hollow portion. It has excellent effects such as.

(1) Since the sampling tube is penetrated into the ground and the leaf spring is forcibly inserted into the sample and closed in its stationary state,
Not only can the falling sample be reliably prevented from dropping, but operations such as temporary pulling up and rotation of the sampler are unnecessary, so that a high-quality sample can be collected without disturbing the sample.

(2) The leaf spring is moved in and out by using the expansion and contraction of the spring coil made of shape memory alloy, and these members are provided in the hollow part formed in the sampling tube, so the structure is simple and the cross-sectional area is small. The ratio is small, the operation is reliable, the cost is low, and the handling is simple.

[Brief description of drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of the device of the present invention, FIG. 2 is a sectional view taken along the line A-A of FIG. 1, and FIG. 3 is a longitudinal sectional view showing an example of a soil sampling device equipped with the device of the present invention. Figure, Figure 4 (a),
(B) and (C) are explanatory views sequentially showing a soil sampling step by the device of the present invention. 1 ... Sampling tube, 2 ... Shoe, 3 ... Double tube, 4 ... Hollow part, 5 ... Ring-shaped piston, 6 ... Spring coil, 7 ... Suspension rod, 8 ... Electric wire, 9 ... Leaf spring, 10 ... Projection guide port 11 ... Boring head 12 ... Sampler head 13 ... Piston rod, 14 ... Piston 15 ... Valve seat, 16 ... Spring, 17 ... Valve body 18 ... Boring hole

Claims (1)

[Claims] 1. A lower part of a sampling tube is formed with an annular hollow portion having a required height, and a spring coil made of a shape memory alloy and a ring-shaped piston which moves up and down by expansion and contraction of the coil are provided in the hollow portion. The ring-shaped piston is fixed with a leaf spring for preventing the sample from falling out of the sampling tube through a projecting guide port provided on the inner wall of the hollow portion. Fall prevention device.